Datasets:

---

gangiswag

/

python_ablation

like 0

[ "def getxc(self,whichsol_,xc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xc is None: raise TypeError(\"Invalid type for argument xc\")\n _copyback_xc = False\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n _copyback_xc = True\n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n _copyback_xc = True\n if xc_ is not None and len(xc_) != self.getnumcon():\n raise ValueError(\"Array argument xc has wrong length\")\n res = self.__obj.getxc(whichsol_,xc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xc:\n xc[:] = _tmparr_xc", "def putxc(self,whichsol_,xc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xc is None: raise TypeError(\"Invalid type for argument xc\")\n _copyback_xc = False\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n _copyback_xc = True\n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n _copyback_xc = True\n if xc_ is not None and len(xc_) != self.getnumcon():\n raise ValueError(\"Array argument xc has wrong length\")\n res = self.__obj.putxc(whichsol_,xc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xc:\n xc[:] = _tmparr_xc", "def getxx(self,whichsol_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xx is None: raise TypeError(\"Invalid type for argument xx\")\n _copyback_xx = False\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n _copyback_xx = True\n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n _copyback_xx = True\n if xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.getxx(whichsol_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xx:\n xx[:] = _tmparr_xx", "def putxc(self,whichsol_,xc_):\n _xc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and xc_ is not None and len(xc_) != self.getnumcon():\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),self.getnumcon()))\n if isinstance(xc_,numpy.ndarray) and not xc_.flags.writeable:\n raise ValueError(\"Argument xc must be writable\")\n if xc_ is None:\n raise ValueError(\"Argument xc may not be None\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n res = __library__.MSK_XX_putxc(self.__nativep,whichsol_,_xc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _xc_copyarray:\n xc_[:] = _xc_np_tmp", "def getxcslice(self,whichsol_,first_,last_,xc_):\n _xc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),((last_) - (first_))))\n if isinstance(xc_,numpy.ndarray) and not xc_.flags.writeable:\n raise ValueError(\"Argument xc must be writable\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n res = __library__.MSK_XX_getxcslice(self.__nativep,whichsol_,first_,last_,_xc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _xc_copyarray:\n xc_[:] = _xc_np_tmp", "def getxcslice(self,whichsol_,first_,last_,xc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_xc = False\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n _copyback_xc = True\n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n _copyback_xc = True\n if xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc has wrong length\")\n res = self.__obj.getxcslice(whichsol_,first_,last_,xc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xc:\n xc[:] = _tmparr_xc", "def getxx(self,whichsol_,xx_):\n _xx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),self.getnumvar()))\n if isinstance(xx_,numpy.ndarray) and not xx_.flags.writeable:\n raise ValueError(\"Argument xx must be writable\")\n if xx_ is None:\n raise ValueError(\"Argument xx may not be None\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n res = __library__.MSK_XX_getxx(self.__nativep,whichsol_,_xx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _xx_copyarray:\n xx_[:] = _xx_np_tmp", "def _solve(self) -> CasADiArrayType:\n self._solution = cvxopt.solvers.qp(**self._solver_input)\n return self._solution[\"x\"]", "def getsolution(self,whichsol_,skc,skx,skn,xc,xx,y,slc,suc,slx,sux,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skc = False\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n _copyback_skc = True\n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n _copyback_skc = True\n if skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc has wrong length\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx has wrong length\")\n _copyback_skn = False\n if skn is None:\n skn_ = None\n else:\n try:\n skn_ = memoryview(skn)\n except TypeError:\n try:\n _tmparr_skn = array.array(\"i\",skn)\n except TypeError:\n raise TypeError(\"Argument skn has wrong type\")\n else:\n skn_ = memoryview(_tmparr_skn)\n _copyback_skn = True\n else:\n if skn_.format != \"i\":\n skn_ = memoryview(array.array(\"i\",skn))\n _copyback_skn = True\n if skn_ is not None and len(skn_) != self.getnumcone():\n raise ValueError(\"Array argument skn has wrong length\")\n _copyback_xc = False\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n _copyback_xc = True\n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n _copyback_xc = True\n if xc_ is not None and len(xc_) != self.getnumcon():\n raise ValueError(\"Array argument xc has wrong length\")\n _copyback_xx = False\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n _copyback_xx = True\n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n _copyback_xx = True\n if xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx has wrong length\")\n _copyback_y = False\n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n _copyback_y = True\n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n _copyback_y = True\n if y_ is not None and len(y_) != self.getnumcon():\n raise ValueError(\"Array argument y has wrong length\")\n _copyback_slc = False\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n _copyback_slc = True\n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n _copyback_slc = True\n if slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc has wrong length\")\n _copyback_suc = False\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n _copyback_suc = True\n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n _copyback_suc = True\n if suc_ is not None and len(suc_) != self.getnumcon():\n raise ValueError(\"Array argument suc has wrong length\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx has wrong length\")\n _copyback_sux = False\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n _copyback_sux = True\n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n _copyback_sux = True\n if sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux has wrong length\")\n _copyback_snx = False\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n _copyback_snx = True\n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n _copyback_snx = True\n if snx_ is not None and len(snx_) != self.getnumvar():\n raise ValueError(\"Array argument snx has wrong length\")\n res,resargs = self.__obj.getsolution(whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _prosta_return_value,_solsta_return_value = resargs\n if _copyback_snx:\n snx[:] = _tmparr_snx\n if _copyback_sux:\n sux[:] = _tmparr_sux\n if _copyback_slx:\n slx[:] = _tmparr_slx\n if _copyback_suc:\n suc[:] = _tmparr_suc\n if _copyback_slc:\n slc[:] = _tmparr_slc\n if _copyback_y:\n y[:] = _tmparr_y\n if _copyback_xx:\n xx[:] = _tmparr_xx\n if _copyback_xc:\n xc[:] = _tmparr_xc\n if _copyback_skn:\n for __tmp_var_2 in range(len(skn_)): skn[__tmp_var_2] = stakey(_tmparr_skn[__tmp_var_2])\n if _copyback_skx:\n for __tmp_var_1 in range(len(skx_)): skx[__tmp_var_1] = stakey(_tmparr_skx[__tmp_var_1])\n if _copyback_skc:\n for __tmp_var_0 in range(len(skc_)): skc[__tmp_var_0] = stakey(_tmparr_skc[__tmp_var_0])\n _solsta_return_value = solsta(_solsta_return_value)\n _prosta_return_value = prosta(_prosta_return_value)\n return _prosta_return_value,_solsta_return_value", "def getsolution(self,whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_):\n prosta_ = ctypes.c_int32()\n solsta_ = ctypes.c_int32()\n _skc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),self.getnumcon()))\n if isinstance(skc_,numpy.ndarray) and not skc_.flags.writeable:\n raise ValueError(\"Argument skc must be writable\")\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))()\n else:\n _skc_tmp = None\n _skx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),self.getnumvar()))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n _skn_minlength = self.getnumcone()\n if self.getnumcone() > 0 and skn_ is not None and len(skn_) != self.getnumcone():\n raise ValueError(\"Array argument skn is not long enough: Is %d, expected %d\" % (len(skn_),self.getnumcone()))\n if isinstance(skn_,numpy.ndarray) and not skn_.flags.writeable:\n raise ValueError(\"Argument skn must be writable\")\n if skn_ is not None:\n _skn_tmp = (ctypes.c_int32 * len(skn_))()\n else:\n _skn_tmp = None\n _xc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and xc_ is not None and len(xc_) != self.getnumcon():\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),self.getnumcon()))\n if isinstance(xc_,numpy.ndarray) and not xc_.flags.writeable:\n raise ValueError(\"Argument xc must be writable\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n _xx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),self.getnumvar()))\n if isinstance(xx_,numpy.ndarray) and not xx_.flags.writeable:\n raise ValueError(\"Argument xx must be writable\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n _y_minlength = self.getnumcon()\n if self.getnumcon() > 0 and y_ is not None and len(y_) != self.getnumcon():\n raise ValueError(\"Array argument y is not long enough: Is %d, expected %d\" % (len(y_),self.getnumcon()))\n if isinstance(y_,numpy.ndarray) and not y_.flags.writeable:\n raise ValueError(\"Argument y must be writable\")\n if isinstance(y_, numpy.ndarray) and y_.dtype is numpy.dtype(numpy.float64) and y_.flags.contiguous:\n _y_copyarray = False\n _y_tmp = ctypes.cast(y_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif y_ is not None:\n _y_copyarray = True\n _y_np_tmp = numpy.zeros(len(y_),numpy.dtype(numpy.float64))\n _y_np_tmp[:] = y_\n assert _y_np_tmp.flags.contiguous\n _y_tmp = ctypes.cast(_y_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _y_copyarray = False\n _y_tmp = None\n \n _slc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),self.getnumcon()))\n if isinstance(slc_,numpy.ndarray) and not slc_.flags.writeable:\n raise ValueError(\"Argument slc must be writable\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n _suc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and suc_ is not None and len(suc_) != self.getnumcon():\n raise ValueError(\"Array argument suc is not long enough: Is %d, expected %d\" % (len(suc_),self.getnumcon()))\n if isinstance(suc_,numpy.ndarray) and not suc_.flags.writeable:\n raise ValueError(\"Argument suc must be writable\")\n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n _slx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),self.getnumvar()))\n if isinstance(slx_,numpy.ndarray) and not slx_.flags.writeable:\n raise ValueError(\"Argument slx must be writable\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n _sux_minlength = self.getnumvar()\n if self.getnumvar() > 0 and sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),self.getnumvar()))\n if isinstance(sux_,numpy.ndarray) and not sux_.flags.writeable:\n raise ValueError(\"Argument sux must be writable\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n _snx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and snx_ is not None and len(snx_) != self.getnumvar():\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),self.getnumvar()))\n if isinstance(snx_,numpy.ndarray) and not snx_.flags.writeable:\n raise ValueError(\"Argument snx must be writable\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_getsolution(self.__nativep,whichsol_,ctypes.byref(prosta_),ctypes.byref(solsta_),_skc_tmp,_skx_tmp,_skn_tmp,_xc_tmp,_xx_tmp,_y_tmp,_slc_tmp,_suc_tmp,_slx_tmp,_sux_tmp,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _prosta_return_value = prosta(prosta_.value)\n _solsta_return_value = solsta(solsta_.value)\n if skc_ is not None: skc_[:] = [ stakey(v) for v in _skc_tmp[0:len(skc_)] ]\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]\n if skn_ is not None: skn_[:] = [ stakey(v) for v in _skn_tmp[0:len(skn_)] ]\n if _xc_copyarray:\n xc_[:] = _xc_np_tmp\n if _xx_copyarray:\n xx_[:] = _xx_np_tmp\n if _y_copyarray:\n y_[:] = _y_np_tmp\n if _slc_copyarray:\n slc_[:] = _slc_np_tmp\n if _suc_copyarray:\n suc_[:] = _suc_np_tmp\n if _slx_copyarray:\n slx_[:] = _slx_np_tmp\n if _sux_copyarray:\n sux_[:] = _sux_np_tmp\n if _snx_copyarray:\n snx_[:] = _snx_np_tmp\n return (_prosta_return_value,_solsta_return_value)", "def get_x0(self, x0):\n pass", "def getskx(self,whichsol_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.getskx(whichsol_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skx:\n for __tmp_var_0 in range(len(skx_)): skx[__tmp_var_0] = stakey(_tmparr_skx[__tmp_var_0])", "def putxcslice(self,whichsol_,first_,last_,xc_):\n _xc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),((last_) - (first_))))\n if xc_ is None:\n raise ValueError(\"Argument xc cannot be None\")\n if xc_ is None:\n raise ValueError(\"Argument xc may not be None\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n res = __library__.MSK_XX_putxcslice(self.__nativep,whichsol_,first_,last_,_xc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getskx(self,whichsol_,skx_):\n _skx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),self.getnumvar()))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_getskx(self.__nativep,whichsol_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]", "def findX(self):\n return self.x", "def cxvec(self):\n return np.array([self.cx, self.cy])", "def get_x0(self):\n from xfel.cxi.postrefine.mod_leastsqr import prep_input\n from xfel.cxi.postrefine.test_rs import calc_spot_radius\n\n a_star = sqr(self.orientation.reciprocal_matrix())\n miller_indices = self.miller_array.indices()\n spot_radius = calc_spot_radius(a_star, miller_indices, self.wavelength)\n x_init = [self.G, - 1 * self.minus_2B / 2, 0, 0,\n spot_radius, spot_radius, 0.0026]\n x_init.extend(self.uc)\n x0_all = np.array(x_init)\n x0 = prep_input(x0_all, self.crystal_system)\n return x0", "def getX(self):\n return self.components[0]", "def getX(self):\n return self.components[0]", "def getdviolbarvar(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getdviolbarvar(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def xvec(self):\n return self._xvec", "def vec_x(self):\t\r\n if self.ox != 0:\r\n ov = self.ox\r\n lv = self.self.lx + self.ox\r\n else:\r\n ov = self.dx / 2\r\n lv = self.lx\r\n\r\n xv = \"\"\r\n for num in np.arange(ov, lv, self.dx):\r\n xv += str(num) + \" \"\r\n\r\n return xv", "def x ( self ) :\n return self.xvar", "def getdviolvar(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getdviolvar(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def Cvec(self):\n return vec(self.xc, self.yc)", "def getX(self):\r\n\t\treturn self._x", "def get_cvxpy_variable(self, channel_indx=None):\n if channel_indx is None:\n output_channels = cp.hstack(\n [\n self.layer_input[cur_channel_indx]\n for cur_channel_indx in range(self.n_in_channels)\n ]\n )\n else:\n output_channels = self.layer_input[channel_indx]\n return output_channels", "def compute(self):\n fname = '%s::%s'%(self.__class__.__name__, self.compute.__name__) \n self.lhaveImage = False\n self.lhaveXCs = False\n if (not self.linit):\n print(\"%s: Module not initialized\"%fname)\n return -1\n ierr = c_int(1)\n self.lib.xcloc_compute(ierr)\n ierr = ierr.value\n if (ierr != 0):\n print(\"%s: Error in xcloc calculation\"%fname)\n self.lhaveImage = True\n self.lhaveXCs = True\n return ierr", "def getXVelocity(self):\n return self.xvelocity", "def putsolution(self,whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_):\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))(*skc_)\n else:\n _skc_tmp = None\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))(*skx_)\n else:\n _skx_tmp = None\n if skn_ is not None:\n _skn_tmp = (ctypes.c_int32 * len(skn_))(*skn_)\n else:\n _skn_tmp = None\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n if isinstance(y_, numpy.ndarray) and y_.dtype is numpy.dtype(numpy.float64) and y_.flags.contiguous:\n _y_copyarray = False\n _y_tmp = ctypes.cast(y_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif y_ is not None:\n _y_copyarray = True\n _y_np_tmp = numpy.zeros(len(y_),numpy.dtype(numpy.float64))\n _y_np_tmp[:] = y_\n assert _y_np_tmp.flags.contiguous\n _y_tmp = ctypes.cast(_y_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _y_copyarray = False\n _y_tmp = None\n \n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_putsolution(self.__nativep,whichsol_,_skc_tmp,_skx_tmp,_skn_tmp,_xc_tmp,_xx_tmp,_y_tmp,_slc_tmp,_suc_tmp,_slx_tmp,_sux_tmp,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)" ]

[ "0.855", "0.6547385", "0.64594483", "0.643041", "0.6404519", "0.63980997", "0.60873556", "0.60166633", "0.59956", "0.5775957", "0.5768749", "0.5747192", "0.55944407", "0.5565955", "0.5563037", "0.55297995", "0.5522461", "0.5517281", "0.5517281", "0.55121505", "0.5492572", "0.5490516", "0.5456514", "0.5455292", "0.5446138", "0.5442748", "0.54162437", "0.54073125", "0.5396066", "0.5383411" ]

[ "def getxx(self,whichsol_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xx is None: raise TypeError(\"Invalid type for argument xx\")\n _copyback_xx = False\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n _copyback_xx = True\n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n _copyback_xx = True\n if xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.getxx(whichsol_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xx:\n xx[:] = _tmparr_xx", "def getxc(self,whichsol_,xc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xc is None: raise TypeError(\"Invalid type for argument xc\")\n _copyback_xc = False\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n _copyback_xc = True\n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n _copyback_xc = True\n if xc_ is not None and len(xc_) != self.getnumcon():\n raise ValueError(\"Array argument xc has wrong length\")\n res = self.__obj.getxc(whichsol_,xc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xc:\n xc[:] = _tmparr_xc", "def findX(self):\n return self.x", "def getslx(self,whichsol_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.getslx(whichsol_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slx:\n slx[:] = _tmparr_slx", "def get_x0(self, x0):\n pass", "def _solve(self) -> CasADiArrayType:\n self._solution = cvxopt.solvers.qp(**self._solver_input)\n return self._solution[\"x\"]", "def xx(self):\n if self._xx is None:\n self._create_meshgrid(self.x, self.y)\n return self._xx", "def xval(self, i):\n return self.x[i]", "def getxc(self,whichsol_,xc_):\n _xc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and xc_ is not None and len(xc_) != self.getnumcon():\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),self.getnumcon()))\n if isinstance(xc_,numpy.ndarray) and not xc_.flags.writeable:\n raise ValueError(\"Argument xc must be writable\")\n if xc_ is None:\n raise ValueError(\"Argument xc may not be None\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n res = __library__.MSK_XX_getxc(self.__nativep,whichsol_,_xc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _xc_copyarray:\n xc_[:] = _xc_np_tmp", "def getslx(self,whichsol_,slx_):\n _slx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),self.getnumvar()))\n if isinstance(slx_,numpy.ndarray) and not slx_.flags.writeable:\n raise ValueError(\"Argument slx must be writable\")\n if slx_ is None:\n raise ValueError(\"Argument slx may not be None\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_getslx(self.__nativep,whichsol_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slx_copyarray:\n slx_[:] = _slx_np_tmp", "def xvec(self):\n return self._xvec", "def get_xrange(self):\n return self.xvec[0], self.xvec[-1]", "def x ( self ) :\n return self.xvar", "def getxxslice(self,whichsol_,first_,last_,xx_):\n _xx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),((last_) - (first_))))\n if isinstance(xx_,numpy.ndarray) and not xx_.flags.writeable:\n raise ValueError(\"Argument xx must be writable\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n res = __library__.MSK_XX_getxxslice(self.__nativep,whichsol_,first_,last_,_xx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _xx_copyarray:\n xx_[:] = _xx_np_tmp", "def getxxslice(self,whichsol_,first_,last_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_xx = False\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n _copyback_xx = True\n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n _copyback_xx = True\n if xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.getxxslice(whichsol_,first_,last_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xx:\n xx[:] = _tmparr_xx", "def getX(self):\r\n\t\treturn self._x", "def putxx(self,whichsol_,xx_):\n _xx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),self.getnumvar()))\n if xx_ is None:\n raise ValueError(\"Argument xx cannot be None\")\n if xx_ is None:\n raise ValueError(\"Argument xx may not be None\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n res = __library__.MSK_XX_putxx(self.__nativep,whichsol_,_xx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getX(self):\n return self.x", "def getskx(self,whichsol_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.getskx(whichsol_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skx:\n for __tmp_var_0 in range(len(skx_)): skx[__tmp_var_0] = stakey(_tmparr_skx[__tmp_var_0])", "def getX(self):\n return self.__x", "def getskx(self,whichsol_,skx_):\n _skx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),self.getnumvar()))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_getskx(self.__nativep,whichsol_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]", "def putxx(self,whichsol_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xx is None: raise TypeError(\"Invalid type for argument xx\")\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n \n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n \n if xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.putxx(whichsol_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def get_x0(self):\n from xfel.cxi.postrefine.mod_leastsqr import prep_input\n from xfel.cxi.postrefine.test_rs import calc_spot_radius\n\n a_star = sqr(self.orientation.reciprocal_matrix())\n miller_indices = self.miller_array.indices()\n spot_radius = calc_spot_radius(a_star, miller_indices, self.wavelength)\n x_init = [self.G, - 1 * self.minus_2B / 2, 0, 0,\n spot_radius, spot_radius, 0.0026]\n x_init.extend(self.uc)\n x0_all = np.array(x_init)\n x0 = prep_input(x0_all, self.crystal_system)\n return x0", "def calculateXi(self, rk=None):\n if rk is None:\n return self.xi, self.varxi\n else:\n return self.xi - rk.xi, self.varxi + rk.varxi", "def get_sol(self):", "def xvec(self):\n return np.array([self.x, self.y])", "def get_x(self):\n return self.x[:self.nump, :]", "def calc_xi(self):\n\t\n\tk_dot_x = self.k[0]*self.x[0,:,:] + self.k[1]*self.x[1,:,:] + self.k[2]*self.x[2,:,:]\n\n\tself.xi = self.t.reshape((1,self.N)) - k_dot_x/l.Clight\n\n\treturn", "def x0(self):\n return self.params['x0']", "def getXp(self, Xs_minus, Vs_minus, As_minus):\n return Xs_minus + Vs_minus + 0.5*As_minus" ]

[ "0.79572123", "0.6351557", "0.62246144", "0.6201818", "0.61870646", "0.61735386", "0.61519146", "0.61346936", "0.6094907", "0.60933805", "0.6077781", "0.6060911", "0.6036646", "0.5999405", "0.59445125", "0.5931299", "0.5923583", "0.5828043", "0.58270687", "0.58254653", "0.58060455", "0.5799017", "0.57881004", "0.57844144", "0.57769215", "0.57768327", "0.57693505", "0.5738045", "0.5709669", "0.5708933" ]

[ "def gety(self,whichsol_,y): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if y is None: raise TypeError(\"Invalid type for argument y\")\n _copyback_y = False\n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n _copyback_y = True\n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n _copyback_y = True\n if y_ is not None and len(y_) != self.getnumcon():\n raise ValueError(\"Array argument y has wrong length\")\n res = self.__obj.gety(whichsol_,y_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_y:\n y[:] = _tmparr_y", "def findY(self):\n return self.y", "def y ( self ) :\n return self.yvar", "def get_y(self):\n return self.__y", "def _get_y_data(self):\n return self.y(self.xs)", "def yvec(self):\n return self._yvec", "def get_y(self, x):\n p, y = self.get_p_y(x)\n return y", "def y(self):\n return self[\"y\"]", "def getY(self, x=0):\n if x is not None:\n a = self.coefficients[\"y2\"]\n b = self.coefficients[\"y1\"]\n c = (\n self.coefficients[\"c\"]\n + self.coefficients[\"x2\"] * x ** 2.0\n + self.coefficients[\"x1\"] * x\n )\n\n return self.quadratic(a, b, c)\n else:\n return [None]", "def y(self):\n return self.y", "def y(self):\n return self.__y", "def y(self):\n return self.__y", "def y(self):\n return self.__y", "def y(self):\n return self.__y", "def y(self):\n return self.__y", "def y(self):\n return self.__y", "def y(self):\n return self.__y", "def y(self):\n return self.__y", "def y(self):\n return self.__y", "def y(self):\n return self.__y", "def getY(self):\r\n\t\treturn self._y", "def y(self):\n return self._arr[1]", "def Y(self):\n return self.y\n pass", "def y(self):\n if self._y is None:\n self.compute_coordinates()\n return self._y", "def y(self):\n return self._y", "def y(self):\n return self._y", "def y(self):\n return self._y", "def y(self):\n return self._y", "def y(self):\n return self._y", "def y(self):\n return self._y" ]

[ "0.8433188", "0.7439271", "0.72740275", "0.7210725", "0.7059704", "0.70467824", "0.7036395", "0.69869375", "0.6916276", "0.6868019", "0.686457", "0.686457", "0.686457", "0.686457", "0.686457", "0.686457", "0.686457", "0.686457", "0.686457", "0.686457", "0.6860071", "0.6810401", "0.6806443", "0.676419", "0.67611724", "0.67611724", "0.67611724", "0.67611724", "0.67611724", "0.67611724" ]

[ "def getslc(self,whichsol_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slc is None: raise TypeError(\"Invalid type for argument slc\")\n _copyback_slc = False\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n _copyback_slc = True\n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n _copyback_slc = True\n if slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.getslc(whichsol_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slc:\n slc[:] = _tmparr_slc", "def getslcslice(self,whichsol_,first_,last_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_slc = False\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n _copyback_slc = True\n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n _copyback_slc = True\n if slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.getslcslice(whichsol_,first_,last_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slc:\n slc[:] = _tmparr_slc", "def getslcslice(self,whichsol_,first_,last_,slc_):\n _slc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),((last_) - (first_))))\n if isinstance(slc_,numpy.ndarray) and not slc_.flags.writeable:\n raise ValueError(\"Argument slc must be writable\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_getslcslice(self.__nativep,whichsol_,first_,last_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slc_copyarray:\n slc_[:] = _slc_np_tmp", "def getslx(self,whichsol_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.getslx(whichsol_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slx:\n slx[:] = _tmparr_slx", "def getsolution(self,whichsol_,skc,skx,skn,xc,xx,y,slc,suc,slx,sux,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skc = False\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n _copyback_skc = True\n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n _copyback_skc = True\n if skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc has wrong length\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx has wrong length\")\n _copyback_skn = False\n if skn is None:\n skn_ = None\n else:\n try:\n skn_ = memoryview(skn)\n except TypeError:\n try:\n _tmparr_skn = array.array(\"i\",skn)\n except TypeError:\n raise TypeError(\"Argument skn has wrong type\")\n else:\n skn_ = memoryview(_tmparr_skn)\n _copyback_skn = True\n else:\n if skn_.format != \"i\":\n skn_ = memoryview(array.array(\"i\",skn))\n _copyback_skn = True\n if skn_ is not None and len(skn_) != self.getnumcone():\n raise ValueError(\"Array argument skn has wrong length\")\n _copyback_xc = False\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n _copyback_xc = True\n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n _copyback_xc = True\n if xc_ is not None and len(xc_) != self.getnumcon():\n raise ValueError(\"Array argument xc has wrong length\")\n _copyback_xx = False\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n _copyback_xx = True\n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n _copyback_xx = True\n if xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx has wrong length\")\n _copyback_y = False\n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n _copyback_y = True\n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n _copyback_y = True\n if y_ is not None and len(y_) != self.getnumcon():\n raise ValueError(\"Array argument y has wrong length\")\n _copyback_slc = False\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n _copyback_slc = True\n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n _copyback_slc = True\n if slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc has wrong length\")\n _copyback_suc = False\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n _copyback_suc = True\n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n _copyback_suc = True\n if suc_ is not None and len(suc_) != self.getnumcon():\n raise ValueError(\"Array argument suc has wrong length\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx has wrong length\")\n _copyback_sux = False\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n _copyback_sux = True\n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n _copyback_sux = True\n if sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux has wrong length\")\n _copyback_snx = False\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n _copyback_snx = True\n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n _copyback_snx = True\n if snx_ is not None and len(snx_) != self.getnumvar():\n raise ValueError(\"Array argument snx has wrong length\")\n res,resargs = self.__obj.getsolution(whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _prosta_return_value,_solsta_return_value = resargs\n if _copyback_snx:\n snx[:] = _tmparr_snx\n if _copyback_sux:\n sux[:] = _tmparr_sux\n if _copyback_slx:\n slx[:] = _tmparr_slx\n if _copyback_suc:\n suc[:] = _tmparr_suc\n if _copyback_slc:\n slc[:] = _tmparr_slc\n if _copyback_y:\n y[:] = _tmparr_y\n if _copyback_xx:\n xx[:] = _tmparr_xx\n if _copyback_xc:\n xc[:] = _tmparr_xc\n if _copyback_skn:\n for __tmp_var_2 in range(len(skn_)): skn[__tmp_var_2] = stakey(_tmparr_skn[__tmp_var_2])\n if _copyback_skx:\n for __tmp_var_1 in range(len(skx_)): skx[__tmp_var_1] = stakey(_tmparr_skx[__tmp_var_1])\n if _copyback_skc:\n for __tmp_var_0 in range(len(skc_)): skc[__tmp_var_0] = stakey(_tmparr_skc[__tmp_var_0])\n _solsta_return_value = solsta(_solsta_return_value)\n _prosta_return_value = prosta(_prosta_return_value)\n return _prosta_return_value,_solsta_return_value", "def putslc(self,whichsol_,slc_):\n _slc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),self.getnumcon()))\n if slc_ is None:\n raise ValueError(\"Argument slc cannot be None\")\n if slc_ is None:\n raise ValueError(\"Argument slc may not be None\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_putslc(self.__nativep,whichsol_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslc(self,whichsol_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slc is None: raise TypeError(\"Invalid type for argument slc\")\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n \n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n \n if slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.putslc(whichsol_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getskc(self,whichsol_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skc = False\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n _copyback_skc = True\n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n _copyback_skc = True\n if skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.getskc(whichsol_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skc:\n for __tmp_var_0 in range(len(skc_)): skc[__tmp_var_0] = stakey(_tmparr_skc[__tmp_var_0])", "def getsolution(self,whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_):\n prosta_ = ctypes.c_int32()\n solsta_ = ctypes.c_int32()\n _skc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),self.getnumcon()))\n if isinstance(skc_,numpy.ndarray) and not skc_.flags.writeable:\n raise ValueError(\"Argument skc must be writable\")\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))()\n else:\n _skc_tmp = None\n _skx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),self.getnumvar()))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n _skn_minlength = self.getnumcone()\n if self.getnumcone() > 0 and skn_ is not None and len(skn_) != self.getnumcone():\n raise ValueError(\"Array argument skn is not long enough: Is %d, expected %d\" % (len(skn_),self.getnumcone()))\n if isinstance(skn_,numpy.ndarray) and not skn_.flags.writeable:\n raise ValueError(\"Argument skn must be writable\")\n if skn_ is not None:\n _skn_tmp = (ctypes.c_int32 * len(skn_))()\n else:\n _skn_tmp = None\n _xc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and xc_ is not None and len(xc_) != self.getnumcon():\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),self.getnumcon()))\n if isinstance(xc_,numpy.ndarray) and not xc_.flags.writeable:\n raise ValueError(\"Argument xc must be writable\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n _xx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),self.getnumvar()))\n if isinstance(xx_,numpy.ndarray) and not xx_.flags.writeable:\n raise ValueError(\"Argument xx must be writable\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n _y_minlength = self.getnumcon()\n if self.getnumcon() > 0 and y_ is not None and len(y_) != self.getnumcon():\n raise ValueError(\"Array argument y is not long enough: Is %d, expected %d\" % (len(y_),self.getnumcon()))\n if isinstance(y_,numpy.ndarray) and not y_.flags.writeable:\n raise ValueError(\"Argument y must be writable\")\n if isinstance(y_, numpy.ndarray) and y_.dtype is numpy.dtype(numpy.float64) and y_.flags.contiguous:\n _y_copyarray = False\n _y_tmp = ctypes.cast(y_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif y_ is not None:\n _y_copyarray = True\n _y_np_tmp = numpy.zeros(len(y_),numpy.dtype(numpy.float64))\n _y_np_tmp[:] = y_\n assert _y_np_tmp.flags.contiguous\n _y_tmp = ctypes.cast(_y_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _y_copyarray = False\n _y_tmp = None\n \n _slc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),self.getnumcon()))\n if isinstance(slc_,numpy.ndarray) and not slc_.flags.writeable:\n raise ValueError(\"Argument slc must be writable\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n _suc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and suc_ is not None and len(suc_) != self.getnumcon():\n raise ValueError(\"Array argument suc is not long enough: Is %d, expected %d\" % (len(suc_),self.getnumcon()))\n if isinstance(suc_,numpy.ndarray) and not suc_.flags.writeable:\n raise ValueError(\"Argument suc must be writable\")\n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n _slx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),self.getnumvar()))\n if isinstance(slx_,numpy.ndarray) and not slx_.flags.writeable:\n raise ValueError(\"Argument slx must be writable\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n _sux_minlength = self.getnumvar()\n if self.getnumvar() > 0 and sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),self.getnumvar()))\n if isinstance(sux_,numpy.ndarray) and not sux_.flags.writeable:\n raise ValueError(\"Argument sux must be writable\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n _snx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and snx_ is not None and len(snx_) != self.getnumvar():\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),self.getnumvar()))\n if isinstance(snx_,numpy.ndarray) and not snx_.flags.writeable:\n raise ValueError(\"Argument snx must be writable\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_getsolution(self.__nativep,whichsol_,ctypes.byref(prosta_),ctypes.byref(solsta_),_skc_tmp,_skx_tmp,_skn_tmp,_xc_tmp,_xx_tmp,_y_tmp,_slc_tmp,_suc_tmp,_slx_tmp,_sux_tmp,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _prosta_return_value = prosta(prosta_.value)\n _solsta_return_value = solsta(solsta_.value)\n if skc_ is not None: skc_[:] = [ stakey(v) for v in _skc_tmp[0:len(skc_)] ]\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]\n if skn_ is not None: skn_[:] = [ stakey(v) for v in _skn_tmp[0:len(skn_)] ]\n if _xc_copyarray:\n xc_[:] = _xc_np_tmp\n if _xx_copyarray:\n xx_[:] = _xx_np_tmp\n if _y_copyarray:\n y_[:] = _y_np_tmp\n if _slc_copyarray:\n slc_[:] = _slc_np_tmp\n if _suc_copyarray:\n suc_[:] = _suc_np_tmp\n if _slx_copyarray:\n slx_[:] = _slx_np_tmp\n if _sux_copyarray:\n sux_[:] = _sux_np_tmp\n if _snx_copyarray:\n snx_[:] = _snx_np_tmp\n return (_prosta_return_value,_solsta_return_value)", "def getsolsta(self,whichsol_):\n solsta_ = ctypes.c_int32()\n res = __library__.MSK_XX_getsolsta(self.__nativep,whichsol_,ctypes.byref(solsta_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _solsta_return_value = solsta(solsta_.value)\n return (_solsta_return_value)", "def getslx(self,whichsol_,slx_):\n _slx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),self.getnumvar()))\n if isinstance(slx_,numpy.ndarray) and not slx_.flags.writeable:\n raise ValueError(\"Argument slx must be writable\")\n if slx_ is None:\n raise ValueError(\"Argument slx may not be None\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_getslx(self.__nativep,whichsol_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slx_copyarray:\n slx_[:] = _slx_np_tmp", "def getskc(self,whichsol_,skc_):\n _skc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),self.getnumcon()))\n if isinstance(skc_,numpy.ndarray) and not skc_.flags.writeable:\n raise ValueError(\"Argument skc must be writable\")\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))()\n else:\n _skc_tmp = None\n res = __library__.MSK_XX_getskc(self.__nativep,whichsol_,_skc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skc_ is not None: skc_[:] = [ stakey(v) for v in _skc_tmp[0:len(skc_)] ]", "def getsolsta(self,whichsol_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res,resargs = self.__obj.getsolsta(whichsol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _solsta_return_value = resargs\n _solsta_return_value = solsta(_solsta_return_value)\n return _solsta_return_value", "def putslcslice(self,whichsol_,first_,last_,slc_):\n _slc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),((last_) - (first_))))\n if slc_ is None:\n raise ValueError(\"Argument slc cannot be None\")\n if slc_ is None:\n raise ValueError(\"Argument slc may not be None\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_putslcslice(self.__nativep,whichsol_,first_,last_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsolutioni(self,accmode_,i_,whichsol_): # 3\n if not isinstance(accmode_,accmode): raise TypeError(\"Argument accmode has wrong type\")\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res,resargs = self.__obj.getsolutioni(accmode_,i_,whichsol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _sk_return_value,_x_return_value,_sl_return_value,_su_return_value,_sn_return_value = resargs\n _sk_return_value = stakey(_sk_return_value)\n return _sk_return_value,_x_return_value,_sl_return_value,_su_return_value,_sn_return_value", "def putslcslice(self,whichsol_,first_,last_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slc is None: raise TypeError(\"Invalid type for argument slc\")\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n \n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n \n if slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.putslcslice(whichsol_,first_,last_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getdualsolutionnorms(self,whichsol_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res,resargs = self.__obj.getdualsolutionnorms(whichsol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _nrmy_return_value,_nrmslc_return_value,_nrmsuc_return_value,_nrmslx_return_value,_nrmsux_return_value,_nrmsnx_return_value,_nrmbars_return_value = resargs\n return _nrmy_return_value,_nrmslc_return_value,_nrmsuc_return_value,_nrmslx_return_value,_nrmsux_return_value,_nrmsnx_return_value,_nrmbars_return_value", "def getdualsolutionnorms(self,whichsol_):\n nrmy_ = ctypes.c_double()\n nrmslc_ = ctypes.c_double()\n nrmsuc_ = ctypes.c_double()\n nrmslx_ = ctypes.c_double()\n nrmsux_ = ctypes.c_double()\n nrmsnx_ = ctypes.c_double()\n nrmbars_ = ctypes.c_double()\n res = __library__.MSK_XX_getdualsolutionnorms(self.__nativep,whichsol_,ctypes.byref(nrmy_),ctypes.byref(nrmslc_),ctypes.byref(nrmsuc_),ctypes.byref(nrmslx_),ctypes.byref(nrmsux_),ctypes.byref(nrmsnx_),ctypes.byref(nrmbars_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n nrmy_ = nrmy_.value\n _nrmy_return_value = nrmy_\n nrmslc_ = nrmslc_.value\n _nrmslc_return_value = nrmslc_\n nrmsuc_ = nrmsuc_.value\n _nrmsuc_return_value = nrmsuc_\n nrmslx_ = nrmslx_.value\n _nrmslx_return_value = nrmslx_\n nrmsux_ = nrmsux_.value\n _nrmsux_return_value = nrmsux_\n nrmsnx_ = nrmsnx_.value\n _nrmsnx_return_value = nrmsnx_\n nrmbars_ = nrmbars_.value\n _nrmbars_return_value = nrmbars_\n return (_nrmy_return_value,_nrmslc_return_value,_nrmsuc_return_value,_nrmslx_return_value,_nrmsux_return_value,_nrmsnx_return_value,_nrmbars_return_value)", "def getskx(self,whichsol_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.getskx(whichsol_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skx:\n for __tmp_var_0 in range(len(skx_)): skx[__tmp_var_0] = stakey(_tmparr_skx[__tmp_var_0])", "def getskcslice(self,whichsol_,first_,last_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skc = False\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n _copyback_skc = True\n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n _copyback_skc = True\n if skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.getskcslice(whichsol_,first_,last_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skc:\n for __tmp_var_0 in range(len(skc_)): skc[__tmp_var_0] = stakey(_tmparr_skc[__tmp_var_0])", "def putsolution(self,whichsol_,skc,skx,skn,xc,xx,y,slc,suc,slx,sux,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n \n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n \n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skn is None:\n skn_ = None\n else:\n try:\n skn_ = memoryview(skn)\n except TypeError:\n try:\n _tmparr_skn = array.array(\"i\",skn)\n except TypeError:\n raise TypeError(\"Argument skn has wrong type\")\n else:\n skn_ = memoryview(_tmparr_skn)\n \n else:\n if skn_.format != \"i\":\n skn_ = memoryview(array.array(\"i\",skn))\n \n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n \n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n \n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n \n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n \n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n \n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n \n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n \n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n \n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n \n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n \n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n \n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n \n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n \n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n \n res = self.__obj.putsolution(whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def slp(self):\n return self.elevcomp", "def getslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.getslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slx:\n slx[:] = _tmparr_slx", "def get_sol(self):", "def getsolutioninfo(self,whichsol_):\n pobj_ = ctypes.c_double()\n pviolcon_ = ctypes.c_double()\n pviolvar_ = ctypes.c_double()\n pviolbarvar_ = ctypes.c_double()\n pviolcone_ = ctypes.c_double()\n pviolitg_ = ctypes.c_double()\n dobj_ = ctypes.c_double()\n dviolcon_ = ctypes.c_double()\n dviolvar_ = ctypes.c_double()\n dviolbarvar_ = ctypes.c_double()\n dviolcone_ = ctypes.c_double()\n res = __library__.MSK_XX_getsolutioninfo(self.__nativep,whichsol_,ctypes.byref(pobj_),ctypes.byref(pviolcon_),ctypes.byref(pviolvar_),ctypes.byref(pviolbarvar_),ctypes.byref(pviolcone_),ctypes.byref(pviolitg_),ctypes.byref(dobj_),ctypes.byref(dviolcon_),ctypes.byref(dviolvar_),ctypes.byref(dviolbarvar_),ctypes.byref(dviolcone_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n pobj_ = pobj_.value\n _pobj_return_value = pobj_\n pviolcon_ = pviolcon_.value\n _pviolcon_return_value = pviolcon_\n pviolvar_ = pviolvar_.value\n _pviolvar_return_value = pviolvar_\n pviolbarvar_ = pviolbarvar_.value\n _pviolbarvar_return_value = pviolbarvar_\n pviolcone_ = pviolcone_.value\n _pviolcone_return_value = pviolcone_\n pviolitg_ = pviolitg_.value\n _pviolitg_return_value = pviolitg_\n dobj_ = dobj_.value\n _dobj_return_value = dobj_\n dviolcon_ = dviolcon_.value\n _dviolcon_return_value = dviolcon_\n dviolvar_ = dviolvar_.value\n _dviolvar_return_value = dviolvar_\n dviolbarvar_ = dviolbarvar_.value\n _dviolbarvar_return_value = dviolbarvar_\n dviolcone_ = dviolcone_.value\n _dviolcone_return_value = dviolcone_\n return (_pobj_return_value,_pviolcon_return_value,_pviolvar_return_value,_pviolbarvar_return_value,_pviolcone_return_value,_pviolitg_return_value,_dobj_return_value,_dviolcon_return_value,_dviolvar_return_value,_dviolbarvar_return_value,_dviolcone_return_value)", "def sq_drij_c(r_i,r_j,latticevec):\n\n dr_pbc = delta_r_c(r_i,r_j,latticevec)\n\n sq_dr = np.dot( dr_pbc,dr_pbc)\n\n return sq_dr", "def getslxslice(self,whichsol_,first_,last_,slx_):\n _slx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),((last_) - (first_))))\n if isinstance(slx_,numpy.ndarray) and not slx_.flags.writeable:\n raise ValueError(\"Argument slx must be writable\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_getslxslice(self.__nativep,whichsol_,first_,last_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slx_copyarray:\n slx_[:] = _slx_np_tmp", "def getskcslice(self,whichsol_,first_,last_,skc_):\n _skc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),((last_) - (first_))))\n if isinstance(skc_,numpy.ndarray) and not skc_.flags.writeable:\n raise ValueError(\"Argument skc must be writable\")\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))()\n else:\n _skc_tmp = None\n res = __library__.MSK_XX_getskcslice(self.__nativep,whichsol_,first_,last_,_skc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skc_ is not None: skc_[:] = [ stakey(v) for v in _skc_tmp[0:len(skc_)] ]", "def getprimalsolutionnorms(self,whichsol_):\n nrmxc_ = ctypes.c_double()\n nrmxx_ = ctypes.c_double()\n nrmbarx_ = ctypes.c_double()\n res = __library__.MSK_XX_getprimalsolutionnorms(self.__nativep,whichsol_,ctypes.byref(nrmxc_),ctypes.byref(nrmxx_),ctypes.byref(nrmbarx_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n nrmxc_ = nrmxc_.value\n _nrmxc_return_value = nrmxc_\n nrmxx_ = nrmxx_.value\n _nrmxx_return_value = nrmxx_\n nrmbarx_ = nrmbarx_.value\n _nrmbarx_return_value = nrmbarx_\n return (_nrmxc_return_value,_nrmxx_return_value,_nrmbarx_return_value)", "def getsolutioninfo(self,whichsol_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res,resargs = self.__obj.getsolutioninfo(whichsol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _pobj_return_value,_pviolcon_return_value,_pviolvar_return_value,_pviolbarvar_return_value,_pviolcone_return_value,_pviolitg_return_value,_dobj_return_value,_dviolcon_return_value,_dviolvar_return_value,_dviolbarvar_return_value,_dviolcone_return_value = resargs\n return _pobj_return_value,_pviolcon_return_value,_pviolvar_return_value,_pviolbarvar_return_value,_pviolcone_return_value,_pviolitg_return_value,_dobj_return_value,_dviolcon_return_value,_dviolvar_return_value,_dviolbarvar_return_value,_dviolcone_return_value" ]

[ "0.84871864", "0.68870384", "0.6838498", "0.6609151", "0.6535311", "0.65202194", "0.6476272", "0.646697", "0.639542", "0.62924033", "0.62559444", "0.62352747", "0.6041624", "0.60120684", "0.5960807", "0.5940817", "0.5703786", "0.5680628", "0.55889", "0.5581526", "0.5552744", "0.5530245", "0.54886144", "0.54725116", "0.5456938", "0.54264826", "0.542551", "0.5417389", "0.5306435", "0.52536017" ]

[ "def getsuc(self,whichsol_,suc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if suc is None: raise TypeError(\"Invalid type for argument suc\")\n _copyback_suc = False\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n _copyback_suc = True\n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n _copyback_suc = True\n if suc_ is not None and len(suc_) != self.getnumcon():\n raise ValueError(\"Array argument suc has wrong length\")\n res = self.__obj.getsuc(whichsol_,suc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_suc:\n suc[:] = _tmparr_suc", "def putsuc(self,whichsol_,suc_):\n _suc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and suc_ is not None and len(suc_) != self.getnumcon():\n raise ValueError(\"Array argument suc is not long enough: Is %d, expected %d\" % (len(suc_),self.getnumcon()))\n if suc_ is None:\n raise ValueError(\"Argument suc cannot be None\")\n if suc_ is None:\n raise ValueError(\"Argument suc may not be None\")\n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n res = __library__.MSK_XX_putsuc(self.__nativep,whichsol_,_suc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsuc(self,whichsol_,suc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if suc is None: raise TypeError(\"Invalid type for argument suc\")\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n \n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n \n if suc_ is not None and len(suc_) != self.getnumcon():\n raise ValueError(\"Array argument suc has wrong length\")\n res = self.__obj.putsuc(whichsol_,suc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getprosta(self,whichsol_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res,resargs = self.__obj.getprosta(whichsol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _prosta_return_value = resargs\n _prosta_return_value = prosta(_prosta_return_value)\n return _prosta_return_value", "def getsucslice(self,whichsol_,first_,last_,suc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_suc = False\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n _copyback_suc = True\n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n _copyback_suc = True\n if suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc has wrong length\")\n res = self.__obj.getsucslice(whichsol_,first_,last_,suc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_suc:\n suc[:] = _tmparr_suc", "def getsolsta(self,whichsol_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res,resargs = self.__obj.getsolsta(whichsol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _solsta_return_value = resargs\n _solsta_return_value = solsta(_solsta_return_value)\n return _solsta_return_value", "def getsucslice(self,whichsol_,first_,last_,suc_):\n _suc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc is not long enough: Is %d, expected %d\" % (len(suc_),((last_) - (first_))))\n if isinstance(suc_,numpy.ndarray) and not suc_.flags.writeable:\n raise ValueError(\"Argument suc must be writable\")\n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n res = __library__.MSK_XX_getsucslice(self.__nativep,whichsol_,first_,last_,_suc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _suc_copyarray:\n suc_[:] = _suc_np_tmp", "def getsolsta(self,whichsol_):\n solsta_ = ctypes.c_int32()\n res = __library__.MSK_XX_getsolsta(self.__nativep,whichsol_,ctypes.byref(solsta_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _solsta_return_value = solsta(solsta_.value)\n return (_solsta_return_value)", "def get_sol(self):", "def getprosta(self,whichsol_):\n prosta_ = ctypes.c_int32()\n res = __library__.MSK_XX_getprosta(self.__nativep,whichsol_,ctypes.byref(prosta_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _prosta_return_value = prosta(prosta_.value)\n return (_prosta_return_value)", "def getsolution(self,whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_):\n prosta_ = ctypes.c_int32()\n solsta_ = ctypes.c_int32()\n _skc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),self.getnumcon()))\n if isinstance(skc_,numpy.ndarray) and not skc_.flags.writeable:\n raise ValueError(\"Argument skc must be writable\")\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))()\n else:\n _skc_tmp = None\n _skx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),self.getnumvar()))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n _skn_minlength = self.getnumcone()\n if self.getnumcone() > 0 and skn_ is not None and len(skn_) != self.getnumcone():\n raise ValueError(\"Array argument skn is not long enough: Is %d, expected %d\" % (len(skn_),self.getnumcone()))\n if isinstance(skn_,numpy.ndarray) and not skn_.flags.writeable:\n raise ValueError(\"Argument skn must be writable\")\n if skn_ is not None:\n _skn_tmp = (ctypes.c_int32 * len(skn_))()\n else:\n _skn_tmp = None\n _xc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and xc_ is not None and len(xc_) != self.getnumcon():\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),self.getnumcon()))\n if isinstance(xc_,numpy.ndarray) and not xc_.flags.writeable:\n raise ValueError(\"Argument xc must be writable\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n _xx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),self.getnumvar()))\n if isinstance(xx_,numpy.ndarray) and not xx_.flags.writeable:\n raise ValueError(\"Argument xx must be writable\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n _y_minlength = self.getnumcon()\n if self.getnumcon() > 0 and y_ is not None and len(y_) != self.getnumcon():\n raise ValueError(\"Array argument y is not long enough: Is %d, expected %d\" % (len(y_),self.getnumcon()))\n if isinstance(y_,numpy.ndarray) and not y_.flags.writeable:\n raise ValueError(\"Argument y must be writable\")\n if isinstance(y_, numpy.ndarray) and y_.dtype is numpy.dtype(numpy.float64) and y_.flags.contiguous:\n _y_copyarray = False\n _y_tmp = ctypes.cast(y_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif y_ is not None:\n _y_copyarray = True\n _y_np_tmp = numpy.zeros(len(y_),numpy.dtype(numpy.float64))\n _y_np_tmp[:] = y_\n assert _y_np_tmp.flags.contiguous\n _y_tmp = ctypes.cast(_y_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _y_copyarray = False\n _y_tmp = None\n \n _slc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),self.getnumcon()))\n if isinstance(slc_,numpy.ndarray) and not slc_.flags.writeable:\n raise ValueError(\"Argument slc must be writable\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n _suc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and suc_ is not None and len(suc_) != self.getnumcon():\n raise ValueError(\"Array argument suc is not long enough: Is %d, expected %d\" % (len(suc_),self.getnumcon()))\n if isinstance(suc_,numpy.ndarray) and not suc_.flags.writeable:\n raise ValueError(\"Argument suc must be writable\")\n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n _slx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),self.getnumvar()))\n if isinstance(slx_,numpy.ndarray) and not slx_.flags.writeable:\n raise ValueError(\"Argument slx must be writable\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n _sux_minlength = self.getnumvar()\n if self.getnumvar() > 0 and sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),self.getnumvar()))\n if isinstance(sux_,numpy.ndarray) and not sux_.flags.writeable:\n raise ValueError(\"Argument sux must be writable\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n _snx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and snx_ is not None and len(snx_) != self.getnumvar():\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),self.getnumvar()))\n if isinstance(snx_,numpy.ndarray) and not snx_.flags.writeable:\n raise ValueError(\"Argument snx must be writable\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_getsolution(self.__nativep,whichsol_,ctypes.byref(prosta_),ctypes.byref(solsta_),_skc_tmp,_skx_tmp,_skn_tmp,_xc_tmp,_xx_tmp,_y_tmp,_slc_tmp,_suc_tmp,_slx_tmp,_sux_tmp,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _prosta_return_value = prosta(prosta_.value)\n _solsta_return_value = solsta(solsta_.value)\n if skc_ is not None: skc_[:] = [ stakey(v) for v in _skc_tmp[0:len(skc_)] ]\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]\n if skn_ is not None: skn_[:] = [ stakey(v) for v in _skn_tmp[0:len(skn_)] ]\n if _xc_copyarray:\n xc_[:] = _xc_np_tmp\n if _xx_copyarray:\n xx_[:] = _xx_np_tmp\n if _y_copyarray:\n y_[:] = _y_np_tmp\n if _slc_copyarray:\n slc_[:] = _slc_np_tmp\n if _suc_copyarray:\n suc_[:] = _suc_np_tmp\n if _slx_copyarray:\n slx_[:] = _slx_np_tmp\n if _sux_copyarray:\n sux_[:] = _sux_np_tmp\n if _snx_copyarray:\n snx_[:] = _snx_np_tmp\n return (_prosta_return_value,_solsta_return_value)", "def getsolution(self,whichsol_,skc,skx,skn,xc,xx,y,slc,suc,slx,sux,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skc = False\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n _copyback_skc = True\n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n _copyback_skc = True\n if skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc has wrong length\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx has wrong length\")\n _copyback_skn = False\n if skn is None:\n skn_ = None\n else:\n try:\n skn_ = memoryview(skn)\n except TypeError:\n try:\n _tmparr_skn = array.array(\"i\",skn)\n except TypeError:\n raise TypeError(\"Argument skn has wrong type\")\n else:\n skn_ = memoryview(_tmparr_skn)\n _copyback_skn = True\n else:\n if skn_.format != \"i\":\n skn_ = memoryview(array.array(\"i\",skn))\n _copyback_skn = True\n if skn_ is not None and len(skn_) != self.getnumcone():\n raise ValueError(\"Array argument skn has wrong length\")\n _copyback_xc = False\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n _copyback_xc = True\n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n _copyback_xc = True\n if xc_ is not None and len(xc_) != self.getnumcon():\n raise ValueError(\"Array argument xc has wrong length\")\n _copyback_xx = False\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n _copyback_xx = True\n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n _copyback_xx = True\n if xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx has wrong length\")\n _copyback_y = False\n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n _copyback_y = True\n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n _copyback_y = True\n if y_ is not None and len(y_) != self.getnumcon():\n raise ValueError(\"Array argument y has wrong length\")\n _copyback_slc = False\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n _copyback_slc = True\n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n _copyback_slc = True\n if slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc has wrong length\")\n _copyback_suc = False\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n _copyback_suc = True\n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n _copyback_suc = True\n if suc_ is not None and len(suc_) != self.getnumcon():\n raise ValueError(\"Array argument suc has wrong length\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx has wrong length\")\n _copyback_sux = False\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n _copyback_sux = True\n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n _copyback_sux = True\n if sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux has wrong length\")\n _copyback_snx = False\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n _copyback_snx = True\n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n _copyback_snx = True\n if snx_ is not None and len(snx_) != self.getnumvar():\n raise ValueError(\"Array argument snx has wrong length\")\n res,resargs = self.__obj.getsolution(whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _prosta_return_value,_solsta_return_value = resargs\n if _copyback_snx:\n snx[:] = _tmparr_snx\n if _copyback_sux:\n sux[:] = _tmparr_sux\n if _copyback_slx:\n slx[:] = _tmparr_slx\n if _copyback_suc:\n suc[:] = _tmparr_suc\n if _copyback_slc:\n slc[:] = _tmparr_slc\n if _copyback_y:\n y[:] = _tmparr_y\n if _copyback_xx:\n xx[:] = _tmparr_xx\n if _copyback_xc:\n xc[:] = _tmparr_xc\n if _copyback_skn:\n for __tmp_var_2 in range(len(skn_)): skn[__tmp_var_2] = stakey(_tmparr_skn[__tmp_var_2])\n if _copyback_skx:\n for __tmp_var_1 in range(len(skx_)): skx[__tmp_var_1] = stakey(_tmparr_skx[__tmp_var_1])\n if _copyback_skc:\n for __tmp_var_0 in range(len(skc_)): skc[__tmp_var_0] = stakey(_tmparr_skc[__tmp_var_0])\n _solsta_return_value = solsta(_solsta_return_value)\n _prosta_return_value = prosta(_prosta_return_value)\n return _prosta_return_value,_solsta_return_value", "def get_result(self, solver: SudokuSolver) -> None:\n if solver.is_sudoku_completed():\n # if True:\n self.insert_digits(solver)\n else:\n self.status_bar.config(text='This sudoku is unsolvable.', fg='red')\n return None", "def get_solution(self):\r\n return self.solution", "def putsucslice(self,whichsol_,first_,last_,suc_):\n _suc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc is not long enough: Is %d, expected %d\" % (len(suc_),((last_) - (first_))))\n if suc_ is None:\n raise ValueError(\"Argument suc cannot be None\")\n if suc_ is None:\n raise ValueError(\"Argument suc may not be None\")\n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n res = __library__.MSK_XX_putsucslice(self.__nativep,whichsol_,first_,last_,_suc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def solved(self):\r\n return self.puzzle.solved", "def did_solve(self):\n return self._solution.success", "def getsolutioninfo(self,whichsol_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res,resargs = self.__obj.getsolutioninfo(whichsol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _pobj_return_value,_pviolcon_return_value,_pviolvar_return_value,_pviolbarvar_return_value,_pviolcone_return_value,_pviolitg_return_value,_dobj_return_value,_dviolcon_return_value,_dviolvar_return_value,_dviolbarvar_return_value,_dviolcone_return_value = resargs\n return _pobj_return_value,_pviolcon_return_value,_pviolvar_return_value,_pviolbarvar_return_value,_pviolcone_return_value,_pviolitg_return_value,_dobj_return_value,_dviolcon_return_value,_dviolvar_return_value,_dviolbarvar_return_value,_dviolcone_return_value", "def get_score(self, solution: np.array) -> float:\n pass", "def getsolutioninfo(self,whichsol_):\n pobj_ = ctypes.c_double()\n pviolcon_ = ctypes.c_double()\n pviolvar_ = ctypes.c_double()\n pviolbarvar_ = ctypes.c_double()\n pviolcone_ = ctypes.c_double()\n pviolitg_ = ctypes.c_double()\n dobj_ = ctypes.c_double()\n dviolcon_ = ctypes.c_double()\n dviolvar_ = ctypes.c_double()\n dviolbarvar_ = ctypes.c_double()\n dviolcone_ = ctypes.c_double()\n res = __library__.MSK_XX_getsolutioninfo(self.__nativep,whichsol_,ctypes.byref(pobj_),ctypes.byref(pviolcon_),ctypes.byref(pviolvar_),ctypes.byref(pviolbarvar_),ctypes.byref(pviolcone_),ctypes.byref(pviolitg_),ctypes.byref(dobj_),ctypes.byref(dviolcon_),ctypes.byref(dviolvar_),ctypes.byref(dviolbarvar_),ctypes.byref(dviolcone_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n pobj_ = pobj_.value\n _pobj_return_value = pobj_\n pviolcon_ = pviolcon_.value\n _pviolcon_return_value = pviolcon_\n pviolvar_ = pviolvar_.value\n _pviolvar_return_value = pviolvar_\n pviolbarvar_ = pviolbarvar_.value\n _pviolbarvar_return_value = pviolbarvar_\n pviolcone_ = pviolcone_.value\n _pviolcone_return_value = pviolcone_\n pviolitg_ = pviolitg_.value\n _pviolitg_return_value = pviolitg_\n dobj_ = dobj_.value\n _dobj_return_value = dobj_\n dviolcon_ = dviolcon_.value\n _dviolcon_return_value = dviolcon_\n dviolvar_ = dviolvar_.value\n _dviolvar_return_value = dviolvar_\n dviolbarvar_ = dviolbarvar_.value\n _dviolbarvar_return_value = dviolbarvar_\n dviolcone_ = dviolcone_.value\n _dviolcone_return_value = dviolcone_\n return (_pobj_return_value,_pviolcon_return_value,_pviolvar_return_value,_pviolbarvar_return_value,_pviolcone_return_value,_pviolitg_return_value,_dobj_return_value,_dviolcon_return_value,_dviolvar_return_value,_dviolbarvar_return_value,_dviolcone_return_value)", "def suc_nonce(self, nonce = None):\n\n # if we don't provide a nonce. We will use the internal one\n if nonce is None:\n nonce = self.nonce\n\n # We convert the nonce in bit in order to work on it\n bit_nonce = int_to_bitstr(nonce, 32)\n\n \"\"\" Generate the feedback bit based on the nonce's \n second half, because the last 16 bits of the nonce is\n identical to the 16 bits prng state. \"\"\"\n fbit = self.prng_feedback(bit_nonce[16,:])\n\n # The left bit is discarded and the feedback bit is added\n nonce = bit_nonce[1:] + fbit\n\n # We will update the internal nonce/prng to the suc(nonce/prng)\n if nonce is None:\n\n # The internal prng is updated with the second part of the nonce\n self.prng = bitstr_to_int(bit_nonce[16,:])\n self.nonce = bitstr_to_int(bit_nonce)\n\n # Return nonce, it will be sent to the reader\n return self.nonce\n else:\n return bitstr_to_int(nonce)", "def putsucslice(self,whichsol_,first_,last_,suc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if suc is None: raise TypeError(\"Invalid type for argument suc\")\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n \n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n \n if suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc has wrong length\")\n res = self.__obj.putsucslice(whichsol_,first_,last_,suc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsolutioni(self,accmode_,i_,whichsol_): # 3\n if not isinstance(accmode_,accmode): raise TypeError(\"Argument accmode has wrong type\")\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res,resargs = self.__obj.getsolutioni(accmode_,i_,whichsol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _sk_return_value,_x_return_value,_sl_return_value,_su_return_value,_sn_return_value = resargs\n _sk_return_value = stakey(_sk_return_value)\n return _sk_return_value,_x_return_value,_sl_return_value,_su_return_value,_sn_return_value", "def solution(data):\n\t\tif data:\n\t\t\treturn 1\n\t\telse:\n\t\t\treturn 0", "def solution(self,pos):\n\t\tif pos == 0:\n\t\t\treturn self.solve(pos)\n\n\t\tif not self.mem.has_key(pos-1):\n\t\t\tself.mem[pos-1] = self.solution(pos-1)\n\t\tif not self.mem.has_key(pos):\n\t\t\tself.mem[pos] = self.mem[pos-1] + self.solve(pos)\n\t\tif pos == len(self.objective)-1 and not self.eob():\n\t\t\t\"\"\"Ya obtuvimos la solucion y aun hay elementos en la base que deben ser\n\t\t\tdescartados\"\"\"\n\t\t\tself.mem[pos] += self.terminar()\n\t\treturn self.mem[pos]", "def find_positive(self):\n if self.round == 2:\n pass\n \n elif self.subtested == 1:\n try:\n dim = self.D-1\n sample = range(1, int(self.poolSize)+1)\n self.SLICES = self.partRes\n dim_positive_slices = itemgetter(*self.results.keys())(self.results)\n dim_positive_slices_count = list(map(len,dim_positive_slices))\n one_pos_slice_count = dim_positive_slices_count.count(1)\n two_pos_slice_count = dim_positive_slices_count.count(2)\n three_pos_slice_count = dim_positive_slices_count.count(3)\n if one_pos_slice_count == dim:\n positive_slice_samples = [self.SLICES[keys][value] for keys in self.results.keys() for value in self.results[keys]]\n self.positiveSamples.setText('; '.join(str(s) for s in set.intersection(*positive_slice_samples)))\n return set.intersection(*positive_slice_samples)\n \n elif (one_pos_slice_count == dim-1) and (two_pos_slice_count == 1 or three_pos_slice_count ==1):\n positive_slice_samples = [itemgetter(*self.results[key])(self.SLICES[key]) \n if len(self.results[key])==1 else set.union(*itemgetter(*self.results[key])(self.SLICES[key])) \n for key in self.results.keys()]\n self.positiveSamples.setText('; '.join(str(s) for s in set.intersection(*positive_slice_samples)))\n\n else:\n self.positiveSamples.setText('Indeterministic')\n except:\n pass\n else:\n try:\n dim = self.D\n sample = range(1, int(self.poolSize)+1)\n self.SLICES = self.slicedCube\n dim_positive_slices = itemgetter(*self.results.keys())(self.results)\n dim_positive_slices_count = list(map(len,dim_positive_slices))\n one_pos_slice_count = dim_positive_slices_count.count(1)\n two_pos_slice_count = dim_positive_slices_count.count(2)\n three_pos_slice_count = dim_positive_slices_count.count(3)\n if one_pos_slice_count == dim:\n positive_slice_samples = [self.SLICES[keys][value] for keys in self.results.keys() for value in self.results[keys]]\n self.positiveSamples.setText('; '.join(str(s) for s in set.intersection(*positive_slice_samples)))\n return set.intersection(*positive_slice_samples)\n \n elif (one_pos_slice_count == dim-1) and (two_pos_slice_count == 1 or three_pos_slice_count ==1):\n positive_slice_samples = [itemgetter(*self.results[key])(self.SLICES[key]) \n if len(self.results[key])==1 else set.union(*itemgetter(*self.results[key])(self.SLICES[key])) \n for key in self.results.keys()]\n self.positiveSamples.setText('; '.join(str(s) for s in set.intersection(*positive_slice_samples)))\n\n else:\n self.positiveSamples.setText('Indeterministic: \\n Proceed to sub- \\n directional testing')\n self.labelsCube = self.labelledCube()\n self.subTest()\n self.sliceSelect.clear()\n self.sliceSelect.addItems(self.res)\n if self.round == 1:\n self.round = 2\n else:\n self.round = 3\n except:\n pass", "def nsucc(self, a):\n n, absucc = self.control[a.name]\n if self.world.round == n: return 0.0\n else: return float(a.success - absucc) / float(self.world.round - n)", "def successes(predictions,truth):\n\ttotal = len(predictions)\n\tcorrect = 0.0\n\tfor p in predictions:\n\t\tif p == truth:\n\t\t\tcorrect += 1\n\t\telse:\n\t\t\tprint truth,\"\\t\",p\n\treturn correct", "def did_solve(self) -> bool:\n return self._stats[\"success\"]", "def C_ret(img):\r\n return solveJ(img, 0, tc(img, ignore_ch=2))" ]

[ "0.82410663", "0.67845887", "0.67435616", "0.60198617", "0.6000237", "0.59143555", "0.57880753", "0.5660732", "0.56503254", "0.56131995", "0.5586636", "0.55124426", "0.5397233", "0.53479666", "0.5342795", "0.5300737", "0.52902275", "0.5274882", "0.52535", "0.524406", "0.5238163", "0.5183373", "0.5150755", "0.51073146", "0.50021285", "0.49882278", "0.49829447", "0.49800426", "0.49676034", "0.49638587" ]

[ "def getslx(self,whichsol_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.getslx(whichsol_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slx:\n slx[:] = _tmparr_slx", "def putslx(self,whichsol_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.putslx(whichsol_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getslxslice(self,whichsol_,first_,last_,slx_):\n _slx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),((last_) - (first_))))\n if isinstance(slx_,numpy.ndarray) and not slx_.flags.writeable:\n raise ValueError(\"Argument slx must be writable\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_getslxslice(self.__nativep,whichsol_,first_,last_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slx_copyarray:\n slx_[:] = _slx_np_tmp", "def getslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.getslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slx:\n slx[:] = _tmparr_slx", "def putslx(self,whichsol_,slx_):\n _slx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),self.getnumvar()))\n if slx_ is None:\n raise ValueError(\"Argument slx cannot be None\")\n if slx_ is None:\n raise ValueError(\"Argument slx may not be None\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_putslx(self.__nativep,whichsol_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsnx(self,whichsol_,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if snx is None: raise TypeError(\"Invalid type for argument snx\")\n _copyback_snx = False\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n _copyback_snx = True\n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n _copyback_snx = True\n if snx_ is not None and len(snx_) != self.getnumvar():\n raise ValueError(\"Array argument snx has wrong length\")\n res = self.__obj.getsnx(whichsol_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_snx:\n snx[:] = _tmparr_snx", "def getskx(self,whichsol_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.getskx(whichsol_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skx:\n for __tmp_var_0 in range(len(skx_)): skx[__tmp_var_0] = stakey(_tmparr_skx[__tmp_var_0])", "def getsnx(self,whichsol_,snx_):\n _snx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and snx_ is not None and len(snx_) != self.getnumvar():\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),self.getnumvar()))\n if isinstance(snx_,numpy.ndarray) and not snx_.flags.writeable:\n raise ValueError(\"Argument snx must be writable\")\n if snx_ is None:\n raise ValueError(\"Argument snx may not be None\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_getsnx(self.__nativep,whichsol_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _snx_copyarray:\n snx_[:] = _snx_np_tmp", "def getskx(self,whichsol_,skx_):\n _skx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),self.getnumvar()))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_getskx(self.__nativep,whichsol_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]", "def putslxslice(self,whichsol_,first_,last_,slx_):\n _slx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),((last_) - (first_))))\n if slx_ is None:\n raise ValueError(\"Argument slx cannot be None\")\n if slx_ is None:\n raise ValueError(\"Argument slx may not be None\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_putslxslice(self.__nativep,whichsol_,first_,last_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.putslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getxx(self,whichsol_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xx is None: raise TypeError(\"Invalid type for argument xx\")\n _copyback_xx = False\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n _copyback_xx = True\n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n _copyback_xx = True\n if xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.getxx(whichsol_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xx:\n xx[:] = _tmparr_xx", "def getsolution(self,whichsol_,skc,skx,skn,xc,xx,y,slc,suc,slx,sux,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skc = False\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n _copyback_skc = True\n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n _copyback_skc = True\n if skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc has wrong length\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx has wrong length\")\n _copyback_skn = False\n if skn is None:\n skn_ = None\n else:\n try:\n skn_ = memoryview(skn)\n except TypeError:\n try:\n _tmparr_skn = array.array(\"i\",skn)\n except TypeError:\n raise TypeError(\"Argument skn has wrong type\")\n else:\n skn_ = memoryview(_tmparr_skn)\n _copyback_skn = True\n else:\n if skn_.format != \"i\":\n skn_ = memoryview(array.array(\"i\",skn))\n _copyback_skn = True\n if skn_ is not None and len(skn_) != self.getnumcone():\n raise ValueError(\"Array argument skn has wrong length\")\n _copyback_xc = False\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n _copyback_xc = True\n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n _copyback_xc = True\n if xc_ is not None and len(xc_) != self.getnumcon():\n raise ValueError(\"Array argument xc has wrong length\")\n _copyback_xx = False\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n _copyback_xx = True\n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n _copyback_xx = True\n if xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx has wrong length\")\n _copyback_y = False\n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n _copyback_y = True\n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n _copyback_y = True\n if y_ is not None and len(y_) != self.getnumcon():\n raise ValueError(\"Array argument y has wrong length\")\n _copyback_slc = False\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n _copyback_slc = True\n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n _copyback_slc = True\n if slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc has wrong length\")\n _copyback_suc = False\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n _copyback_suc = True\n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n _copyback_suc = True\n if suc_ is not None and len(suc_) != self.getnumcon():\n raise ValueError(\"Array argument suc has wrong length\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx has wrong length\")\n _copyback_sux = False\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n _copyback_sux = True\n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n _copyback_sux = True\n if sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux has wrong length\")\n _copyback_snx = False\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n _copyback_snx = True\n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n _copyback_snx = True\n if snx_ is not None and len(snx_) != self.getnumvar():\n raise ValueError(\"Array argument snx has wrong length\")\n res,resargs = self.__obj.getsolution(whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _prosta_return_value,_solsta_return_value = resargs\n if _copyback_snx:\n snx[:] = _tmparr_snx\n if _copyback_sux:\n sux[:] = _tmparr_sux\n if _copyback_slx:\n slx[:] = _tmparr_slx\n if _copyback_suc:\n suc[:] = _tmparr_suc\n if _copyback_slc:\n slc[:] = _tmparr_slc\n if _copyback_y:\n y[:] = _tmparr_y\n if _copyback_xx:\n xx[:] = _tmparr_xx\n if _copyback_xc:\n xc[:] = _tmparr_xc\n if _copyback_skn:\n for __tmp_var_2 in range(len(skn_)): skn[__tmp_var_2] = stakey(_tmparr_skn[__tmp_var_2])\n if _copyback_skx:\n for __tmp_var_1 in range(len(skx_)): skx[__tmp_var_1] = stakey(_tmparr_skx[__tmp_var_1])\n if _copyback_skc:\n for __tmp_var_0 in range(len(skc_)): skc[__tmp_var_0] = stakey(_tmparr_skc[__tmp_var_0])\n _solsta_return_value = solsta(_solsta_return_value)\n _prosta_return_value = prosta(_prosta_return_value)\n return _prosta_return_value,_solsta_return_value", "def getslc(self,whichsol_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slc is None: raise TypeError(\"Invalid type for argument slc\")\n _copyback_slc = False\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n _copyback_slc = True\n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n _copyback_slc = True\n if slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.getslc(whichsol_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slc:\n slc[:] = _tmparr_slc", "def getslc(self,whichsol_,slc_):\n _slc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),self.getnumcon()))\n if isinstance(slc_,numpy.ndarray) and not slc_.flags.writeable:\n raise ValueError(\"Argument slc must be writable\")\n if slc_ is None:\n raise ValueError(\"Argument slc may not be None\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_getslc(self.__nativep,whichsol_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slc_copyarray:\n slc_[:] = _slc_np_tmp", "def getprimalsolutionnorms(self,whichsol_):\n nrmxc_ = ctypes.c_double()\n nrmxx_ = ctypes.c_double()\n nrmbarx_ = ctypes.c_double()\n res = __library__.MSK_XX_getprimalsolutionnorms(self.__nativep,whichsol_,ctypes.byref(nrmxc_),ctypes.byref(nrmxx_),ctypes.byref(nrmbarx_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n nrmxc_ = nrmxc_.value\n _nrmxc_return_value = nrmxc_\n nrmxx_ = nrmxx_.value\n _nrmxx_return_value = nrmxx_\n nrmbarx_ = nrmbarx_.value\n _nrmbarx_return_value = nrmbarx_\n return (_nrmxc_return_value,_nrmxx_return_value,_nrmbarx_return_value)", "def getdualsolutionnorms(self,whichsol_):\n nrmy_ = ctypes.c_double()\n nrmslc_ = ctypes.c_double()\n nrmsuc_ = ctypes.c_double()\n nrmslx_ = ctypes.c_double()\n nrmsux_ = ctypes.c_double()\n nrmsnx_ = ctypes.c_double()\n nrmbars_ = ctypes.c_double()\n res = __library__.MSK_XX_getdualsolutionnorms(self.__nativep,whichsol_,ctypes.byref(nrmy_),ctypes.byref(nrmslc_),ctypes.byref(nrmsuc_),ctypes.byref(nrmslx_),ctypes.byref(nrmsux_),ctypes.byref(nrmsnx_),ctypes.byref(nrmbars_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n nrmy_ = nrmy_.value\n _nrmy_return_value = nrmy_\n nrmslc_ = nrmslc_.value\n _nrmslc_return_value = nrmslc_\n nrmsuc_ = nrmsuc_.value\n _nrmsuc_return_value = nrmsuc_\n nrmslx_ = nrmslx_.value\n _nrmslx_return_value = nrmslx_\n nrmsux_ = nrmsux_.value\n _nrmsux_return_value = nrmsux_\n nrmsnx_ = nrmsnx_.value\n _nrmsnx_return_value = nrmsnx_\n nrmbars_ = nrmbars_.value\n _nrmbars_return_value = nrmbars_\n return (_nrmy_return_value,_nrmslc_return_value,_nrmsuc_return_value,_nrmslx_return_value,_nrmsux_return_value,_nrmsnx_return_value,_nrmbars_return_value)", "def getdualsolutionnorms(self,whichsol_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res,resargs = self.__obj.getdualsolutionnorms(whichsol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _nrmy_return_value,_nrmslc_return_value,_nrmsuc_return_value,_nrmslx_return_value,_nrmsux_return_value,_nrmsnx_return_value,_nrmbars_return_value = resargs\n return _nrmy_return_value,_nrmslc_return_value,_nrmsuc_return_value,_nrmslx_return_value,_nrmsux_return_value,_nrmsnx_return_value,_nrmbars_return_value", "def getsolsta(self,whichsol_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res,resargs = self.__obj.getsolsta(whichsol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _solsta_return_value = resargs\n _solsta_return_value = solsta(_solsta_return_value)\n return _solsta_return_value", "def getsolsta(self,whichsol_):\n solsta_ = ctypes.c_int32()\n res = __library__.MSK_XX_getsolsta(self.__nativep,whichsol_,ctypes.byref(solsta_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _solsta_return_value = solsta(solsta_.value)\n return (_solsta_return_value)", "def getsux(self,whichsol_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if sux is None: raise TypeError(\"Invalid type for argument sux\")\n _copyback_sux = False\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n _copyback_sux = True\n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n _copyback_sux = True\n if sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.getsux(whichsol_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_sux:\n sux[:] = _tmparr_sux", "def getsolution(self,whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_):\n prosta_ = ctypes.c_int32()\n solsta_ = ctypes.c_int32()\n _skc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),self.getnumcon()))\n if isinstance(skc_,numpy.ndarray) and not skc_.flags.writeable:\n raise ValueError(\"Argument skc must be writable\")\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))()\n else:\n _skc_tmp = None\n _skx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),self.getnumvar()))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n _skn_minlength = self.getnumcone()\n if self.getnumcone() > 0 and skn_ is not None and len(skn_) != self.getnumcone():\n raise ValueError(\"Array argument skn is not long enough: Is %d, expected %d\" % (len(skn_),self.getnumcone()))\n if isinstance(skn_,numpy.ndarray) and not skn_.flags.writeable:\n raise ValueError(\"Argument skn must be writable\")\n if skn_ is not None:\n _skn_tmp = (ctypes.c_int32 * len(skn_))()\n else:\n _skn_tmp = None\n _xc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and xc_ is not None and len(xc_) != self.getnumcon():\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),self.getnumcon()))\n if isinstance(xc_,numpy.ndarray) and not xc_.flags.writeable:\n raise ValueError(\"Argument xc must be writable\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n _xx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),self.getnumvar()))\n if isinstance(xx_,numpy.ndarray) and not xx_.flags.writeable:\n raise ValueError(\"Argument xx must be writable\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n _y_minlength = self.getnumcon()\n if self.getnumcon() > 0 and y_ is not None and len(y_) != self.getnumcon():\n raise ValueError(\"Array argument y is not long enough: Is %d, expected %d\" % (len(y_),self.getnumcon()))\n if isinstance(y_,numpy.ndarray) and not y_.flags.writeable:\n raise ValueError(\"Argument y must be writable\")\n if isinstance(y_, numpy.ndarray) and y_.dtype is numpy.dtype(numpy.float64) and y_.flags.contiguous:\n _y_copyarray = False\n _y_tmp = ctypes.cast(y_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif y_ is not None:\n _y_copyarray = True\n _y_np_tmp = numpy.zeros(len(y_),numpy.dtype(numpy.float64))\n _y_np_tmp[:] = y_\n assert _y_np_tmp.flags.contiguous\n _y_tmp = ctypes.cast(_y_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _y_copyarray = False\n _y_tmp = None\n \n _slc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),self.getnumcon()))\n if isinstance(slc_,numpy.ndarray) and not slc_.flags.writeable:\n raise ValueError(\"Argument slc must be writable\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n _suc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and suc_ is not None and len(suc_) != self.getnumcon():\n raise ValueError(\"Array argument suc is not long enough: Is %d, expected %d\" % (len(suc_),self.getnumcon()))\n if isinstance(suc_,numpy.ndarray) and not suc_.flags.writeable:\n raise ValueError(\"Argument suc must be writable\")\n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n _slx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),self.getnumvar()))\n if isinstance(slx_,numpy.ndarray) and not slx_.flags.writeable:\n raise ValueError(\"Argument slx must be writable\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n _sux_minlength = self.getnumvar()\n if self.getnumvar() > 0 and sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),self.getnumvar()))\n if isinstance(sux_,numpy.ndarray) and not sux_.flags.writeable:\n raise ValueError(\"Argument sux must be writable\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n _snx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and snx_ is not None and len(snx_) != self.getnumvar():\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),self.getnumvar()))\n if isinstance(snx_,numpy.ndarray) and not snx_.flags.writeable:\n raise ValueError(\"Argument snx must be writable\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_getsolution(self.__nativep,whichsol_,ctypes.byref(prosta_),ctypes.byref(solsta_),_skc_tmp,_skx_tmp,_skn_tmp,_xc_tmp,_xx_tmp,_y_tmp,_slc_tmp,_suc_tmp,_slx_tmp,_sux_tmp,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _prosta_return_value = prosta(prosta_.value)\n _solsta_return_value = solsta(solsta_.value)\n if skc_ is not None: skc_[:] = [ stakey(v) for v in _skc_tmp[0:len(skc_)] ]\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]\n if skn_ is not None: skn_[:] = [ stakey(v) for v in _skn_tmp[0:len(skn_)] ]\n if _xc_copyarray:\n xc_[:] = _xc_np_tmp\n if _xx_copyarray:\n xx_[:] = _xx_np_tmp\n if _y_copyarray:\n y_[:] = _y_np_tmp\n if _slc_copyarray:\n slc_[:] = _slc_np_tmp\n if _suc_copyarray:\n suc_[:] = _suc_np_tmp\n if _slx_copyarray:\n slx_[:] = _slx_np_tmp\n if _sux_copyarray:\n sux_[:] = _sux_np_tmp\n if _snx_copyarray:\n snx_[:] = _snx_np_tmp\n return (_prosta_return_value,_solsta_return_value)", "def getsux(self,whichsol_,sux_):\n _sux_minlength = self.getnumvar()\n if self.getnumvar() > 0 and sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),self.getnumvar()))\n if isinstance(sux_,numpy.ndarray) and not sux_.flags.writeable:\n raise ValueError(\"Argument sux must be writable\")\n if sux_ is None:\n raise ValueError(\"Argument sux may not be None\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_getsux(self.__nativep,whichsol_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _sux_copyarray:\n sux_[:] = _sux_np_tmp", "def getsnxslice(self,whichsol_,first_,last_,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_snx = False\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n _copyback_snx = True\n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n _copyback_snx = True\n if snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx has wrong length\")\n res = self.__obj.getsnxslice(whichsol_,first_,last_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_snx:\n snx[:] = _tmparr_snx", "def getprimalsolutionnorms(self,whichsol_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res,resargs = self.__obj.getprimalsolutionnorms(whichsol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _nrmxc_return_value,_nrmxx_return_value,_nrmbarx_return_value = resargs\n return _nrmxc_return_value,_nrmxx_return_value,_nrmbarx_return_value", "def getsnxslice(self,whichsol_,first_,last_,snx_):\n _snx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),((last_) - (first_))))\n if isinstance(snx_,numpy.ndarray) and not snx_.flags.writeable:\n raise ValueError(\"Argument snx must be writable\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_getsnxslice(self.__nativep,whichsol_,first_,last_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _snx_copyarray:\n snx_[:] = _snx_np_tmp", "def getxx(self,whichsol_,xx_):\n _xx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),self.getnumvar()))\n if isinstance(xx_,numpy.ndarray) and not xx_.flags.writeable:\n raise ValueError(\"Argument xx must be writable\")\n if xx_ is None:\n raise ValueError(\"Argument xx may not be None\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n res = __library__.MSK_XX_getxx(self.__nativep,whichsol_,_xx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _xx_copyarray:\n xx_[:] = _xx_np_tmp", "def getskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.getskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skx:\n for __tmp_var_0 in range(len(skx_)): skx[__tmp_var_0] = stakey(_tmparr_skx[__tmp_var_0])", "def getskxslice(self,whichsol_,first_,last_,skx_):\n _skx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),((last_) - (first_))))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_getskxslice(self.__nativep,whichsol_,first_,last_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]", "def get_solution_program(self):\n p = self.cif.fileobj.parent\n xt_files = p.glob(self.basename + '*.lxt')\n try:\n res = self.cif.block.find_pair('_shelx_res_file')[1]\n except (TypeError, AttributeError):\n res = ''\n byxt = res.find('REM SHELXT solution in')\n for x in xt_files:\n shelxt = SHELXTlistfile(x.as_posix())\n if shelxt.version and byxt:\n self.method = 'direct'\n self.solution_listfile = 'foo' # x.name\n return shelxt\n if byxt > 0:\n xt = SHELXTlistfile('')\n xt.version = \"SHELXT (G. Sheldrick)\"\n self.method = 'direct'\n return xt\n xt = SHELXTlistfile('')\n xt.version = \"SHELXS (G. Sheldrick)\"\n self.method = 'direct'\n return xt" ]

[ "0.87089604", "0.72146577", "0.7097264", "0.70668536", "0.7056976", "0.68988025", "0.67752796", "0.6688387", "0.6605125", "0.64957577", "0.6379216", "0.62307626", "0.6225079", "0.6224382", "0.61772555", "0.6122235", "0.61132026", "0.60783416", "0.59741527", "0.5969503", "0.59631276", "0.591785", "0.5833116", "0.5793568", "0.5783781", "0.5741162", "0.572306", "0.5655581", "0.55721736", "0.55589515" ]

[ "def getsux(self,whichsol_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if sux is None: raise TypeError(\"Invalid type for argument sux\")\n _copyback_sux = False\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n _copyback_sux = True\n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n _copyback_sux = True\n if sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.getsux(whichsol_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_sux:\n sux[:] = _tmparr_sux", "def putsux(self,whichsol_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if sux is None: raise TypeError(\"Invalid type for argument sux\")\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n \n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n \n if sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.putsux(whichsol_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsux(self,whichsol_,sux_):\n _sux_minlength = self.getnumvar()\n if self.getnumvar() > 0 and sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),self.getnumvar()))\n if sux_ is None:\n raise ValueError(\"Argument sux cannot be None\")\n if sux_ is None:\n raise ValueError(\"Argument sux may not be None\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_putsux(self.__nativep,whichsol_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsuxslice(self,whichsol_,first_,last_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_sux = False\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n _copyback_sux = True\n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n _copyback_sux = True\n if sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.getsuxslice(whichsol_,first_,last_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_sux:\n sux[:] = _tmparr_sux", "def getsuxslice(self,whichsol_,first_,last_,sux_):\n _sux_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),((last_) - (first_))))\n if isinstance(sux_,numpy.ndarray) and not sux_.flags.writeable:\n raise ValueError(\"Argument sux must be writable\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_getsuxslice(self.__nativep,whichsol_,first_,last_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _sux_copyarray:\n sux_[:] = _sux_np_tmp", "def putsnx(self,whichsol_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if sux is None: raise TypeError(\"Invalid type for argument sux\")\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n \n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n \n if sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.putsnx(whichsol_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsolution(self,whichsol_,skc,skx,skn,xc,xx,y,slc,suc,slx,sux,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skc = False\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n _copyback_skc = True\n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n _copyback_skc = True\n if skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc has wrong length\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx has wrong length\")\n _copyback_skn = False\n if skn is None:\n skn_ = None\n else:\n try:\n skn_ = memoryview(skn)\n except TypeError:\n try:\n _tmparr_skn = array.array(\"i\",skn)\n except TypeError:\n raise TypeError(\"Argument skn has wrong type\")\n else:\n skn_ = memoryview(_tmparr_skn)\n _copyback_skn = True\n else:\n if skn_.format != \"i\":\n skn_ = memoryview(array.array(\"i\",skn))\n _copyback_skn = True\n if skn_ is not None and len(skn_) != self.getnumcone():\n raise ValueError(\"Array argument skn has wrong length\")\n _copyback_xc = False\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n _copyback_xc = True\n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n _copyback_xc = True\n if xc_ is not None and len(xc_) != self.getnumcon():\n raise ValueError(\"Array argument xc has wrong length\")\n _copyback_xx = False\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n _copyback_xx = True\n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n _copyback_xx = True\n if xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx has wrong length\")\n _copyback_y = False\n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n _copyback_y = True\n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n _copyback_y = True\n if y_ is not None and len(y_) != self.getnumcon():\n raise ValueError(\"Array argument y has wrong length\")\n _copyback_slc = False\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n _copyback_slc = True\n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n _copyback_slc = True\n if slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc has wrong length\")\n _copyback_suc = False\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n _copyback_suc = True\n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n _copyback_suc = True\n if suc_ is not None and len(suc_) != self.getnumcon():\n raise ValueError(\"Array argument suc has wrong length\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx has wrong length\")\n _copyback_sux = False\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n _copyback_sux = True\n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n _copyback_sux = True\n if sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux has wrong length\")\n _copyback_snx = False\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n _copyback_snx = True\n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n _copyback_snx = True\n if snx_ is not None and len(snx_) != self.getnumvar():\n raise ValueError(\"Array argument snx has wrong length\")\n res,resargs = self.__obj.getsolution(whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _prosta_return_value,_solsta_return_value = resargs\n if _copyback_snx:\n snx[:] = _tmparr_snx\n if _copyback_sux:\n sux[:] = _tmparr_sux\n if _copyback_slx:\n slx[:] = _tmparr_slx\n if _copyback_suc:\n suc[:] = _tmparr_suc\n if _copyback_slc:\n slc[:] = _tmparr_slc\n if _copyback_y:\n y[:] = _tmparr_y\n if _copyback_xx:\n xx[:] = _tmparr_xx\n if _copyback_xc:\n xc[:] = _tmparr_xc\n if _copyback_skn:\n for __tmp_var_2 in range(len(skn_)): skn[__tmp_var_2] = stakey(_tmparr_skn[__tmp_var_2])\n if _copyback_skx:\n for __tmp_var_1 in range(len(skx_)): skx[__tmp_var_1] = stakey(_tmparr_skx[__tmp_var_1])\n if _copyback_skc:\n for __tmp_var_0 in range(len(skc_)): skc[__tmp_var_0] = stakey(_tmparr_skc[__tmp_var_0])\n _solsta_return_value = solsta(_solsta_return_value)\n _prosta_return_value = prosta(_prosta_return_value)\n return _prosta_return_value,_solsta_return_value", "def putsuxslice(self,whichsol_,first_,last_,sux_):\n _sux_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),((last_) - (first_))))\n if sux_ is None:\n raise ValueError(\"Argument sux cannot be None\")\n if sux_ is None:\n raise ValueError(\"Argument sux may not be None\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_putsuxslice(self.__nativep,whichsol_,first_,last_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getslx(self,whichsol_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.getslx(whichsol_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slx:\n slx[:] = _tmparr_slx", "def putsuxslice(self,whichsol_,first_,last_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if sux is None: raise TypeError(\"Invalid type for argument sux\")\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n \n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n \n if sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.putsuxslice(whichsol_,first_,last_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsnx(self,whichsol_,sux_):\n _sux_minlength = self.getnumvar()\n if self.getnumvar() > 0 and sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),self.getnumvar()))\n if sux_ is None:\n raise ValueError(\"Argument sux cannot be None\")\n if sux_ is None:\n raise ValueError(\"Argument sux may not be None\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_putsnx(self.__nativep,whichsol_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsolution(self,whichsol_,skc,skx,skn,xc,xx,y,slc,suc,slx,sux,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n \n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n \n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skn is None:\n skn_ = None\n else:\n try:\n skn_ = memoryview(skn)\n except TypeError:\n try:\n _tmparr_skn = array.array(\"i\",skn)\n except TypeError:\n raise TypeError(\"Argument skn has wrong type\")\n else:\n skn_ = memoryview(_tmparr_skn)\n \n else:\n if skn_.format != \"i\":\n skn_ = memoryview(array.array(\"i\",skn))\n \n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n \n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n \n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n \n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n \n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n \n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n \n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n \n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n \n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n \n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n \n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n \n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n \n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n \n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n \n res = self.__obj.putsolution(whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getskx(self,whichsol_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.getskx(whichsol_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skx:\n for __tmp_var_0 in range(len(skx_)): skx[__tmp_var_0] = stakey(_tmparr_skx[__tmp_var_0])", "def solve_system(self, rhs, factor, u0, t):\n\n me = self.dtype_u(self.init)\n L = splu(sp.eye(self.params.nvars, format='csc') + factor * self.A)\n me[:] = L.solve(rhs)\n return me", "def getsnx(self,whichsol_,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if snx is None: raise TypeError(\"Invalid type for argument snx\")\n _copyback_snx = False\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n _copyback_snx = True\n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n _copyback_snx = True\n if snx_ is not None and len(snx_) != self.getnumvar():\n raise ValueError(\"Array argument snx has wrong length\")\n res = self.__obj.getsnx(whichsol_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_snx:\n snx[:] = _tmparr_snx", "def svt(X, tau):\n U, S, Vt = la.svd(X,full_matrices=False)\n Xs = np.dot(U * st(S,tau), Vt)\n return Xs", "def getsolution(self,whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_):\n prosta_ = ctypes.c_int32()\n solsta_ = ctypes.c_int32()\n _skc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),self.getnumcon()))\n if isinstance(skc_,numpy.ndarray) and not skc_.flags.writeable:\n raise ValueError(\"Argument skc must be writable\")\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))()\n else:\n _skc_tmp = None\n _skx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),self.getnumvar()))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n _skn_minlength = self.getnumcone()\n if self.getnumcone() > 0 and skn_ is not None and len(skn_) != self.getnumcone():\n raise ValueError(\"Array argument skn is not long enough: Is %d, expected %d\" % (len(skn_),self.getnumcone()))\n if isinstance(skn_,numpy.ndarray) and not skn_.flags.writeable:\n raise ValueError(\"Argument skn must be writable\")\n if skn_ is not None:\n _skn_tmp = (ctypes.c_int32 * len(skn_))()\n else:\n _skn_tmp = None\n _xc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and xc_ is not None and len(xc_) != self.getnumcon():\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),self.getnumcon()))\n if isinstance(xc_,numpy.ndarray) and not xc_.flags.writeable:\n raise ValueError(\"Argument xc must be writable\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n _xx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),self.getnumvar()))\n if isinstance(xx_,numpy.ndarray) and not xx_.flags.writeable:\n raise ValueError(\"Argument xx must be writable\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n _y_minlength = self.getnumcon()\n if self.getnumcon() > 0 and y_ is not None and len(y_) != self.getnumcon():\n raise ValueError(\"Array argument y is not long enough: Is %d, expected %d\" % (len(y_),self.getnumcon()))\n if isinstance(y_,numpy.ndarray) and not y_.flags.writeable:\n raise ValueError(\"Argument y must be writable\")\n if isinstance(y_, numpy.ndarray) and y_.dtype is numpy.dtype(numpy.float64) and y_.flags.contiguous:\n _y_copyarray = False\n _y_tmp = ctypes.cast(y_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif y_ is not None:\n _y_copyarray = True\n _y_np_tmp = numpy.zeros(len(y_),numpy.dtype(numpy.float64))\n _y_np_tmp[:] = y_\n assert _y_np_tmp.flags.contiguous\n _y_tmp = ctypes.cast(_y_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _y_copyarray = False\n _y_tmp = None\n \n _slc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),self.getnumcon()))\n if isinstance(slc_,numpy.ndarray) and not slc_.flags.writeable:\n raise ValueError(\"Argument slc must be writable\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n _suc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and suc_ is not None and len(suc_) != self.getnumcon():\n raise ValueError(\"Array argument suc is not long enough: Is %d, expected %d\" % (len(suc_),self.getnumcon()))\n if isinstance(suc_,numpy.ndarray) and not suc_.flags.writeable:\n raise ValueError(\"Argument suc must be writable\")\n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n _slx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),self.getnumvar()))\n if isinstance(slx_,numpy.ndarray) and not slx_.flags.writeable:\n raise ValueError(\"Argument slx must be writable\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n _sux_minlength = self.getnumvar()\n if self.getnumvar() > 0 and sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),self.getnumvar()))\n if isinstance(sux_,numpy.ndarray) and not sux_.flags.writeable:\n raise ValueError(\"Argument sux must be writable\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n _snx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and snx_ is not None and len(snx_) != self.getnumvar():\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),self.getnumvar()))\n if isinstance(snx_,numpy.ndarray) and not snx_.flags.writeable:\n raise ValueError(\"Argument snx must be writable\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_getsolution(self.__nativep,whichsol_,ctypes.byref(prosta_),ctypes.byref(solsta_),_skc_tmp,_skx_tmp,_skn_tmp,_xc_tmp,_xx_tmp,_y_tmp,_slc_tmp,_suc_tmp,_slx_tmp,_sux_tmp,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _prosta_return_value = prosta(prosta_.value)\n _solsta_return_value = solsta(solsta_.value)\n if skc_ is not None: skc_[:] = [ stakey(v) for v in _skc_tmp[0:len(skc_)] ]\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]\n if skn_ is not None: skn_[:] = [ stakey(v) for v in _skn_tmp[0:len(skn_)] ]\n if _xc_copyarray:\n xc_[:] = _xc_np_tmp\n if _xx_copyarray:\n xx_[:] = _xx_np_tmp\n if _y_copyarray:\n y_[:] = _y_np_tmp\n if _slc_copyarray:\n slc_[:] = _slc_np_tmp\n if _suc_copyarray:\n suc_[:] = _suc_np_tmp\n if _slx_copyarray:\n slx_[:] = _slx_np_tmp\n if _sux_copyarray:\n sux_[:] = _sux_np_tmp\n if _snx_copyarray:\n snx_[:] = _snx_np_tmp\n return (_prosta_return_value,_solsta_return_value)", "def getslx(self,whichsol_,slx_):\n _slx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),self.getnumvar()))\n if isinstance(slx_,numpy.ndarray) and not slx_.flags.writeable:\n raise ValueError(\"Argument slx must be writable\")\n if slx_ is None:\n raise ValueError(\"Argument slx may not be None\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_getslx(self.__nativep,whichsol_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slx_copyarray:\n slx_[:] = _slx_np_tmp", "def putslx(self,whichsol_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.putslx(whichsol_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsolsta(self,whichsol_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res,resargs = self.__obj.getsolsta(whichsol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _solsta_return_value = resargs\n _solsta_return_value = solsta(_solsta_return_value)\n return _solsta_return_value", "def get_sol(self):", "def getpviolvar(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getpviolvar(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getdviolvar(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getdviolvar(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getskx(self,whichsol_,skx_):\n _skx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),self.getnumvar()))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_getskx(self.__nativep,whichsol_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]", "def getxx(self,whichsol_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xx is None: raise TypeError(\"Invalid type for argument xx\")\n _copyback_xx = False\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n _copyback_xx = True\n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n _copyback_xx = True\n if xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.getxx(whichsol_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xx:\n xx[:] = _tmparr_xx", "def reconstruct_solution(spikes,sol,uval,twin,ics,tau,variable,**kwargs):\n\n # Model parameters\n pars = {'dt' : 1e-3}\n pars = gu.varargin(pars,**kwargs)\n\n # Generate time vector\n time = np.arange(twin[0],twin[-1],pars['dt'])\n time = np.sort(np.r_[time,spikes])\n # Generate spike vector\n tspk = np.copy(time)\n for i in range(1,len(spikes)):\n tspk[np.where(np.logical_and(time>=spikes[i-1],time<spikes[i]))[0]] = spikes[i-1]\n tspk[np.where(time >= spikes[len(spikes)-1])[0]] = spikes[len(spikes)-1]\n tspk[np.where(time < spikes[0])[0]] = 0\n # Generate general solution vector\n vsol = np.ones(time.size)\n if (variable=='x') and isscalar(uval):\n uval = uval * np.ones(sol.size)\n if variable=='x':\n for i in range(1, len(spikes)):\n # x must be given at x(t_i^+) according to xsol\n vsol[np.where(np.logical_and(time >= spikes[i - 1], time < spikes[i]))[0]] = sol[i-1]*(1-uval[i-1])\n vsol[np.where(time >= spikes[len(spikes) - 1])[0]] = sol[len(spikes) - 1]*(1-uval[len(spikes)-1])\n else:\n for i in range(1, len(spikes)):\n vsol[np.where(np.logical_and(time >= spikes[i - 1], time < spikes[i]))[0]] = sol[i-1]\n vsol[np.where(time >= spikes[len(spikes) - 1])[0]] = sol[len(spikes) - 1]\n vsol[np.where(time < spikes[0])[0]] = ics\n # Compute effective solution\n solution = np.zeros((2, time.size))\n solution[0] = time\n\n if variable=='x':\n # Assumes that the first ICs is x(0)\n solution[1] = xsol(vsol,time-tspk,tau)\n else:\n solution[1] = usol(vsol,time-tspk,tau)\n\n return solution", "def u(self,x,i,temp):\n return self.coeffs[i]*self.psi_funcs[i+temp](x) + self.coeffs[i+1]*self.psi_funcs[i+temp+1](x) + self.coeffs[i+2]*self.psi_funcs[i+temp+2](x)", "def solve_system(self, rhs, factor, u0, t):\n solver_type, Id, A, nvars, lintol, liniter, sol = (\n self.solver_type,\n self.Id,\n self.A,\n self.nvars,\n self.lintol,\n self.liniter,\n self.u_init,\n )\n\n if solver_type == 'direct':\n sol[:] = spsolve(Id - factor * A, rhs.flatten()).reshape(nvars)\n elif solver_type == 'GMRES':\n sol[:] = gmres(\n Id - factor * A,\n rhs.flatten(),\n x0=u0.flatten(),\n tol=lintol,\n maxiter=liniter,\n atol=0,\n callback=self.work_counters[solver_type],\n callback_type='legacy',\n )[0].reshape(nvars)\n elif solver_type == 'CG':\n sol[:] = cg(\n Id - factor * A,\n rhs.flatten(),\n x0=u0.flatten(),\n tol=lintol,\n maxiter=liniter,\n atol=0,\n callback=self.work_counters[solver_type],\n )[0].reshape(nvars)\n else:\n raise ValueError(f'solver type \"{solver_type}\" not known in generic advection-diffusion implementation!')\n\n return sol", "def putskx(self,whichsol_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skx is None: raise TypeError(\"Invalid type for argument skx\")\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.putskx(whichsol_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsnx(self,whichsol_,snx_):\n _snx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and snx_ is not None and len(snx_) != self.getnumvar():\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),self.getnumvar()))\n if isinstance(snx_,numpy.ndarray) and not snx_.flags.writeable:\n raise ValueError(\"Argument snx must be writable\")\n if snx_ is None:\n raise ValueError(\"Argument snx may not be None\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_getsnx(self.__nativep,whichsol_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _snx_copyarray:\n snx_[:] = _snx_np_tmp" ]

[ "0.83876735", "0.7194185", "0.7017376", "0.6659871", "0.64503825", "0.6329173", "0.624264", "0.612875", "0.6062636", "0.6031954", "0.60148215", "0.59155315", "0.5907157", "0.58648735", "0.5721835", "0.5647679", "0.5618949", "0.5581592", "0.5570122", "0.55517375", "0.5532052", "0.54790115", "0.54638565", "0.54536533", "0.5408552", "0.54071486", "0.5375743", "0.5358233", "0.5315701", "0.53129613" ]

[ "def getsnx(self,whichsol_,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if snx is None: raise TypeError(\"Invalid type for argument snx\")\n _copyback_snx = False\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n _copyback_snx = True\n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n _copyback_snx = True\n if snx_ is not None and len(snx_) != self.getnumvar():\n raise ValueError(\"Array argument snx has wrong length\")\n res = self.__obj.getsnx(whichsol_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_snx:\n snx[:] = _tmparr_snx", "def getskx(self,whichsol_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.getskx(whichsol_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skx:\n for __tmp_var_0 in range(len(skx_)): skx[__tmp_var_0] = stakey(_tmparr_skx[__tmp_var_0])", "def getskx(self,whichsol_,skx_):\n _skx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),self.getnumvar()))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_getskx(self.__nativep,whichsol_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]", "def getslx(self,whichsol_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.getslx(whichsol_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slx:\n slx[:] = _tmparr_slx", "def getsnxslice(self,whichsol_,first_,last_,snx_):\n _snx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),((last_) - (first_))))\n if isinstance(snx_,numpy.ndarray) and not snx_.flags.writeable:\n raise ValueError(\"Argument snx must be writable\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_getsnxslice(self.__nativep,whichsol_,first_,last_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _snx_copyarray:\n snx_[:] = _snx_np_tmp", "def getslx(self,whichsol_,slx_):\n _slx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),self.getnumvar()))\n if isinstance(slx_,numpy.ndarray) and not slx_.flags.writeable:\n raise ValueError(\"Argument slx must be writable\")\n if slx_ is None:\n raise ValueError(\"Argument slx may not be None\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_getslx(self.__nativep,whichsol_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slx_copyarray:\n slx_[:] = _slx_np_tmp", "def getsnxslice(self,whichsol_,first_,last_,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_snx = False\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n _copyback_snx = True\n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n _copyback_snx = True\n if snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx has wrong length\")\n res = self.__obj.getsnxslice(whichsol_,first_,last_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_snx:\n snx[:] = _tmparr_snx", "def getsolution(self,whichsol_,skc,skx,skn,xc,xx,y,slc,suc,slx,sux,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skc = False\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n _copyback_skc = True\n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n _copyback_skc = True\n if skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc has wrong length\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx has wrong length\")\n _copyback_skn = False\n if skn is None:\n skn_ = None\n else:\n try:\n skn_ = memoryview(skn)\n except TypeError:\n try:\n _tmparr_skn = array.array(\"i\",skn)\n except TypeError:\n raise TypeError(\"Argument skn has wrong type\")\n else:\n skn_ = memoryview(_tmparr_skn)\n _copyback_skn = True\n else:\n if skn_.format != \"i\":\n skn_ = memoryview(array.array(\"i\",skn))\n _copyback_skn = True\n if skn_ is not None and len(skn_) != self.getnumcone():\n raise ValueError(\"Array argument skn has wrong length\")\n _copyback_xc = False\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n _copyback_xc = True\n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n _copyback_xc = True\n if xc_ is not None and len(xc_) != self.getnumcon():\n raise ValueError(\"Array argument xc has wrong length\")\n _copyback_xx = False\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n _copyback_xx = True\n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n _copyback_xx = True\n if xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx has wrong length\")\n _copyback_y = False\n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n _copyback_y = True\n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n _copyback_y = True\n if y_ is not None and len(y_) != self.getnumcon():\n raise ValueError(\"Array argument y has wrong length\")\n _copyback_slc = False\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n _copyback_slc = True\n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n _copyback_slc = True\n if slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc has wrong length\")\n _copyback_suc = False\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n _copyback_suc = True\n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n _copyback_suc = True\n if suc_ is not None and len(suc_) != self.getnumcon():\n raise ValueError(\"Array argument suc has wrong length\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx has wrong length\")\n _copyback_sux = False\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n _copyback_sux = True\n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n _copyback_sux = True\n if sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux has wrong length\")\n _copyback_snx = False\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n _copyback_snx = True\n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n _copyback_snx = True\n if snx_ is not None and len(snx_) != self.getnumvar():\n raise ValueError(\"Array argument snx has wrong length\")\n res,resargs = self.__obj.getsolution(whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _prosta_return_value,_solsta_return_value = resargs\n if _copyback_snx:\n snx[:] = _tmparr_snx\n if _copyback_sux:\n sux[:] = _tmparr_sux\n if _copyback_slx:\n slx[:] = _tmparr_slx\n if _copyback_suc:\n suc[:] = _tmparr_suc\n if _copyback_slc:\n slc[:] = _tmparr_slc\n if _copyback_y:\n y[:] = _tmparr_y\n if _copyback_xx:\n xx[:] = _tmparr_xx\n if _copyback_xc:\n xc[:] = _tmparr_xc\n if _copyback_skn:\n for __tmp_var_2 in range(len(skn_)): skn[__tmp_var_2] = stakey(_tmparr_skn[__tmp_var_2])\n if _copyback_skx:\n for __tmp_var_1 in range(len(skx_)): skx[__tmp_var_1] = stakey(_tmparr_skx[__tmp_var_1])\n if _copyback_skc:\n for __tmp_var_0 in range(len(skc_)): skc[__tmp_var_0] = stakey(_tmparr_skc[__tmp_var_0])\n _solsta_return_value = solsta(_solsta_return_value)\n _prosta_return_value = prosta(_prosta_return_value)\n return _prosta_return_value,_solsta_return_value", "def putsnx(self,whichsol_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if sux is None: raise TypeError(\"Invalid type for argument sux\")\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n \n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n \n if sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.putsnx(whichsol_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsnx(self,whichsol_,sux_):\n _sux_minlength = self.getnumvar()\n if self.getnumvar() > 0 and sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),self.getnumvar()))\n if sux_ is None:\n raise ValueError(\"Argument sux cannot be None\")\n if sux_ is None:\n raise ValueError(\"Argument sux may not be None\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_putsnx(self.__nativep,whichsol_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsolution(self,whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_):\n prosta_ = ctypes.c_int32()\n solsta_ = ctypes.c_int32()\n _skc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),self.getnumcon()))\n if isinstance(skc_,numpy.ndarray) and not skc_.flags.writeable:\n raise ValueError(\"Argument skc must be writable\")\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))()\n else:\n _skc_tmp = None\n _skx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),self.getnumvar()))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n _skn_minlength = self.getnumcone()\n if self.getnumcone() > 0 and skn_ is not None and len(skn_) != self.getnumcone():\n raise ValueError(\"Array argument skn is not long enough: Is %d, expected %d\" % (len(skn_),self.getnumcone()))\n if isinstance(skn_,numpy.ndarray) and not skn_.flags.writeable:\n raise ValueError(\"Argument skn must be writable\")\n if skn_ is not None:\n _skn_tmp = (ctypes.c_int32 * len(skn_))()\n else:\n _skn_tmp = None\n _xc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and xc_ is not None and len(xc_) != self.getnumcon():\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),self.getnumcon()))\n if isinstance(xc_,numpy.ndarray) and not xc_.flags.writeable:\n raise ValueError(\"Argument xc must be writable\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n _xx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),self.getnumvar()))\n if isinstance(xx_,numpy.ndarray) and not xx_.flags.writeable:\n raise ValueError(\"Argument xx must be writable\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n _y_minlength = self.getnumcon()\n if self.getnumcon() > 0 and y_ is not None and len(y_) != self.getnumcon():\n raise ValueError(\"Array argument y is not long enough: Is %d, expected %d\" % (len(y_),self.getnumcon()))\n if isinstance(y_,numpy.ndarray) and not y_.flags.writeable:\n raise ValueError(\"Argument y must be writable\")\n if isinstance(y_, numpy.ndarray) and y_.dtype is numpy.dtype(numpy.float64) and y_.flags.contiguous:\n _y_copyarray = False\n _y_tmp = ctypes.cast(y_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif y_ is not None:\n _y_copyarray = True\n _y_np_tmp = numpy.zeros(len(y_),numpy.dtype(numpy.float64))\n _y_np_tmp[:] = y_\n assert _y_np_tmp.flags.contiguous\n _y_tmp = ctypes.cast(_y_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _y_copyarray = False\n _y_tmp = None\n \n _slc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),self.getnumcon()))\n if isinstance(slc_,numpy.ndarray) and not slc_.flags.writeable:\n raise ValueError(\"Argument slc must be writable\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n _suc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and suc_ is not None and len(suc_) != self.getnumcon():\n raise ValueError(\"Array argument suc is not long enough: Is %d, expected %d\" % (len(suc_),self.getnumcon()))\n if isinstance(suc_,numpy.ndarray) and not suc_.flags.writeable:\n raise ValueError(\"Argument suc must be writable\")\n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n _slx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),self.getnumvar()))\n if isinstance(slx_,numpy.ndarray) and not slx_.flags.writeable:\n raise ValueError(\"Argument slx must be writable\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n _sux_minlength = self.getnumvar()\n if self.getnumvar() > 0 and sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),self.getnumvar()))\n if isinstance(sux_,numpy.ndarray) and not sux_.flags.writeable:\n raise ValueError(\"Argument sux must be writable\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n _snx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and snx_ is not None and len(snx_) != self.getnumvar():\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),self.getnumvar()))\n if isinstance(snx_,numpy.ndarray) and not snx_.flags.writeable:\n raise ValueError(\"Argument snx must be writable\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_getsolution(self.__nativep,whichsol_,ctypes.byref(prosta_),ctypes.byref(solsta_),_skc_tmp,_skx_tmp,_skn_tmp,_xc_tmp,_xx_tmp,_y_tmp,_slc_tmp,_suc_tmp,_slx_tmp,_sux_tmp,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _prosta_return_value = prosta(prosta_.value)\n _solsta_return_value = solsta(solsta_.value)\n if skc_ is not None: skc_[:] = [ stakey(v) for v in _skc_tmp[0:len(skc_)] ]\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]\n if skn_ is not None: skn_[:] = [ stakey(v) for v in _skn_tmp[0:len(skn_)] ]\n if _xc_copyarray:\n xc_[:] = _xc_np_tmp\n if _xx_copyarray:\n xx_[:] = _xx_np_tmp\n if _y_copyarray:\n y_[:] = _y_np_tmp\n if _slc_copyarray:\n slc_[:] = _slc_np_tmp\n if _suc_copyarray:\n suc_[:] = _suc_np_tmp\n if _slx_copyarray:\n slx_[:] = _slx_np_tmp\n if _sux_copyarray:\n sux_[:] = _sux_np_tmp\n if _snx_copyarray:\n snx_[:] = _snx_np_tmp\n return (_prosta_return_value,_solsta_return_value)", "def putsnxslice(self,whichsol_,first_,last_,snx_):\n _snx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),((last_) - (first_))))\n if snx_ is None:\n raise ValueError(\"Argument snx cannot be None\")\n if snx_ is None:\n raise ValueError(\"Argument snx may not be None\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_putsnxslice(self.__nativep,whichsol_,first_,last_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getdualsolutionnorms(self,whichsol_):\n nrmy_ = ctypes.c_double()\n nrmslc_ = ctypes.c_double()\n nrmsuc_ = ctypes.c_double()\n nrmslx_ = ctypes.c_double()\n nrmsux_ = ctypes.c_double()\n nrmsnx_ = ctypes.c_double()\n nrmbars_ = ctypes.c_double()\n res = __library__.MSK_XX_getdualsolutionnorms(self.__nativep,whichsol_,ctypes.byref(nrmy_),ctypes.byref(nrmslc_),ctypes.byref(nrmsuc_),ctypes.byref(nrmslx_),ctypes.byref(nrmsux_),ctypes.byref(nrmsnx_),ctypes.byref(nrmbars_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n nrmy_ = nrmy_.value\n _nrmy_return_value = nrmy_\n nrmslc_ = nrmslc_.value\n _nrmslc_return_value = nrmslc_\n nrmsuc_ = nrmsuc_.value\n _nrmsuc_return_value = nrmsuc_\n nrmslx_ = nrmslx_.value\n _nrmslx_return_value = nrmslx_\n nrmsux_ = nrmsux_.value\n _nrmsux_return_value = nrmsux_\n nrmsnx_ = nrmsnx_.value\n _nrmsnx_return_value = nrmsnx_\n nrmbars_ = nrmbars_.value\n _nrmbars_return_value = nrmbars_\n return (_nrmy_return_value,_nrmslc_return_value,_nrmsuc_return_value,_nrmslx_return_value,_nrmsux_return_value,_nrmsnx_return_value,_nrmbars_return_value)", "def compute_snr(self, x, y=None):\n\n if y is None: y = x\n ow_x = sl.solve_toeplitz(self.iloc[:len(x)], x)\n return dot(ow_x, y)/sqrt(dot(x, ow_x))", "def get_stig_x(self):\n raise NotImplementedError", "def getsolsta(self,whichsol_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res,resargs = self.__obj.getsolsta(whichsol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _solsta_return_value = resargs\n _solsta_return_value = solsta(_solsta_return_value)\n return _solsta_return_value", "def getskn(self,whichsol_,skn_):\n _skn_minlength = self.getnumcone()\n if self.getnumcone() > 0 and skn_ is not None and len(skn_) != self.getnumcone():\n raise ValueError(\"Array argument skn is not long enough: Is %d, expected %d\" % (len(skn_),self.getnumcone()))\n if isinstance(skn_,numpy.ndarray) and not skn_.flags.writeable:\n raise ValueError(\"Argument skn must be writable\")\n if skn_ is not None:\n _skn_tmp = (ctypes.c_int32 * len(skn_))()\n else:\n _skn_tmp = None\n res = __library__.MSK_XX_getskn(self.__nativep,whichsol_,_skn_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skn_ is not None: skn_[:] = [ stakey(v) for v in _skn_tmp[0:len(skn_)] ]", "def get_s_rootfinding(net, p=None, x0=None, to_ser=True, **kwargs_fsolve):\n if net.is_ss():\n return net.x\n \n if p is not None:\n net.update(p=p)\n P = net.P\n if P.nrow > 0:\n poolsizes = P.apply(lambda row: np.dot(row, net.x0), axis=1)\n \n def _f(x):\n \"\"\"This is a function to be passed to scipy.optimization.fsolve, \n which takes values of all dynamic variable (x) \n as input and outputs the time-derivatives of independent \n dynamic variables (dxi/dt) and the differences between\n the current pool sizes (as determined by the argument dynvarvals)\n and the correct pool sizes.\n \"\"\"\n dxdt = net.get_dxdt(x=x)\n \n if P.nrow > 0:\n dxidt = dxdt[net.ixids]\n poolsizes_diff = P.apply(lambda row: np.dot(row, x), axis=1) -\\\n poolsizes\n return dxidt.append(poolsizes_diff)\n else:\n return dxdt\n\n if x0 is None:\n x0 = net.x\n \n s = sp.optimize.fsolve(_f, x0, **kwargs_fsolve)\n if to_ser:\n s = Series(s, net.xids)\n return s", "def glx2snx(glx, snx, dir_snx='.'):\n###############################################################################\n # check dir_snx exists\n if not os.path.isdir(dir_snx):\n os.makedirs(dir_snx)\n \n # check output path provided in snx\n \n cmd = 'glbtosnx ' + dir_snx + ' \\'\\' ' + glx + ' ' + snx\n print(\"-- Running \", cmd)\n subprocess.getstatusoutput(cmd)", "def get_nsing(self,epsilon=1.0e-4):\n mx = self.xtqx.shape[0]\n nsing = mx - np.searchsorted(\n np.sort((self.xtqx.s.x / self.xtqx.s.x.max())[:,0]),epsilon)\n if nsing == mx:\n self.logger.warn(\"optimal nsing=npar\")\n nsing = None\n return nsing", "def getsux(self,whichsol_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if sux is None: raise TypeError(\"Invalid type for argument sux\")\n _copyback_sux = False\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n _copyback_sux = True\n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n _copyback_sux = True\n if sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.getsux(whichsol_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_sux:\n sux[:] = _tmparr_sux", "def getsolsta(self,whichsol_):\n solsta_ = ctypes.c_int32()\n res = __library__.MSK_XX_getsolsta(self.__nativep,whichsol_,ctypes.byref(solsta_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _solsta_return_value = solsta(solsta_.value)\n return (_solsta_return_value)", "def getdualsolutionnorms(self,whichsol_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res,resargs = self.__obj.getdualsolutionnorms(whichsol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _nrmy_return_value,_nrmslc_return_value,_nrmsuc_return_value,_nrmslx_return_value,_nrmsux_return_value,_nrmsnx_return_value,_nrmbars_return_value = resargs\n return _nrmy_return_value,_nrmslc_return_value,_nrmsuc_return_value,_nrmslx_return_value,_nrmsux_return_value,_nrmsnx_return_value,_nrmbars_return_value", "def putsnxslice(self,whichsol_,first_,last_,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if snx is None: raise TypeError(\"Invalid type for argument snx\")\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n \n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n \n if snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx has wrong length\")\n res = self.__obj.putsnxslice(whichsol_,first_,last_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsux(self,whichsol_,sux_):\n _sux_minlength = self.getnumvar()\n if self.getnumvar() > 0 and sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),self.getnumvar()))\n if isinstance(sux_,numpy.ndarray) and not sux_.flags.writeable:\n raise ValueError(\"Argument sux must be writable\")\n if sux_ is None:\n raise ValueError(\"Argument sux may not be None\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_getsux(self.__nativep,whichsol_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _sux_copyarray:\n sux_[:] = _sux_np_tmp", "def getxx(self,whichsol_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xx is None: raise TypeError(\"Invalid type for argument xx\")\n _copyback_xx = False\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n _copyback_xx = True\n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n _copyback_xx = True\n if xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.getxx(whichsol_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xx:\n xx[:] = _tmparr_xx", "def snr(p1, l1x, l1y, p2, l2x, l2y, var):\n ip12 = inner_product(p1, l1x, l1y, p2, l2x, l2y, var)\n ip11 = inner_product(p1, l1x, l1y, p1, l1x, l1y, var)\n ip22 = inner_product(p2, l2x, l2y, p2, l2x, l2y, var)\n\n return ip11 / (ip11 + ip22 - 2 * ip12)", "def getprimalsolutionnorms(self,whichsol_):\n nrmxc_ = ctypes.c_double()\n nrmxx_ = ctypes.c_double()\n nrmbarx_ = ctypes.c_double()\n res = __library__.MSK_XX_getprimalsolutionnorms(self.__nativep,whichsol_,ctypes.byref(nrmxc_),ctypes.byref(nrmxx_),ctypes.byref(nrmbarx_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n nrmxc_ = nrmxc_.value\n _nrmxc_return_value = nrmxc_\n nrmxx_ = nrmxx_.value\n _nrmxx_return_value = nrmxx_\n nrmbarx_ = nrmbarx_.value\n _nrmbarx_return_value = nrmbarx_\n return (_nrmxc_return_value,_nrmxx_return_value,_nrmbarx_return_value)", "def putslx(self,whichsol_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.putslx(whichsol_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskx(self,whichsol_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skx is None: raise TypeError(\"Invalid type for argument skx\")\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.putskx(whichsol_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)" ]

[ "0.86757714", "0.7156397", "0.6924034", "0.68845904", "0.66623247", "0.66261995", "0.6621294", "0.642338", "0.6265953", "0.62119913", "0.60415965", "0.59736574", "0.59373015", "0.5887918", "0.5850165", "0.58197445", "0.5817761", "0.57996505", "0.57895374", "0.5773802", "0.5772285", "0.5732193", "0.5723274", "0.56917596", "0.5685911", "0.5680247", "0.5656267", "0.56541264", "0.56481683", "0.5580914" ]

[ "def getskcslice(self,whichsol_,first_,last_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skc = False\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n _copyback_skc = True\n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n _copyback_skc = True\n if skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.getskcslice(whichsol_,first_,last_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skc:\n for __tmp_var_0 in range(len(skc_)): skc[__tmp_var_0] = stakey(_tmparr_skc[__tmp_var_0])", "def getskxslice(self,whichsol_,first_,last_,skx_):\n _skx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),((last_) - (first_))))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_getskxslice(self.__nativep,whichsol_,first_,last_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]", "def getskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.getskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skx:\n for __tmp_var_0 in range(len(skx_)): skx[__tmp_var_0] = stakey(_tmparr_skx[__tmp_var_0])", "def putskcslice(self,whichsol_,first_,last_,skc_):\n _skc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),((last_) - (first_))))\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))(*skc_)\n else:\n _skc_tmp = None\n res = __library__.MSK_XX_putskcslice(self.__nativep,whichsol_,first_,last_,_skc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskcslice(self,whichsol_,first_,last_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n \n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n \n if skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.putskcslice(whichsol_,first_,last_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getslcslice(self,whichsol_,first_,last_,slc_):\n _slc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),((last_) - (first_))))\n if isinstance(slc_,numpy.ndarray) and not slc_.flags.writeable:\n raise ValueError(\"Argument slc must be writable\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_getslcslice(self.__nativep,whichsol_,first_,last_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slc_copyarray:\n slc_[:] = _slc_np_tmp", "def getslcslice(self,whichsol_,first_,last_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_slc = False\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n _copyback_slc = True\n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n _copyback_slc = True\n if slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.getslcslice(whichsol_,first_,last_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slc:\n slc[:] = _tmparr_slc", "def getskc(self,whichsol_,skc_):\n _skc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),self.getnumcon()))\n if isinstance(skc_,numpy.ndarray) and not skc_.flags.writeable:\n raise ValueError(\"Argument skc must be writable\")\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))()\n else:\n _skc_tmp = None\n res = __library__.MSK_XX_getskc(self.__nativep,whichsol_,_skc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skc_ is not None: skc_[:] = [ stakey(v) for v in _skc_tmp[0:len(skc_)] ]", "def getskc(self,whichsol_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skc = False\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n _copyback_skc = True\n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n _copyback_skc = True\n if skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.getskc(whichsol_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skc:\n for __tmp_var_0 in range(len(skc_)): skc[__tmp_var_0] = stakey(_tmparr_skc[__tmp_var_0])", "def putskxslice(self,whichsol_,first_,last_,skx_):\n _skx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),((last_) - (first_))))\n if skx_ is None:\n raise ValueError(\"Argument skx cannot be None\")\n if skx_ is None:\n raise ValueError(\"Argument skx may not be None\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))(*skx_)\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_putskxslice(self.__nativep,whichsol_,first_,last_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skx is None: raise TypeError(\"Invalid type for argument skx\")\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.putskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsucslice(self,whichsol_,first_,last_,suc_):\n _suc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc is not long enough: Is %d, expected %d\" % (len(suc_),((last_) - (first_))))\n if isinstance(suc_,numpy.ndarray) and not suc_.flags.writeable:\n raise ValueError(\"Argument suc must be writable\")\n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n res = __library__.MSK_XX_getsucslice(self.__nativep,whichsol_,first_,last_,_suc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _suc_copyarray:\n suc_[:] = _suc_np_tmp", "def getsucslice(self,whichsol_,first_,last_,suc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_suc = False\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n _copyback_suc = True\n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n _copyback_suc = True\n if suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc has wrong length\")\n res = self.__obj.getsucslice(whichsol_,first_,last_,suc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_suc:\n suc[:] = _tmparr_suc", "def getsnxslice(self,whichsol_,first_,last_,snx_):\n _snx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),((last_) - (first_))))\n if isinstance(snx_,numpy.ndarray) and not snx_.flags.writeable:\n raise ValueError(\"Argument snx must be writable\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_getsnxslice(self.__nativep,whichsol_,first_,last_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _snx_copyarray:\n snx_[:] = _snx_np_tmp", "def getsnxslice(self,whichsol_,first_,last_,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_snx = False\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n _copyback_snx = True\n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n _copyback_snx = True\n if snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx has wrong length\")\n res = self.__obj.getsnxslice(whichsol_,first_,last_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_snx:\n snx[:] = _tmparr_snx", "def getxcslice(self,whichsol_,first_,last_,xc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_xc = False\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n _copyback_xc = True\n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n _copyback_xc = True\n if xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc has wrong length\")\n res = self.__obj.getxcslice(whichsol_,first_,last_,xc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xc:\n xc[:] = _tmparr_xc", "def getxcslice(self,whichsol_,first_,last_,xc_):\n _xc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),((last_) - (first_))))\n if isinstance(xc_,numpy.ndarray) and not xc_.flags.writeable:\n raise ValueError(\"Argument xc must be writable\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n res = __library__.MSK_XX_getxcslice(self.__nativep,whichsol_,first_,last_,_xc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _xc_copyarray:\n xc_[:] = _xc_np_tmp", "def putslcslice(self,whichsol_,first_,last_,slc_):\n _slc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),((last_) - (first_))))\n if slc_ is None:\n raise ValueError(\"Argument slc cannot be None\")\n if slc_ is None:\n raise ValueError(\"Argument slc may not be None\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_putslcslice(self.__nativep,whichsol_,first_,last_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslcslice(self,whichsol_,first_,last_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slc is None: raise TypeError(\"Invalid type for argument slc\")\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n \n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n \n if slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.putslcslice(whichsol_,first_,last_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getskx(self,whichsol_,skx_):\n _skx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),self.getnumvar()))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_getskx(self.__nativep,whichsol_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]", "def getskx(self,whichsol_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.getskx(whichsol_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skx:\n for __tmp_var_0 in range(len(skx_)): skx[__tmp_var_0] = stakey(_tmparr_skx[__tmp_var_0])", "def getslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.getslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slx:\n slx[:] = _tmparr_slx", "def getslxslice(self,whichsol_,first_,last_,slx_):\n _slx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),((last_) - (first_))))\n if isinstance(slx_,numpy.ndarray) and not slx_.flags.writeable:\n raise ValueError(\"Argument slx must be writable\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_getslxslice(self.__nativep,whichsol_,first_,last_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slx_copyarray:\n slx_[:] = _slx_np_tmp", "def getskn(self,whichsol_,skn_):\n _skn_minlength = self.getnumcone()\n if self.getnumcone() > 0 and skn_ is not None and len(skn_) != self.getnumcone():\n raise ValueError(\"Array argument skn is not long enough: Is %d, expected %d\" % (len(skn_),self.getnumcone()))\n if isinstance(skn_,numpy.ndarray) and not skn_.flags.writeable:\n raise ValueError(\"Argument skn must be writable\")\n if skn_ is not None:\n _skn_tmp = (ctypes.c_int32 * len(skn_))()\n else:\n _skn_tmp = None\n res = __library__.MSK_XX_getskn(self.__nativep,whichsol_,_skn_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skn_ is not None: skn_[:] = [ stakey(v) for v in _skn_tmp[0:len(skn_)] ]", "def getslc(self,whichsol_,slc_):\n _slc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),self.getnumcon()))\n if isinstance(slc_,numpy.ndarray) and not slc_.flags.writeable:\n raise ValueError(\"Argument slc must be writable\")\n if slc_ is None:\n raise ValueError(\"Argument slc may not be None\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_getslc(self.__nativep,whichsol_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slc_copyarray:\n slc_[:] = _slc_np_tmp", "def slice(self,sn,**kwargs):\n\n\t\t#---default spotname\n\t\tself.cursor = kwargs.get('spot',self.cursor)\n\t\tpart_name = kwargs.get('part_name',self.cursor[1])\n\t\t#---search for the simulation in all spots\n\t\tkeys_to_sn = [key for key in self.slices.keys() if key[1]==sn and key[0][1]==part_name]\n\t\tif len(keys_to_sn)>1: raise Exception('found simulation %s in multiple spots!'%sn)\n\t\telif not keys_to_sn: \n\t\t\traise Exception('failed to find slice key for sn \"%s\" and part \"%s\". '%(sn,part_name)+\n\t\t\t\t'this might happen if you are missing that simulation or the \"spot\" that holds it. '+\n\t\t\t\t'the cursor is \"%s\" and the spotname is \"%s\"'%(self.cursor,self.c))\n\t\tunique_key = keys_to_sn[0]\n\t\tif unique_key[0] != self.cursor:\n\t\t\tself.cursor = unique_key[0]\n\t\t\tstatus('moving cursor to %s,%s'%self.cursor,tag='status')\n\t\t\t#---! needs concerted motion of cursor/c\n\t\t\tself.c = self.cursor[0]\n\t\tif unique_key not in self.slices: \n\t\t\tstatus('could not find slices for %s (is it in the specs file?)'%str(unique_key))\n\t\treturn self.slices[unique_key]", "def getsolution(self,whichsol_,skc,skx,skn,xc,xx,y,slc,suc,slx,sux,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skc = False\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n _copyback_skc = True\n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n _copyback_skc = True\n if skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc has wrong length\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx has wrong length\")\n _copyback_skn = False\n if skn is None:\n skn_ = None\n else:\n try:\n skn_ = memoryview(skn)\n except TypeError:\n try:\n _tmparr_skn = array.array(\"i\",skn)\n except TypeError:\n raise TypeError(\"Argument skn has wrong type\")\n else:\n skn_ = memoryview(_tmparr_skn)\n _copyback_skn = True\n else:\n if skn_.format != \"i\":\n skn_ = memoryview(array.array(\"i\",skn))\n _copyback_skn = True\n if skn_ is not None and len(skn_) != self.getnumcone():\n raise ValueError(\"Array argument skn has wrong length\")\n _copyback_xc = False\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n _copyback_xc = True\n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n _copyback_xc = True\n if xc_ is not None and len(xc_) != self.getnumcon():\n raise ValueError(\"Array argument xc has wrong length\")\n _copyback_xx = False\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n _copyback_xx = True\n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n _copyback_xx = True\n if xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx has wrong length\")\n _copyback_y = False\n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n _copyback_y = True\n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n _copyback_y = True\n if y_ is not None and len(y_) != self.getnumcon():\n raise ValueError(\"Array argument y has wrong length\")\n _copyback_slc = False\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n _copyback_slc = True\n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n _copyback_slc = True\n if slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc has wrong length\")\n _copyback_suc = False\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n _copyback_suc = True\n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n _copyback_suc = True\n if suc_ is not None and len(suc_) != self.getnumcon():\n raise ValueError(\"Array argument suc has wrong length\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx has wrong length\")\n _copyback_sux = False\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n _copyback_sux = True\n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n _copyback_sux = True\n if sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux has wrong length\")\n _copyback_snx = False\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n _copyback_snx = True\n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n _copyback_snx = True\n if snx_ is not None and len(snx_) != self.getnumvar():\n raise ValueError(\"Array argument snx has wrong length\")\n res,resargs = self.__obj.getsolution(whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _prosta_return_value,_solsta_return_value = resargs\n if _copyback_snx:\n snx[:] = _tmparr_snx\n if _copyback_sux:\n sux[:] = _tmparr_sux\n if _copyback_slx:\n slx[:] = _tmparr_slx\n if _copyback_suc:\n suc[:] = _tmparr_suc\n if _copyback_slc:\n slc[:] = _tmparr_slc\n if _copyback_y:\n y[:] = _tmparr_y\n if _copyback_xx:\n xx[:] = _tmparr_xx\n if _copyback_xc:\n xc[:] = _tmparr_xc\n if _copyback_skn:\n for __tmp_var_2 in range(len(skn_)): skn[__tmp_var_2] = stakey(_tmparr_skn[__tmp_var_2])\n if _copyback_skx:\n for __tmp_var_1 in range(len(skx_)): skx[__tmp_var_1] = stakey(_tmparr_skx[__tmp_var_1])\n if _copyback_skc:\n for __tmp_var_0 in range(len(skc_)): skc[__tmp_var_0] = stakey(_tmparr_skc[__tmp_var_0])\n _solsta_return_value = solsta(_solsta_return_value)\n _prosta_return_value = prosta(_prosta_return_value)\n return _prosta_return_value,_solsta_return_value", "def getslc(self,whichsol_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slc is None: raise TypeError(\"Invalid type for argument slc\")\n _copyback_slc = False\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n _copyback_slc = True\n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n _copyback_slc = True\n if slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.getslc(whichsol_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slc:\n slc[:] = _tmparr_slc", "def getsolution(self,whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_):\n prosta_ = ctypes.c_int32()\n solsta_ = ctypes.c_int32()\n _skc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),self.getnumcon()))\n if isinstance(skc_,numpy.ndarray) and not skc_.flags.writeable:\n raise ValueError(\"Argument skc must be writable\")\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))()\n else:\n _skc_tmp = None\n _skx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),self.getnumvar()))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n _skn_minlength = self.getnumcone()\n if self.getnumcone() > 0 and skn_ is not None and len(skn_) != self.getnumcone():\n raise ValueError(\"Array argument skn is not long enough: Is %d, expected %d\" % (len(skn_),self.getnumcone()))\n if isinstance(skn_,numpy.ndarray) and not skn_.flags.writeable:\n raise ValueError(\"Argument skn must be writable\")\n if skn_ is not None:\n _skn_tmp = (ctypes.c_int32 * len(skn_))()\n else:\n _skn_tmp = None\n _xc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and xc_ is not None and len(xc_) != self.getnumcon():\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),self.getnumcon()))\n if isinstance(xc_,numpy.ndarray) and not xc_.flags.writeable:\n raise ValueError(\"Argument xc must be writable\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n _xx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),self.getnumvar()))\n if isinstance(xx_,numpy.ndarray) and not xx_.flags.writeable:\n raise ValueError(\"Argument xx must be writable\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n _y_minlength = self.getnumcon()\n if self.getnumcon() > 0 and y_ is not None and len(y_) != self.getnumcon():\n raise ValueError(\"Array argument y is not long enough: Is %d, expected %d\" % (len(y_),self.getnumcon()))\n if isinstance(y_,numpy.ndarray) and not y_.flags.writeable:\n raise ValueError(\"Argument y must be writable\")\n if isinstance(y_, numpy.ndarray) and y_.dtype is numpy.dtype(numpy.float64) and y_.flags.contiguous:\n _y_copyarray = False\n _y_tmp = ctypes.cast(y_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif y_ is not None:\n _y_copyarray = True\n _y_np_tmp = numpy.zeros(len(y_),numpy.dtype(numpy.float64))\n _y_np_tmp[:] = y_\n assert _y_np_tmp.flags.contiguous\n _y_tmp = ctypes.cast(_y_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _y_copyarray = False\n _y_tmp = None\n \n _slc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),self.getnumcon()))\n if isinstance(slc_,numpy.ndarray) and not slc_.flags.writeable:\n raise ValueError(\"Argument slc must be writable\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n _suc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and suc_ is not None and len(suc_) != self.getnumcon():\n raise ValueError(\"Array argument suc is not long enough: Is %d, expected %d\" % (len(suc_),self.getnumcon()))\n if isinstance(suc_,numpy.ndarray) and not suc_.flags.writeable:\n raise ValueError(\"Argument suc must be writable\")\n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n _slx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),self.getnumvar()))\n if isinstance(slx_,numpy.ndarray) and not slx_.flags.writeable:\n raise ValueError(\"Argument slx must be writable\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n _sux_minlength = self.getnumvar()\n if self.getnumvar() > 0 and sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),self.getnumvar()))\n if isinstance(sux_,numpy.ndarray) and not sux_.flags.writeable:\n raise ValueError(\"Argument sux must be writable\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n _snx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and snx_ is not None and len(snx_) != self.getnumvar():\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),self.getnumvar()))\n if isinstance(snx_,numpy.ndarray) and not snx_.flags.writeable:\n raise ValueError(\"Argument snx must be writable\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_getsolution(self.__nativep,whichsol_,ctypes.byref(prosta_),ctypes.byref(solsta_),_skc_tmp,_skx_tmp,_skn_tmp,_xc_tmp,_xx_tmp,_y_tmp,_slc_tmp,_suc_tmp,_slx_tmp,_sux_tmp,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _prosta_return_value = prosta(prosta_.value)\n _solsta_return_value = solsta(solsta_.value)\n if skc_ is not None: skc_[:] = [ stakey(v) for v in _skc_tmp[0:len(skc_)] ]\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]\n if skn_ is not None: skn_[:] = [ stakey(v) for v in _skn_tmp[0:len(skn_)] ]\n if _xc_copyarray:\n xc_[:] = _xc_np_tmp\n if _xx_copyarray:\n xx_[:] = _xx_np_tmp\n if _y_copyarray:\n y_[:] = _y_np_tmp\n if _slc_copyarray:\n slc_[:] = _slc_np_tmp\n if _suc_copyarray:\n suc_[:] = _suc_np_tmp\n if _slx_copyarray:\n slx_[:] = _slx_np_tmp\n if _sux_copyarray:\n sux_[:] = _sux_np_tmp\n if _snx_copyarray:\n snx_[:] = _snx_np_tmp\n return (_prosta_return_value,_solsta_return_value)", "def Get(self,k:int): \n ### get partitions depending on the partition schemes C that depends on k!\n return subsets_k(list(range(self._n)),k)" ]

[ "0.83698577", "0.7676276", "0.7641969", "0.71756285", "0.70338166", "0.69210166", "0.689157", "0.6883371", "0.678969", "0.6505328", "0.6364215", "0.6342192", "0.6307355", "0.62220454", "0.621526", "0.6176144", "0.61322945", "0.6026262", "0.5910877", "0.58903396", "0.5878165", "0.58590597", "0.5810157", "0.575804", "0.5623461", "0.5563146", "0.5471689", "0.5443446", "0.5408486", "0.53745955" ]

[ "def getskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.getskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skx:\n for __tmp_var_0 in range(len(skx_)): skx[__tmp_var_0] = stakey(_tmparr_skx[__tmp_var_0])", "def getsnxslice(self,whichsol_,first_,last_,snx_):\n _snx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),((last_) - (first_))))\n if isinstance(snx_,numpy.ndarray) and not snx_.flags.writeable:\n raise ValueError(\"Argument snx must be writable\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_getsnxslice(self.__nativep,whichsol_,first_,last_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _snx_copyarray:\n snx_[:] = _snx_np_tmp", "def getskcslice(self,whichsol_,first_,last_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skc = False\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n _copyback_skc = True\n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n _copyback_skc = True\n if skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.getskcslice(whichsol_,first_,last_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skc:\n for __tmp_var_0 in range(len(skc_)): skc[__tmp_var_0] = stakey(_tmparr_skc[__tmp_var_0])", "def getskx(self,whichsol_,skx_):\n _skx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),self.getnumvar()))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_getskx(self.__nativep,whichsol_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]", "def putskxslice(self,whichsol_,first_,last_,skx_):\n _skx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),((last_) - (first_))))\n if skx_ is None:\n raise ValueError(\"Argument skx cannot be None\")\n if skx_ is None:\n raise ValueError(\"Argument skx may not be None\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))(*skx_)\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_putskxslice(self.__nativep,whichsol_,first_,last_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getskcslice(self,whichsol_,first_,last_,skc_):\n _skc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),((last_) - (first_))))\n if isinstance(skc_,numpy.ndarray) and not skc_.flags.writeable:\n raise ValueError(\"Argument skc must be writable\")\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))()\n else:\n _skc_tmp = None\n res = __library__.MSK_XX_getskcslice(self.__nativep,whichsol_,first_,last_,_skc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skc_ is not None: skc_[:] = [ stakey(v) for v in _skc_tmp[0:len(skc_)] ]", "def getskx(self,whichsol_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.getskx(whichsol_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skx:\n for __tmp_var_0 in range(len(skx_)): skx[__tmp_var_0] = stakey(_tmparr_skx[__tmp_var_0])", "def getsnxslice(self,whichsol_,first_,last_,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_snx = False\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n _copyback_snx = True\n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n _copyback_snx = True\n if snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx has wrong length\")\n res = self.__obj.getsnxslice(whichsol_,first_,last_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_snx:\n snx[:] = _tmparr_snx", "def putskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skx is None: raise TypeError(\"Invalid type for argument skx\")\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.putskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getslxslice(self,whichsol_,first_,last_,slx_):\n _slx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),((last_) - (first_))))\n if isinstance(slx_,numpy.ndarray) and not slx_.flags.writeable:\n raise ValueError(\"Argument slx must be writable\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_getslxslice(self.__nativep,whichsol_,first_,last_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slx_copyarray:\n slx_[:] = _slx_np_tmp", "def getslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.getslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slx:\n slx[:] = _tmparr_slx", "def putsnxslice(self,whichsol_,first_,last_,snx_):\n _snx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),((last_) - (first_))))\n if snx_ is None:\n raise ValueError(\"Argument snx cannot be None\")\n if snx_ is None:\n raise ValueError(\"Argument snx may not be None\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_putsnxslice(self.__nativep,whichsol_,first_,last_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getslcslice(self,whichsol_,first_,last_,slc_):\n _slc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),((last_) - (first_))))\n if isinstance(slc_,numpy.ndarray) and not slc_.flags.writeable:\n raise ValueError(\"Argument slc must be writable\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_getslcslice(self.__nativep,whichsol_,first_,last_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slc_copyarray:\n slc_[:] = _slc_np_tmp", "def getxcslice(self,whichsol_,first_,last_,xc_):\n _xc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),((last_) - (first_))))\n if isinstance(xc_,numpy.ndarray) and not xc_.flags.writeable:\n raise ValueError(\"Argument xc must be writable\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n res = __library__.MSK_XX_getxcslice(self.__nativep,whichsol_,first_,last_,_xc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _xc_copyarray:\n xc_[:] = _xc_np_tmp", "def getsucslice(self,whichsol_,first_,last_,suc_):\n _suc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc is not long enough: Is %d, expected %d\" % (len(suc_),((last_) - (first_))))\n if isinstance(suc_,numpy.ndarray) and not suc_.flags.writeable:\n raise ValueError(\"Argument suc must be writable\")\n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n res = __library__.MSK_XX_getsucslice(self.__nativep,whichsol_,first_,last_,_suc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _suc_copyarray:\n suc_[:] = _suc_np_tmp", "def getxcslice(self,whichsol_,first_,last_,xc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_xc = False\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n _copyback_xc = True\n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n _copyback_xc = True\n if xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc has wrong length\")\n res = self.__obj.getxcslice(whichsol_,first_,last_,xc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xc:\n xc[:] = _tmparr_xc", "def getslcslice(self,whichsol_,first_,last_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_slc = False\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n _copyback_slc = True\n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n _copyback_slc = True\n if slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.getslcslice(whichsol_,first_,last_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slc:\n slc[:] = _tmparr_slc", "def getxxslice(self,whichsol_,first_,last_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_xx = False\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n _copyback_xx = True\n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n _copyback_xx = True\n if xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.getxxslice(whichsol_,first_,last_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xx:\n xx[:] = _tmparr_xx", "def putslxslice(self,whichsol_,first_,last_,slx_):\n _slx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),((last_) - (first_))))\n if slx_ is None:\n raise ValueError(\"Argument slx cannot be None\")\n if slx_ is None:\n raise ValueError(\"Argument slx may not be None\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_putslxslice(self.__nativep,whichsol_,first_,last_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getxxslice(self,whichsol_,first_,last_,xx_):\n _xx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),((last_) - (first_))))\n if isinstance(xx_,numpy.ndarray) and not xx_.flags.writeable:\n raise ValueError(\"Argument xx must be writable\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n res = __library__.MSK_XX_getxxslice(self.__nativep,whichsol_,first_,last_,_xx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _xx_copyarray:\n xx_[:] = _xx_np_tmp", "def putsnxslice(self,whichsol_,first_,last_,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if snx is None: raise TypeError(\"Invalid type for argument snx\")\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n \n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n \n if snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx has wrong length\")\n res = self.__obj.putsnxslice(whichsol_,first_,last_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsucslice(self,whichsol_,first_,last_,suc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_suc = False\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n _copyback_suc = True\n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n _copyback_suc = True\n if suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc has wrong length\")\n res = self.__obj.getsucslice(whichsol_,first_,last_,suc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_suc:\n suc[:] = _tmparr_suc", "def putskcslice(self,whichsol_,first_,last_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n \n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n \n if skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.putskcslice(whichsol_,first_,last_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskcslice(self,whichsol_,first_,last_,skc_):\n _skc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),((last_) - (first_))))\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))(*skc_)\n else:\n _skc_tmp = None\n res = __library__.MSK_XX_putskcslice(self.__nativep,whichsol_,first_,last_,_skc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.putslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsnx(self,whichsol_,snx_):\n _snx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and snx_ is not None and len(snx_) != self.getnumvar():\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),self.getnumvar()))\n if isinstance(snx_,numpy.ndarray) and not snx_.flags.writeable:\n raise ValueError(\"Argument snx must be writable\")\n if snx_ is None:\n raise ValueError(\"Argument snx may not be None\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_getsnx(self.__nativep,whichsol_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _snx_copyarray:\n snx_[:] = _snx_np_tmp", "def getskc(self,whichsol_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skc = False\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n _copyback_skc = True\n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n _copyback_skc = True\n if skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.getskc(whichsol_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skc:\n for __tmp_var_0 in range(len(skc_)): skc[__tmp_var_0] = stakey(_tmparr_skc[__tmp_var_0])", "def getyslice(self,whichsol_,first_,last_,y_):\n _y_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and y_ is not None and len(y_) != ((last_) - (first_)):\n raise ValueError(\"Array argument y is not long enough: Is %d, expected %d\" % (len(y_),((last_) - (first_))))\n if isinstance(y_,numpy.ndarray) and not y_.flags.writeable:\n raise ValueError(\"Argument y must be writable\")\n if isinstance(y_, numpy.ndarray) and y_.dtype is numpy.dtype(numpy.float64) and y_.flags.contiguous:\n _y_copyarray = False\n _y_tmp = ctypes.cast(y_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif y_ is not None:\n _y_copyarray = True\n _y_np_tmp = numpy.zeros(len(y_),numpy.dtype(numpy.float64))\n _y_np_tmp[:] = y_\n assert _y_np_tmp.flags.contiguous\n _y_tmp = ctypes.cast(_y_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _y_copyarray = False\n _y_tmp = None\n \n res = __library__.MSK_XX_getyslice(self.__nativep,whichsol_,first_,last_,_y_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _y_copyarray:\n y_[:] = _y_np_tmp", "def getsuxslice(self,whichsol_,first_,last_,sux_):\n _sux_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),((last_) - (first_))))\n if isinstance(sux_,numpy.ndarray) and not sux_.flags.writeable:\n raise ValueError(\"Argument sux must be writable\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_getsuxslice(self.__nativep,whichsol_,first_,last_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _sux_copyarray:\n sux_[:] = _sux_np_tmp", "def getskc(self,whichsol_,skc_):\n _skc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),self.getnumcon()))\n if isinstance(skc_,numpy.ndarray) and not skc_.flags.writeable:\n raise ValueError(\"Argument skc must be writable\")\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))()\n else:\n _skc_tmp = None\n res = __library__.MSK_XX_getskc(self.__nativep,whichsol_,_skc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skc_ is not None: skc_[:] = [ stakey(v) for v in _skc_tmp[0:len(skc_)] ]" ]

[ "0.8476064", "0.7415245", "0.7376962", "0.73584974", "0.7336305", "0.7291409", "0.7210694", "0.7207023", "0.71809304", "0.69940525", "0.6907337", "0.6479482", "0.634455", "0.627097", "0.6255118", "0.6236788", "0.618273", "0.615297", "0.6128315", "0.6101179", "0.60960925", "0.60455215", "0.60356313", "0.60100025", "0.5952508", "0.59177816", "0.59026957", "0.5881416", "0.58659095", "0.5848445" ]

[ "def getxcslice(self,whichsol_,first_,last_,xc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_xc = False\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n _copyback_xc = True\n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n _copyback_xc = True\n if xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc has wrong length\")\n res = self.__obj.getxcslice(whichsol_,first_,last_,xc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xc:\n xc[:] = _tmparr_xc", "def putxcslice(self,whichsol_,first_,last_,xc_):\n _xc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),((last_) - (first_))))\n if xc_ is None:\n raise ValueError(\"Argument xc cannot be None\")\n if xc_ is None:\n raise ValueError(\"Argument xc may not be None\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n res = __library__.MSK_XX_putxcslice(self.__nativep,whichsol_,first_,last_,_xc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putxcslice(self,whichsol_,first_,last_,xc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xc is None: raise TypeError(\"Invalid type for argument xc\")\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n \n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n \n if xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc has wrong length\")\n res = self.__obj.putxcslice(whichsol_,first_,last_,xc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getxxslice(self,whichsol_,first_,last_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_xx = False\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n _copyback_xx = True\n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n _copyback_xx = True\n if xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.getxxslice(whichsol_,first_,last_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xx:\n xx[:] = _tmparr_xx", "def getskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.getskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skx:\n for __tmp_var_0 in range(len(skx_)): skx[__tmp_var_0] = stakey(_tmparr_skx[__tmp_var_0])", "def getxxslice(self,whichsol_,first_,last_,xx_):\n _xx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),((last_) - (first_))))\n if isinstance(xx_,numpy.ndarray) and not xx_.flags.writeable:\n raise ValueError(\"Argument xx must be writable\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n res = __library__.MSK_XX_getxxslice(self.__nativep,whichsol_,first_,last_,_xx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _xx_copyarray:\n xx_[:] = _xx_np_tmp", "def getskxslice(self,whichsol_,first_,last_,skx_):\n _skx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),((last_) - (first_))))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_getskxslice(self.__nativep,whichsol_,first_,last_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]", "def getsnxslice(self,whichsol_,first_,last_,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_snx = False\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n _copyback_snx = True\n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n _copyback_snx = True\n if snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx has wrong length\")\n res = self.__obj.getsnxslice(whichsol_,first_,last_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_snx:\n snx[:] = _tmparr_snx", "def getsnxslice(self,whichsol_,first_,last_,snx_):\n _snx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),((last_) - (first_))))\n if isinstance(snx_,numpy.ndarray) and not snx_.flags.writeable:\n raise ValueError(\"Argument snx must be writable\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_getsnxslice(self.__nativep,whichsol_,first_,last_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _snx_copyarray:\n snx_[:] = _snx_np_tmp", "def getslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.getslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slx:\n slx[:] = _tmparr_slx", "def getslxslice(self,whichsol_,first_,last_,slx_):\n _slx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),((last_) - (first_))))\n if isinstance(slx_,numpy.ndarray) and not slx_.flags.writeable:\n raise ValueError(\"Argument slx must be writable\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_getslxslice(self.__nativep,whichsol_,first_,last_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slx_copyarray:\n slx_[:] = _slx_np_tmp", "def getskcslice(self,whichsol_,first_,last_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skc = False\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n _copyback_skc = True\n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n _copyback_skc = True\n if skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.getskcslice(whichsol_,first_,last_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skc:\n for __tmp_var_0 in range(len(skc_)): skc[__tmp_var_0] = stakey(_tmparr_skc[__tmp_var_0])", "def getskcslice(self,whichsol_,first_,last_,skc_):\n _skc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),((last_) - (first_))))\n if isinstance(skc_,numpy.ndarray) and not skc_.flags.writeable:\n raise ValueError(\"Argument skc must be writable\")\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))()\n else:\n _skc_tmp = None\n res = __library__.MSK_XX_getskcslice(self.__nativep,whichsol_,first_,last_,_skc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skc_ is not None: skc_[:] = [ stakey(v) for v in _skc_tmp[0:len(skc_)] ]", "def getxc(self,whichsol_,xc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xc is None: raise TypeError(\"Invalid type for argument xc\")\n _copyback_xc = False\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n _copyback_xc = True\n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n _copyback_xc = True\n if xc_ is not None and len(xc_) != self.getnumcon():\n raise ValueError(\"Array argument xc has wrong length\")\n res = self.__obj.getxc(whichsol_,xc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xc:\n xc[:] = _tmparr_xc", "def getxc(self,whichsol_,xc_):\n _xc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and xc_ is not None and len(xc_) != self.getnumcon():\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),self.getnumcon()))\n if isinstance(xc_,numpy.ndarray) and not xc_.flags.writeable:\n raise ValueError(\"Argument xc must be writable\")\n if xc_ is None:\n raise ValueError(\"Argument xc may not be None\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n res = __library__.MSK_XX_getxc(self.__nativep,whichsol_,_xc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _xc_copyarray:\n xc_[:] = _xc_np_tmp", "def getslcslice(self,whichsol_,first_,last_,slc_):\n _slc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),((last_) - (first_))))\n if isinstance(slc_,numpy.ndarray) and not slc_.flags.writeable:\n raise ValueError(\"Argument slc must be writable\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_getslcslice(self.__nativep,whichsol_,first_,last_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slc_copyarray:\n slc_[:] = _slc_np_tmp", "def getslcslice(self,whichsol_,first_,last_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_slc = False\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n _copyback_slc = True\n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n _copyback_slc = True\n if slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.getslcslice(whichsol_,first_,last_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slc:\n slc[:] = _tmparr_slc", "def getbarxslice(self,whichsol_,first_,last_,slicesize_,barxslice_):\n _barxslice_minlength = (slicesize_)\n if (slicesize_) > 0 and barxslice_ is not None and len(barxslice_) != (slicesize_):\n raise ValueError(\"Array argument barxslice is not long enough: Is %d, expected %d\" % (len(barxslice_),(slicesize_)))\n if isinstance(barxslice_,numpy.ndarray) and not barxslice_.flags.writeable:\n raise ValueError(\"Argument barxslice must be writable\")\n if barxslice_ is None:\n raise ValueError(\"Argument barxslice may not be None\")\n if isinstance(barxslice_, numpy.ndarray) and barxslice_.dtype is numpy.dtype(numpy.float64) and barxslice_.flags.contiguous:\n _barxslice_copyarray = False\n _barxslice_tmp = ctypes.cast(barxslice_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif barxslice_ is not None:\n _barxslice_copyarray = True\n _barxslice_np_tmp = numpy.zeros(len(barxslice_),numpy.dtype(numpy.float64))\n _barxslice_np_tmp[:] = barxslice_\n assert _barxslice_np_tmp.flags.contiguous\n _barxslice_tmp = ctypes.cast(_barxslice_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _barxslice_copyarray = False\n _barxslice_tmp = None\n \n res = __library__.MSK_XX_getbarxslice(self.__nativep,whichsol_,first_,last_,slicesize_,_barxslice_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _barxslice_copyarray:\n barxslice_[:] = _barxslice_np_tmp", "def getyslice(self,whichsol_,first_,last_,y): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_y = False\n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n _copyback_y = True\n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n _copyback_y = True\n if y_ is not None and len(y_) != ((last_) - (first_)):\n raise ValueError(\"Array argument y has wrong length\")\n res = self.__obj.getyslice(whichsol_,first_,last_,y_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_y:\n y[:] = _tmparr_y", "def getsucslice(self,whichsol_,first_,last_,suc_):\n _suc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc is not long enough: Is %d, expected %d\" % (len(suc_),((last_) - (first_))))\n if isinstance(suc_,numpy.ndarray) and not suc_.flags.writeable:\n raise ValueError(\"Argument suc must be writable\")\n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n res = __library__.MSK_XX_getsucslice(self.__nativep,whichsol_,first_,last_,_suc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _suc_copyarray:\n suc_[:] = _suc_np_tmp", "def getyslice(self,whichsol_,first_,last_,y_):\n _y_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and y_ is not None and len(y_) != ((last_) - (first_)):\n raise ValueError(\"Array argument y is not long enough: Is %d, expected %d\" % (len(y_),((last_) - (first_))))\n if isinstance(y_,numpy.ndarray) and not y_.flags.writeable:\n raise ValueError(\"Argument y must be writable\")\n if isinstance(y_, numpy.ndarray) and y_.dtype is numpy.dtype(numpy.float64) and y_.flags.contiguous:\n _y_copyarray = False\n _y_tmp = ctypes.cast(y_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif y_ is not None:\n _y_copyarray = True\n _y_np_tmp = numpy.zeros(len(y_),numpy.dtype(numpy.float64))\n _y_np_tmp[:] = y_\n assert _y_np_tmp.flags.contiguous\n _y_tmp = ctypes.cast(_y_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _y_copyarray = False\n _y_tmp = None\n \n res = __library__.MSK_XX_getyslice(self.__nativep,whichsol_,first_,last_,_y_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _y_copyarray:\n y_[:] = _y_np_tmp", "def getsuxslice(self,whichsol_,first_,last_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_sux = False\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n _copyback_sux = True\n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n _copyback_sux = True\n if sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.getsuxslice(whichsol_,first_,last_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_sux:\n sux[:] = _tmparr_sux", "def getsuxslice(self,whichsol_,first_,last_,sux_):\n _sux_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),((last_) - (first_))))\n if isinstance(sux_,numpy.ndarray) and not sux_.flags.writeable:\n raise ValueError(\"Argument sux must be writable\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_getsuxslice(self.__nativep,whichsol_,first_,last_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _sux_copyarray:\n sux_[:] = _sux_np_tmp", "def getsucslice(self,whichsol_,first_,last_,suc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_suc = False\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n _copyback_suc = True\n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n _copyback_suc = True\n if suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc has wrong length\")\n res = self.__obj.getsucslice(whichsol_,first_,last_,suc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_suc:\n suc[:] = _tmparr_suc", "def putskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skx is None: raise TypeError(\"Invalid type for argument skx\")\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.putskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsolutionslice(self,whichsol_,solitem_,first_,last_,values): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if not isinstance(solitem_,solitem): raise TypeError(\"Argument solitem has wrong type\")\n _copyback_values = False\n if values is None:\n values_ = None\n else:\n try:\n values_ = memoryview(values)\n except TypeError:\n try:\n _tmparr_values = array.array(\"d\",values)\n except TypeError:\n raise TypeError(\"Argument values has wrong type\")\n else:\n values_ = memoryview(_tmparr_values)\n _copyback_values = True\n else:\n if values_.format != \"d\":\n values_ = memoryview(array.array(\"d\",values))\n _copyback_values = True\n if values_ is not None and len(values_) != ((last_) - (first_)):\n raise ValueError(\"Array argument values has wrong length\")\n res = self.__obj.getsolutionslice(whichsol_,solitem_,first_,last_,values_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_values:\n values[:] = _tmparr_values", "def putskxslice(self,whichsol_,first_,last_,skx_):\n _skx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),((last_) - (first_))))\n if skx_ is None:\n raise ValueError(\"Argument skx cannot be None\")\n if skx_ is None:\n raise ValueError(\"Argument skx may not be None\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))(*skx_)\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_putskxslice(self.__nativep,whichsol_,first_,last_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def get_xrange(self):\n return self.xvec[0], self.xvec[-1]", "def getcslice(self,first_,last_,c): # 3\n _copyback_c = False\n if c is None:\n c_ = None\n else:\n try:\n c_ = memoryview(c)\n except TypeError:\n try:\n _tmparr_c = array.array(\"d\",c)\n except TypeError:\n raise TypeError(\"Argument c has wrong type\")\n else:\n c_ = memoryview(_tmparr_c)\n _copyback_c = True\n else:\n if c_.format != \"d\":\n c_ = memoryview(array.array(\"d\",c))\n _copyback_c = True\n if c_ is not None and len(c_) != ((last_) - (first_)):\n raise ValueError(\"Array argument c has wrong length\")\n res = self.__obj.getcslice(first_,last_,c_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_c:\n c[:] = _tmparr_c", "def putsnxslice(self,whichsol_,first_,last_,snx_):\n _snx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),((last_) - (first_))))\n if snx_ is None:\n raise ValueError(\"Argument snx cannot be None\")\n if snx_ is None:\n raise ValueError(\"Argument snx may not be None\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_putsnxslice(self.__nativep,whichsol_,first_,last_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)" ]

[ "0.8871416", "0.76826507", "0.7596087", "0.75686884", "0.7410148", "0.74062127", "0.73810256", "0.73113877", "0.7260068", "0.7236731", "0.71430576", "0.6971315", "0.69518054", "0.68956494", "0.68920743", "0.674316", "0.67097515", "0.6663036", "0.6507034", "0.6462913", "0.64105725", "0.6374236", "0.63584286", "0.63267684", "0.63182", "0.6212269", "0.6198158", "0.61824274", "0.6104812", "0.61005765" ]

[ "def getxxslice(self,whichsol_,first_,last_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_xx = False\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n _copyback_xx = True\n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n _copyback_xx = True\n if xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.getxxslice(whichsol_,first_,last_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xx:\n xx[:] = _tmparr_xx", "def putxxslice(self,whichsol_,first_,last_,xx_):\n _xx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),((last_) - (first_))))\n if xx_ is None:\n raise ValueError(\"Argument xx cannot be None\")\n if xx_ is None:\n raise ValueError(\"Argument xx may not be None\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n res = __library__.MSK_XX_putxxslice(self.__nativep,whichsol_,first_,last_,_xx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsuxslice(self,whichsol_,first_,last_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_sux = False\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n _copyback_sux = True\n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n _copyback_sux = True\n if sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.getsuxslice(whichsol_,first_,last_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_sux:\n sux[:] = _tmparr_sux", "def putxxslice(self,whichsol_,first_,last_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xx is None: raise TypeError(\"Invalid type for argument xx\")\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n \n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n \n if xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.putxxslice(whichsol_,first_,last_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsuxslice(self,whichsol_,first_,last_,sux_):\n _sux_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),((last_) - (first_))))\n if isinstance(sux_,numpy.ndarray) and not sux_.flags.writeable:\n raise ValueError(\"Argument sux must be writable\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_getsuxslice(self.__nativep,whichsol_,first_,last_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _sux_copyarray:\n sux_[:] = _sux_np_tmp", "def getxcslice(self,whichsol_,first_,last_,xc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_xc = False\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n _copyback_xc = True\n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n _copyback_xc = True\n if xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc has wrong length\")\n res = self.__obj.getxcslice(whichsol_,first_,last_,xc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xc:\n xc[:] = _tmparr_xc", "def getslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.getslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slx:\n slx[:] = _tmparr_slx", "def getxcslice(self,whichsol_,first_,last_,xc_):\n _xc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),((last_) - (first_))))\n if isinstance(xc_,numpy.ndarray) and not xc_.flags.writeable:\n raise ValueError(\"Argument xc must be writable\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n res = __library__.MSK_XX_getxcslice(self.__nativep,whichsol_,first_,last_,_xc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _xc_copyarray:\n xc_[:] = _xc_np_tmp", "def getskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.getskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skx:\n for __tmp_var_0 in range(len(skx_)): skx[__tmp_var_0] = stakey(_tmparr_skx[__tmp_var_0])", "def getsnxslice(self,whichsol_,first_,last_,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_snx = False\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n _copyback_snx = True\n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n _copyback_snx = True\n if snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx has wrong length\")\n res = self.__obj.getsnxslice(whichsol_,first_,last_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_snx:\n snx[:] = _tmparr_snx", "def getskxslice(self,whichsol_,first_,last_,skx_):\n _skx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),((last_) - (first_))))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_getskxslice(self.__nativep,whichsol_,first_,last_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]", "def getslxslice(self,whichsol_,first_,last_,slx_):\n _slx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),((last_) - (first_))))\n if isinstance(slx_,numpy.ndarray) and not slx_.flags.writeable:\n raise ValueError(\"Argument slx must be writable\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_getslxslice(self.__nativep,whichsol_,first_,last_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slx_copyarray:\n slx_[:] = _slx_np_tmp", "def getsnxslice(self,whichsol_,first_,last_,snx_):\n _snx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),((last_) - (first_))))\n if isinstance(snx_,numpy.ndarray) and not snx_.flags.writeable:\n raise ValueError(\"Argument snx must be writable\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_getsnxslice(self.__nativep,whichsol_,first_,last_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _snx_copyarray:\n snx_[:] = _snx_np_tmp", "def getxx(self,whichsol_,xx_):\n _xx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),self.getnumvar()))\n if isinstance(xx_,numpy.ndarray) and not xx_.flags.writeable:\n raise ValueError(\"Argument xx must be writable\")\n if xx_ is None:\n raise ValueError(\"Argument xx may not be None\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n res = __library__.MSK_XX_getxx(self.__nativep,whichsol_,_xx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _xx_copyarray:\n xx_[:] = _xx_np_tmp", "def getbarxslice(self,whichsol_,first_,last_,slicesize_,barxslice_):\n _barxslice_minlength = (slicesize_)\n if (slicesize_) > 0 and barxslice_ is not None and len(barxslice_) != (slicesize_):\n raise ValueError(\"Array argument barxslice is not long enough: Is %d, expected %d\" % (len(barxslice_),(slicesize_)))\n if isinstance(barxslice_,numpy.ndarray) and not barxslice_.flags.writeable:\n raise ValueError(\"Argument barxslice must be writable\")\n if barxslice_ is None:\n raise ValueError(\"Argument barxslice may not be None\")\n if isinstance(barxslice_, numpy.ndarray) and barxslice_.dtype is numpy.dtype(numpy.float64) and barxslice_.flags.contiguous:\n _barxslice_copyarray = False\n _barxslice_tmp = ctypes.cast(barxslice_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif barxslice_ is not None:\n _barxslice_copyarray = True\n _barxslice_np_tmp = numpy.zeros(len(barxslice_),numpy.dtype(numpy.float64))\n _barxslice_np_tmp[:] = barxslice_\n assert _barxslice_np_tmp.flags.contiguous\n _barxslice_tmp = ctypes.cast(_barxslice_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _barxslice_copyarray = False\n _barxslice_tmp = None\n \n res = __library__.MSK_XX_getbarxslice(self.__nativep,whichsol_,first_,last_,slicesize_,_barxslice_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _barxslice_copyarray:\n barxslice_[:] = _barxslice_np_tmp", "def __getslice__(self,i,j):\n return self.x[i:j]", "def getxx(self,whichsol_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xx is None: raise TypeError(\"Invalid type for argument xx\")\n _copyback_xx = False\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n _copyback_xx = True\n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n _copyback_xx = True\n if xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.getxx(whichsol_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xx:\n xx[:] = _tmparr_xx", "def get_xrange(self):\n return self.xvec[0], self.xvec[-1]", "def getyslice(self,whichsol_,first_,last_,y): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_y = False\n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n _copyback_y = True\n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n _copyback_y = True\n if y_ is not None and len(y_) != ((last_) - (first_)):\n raise ValueError(\"Array argument y has wrong length\")\n res = self.__obj.getyslice(whichsol_,first_,last_,y_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_y:\n y[:] = _tmparr_y", "def putsuxslice(self,whichsol_,first_,last_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if sux is None: raise TypeError(\"Invalid type for argument sux\")\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n \n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n \n if sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.putsuxslice(whichsol_,first_,last_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsuxslice(self,whichsol_,first_,last_,sux_):\n _sux_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),((last_) - (first_))))\n if sux_ is None:\n raise ValueError(\"Argument sux cannot be None\")\n if sux_ is None:\n raise ValueError(\"Argument sux may not be None\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_putsuxslice(self.__nativep,whichsol_,first_,last_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getyslice(self,whichsol_,first_,last_,y_):\n _y_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and y_ is not None and len(y_) != ((last_) - (first_)):\n raise ValueError(\"Array argument y is not long enough: Is %d, expected %d\" % (len(y_),((last_) - (first_))))\n if isinstance(y_,numpy.ndarray) and not y_.flags.writeable:\n raise ValueError(\"Argument y must be writable\")\n if isinstance(y_, numpy.ndarray) and y_.dtype is numpy.dtype(numpy.float64) and y_.flags.contiguous:\n _y_copyarray = False\n _y_tmp = ctypes.cast(y_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif y_ is not None:\n _y_copyarray = True\n _y_np_tmp = numpy.zeros(len(y_),numpy.dtype(numpy.float64))\n _y_np_tmp[:] = y_\n assert _y_np_tmp.flags.contiguous\n _y_tmp = ctypes.cast(_y_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _y_copyarray = False\n _y_tmp = None\n \n res = __library__.MSK_XX_getyslice(self.__nativep,whichsol_,first_,last_,_y_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _y_copyarray:\n y_[:] = _y_np_tmp", "def putskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skx is None: raise TypeError(\"Invalid type for argument skx\")\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.putskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putxcslice(self,whichsol_,first_,last_,xc_):\n _xc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),((last_) - (first_))))\n if xc_ is None:\n raise ValueError(\"Argument xc cannot be None\")\n if xc_ is None:\n raise ValueError(\"Argument xc may not be None\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n res = __library__.MSK_XX_putxcslice(self.__nativep,whichsol_,first_,last_,_xc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.putslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def __getslice__(self, i, j):\n return self.dtrs[i:j]", "def putxcslice(self,whichsol_,first_,last_,xc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xc is None: raise TypeError(\"Invalid type for argument xc\")\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n \n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n \n if xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc has wrong length\")\n res = self.__obj.putxcslice(whichsol_,first_,last_,xc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskxslice(self,whichsol_,first_,last_,skx_):\n _skx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),((last_) - (first_))))\n if skx_ is None:\n raise ValueError(\"Argument skx cannot be None\")\n if skx_ is None:\n raise ValueError(\"Argument skx may not be None\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))(*skx_)\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_putskxslice(self.__nativep,whichsol_,first_,last_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslxslice(self,whichsol_,first_,last_,slx_):\n _slx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),((last_) - (first_))))\n if slx_ is None:\n raise ValueError(\"Argument slx cannot be None\")\n if slx_ is None:\n raise ValueError(\"Argument slx may not be None\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_putslxslice(self.__nativep,whichsol_,first_,last_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getbarsslice(self,whichsol_,first_,last_,slicesize_,barsslice_):\n _barsslice_minlength = (slicesize_)\n if (slicesize_) > 0 and barsslice_ is not None and len(barsslice_) != (slicesize_):\n raise ValueError(\"Array argument barsslice is not long enough: Is %d, expected %d\" % (len(barsslice_),(slicesize_)))\n if isinstance(barsslice_,numpy.ndarray) and not barsslice_.flags.writeable:\n raise ValueError(\"Argument barsslice must be writable\")\n if barsslice_ is None:\n raise ValueError(\"Argument barsslice may not be None\")\n if isinstance(barsslice_, numpy.ndarray) and barsslice_.dtype is numpy.dtype(numpy.float64) and barsslice_.flags.contiguous:\n _barsslice_copyarray = False\n _barsslice_tmp = ctypes.cast(barsslice_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif barsslice_ is not None:\n _barsslice_copyarray = True\n _barsslice_np_tmp = numpy.zeros(len(barsslice_),numpy.dtype(numpy.float64))\n _barsslice_np_tmp[:] = barsslice_\n assert _barsslice_np_tmp.flags.contiguous\n _barsslice_tmp = ctypes.cast(_barsslice_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _barsslice_copyarray = False\n _barsslice_tmp = None\n \n res = __library__.MSK_XX_getbarsslice(self.__nativep,whichsol_,first_,last_,slicesize_,_barsslice_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _barsslice_copyarray:\n barsslice_[:] = _barsslice_np_tmp" ]

[ "0.87552685", "0.71773666", "0.71705204", "0.7166786", "0.712601", "0.7119272", "0.7060014", "0.70125127", "0.69819254", "0.6959172", "0.6958013", "0.6930547", "0.6887463", "0.6632374", "0.66088957", "0.6584639", "0.6568791", "0.64738894", "0.6277021", "0.6252331", "0.62373406", "0.6222935", "0.6149841", "0.6056942", "0.605411", "0.6045157", "0.6041271", "0.60369605", "0.60273814", "0.60140514" ]

[ "def getyslice(self,whichsol_,first_,last_,y): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_y = False\n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n _copyback_y = True\n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n _copyback_y = True\n if y_ is not None and len(y_) != ((last_) - (first_)):\n raise ValueError(\"Array argument y has wrong length\")\n res = self.__obj.getyslice(whichsol_,first_,last_,y_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_y:\n y[:] = _tmparr_y", "def putyslice(self,whichsol_,first_,last_,y_):\n _y_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and y_ is not None and len(y_) != ((last_) - (first_)):\n raise ValueError(\"Array argument y is not long enough: Is %d, expected %d\" % (len(y_),((last_) - (first_))))\n if y_ is None:\n raise ValueError(\"Argument y cannot be None\")\n if y_ is None:\n raise ValueError(\"Argument y may not be None\")\n if isinstance(y_, numpy.ndarray) and y_.dtype is numpy.dtype(numpy.float64) and y_.flags.contiguous:\n _y_copyarray = False\n _y_tmp = ctypes.cast(y_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif y_ is not None:\n _y_copyarray = True\n _y_np_tmp = numpy.zeros(len(y_),numpy.dtype(numpy.float64))\n _y_np_tmp[:] = y_\n assert _y_np_tmp.flags.contiguous\n _y_tmp = ctypes.cast(_y_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _y_copyarray = False\n _y_tmp = None\n \n res = __library__.MSK_XX_putyslice(self.__nativep,whichsol_,first_,last_,_y_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putyslice(self,whichsol_,first_,last_,y): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if y is None: raise TypeError(\"Invalid type for argument y\")\n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n \n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n \n if y_ is not None and len(y_) != ((last_) - (first_)):\n raise ValueError(\"Array argument y has wrong length\")\n res = self.__obj.putyslice(whichsol_,first_,last_,y_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def gety(self,whichsol_,y_):\n _y_minlength = self.getnumcon()\n if self.getnumcon() > 0 and y_ is not None and len(y_) != self.getnumcon():\n raise ValueError(\"Array argument y is not long enough: Is %d, expected %d\" % (len(y_),self.getnumcon()))\n if isinstance(y_,numpy.ndarray) and not y_.flags.writeable:\n raise ValueError(\"Argument y must be writable\")\n if y_ is None:\n raise ValueError(\"Argument y may not be None\")\n if isinstance(y_, numpy.ndarray) and y_.dtype is numpy.dtype(numpy.float64) and y_.flags.contiguous:\n _y_copyarray = False\n _y_tmp = ctypes.cast(y_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif y_ is not None:\n _y_copyarray = True\n _y_np_tmp = numpy.zeros(len(y_),numpy.dtype(numpy.float64))\n _y_np_tmp[:] = y_\n assert _y_np_tmp.flags.contiguous\n _y_tmp = ctypes.cast(_y_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _y_copyarray = False\n _y_tmp = None\n \n res = __library__.MSK_XX_gety(self.__nativep,whichsol_,_y_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _y_copyarray:\n y_[:] = _y_np_tmp", "def gety(self,whichsol_,y): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if y is None: raise TypeError(\"Invalid type for argument y\")\n _copyback_y = False\n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n _copyback_y = True\n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n _copyback_y = True\n if y_ is not None and len(y_) != self.getnumcon():\n raise ValueError(\"Array argument y has wrong length\")\n res = self.__obj.gety(whichsol_,y_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_y:\n y[:] = _tmparr_y", "def getslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.getslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slx:\n slx[:] = _tmparr_slx", "def getskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.getskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skx:\n for __tmp_var_0 in range(len(skx_)): skx[__tmp_var_0] = stakey(_tmparr_skx[__tmp_var_0])", "def getslxslice(self,whichsol_,first_,last_,slx_):\n _slx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),((last_) - (first_))))\n if isinstance(slx_,numpy.ndarray) and not slx_.flags.writeable:\n raise ValueError(\"Argument slx must be writable\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_getslxslice(self.__nativep,whichsol_,first_,last_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slx_copyarray:\n slx_[:] = _slx_np_tmp", "def getsolutionslice(self,whichsol_,solitem_,first_,last_,values): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if not isinstance(solitem_,solitem): raise TypeError(\"Argument solitem has wrong type\")\n _copyback_values = False\n if values is None:\n values_ = None\n else:\n try:\n values_ = memoryview(values)\n except TypeError:\n try:\n _tmparr_values = array.array(\"d\",values)\n except TypeError:\n raise TypeError(\"Argument values has wrong type\")\n else:\n values_ = memoryview(_tmparr_values)\n _copyback_values = True\n else:\n if values_.format != \"d\":\n values_ = memoryview(array.array(\"d\",values))\n _copyback_values = True\n if values_ is not None and len(values_) != ((last_) - (first_)):\n raise ValueError(\"Array argument values has wrong length\")\n res = self.__obj.getsolutionslice(whichsol_,solitem_,first_,last_,values_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_values:\n values[:] = _tmparr_values", "def getskxslice(self,whichsol_,first_,last_,skx_):\n _skx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),((last_) - (first_))))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_getskxslice(self.__nativep,whichsol_,first_,last_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]", "def getsnxslice(self,whichsol_,first_,last_,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_snx = False\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n _copyback_snx = True\n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n _copyback_snx = True\n if snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx has wrong length\")\n res = self.__obj.getsnxslice(whichsol_,first_,last_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_snx:\n snx[:] = _tmparr_snx", "def getslcslice(self,whichsol_,first_,last_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_slc = False\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n _copyback_slc = True\n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n _copyback_slc = True\n if slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.getslcslice(whichsol_,first_,last_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slc:\n slc[:] = _tmparr_slc", "def getslcslice(self,whichsol_,first_,last_,slc_):\n _slc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),((last_) - (first_))))\n if isinstance(slc_,numpy.ndarray) and not slc_.flags.writeable:\n raise ValueError(\"Argument slc must be writable\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_getslcslice(self.__nativep,whichsol_,first_,last_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slc_copyarray:\n slc_[:] = _slc_np_tmp", "def getsnxslice(self,whichsol_,first_,last_,snx_):\n _snx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),((last_) - (first_))))\n if isinstance(snx_,numpy.ndarray) and not snx_.flags.writeable:\n raise ValueError(\"Argument snx must be writable\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_getsnxslice(self.__nativep,whichsol_,first_,last_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _snx_copyarray:\n snx_[:] = _snx_np_tmp", "def getxcslice(self,whichsol_,first_,last_,xc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_xc = False\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n _copyback_xc = True\n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n _copyback_xc = True\n if xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc has wrong length\")\n res = self.__obj.getxcslice(whichsol_,first_,last_,xc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xc:\n xc[:] = _tmparr_xc", "def getsolutionslice(self,whichsol_,solitem_,first_,last_,values_):\n _values_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and values_ is not None and len(values_) != ((last_) - (first_)):\n raise ValueError(\"Array argument values is not long enough: Is %d, expected %d\" % (len(values_),((last_) - (first_))))\n if isinstance(values_,numpy.ndarray) and not values_.flags.writeable:\n raise ValueError(\"Argument values must be writable\")\n if isinstance(values_, numpy.ndarray) and values_.dtype is numpy.dtype(numpy.float64) and values_.flags.contiguous:\n _values_copyarray = False\n _values_tmp = ctypes.cast(values_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif values_ is not None:\n _values_copyarray = True\n _values_np_tmp = numpy.zeros(len(values_),numpy.dtype(numpy.float64))\n _values_np_tmp[:] = values_\n assert _values_np_tmp.flags.contiguous\n _values_tmp = ctypes.cast(_values_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _values_copyarray = False\n _values_tmp = None\n \n res = __library__.MSK_XX_getsolutionslice(self.__nativep,whichsol_,solitem_,first_,last_,_values_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _values_copyarray:\n values_[:] = _values_np_tmp", "def getskcslice(self,whichsol_,first_,last_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skc = False\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n _copyback_skc = True\n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n _copyback_skc = True\n if skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.getskcslice(whichsol_,first_,last_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skc:\n for __tmp_var_0 in range(len(skc_)): skc[__tmp_var_0] = stakey(_tmparr_skc[__tmp_var_0])", "def getxxslice(self,whichsol_,first_,last_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_xx = False\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n _copyback_xx = True\n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n _copyback_xx = True\n if xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.getxxslice(whichsol_,first_,last_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xx:\n xx[:] = _tmparr_xx", "def getxcslice(self,whichsol_,first_,last_,xc_):\n _xc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),((last_) - (first_))))\n if isinstance(xc_,numpy.ndarray) and not xc_.flags.writeable:\n raise ValueError(\"Argument xc must be writable\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n res = __library__.MSK_XX_getxcslice(self.__nativep,whichsol_,first_,last_,_xc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _xc_copyarray:\n xc_[:] = _xc_np_tmp", "def getsuxslice(self,whichsol_,first_,last_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_sux = False\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n _copyback_sux = True\n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n _copyback_sux = True\n if sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.getsuxslice(whichsol_,first_,last_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_sux:\n sux[:] = _tmparr_sux", "def getxxslice(self,whichsol_,first_,last_,xx_):\n _xx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),((last_) - (first_))))\n if isinstance(xx_,numpy.ndarray) and not xx_.flags.writeable:\n raise ValueError(\"Argument xx must be writable\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n res = __library__.MSK_XX_getxxslice(self.__nativep,whichsol_,first_,last_,_xx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _xx_copyarray:\n xx_[:] = _xx_np_tmp", "def putslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.putslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skx is None: raise TypeError(\"Invalid type for argument skx\")\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.putskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsuxslice(self,whichsol_,first_,last_,sux_):\n _sux_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),((last_) - (first_))))\n if isinstance(sux_,numpy.ndarray) and not sux_.flags.writeable:\n raise ValueError(\"Argument sux must be writable\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_getsuxslice(self.__nativep,whichsol_,first_,last_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _sux_copyarray:\n sux_[:] = _sux_np_tmp", "def yvec(self):\n return self._yvec", "def getsucslice(self,whichsol_,first_,last_,suc_):\n _suc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc is not long enough: Is %d, expected %d\" % (len(suc_),((last_) - (first_))))\n if isinstance(suc_,numpy.ndarray) and not suc_.flags.writeable:\n raise ValueError(\"Argument suc must be writable\")\n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n res = __library__.MSK_XX_getsucslice(self.__nativep,whichsol_,first_,last_,_suc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _suc_copyarray:\n suc_[:] = _suc_np_tmp", "def getskcslice(self,whichsol_,first_,last_,skc_):\n _skc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),((last_) - (first_))))\n if isinstance(skc_,numpy.ndarray) and not skc_.flags.writeable:\n raise ValueError(\"Argument skc must be writable\")\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))()\n else:\n _skc_tmp = None\n res = __library__.MSK_XX_getskcslice(self.__nativep,whichsol_,first_,last_,_skc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skc_ is not None: skc_[:] = [ stakey(v) for v in _skc_tmp[0:len(skc_)] ]", "def putslxslice(self,whichsol_,first_,last_,slx_):\n _slx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),((last_) - (first_))))\n if slx_ is None:\n raise ValueError(\"Argument slx cannot be None\")\n if slx_ is None:\n raise ValueError(\"Argument slx may not be None\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_putslxslice(self.__nativep,whichsol_,first_,last_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def _get_y_data(self):\n return self.y(self.xs)", "def getsucslice(self,whichsol_,first_,last_,suc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_suc = False\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n _copyback_suc = True\n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n _copyback_suc = True\n if suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc has wrong length\")\n res = self.__obj.getsucslice(whichsol_,first_,last_,suc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_suc:\n suc[:] = _tmparr_suc" ]

[ "0.8743571", "0.7623347", "0.7581511", "0.690273", "0.68671787", "0.6718791", "0.65892005", "0.6498795", "0.6391487", "0.63191646", "0.6316623", "0.6179974", "0.609856", "0.609103", "0.6053824", "0.60455865", "0.6003802", "0.5980867", "0.5819699", "0.5753804", "0.5749511", "0.57245624", "0.56964785", "0.5678383", "0.56488526", "0.5625254", "0.5616975", "0.5599382", "0.5592373", "0.5591796" ]

[ "def getslcslice(self,whichsol_,first_,last_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_slc = False\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n _copyback_slc = True\n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n _copyback_slc = True\n if slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.getslcslice(whichsol_,first_,last_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slc:\n slc[:] = _tmparr_slc", "def getslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.getslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slx:\n slx[:] = _tmparr_slx", "def getskcslice(self,whichsol_,first_,last_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skc = False\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n _copyback_skc = True\n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n _copyback_skc = True\n if skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.getskcslice(whichsol_,first_,last_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skc:\n for __tmp_var_0 in range(len(skc_)): skc[__tmp_var_0] = stakey(_tmparr_skc[__tmp_var_0])", "def putslcslice(self,whichsol_,first_,last_,slc_):\n _slc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),((last_) - (first_))))\n if slc_ is None:\n raise ValueError(\"Argument slc cannot be None\")\n if slc_ is None:\n raise ValueError(\"Argument slc may not be None\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_putslcslice(self.__nativep,whichsol_,first_,last_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getslxslice(self,whichsol_,first_,last_,slx_):\n _slx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),((last_) - (first_))))\n if isinstance(slx_,numpy.ndarray) and not slx_.flags.writeable:\n raise ValueError(\"Argument slx must be writable\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_getslxslice(self.__nativep,whichsol_,first_,last_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slx_copyarray:\n slx_[:] = _slx_np_tmp", "def putslcslice(self,whichsol_,first_,last_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slc is None: raise TypeError(\"Invalid type for argument slc\")\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n \n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n \n if slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.putslcslice(whichsol_,first_,last_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getskcslice(self,whichsol_,first_,last_,skc_):\n _skc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),((last_) - (first_))))\n if isinstance(skc_,numpy.ndarray) and not skc_.flags.writeable:\n raise ValueError(\"Argument skc must be writable\")\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))()\n else:\n _skc_tmp = None\n res = __library__.MSK_XX_getskcslice(self.__nativep,whichsol_,first_,last_,_skc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skc_ is not None: skc_[:] = [ stakey(v) for v in _skc_tmp[0:len(skc_)] ]", "def getslc(self,whichsol_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slc is None: raise TypeError(\"Invalid type for argument slc\")\n _copyback_slc = False\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n _copyback_slc = True\n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n _copyback_slc = True\n if slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.getslc(whichsol_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slc:\n slc[:] = _tmparr_slc", "def getslc(self,whichsol_,slc_):\n _slc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),self.getnumcon()))\n if isinstance(slc_,numpy.ndarray) and not slc_.flags.writeable:\n raise ValueError(\"Argument slc must be writable\")\n if slc_ is None:\n raise ValueError(\"Argument slc may not be None\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_getslc(self.__nativep,whichsol_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slc_copyarray:\n slc_[:] = _slc_np_tmp", "def getskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.getskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skx:\n for __tmp_var_0 in range(len(skx_)): skx[__tmp_var_0] = stakey(_tmparr_skx[__tmp_var_0])", "def getskxslice(self,whichsol_,first_,last_,skx_):\n _skx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),((last_) - (first_))))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_getskxslice(self.__nativep,whichsol_,first_,last_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]", "def getsnxslice(self,whichsol_,first_,last_,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_snx = False\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n _copyback_snx = True\n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n _copyback_snx = True\n if snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx has wrong length\")\n res = self.__obj.getsnxslice(whichsol_,first_,last_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_snx:\n snx[:] = _tmparr_snx", "def putslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.putslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslxslice(self,whichsol_,first_,last_,slx_):\n _slx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),((last_) - (first_))))\n if slx_ is None:\n raise ValueError(\"Argument slx cannot be None\")\n if slx_ is None:\n raise ValueError(\"Argument slx may not be None\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_putslxslice(self.__nativep,whichsol_,first_,last_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getxcslice(self,whichsol_,first_,last_,xc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_xc = False\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n _copyback_xc = True\n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n _copyback_xc = True\n if xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc has wrong length\")\n res = self.__obj.getxcslice(whichsol_,first_,last_,xc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xc:\n xc[:] = _tmparr_xc", "def getsucslice(self,whichsol_,first_,last_,suc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_suc = False\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n _copyback_suc = True\n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n _copyback_suc = True\n if suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc has wrong length\")\n res = self.__obj.getsucslice(whichsol_,first_,last_,suc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_suc:\n suc[:] = _tmparr_suc", "def getsucslice(self,whichsol_,first_,last_,suc_):\n _suc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc is not long enough: Is %d, expected %d\" % (len(suc_),((last_) - (first_))))\n if isinstance(suc_,numpy.ndarray) and not suc_.flags.writeable:\n raise ValueError(\"Argument suc must be writable\")\n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n res = __library__.MSK_XX_getsucslice(self.__nativep,whichsol_,first_,last_,_suc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _suc_copyarray:\n suc_[:] = _suc_np_tmp", "def putskcslice(self,whichsol_,first_,last_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n \n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n \n if skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.putskcslice(whichsol_,first_,last_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsnxslice(self,whichsol_,first_,last_,snx_):\n _snx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),((last_) - (first_))))\n if isinstance(snx_,numpy.ndarray) and not snx_.flags.writeable:\n raise ValueError(\"Argument snx must be writable\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_getsnxslice(self.__nativep,whichsol_,first_,last_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _snx_copyarray:\n snx_[:] = _snx_np_tmp", "def getxcslice(self,whichsol_,first_,last_,xc_):\n _xc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),((last_) - (first_))))\n if isinstance(xc_,numpy.ndarray) and not xc_.flags.writeable:\n raise ValueError(\"Argument xc must be writable\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n res = __library__.MSK_XX_getxcslice(self.__nativep,whichsol_,first_,last_,_xc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _xc_copyarray:\n xc_[:] = _xc_np_tmp", "def putskcslice(self,whichsol_,first_,last_,skc_):\n _skc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),((last_) - (first_))))\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))(*skc_)\n else:\n _skc_tmp = None\n res = __library__.MSK_XX_putskcslice(self.__nativep,whichsol_,first_,last_,_skc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsolutionslice(self,whichsol_,solitem_,first_,last_,values): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if not isinstance(solitem_,solitem): raise TypeError(\"Argument solitem has wrong type\")\n _copyback_values = False\n if values is None:\n values_ = None\n else:\n try:\n values_ = memoryview(values)\n except TypeError:\n try:\n _tmparr_values = array.array(\"d\",values)\n except TypeError:\n raise TypeError(\"Argument values has wrong type\")\n else:\n values_ = memoryview(_tmparr_values)\n _copyback_values = True\n else:\n if values_.format != \"d\":\n values_ = memoryview(array.array(\"d\",values))\n _copyback_values = True\n if values_ is not None and len(values_) != ((last_) - (first_)):\n raise ValueError(\"Array argument values has wrong length\")\n res = self.__obj.getsolutionslice(whichsol_,solitem_,first_,last_,values_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_values:\n values[:] = _tmparr_values", "def getyslice(self,whichsol_,first_,last_,y): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_y = False\n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n _copyback_y = True\n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n _copyback_y = True\n if y_ is not None and len(y_) != ((last_) - (first_)):\n raise ValueError(\"Array argument y has wrong length\")\n res = self.__obj.getyslice(whichsol_,first_,last_,y_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_y:\n y[:] = _tmparr_y", "def getslx(self,whichsol_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.getslx(whichsol_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slx:\n slx[:] = _tmparr_slx", "def getsuxslice(self,whichsol_,first_,last_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_sux = False\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n _copyback_sux = True\n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n _copyback_sux = True\n if sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.getsuxslice(whichsol_,first_,last_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_sux:\n sux[:] = _tmparr_sux", "def getyslice(self,whichsol_,first_,last_,y_):\n _y_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and y_ is not None and len(y_) != ((last_) - (first_)):\n raise ValueError(\"Array argument y is not long enough: Is %d, expected %d\" % (len(y_),((last_) - (first_))))\n if isinstance(y_,numpy.ndarray) and not y_.flags.writeable:\n raise ValueError(\"Argument y must be writable\")\n if isinstance(y_, numpy.ndarray) and y_.dtype is numpy.dtype(numpy.float64) and y_.flags.contiguous:\n _y_copyarray = False\n _y_tmp = ctypes.cast(y_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif y_ is not None:\n _y_copyarray = True\n _y_np_tmp = numpy.zeros(len(y_),numpy.dtype(numpy.float64))\n _y_np_tmp[:] = y_\n assert _y_np_tmp.flags.contiguous\n _y_tmp = ctypes.cast(_y_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _y_copyarray = False\n _y_tmp = None\n \n res = __library__.MSK_XX_getyslice(self.__nativep,whichsol_,first_,last_,_y_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _y_copyarray:\n y_[:] = _y_np_tmp", "def getsuxslice(self,whichsol_,first_,last_,sux_):\n _sux_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),((last_) - (first_))))\n if isinstance(sux_,numpy.ndarray) and not sux_.flags.writeable:\n raise ValueError(\"Argument sux must be writable\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_getsuxslice(self.__nativep,whichsol_,first_,last_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _sux_copyarray:\n sux_[:] = _sux_np_tmp", "def putskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skx is None: raise TypeError(\"Invalid type for argument skx\")\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.putskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getxxslice(self,whichsol_,first_,last_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_xx = False\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n _copyback_xx = True\n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n _copyback_xx = True\n if xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.getxxslice(whichsol_,first_,last_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xx:\n xx[:] = _tmparr_xx", "def getsolutionslice(self,whichsol_,solitem_,first_,last_,values_):\n _values_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and values_ is not None and len(values_) != ((last_) - (first_)):\n raise ValueError(\"Array argument values is not long enough: Is %d, expected %d\" % (len(values_),((last_) - (first_))))\n if isinstance(values_,numpy.ndarray) and not values_.flags.writeable:\n raise ValueError(\"Argument values must be writable\")\n if isinstance(values_, numpy.ndarray) and values_.dtype is numpy.dtype(numpy.float64) and values_.flags.contiguous:\n _values_copyarray = False\n _values_tmp = ctypes.cast(values_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif values_ is not None:\n _values_copyarray = True\n _values_np_tmp = numpy.zeros(len(values_),numpy.dtype(numpy.float64))\n _values_np_tmp[:] = values_\n assert _values_np_tmp.flags.contiguous\n _values_tmp = ctypes.cast(_values_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _values_copyarray = False\n _values_tmp = None\n \n res = __library__.MSK_XX_getsolutionslice(self.__nativep,whichsol_,solitem_,first_,last_,_values_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _values_copyarray:\n values_[:] = _values_np_tmp" ]

[ "0.89666843", "0.7970776", "0.78357977", "0.7790351", "0.776608", "0.7743089", "0.7721771", "0.76019967", "0.75482076", "0.7174418", "0.6999907", "0.6974384", "0.6937394", "0.68553096", "0.677563", "0.6760067", "0.67554903", "0.6729202", "0.67274904", "0.6555274", "0.65497065", "0.65026253", "0.64945465", "0.6415193", "0.6346356", "0.63371724", "0.6236479", "0.6188452", "0.61624837", "0.61438024" ]

[ "def getsucslice(self,whichsol_,first_,last_,suc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_suc = False\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n _copyback_suc = True\n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n _copyback_suc = True\n if suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc has wrong length\")\n res = self.__obj.getsucslice(whichsol_,first_,last_,suc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_suc:\n suc[:] = _tmparr_suc", "def putsucslice(self,whichsol_,first_,last_,suc_):\n _suc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc is not long enough: Is %d, expected %d\" % (len(suc_),((last_) - (first_))))\n if suc_ is None:\n raise ValueError(\"Argument suc cannot be None\")\n if suc_ is None:\n raise ValueError(\"Argument suc may not be None\")\n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n res = __library__.MSK_XX_putsucslice(self.__nativep,whichsol_,first_,last_,_suc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsucslice(self,whichsol_,first_,last_,suc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if suc is None: raise TypeError(\"Invalid type for argument suc\")\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n \n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n \n if suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc has wrong length\")\n res = self.__obj.putsucslice(whichsol_,first_,last_,suc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getskcslice(self,whichsol_,first_,last_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skc = False\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n _copyback_skc = True\n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n _copyback_skc = True\n if skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.getskcslice(whichsol_,first_,last_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skc:\n for __tmp_var_0 in range(len(skc_)): skc[__tmp_var_0] = stakey(_tmparr_skc[__tmp_var_0])", "def getskcslice(self,whichsol_,first_,last_,skc_):\n _skc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),((last_) - (first_))))\n if isinstance(skc_,numpy.ndarray) and not skc_.flags.writeable:\n raise ValueError(\"Argument skc must be writable\")\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))()\n else:\n _skc_tmp = None\n res = __library__.MSK_XX_getskcslice(self.__nativep,whichsol_,first_,last_,_skc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skc_ is not None: skc_[:] = [ stakey(v) for v in _skc_tmp[0:len(skc_)] ]", "def getskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.getskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skx:\n for __tmp_var_0 in range(len(skx_)): skx[__tmp_var_0] = stakey(_tmparr_skx[__tmp_var_0])", "def getslcslice(self,whichsol_,first_,last_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_slc = False\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n _copyback_slc = True\n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n _copyback_slc = True\n if slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.getslcslice(whichsol_,first_,last_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slc:\n slc[:] = _tmparr_slc", "def getsnxslice(self,whichsol_,first_,last_,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_snx = False\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n _copyback_snx = True\n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n _copyback_snx = True\n if snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx has wrong length\")\n res = self.__obj.getsnxslice(whichsol_,first_,last_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_snx:\n snx[:] = _tmparr_snx", "def getsuxslice(self,whichsol_,first_,last_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_sux = False\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n _copyback_sux = True\n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n _copyback_sux = True\n if sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.getsuxslice(whichsol_,first_,last_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_sux:\n sux[:] = _tmparr_sux", "def getslcslice(self,whichsol_,first_,last_,slc_):\n _slc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),((last_) - (first_))))\n if isinstance(slc_,numpy.ndarray) and not slc_.flags.writeable:\n raise ValueError(\"Argument slc must be writable\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_getslcslice(self.__nativep,whichsol_,first_,last_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slc_copyarray:\n slc_[:] = _slc_np_tmp", "def getskxslice(self,whichsol_,first_,last_,skx_):\n _skx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),((last_) - (first_))))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_getskxslice(self.__nativep,whichsol_,first_,last_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]", "def getxcslice(self,whichsol_,first_,last_,xc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_xc = False\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n _copyback_xc = True\n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n _copyback_xc = True\n if xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc has wrong length\")\n res = self.__obj.getxcslice(whichsol_,first_,last_,xc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xc:\n xc[:] = _tmparr_xc", "def getsnxslice(self,whichsol_,first_,last_,snx_):\n _snx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),((last_) - (first_))))\n if isinstance(snx_,numpy.ndarray) and not snx_.flags.writeable:\n raise ValueError(\"Argument snx must be writable\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_getsnxslice(self.__nativep,whichsol_,first_,last_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _snx_copyarray:\n snx_[:] = _snx_np_tmp", "def getsuxslice(self,whichsol_,first_,last_,sux_):\n _sux_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),((last_) - (first_))))\n if isinstance(sux_,numpy.ndarray) and not sux_.flags.writeable:\n raise ValueError(\"Argument sux must be writable\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_getsuxslice(self.__nativep,whichsol_,first_,last_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _sux_copyarray:\n sux_[:] = _sux_np_tmp", "def putskcslice(self,whichsol_,first_,last_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n \n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n \n if skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.putskcslice(whichsol_,first_,last_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.getslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slx:\n slx[:] = _tmparr_slx", "def getsuc(self,whichsol_,suc_):\n _suc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and suc_ is not None and len(suc_) != self.getnumcon():\n raise ValueError(\"Array argument suc is not long enough: Is %d, expected %d\" % (len(suc_),self.getnumcon()))\n if isinstance(suc_,numpy.ndarray) and not suc_.flags.writeable:\n raise ValueError(\"Argument suc must be writable\")\n if suc_ is None:\n raise ValueError(\"Argument suc may not be None\")\n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n res = __library__.MSK_XX_getsuc(self.__nativep,whichsol_,_suc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _suc_copyarray:\n suc_[:] = _suc_np_tmp", "def putsuxslice(self,whichsol_,first_,last_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if sux is None: raise TypeError(\"Invalid type for argument sux\")\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n \n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n \n if sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.putsuxslice(whichsol_,first_,last_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getxcslice(self,whichsol_,first_,last_,xc_):\n _xc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),((last_) - (first_))))\n if isinstance(xc_,numpy.ndarray) and not xc_.flags.writeable:\n raise ValueError(\"Argument xc must be writable\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n res = __library__.MSK_XX_getxcslice(self.__nativep,whichsol_,first_,last_,_xc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _xc_copyarray:\n xc_[:] = _xc_np_tmp", "def putskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skx is None: raise TypeError(\"Invalid type for argument skx\")\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.putskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsuc(self,whichsol_,suc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if suc is None: raise TypeError(\"Invalid type for argument suc\")\n _copyback_suc = False\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n _copyback_suc = True\n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n _copyback_suc = True\n if suc_ is not None and len(suc_) != self.getnumcon():\n raise ValueError(\"Array argument suc has wrong length\")\n res = self.__obj.getsuc(whichsol_,suc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_suc:\n suc[:] = _tmparr_suc", "def putsuxslice(self,whichsol_,first_,last_,sux_):\n _sux_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),((last_) - (first_))))\n if sux_ is None:\n raise ValueError(\"Argument sux cannot be None\")\n if sux_ is None:\n raise ValueError(\"Argument sux may not be None\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_putsuxslice(self.__nativep,whichsol_,first_,last_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsolutionslice(self,whichsol_,solitem_,first_,last_,values): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if not isinstance(solitem_,solitem): raise TypeError(\"Argument solitem has wrong type\")\n _copyback_values = False\n if values is None:\n values_ = None\n else:\n try:\n values_ = memoryview(values)\n except TypeError:\n try:\n _tmparr_values = array.array(\"d\",values)\n except TypeError:\n raise TypeError(\"Argument values has wrong type\")\n else:\n values_ = memoryview(_tmparr_values)\n _copyback_values = True\n else:\n if values_.format != \"d\":\n values_ = memoryview(array.array(\"d\",values))\n _copyback_values = True\n if values_ is not None and len(values_) != ((last_) - (first_)):\n raise ValueError(\"Array argument values has wrong length\")\n res = self.__obj.getsolutionslice(whichsol_,solitem_,first_,last_,values_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_values:\n values[:] = _tmparr_values", "def putskcslice(self,whichsol_,first_,last_,skc_):\n _skc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),((last_) - (first_))))\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))(*skc_)\n else:\n _skc_tmp = None\n res = __library__.MSK_XX_putskcslice(self.__nativep,whichsol_,first_,last_,_skc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getyslice(self,whichsol_,first_,last_,y): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_y = False\n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n _copyback_y = True\n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n _copyback_y = True\n if y_ is not None and len(y_) != ((last_) - (first_)):\n raise ValueError(\"Array argument y has wrong length\")\n res = self.__obj.getyslice(whichsol_,first_,last_,y_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_y:\n y[:] = _tmparr_y", "def getslxslice(self,whichsol_,first_,last_,slx_):\n _slx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),((last_) - (first_))))\n if isinstance(slx_,numpy.ndarray) and not slx_.flags.writeable:\n raise ValueError(\"Argument slx must be writable\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_getslxslice(self.__nativep,whichsol_,first_,last_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slx_copyarray:\n slx_[:] = _slx_np_tmp", "def putslcslice(self,whichsol_,first_,last_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slc is None: raise TypeError(\"Invalid type for argument slc\")\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n \n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n \n if slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.putslcslice(whichsol_,first_,last_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslcslice(self,whichsol_,first_,last_,slc_):\n _slc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),((last_) - (first_))))\n if slc_ is None:\n raise ValueError(\"Argument slc cannot be None\")\n if slc_ is None:\n raise ValueError(\"Argument slc may not be None\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_putslcslice(self.__nativep,whichsol_,first_,last_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getxxslice(self,whichsol_,first_,last_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_xx = False\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n _copyback_xx = True\n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n _copyback_xx = True\n if xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.getxxslice(whichsol_,first_,last_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xx:\n xx[:] = _tmparr_xx", "def putskxslice(self,whichsol_,first_,last_,skx_):\n _skx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),((last_) - (first_))))\n if skx_ is None:\n raise ValueError(\"Argument skx cannot be None\")\n if skx_ is None:\n raise ValueError(\"Argument skx may not be None\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))(*skx_)\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_putskxslice(self.__nativep,whichsol_,first_,last_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)" ]

[ "0.8767524", "0.7724455", "0.76304585", "0.71188396", "0.6928379", "0.69203067", "0.6857642", "0.6781076", "0.67369777", "0.6689352", "0.66810554", "0.6537027", "0.65307486", "0.65227234", "0.64305013", "0.6409605", "0.63248944", "0.6300858", "0.62965715", "0.6287522", "0.6268002", "0.62603194", "0.61697686", "0.6163126", "0.615707", "0.61487997", "0.60648984", "0.60468423", "0.6019987", "0.6018349" ]

[ "def getslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.getslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slx:\n slx[:] = _tmparr_slx", "def getskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.getskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skx:\n for __tmp_var_0 in range(len(skx_)): skx[__tmp_var_0] = stakey(_tmparr_skx[__tmp_var_0])", "def getsnxslice(self,whichsol_,first_,last_,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_snx = False\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n _copyback_snx = True\n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n _copyback_snx = True\n if snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx has wrong length\")\n res = self.__obj.getsnxslice(whichsol_,first_,last_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_snx:\n snx[:] = _tmparr_snx", "def getskxslice(self,whichsol_,first_,last_,skx_):\n _skx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),((last_) - (first_))))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_getskxslice(self.__nativep,whichsol_,first_,last_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]", "def putslxslice(self,whichsol_,first_,last_,slx_):\n _slx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),((last_) - (first_))))\n if slx_ is None:\n raise ValueError(\"Argument slx cannot be None\")\n if slx_ is None:\n raise ValueError(\"Argument slx may not be None\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_putslxslice(self.__nativep,whichsol_,first_,last_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.putslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsnxslice(self,whichsol_,first_,last_,snx_):\n _snx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),((last_) - (first_))))\n if isinstance(snx_,numpy.ndarray) and not snx_.flags.writeable:\n raise ValueError(\"Argument snx must be writable\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_getsnxslice(self.__nativep,whichsol_,first_,last_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _snx_copyarray:\n snx_[:] = _snx_np_tmp", "def getslcslice(self,whichsol_,first_,last_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_slc = False\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n _copyback_slc = True\n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n _copyback_slc = True\n if slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.getslcslice(whichsol_,first_,last_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slc:\n slc[:] = _tmparr_slc", "def getslcslice(self,whichsol_,first_,last_,slc_):\n _slc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),((last_) - (first_))))\n if isinstance(slc_,numpy.ndarray) and not slc_.flags.writeable:\n raise ValueError(\"Argument slc must be writable\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_getslcslice(self.__nativep,whichsol_,first_,last_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slc_copyarray:\n slc_[:] = _slc_np_tmp", "def getslx(self,whichsol_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.getslx(whichsol_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slx:\n slx[:] = _tmparr_slx", "def getslx(self,whichsol_,slx_):\n _slx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),self.getnumvar()))\n if isinstance(slx_,numpy.ndarray) and not slx_.flags.writeable:\n raise ValueError(\"Argument slx must be writable\")\n if slx_ is None:\n raise ValueError(\"Argument slx may not be None\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_getslx(self.__nativep,whichsol_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slx_copyarray:\n slx_[:] = _slx_np_tmp", "def getxxslice(self,whichsol_,first_,last_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_xx = False\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n _copyback_xx = True\n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n _copyback_xx = True\n if xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.getxxslice(whichsol_,first_,last_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xx:\n xx[:] = _tmparr_xx", "def putskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skx is None: raise TypeError(\"Invalid type for argument skx\")\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.putskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getxcslice(self,whichsol_,first_,last_,xc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_xc = False\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n _copyback_xc = True\n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n _copyback_xc = True\n if xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc has wrong length\")\n res = self.__obj.getxcslice(whichsol_,first_,last_,xc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xc:\n xc[:] = _tmparr_xc", "def getyslice(self,whichsol_,first_,last_,y): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_y = False\n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n _copyback_y = True\n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n _copyback_y = True\n if y_ is not None and len(y_) != ((last_) - (first_)):\n raise ValueError(\"Array argument y has wrong length\")\n res = self.__obj.getyslice(whichsol_,first_,last_,y_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_y:\n y[:] = _tmparr_y", "def putskxslice(self,whichsol_,first_,last_,skx_):\n _skx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),((last_) - (first_))))\n if skx_ is None:\n raise ValueError(\"Argument skx cannot be None\")\n if skx_ is None:\n raise ValueError(\"Argument skx may not be None\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))(*skx_)\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_putskxslice(self.__nativep,whichsol_,first_,last_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getxxslice(self,whichsol_,first_,last_,xx_):\n _xx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),((last_) - (first_))))\n if isinstance(xx_,numpy.ndarray) and not xx_.flags.writeable:\n raise ValueError(\"Argument xx must be writable\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n res = __library__.MSK_XX_getxxslice(self.__nativep,whichsol_,first_,last_,_xx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _xx_copyarray:\n xx_[:] = _xx_np_tmp", "def getyslice(self,whichsol_,first_,last_,y_):\n _y_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and y_ is not None and len(y_) != ((last_) - (first_)):\n raise ValueError(\"Array argument y is not long enough: Is %d, expected %d\" % (len(y_),((last_) - (first_))))\n if isinstance(y_,numpy.ndarray) and not y_.flags.writeable:\n raise ValueError(\"Argument y must be writable\")\n if isinstance(y_, numpy.ndarray) and y_.dtype is numpy.dtype(numpy.float64) and y_.flags.contiguous:\n _y_copyarray = False\n _y_tmp = ctypes.cast(y_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif y_ is not None:\n _y_copyarray = True\n _y_np_tmp = numpy.zeros(len(y_),numpy.dtype(numpy.float64))\n _y_np_tmp[:] = y_\n assert _y_np_tmp.flags.contiguous\n _y_tmp = ctypes.cast(_y_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _y_copyarray = False\n _y_tmp = None\n \n res = __library__.MSK_XX_getyslice(self.__nativep,whichsol_,first_,last_,_y_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _y_copyarray:\n y_[:] = _y_np_tmp", "def putsnxslice(self,whichsol_,first_,last_,snx_):\n _snx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),((last_) - (first_))))\n if snx_ is None:\n raise ValueError(\"Argument snx cannot be None\")\n if snx_ is None:\n raise ValueError(\"Argument snx may not be None\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_putsnxslice(self.__nativep,whichsol_,first_,last_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getxcslice(self,whichsol_,first_,last_,xc_):\n _xc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),((last_) - (first_))))\n if isinstance(xc_,numpy.ndarray) and not xc_.flags.writeable:\n raise ValueError(\"Argument xc must be writable\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n res = __library__.MSK_XX_getxcslice(self.__nativep,whichsol_,first_,last_,_xc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _xc_copyarray:\n xc_[:] = _xc_np_tmp", "def getskcslice(self,whichsol_,first_,last_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skc = False\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n _copyback_skc = True\n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n _copyback_skc = True\n if skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.getskcslice(whichsol_,first_,last_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skc:\n for __tmp_var_0 in range(len(skc_)): skc[__tmp_var_0] = stakey(_tmparr_skc[__tmp_var_0])", "def getsuxslice(self,whichsol_,first_,last_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_sux = False\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n _copyback_sux = True\n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n _copyback_sux = True\n if sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.getsuxslice(whichsol_,first_,last_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_sux:\n sux[:] = _tmparr_sux", "def putsnxslice(self,whichsol_,first_,last_,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if snx is None: raise TypeError(\"Invalid type for argument snx\")\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n \n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n \n if snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx has wrong length\")\n res = self.__obj.putsnxslice(whichsol_,first_,last_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsuxslice(self,whichsol_,first_,last_,sux_):\n _sux_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),((last_) - (first_))))\n if isinstance(sux_,numpy.ndarray) and not sux_.flags.writeable:\n raise ValueError(\"Argument sux must be writable\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_getsuxslice(self.__nativep,whichsol_,first_,last_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _sux_copyarray:\n sux_[:] = _sux_np_tmp", "def getskcslice(self,whichsol_,first_,last_,skc_):\n _skc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),((last_) - (first_))))\n if isinstance(skc_,numpy.ndarray) and not skc_.flags.writeable:\n raise ValueError(\"Argument skc must be writable\")\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))()\n else:\n _skc_tmp = None\n res = __library__.MSK_XX_getskcslice(self.__nativep,whichsol_,first_,last_,_skc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skc_ is not None: skc_[:] = [ stakey(v) for v in _skc_tmp[0:len(skc_)] ]", "def putslcslice(self,whichsol_,first_,last_,slc_):\n _slc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),((last_) - (first_))))\n if slc_ is None:\n raise ValueError(\"Argument slc cannot be None\")\n if slc_ is None:\n raise ValueError(\"Argument slc may not be None\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_putslcslice(self.__nativep,whichsol_,first_,last_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsolutionslice(self,whichsol_,solitem_,first_,last_,values): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if not isinstance(solitem_,solitem): raise TypeError(\"Argument solitem has wrong type\")\n _copyback_values = False\n if values is None:\n values_ = None\n else:\n try:\n values_ = memoryview(values)\n except TypeError:\n try:\n _tmparr_values = array.array(\"d\",values)\n except TypeError:\n raise TypeError(\"Argument values has wrong type\")\n else:\n values_ = memoryview(_tmparr_values)\n _copyback_values = True\n else:\n if values_.format != \"d\":\n values_ = memoryview(array.array(\"d\",values))\n _copyback_values = True\n if values_ is not None and len(values_) != ((last_) - (first_)):\n raise ValueError(\"Array argument values has wrong length\")\n res = self.__obj.getsolutionslice(whichsol_,solitem_,first_,last_,values_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_values:\n values[:] = _tmparr_values", "def putslcslice(self,whichsol_,first_,last_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slc is None: raise TypeError(\"Invalid type for argument slc\")\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n \n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n \n if slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.putslcslice(whichsol_,first_,last_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsucslice(self,whichsol_,first_,last_,suc_):\n _suc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc is not long enough: Is %d, expected %d\" % (len(suc_),((last_) - (first_))))\n if isinstance(suc_,numpy.ndarray) and not suc_.flags.writeable:\n raise ValueError(\"Argument suc must be writable\")\n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n res = __library__.MSK_XX_getsucslice(self.__nativep,whichsol_,first_,last_,_suc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _suc_copyarray:\n suc_[:] = _suc_np_tmp", "def getsolutionslice(self,whichsol_,solitem_,first_,last_,values_):\n _values_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and values_ is not None and len(values_) != ((last_) - (first_)):\n raise ValueError(\"Array argument values is not long enough: Is %d, expected %d\" % (len(values_),((last_) - (first_))))\n if isinstance(values_,numpy.ndarray) and not values_.flags.writeable:\n raise ValueError(\"Argument values must be writable\")\n if isinstance(values_, numpy.ndarray) and values_.dtype is numpy.dtype(numpy.float64) and values_.flags.contiguous:\n _values_copyarray = False\n _values_tmp = ctypes.cast(values_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif values_ is not None:\n _values_copyarray = True\n _values_np_tmp = numpy.zeros(len(values_),numpy.dtype(numpy.float64))\n _values_np_tmp[:] = values_\n assert _values_np_tmp.flags.contiguous\n _values_tmp = ctypes.cast(_values_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _values_copyarray = False\n _values_tmp = None\n \n res = __library__.MSK_XX_getsolutionslice(self.__nativep,whichsol_,solitem_,first_,last_,_values_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _values_copyarray:\n values_[:] = _values_np_tmp" ]

[ "0.9028853", "0.80631214", "0.80538034", "0.80414426", "0.80228126", "0.80096054", "0.79594594", "0.77666306", "0.7762168", "0.7724996", "0.7438509", "0.7086442", "0.7030369", "0.701702", "0.6977494", "0.695723", "0.68976486", "0.6864595", "0.6864242", "0.6853861", "0.67835385", "0.6752217", "0.67484343", "0.67152005", "0.66086215", "0.65478855", "0.65411246", "0.6454396", "0.6370476", "0.6277417" ]

[ "def getsuxslice(self,whichsol_,first_,last_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_sux = False\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n _copyback_sux = True\n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n _copyback_sux = True\n if sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.getsuxslice(whichsol_,first_,last_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_sux:\n sux[:] = _tmparr_sux", "def putsuxslice(self,whichsol_,first_,last_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if sux is None: raise TypeError(\"Invalid type for argument sux\")\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n \n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n \n if sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.putsuxslice(whichsol_,first_,last_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsuxslice(self,whichsol_,first_,last_,sux_):\n _sux_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),((last_) - (first_))))\n if sux_ is None:\n raise ValueError(\"Argument sux cannot be None\")\n if sux_ is None:\n raise ValueError(\"Argument sux may not be None\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_putsuxslice(self.__nativep,whichsol_,first_,last_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getxxslice(self,whichsol_,first_,last_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_xx = False\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n _copyback_xx = True\n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n _copyback_xx = True\n if xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.getxxslice(whichsol_,first_,last_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xx:\n xx[:] = _tmparr_xx", "def getskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.getskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skx:\n for __tmp_var_0 in range(len(skx_)): skx[__tmp_var_0] = stakey(_tmparr_skx[__tmp_var_0])", "def getsux(self,whichsol_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if sux is None: raise TypeError(\"Invalid type for argument sux\")\n _copyback_sux = False\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n _copyback_sux = True\n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n _copyback_sux = True\n if sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.getsux(whichsol_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_sux:\n sux[:] = _tmparr_sux", "def getxxslice(self,whichsol_,first_,last_,xx_):\n _xx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),((last_) - (first_))))\n if isinstance(xx_,numpy.ndarray) and not xx_.flags.writeable:\n raise ValueError(\"Argument xx must be writable\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n res = __library__.MSK_XX_getxxslice(self.__nativep,whichsol_,first_,last_,_xx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _xx_copyarray:\n xx_[:] = _xx_np_tmp", "def getsnxslice(self,whichsol_,first_,last_,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_snx = False\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n _copyback_snx = True\n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n _copyback_snx = True\n if snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx has wrong length\")\n res = self.__obj.getsnxslice(whichsol_,first_,last_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_snx:\n snx[:] = _tmparr_snx", "def getslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.getslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slx:\n slx[:] = _tmparr_slx", "def getsux(self,whichsol_,sux_):\n _sux_minlength = self.getnumvar()\n if self.getnumvar() > 0 and sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),self.getnumvar()))\n if isinstance(sux_,numpy.ndarray) and not sux_.flags.writeable:\n raise ValueError(\"Argument sux must be writable\")\n if sux_ is None:\n raise ValueError(\"Argument sux may not be None\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_getsux(self.__nativep,whichsol_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _sux_copyarray:\n sux_[:] = _sux_np_tmp", "def getskxslice(self,whichsol_,first_,last_,skx_):\n _skx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),((last_) - (first_))))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_getskxslice(self.__nativep,whichsol_,first_,last_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]", "def getsucslice(self,whichsol_,first_,last_,suc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_suc = False\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n _copyback_suc = True\n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n _copyback_suc = True\n if suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc has wrong length\")\n res = self.__obj.getsucslice(whichsol_,first_,last_,suc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_suc:\n suc[:] = _tmparr_suc", "def putskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skx is None: raise TypeError(\"Invalid type for argument skx\")\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.putskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsnxslice(self,whichsol_,first_,last_,snx_):\n _snx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),((last_) - (first_))))\n if isinstance(snx_,numpy.ndarray) and not snx_.flags.writeable:\n raise ValueError(\"Argument snx must be writable\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_getsnxslice(self.__nativep,whichsol_,first_,last_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _snx_copyarray:\n snx_[:] = _snx_np_tmp", "def getsucslice(self,whichsol_,first_,last_,suc_):\n _suc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc is not long enough: Is %d, expected %d\" % (len(suc_),((last_) - (first_))))\n if isinstance(suc_,numpy.ndarray) and not suc_.flags.writeable:\n raise ValueError(\"Argument suc must be writable\")\n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n res = __library__.MSK_XX_getsucslice(self.__nativep,whichsol_,first_,last_,_suc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _suc_copyarray:\n suc_[:] = _suc_np_tmp", "def getslxslice(self,whichsol_,first_,last_,slx_):\n _slx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),((last_) - (first_))))\n if isinstance(slx_,numpy.ndarray) and not slx_.flags.writeable:\n raise ValueError(\"Argument slx must be writable\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_getslxslice(self.__nativep,whichsol_,first_,last_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slx_copyarray:\n slx_[:] = _slx_np_tmp", "def getslcslice(self,whichsol_,first_,last_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_slc = False\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n _copyback_slc = True\n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n _copyback_slc = True\n if slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.getslcslice(whichsol_,first_,last_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slc:\n slc[:] = _tmparr_slc", "def putxxslice(self,whichsol_,first_,last_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xx is None: raise TypeError(\"Invalid type for argument xx\")\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n \n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n \n if xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.putxxslice(whichsol_,first_,last_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getskcslice(self,whichsol_,first_,last_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skc = False\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n _copyback_skc = True\n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n _copyback_skc = True\n if skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.getskcslice(whichsol_,first_,last_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skc:\n for __tmp_var_0 in range(len(skc_)): skc[__tmp_var_0] = stakey(_tmparr_skc[__tmp_var_0])", "def putslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.putslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getyslice(self,whichsol_,first_,last_,y): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_y = False\n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n _copyback_y = True\n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n _copyback_y = True\n if y_ is not None and len(y_) != ((last_) - (first_)):\n raise ValueError(\"Array argument y has wrong length\")\n res = self.__obj.getyslice(whichsol_,first_,last_,y_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_y:\n y[:] = _tmparr_y", "def getslcslice(self,whichsol_,first_,last_,slc_):\n _slc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),((last_) - (first_))))\n if isinstance(slc_,numpy.ndarray) and not slc_.flags.writeable:\n raise ValueError(\"Argument slc must be writable\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_getslcslice(self.__nativep,whichsol_,first_,last_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slc_copyarray:\n slc_[:] = _slc_np_tmp", "def putskxslice(self,whichsol_,first_,last_,skx_):\n _skx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),((last_) - (first_))))\n if skx_ is None:\n raise ValueError(\"Argument skx cannot be None\")\n if skx_ is None:\n raise ValueError(\"Argument skx may not be None\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))(*skx_)\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_putskxslice(self.__nativep,whichsol_,first_,last_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsnxslice(self,whichsol_,first_,last_,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if snx is None: raise TypeError(\"Invalid type for argument snx\")\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n \n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n \n if snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx has wrong length\")\n res = self.__obj.putsnxslice(whichsol_,first_,last_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getxcslice(self,whichsol_,first_,last_,xc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_xc = False\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n _copyback_xc = True\n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n _copyback_xc = True\n if xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc has wrong length\")\n res = self.__obj.getxcslice(whichsol_,first_,last_,xc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xc:\n xc[:] = _tmparr_xc", "def getbarxslice(self,whichsol_,first_,last_,slicesize_,barxslice_):\n _barxslice_minlength = (slicesize_)\n if (slicesize_) > 0 and barxslice_ is not None and len(barxslice_) != (slicesize_):\n raise ValueError(\"Array argument barxslice is not long enough: Is %d, expected %d\" % (len(barxslice_),(slicesize_)))\n if isinstance(barxslice_,numpy.ndarray) and not barxslice_.flags.writeable:\n raise ValueError(\"Argument barxslice must be writable\")\n if barxslice_ is None:\n raise ValueError(\"Argument barxslice may not be None\")\n if isinstance(barxslice_, numpy.ndarray) and barxslice_.dtype is numpy.dtype(numpy.float64) and barxslice_.flags.contiguous:\n _barxslice_copyarray = False\n _barxslice_tmp = ctypes.cast(barxslice_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif barxslice_ is not None:\n _barxslice_copyarray = True\n _barxslice_np_tmp = numpy.zeros(len(barxslice_),numpy.dtype(numpy.float64))\n _barxslice_np_tmp[:] = barxslice_\n assert _barxslice_np_tmp.flags.contiguous\n _barxslice_tmp = ctypes.cast(_barxslice_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _barxslice_copyarray = False\n _barxslice_tmp = None\n \n res = __library__.MSK_XX_getbarxslice(self.__nativep,whichsol_,first_,last_,slicesize_,_barxslice_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _barxslice_copyarray:\n barxslice_[:] = _barxslice_np_tmp", "def getskcslice(self,whichsol_,first_,last_,skc_):\n _skc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),((last_) - (first_))))\n if isinstance(skc_,numpy.ndarray) and not skc_.flags.writeable:\n raise ValueError(\"Argument skc must be writable\")\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))()\n else:\n _skc_tmp = None\n res = __library__.MSK_XX_getskcslice(self.__nativep,whichsol_,first_,last_,_skc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skc_ is not None: skc_[:] = [ stakey(v) for v in _skc_tmp[0:len(skc_)] ]", "def putslxslice(self,whichsol_,first_,last_,slx_):\n _slx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),((last_) - (first_))))\n if slx_ is None:\n raise ValueError(\"Argument slx cannot be None\")\n if slx_ is None:\n raise ValueError(\"Argument slx may not be None\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_putslxslice(self.__nativep,whichsol_,first_,last_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsux(self,whichsol_,sux_):\n _sux_minlength = self.getnumvar()\n if self.getnumvar() > 0 and sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),self.getnumvar()))\n if sux_ is None:\n raise ValueError(\"Argument sux cannot be None\")\n if sux_ is None:\n raise ValueError(\"Argument sux may not be None\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_putsux(self.__nativep,whichsol_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsnxslice(self,whichsol_,first_,last_,snx_):\n _snx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),((last_) - (first_))))\n if snx_ is None:\n raise ValueError(\"Argument snx cannot be None\")\n if snx_ is None:\n raise ValueError(\"Argument snx may not be None\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_putsnxslice(self.__nativep,whichsol_,first_,last_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)" ]

[ "0.8914363", "0.8258753", "0.8095908", "0.72309643", "0.6827041", "0.6768942", "0.6739441", "0.673232", "0.6716384", "0.6692275", "0.6555622", "0.6508154", "0.6437642", "0.6414382", "0.6401229", "0.6395745", "0.6369611", "0.6321666", "0.6258681", "0.6175639", "0.6137331", "0.61145866", "0.60795945", "0.60669357", "0.597777", "0.5971903", "0.59324086", "0.5912336", "0.58761525", "0.58626556" ]

[ "def getsnxslice(self,whichsol_,first_,last_,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_snx = False\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n _copyback_snx = True\n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n _copyback_snx = True\n if snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx has wrong length\")\n res = self.__obj.getsnxslice(whichsol_,first_,last_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_snx:\n snx[:] = _tmparr_snx", "def getskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.getskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skx:\n for __tmp_var_0 in range(len(skx_)): skx[__tmp_var_0] = stakey(_tmparr_skx[__tmp_var_0])", "def getskxslice(self,whichsol_,first_,last_,skx_):\n _skx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),((last_) - (first_))))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_getskxslice(self.__nativep,whichsol_,first_,last_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]", "def getslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.getslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slx:\n slx[:] = _tmparr_slx", "def getslxslice(self,whichsol_,first_,last_,slx_):\n _slx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),((last_) - (first_))))\n if isinstance(slx_,numpy.ndarray) and not slx_.flags.writeable:\n raise ValueError(\"Argument slx must be writable\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_getslxslice(self.__nativep,whichsol_,first_,last_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slx_copyarray:\n slx_[:] = _slx_np_tmp", "def putsnxslice(self,whichsol_,first_,last_,snx_):\n _snx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),((last_) - (first_))))\n if snx_ is None:\n raise ValueError(\"Argument snx cannot be None\")\n if snx_ is None:\n raise ValueError(\"Argument snx may not be None\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_putsnxslice(self.__nativep,whichsol_,first_,last_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsnxslice(self,whichsol_,first_,last_,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if snx is None: raise TypeError(\"Invalid type for argument snx\")\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n \n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n \n if snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx has wrong length\")\n res = self.__obj.putsnxslice(whichsol_,first_,last_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsnx(self,whichsol_,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if snx is None: raise TypeError(\"Invalid type for argument snx\")\n _copyback_snx = False\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n _copyback_snx = True\n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n _copyback_snx = True\n if snx_ is not None and len(snx_) != self.getnumvar():\n raise ValueError(\"Array argument snx has wrong length\")\n res = self.__obj.getsnx(whichsol_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_snx:\n snx[:] = _tmparr_snx", "def putskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skx is None: raise TypeError(\"Invalid type for argument skx\")\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.putskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskxslice(self,whichsol_,first_,last_,skx_):\n _skx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),((last_) - (first_))))\n if skx_ is None:\n raise ValueError(\"Argument skx cannot be None\")\n if skx_ is None:\n raise ValueError(\"Argument skx may not be None\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))(*skx_)\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_putskxslice(self.__nativep,whichsol_,first_,last_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsnx(self,whichsol_,snx_):\n _snx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and snx_ is not None and len(snx_) != self.getnumvar():\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),self.getnumvar()))\n if isinstance(snx_,numpy.ndarray) and not snx_.flags.writeable:\n raise ValueError(\"Argument snx must be writable\")\n if snx_ is None:\n raise ValueError(\"Argument snx may not be None\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_getsnx(self.__nativep,whichsol_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _snx_copyarray:\n snx_[:] = _snx_np_tmp", "def getxxslice(self,whichsol_,first_,last_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_xx = False\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n _copyback_xx = True\n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n _copyback_xx = True\n if xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.getxxslice(whichsol_,first_,last_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xx:\n xx[:] = _tmparr_xx", "def getxcslice(self,whichsol_,first_,last_,xc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_xc = False\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n _copyback_xc = True\n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n _copyback_xc = True\n if xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc has wrong length\")\n res = self.__obj.getxcslice(whichsol_,first_,last_,xc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xc:\n xc[:] = _tmparr_xc", "def getskcslice(self,whichsol_,first_,last_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skc = False\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n _copyback_skc = True\n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n _copyback_skc = True\n if skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.getskcslice(whichsol_,first_,last_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skc:\n for __tmp_var_0 in range(len(skc_)): skc[__tmp_var_0] = stakey(_tmparr_skc[__tmp_var_0])", "def putslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.putslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslxslice(self,whichsol_,first_,last_,slx_):\n _slx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),((last_) - (first_))))\n if slx_ is None:\n raise ValueError(\"Argument slx cannot be None\")\n if slx_ is None:\n raise ValueError(\"Argument slx may not be None\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_putslxslice(self.__nativep,whichsol_,first_,last_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getxxslice(self,whichsol_,first_,last_,xx_):\n _xx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),((last_) - (first_))))\n if isinstance(xx_,numpy.ndarray) and not xx_.flags.writeable:\n raise ValueError(\"Argument xx must be writable\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n res = __library__.MSK_XX_getxxslice(self.__nativep,whichsol_,first_,last_,_xx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _xx_copyarray:\n xx_[:] = _xx_np_tmp", "def getxcslice(self,whichsol_,first_,last_,xc_):\n _xc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),((last_) - (first_))))\n if isinstance(xc_,numpy.ndarray) and not xc_.flags.writeable:\n raise ValueError(\"Argument xc must be writable\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n res = __library__.MSK_XX_getxcslice(self.__nativep,whichsol_,first_,last_,_xc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _xc_copyarray:\n xc_[:] = _xc_np_tmp", "def getsuxslice(self,whichsol_,first_,last_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_sux = False\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n _copyback_sux = True\n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n _copyback_sux = True\n if sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.getsuxslice(whichsol_,first_,last_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_sux:\n sux[:] = _tmparr_sux", "def getslcslice(self,whichsol_,first_,last_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_slc = False\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n _copyback_slc = True\n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n _copyback_slc = True\n if slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.getslcslice(whichsol_,first_,last_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slc:\n slc[:] = _tmparr_slc", "def getslcslice(self,whichsol_,first_,last_,slc_):\n _slc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),((last_) - (first_))))\n if isinstance(slc_,numpy.ndarray) and not slc_.flags.writeable:\n raise ValueError(\"Argument slc must be writable\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_getslcslice(self.__nativep,whichsol_,first_,last_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slc_copyarray:\n slc_[:] = _slc_np_tmp", "def getsuxslice(self,whichsol_,first_,last_,sux_):\n _sux_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),((last_) - (first_))))\n if isinstance(sux_,numpy.ndarray) and not sux_.flags.writeable:\n raise ValueError(\"Argument sux must be writable\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_getsuxslice(self.__nativep,whichsol_,first_,last_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _sux_copyarray:\n sux_[:] = _sux_np_tmp", "def getskcslice(self,whichsol_,first_,last_,skc_):\n _skc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),((last_) - (first_))))\n if isinstance(skc_,numpy.ndarray) and not skc_.flags.writeable:\n raise ValueError(\"Argument skc must be writable\")\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))()\n else:\n _skc_tmp = None\n res = __library__.MSK_XX_getskcslice(self.__nativep,whichsol_,first_,last_,_skc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skc_ is not None: skc_[:] = [ stakey(v) for v in _skc_tmp[0:len(skc_)] ]", "def getsucslice(self,whichsol_,first_,last_,suc_):\n _suc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc is not long enough: Is %d, expected %d\" % (len(suc_),((last_) - (first_))))\n if isinstance(suc_,numpy.ndarray) and not suc_.flags.writeable:\n raise ValueError(\"Argument suc must be writable\")\n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n res = __library__.MSK_XX_getsucslice(self.__nativep,whichsol_,first_,last_,_suc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _suc_copyarray:\n suc_[:] = _suc_np_tmp", "def getyslice(self,whichsol_,first_,last_,y): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_y = False\n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n _copyback_y = True\n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n _copyback_y = True\n if y_ is not None and len(y_) != ((last_) - (first_)):\n raise ValueError(\"Array argument y has wrong length\")\n res = self.__obj.getyslice(whichsol_,first_,last_,y_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_y:\n y[:] = _tmparr_y", "def getsucslice(self,whichsol_,first_,last_,suc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_suc = False\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n _copyback_suc = True\n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n _copyback_suc = True\n if suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc has wrong length\")\n res = self.__obj.getsucslice(whichsol_,first_,last_,suc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_suc:\n suc[:] = _tmparr_suc", "def getskx(self,whichsol_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.getskx(whichsol_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skx:\n for __tmp_var_0 in range(len(skx_)): skx[__tmp_var_0] = stakey(_tmparr_skx[__tmp_var_0])", "def getyslice(self,whichsol_,first_,last_,y_):\n _y_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and y_ is not None and len(y_) != ((last_) - (first_)):\n raise ValueError(\"Array argument y is not long enough: Is %d, expected %d\" % (len(y_),((last_) - (first_))))\n if isinstance(y_,numpy.ndarray) and not y_.flags.writeable:\n raise ValueError(\"Argument y must be writable\")\n if isinstance(y_, numpy.ndarray) and y_.dtype is numpy.dtype(numpy.float64) and y_.flags.contiguous:\n _y_copyarray = False\n _y_tmp = ctypes.cast(y_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif y_ is not None:\n _y_copyarray = True\n _y_np_tmp = numpy.zeros(len(y_),numpy.dtype(numpy.float64))\n _y_np_tmp[:] = y_\n assert _y_np_tmp.flags.contiguous\n _y_tmp = ctypes.cast(_y_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _y_copyarray = False\n _y_tmp = None\n \n res = __library__.MSK_XX_getyslice(self.__nativep,whichsol_,first_,last_,_y_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _y_copyarray:\n y_[:] = _y_np_tmp", "def getskx(self,whichsol_,skx_):\n _skx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),self.getnumvar()))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_getskx(self.__nativep,whichsol_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]", "def getslx(self,whichsol_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.getslx(whichsol_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slx:\n slx[:] = _tmparr_slx" ]

[ "0.8926085", "0.8225254", "0.8170479", "0.79477704", "0.78376275", "0.77986014", "0.7659825", "0.71785355", "0.7146281", "0.70773745", "0.7055276", "0.70290095", "0.6974902", "0.6917452", "0.6892785", "0.6877136", "0.6832963", "0.68091565", "0.67997664", "0.67910826", "0.67503893", "0.6715656", "0.6713803", "0.6628914", "0.6608278", "0.6535926", "0.6473774", "0.642277", "0.6417265", "0.6416928" ]

[ "def getbarxj(self,whichsol_,j_,barxj): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if barxj is None: raise TypeError(\"Invalid type for argument barxj\")\n _copyback_barxj = False\n if barxj is None:\n barxj_ = None\n else:\n try:\n barxj_ = memoryview(barxj)\n except TypeError:\n try:\n _tmparr_barxj = array.array(\"d\",barxj)\n except TypeError:\n raise TypeError(\"Argument barxj has wrong type\")\n else:\n barxj_ = memoryview(_tmparr_barxj)\n _copyback_barxj = True\n else:\n if barxj_.format != \"d\":\n barxj_ = memoryview(array.array(\"d\",barxj))\n _copyback_barxj = True\n if barxj_ is not None and len(barxj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barxj has wrong length\")\n res = self.__obj.getbarxj(whichsol_,j_,barxj_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_barxj:\n barxj[:] = _tmparr_barxj", "def getbarsj(self,whichsol_,j_,barsj_):\n _barsj_minlength = self.getlenbarvarj((j_))\n if self.getlenbarvarj((j_)) > 0 and barsj_ is not None and len(barsj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barsj is not long enough: Is %d, expected %d\" % (len(barsj_),self.getlenbarvarj((j_))))\n if isinstance(barsj_,numpy.ndarray) and not barsj_.flags.writeable:\n raise ValueError(\"Argument barsj must be writable\")\n if barsj_ is None:\n raise ValueError(\"Argument barsj may not be None\")\n if isinstance(barsj_, numpy.ndarray) and barsj_.dtype is numpy.dtype(numpy.float64) and barsj_.flags.contiguous:\n _barsj_copyarray = False\n _barsj_tmp = ctypes.cast(barsj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif barsj_ is not None:\n _barsj_copyarray = True\n _barsj_np_tmp = numpy.zeros(len(barsj_),numpy.dtype(numpy.float64))\n _barsj_np_tmp[:] = barsj_\n assert _barsj_np_tmp.flags.contiguous\n _barsj_tmp = ctypes.cast(_barsj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _barsj_copyarray = False\n _barsj_tmp = None\n \n res = __library__.MSK_XX_getbarsj(self.__nativep,whichsol_,j_,_barsj_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _barsj_copyarray:\n barsj_[:] = _barsj_np_tmp", "def getbarsj(self,whichsol_,j_,barsj): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if barsj is None: raise TypeError(\"Invalid type for argument barsj\")\n _copyback_barsj = False\n if barsj is None:\n barsj_ = None\n else:\n try:\n barsj_ = memoryview(barsj)\n except TypeError:\n try:\n _tmparr_barsj = array.array(\"d\",barsj)\n except TypeError:\n raise TypeError(\"Argument barsj has wrong type\")\n else:\n barsj_ = memoryview(_tmparr_barsj)\n _copyback_barsj = True\n else:\n if barsj_.format != \"d\":\n barsj_ = memoryview(array.array(\"d\",barsj))\n _copyback_barsj = True\n if barsj_ is not None and len(barsj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barsj has wrong length\")\n res = self.__obj.getbarsj(whichsol_,j_,barsj_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_barsj:\n barsj[:] = _tmparr_barsj", "def putbarxj(self,whichsol_,j_,barxj_):\n _barxj_minlength = self.getlenbarvarj((j_))\n if self.getlenbarvarj((j_)) > 0 and barxj_ is not None and len(barxj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barxj is not long enough: Is %d, expected %d\" % (len(barxj_),self.getlenbarvarj((j_))))\n if barxj_ is None:\n raise ValueError(\"Argument barxj cannot be None\")\n if barxj_ is None:\n raise ValueError(\"Argument barxj may not be None\")\n if isinstance(barxj_, numpy.ndarray) and barxj_.dtype is numpy.dtype(numpy.float64) and barxj_.flags.contiguous:\n _barxj_copyarray = False\n _barxj_tmp = ctypes.cast(barxj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif barxj_ is not None:\n _barxj_copyarray = True\n _barxj_np_tmp = numpy.zeros(len(barxj_),numpy.dtype(numpy.float64))\n _barxj_np_tmp[:] = barxj_\n assert _barxj_np_tmp.flags.contiguous\n _barxj_tmp = ctypes.cast(_barxj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _barxj_copyarray = False\n _barxj_tmp = None\n \n res = __library__.MSK_XX_putbarxj(self.__nativep,whichsol_,j_,_barxj_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbarxj(self,whichsol_,j_,barxj): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if barxj is None: raise TypeError(\"Invalid type for argument barxj\")\n if barxj is None:\n barxj_ = None\n else:\n try:\n barxj_ = memoryview(barxj)\n except TypeError:\n try:\n _tmparr_barxj = array.array(\"d\",barxj)\n except TypeError:\n raise TypeError(\"Argument barxj has wrong type\")\n else:\n barxj_ = memoryview(_tmparr_barxj)\n \n else:\n if barxj_.format != \"d\":\n barxj_ = memoryview(array.array(\"d\",barxj))\n \n if barxj_ is not None and len(barxj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barxj has wrong length\")\n res = self.__obj.putbarxj(whichsol_,j_,barxj_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getdimbarvarj(self,j_): # 3\n res,resargs = self.__obj.getdimbarvarj(j_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _dimbarvarj_return_value = resargs\n return _dimbarvarj_return_value", "def getbarcsparsity(self,idxj): # 3\n maxnumnz_ = self.getnumbarcnz()\n if idxj is None: raise TypeError(\"Invalid type for argument idxj\")\n _copyback_idxj = False\n if idxj is None:\n idxj_ = None\n else:\n try:\n idxj_ = memoryview(idxj)\n except TypeError:\n try:\n _tmparr_idxj = array.array(\"q\",idxj)\n except TypeError:\n raise TypeError(\"Argument idxj has wrong type\")\n else:\n idxj_ = memoryview(_tmparr_idxj)\n _copyback_idxj = True\n else:\n if idxj_.format != \"q\":\n idxj_ = memoryview(array.array(\"q\",idxj))\n _copyback_idxj = True\n if idxj_ is not None and len(idxj_) != (maxnumnz_):\n raise ValueError(\"Array argument idxj has wrong length\")\n res,resargs = self.__obj.getbarcsparsity(maxnumnz_,idxj_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _numnz_return_value = resargs\n if _copyback_idxj:\n idxj[:] = _tmparr_idxj\n return _numnz_return_value", "def getbarcidxj(self,idx_): # 3\n res,resargs = self.__obj.getbarcidxj(idx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _j_return_value = resargs\n return _j_return_value", "def getbarcsparsity(self,idxj_):\n maxnumnz_ = self.getnumbarcnz()\n numnz_ = ctypes.c_int64()\n _idxj_minlength = (maxnumnz_)\n if (maxnumnz_) > 0 and idxj_ is not None and len(idxj_) != (maxnumnz_):\n raise ValueError(\"Array argument idxj is not long enough: Is %d, expected %d\" % (len(idxj_),(maxnumnz_)))\n if isinstance(idxj_,numpy.ndarray) and not idxj_.flags.writeable:\n raise ValueError(\"Argument idxj must be writable\")\n if idxj_ is None:\n raise ValueError(\"Argument idxj may not be None\")\n if isinstance(idxj_, numpy.ndarray) and idxj_.dtype is numpy.dtype(numpy.int64) and idxj_.flags.contiguous:\n _idxj_copyarray = False\n _idxj_tmp = ctypes.cast(idxj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif idxj_ is not None:\n _idxj_copyarray = True\n _idxj_np_tmp = numpy.zeros(len(idxj_),numpy.dtype(numpy.int64))\n _idxj_np_tmp[:] = idxj_\n assert _idxj_np_tmp.flags.contiguous\n _idxj_tmp = ctypes.cast(_idxj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _idxj_copyarray = False\n _idxj_tmp = None\n \n res = __library__.MSK_XX_getbarcsparsity(self.__nativep,maxnumnz_,ctypes.byref(numnz_),_idxj_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n numnz_ = numnz_.value\n _numnz_return_value = numnz_\n if _idxj_copyarray:\n idxj_[:] = _idxj_np_tmp\n return (_numnz_return_value)", "def getbarasparsity(self,idxij): # 3\n maxnumnz_ = self.getnumbaranz()\n if idxij is None: raise TypeError(\"Invalid type for argument idxij\")\n _copyback_idxij = False\n if idxij is None:\n idxij_ = None\n else:\n try:\n idxij_ = memoryview(idxij)\n except TypeError:\n try:\n _tmparr_idxij = array.array(\"q\",idxij)\n except TypeError:\n raise TypeError(\"Argument idxij has wrong type\")\n else:\n idxij_ = memoryview(_tmparr_idxij)\n _copyback_idxij = True\n else:\n if idxij_.format != \"q\":\n idxij_ = memoryview(array.array(\"q\",idxij))\n _copyback_idxij = True\n if idxij_ is not None and len(idxij_) != (maxnumnz_):\n raise ValueError(\"Array argument idxij has wrong length\")\n res,resargs = self.__obj.getbarasparsity(maxnumnz_,idxij_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _numnz_return_value = resargs\n if _copyback_idxij:\n idxij[:] = _tmparr_idxij\n return _numnz_return_value", "def getdimbarvarj(self,j_):\n dimbarvarj_ = ctypes.c_int32()\n res = __library__.MSK_XX_getdimbarvarj(self.__nativep,j_,ctypes.byref(dimbarvarj_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n dimbarvarj_ = dimbarvarj_.value\n _dimbarvarj_return_value = dimbarvarj_\n return (_dimbarvarj_return_value)", "def getlenbarvarj(self,j_): # 3\n res,resargs = self.__obj.getlenbarvarj(j_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _lenbarvarj_return_value = resargs\n return _lenbarvarj_return_value", "def putbarsj(self,whichsol_,j_,barsj_):\n _barsj_minlength = self.getlenbarvarj((j_))\n if self.getlenbarvarj((j_)) > 0 and barsj_ is not None and len(barsj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barsj is not long enough: Is %d, expected %d\" % (len(barsj_),self.getlenbarvarj((j_))))\n if barsj_ is None:\n raise ValueError(\"Argument barsj cannot be None\")\n if barsj_ is None:\n raise ValueError(\"Argument barsj may not be None\")\n if isinstance(barsj_, numpy.ndarray) and barsj_.dtype is numpy.dtype(numpy.float64) and barsj_.flags.contiguous:\n _barsj_copyarray = False\n _barsj_tmp = ctypes.cast(barsj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif barsj_ is not None:\n _barsj_copyarray = True\n _barsj_np_tmp = numpy.zeros(len(barsj_),numpy.dtype(numpy.float64))\n _barsj_np_tmp[:] = barsj_\n assert _barsj_np_tmp.flags.contiguous\n _barsj_tmp = ctypes.cast(_barsj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _barsj_copyarray = False\n _barsj_tmp = None\n \n res = __library__.MSK_XX_putbarsj(self.__nativep,whichsol_,j_,_barsj_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getpviolbarvar(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getpviolbarvar(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getpviolbarvar(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getpviolbarvar(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getbarasparsity(self,idxij_):\n maxnumnz_ = self.getnumbaranz()\n numnz_ = ctypes.c_int64()\n _idxij_minlength = (maxnumnz_)\n if (maxnumnz_) > 0 and idxij_ is not None and len(idxij_) != (maxnumnz_):\n raise ValueError(\"Array argument idxij is not long enough: Is %d, expected %d\" % (len(idxij_),(maxnumnz_)))\n if isinstance(idxij_,numpy.ndarray) and not idxij_.flags.writeable:\n raise ValueError(\"Argument idxij must be writable\")\n if idxij_ is None:\n raise ValueError(\"Argument idxij may not be None\")\n if isinstance(idxij_, numpy.ndarray) and idxij_.dtype is numpy.dtype(numpy.int64) and idxij_.flags.contiguous:\n _idxij_copyarray = False\n _idxij_tmp = ctypes.cast(idxij_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif idxij_ is not None:\n _idxij_copyarray = True\n _idxij_np_tmp = numpy.zeros(len(idxij_),numpy.dtype(numpy.int64))\n _idxij_np_tmp[:] = idxij_\n assert _idxij_np_tmp.flags.contiguous\n _idxij_tmp = ctypes.cast(_idxij_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _idxij_copyarray = False\n _idxij_tmp = None\n \n res = __library__.MSK_XX_getbarasparsity(self.__nativep,maxnumnz_,ctypes.byref(numnz_),_idxij_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n numnz_ = numnz_.value\n _numnz_return_value = numnz_\n if _idxij_copyarray:\n idxij_[:] = _idxij_np_tmp\n return (_numnz_return_value)", "def getqobjij(self,i_,j_): # 3\n res,resargs = self.__obj.getqobjij(i_,j_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _qoij_return_value = resargs\n return _qoij_return_value", "def jacobian(self, x):\n pass", "def bcdfo_find_new_yj_(QZ=None,RZ=None,Y=None,j=None,Delta=None,eps_L=None,xbase=None,lSolver=None,whichmodel=None,scale=None,shift_Y=None,*args,**kwargs):\n# varargin = cellarray(args)\n# nargin = 11-[QZ,RZ,Y,j,Delta,eps_L,xbase,lSolver,whichmodel,scale,shift_Y].count(None)+len(args)\n\n verbose=0 # 1 for debug\n n=size_(Y,1)\n ynew=zeros_(1,n)\n improvement=0\n msgTR=''\n if (verbose):\n disp_('--------- enter find_new_yj ')\n if (j < 1): # never attempt to replace the current iterate.\n return ynew,improvement,msgTR\n # Get the j-th Lagrange polynomial \n Lj=bcdfo_computeLj_(QZ,RZ,j,Y,whichmodel,scale,shift_Y)\n if (length_(find_(isnan(Lj))) != 0 or length_(find_(~ isreal(Lj))) != 0 or length_(find_(isinf(Lj))) != 0):\n msgTR='Error0: Lagrange polynomial contains NaN or Inf or nonreal components!!'\n if (verbose):\n disp_(msgTR)\n return ynew,improvement,msgTR\n# Maximize Lj in a larger 2-norm TR if using infty-norm in the local solver (CG)\n if (lSolver == 2):\n Delta=sqrt_(n) * Delta\n# Get the polynomial's gradient and Hessian at the current iterate.\n if (shift_Y):\n\n\n# When shifted, the origin in the scaled variables corresponds \n# to Y(:,0) in the unscaled space\n g=bcdfo_gradP_(Lj,zeros_(n,1),xbase,scale,0)\n H=bcdfo_hessP_(Lj,zeros_(n,1),xbase,scale,0)\n# Minimize this polynomial and its opposite.\n pstep,_lambda,norms,pvalue,gplus,nfact,neigd,msgTR,hardcase=bcdfo_solve_TR_MS_(g,H,Delta * scale[1],eps_L,nargout=9)\n pstep=pstep / scale[1]\n mstep,_lambda,norms,mvalue,gplus,nfact,neigd,msgTR,hardcase=bcdfo_solve_TR_MS_(- g,- H,Delta * scale[1],eps_L,nargout=9)\n mstep=mstep / scale[1]\n else:\n# When no shift occurs, the current iterate is Y(:,1)\n g=bcdfo_gradP_(Lj,Y[:,[0]],xbase,scale,0)\n H=bcdfo_hessP_(Lj,Y[:,[0]],xbase,scale,0)\n# Minimize this polynomial and its opposite.\n pstep,_lambda,norms,pvalue,gplus,nfact,neigd,msgTR,hardcase=bcdfo_solve_TR_MS_(g,H,Delta,eps_L,nargout=9)\n mstep,_lambda,norms,mvalue,gplus,nfact,neigd,msgTR,hardcase=bcdfo_solve_TR_MS_(- g,- H,Delta,eps_L,nargout=9)\n if (verbose):\n disp_(' === find_new_yj: j = ',str(j),' positive value = ',str(pvalue),' step:')\n pstep.T\n disp_(' === find_new_yj: j = ',str(j),' negative value = ',str(mvalue),' step:')\n mstep.T\n# Select the maximum in absolute value.\n if (mvalue < pvalue):\n improvement=abs(mvalue)\n ynew=Y[:,0].reshape(-1,1) + mstep\n else:\n improvement=abs(pvalue)\n ynew=Y[:,0].reshape(-1,1) + pstep\n if (verbose):\n disp_('--------- exit find_new_yj ')\n return ynew,improvement,msgTR", "def getbarcidxj(self,idx_):\n j_ = ctypes.c_int32()\n res = __library__.MSK_XX_getbarcidxj(self.__nativep,idx_,ctypes.byref(j_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n j_ = j_.value\n _j_return_value = j_\n return (_j_return_value)", "def putbarsj(self,whichsol_,j_,barsj): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if barsj is None: raise TypeError(\"Invalid type for argument barsj\")\n if barsj is None:\n barsj_ = None\n else:\n try:\n barsj_ = memoryview(barsj)\n except TypeError:\n try:\n _tmparr_barsj = array.array(\"d\",barsj)\n except TypeError:\n raise TypeError(\"Argument barsj has wrong type\")\n else:\n barsj_ = memoryview(_tmparr_barsj)\n \n else:\n if barsj_.format != \"d\":\n barsj_ = memoryview(array.array(\"d\",barsj))\n \n if barsj_ is not None and len(barsj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barsj has wrong length\")\n res = self.__obj.putbarsj(whichsol_,j_,barsj_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def jval(self):\n return self.q * self.model.nobs_moms", "def _j_beta(r, s, r_ani, beta_inf):\n return ((s**2 + r_ani**2) / (r**2 + r_ani**2)) ** beta_inf", "def jacobian_i(self, x):\n return np.matrix([-x**3, -x**2, -x, -1])", "def getxx(self,whichsol_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xx is None: raise TypeError(\"Invalid type for argument xx\")\n _copyback_xx = False\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n _copyback_xx = True\n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n _copyback_xx = True\n if xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.getxx(whichsol_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xx:\n xx[:] = _tmparr_xx", "def B_ret(img):\r\n return solveJ(img, 0, tb(img, ignore_ch=2))", "def putvarsolutionj(self,j_,whichsol_,sk_,x_,sl_,su_,sn_):\n res = __library__.MSK_XX_putvarsolutionj(self.__nativep,j_,whichsol_,sk_,x_,sl_,su_,sn_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def calculate_dvec_spin_fixed_j(self, jorb: int) -> 'Nparray':\n return self._calculate_dvec_spin_with_coeff_fixed_j(self.coeff, jorb)", "def jacobian(self,x,p,fun):\n n = self.n\n y = fun(x,p)\n h = 1e-4\n nout = np.size(y)\n dfdx = np.zeros((nout,n))\n for j in range(n):\n dx1 = np.zeros(n)\n dx2 = np.zeros(n)\n dx1[j] = -h\n dx2[j] = h\n dfdx[:,j] = (fun(x+dx2,p)-fun(x+dx1,p))/(2*h)\n return dfdx", "def convertJacobiToBeta(self,x):\n u = 0.5*(self.high+self.low)\n s = 0.5*(self.high-self.low)\n return s*x+u" ]

[ "0.82033354", "0.71269727", "0.7088522", "0.68031126", "0.6562762", "0.6327721", "0.60714597", "0.59942406", "0.598099", "0.58185506", "0.574082", "0.57030433", "0.5677139", "0.5506523", "0.54937816", "0.54763764", "0.5469289", "0.5458193", "0.54362065", "0.53959686", "0.537968", "0.5361383", "0.52940035", "0.5268737", "0.5258139", "0.5249675", "0.5249674", "0.5191708", "0.5177671", "0.5171167" ]

[ "def getbarsslice(self,whichsol_,first_,last_,slicesize_,barsslice_):\n _barsslice_minlength = (slicesize_)\n if (slicesize_) > 0 and barsslice_ is not None and len(barsslice_) != (slicesize_):\n raise ValueError(\"Array argument barsslice is not long enough: Is %d, expected %d\" % (len(barsslice_),(slicesize_)))\n if isinstance(barsslice_,numpy.ndarray) and not barsslice_.flags.writeable:\n raise ValueError(\"Argument barsslice must be writable\")\n if barsslice_ is None:\n raise ValueError(\"Argument barsslice may not be None\")\n if isinstance(barsslice_, numpy.ndarray) and barsslice_.dtype is numpy.dtype(numpy.float64) and barsslice_.flags.contiguous:\n _barsslice_copyarray = False\n _barsslice_tmp = ctypes.cast(barsslice_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif barsslice_ is not None:\n _barsslice_copyarray = True\n _barsslice_np_tmp = numpy.zeros(len(barsslice_),numpy.dtype(numpy.float64))\n _barsslice_np_tmp[:] = barsslice_\n assert _barsslice_np_tmp.flags.contiguous\n _barsslice_tmp = ctypes.cast(_barsslice_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _barsslice_copyarray = False\n _barsslice_tmp = None\n \n res = __library__.MSK_XX_getbarsslice(self.__nativep,whichsol_,first_,last_,slicesize_,_barsslice_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _barsslice_copyarray:\n barsslice_[:] = _barsslice_np_tmp", "def getxxslice(self,whichsol_,first_,last_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_xx = False\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n _copyback_xx = True\n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n _copyback_xx = True\n if xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.getxxslice(whichsol_,first_,last_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xx:\n xx[:] = _tmparr_xx", "def getxxslice(self,whichsol_,first_,last_,xx_):\n _xx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),((last_) - (first_))))\n if isinstance(xx_,numpy.ndarray) and not xx_.flags.writeable:\n raise ValueError(\"Argument xx must be writable\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n res = __library__.MSK_XX_getxxslice(self.__nativep,whichsol_,first_,last_,_xx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _xx_copyarray:\n xx_[:] = _xx_np_tmp", "def getskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.getskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skx:\n for __tmp_var_0 in range(len(skx_)): skx[__tmp_var_0] = stakey(_tmparr_skx[__tmp_var_0])", "def getsnxslice(self,whichsol_,first_,last_,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_snx = False\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n _copyback_snx = True\n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n _copyback_snx = True\n if snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx has wrong length\")\n res = self.__obj.getsnxslice(whichsol_,first_,last_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_snx:\n snx[:] = _tmparr_snx", "def getslxslice(self,whichsol_,first_,last_,slx_):\n _slx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),((last_) - (first_))))\n if isinstance(slx_,numpy.ndarray) and not slx_.flags.writeable:\n raise ValueError(\"Argument slx must be writable\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_getslxslice(self.__nativep,whichsol_,first_,last_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slx_copyarray:\n slx_[:] = _slx_np_tmp", "def getsnxslice(self,whichsol_,first_,last_,snx_):\n _snx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),((last_) - (first_))))\n if isinstance(snx_,numpy.ndarray) and not snx_.flags.writeable:\n raise ValueError(\"Argument snx must be writable\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_getsnxslice(self.__nativep,whichsol_,first_,last_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _snx_copyarray:\n snx_[:] = _snx_np_tmp", "def getslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.getslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slx:\n slx[:] = _tmparr_slx", "def getskxslice(self,whichsol_,first_,last_,skx_):\n _skx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),((last_) - (first_))))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_getskxslice(self.__nativep,whichsol_,first_,last_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]", "def getxcslice(self,whichsol_,first_,last_,xc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_xc = False\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n _copyback_xc = True\n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n _copyback_xc = True\n if xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc has wrong length\")\n res = self.__obj.getxcslice(whichsol_,first_,last_,xc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xc:\n xc[:] = _tmparr_xc", "def getxcslice(self,whichsol_,first_,last_,xc_):\n _xc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),((last_) - (first_))))\n if isinstance(xc_,numpy.ndarray) and not xc_.flags.writeable:\n raise ValueError(\"Argument xc must be writable\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n res = __library__.MSK_XX_getxcslice(self.__nativep,whichsol_,first_,last_,_xc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _xc_copyarray:\n xc_[:] = _xc_np_tmp", "def getsuxslice(self,whichsol_,first_,last_,sux_):\n _sux_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),((last_) - (first_))))\n if isinstance(sux_,numpy.ndarray) and not sux_.flags.writeable:\n raise ValueError(\"Argument sux must be writable\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_getsuxslice(self.__nativep,whichsol_,first_,last_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _sux_copyarray:\n sux_[:] = _sux_np_tmp", "def getsuxslice(self,whichsol_,first_,last_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_sux = False\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n _copyback_sux = True\n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n _copyback_sux = True\n if sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.getsuxslice(whichsol_,first_,last_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_sux:\n sux[:] = _tmparr_sux", "def getyslice(self,whichsol_,first_,last_,y): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_y = False\n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n _copyback_y = True\n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n _copyback_y = True\n if y_ is not None and len(y_) != ((last_) - (first_)):\n raise ValueError(\"Array argument y has wrong length\")\n res = self.__obj.getyslice(whichsol_,first_,last_,y_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_y:\n y[:] = _tmparr_y", "def getyslice(self,whichsol_,first_,last_,y_):\n _y_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and y_ is not None and len(y_) != ((last_) - (first_)):\n raise ValueError(\"Array argument y is not long enough: Is %d, expected %d\" % (len(y_),((last_) - (first_))))\n if isinstance(y_,numpy.ndarray) and not y_.flags.writeable:\n raise ValueError(\"Argument y must be writable\")\n if isinstance(y_, numpy.ndarray) and y_.dtype is numpy.dtype(numpy.float64) and y_.flags.contiguous:\n _y_copyarray = False\n _y_tmp = ctypes.cast(y_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif y_ is not None:\n _y_copyarray = True\n _y_np_tmp = numpy.zeros(len(y_),numpy.dtype(numpy.float64))\n _y_np_tmp[:] = y_\n assert _y_np_tmp.flags.contiguous\n _y_tmp = ctypes.cast(_y_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _y_copyarray = False\n _y_tmp = None\n \n res = __library__.MSK_XX_getyslice(self.__nativep,whichsol_,first_,last_,_y_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _y_copyarray:\n y_[:] = _y_np_tmp", "def getsolutionslice(self,whichsol_,solitem_,first_,last_,values): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if not isinstance(solitem_,solitem): raise TypeError(\"Argument solitem has wrong type\")\n _copyback_values = False\n if values is None:\n values_ = None\n else:\n try:\n values_ = memoryview(values)\n except TypeError:\n try:\n _tmparr_values = array.array(\"d\",values)\n except TypeError:\n raise TypeError(\"Argument values has wrong type\")\n else:\n values_ = memoryview(_tmparr_values)\n _copyback_values = True\n else:\n if values_.format != \"d\":\n values_ = memoryview(array.array(\"d\",values))\n _copyback_values = True\n if values_ is not None and len(values_) != ((last_) - (first_)):\n raise ValueError(\"Array argument values has wrong length\")\n res = self.__obj.getsolutionslice(whichsol_,solitem_,first_,last_,values_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_values:\n values[:] = _tmparr_values", "def getsolutionslice(self,whichsol_,solitem_,first_,last_,values_):\n _values_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and values_ is not None and len(values_) != ((last_) - (first_)):\n raise ValueError(\"Array argument values is not long enough: Is %d, expected %d\" % (len(values_),((last_) - (first_))))\n if isinstance(values_,numpy.ndarray) and not values_.flags.writeable:\n raise ValueError(\"Argument values must be writable\")\n if isinstance(values_, numpy.ndarray) and values_.dtype is numpy.dtype(numpy.float64) and values_.flags.contiguous:\n _values_copyarray = False\n _values_tmp = ctypes.cast(values_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif values_ is not None:\n _values_copyarray = True\n _values_np_tmp = numpy.zeros(len(values_),numpy.dtype(numpy.float64))\n _values_np_tmp[:] = values_\n assert _values_np_tmp.flags.contiguous\n _values_tmp = ctypes.cast(_values_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _values_copyarray = False\n _values_tmp = None\n \n res = __library__.MSK_XX_getsolutionslice(self.__nativep,whichsol_,solitem_,first_,last_,_values_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _values_copyarray:\n values_[:] = _values_np_tmp", "def putskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skx is None: raise TypeError(\"Invalid type for argument skx\")\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.putskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslxslice(self,whichsol_,first_,last_,slx_):\n _slx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),((last_) - (first_))))\n if slx_ is None:\n raise ValueError(\"Argument slx cannot be None\")\n if slx_ is None:\n raise ValueError(\"Argument slx may not be None\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_putslxslice(self.__nativep,whichsol_,first_,last_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarboundslice(self,first_,last_,bkx_,blx_,bux_):\n _bkx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and bkx_ is not None and len(bkx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bkx is not long enough: Is %d, expected %d\" % (len(bkx_),((last_) - (first_))))\n if bkx_ is None:\n raise ValueError(\"Argument bkx cannot be None\")\n if bkx_ is None:\n raise ValueError(\"Argument bkx may not be None\")\n if bkx_ is not None:\n _bkx_tmp = (ctypes.c_int32 * len(bkx_))(*bkx_)\n else:\n _bkx_tmp = None\n _blx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and blx_ is not None and len(blx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument blx is not long enough: Is %d, expected %d\" % (len(blx_),((last_) - (first_))))\n if blx_ is None:\n raise ValueError(\"Argument blx cannot be None\")\n if blx_ is None:\n raise ValueError(\"Argument blx may not be None\")\n if isinstance(blx_, numpy.ndarray) and blx_.dtype is numpy.dtype(numpy.float64) and blx_.flags.contiguous:\n _blx_copyarray = False\n _blx_tmp = ctypes.cast(blx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif blx_ is not None:\n _blx_copyarray = True\n _blx_np_tmp = numpy.zeros(len(blx_),numpy.dtype(numpy.float64))\n _blx_np_tmp[:] = blx_\n assert _blx_np_tmp.flags.contiguous\n _blx_tmp = ctypes.cast(_blx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _blx_copyarray = False\n _blx_tmp = None\n \n _bux_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and bux_ is not None and len(bux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bux is not long enough: Is %d, expected %d\" % (len(bux_),((last_) - (first_))))\n if bux_ is None:\n raise ValueError(\"Argument bux cannot be None\")\n if bux_ is None:\n raise ValueError(\"Argument bux may not be None\")\n if isinstance(bux_, numpy.ndarray) and bux_.dtype is numpy.dtype(numpy.float64) and bux_.flags.contiguous:\n _bux_copyarray = False\n _bux_tmp = ctypes.cast(bux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif bux_ is not None:\n _bux_copyarray = True\n _bux_np_tmp = numpy.zeros(len(bux_),numpy.dtype(numpy.float64))\n _bux_np_tmp[:] = bux_\n assert _bux_np_tmp.flags.contiguous\n _bux_tmp = ctypes.cast(_bux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _bux_copyarray = False\n _bux_tmp = None\n \n res = __library__.MSK_XX_putvarboundslice(self.__nativep,first_,last_,_bkx_tmp,_blx_tmp,_bux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskxslice(self,whichsol_,first_,last_,skx_):\n _skx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),((last_) - (first_))))\n if skx_ is None:\n raise ValueError(\"Argument skx cannot be None\")\n if skx_ is None:\n raise ValueError(\"Argument skx may not be None\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))(*skx_)\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_putskxslice(self.__nativep,whichsol_,first_,last_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsnxslice(self,whichsol_,first_,last_,snx_):\n _snx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),((last_) - (first_))))\n if snx_ is None:\n raise ValueError(\"Argument snx cannot be None\")\n if snx_ is None:\n raise ValueError(\"Argument snx may not be None\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_putsnxslice(self.__nativep,whichsol_,first_,last_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putxxslice(self,whichsol_,first_,last_,xx_):\n _xx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),((last_) - (first_))))\n if xx_ is None:\n raise ValueError(\"Argument xx cannot be None\")\n if xx_ is None:\n raise ValueError(\"Argument xx may not be None\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n res = __library__.MSK_XX_putxxslice(self.__nativep,whichsol_,first_,last_,_xx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.putslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsuxslice(self,whichsol_,first_,last_,sux_):\n _sux_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),((last_) - (first_))))\n if sux_ is None:\n raise ValueError(\"Argument sux cannot be None\")\n if sux_ is None:\n raise ValueError(\"Argument sux may not be None\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_putsuxslice(self.__nativep,whichsol_,first_,last_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getslcslice(self,whichsol_,first_,last_,slc_):\n _slc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),((last_) - (first_))))\n if isinstance(slc_,numpy.ndarray) and not slc_.flags.writeable:\n raise ValueError(\"Argument slc must be writable\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_getslcslice(self.__nativep,whichsol_,first_,last_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slc_copyarray:\n slc_[:] = _slc_np_tmp", "def putxcslice(self,whichsol_,first_,last_,xc_):\n _xc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),((last_) - (first_))))\n if xc_ is None:\n raise ValueError(\"Argument xc cannot be None\")\n if xc_ is None:\n raise ValueError(\"Argument xc may not be None\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n res = __library__.MSK_XX_putxcslice(self.__nativep,whichsol_,first_,last_,_xc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getvarboundslice(self,first_,last_,bk,bl,bu): # 3\n _copyback_bk = False\n if bk is None:\n bk_ = None\n else:\n try:\n bk_ = memoryview(bk)\n except TypeError:\n try:\n _tmparr_bk = array.array(\"i\",bk)\n except TypeError:\n raise TypeError(\"Argument bk has wrong type\")\n else:\n bk_ = memoryview(_tmparr_bk)\n _copyback_bk = True\n else:\n if bk_.format != \"i\":\n bk_ = memoryview(array.array(\"i\",bk))\n _copyback_bk = True\n if bk_ is not None and len(bk_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bk has wrong length\")\n _copyback_bl = False\n if bl is None:\n bl_ = None\n else:\n try:\n bl_ = memoryview(bl)\n except TypeError:\n try:\n _tmparr_bl = array.array(\"d\",bl)\n except TypeError:\n raise TypeError(\"Argument bl has wrong type\")\n else:\n bl_ = memoryview(_tmparr_bl)\n _copyback_bl = True\n else:\n if bl_.format != \"d\":\n bl_ = memoryview(array.array(\"d\",bl))\n _copyback_bl = True\n if bl_ is not None and len(bl_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bl has wrong length\")\n _copyback_bu = False\n if bu is None:\n bu_ = None\n else:\n try:\n bu_ = memoryview(bu)\n except TypeError:\n try:\n _tmparr_bu = array.array(\"d\",bu)\n except TypeError:\n raise TypeError(\"Argument bu has wrong type\")\n else:\n bu_ = memoryview(_tmparr_bu)\n _copyback_bu = True\n else:\n if bu_.format != \"d\":\n bu_ = memoryview(array.array(\"d\",bu))\n _copyback_bu = True\n if bu_ is not None and len(bu_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bu has wrong length\")\n res = self.__obj.getvarboundslice(first_,last_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_bu:\n bu[:] = _tmparr_bu\n if _copyback_bl:\n bl[:] = _tmparr_bl\n if _copyback_bk:\n for __tmp_var_0 in range(len(bk_)): bk[__tmp_var_0] = boundkey(_tmparr_bk[__tmp_var_0])", "def getsucslice(self,whichsol_,first_,last_,suc_):\n _suc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc is not long enough: Is %d, expected %d\" % (len(suc_),((last_) - (first_))))\n if isinstance(suc_,numpy.ndarray) and not suc_.flags.writeable:\n raise ValueError(\"Argument suc must be writable\")\n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n res = __library__.MSK_XX_getsucslice(self.__nativep,whichsol_,first_,last_,_suc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _suc_copyarray:\n suc_[:] = _suc_np_tmp", "def putxxslice(self,whichsol_,first_,last_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xx is None: raise TypeError(\"Invalid type for argument xx\")\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n \n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n \n if xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.putxxslice(whichsol_,first_,last_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)" ]

[ "0.76928705", "0.68258524", "0.67441994", "0.6467298", "0.6394459", "0.63933396", "0.6392134", "0.63878", "0.6382027", "0.6362911", "0.6301443", "0.61612517", "0.6064058", "0.6002551", "0.5984842", "0.5983203", "0.5943346", "0.56366396", "0.55773145", "0.551098", "0.5506308", "0.549317", "0.5461797", "0.54510874", "0.5448807", "0.5400281", "0.5394439", "0.5377479", "0.5372426", "0.53580534" ]

[ "def getbarsj(self,whichsol_,j_,barsj): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if barsj is None: raise TypeError(\"Invalid type for argument barsj\")\n _copyback_barsj = False\n if barsj is None:\n barsj_ = None\n else:\n try:\n barsj_ = memoryview(barsj)\n except TypeError:\n try:\n _tmparr_barsj = array.array(\"d\",barsj)\n except TypeError:\n raise TypeError(\"Argument barsj has wrong type\")\n else:\n barsj_ = memoryview(_tmparr_barsj)\n _copyback_barsj = True\n else:\n if barsj_.format != \"d\":\n barsj_ = memoryview(array.array(\"d\",barsj))\n _copyback_barsj = True\n if barsj_ is not None and len(barsj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barsj has wrong length\")\n res = self.__obj.getbarsj(whichsol_,j_,barsj_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_barsj:\n barsj[:] = _tmparr_barsj", "def getbarxj(self,whichsol_,j_,barxj): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if barxj is None: raise TypeError(\"Invalid type for argument barxj\")\n _copyback_barxj = False\n if barxj is None:\n barxj_ = None\n else:\n try:\n barxj_ = memoryview(barxj)\n except TypeError:\n try:\n _tmparr_barxj = array.array(\"d\",barxj)\n except TypeError:\n raise TypeError(\"Argument barxj has wrong type\")\n else:\n barxj_ = memoryview(_tmparr_barxj)\n _copyback_barxj = True\n else:\n if barxj_.format != \"d\":\n barxj_ = memoryview(array.array(\"d\",barxj))\n _copyback_barxj = True\n if barxj_ is not None and len(barxj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barxj has wrong length\")\n res = self.__obj.getbarxj(whichsol_,j_,barxj_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_barxj:\n barxj[:] = _tmparr_barxj", "def getbarxj(self,whichsol_,j_,barxj_):\n _barxj_minlength = self.getlenbarvarj((j_))\n if self.getlenbarvarj((j_)) > 0 and barxj_ is not None and len(barxj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barxj is not long enough: Is %d, expected %d\" % (len(barxj_),self.getlenbarvarj((j_))))\n if isinstance(barxj_,numpy.ndarray) and not barxj_.flags.writeable:\n raise ValueError(\"Argument barxj must be writable\")\n if barxj_ is None:\n raise ValueError(\"Argument barxj may not be None\")\n if isinstance(barxj_, numpy.ndarray) and barxj_.dtype is numpy.dtype(numpy.float64) and barxj_.flags.contiguous:\n _barxj_copyarray = False\n _barxj_tmp = ctypes.cast(barxj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif barxj_ is not None:\n _barxj_copyarray = True\n _barxj_np_tmp = numpy.zeros(len(barxj_),numpy.dtype(numpy.float64))\n _barxj_np_tmp[:] = barxj_\n assert _barxj_np_tmp.flags.contiguous\n _barxj_tmp = ctypes.cast(_barxj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _barxj_copyarray = False\n _barxj_tmp = None\n \n res = __library__.MSK_XX_getbarxj(self.__nativep,whichsol_,j_,_barxj_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _barxj_copyarray:\n barxj_[:] = _barxj_np_tmp", "def putbarsj(self,whichsol_,j_,barsj_):\n _barsj_minlength = self.getlenbarvarj((j_))\n if self.getlenbarvarj((j_)) > 0 and barsj_ is not None and len(barsj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barsj is not long enough: Is %d, expected %d\" % (len(barsj_),self.getlenbarvarj((j_))))\n if barsj_ is None:\n raise ValueError(\"Argument barsj cannot be None\")\n if barsj_ is None:\n raise ValueError(\"Argument barsj may not be None\")\n if isinstance(barsj_, numpy.ndarray) and barsj_.dtype is numpy.dtype(numpy.float64) and barsj_.flags.contiguous:\n _barsj_copyarray = False\n _barsj_tmp = ctypes.cast(barsj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif barsj_ is not None:\n _barsj_copyarray = True\n _barsj_np_tmp = numpy.zeros(len(barsj_),numpy.dtype(numpy.float64))\n _barsj_np_tmp[:] = barsj_\n assert _barsj_np_tmp.flags.contiguous\n _barsj_tmp = ctypes.cast(_barsj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _barsj_copyarray = False\n _barsj_tmp = None\n \n res = __library__.MSK_XX_putbarsj(self.__nativep,whichsol_,j_,_barsj_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbarsj(self,whichsol_,j_,barsj): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if barsj is None: raise TypeError(\"Invalid type for argument barsj\")\n if barsj is None:\n barsj_ = None\n else:\n try:\n barsj_ = memoryview(barsj)\n except TypeError:\n try:\n _tmparr_barsj = array.array(\"d\",barsj)\n except TypeError:\n raise TypeError(\"Argument barsj has wrong type\")\n else:\n barsj_ = memoryview(_tmparr_barsj)\n \n else:\n if barsj_.format != \"d\":\n barsj_ = memoryview(array.array(\"d\",barsj))\n \n if barsj_ is not None and len(barsj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barsj has wrong length\")\n res = self.__obj.putbarsj(whichsol_,j_,barsj_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getdimbarvarj(self,j_): # 3\n res,resargs = self.__obj.getdimbarvarj(j_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _dimbarvarj_return_value = resargs\n return _dimbarvarj_return_value", "def putbarxj(self,whichsol_,j_,barxj_):\n _barxj_minlength = self.getlenbarvarj((j_))\n if self.getlenbarvarj((j_)) > 0 and barxj_ is not None and len(barxj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barxj is not long enough: Is %d, expected %d\" % (len(barxj_),self.getlenbarvarj((j_))))\n if barxj_ is None:\n raise ValueError(\"Argument barxj cannot be None\")\n if barxj_ is None:\n raise ValueError(\"Argument barxj may not be None\")\n if isinstance(barxj_, numpy.ndarray) and barxj_.dtype is numpy.dtype(numpy.float64) and barxj_.flags.contiguous:\n _barxj_copyarray = False\n _barxj_tmp = ctypes.cast(barxj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif barxj_ is not None:\n _barxj_copyarray = True\n _barxj_np_tmp = numpy.zeros(len(barxj_),numpy.dtype(numpy.float64))\n _barxj_np_tmp[:] = barxj_\n assert _barxj_np_tmp.flags.contiguous\n _barxj_tmp = ctypes.cast(_barxj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _barxj_copyarray = False\n _barxj_tmp = None\n \n res = __library__.MSK_XX_putbarxj(self.__nativep,whichsol_,j_,_barxj_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbarxj(self,whichsol_,j_,barxj): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if barxj is None: raise TypeError(\"Invalid type for argument barxj\")\n if barxj is None:\n barxj_ = None\n else:\n try:\n barxj_ = memoryview(barxj)\n except TypeError:\n try:\n _tmparr_barxj = array.array(\"d\",barxj)\n except TypeError:\n raise TypeError(\"Argument barxj has wrong type\")\n else:\n barxj_ = memoryview(_tmparr_barxj)\n \n else:\n if barxj_.format != \"d\":\n barxj_ = memoryview(array.array(\"d\",barxj))\n \n if barxj_ is not None and len(barxj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barxj has wrong length\")\n res = self.__obj.putbarxj(whichsol_,j_,barxj_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarsolutionj(self,j_,whichsol_,sk_,x_,sl_,su_,sn_):\n res = __library__.MSK_XX_putvarsolutionj(self.__nativep,j_,whichsol_,sk_,x_,sl_,su_,sn_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getbarcsparsity(self,idxj): # 3\n maxnumnz_ = self.getnumbarcnz()\n if idxj is None: raise TypeError(\"Invalid type for argument idxj\")\n _copyback_idxj = False\n if idxj is None:\n idxj_ = None\n else:\n try:\n idxj_ = memoryview(idxj)\n except TypeError:\n try:\n _tmparr_idxj = array.array(\"q\",idxj)\n except TypeError:\n raise TypeError(\"Argument idxj has wrong type\")\n else:\n idxj_ = memoryview(_tmparr_idxj)\n _copyback_idxj = True\n else:\n if idxj_.format != \"q\":\n idxj_ = memoryview(array.array(\"q\",idxj))\n _copyback_idxj = True\n if idxj_ is not None and len(idxj_) != (maxnumnz_):\n raise ValueError(\"Array argument idxj has wrong length\")\n res,resargs = self.__obj.getbarcsparsity(maxnumnz_,idxj_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _numnz_return_value = resargs\n if _copyback_idxj:\n idxj[:] = _tmparr_idxj\n return _numnz_return_value", "def gety(self,whichsol_,y): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if y is None: raise TypeError(\"Invalid type for argument y\")\n _copyback_y = False\n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n _copyback_y = True\n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n _copyback_y = True\n if y_ is not None and len(y_) != self.getnumcon():\n raise ValueError(\"Array argument y has wrong length\")\n res = self.__obj.gety(whichsol_,y_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_y:\n y[:] = _tmparr_y", "def getdimbarvarj(self,j_):\n dimbarvarj_ = ctypes.c_int32()\n res = __library__.MSK_XX_getdimbarvarj(self.__nativep,j_,ctypes.byref(dimbarvarj_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n dimbarvarj_ = dimbarvarj_.value\n _dimbarvarj_return_value = dimbarvarj_\n return (_dimbarvarj_return_value)", "def getbarcsparsity(self,idxj_):\n maxnumnz_ = self.getnumbarcnz()\n numnz_ = ctypes.c_int64()\n _idxj_minlength = (maxnumnz_)\n if (maxnumnz_) > 0 and idxj_ is not None and len(idxj_) != (maxnumnz_):\n raise ValueError(\"Array argument idxj is not long enough: Is %d, expected %d\" % (len(idxj_),(maxnumnz_)))\n if isinstance(idxj_,numpy.ndarray) and not idxj_.flags.writeable:\n raise ValueError(\"Argument idxj must be writable\")\n if idxj_ is None:\n raise ValueError(\"Argument idxj may not be None\")\n if isinstance(idxj_, numpy.ndarray) and idxj_.dtype is numpy.dtype(numpy.int64) and idxj_.flags.contiguous:\n _idxj_copyarray = False\n _idxj_tmp = ctypes.cast(idxj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif idxj_ is not None:\n _idxj_copyarray = True\n _idxj_np_tmp = numpy.zeros(len(idxj_),numpy.dtype(numpy.int64))\n _idxj_np_tmp[:] = idxj_\n assert _idxj_np_tmp.flags.contiguous\n _idxj_tmp = ctypes.cast(_idxj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _idxj_copyarray = False\n _idxj_tmp = None\n \n res = __library__.MSK_XX_getbarcsparsity(self.__nativep,maxnumnz_,ctypes.byref(numnz_),_idxj_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n numnz_ = numnz_.value\n _numnz_return_value = numnz_\n if _idxj_copyarray:\n idxj_[:] = _idxj_np_tmp\n return (_numnz_return_value)", "def bcdfo_find_new_yj_(QZ=None,RZ=None,Y=None,j=None,Delta=None,eps_L=None,xbase=None,lSolver=None,whichmodel=None,scale=None,shift_Y=None,*args,**kwargs):\n# varargin = cellarray(args)\n# nargin = 11-[QZ,RZ,Y,j,Delta,eps_L,xbase,lSolver,whichmodel,scale,shift_Y].count(None)+len(args)\n\n verbose=0 # 1 for debug\n n=size_(Y,1)\n ynew=zeros_(1,n)\n improvement=0\n msgTR=''\n if (verbose):\n disp_('--------- enter find_new_yj ')\n if (j < 1): # never attempt to replace the current iterate.\n return ynew,improvement,msgTR\n # Get the j-th Lagrange polynomial \n Lj=bcdfo_computeLj_(QZ,RZ,j,Y,whichmodel,scale,shift_Y)\n if (length_(find_(isnan(Lj))) != 0 or length_(find_(~ isreal(Lj))) != 0 or length_(find_(isinf(Lj))) != 0):\n msgTR='Error0: Lagrange polynomial contains NaN or Inf or nonreal components!!'\n if (verbose):\n disp_(msgTR)\n return ynew,improvement,msgTR\n# Maximize Lj in a larger 2-norm TR if using infty-norm in the local solver (CG)\n if (lSolver == 2):\n Delta=sqrt_(n) * Delta\n# Get the polynomial's gradient and Hessian at the current iterate.\n if (shift_Y):\n\n\n# When shifted, the origin in the scaled variables corresponds \n# to Y(:,0) in the unscaled space\n g=bcdfo_gradP_(Lj,zeros_(n,1),xbase,scale,0)\n H=bcdfo_hessP_(Lj,zeros_(n,1),xbase,scale,0)\n# Minimize this polynomial and its opposite.\n pstep,_lambda,norms,pvalue,gplus,nfact,neigd,msgTR,hardcase=bcdfo_solve_TR_MS_(g,H,Delta * scale[1],eps_L,nargout=9)\n pstep=pstep / scale[1]\n mstep,_lambda,norms,mvalue,gplus,nfact,neigd,msgTR,hardcase=bcdfo_solve_TR_MS_(- g,- H,Delta * scale[1],eps_L,nargout=9)\n mstep=mstep / scale[1]\n else:\n# When no shift occurs, the current iterate is Y(:,1)\n g=bcdfo_gradP_(Lj,Y[:,[0]],xbase,scale,0)\n H=bcdfo_hessP_(Lj,Y[:,[0]],xbase,scale,0)\n# Minimize this polynomial and its opposite.\n pstep,_lambda,norms,pvalue,gplus,nfact,neigd,msgTR,hardcase=bcdfo_solve_TR_MS_(g,H,Delta,eps_L,nargout=9)\n mstep,_lambda,norms,mvalue,gplus,nfact,neigd,msgTR,hardcase=bcdfo_solve_TR_MS_(- g,- H,Delta,eps_L,nargout=9)\n if (verbose):\n disp_(' === find_new_yj: j = ',str(j),' positive value = ',str(pvalue),' step:')\n pstep.T\n disp_(' === find_new_yj: j = ',str(j),' negative value = ',str(mvalue),' step:')\n mstep.T\n# Select the maximum in absolute value.\n if (mvalue < pvalue):\n improvement=abs(mvalue)\n ynew=Y[:,0].reshape(-1,1) + mstep\n else:\n improvement=abs(pvalue)\n ynew=Y[:,0].reshape(-1,1) + pstep\n if (verbose):\n disp_('--------- exit find_new_yj ')\n return ynew,improvement,msgTR", "def gety(self,whichsol_,y_):\n _y_minlength = self.getnumcon()\n if self.getnumcon() > 0 and y_ is not None and len(y_) != self.getnumcon():\n raise ValueError(\"Array argument y is not long enough: Is %d, expected %d\" % (len(y_),self.getnumcon()))\n if isinstance(y_,numpy.ndarray) and not y_.flags.writeable:\n raise ValueError(\"Argument y must be writable\")\n if y_ is None:\n raise ValueError(\"Argument y may not be None\")\n if isinstance(y_, numpy.ndarray) and y_.dtype is numpy.dtype(numpy.float64) and y_.flags.contiguous:\n _y_copyarray = False\n _y_tmp = ctypes.cast(y_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif y_ is not None:\n _y_copyarray = True\n _y_np_tmp = numpy.zeros(len(y_),numpy.dtype(numpy.float64))\n _y_np_tmp[:] = y_\n assert _y_np_tmp.flags.contiguous\n _y_tmp = ctypes.cast(_y_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _y_copyarray = False\n _y_tmp = None\n \n res = __library__.MSK_XX_gety(self.__nativep,whichsol_,_y_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _y_copyarray:\n y_[:] = _y_np_tmp", "def getlenbarvarj(self,j_): # 3\n res,resargs = self.__obj.getlenbarvarj(j_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _lenbarvarj_return_value = resargs\n return _lenbarvarj_return_value", "def getpviolbarvar(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getpviolbarvar(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getpviolbarvar(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getpviolbarvar(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getdviolbarvar(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getdviolbarvar(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getsolutioninfo(self,whichsol_):\n pobj_ = ctypes.c_double()\n pviolcon_ = ctypes.c_double()\n pviolvar_ = ctypes.c_double()\n pviolbarvar_ = ctypes.c_double()\n pviolcone_ = ctypes.c_double()\n pviolitg_ = ctypes.c_double()\n dobj_ = ctypes.c_double()\n dviolcon_ = ctypes.c_double()\n dviolvar_ = ctypes.c_double()\n dviolbarvar_ = ctypes.c_double()\n dviolcone_ = ctypes.c_double()\n res = __library__.MSK_XX_getsolutioninfo(self.__nativep,whichsol_,ctypes.byref(pobj_),ctypes.byref(pviolcon_),ctypes.byref(pviolvar_),ctypes.byref(pviolbarvar_),ctypes.byref(pviolcone_),ctypes.byref(pviolitg_),ctypes.byref(dobj_),ctypes.byref(dviolcon_),ctypes.byref(dviolvar_),ctypes.byref(dviolbarvar_),ctypes.byref(dviolcone_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n pobj_ = pobj_.value\n _pobj_return_value = pobj_\n pviolcon_ = pviolcon_.value\n _pviolcon_return_value = pviolcon_\n pviolvar_ = pviolvar_.value\n _pviolvar_return_value = pviolvar_\n pviolbarvar_ = pviolbarvar_.value\n _pviolbarvar_return_value = pviolbarvar_\n pviolcone_ = pviolcone_.value\n _pviolcone_return_value = pviolcone_\n pviolitg_ = pviolitg_.value\n _pviolitg_return_value = pviolitg_\n dobj_ = dobj_.value\n _dobj_return_value = dobj_\n dviolcon_ = dviolcon_.value\n _dviolcon_return_value = dviolcon_\n dviolvar_ = dviolvar_.value\n _dviolvar_return_value = dviolvar_\n dviolbarvar_ = dviolbarvar_.value\n _dviolbarvar_return_value = dviolbarvar_\n dviolcone_ = dviolcone_.value\n _dviolcone_return_value = dviolcone_\n return (_pobj_return_value,_pviolcon_return_value,_pviolvar_return_value,_pviolbarvar_return_value,_pviolcone_return_value,_pviolitg_return_value,_dobj_return_value,_dviolcon_return_value,_dviolvar_return_value,_dviolbarvar_return_value,_dviolcone_return_value)", "def getdviolbarvar(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getdviolbarvar(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def solve(self) -> jnp.ndarray:\n pass", "def getbarcidxj(self,idx_): # 3\n res,resargs = self.__obj.getbarcidxj(idx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _j_return_value = resargs\n return _j_return_value", "def putsolutionyi(self,i_,whichsol_,y_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res = self.__obj.putsolutionyi(i_,whichsol_,y_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def get_sol(self):", "def calculate_dvec_spin_fixed_j(self, jorb: int) -> 'Nparray':\n return self._calculate_dvec_spin_with_coeff_fixed_j(self.coeff, jorb)", "def getdualobj(self,whichsol_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res,resargs = self.__obj.getdualobj(whichsol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _dualobj_return_value = resargs\n return _dualobj_return_value", "def jval(self):\n return self.q * self.model.nobs_moms", "def calculate_dvec_spatial_fixed_j(self, jorb: int) -> 'Nparray':\n return self._calculate_dvec_spatial_with_coeff_fixed_j(self.coeff, jorb)", "def getsolutioninfo(self,whichsol_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res,resargs = self.__obj.getsolutioninfo(whichsol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _pobj_return_value,_pviolcon_return_value,_pviolvar_return_value,_pviolbarvar_return_value,_pviolcone_return_value,_pviolitg_return_value,_dobj_return_value,_dviolcon_return_value,_dviolvar_return_value,_dviolbarvar_return_value,_dviolcone_return_value = resargs\n return _pobj_return_value,_pviolcon_return_value,_pviolvar_return_value,_pviolbarvar_return_value,_pviolcone_return_value,_pviolitg_return_value,_dobj_return_value,_dviolcon_return_value,_dviolvar_return_value,_dviolbarvar_return_value,_dviolcone_return_value" ]

[ "0.804135", "0.75712997", "0.72715867", "0.6584214", "0.63612056", "0.63318235", "0.61129135", "0.60666585", "0.5890371", "0.5724693", "0.5684808", "0.56649065", "0.5632536", "0.56063956", "0.5574671", "0.5565123", "0.554438", "0.5483289", "0.5437219", "0.5434716", "0.5426452", "0.54046303", "0.53568995", "0.53450036", "0.5292557", "0.5262449", "0.5223294", "0.5220732", "0.52161044", "0.5200399" ]

[ "def getbarxslice(self,whichsol_,first_,last_,slicesize_,barxslice_):\n _barxslice_minlength = (slicesize_)\n if (slicesize_) > 0 and barxslice_ is not None and len(barxslice_) != (slicesize_):\n raise ValueError(\"Array argument barxslice is not long enough: Is %d, expected %d\" % (len(barxslice_),(slicesize_)))\n if isinstance(barxslice_,numpy.ndarray) and not barxslice_.flags.writeable:\n raise ValueError(\"Argument barxslice must be writable\")\n if barxslice_ is None:\n raise ValueError(\"Argument barxslice may not be None\")\n if isinstance(barxslice_, numpy.ndarray) and barxslice_.dtype is numpy.dtype(numpy.float64) and barxslice_.flags.contiguous:\n _barxslice_copyarray = False\n _barxslice_tmp = ctypes.cast(barxslice_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif barxslice_ is not None:\n _barxslice_copyarray = True\n _barxslice_np_tmp = numpy.zeros(len(barxslice_),numpy.dtype(numpy.float64))\n _barxslice_np_tmp[:] = barxslice_\n assert _barxslice_np_tmp.flags.contiguous\n _barxslice_tmp = ctypes.cast(_barxslice_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _barxslice_copyarray = False\n _barxslice_tmp = None\n \n res = __library__.MSK_XX_getbarxslice(self.__nativep,whichsol_,first_,last_,slicesize_,_barxslice_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _barxslice_copyarray:\n barxslice_[:] = _barxslice_np_tmp", "def getyslice(self,whichsol_,first_,last_,y): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_y = False\n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n _copyback_y = True\n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n _copyback_y = True\n if y_ is not None and len(y_) != ((last_) - (first_)):\n raise ValueError(\"Array argument y has wrong length\")\n res = self.__obj.getyslice(whichsol_,first_,last_,y_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_y:\n y[:] = _tmparr_y", "def getxxslice(self,whichsol_,first_,last_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_xx = False\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n _copyback_xx = True\n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n _copyback_xx = True\n if xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.getxxslice(whichsol_,first_,last_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xx:\n xx[:] = _tmparr_xx", "def getsolutionslice(self,whichsol_,solitem_,first_,last_,values): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if not isinstance(solitem_,solitem): raise TypeError(\"Argument solitem has wrong type\")\n _copyback_values = False\n if values is None:\n values_ = None\n else:\n try:\n values_ = memoryview(values)\n except TypeError:\n try:\n _tmparr_values = array.array(\"d\",values)\n except TypeError:\n raise TypeError(\"Argument values has wrong type\")\n else:\n values_ = memoryview(_tmparr_values)\n _copyback_values = True\n else:\n if values_.format != \"d\":\n values_ = memoryview(array.array(\"d\",values))\n _copyback_values = True\n if values_ is not None and len(values_) != ((last_) - (first_)):\n raise ValueError(\"Array argument values has wrong length\")\n res = self.__obj.getsolutionslice(whichsol_,solitem_,first_,last_,values_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_values:\n values[:] = _tmparr_values", "def getyslice(self,whichsol_,first_,last_,y_):\n _y_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and y_ is not None and len(y_) != ((last_) - (first_)):\n raise ValueError(\"Array argument y is not long enough: Is %d, expected %d\" % (len(y_),((last_) - (first_))))\n if isinstance(y_,numpy.ndarray) and not y_.flags.writeable:\n raise ValueError(\"Argument y must be writable\")\n if isinstance(y_, numpy.ndarray) and y_.dtype is numpy.dtype(numpy.float64) and y_.flags.contiguous:\n _y_copyarray = False\n _y_tmp = ctypes.cast(y_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif y_ is not None:\n _y_copyarray = True\n _y_np_tmp = numpy.zeros(len(y_),numpy.dtype(numpy.float64))\n _y_np_tmp[:] = y_\n assert _y_np_tmp.flags.contiguous\n _y_tmp = ctypes.cast(_y_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _y_copyarray = False\n _y_tmp = None\n \n res = __library__.MSK_XX_getyslice(self.__nativep,whichsol_,first_,last_,_y_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _y_copyarray:\n y_[:] = _y_np_tmp", "def getsuxslice(self,whichsol_,first_,last_,sux_):\n _sux_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),((last_) - (first_))))\n if isinstance(sux_,numpy.ndarray) and not sux_.flags.writeable:\n raise ValueError(\"Argument sux must be writable\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_getsuxslice(self.__nativep,whichsol_,first_,last_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _sux_copyarray:\n sux_[:] = _sux_np_tmp", "def getsolutionslice(self,whichsol_,solitem_,first_,last_,values_):\n _values_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and values_ is not None and len(values_) != ((last_) - (first_)):\n raise ValueError(\"Array argument values is not long enough: Is %d, expected %d\" % (len(values_),((last_) - (first_))))\n if isinstance(values_,numpy.ndarray) and not values_.flags.writeable:\n raise ValueError(\"Argument values must be writable\")\n if isinstance(values_, numpy.ndarray) and values_.dtype is numpy.dtype(numpy.float64) and values_.flags.contiguous:\n _values_copyarray = False\n _values_tmp = ctypes.cast(values_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif values_ is not None:\n _values_copyarray = True\n _values_np_tmp = numpy.zeros(len(values_),numpy.dtype(numpy.float64))\n _values_np_tmp[:] = values_\n assert _values_np_tmp.flags.contiguous\n _values_tmp = ctypes.cast(_values_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _values_copyarray = False\n _values_tmp = None\n \n res = __library__.MSK_XX_getsolutionslice(self.__nativep,whichsol_,solitem_,first_,last_,_values_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _values_copyarray:\n values_[:] = _values_np_tmp", "def getxxslice(self,whichsol_,first_,last_,xx_):\n _xx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),((last_) - (first_))))\n if isinstance(xx_,numpy.ndarray) and not xx_.flags.writeable:\n raise ValueError(\"Argument xx must be writable\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n res = __library__.MSK_XX_getxxslice(self.__nativep,whichsol_,first_,last_,_xx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _xx_copyarray:\n xx_[:] = _xx_np_tmp", "def getsnxslice(self,whichsol_,first_,last_,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_snx = False\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n _copyback_snx = True\n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n _copyback_snx = True\n if snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx has wrong length\")\n res = self.__obj.getsnxslice(whichsol_,first_,last_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_snx:\n snx[:] = _tmparr_snx", "def getslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.getslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slx:\n slx[:] = _tmparr_slx", "def getsuxslice(self,whichsol_,first_,last_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_sux = False\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n _copyback_sux = True\n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n _copyback_sux = True\n if sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.getsuxslice(whichsol_,first_,last_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_sux:\n sux[:] = _tmparr_sux", "def getslxslice(self,whichsol_,first_,last_,slx_):\n _slx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),((last_) - (first_))))\n if isinstance(slx_,numpy.ndarray) and not slx_.flags.writeable:\n raise ValueError(\"Argument slx must be writable\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_getslxslice(self.__nativep,whichsol_,first_,last_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slx_copyarray:\n slx_[:] = _slx_np_tmp", "def getsnxslice(self,whichsol_,first_,last_,snx_):\n _snx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),((last_) - (first_))))\n if isinstance(snx_,numpy.ndarray) and not snx_.flags.writeable:\n raise ValueError(\"Argument snx must be writable\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_getsnxslice(self.__nativep,whichsol_,first_,last_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _snx_copyarray:\n snx_[:] = _snx_np_tmp", "def getskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.getskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skx:\n for __tmp_var_0 in range(len(skx_)): skx[__tmp_var_0] = stakey(_tmparr_skx[__tmp_var_0])", "def getslcslice(self,whichsol_,first_,last_,slc_):\n _slc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),((last_) - (first_))))\n if isinstance(slc_,numpy.ndarray) and not slc_.flags.writeable:\n raise ValueError(\"Argument slc must be writable\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_getslcslice(self.__nativep,whichsol_,first_,last_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slc_copyarray:\n slc_[:] = _slc_np_tmp", "def getslcslice(self,whichsol_,first_,last_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_slc = False\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n _copyback_slc = True\n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n _copyback_slc = True\n if slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.getslcslice(whichsol_,first_,last_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slc:\n slc[:] = _tmparr_slc", "def getskxslice(self,whichsol_,first_,last_,skx_):\n _skx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),((last_) - (first_))))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_getskxslice(self.__nativep,whichsol_,first_,last_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]", "def getvarboundslice(self,first_,last_,bk,bl,bu): # 3\n _copyback_bk = False\n if bk is None:\n bk_ = None\n else:\n try:\n bk_ = memoryview(bk)\n except TypeError:\n try:\n _tmparr_bk = array.array(\"i\",bk)\n except TypeError:\n raise TypeError(\"Argument bk has wrong type\")\n else:\n bk_ = memoryview(_tmparr_bk)\n _copyback_bk = True\n else:\n if bk_.format != \"i\":\n bk_ = memoryview(array.array(\"i\",bk))\n _copyback_bk = True\n if bk_ is not None and len(bk_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bk has wrong length\")\n _copyback_bl = False\n if bl is None:\n bl_ = None\n else:\n try:\n bl_ = memoryview(bl)\n except TypeError:\n try:\n _tmparr_bl = array.array(\"d\",bl)\n except TypeError:\n raise TypeError(\"Argument bl has wrong type\")\n else:\n bl_ = memoryview(_tmparr_bl)\n _copyback_bl = True\n else:\n if bl_.format != \"d\":\n bl_ = memoryview(array.array(\"d\",bl))\n _copyback_bl = True\n if bl_ is not None and len(bl_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bl has wrong length\")\n _copyback_bu = False\n if bu is None:\n bu_ = None\n else:\n try:\n bu_ = memoryview(bu)\n except TypeError:\n try:\n _tmparr_bu = array.array(\"d\",bu)\n except TypeError:\n raise TypeError(\"Argument bu has wrong type\")\n else:\n bu_ = memoryview(_tmparr_bu)\n _copyback_bu = True\n else:\n if bu_.format != \"d\":\n bu_ = memoryview(array.array(\"d\",bu))\n _copyback_bu = True\n if bu_ is not None and len(bu_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bu has wrong length\")\n res = self.__obj.getvarboundslice(first_,last_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_bu:\n bu[:] = _tmparr_bu\n if _copyback_bl:\n bl[:] = _tmparr_bl\n if _copyback_bk:\n for __tmp_var_0 in range(len(bk_)): bk[__tmp_var_0] = boundkey(_tmparr_bk[__tmp_var_0])", "def getxcslice(self,whichsol_,first_,last_,xc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_xc = False\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n _copyback_xc = True\n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n _copyback_xc = True\n if xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc has wrong length\")\n res = self.__obj.getxcslice(whichsol_,first_,last_,xc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xc:\n xc[:] = _tmparr_xc", "def getvarboundslice(self,first_,last_,bk_,bl_,bu_):\n _bk_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and bk_ is not None and len(bk_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bk is not long enough: Is %d, expected %d\" % (len(bk_),((last_) - (first_))))\n if isinstance(bk_,numpy.ndarray) and not bk_.flags.writeable:\n raise ValueError(\"Argument bk must be writable\")\n if bk_ is not None:\n _bk_tmp = (ctypes.c_int32 * len(bk_))()\n else:\n _bk_tmp = None\n _bl_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and bl_ is not None and len(bl_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bl is not long enough: Is %d, expected %d\" % (len(bl_),((last_) - (first_))))\n if isinstance(bl_,numpy.ndarray) and not bl_.flags.writeable:\n raise ValueError(\"Argument bl must be writable\")\n if isinstance(bl_, numpy.ndarray) and bl_.dtype is numpy.dtype(numpy.float64) and bl_.flags.contiguous:\n _bl_copyarray = False\n _bl_tmp = ctypes.cast(bl_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif bl_ is not None:\n _bl_copyarray = True\n _bl_np_tmp = numpy.zeros(len(bl_),numpy.dtype(numpy.float64))\n _bl_np_tmp[:] = bl_\n assert _bl_np_tmp.flags.contiguous\n _bl_tmp = ctypes.cast(_bl_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _bl_copyarray = False\n _bl_tmp = None\n \n _bu_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and bu_ is not None and len(bu_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bu is not long enough: Is %d, expected %d\" % (len(bu_),((last_) - (first_))))\n if isinstance(bu_,numpy.ndarray) and not bu_.flags.writeable:\n raise ValueError(\"Argument bu must be writable\")\n if isinstance(bu_, numpy.ndarray) and bu_.dtype is numpy.dtype(numpy.float64) and bu_.flags.contiguous:\n _bu_copyarray = False\n _bu_tmp = ctypes.cast(bu_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif bu_ is not None:\n _bu_copyarray = True\n _bu_np_tmp = numpy.zeros(len(bu_),numpy.dtype(numpy.float64))\n _bu_np_tmp[:] = bu_\n assert _bu_np_tmp.flags.contiguous\n _bu_tmp = ctypes.cast(_bu_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _bu_copyarray = False\n _bu_tmp = None\n \n res = __library__.MSK_XX_getvarboundslice(self.__nativep,first_,last_,_bk_tmp,_bl_tmp,_bu_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if bk_ is not None: bk_[:] = [ boundkey(v) for v in _bk_tmp[0:len(bk_)] ]\n if _bl_copyarray:\n bl_[:] = _bl_np_tmp\n if _bu_copyarray:\n bu_[:] = _bu_np_tmp", "def putyslice(self,whichsol_,first_,last_,y): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if y is None: raise TypeError(\"Invalid type for argument y\")\n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n \n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n \n if y_ is not None and len(y_) != ((last_) - (first_)):\n raise ValueError(\"Array argument y has wrong length\")\n res = self.__obj.putyslice(whichsol_,first_,last_,y_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getxcslice(self,whichsol_,first_,last_,xc_):\n _xc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),((last_) - (first_))))\n if isinstance(xc_,numpy.ndarray) and not xc_.flags.writeable:\n raise ValueError(\"Argument xc must be writable\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n res = __library__.MSK_XX_getxcslice(self.__nativep,whichsol_,first_,last_,_xc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _xc_copyarray:\n xc_[:] = _xc_np_tmp", "def getdviolbarvar(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getdviolbarvar(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def putsuxslice(self,whichsol_,first_,last_,sux_):\n _sux_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),((last_) - (first_))))\n if sux_ is None:\n raise ValueError(\"Argument sux cannot be None\")\n if sux_ is None:\n raise ValueError(\"Argument sux may not be None\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_putsuxslice(self.__nativep,whichsol_,first_,last_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getpviolbarvar(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getpviolbarvar(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def putyslice(self,whichsol_,first_,last_,y_):\n _y_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and y_ is not None and len(y_) != ((last_) - (first_)):\n raise ValueError(\"Array argument y is not long enough: Is %d, expected %d\" % (len(y_),((last_) - (first_))))\n if y_ is None:\n raise ValueError(\"Argument y cannot be None\")\n if y_ is None:\n raise ValueError(\"Argument y may not be None\")\n if isinstance(y_, numpy.ndarray) and y_.dtype is numpy.dtype(numpy.float64) and y_.flags.contiguous:\n _y_copyarray = False\n _y_tmp = ctypes.cast(y_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif y_ is not None:\n _y_copyarray = True\n _y_np_tmp = numpy.zeros(len(y_),numpy.dtype(numpy.float64))\n _y_np_tmp[:] = y_\n assert _y_np_tmp.flags.contiguous\n _y_tmp = ctypes.cast(_y_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _y_copyarray = False\n _y_tmp = None\n \n res = __library__.MSK_XX_putyslice(self.__nativep,whichsol_,first_,last_,_y_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getskcslice(self,whichsol_,first_,last_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skc = False\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n _copyback_skc = True\n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n _copyback_skc = True\n if skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.getskcslice(whichsol_,first_,last_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skc:\n for __tmp_var_0 in range(len(skc_)): skc[__tmp_var_0] = stakey(_tmparr_skc[__tmp_var_0])", "def getdviolbarvar(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getdviolbarvar(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def putsuxslice(self,whichsol_,first_,last_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if sux is None: raise TypeError(\"Invalid type for argument sux\")\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n \n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n \n if sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.putsuxslice(whichsol_,first_,last_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getpviolbarvar(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getpviolbarvar(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp" ]

[ "0.75498414", "0.65988266", "0.65485716", "0.65461665", "0.6464265", "0.63609415", "0.63457286", "0.63405234", "0.63358873", "0.6318637", "0.62870437", "0.6242509", "0.6240412", "0.6225648", "0.60300714", "0.5991972", "0.5906831", "0.5894355", "0.5840608", "0.56995076", "0.5692721", "0.56885606", "0.56839556", "0.56480706", "0.5642693", "0.56415975", "0.5591115", "0.55452996", "0.5522813", "0.5501048" ]

[ "def putskc(self,whichsol_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skc is None: raise TypeError(\"Invalid type for argument skc\")\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n \n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n \n if skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.putskc(whichsol_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getskc(self,whichsol_,skc_):\n _skc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),self.getnumcon()))\n if isinstance(skc_,numpy.ndarray) and not skc_.flags.writeable:\n raise ValueError(\"Argument skc must be writable\")\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))()\n else:\n _skc_tmp = None\n res = __library__.MSK_XX_getskc(self.__nativep,whichsol_,_skc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skc_ is not None: skc_[:] = [ stakey(v) for v in _skc_tmp[0:len(skc_)] ]", "def getskc(self,whichsol_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skc = False\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n _copyback_skc = True\n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n _copyback_skc = True\n if skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.getskc(whichsol_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skc:\n for __tmp_var_0 in range(len(skc_)): skc[__tmp_var_0] = stakey(_tmparr_skc[__tmp_var_0])", "def putconsolutioni(self,i_,whichsol_,sk_,x_,sl_,su_):\n res = __library__.MSK_XX_putconsolutioni(self.__nativep,i_,whichsol_,sk_,x_,sl_,su_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsolution(self,whichsol_,skc,skx,skn,xc,xx,y,slc,suc,slx,sux,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n \n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n \n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skn is None:\n skn_ = None\n else:\n try:\n skn_ = memoryview(skn)\n except TypeError:\n try:\n _tmparr_skn = array.array(\"i\",skn)\n except TypeError:\n raise TypeError(\"Argument skn has wrong type\")\n else:\n skn_ = memoryview(_tmparr_skn)\n \n else:\n if skn_.format != \"i\":\n skn_ = memoryview(array.array(\"i\",skn))\n \n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n \n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n \n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n \n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n \n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n \n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n \n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n \n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n \n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n \n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n \n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n \n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n \n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n \n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n \n res = self.__obj.putsolution(whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslc(self,whichsol_,slc_):\n _slc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),self.getnumcon()))\n if slc_ is None:\n raise ValueError(\"Argument slc cannot be None\")\n if slc_ is None:\n raise ValueError(\"Argument slc may not be None\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_putslc(self.__nativep,whichsol_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskcslice(self,whichsol_,first_,last_,skc_):\n _skc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),((last_) - (first_))))\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))(*skc_)\n else:\n _skc_tmp = None\n res = __library__.MSK_XX_putskcslice(self.__nativep,whichsol_,first_,last_,_skc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def pk_cs(self, snr=30, headroom = 0):\n # Initialize\n self.pk = np.zeros((self.n_waves, len(self.controls.k0)), dtype=np.csingle)\n # loop over frequencies\n bar = tqdm(total = len(self.controls.k0), desc = 'Calculating Constrained Optim.')\n # print(self.pk.shape)\n for jf, k0 in enumerate(self.controls.k0):\n # get the scaled version of the propagating directions\n k_vec = k0 * self.dir\n # Form the sensing matrix\n h_mtx = np.exp(1j*self.receivers.coord @ k_vec.T)\n H = h_mtx.astype(complex)\n # measured data\n pm = self.pres_s[:,jf].astype(complex)\n # Performing constrained optmization cvxpy\n x_cvx = cp.Variable(h_mtx.shape[1], complex = True)\n # Create the problem\n epsilon = 10**(-(snr-headroom)/10)\n objective = cp.Minimize(cp.pnorm(x_cvx, p=1))\n constraints = [cp.pnorm(pm - cp.matmul(H, x_cvx), p=2) <= epsilon]#[H*x == pm]\n # Create the problem and solve\n problem = cp.Problem(objective, constraints)\n problem.solve(solver=cp.SCS, verbose=True) \n self.pk[:,jf] = x_cvx.value\n bar.update(1)\n bar.close()\n return self.pk", "def putskx(self,whichsol_,skx_):\n _skx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),self.getnumvar()))\n if skx_ is None:\n raise ValueError(\"Argument skx cannot be None\")\n if skx_ is None:\n raise ValueError(\"Argument skx may not be None\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))(*skx_)\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_putskx(self.__nativep,whichsol_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslc(self,whichsol_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slc is None: raise TypeError(\"Invalid type for argument slc\")\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n \n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n \n if slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.putslc(whichsol_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsolutioni(self,accmode_,i_,whichsol_,sk_,x_,sl_,su_,sn_): # 3\n if not isinstance(accmode_,accmode): raise TypeError(\"Argument accmode has wrong type\")\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if not isinstance(sk_,stakey): raise TypeError(\"Argument sk has wrong type\")\n res = self.__obj.putsolutioni(accmode_,i_,whichsol_,sk_,x_,sl_,su_,sn_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskx(self,whichsol_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skx is None: raise TypeError(\"Invalid type for argument skx\")\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.putskx(whichsol_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsolution(self,whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_):\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))(*skc_)\n else:\n _skc_tmp = None\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))(*skx_)\n else:\n _skx_tmp = None\n if skn_ is not None:\n _skn_tmp = (ctypes.c_int32 * len(skn_))(*skn_)\n else:\n _skn_tmp = None\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n if isinstance(y_, numpy.ndarray) and y_.dtype is numpy.dtype(numpy.float64) and y_.flags.contiguous:\n _y_copyarray = False\n _y_tmp = ctypes.cast(y_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif y_ is not None:\n _y_copyarray = True\n _y_np_tmp = numpy.zeros(len(y_),numpy.dtype(numpy.float64))\n _y_np_tmp[:] = y_\n assert _y_np_tmp.flags.contiguous\n _y_tmp = ctypes.cast(_y_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _y_copyarray = False\n _y_tmp = None\n \n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_putsolution(self.__nativep,whichsol_,_skc_tmp,_skx_tmp,_skn_tmp,_xc_tmp,_xx_tmp,_y_tmp,_slc_tmp,_suc_tmp,_slx_tmp,_sux_tmp,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def pk_constrained(self, snr=30, headroom = 0):\n # Initialize\n self.pk = np.zeros((self.n_waves, len(self.controls.k0)), dtype=np.csingle)\n # loop over frequencies\n bar = tqdm(total = len(self.controls.k0), desc = 'Calculating Constrained Optim.')\n for jf, k0 in enumerate(self.controls.k0):\n # get the scaled version of the propagating directions\n k_vec = k0 * self.dir\n # Form the sensing matrix\n h_mtx = np.exp(1j*self.receivers.coord @ k_vec.T)\n H = h_mtx.astype(complex) # cvxpy does not accept floats, apparently\n # measured data\n pm = self.pres_s[:,jf].astype(complex)\n # Performing constrained optmization cvxpy\n x_cvx = cp.Variable(h_mtx.shape[1], complex = True) # create x variable\n # Create the problem\n epsilon = 10**(-(snr-headroom)/10)\n problem = cp.Problem(cp.Minimize(cp.norm2(x_cvx)**2),\n [cp.pnorm(pm - cp.matmul(H, x_cvx), p=2) <= epsilon])\n problem.solve(solver=cp.SCS, verbose=False)\n self.pk[:,jf] = x_cvx.value\n bar.update(1)\n bar.close()", "def putskcslice(self,whichsol_,first_,last_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n \n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n \n if skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.putskcslice(whichsol_,first_,last_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsolution(self,whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_):\n prosta_ = ctypes.c_int32()\n solsta_ = ctypes.c_int32()\n _skc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),self.getnumcon()))\n if isinstance(skc_,numpy.ndarray) and not skc_.flags.writeable:\n raise ValueError(\"Argument skc must be writable\")\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))()\n else:\n _skc_tmp = None\n _skx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),self.getnumvar()))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n _skn_minlength = self.getnumcone()\n if self.getnumcone() > 0 and skn_ is not None and len(skn_) != self.getnumcone():\n raise ValueError(\"Array argument skn is not long enough: Is %d, expected %d\" % (len(skn_),self.getnumcone()))\n if isinstance(skn_,numpy.ndarray) and not skn_.flags.writeable:\n raise ValueError(\"Argument skn must be writable\")\n if skn_ is not None:\n _skn_tmp = (ctypes.c_int32 * len(skn_))()\n else:\n _skn_tmp = None\n _xc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and xc_ is not None and len(xc_) != self.getnumcon():\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),self.getnumcon()))\n if isinstance(xc_,numpy.ndarray) and not xc_.flags.writeable:\n raise ValueError(\"Argument xc must be writable\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n _xx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),self.getnumvar()))\n if isinstance(xx_,numpy.ndarray) and not xx_.flags.writeable:\n raise ValueError(\"Argument xx must be writable\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n _y_minlength = self.getnumcon()\n if self.getnumcon() > 0 and y_ is not None and len(y_) != self.getnumcon():\n raise ValueError(\"Array argument y is not long enough: Is %d, expected %d\" % (len(y_),self.getnumcon()))\n if isinstance(y_,numpy.ndarray) and not y_.flags.writeable:\n raise ValueError(\"Argument y must be writable\")\n if isinstance(y_, numpy.ndarray) and y_.dtype is numpy.dtype(numpy.float64) and y_.flags.contiguous:\n _y_copyarray = False\n _y_tmp = ctypes.cast(y_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif y_ is not None:\n _y_copyarray = True\n _y_np_tmp = numpy.zeros(len(y_),numpy.dtype(numpy.float64))\n _y_np_tmp[:] = y_\n assert _y_np_tmp.flags.contiguous\n _y_tmp = ctypes.cast(_y_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _y_copyarray = False\n _y_tmp = None\n \n _slc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),self.getnumcon()))\n if isinstance(slc_,numpy.ndarray) and not slc_.flags.writeable:\n raise ValueError(\"Argument slc must be writable\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n _suc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and suc_ is not None and len(suc_) != self.getnumcon():\n raise ValueError(\"Array argument suc is not long enough: Is %d, expected %d\" % (len(suc_),self.getnumcon()))\n if isinstance(suc_,numpy.ndarray) and not suc_.flags.writeable:\n raise ValueError(\"Argument suc must be writable\")\n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n _slx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),self.getnumvar()))\n if isinstance(slx_,numpy.ndarray) and not slx_.flags.writeable:\n raise ValueError(\"Argument slx must be writable\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n _sux_minlength = self.getnumvar()\n if self.getnumvar() > 0 and sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),self.getnumvar()))\n if isinstance(sux_,numpy.ndarray) and not sux_.flags.writeable:\n raise ValueError(\"Argument sux must be writable\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n _snx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and snx_ is not None and len(snx_) != self.getnumvar():\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),self.getnumvar()))\n if isinstance(snx_,numpy.ndarray) and not snx_.flags.writeable:\n raise ValueError(\"Argument snx must be writable\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_getsolution(self.__nativep,whichsol_,ctypes.byref(prosta_),ctypes.byref(solsta_),_skc_tmp,_skx_tmp,_skn_tmp,_xc_tmp,_xx_tmp,_y_tmp,_slc_tmp,_suc_tmp,_slx_tmp,_sux_tmp,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _prosta_return_value = prosta(prosta_.value)\n _solsta_return_value = solsta(solsta_.value)\n if skc_ is not None: skc_[:] = [ stakey(v) for v in _skc_tmp[0:len(skc_)] ]\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]\n if skn_ is not None: skn_[:] = [ stakey(v) for v in _skn_tmp[0:len(skn_)] ]\n if _xc_copyarray:\n xc_[:] = _xc_np_tmp\n if _xx_copyarray:\n xx_[:] = _xx_np_tmp\n if _y_copyarray:\n y_[:] = _y_np_tmp\n if _slc_copyarray:\n slc_[:] = _slc_np_tmp\n if _suc_copyarray:\n suc_[:] = _suc_np_tmp\n if _slx_copyarray:\n slx_[:] = _slx_np_tmp\n if _sux_copyarray:\n sux_[:] = _sux_np_tmp\n if _snx_copyarray:\n snx_[:] = _snx_np_tmp\n return (_prosta_return_value,_solsta_return_value)", "def getsolution(self,whichsol_,skc,skx,skn,xc,xx,y,slc,suc,slx,sux,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skc = False\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n _copyback_skc = True\n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n _copyback_skc = True\n if skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc has wrong length\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx has wrong length\")\n _copyback_skn = False\n if skn is None:\n skn_ = None\n else:\n try:\n skn_ = memoryview(skn)\n except TypeError:\n try:\n _tmparr_skn = array.array(\"i\",skn)\n except TypeError:\n raise TypeError(\"Argument skn has wrong type\")\n else:\n skn_ = memoryview(_tmparr_skn)\n _copyback_skn = True\n else:\n if skn_.format != \"i\":\n skn_ = memoryview(array.array(\"i\",skn))\n _copyback_skn = True\n if skn_ is not None and len(skn_) != self.getnumcone():\n raise ValueError(\"Array argument skn has wrong length\")\n _copyback_xc = False\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n _copyback_xc = True\n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n _copyback_xc = True\n if xc_ is not None and len(xc_) != self.getnumcon():\n raise ValueError(\"Array argument xc has wrong length\")\n _copyback_xx = False\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n _copyback_xx = True\n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n _copyback_xx = True\n if xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx has wrong length\")\n _copyback_y = False\n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n _copyback_y = True\n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n _copyback_y = True\n if y_ is not None and len(y_) != self.getnumcon():\n raise ValueError(\"Array argument y has wrong length\")\n _copyback_slc = False\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n _copyback_slc = True\n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n _copyback_slc = True\n if slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc has wrong length\")\n _copyback_suc = False\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n _copyback_suc = True\n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n _copyback_suc = True\n if suc_ is not None and len(suc_) != self.getnumcon():\n raise ValueError(\"Array argument suc has wrong length\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx has wrong length\")\n _copyback_sux = False\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n _copyback_sux = True\n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n _copyback_sux = True\n if sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux has wrong length\")\n _copyback_snx = False\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n _copyback_snx = True\n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n _copyback_snx = True\n if snx_ is not None and len(snx_) != self.getnumvar():\n raise ValueError(\"Array argument snx has wrong length\")\n res,resargs = self.__obj.getsolution(whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _prosta_return_value,_solsta_return_value = resargs\n if _copyback_snx:\n snx[:] = _tmparr_snx\n if _copyback_sux:\n sux[:] = _tmparr_sux\n if _copyback_slx:\n slx[:] = _tmparr_slx\n if _copyback_suc:\n suc[:] = _tmparr_suc\n if _copyback_slc:\n slc[:] = _tmparr_slc\n if _copyback_y:\n y[:] = _tmparr_y\n if _copyback_xx:\n xx[:] = _tmparr_xx\n if _copyback_xc:\n xc[:] = _tmparr_xc\n if _copyback_skn:\n for __tmp_var_2 in range(len(skn_)): skn[__tmp_var_2] = stakey(_tmparr_skn[__tmp_var_2])\n if _copyback_skx:\n for __tmp_var_1 in range(len(skx_)): skx[__tmp_var_1] = stakey(_tmparr_skx[__tmp_var_1])\n if _copyback_skc:\n for __tmp_var_0 in range(len(skc_)): skc[__tmp_var_0] = stakey(_tmparr_skc[__tmp_var_0])\n _solsta_return_value = solsta(_solsta_return_value)\n _prosta_return_value = prosta(_prosta_return_value)\n return _prosta_return_value,_solsta_return_value", "def putvarsolutionj(self,j_,whichsol_,sk_,x_,sl_,su_,sn_):\n res = __library__.MSK_XX_putvarsolutionj(self.__nativep,j_,whichsol_,sk_,x_,sl_,su_,sn_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getskcslice(self,whichsol_,first_,last_,skc_):\n _skc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),((last_) - (first_))))\n if isinstance(skc_,numpy.ndarray) and not skc_.flags.writeable:\n raise ValueError(\"Argument skc must be writable\")\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))()\n else:\n _skc_tmp = None\n res = __library__.MSK_XX_getskcslice(self.__nativep,whichsol_,first_,last_,_skc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skc_ is not None: skc_[:] = [ stakey(v) for v in _skc_tmp[0:len(skc_)] ]", "def getskn(self,whichsol_,skn_):\n _skn_minlength = self.getnumcone()\n if self.getnumcone() > 0 and skn_ is not None and len(skn_) != self.getnumcone():\n raise ValueError(\"Array argument skn is not long enough: Is %d, expected %d\" % (len(skn_),self.getnumcone()))\n if isinstance(skn_,numpy.ndarray) and not skn_.flags.writeable:\n raise ValueError(\"Argument skn must be writable\")\n if skn_ is not None:\n _skn_tmp = (ctypes.c_int32 * len(skn_))()\n else:\n _skn_tmp = None\n res = __library__.MSK_XX_getskn(self.__nativep,whichsol_,_skn_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skn_ is not None: skn_[:] = [ stakey(v) for v in _skn_tmp[0:len(skn_)] ]", "def setCtrls(self, fks, ik, upv):\n # type: (list[str], str, str) -> None\n\n self.fkCtrls = [self._getNode(x) for x in fks]\n self.fkTargets = [self._getMth(x) for x in fks]\n\n self.ikCtrl = self._getNode(ik)\n self.ikTarget = self._getMth(ik)\n\n self.upvCtrl = self._getNode(upv)\n self.upvTarget = self._getMth(upv)\n\n self.ikRotCtrl = self._getNode(ik.replace(\"_ik_\", \"_rot_\"))\n self.ikRotTarget = self.ikTarget", "def getskx(self,whichsol_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.getskx(whichsol_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skx:\n for __tmp_var_0 in range(len(skx_)): skx[__tmp_var_0] = stakey(_tmparr_skx[__tmp_var_0])", "def getskcslice(self,whichsol_,first_,last_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skc = False\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n _copyback_skc = True\n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n _copyback_skc = True\n if skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.getskcslice(whichsol_,first_,last_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skc:\n for __tmp_var_0 in range(len(skc_)): skc[__tmp_var_0] = stakey(_tmparr_skc[__tmp_var_0])", "def getskx(self,whichsol_,skx_):\n _skx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),self.getnumvar()))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_getskx(self.__nativep,whichsol_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]", "def putconbound(self,i_,bkc_,blc_,buc_):\n res = __library__.MSK_XX_putconbound(self.__nativep,i_,bkc_,blc_,buc_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def set_sparse_signals(self):\n\t\n\t\tparams_dSs = [self.mu_dSs, self.sigma_dSs]\n\t\tparams_Ss0 = [self.mu_Ss0, self.sigma_Ss0]\n\t\tself.dSs, self.idxs = sparse_vector([self.Nn, self.Kk], \n\t\t\t\t\t\t\t\t\t\t\t\tparams_dSs,\tseed=self.seed_dSs)\n\t\t\n\t\t# Replace components with conflicting background odor \n\t\tif self.Kk_split is not None and self.Kk_split != 0:\n\t\t\tassert 0 <= self.Kk_split <= self.Kk, \\\n\t\t\t\t\"Splitting sparse signal into two levels requires Kk_split\" \\\n\t\t\t\t\" to be non-negative and less than or equal to Kk.\"\n\t\t\tassert self.mu_dSs_2 is not None \\\n\t\t\t\tand self.sigma_dSs_2 is not None, \\\n\t\t\t\t\"Splitting sparse signal into two levels requires that\" \\\n\t\t\t\t\" mu_dSs_2 and sigma_dSs_2 are set.\"\n\n\t\t\tsp.random.seed(self.seed_dSs)\n\t\t\tself.idxs_2 = sp.random.choice(self.idxs[0], self.Kk_split, \n\t\t\t\t\t\t\t\t\t\t\treplace=False)\n\t\t\tfor idx_2 in self.idxs_2:\n\t\t\t\tself.dSs[idx_2] = sp.random.normal(self.mu_dSs_2, \n\t\t\t\t\t\t\t\t\t\t\t\t\tself.sigma_dSs_2)\n\t\telse:\n\t\t\tself.idxs_2 = []\n\t\t\tself.Kk_split = 0\n\t\t\t\n\t\t# Ss0 is the ideal (learned) background stimulus without noise\n\t\tself.Ss0, self.Ss0_noisy = sparse_vector_bkgrnd([self.Nn, self.Kk], \n\t\t\t\t\t\t\t\t\t\t\t\t\t\tself.idxs, params_Ss0,\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tseed=self.seed_Ss0)\n\t\t\n\t\tself.Ss = self.dSs + self.Ss0_noisy", "def putsolutionyi(self,i_,whichsol_,y_):\n res = __library__.MSK_XX_putsolutionyi(self.__nativep,i_,whichsol_,y_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def kiosks(self, kiosks):\n\n self._kiosks = kiosks", "def updatesolutioninfo(self,whichsol_):\n res = __library__.MSK_XX_updatesolutioninfo(self.__nativep,whichsol_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def setstages(self):\n if not self._stages or self.prop['skipcst']:\n return\n debug('ControllerStartup.setstages()')\n allaxes = self.pidevice.qSAI_ALL()\n oldstages = self.pidevice.qCST()\n for i, newstage in enumerate(self._stages):\n if not newstage:\n continue\n axis = allaxes[i]\n oldstage = oldstages.get(axis, 'NOSTAGE')\n if oldstage != newstage or self.prop['forcecst']:\n warnmsg = applyconfig(self.pidevice, axis, newstage)\n self._databuf['cstdone'].append(axis)\n if self.prop['showlog'] and warnmsg:\n warning(warnmsg)\n elif self.prop['showlog']:\n info('stage %r on axis %r is already configured', oldstage, axis)" ]

[ "0.72139746", "0.6543982", "0.64018124", "0.6323139", "0.6170267", "0.59109205", "0.5876415", "0.5840868", "0.5820894", "0.57397544", "0.5731876", "0.57016045", "0.5679408", "0.5618628", "0.5609292", "0.55747694", "0.5336906", "0.5325742", "0.51073235", "0.5059507", "0.49819395", "0.49404365", "0.4927734", "0.49208054", "0.48352632", "0.48281386", "0.48072234", "0.480136", "0.4774023", "0.47288522" ]

[ "def putskx(self,whichsol_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skx is None: raise TypeError(\"Invalid type for argument skx\")\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.putskx(whichsol_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getskx(self,whichsol_,skx_):\n _skx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),self.getnumvar()))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_getskx(self.__nativep,whichsol_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]", "def getskx(self,whichsol_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.getskx(whichsol_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skx:\n for __tmp_var_0 in range(len(skx_)): skx[__tmp_var_0] = stakey(_tmparr_skx[__tmp_var_0])", "def putsolution(self,whichsol_,skc,skx,skn,xc,xx,y,slc,suc,slx,sux,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n \n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n \n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skn is None:\n skn_ = None\n else:\n try:\n skn_ = memoryview(skn)\n except TypeError:\n try:\n _tmparr_skn = array.array(\"i\",skn)\n except TypeError:\n raise TypeError(\"Argument skn has wrong type\")\n else:\n skn_ = memoryview(_tmparr_skn)\n \n else:\n if skn_.format != \"i\":\n skn_ = memoryview(array.array(\"i\",skn))\n \n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n \n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n \n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n \n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n \n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n \n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n \n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n \n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n \n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n \n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n \n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n \n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n \n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n \n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n \n res = self.__obj.putsolution(whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskc(self,whichsol_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skc is None: raise TypeError(\"Invalid type for argument skc\")\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n \n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n \n if skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.putskc(whichsol_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsnx(self,whichsol_,sux_):\n _sux_minlength = self.getnumvar()\n if self.getnumvar() > 0 and sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),self.getnumvar()))\n if sux_ is None:\n raise ValueError(\"Argument sux cannot be None\")\n if sux_ is None:\n raise ValueError(\"Argument sux may not be None\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_putsnx(self.__nativep,whichsol_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskc(self,whichsol_,skc_):\n _skc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),self.getnumcon()))\n if skc_ is None:\n raise ValueError(\"Argument skc cannot be None\")\n if skc_ is None:\n raise ValueError(\"Argument skc may not be None\")\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))(*skc_)\n else:\n _skc_tmp = None\n res = __library__.MSK_XX_putskc(self.__nativep,whichsol_,_skc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarsolutionj(self,j_,whichsol_,sk_,x_,sl_,su_,sn_):\n res = __library__.MSK_XX_putvarsolutionj(self.__nativep,j_,whichsol_,sk_,x_,sl_,su_,sn_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslx(self,whichsol_,slx_):\n _slx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),self.getnumvar()))\n if slx_ is None:\n raise ValueError(\"Argument slx cannot be None\")\n if slx_ is None:\n raise ValueError(\"Argument slx may not be None\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_putslx(self.__nativep,whichsol_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsolution(self,whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_):\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))(*skc_)\n else:\n _skc_tmp = None\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))(*skx_)\n else:\n _skx_tmp = None\n if skn_ is not None:\n _skn_tmp = (ctypes.c_int32 * len(skn_))(*skn_)\n else:\n _skn_tmp = None\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n if isinstance(y_, numpy.ndarray) and y_.dtype is numpy.dtype(numpy.float64) and y_.flags.contiguous:\n _y_copyarray = False\n _y_tmp = ctypes.cast(y_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif y_ is not None:\n _y_copyarray = True\n _y_np_tmp = numpy.zeros(len(y_),numpy.dtype(numpy.float64))\n _y_np_tmp[:] = y_\n assert _y_np_tmp.flags.contiguous\n _y_tmp = ctypes.cast(_y_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _y_copyarray = False\n _y_tmp = None\n \n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_putsolution(self.__nativep,whichsol_,_skc_tmp,_skx_tmp,_skn_tmp,_xc_tmp,_xx_tmp,_y_tmp,_slc_tmp,_suc_tmp,_slx_tmp,_sux_tmp,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsnx(self,whichsol_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if sux is None: raise TypeError(\"Invalid type for argument sux\")\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n \n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n \n if sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.putsnx(whichsol_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconsolutioni(self,i_,whichsol_,sk_,x_,sl_,su_):\n res = __library__.MSK_XX_putconsolutioni(self.__nativep,i_,whichsol_,sk_,x_,sl_,su_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsolutioni(self,accmode_,i_,whichsol_,sk_,x_,sl_,su_,sn_): # 3\n if not isinstance(accmode_,accmode): raise TypeError(\"Argument accmode has wrong type\")\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if not isinstance(sk_,stakey): raise TypeError(\"Argument sk has wrong type\")\n res = self.__obj.putsolutioni(accmode_,i_,whichsol_,sk_,x_,sl_,su_,sn_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslx(self,whichsol_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.putslx(whichsol_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskxslice(self,whichsol_,first_,last_,skx_):\n _skx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),((last_) - (first_))))\n if skx_ is None:\n raise ValueError(\"Argument skx cannot be None\")\n if skx_ is None:\n raise ValueError(\"Argument skx may not be None\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))(*skx_)\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_putskxslice(self.__nativep,whichsol_,first_,last_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skx is None: raise TypeError(\"Invalid type for argument skx\")\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.putskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsolution(self,whichsol_,skc,skx,skn,xc,xx,y,slc,suc,slx,sux,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skc = False\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n _copyback_skc = True\n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n _copyback_skc = True\n if skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc has wrong length\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx has wrong length\")\n _copyback_skn = False\n if skn is None:\n skn_ = None\n else:\n try:\n skn_ = memoryview(skn)\n except TypeError:\n try:\n _tmparr_skn = array.array(\"i\",skn)\n except TypeError:\n raise TypeError(\"Argument skn has wrong type\")\n else:\n skn_ = memoryview(_tmparr_skn)\n _copyback_skn = True\n else:\n if skn_.format != \"i\":\n skn_ = memoryview(array.array(\"i\",skn))\n _copyback_skn = True\n if skn_ is not None and len(skn_) != self.getnumcone():\n raise ValueError(\"Array argument skn has wrong length\")\n _copyback_xc = False\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n _copyback_xc = True\n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n _copyback_xc = True\n if xc_ is not None and len(xc_) != self.getnumcon():\n raise ValueError(\"Array argument xc has wrong length\")\n _copyback_xx = False\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n _copyback_xx = True\n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n _copyback_xx = True\n if xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx has wrong length\")\n _copyback_y = False\n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n _copyback_y = True\n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n _copyback_y = True\n if y_ is not None and len(y_) != self.getnumcon():\n raise ValueError(\"Array argument y has wrong length\")\n _copyback_slc = False\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n _copyback_slc = True\n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n _copyback_slc = True\n if slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc has wrong length\")\n _copyback_suc = False\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n _copyback_suc = True\n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n _copyback_suc = True\n if suc_ is not None and len(suc_) != self.getnumcon():\n raise ValueError(\"Array argument suc has wrong length\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx has wrong length\")\n _copyback_sux = False\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n _copyback_sux = True\n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n _copyback_sux = True\n if sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux has wrong length\")\n _copyback_snx = False\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n _copyback_snx = True\n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n _copyback_snx = True\n if snx_ is not None and len(snx_) != self.getnumvar():\n raise ValueError(\"Array argument snx has wrong length\")\n res,resargs = self.__obj.getsolution(whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _prosta_return_value,_solsta_return_value = resargs\n if _copyback_snx:\n snx[:] = _tmparr_snx\n if _copyback_sux:\n sux[:] = _tmparr_sux\n if _copyback_slx:\n slx[:] = _tmparr_slx\n if _copyback_suc:\n suc[:] = _tmparr_suc\n if _copyback_slc:\n slc[:] = _tmparr_slc\n if _copyback_y:\n y[:] = _tmparr_y\n if _copyback_xx:\n xx[:] = _tmparr_xx\n if _copyback_xc:\n xc[:] = _tmparr_xc\n if _copyback_skn:\n for __tmp_var_2 in range(len(skn_)): skn[__tmp_var_2] = stakey(_tmparr_skn[__tmp_var_2])\n if _copyback_skx:\n for __tmp_var_1 in range(len(skx_)): skx[__tmp_var_1] = stakey(_tmparr_skx[__tmp_var_1])\n if _copyback_skc:\n for __tmp_var_0 in range(len(skc_)): skc[__tmp_var_0] = stakey(_tmparr_skc[__tmp_var_0])\n _solsta_return_value = solsta(_solsta_return_value)\n _prosta_return_value = prosta(_prosta_return_value)\n return _prosta_return_value,_solsta_return_value", "def getsnx(self,whichsol_,snx_):\n _snx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and snx_ is not None and len(snx_) != self.getnumvar():\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),self.getnumvar()))\n if isinstance(snx_,numpy.ndarray) and not snx_.flags.writeable:\n raise ValueError(\"Argument snx must be writable\")\n if snx_ is None:\n raise ValueError(\"Argument snx may not be None\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_getsnx(self.__nativep,whichsol_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _snx_copyarray:\n snx_[:] = _snx_np_tmp", "def tsx(self):\n\n self.x = self.sp\n self.set_zn(self.x)", "def set_state(self, x):\n self.xs_ = x", "def getsolution(self,whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_):\n prosta_ = ctypes.c_int32()\n solsta_ = ctypes.c_int32()\n _skc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),self.getnumcon()))\n if isinstance(skc_,numpy.ndarray) and not skc_.flags.writeable:\n raise ValueError(\"Argument skc must be writable\")\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))()\n else:\n _skc_tmp = None\n _skx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),self.getnumvar()))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n _skn_minlength = self.getnumcone()\n if self.getnumcone() > 0 and skn_ is not None and len(skn_) != self.getnumcone():\n raise ValueError(\"Array argument skn is not long enough: Is %d, expected %d\" % (len(skn_),self.getnumcone()))\n if isinstance(skn_,numpy.ndarray) and not skn_.flags.writeable:\n raise ValueError(\"Argument skn must be writable\")\n if skn_ is not None:\n _skn_tmp = (ctypes.c_int32 * len(skn_))()\n else:\n _skn_tmp = None\n _xc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and xc_ is not None and len(xc_) != self.getnumcon():\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),self.getnumcon()))\n if isinstance(xc_,numpy.ndarray) and not xc_.flags.writeable:\n raise ValueError(\"Argument xc must be writable\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n _xx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),self.getnumvar()))\n if isinstance(xx_,numpy.ndarray) and not xx_.flags.writeable:\n raise ValueError(\"Argument xx must be writable\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n _y_minlength = self.getnumcon()\n if self.getnumcon() > 0 and y_ is not None and len(y_) != self.getnumcon():\n raise ValueError(\"Array argument y is not long enough: Is %d, expected %d\" % (len(y_),self.getnumcon()))\n if isinstance(y_,numpy.ndarray) and not y_.flags.writeable:\n raise ValueError(\"Argument y must be writable\")\n if isinstance(y_, numpy.ndarray) and y_.dtype is numpy.dtype(numpy.float64) and y_.flags.contiguous:\n _y_copyarray = False\n _y_tmp = ctypes.cast(y_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif y_ is not None:\n _y_copyarray = True\n _y_np_tmp = numpy.zeros(len(y_),numpy.dtype(numpy.float64))\n _y_np_tmp[:] = y_\n assert _y_np_tmp.flags.contiguous\n _y_tmp = ctypes.cast(_y_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _y_copyarray = False\n _y_tmp = None\n \n _slc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),self.getnumcon()))\n if isinstance(slc_,numpy.ndarray) and not slc_.flags.writeable:\n raise ValueError(\"Argument slc must be writable\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n _suc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and suc_ is not None and len(suc_) != self.getnumcon():\n raise ValueError(\"Array argument suc is not long enough: Is %d, expected %d\" % (len(suc_),self.getnumcon()))\n if isinstance(suc_,numpy.ndarray) and not suc_.flags.writeable:\n raise ValueError(\"Argument suc must be writable\")\n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n _slx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),self.getnumvar()))\n if isinstance(slx_,numpy.ndarray) and not slx_.flags.writeable:\n raise ValueError(\"Argument slx must be writable\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n _sux_minlength = self.getnumvar()\n if self.getnumvar() > 0 and sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),self.getnumvar()))\n if isinstance(sux_,numpy.ndarray) and not sux_.flags.writeable:\n raise ValueError(\"Argument sux must be writable\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n _snx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and snx_ is not None and len(snx_) != self.getnumvar():\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),self.getnumvar()))\n if isinstance(snx_,numpy.ndarray) and not snx_.flags.writeable:\n raise ValueError(\"Argument snx must be writable\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_getsolution(self.__nativep,whichsol_,ctypes.byref(prosta_),ctypes.byref(solsta_),_skc_tmp,_skx_tmp,_skn_tmp,_xc_tmp,_xx_tmp,_y_tmp,_slc_tmp,_suc_tmp,_slx_tmp,_sux_tmp,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _prosta_return_value = prosta(prosta_.value)\n _solsta_return_value = solsta(solsta_.value)\n if skc_ is not None: skc_[:] = [ stakey(v) for v in _skc_tmp[0:len(skc_)] ]\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]\n if skn_ is not None: skn_[:] = [ stakey(v) for v in _skn_tmp[0:len(skn_)] ]\n if _xc_copyarray:\n xc_[:] = _xc_np_tmp\n if _xx_copyarray:\n xx_[:] = _xx_np_tmp\n if _y_copyarray:\n y_[:] = _y_np_tmp\n if _slc_copyarray:\n slc_[:] = _slc_np_tmp\n if _suc_copyarray:\n suc_[:] = _suc_np_tmp\n if _slx_copyarray:\n slx_[:] = _slx_np_tmp\n if _sux_copyarray:\n sux_[:] = _sux_np_tmp\n if _snx_copyarray:\n snx_[:] = _snx_np_tmp\n return (_prosta_return_value,_solsta_return_value)", "def putxx(self,whichsol_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xx is None: raise TypeError(\"Invalid type for argument xx\")\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n \n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n \n if xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.putxx(whichsol_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def set_sparsity(self,use_sparse):\n \n if hasattr(self.problem,'sparse_jac'):\n self.use_sparse = use_sparse\n else:\n raise KINSOL_Exception(\"The problem must have implemented a method 'sparse_jac' for sparsity to by used.\")", "def putsolutionyi(self,i_,whichsol_,y_):\n res = __library__.MSK_XX_putsolutionyi(self.__nativep,i_,whichsol_,y_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getskc(self,whichsol_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skc = False\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n _copyback_skc = True\n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n _copyback_skc = True\n if skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.getskc(whichsol_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skc:\n for __tmp_var_0 in range(len(skc_)): skc[__tmp_var_0] = stakey(_tmparr_skc[__tmp_var_0])", "def set_sparse_signals(self):\n\t\n\t\tparams_dSs = [self.mu_dSs, self.sigma_dSs]\n\t\tparams_Ss0 = [self.mu_Ss0, self.sigma_Ss0]\n\t\tself.dSs, self.idxs = sparse_vector([self.Nn, self.Kk], \n\t\t\t\t\t\t\t\t\t\t\t\tparams_dSs,\tseed=self.seed_dSs)\n\t\t\n\t\t# Replace components with conflicting background odor \n\t\tif self.Kk_split is not None and self.Kk_split != 0:\n\t\t\tassert 0 <= self.Kk_split <= self.Kk, \\\n\t\t\t\t\"Splitting sparse signal into two levels requires Kk_split\" \\\n\t\t\t\t\" to be non-negative and less than or equal to Kk.\"\n\t\t\tassert self.mu_dSs_2 is not None \\\n\t\t\t\tand self.sigma_dSs_2 is not None, \\\n\t\t\t\t\"Splitting sparse signal into two levels requires that\" \\\n\t\t\t\t\" mu_dSs_2 and sigma_dSs_2 are set.\"\n\n\t\t\tsp.random.seed(self.seed_dSs)\n\t\t\tself.idxs_2 = sp.random.choice(self.idxs[0], self.Kk_split, \n\t\t\t\t\t\t\t\t\t\t\treplace=False)\n\t\t\tfor idx_2 in self.idxs_2:\n\t\t\t\tself.dSs[idx_2] = sp.random.normal(self.mu_dSs_2, \n\t\t\t\t\t\t\t\t\t\t\t\t\tself.sigma_dSs_2)\n\t\telse:\n\t\t\tself.idxs_2 = []\n\t\t\tself.Kk_split = 0\n\t\t\t\n\t\t# Ss0 is the ideal (learned) background stimulus without noise\n\t\tself.Ss0, self.Ss0_noisy = sparse_vector_bkgrnd([self.Nn, self.Kk], \n\t\t\t\t\t\t\t\t\t\t\t\t\t\tself.idxs, params_Ss0,\n\t\t\t\t\t\t\t\t\t\t\t\t\t\tseed=self.seed_Ss0)\n\t\t\n\t\tself.Ss = self.dSs + self.Ss0_noisy", "def putxx(self,whichsol_,xx_):\n _xx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),self.getnumvar()))\n if xx_ is None:\n raise ValueError(\"Argument xx cannot be None\")\n if xx_ is None:\n raise ValueError(\"Argument xx may not be None\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n res = __library__.MSK_XX_putxx(self.__nativep,whichsol_,_xx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslc(self,whichsol_,slc_):\n _slc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),self.getnumcon()))\n if slc_ is None:\n raise ValueError(\"Argument slc cannot be None\")\n if slc_ is None:\n raise ValueError(\"Argument slc may not be None\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_putslc(self.__nativep,whichsol_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsux(self,whichsol_,sux_):\n _sux_minlength = self.getnumvar()\n if self.getnumvar() > 0 and sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),self.getnumvar()))\n if sux_ is None:\n raise ValueError(\"Argument sux cannot be None\")\n if sux_ is None:\n raise ValueError(\"Argument sux may not be None\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_putsux(self.__nativep,whichsol_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putxc(self,whichsol_,xc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xc is None: raise TypeError(\"Invalid type for argument xc\")\n _copyback_xc = False\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n _copyback_xc = True\n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n _copyback_xc = True\n if xc_ is not None and len(xc_) != self.getnumcon():\n raise ValueError(\"Array argument xc has wrong length\")\n res = self.__obj.putxc(whichsol_,xc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xc:\n xc[:] = _tmparr_xc" ]

[ "0.74914217", "0.6797291", "0.670412", "0.6391432", "0.61212236", "0.6068775", "0.6050045", "0.60150516", "0.5988659", "0.5958794", "0.59417593", "0.5932388", "0.5848181", "0.58313733", "0.5816834", "0.56417334", "0.5494188", "0.5483891", "0.54808533", "0.5438351", "0.5377816", "0.53150094", "0.5301462", "0.52808005", "0.5276801", "0.526104", "0.52428555", "0.5240423", "0.5234527", "0.52233917" ]

[ "def putxc(self,whichsol_,xc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xc is None: raise TypeError(\"Invalid type for argument xc\")\n _copyback_xc = False\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n _copyback_xc = True\n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n _copyback_xc = True\n if xc_ is not None and len(xc_) != self.getnumcon():\n raise ValueError(\"Array argument xc has wrong length\")\n res = self.__obj.putxc(whichsol_,xc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xc:\n xc[:] = _tmparr_xc", "def getxc(self,whichsol_,xc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xc is None: raise TypeError(\"Invalid type for argument xc\")\n _copyback_xc = False\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n _copyback_xc = True\n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n _copyback_xc = True\n if xc_ is not None and len(xc_) != self.getnumcon():\n raise ValueError(\"Array argument xc has wrong length\")\n res = self.__obj.getxc(whichsol_,xc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xc:\n xc[:] = _tmparr_xc", "def getxc(self,whichsol_,xc_):\n _xc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and xc_ is not None and len(xc_) != self.getnumcon():\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),self.getnumcon()))\n if isinstance(xc_,numpy.ndarray) and not xc_.flags.writeable:\n raise ValueError(\"Argument xc must be writable\")\n if xc_ is None:\n raise ValueError(\"Argument xc may not be None\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n res = __library__.MSK_XX_getxc(self.__nativep,whichsol_,_xc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _xc_copyarray:\n xc_[:] = _xc_np_tmp", "def putxcslice(self,whichsol_,first_,last_,xc_):\n _xc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),((last_) - (first_))))\n if xc_ is None:\n raise ValueError(\"Argument xc cannot be None\")\n if xc_ is None:\n raise ValueError(\"Argument xc may not be None\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n res = __library__.MSK_XX_putxcslice(self.__nativep,whichsol_,first_,last_,_xc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putxx(self,whichsol_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xx is None: raise TypeError(\"Invalid type for argument xx\")\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n \n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n \n if xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.putxx(whichsol_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsolution(self,whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_):\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))(*skc_)\n else:\n _skc_tmp = None\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))(*skx_)\n else:\n _skx_tmp = None\n if skn_ is not None:\n _skn_tmp = (ctypes.c_int32 * len(skn_))(*skn_)\n else:\n _skn_tmp = None\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n if isinstance(y_, numpy.ndarray) and y_.dtype is numpy.dtype(numpy.float64) and y_.flags.contiguous:\n _y_copyarray = False\n _y_tmp = ctypes.cast(y_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif y_ is not None:\n _y_copyarray = True\n _y_np_tmp = numpy.zeros(len(y_),numpy.dtype(numpy.float64))\n _y_np_tmp[:] = y_\n assert _y_np_tmp.flags.contiguous\n _y_tmp = ctypes.cast(_y_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _y_copyarray = False\n _y_tmp = None\n \n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_putsolution(self.__nativep,whichsol_,_skc_tmp,_skx_tmp,_skn_tmp,_xc_tmp,_xx_tmp,_y_tmp,_slc_tmp,_suc_tmp,_slx_tmp,_sux_tmp,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putxcslice(self,whichsol_,first_,last_,xc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xc is None: raise TypeError(\"Invalid type for argument xc\")\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n \n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n \n if xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc has wrong length\")\n res = self.__obj.putxcslice(whichsol_,first_,last_,xc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsolution(self,whichsol_,skc,skx,skn,xc,xx,y,slc,suc,slx,sux,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n \n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n \n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skn is None:\n skn_ = None\n else:\n try:\n skn_ = memoryview(skn)\n except TypeError:\n try:\n _tmparr_skn = array.array(\"i\",skn)\n except TypeError:\n raise TypeError(\"Argument skn has wrong type\")\n else:\n skn_ = memoryview(_tmparr_skn)\n \n else:\n if skn_.format != \"i\":\n skn_ = memoryview(array.array(\"i\",skn))\n \n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n \n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n \n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n \n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n \n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n \n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n \n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n \n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n \n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n \n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n \n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n \n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n \n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n \n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n \n res = self.__obj.putsolution(whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putxx(self,whichsol_,xx_):\n _xx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),self.getnumvar()))\n if xx_ is None:\n raise ValueError(\"Argument xx cannot be None\")\n if xx_ is None:\n raise ValueError(\"Argument xx may not be None\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n res = __library__.MSK_XX_putxx(self.__nativep,whichsol_,_xx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskx(self,whichsol_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skx is None: raise TypeError(\"Invalid type for argument skx\")\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.putskx(whichsol_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskx(self,whichsol_,skx_):\n _skx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),self.getnumvar()))\n if skx_ is None:\n raise ValueError(\"Argument skx cannot be None\")\n if skx_ is None:\n raise ValueError(\"Argument skx may not be None\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))(*skx_)\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_putskx(self.__nativep,whichsol_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconsolutioni(self,i_,whichsol_,sk_,x_,sl_,su_):\n res = __library__.MSK_XX_putconsolutioni(self.__nativep,i_,whichsol_,sk_,x_,sl_,su_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def x0(self, x0):\n self._x0 = base.getvector(x0, 3)", "def putskc(self,whichsol_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skc is None: raise TypeError(\"Invalid type for argument skc\")\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n \n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n \n if skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.putskc(whichsol_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsnx(self,whichsol_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if sux is None: raise TypeError(\"Invalid type for argument sux\")\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n \n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n \n if sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.putsnx(whichsol_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslx(self,whichsol_,slx_):\n _slx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),self.getnumvar()))\n if slx_ is None:\n raise ValueError(\"Argument slx cannot be None\")\n if slx_ is None:\n raise ValueError(\"Argument slx may not be None\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_putslx(self.__nativep,whichsol_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslx(self,whichsol_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.putslx(whichsol_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def set_pos(self, x):\n self._pos = x", "def setX(self, x):\r\n\t\tself._x=x", "def set_xs(self, xs: List[Tensor]):\n assert (self.dimension + 1) >= len(xs)\n for i, x in enumerate(xs):\n self.cochains[i].x = x", "def putsnx(self,whichsol_,sux_):\n _sux_minlength = self.getnumvar()\n if self.getnumvar() > 0 and sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),self.getnumvar()))\n if sux_ is None:\n raise ValueError(\"Argument sux cannot be None\")\n if sux_ is None:\n raise ValueError(\"Argument sux may not be None\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_putsnx(self.__nativep,whichsol_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskc(self,whichsol_,skc_):\n _skc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),self.getnumcon()))\n if skc_ is None:\n raise ValueError(\"Argument skc cannot be None\")\n if skc_ is None:\n raise ValueError(\"Argument skc may not be None\")\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))(*skc_)\n else:\n _skc_tmp = None\n res = __library__.MSK_XX_putskc(self.__nativep,whichsol_,_skc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsolutionyi(self,i_,whichsol_,y_):\n res = __library__.MSK_XX_putsolutionyi(self.__nativep,i_,whichsol_,y_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def setPosition(self,x):\n if x is None:\n self.x = Cartesian3DVector()\n else:\n if isinstance(x,Cartesian3DVector):\n self.x = Cartesian3DVector(x.x,x.y,x.z)\n else:\n raise CoordinateException(\"Initializing a particle with the incorrect position vector type.\")", "def set_new_pos_in_x(self, new_pos):\n self.__pos_x = new_pos", "def getxcslice(self,whichsol_,first_,last_,xc_):\n _xc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),((last_) - (first_))))\n if isinstance(xc_,numpy.ndarray) and not xc_.flags.writeable:\n raise ValueError(\"Argument xc must be writable\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n res = __library__.MSK_XX_getxcslice(self.__nativep,whichsol_,first_,last_,_xc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _xc_copyarray:\n xc_[:] = _xc_np_tmp", "def getxx(self,whichsol_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xx is None: raise TypeError(\"Invalid type for argument xx\")\n _copyback_xx = False\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n _copyback_xx = True\n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n _copyback_xx = True\n if xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.getxx(whichsol_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xx:\n xx[:] = _tmparr_xx", "def set_ic(self, problem, eos):\n i_min = self.i_min\n j_min = self.j_min\n k_min = self.k_min\n i_max = self.i_max \n j_max = self.j_max\n k_max = self.k_max\n if problem.type == \"RP\":\n ro_l = problem.ro_l\n ro_r = problem.ro_r\n p_l = problem.p_l\n p_r = problem.p_r\n for i in range(i_min, i_max):\n for j in range(j_min, j_max):\n for k in range(k_min, k_max):\n if problem.dir=='x':\n u_l = problem.u_l\n u_r = problem.u_r\n v_l = 0.\n w_l = 0.\n e_l = eos.gete(ro_l, p_l)\n E_l = e_l + u_l*u_l/2. + v_l*v_l/2. + w_l*w_l/2.\n v_r = 0.\n w_r = 0.\n e_r = eos.gete(ro_r, p_r)\n E_r = e_r + u_r*u_r/2. + v_r*v_r/2. + w_r*w_r/2.\n if self.x_mesh[i] < problem.q_0 and math.fabs(self.x_mesh[i]-problem.q_0)>self.dx/100.:\n self.U[i][j][k] = [ro_l, ro_l*u_l, ro_l*v_l, ro_l*w_l, ro_l*E_l]\n else:\n self.U[i][j][k] = [ro_r, ro_r*u_r, ro_r*v_r, ro_r*w_r, ro_r*E_r]\n elif problem.dir == 'y':\n u_l = 0.\n v_l = problem.u_l\n w_l = 0.\n e_l = eos.gete(ro_l, p_l)\n E_l = e_l + u_l * u_l / 2. + v_l * v_l / 2. + w_l * w_l / 2.\n u_r = 0.\n v_r = problem.u_r\n w_r = 0.\n e_r = eos.gete(ro_r, p_r)\n E_r = e_r + u_r * u_r / 2. + v_r * v_r / 2. + w_r * w_r / 2.\n if self.y_mesh[j] < problem.q_0 and math.fabs(self.y_mesh[j] - problem.q_0) > self.dy / 100.:\n self.U[i][j][k] = [ro_l, ro_l * u_l, ro_l * v_l, ro_l * w_l, ro_l * E_l]\n else:\n self.U[i][j][k] = [ro_r, ro_r * u_r, ro_r * v_r, ro_r * w_r, ro_r * E_r]\n elif problem.dir == 'z':\n u_l = 0.\n v_l = 0.\n w_l = problem.u_l\n e_l = eos.gete(ro_l, p_l)\n E_l = e_l + u_l * u_l / 2. + v_l * v_l / 2. + w_l * w_l / 2.\n u_r = 0.\n v_r = 0.\n w_r = problem.u_r\n e_r = eos.gete(ro_r, p_r)\n E_r = e_r + u_r * u_r / 2. + v_r * v_r / 2. + w_r * w_r / 2.\n if self.z_mesh[k] < problem.q_0 and math.fabs(self.z_mesh[k] - problem.q_0) > self.dz / 100.:\n self.U[i][j][k] = [ro_l, ro_l * u_l, ro_l * v_l, ro_l * w_l, ro_l * E_l]\n else:\n self.U[i][j][k] = [ro_r, ro_r * u_r, ro_r * v_r, ro_r * w_r, ro_r * E_r]\n else:\n print(\"Error: CField.set_ic(): Sorry, only x-direction case can be considered. Bye!\")\n exit(-1)\n elif problem.type == \"RTI\":\n U = self.U\n ro_down = problem.ro_down\n ro_up = problem.ro_up\n u = 0.\n v = 0.\n w = 0.\n p_0 = problem.p_0\n g = problem.g\n q_0 = problem.q_0\n p = 0.\n for i in range(i_min, i_max):\n for j in range(j_min, j_max):\n for k in range(k_min, k_max):\n x = .5*self.dx + self.x_mesh[i]\n y = .5*self.dy + self.y_mesh[j]\n z = .5*self.dz + self.z_mesh[k]\n if problem.dir == 'x':\n q = x\n elif problem.dir == 'y':\n q = y\n else:\n q = z\n if q < q_0:\n ro = ro_down\n else:\n ro = ro_up\n p = p_0 + ro*g*(q - q_0)\n e = eos.gete(ro, p)\n E = e + .5*(0.*0. + 0.*0. + 0.*0.)\n self.U[i][j][k] = [ro, ro*u, ro*v, ro*w, ro*E]\n # Apply initial disturbance\n # Uncomment the variant you prefer\n # Yalinewich 2D disturbance\n PI = 3.14159\n w_0 = 0.0025\n for i in range(i_min, i_max):\n for j in range(j_min, j_max):\n for k in range(k_min, k_max):\n # x = self.dx * (.5 + self.x_mesh[i])\n # y = self.dy * (.5 + self.y_mesh[j])\n # z = self.dz * (.5 + self.z_mesh[k])\n x = .5 * self.dx + self.x_mesh[i]\n y = .5 * self.dy + self.y_mesh[j]\n z = .5 * self.dz + self.z_mesh[k]\n if problem.dir == 'x':\n self.U[i][j][k][3] = 0.\n self.U[i][j][k][1] = self.U[i][j][k][0]*w_0* \\\n (1. - math.cos(4.*PI*z)) * (1.-math.cos(4.*PI*x/3.))\n elif problem.dir == 'y':\n U[i][j][k][1] = 0.\n U[i][j][k][2] = U[i][j][k][0]*w_0*(1. - math.cos(4.*PI*x)) * (1.-math.cos(4.*PI*y/3.))\n elif problem.dir == 'z':\n self.U[i][j][k][2] = 0.\n self.U[i][j][k][3] = self.U[i][j][k][0]*w_0* \\\n (1. - math.cos(4.*PI*y)) * (1.-math.cos(4.*PI*z/3.))\n else:\n print(\"Error: CField.set_ic(): unknown problem type! Only 1d-PRs and 2d-RTIs allowed. Bye!\")\n exit(-1)\n return", "def getsolution(self,whichsol_,skc,skx,skn,xc,xx,y,slc,suc,slx,sux,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skc = False\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n _copyback_skc = True\n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n _copyback_skc = True\n if skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc has wrong length\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx has wrong length\")\n _copyback_skn = False\n if skn is None:\n skn_ = None\n else:\n try:\n skn_ = memoryview(skn)\n except TypeError:\n try:\n _tmparr_skn = array.array(\"i\",skn)\n except TypeError:\n raise TypeError(\"Argument skn has wrong type\")\n else:\n skn_ = memoryview(_tmparr_skn)\n _copyback_skn = True\n else:\n if skn_.format != \"i\":\n skn_ = memoryview(array.array(\"i\",skn))\n _copyback_skn = True\n if skn_ is not None and len(skn_) != self.getnumcone():\n raise ValueError(\"Array argument skn has wrong length\")\n _copyback_xc = False\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n _copyback_xc = True\n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n _copyback_xc = True\n if xc_ is not None and len(xc_) != self.getnumcon():\n raise ValueError(\"Array argument xc has wrong length\")\n _copyback_xx = False\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n _copyback_xx = True\n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n _copyback_xx = True\n if xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx has wrong length\")\n _copyback_y = False\n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n _copyback_y = True\n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n _copyback_y = True\n if y_ is not None and len(y_) != self.getnumcon():\n raise ValueError(\"Array argument y has wrong length\")\n _copyback_slc = False\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n _copyback_slc = True\n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n _copyback_slc = True\n if slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc has wrong length\")\n _copyback_suc = False\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n _copyback_suc = True\n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n _copyback_suc = True\n if suc_ is not None and len(suc_) != self.getnumcon():\n raise ValueError(\"Array argument suc has wrong length\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx has wrong length\")\n _copyback_sux = False\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n _copyback_sux = True\n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n _copyback_sux = True\n if sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux has wrong length\")\n _copyback_snx = False\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n _copyback_snx = True\n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n _copyback_snx = True\n if snx_ is not None and len(snx_) != self.getnumvar():\n raise ValueError(\"Array argument snx has wrong length\")\n res,resargs = self.__obj.getsolution(whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _prosta_return_value,_solsta_return_value = resargs\n if _copyback_snx:\n snx[:] = _tmparr_snx\n if _copyback_sux:\n sux[:] = _tmparr_sux\n if _copyback_slx:\n slx[:] = _tmparr_slx\n if _copyback_suc:\n suc[:] = _tmparr_suc\n if _copyback_slc:\n slc[:] = _tmparr_slc\n if _copyback_y:\n y[:] = _tmparr_y\n if _copyback_xx:\n xx[:] = _tmparr_xx\n if _copyback_xc:\n xc[:] = _tmparr_xc\n if _copyback_skn:\n for __tmp_var_2 in range(len(skn_)): skn[__tmp_var_2] = stakey(_tmparr_skn[__tmp_var_2])\n if _copyback_skx:\n for __tmp_var_1 in range(len(skx_)): skx[__tmp_var_1] = stakey(_tmparr_skx[__tmp_var_1])\n if _copyback_skc:\n for __tmp_var_0 in range(len(skc_)): skc[__tmp_var_0] = stakey(_tmparr_skc[__tmp_var_0])\n _solsta_return_value = solsta(_solsta_return_value)\n _prosta_return_value = prosta(_prosta_return_value)\n return _prosta_return_value,_solsta_return_value", "def x(self, new_x):\n if new_x is None:\n logging.warning(\"Cochain features were set to None. \")\n else:\n assert self.num_cells == len(new_x)\n self.__x = new_x" ]

[ "0.8204766", "0.7100034", "0.70286053", "0.62716174", "0.61374605", "0.61374235", "0.606844", "0.6039359", "0.5969456", "0.5904703", "0.5754767", "0.56230915", "0.5579052", "0.544836", "0.541375", "0.53648376", "0.5344812", "0.5310044", "0.5302024", "0.52933115", "0.5291072", "0.52591646", "0.5251042", "0.5243685", "0.5227663", "0.5221857", "0.51666814", "0.51659733", "0.51646006", "0.51491743" ]

[ "def putxx(self,whichsol_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xx is None: raise TypeError(\"Invalid type for argument xx\")\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n \n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n \n if xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.putxx(whichsol_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getxx(self,whichsol_,xx_):\n _xx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),self.getnumvar()))\n if isinstance(xx_,numpy.ndarray) and not xx_.flags.writeable:\n raise ValueError(\"Argument xx must be writable\")\n if xx_ is None:\n raise ValueError(\"Argument xx may not be None\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n res = __library__.MSK_XX_getxx(self.__nativep,whichsol_,_xx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _xx_copyarray:\n xx_[:] = _xx_np_tmp", "def getxx(self,whichsol_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xx is None: raise TypeError(\"Invalid type for argument xx\")\n _copyback_xx = False\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n _copyback_xx = True\n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n _copyback_xx = True\n if xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.getxx(whichsol_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xx:\n xx[:] = _tmparr_xx", "def putslx(self,whichsol_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.putslx(whichsol_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslx(self,whichsol_,slx_):\n _slx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),self.getnumvar()))\n if slx_ is None:\n raise ValueError(\"Argument slx cannot be None\")\n if slx_ is None:\n raise ValueError(\"Argument slx may not be None\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_putslx(self.__nativep,whichsol_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putxc(self,whichsol_,xc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xc is None: raise TypeError(\"Invalid type for argument xc\")\n _copyback_xc = False\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n _copyback_xc = True\n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n _copyback_xc = True\n if xc_ is not None and len(xc_) != self.getnumcon():\n raise ValueError(\"Array argument xc has wrong length\")\n res = self.__obj.putxc(whichsol_,xc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xc:\n xc[:] = _tmparr_xc", "def putskx(self,whichsol_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skx is None: raise TypeError(\"Invalid type for argument skx\")\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.putskx(whichsol_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskx(self,whichsol_,skx_):\n _skx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),self.getnumvar()))\n if skx_ is None:\n raise ValueError(\"Argument skx cannot be None\")\n if skx_ is None:\n raise ValueError(\"Argument skx may not be None\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))(*skx_)\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_putskx(self.__nativep,whichsol_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putxxslice(self,whichsol_,first_,last_,xx_):\n _xx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),((last_) - (first_))))\n if xx_ is None:\n raise ValueError(\"Argument xx cannot be None\")\n if xx_ is None:\n raise ValueError(\"Argument xx may not be None\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n res = __library__.MSK_XX_putxxslice(self.__nativep,whichsol_,first_,last_,_xx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsolutionyi(self,i_,whichsol_,y_):\n res = __library__.MSK_XX_putsolutionyi(self.__nativep,i_,whichsol_,y_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putxc(self,whichsol_,xc_):\n _xc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and xc_ is not None and len(xc_) != self.getnumcon():\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),self.getnumcon()))\n if isinstance(xc_,numpy.ndarray) and not xc_.flags.writeable:\n raise ValueError(\"Argument xc must be writable\")\n if xc_ is None:\n raise ValueError(\"Argument xc may not be None\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n res = __library__.MSK_XX_putxc(self.__nativep,whichsol_,_xc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _xc_copyarray:\n xc_[:] = _xc_np_tmp", "def setX(self, x):\r\n\t\tself._x=x", "def putvarsolutionj(self,j_,whichsol_,sk_,x_,sl_,su_,sn_):\n res = __library__.MSK_XX_putvarsolutionj(self.__nativep,j_,whichsol_,sk_,x_,sl_,su_,sn_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsnx(self,whichsol_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if sux is None: raise TypeError(\"Invalid type for argument sux\")\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n \n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n \n if sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.putsnx(whichsol_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def x0(self, x0):\n self._x0 = base.getvector(x0, 3)", "def putsolution(self,whichsol_,skc,skx,skn,xc,xx,y,slc,suc,slx,sux,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n \n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n \n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skn is None:\n skn_ = None\n else:\n try:\n skn_ = memoryview(skn)\n except TypeError:\n try:\n _tmparr_skn = array.array(\"i\",skn)\n except TypeError:\n raise TypeError(\"Argument skn has wrong type\")\n else:\n skn_ = memoryview(_tmparr_skn)\n \n else:\n if skn_.format != \"i\":\n skn_ = memoryview(array.array(\"i\",skn))\n \n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n \n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n \n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n \n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n \n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n \n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n \n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n \n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n \n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n \n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n \n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n \n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n \n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n \n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n \n res = self.__obj.putsolution(whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsolution(self,whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_):\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))(*skc_)\n else:\n _skc_tmp = None\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))(*skx_)\n else:\n _skx_tmp = None\n if skn_ is not None:\n _skn_tmp = (ctypes.c_int32 * len(skn_))(*skn_)\n else:\n _skn_tmp = None\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n if isinstance(y_, numpy.ndarray) and y_.dtype is numpy.dtype(numpy.float64) and y_.flags.contiguous:\n _y_copyarray = False\n _y_tmp = ctypes.cast(y_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif y_ is not None:\n _y_copyarray = True\n _y_np_tmp = numpy.zeros(len(y_),numpy.dtype(numpy.float64))\n _y_np_tmp[:] = y_\n assert _y_np_tmp.flags.contiguous\n _y_tmp = ctypes.cast(_y_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _y_copyarray = False\n _y_tmp = None\n \n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_putsolution(self.__nativep,whichsol_,_skc_tmp,_skx_tmp,_skn_tmp,_xc_tmp,_xx_tmp,_y_tmp,_slc_tmp,_suc_tmp,_slx_tmp,_sux_tmp,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsnx(self,whichsol_,sux_):\n _sux_minlength = self.getnumvar()\n if self.getnumvar() > 0 and sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),self.getnumvar()))\n if sux_ is None:\n raise ValueError(\"Argument sux cannot be None\")\n if sux_ is None:\n raise ValueError(\"Argument sux may not be None\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_putsnx(self.__nativep,whichsol_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def setX(self, x):\n self.x = x\n pass", "def SetX(self, x):\r\n\r\n self._x = x", "def set_x(self, new_x):\r\n self.x = new_x", "def set_x(self, x):\n self._x = x", "def set_state(self, x):\n self.xs_ = x", "def set_xy(self, x, y, val):\r\n\t\tself.grid[y, x] = val", "def putxxslice(self,whichsol_,first_,last_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xx is None: raise TypeError(\"Invalid type for argument xx\")\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n \n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n \n if xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.putxxslice(whichsol_,first_,last_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def set_pos(self, x):\n self._pos = x", "def set_points(self, val=None):\r\n self._points = self.nx*self.ny*self.nz", "def putsolutionyi(self,i_,whichsol_,y_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res = self.__obj.putsolutionyi(i_,whichsol_,y_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def setPosition(self,x):\n if x is None:\n self.x = Cartesian3DVector()\n else:\n if isinstance(x,Cartesian3DVector):\n self.x = Cartesian3DVector(x.x,x.y,x.z)\n else:\n raise CoordinateException(\"Initializing a particle with the incorrect position vector type.\")", "def putbarxj(self,whichsol_,j_,barxj): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if barxj is None: raise TypeError(\"Invalid type for argument barxj\")\n if barxj is None:\n barxj_ = None\n else:\n try:\n barxj_ = memoryview(barxj)\n except TypeError:\n try:\n _tmparr_barxj = array.array(\"d\",barxj)\n except TypeError:\n raise TypeError(\"Argument barxj has wrong type\")\n else:\n barxj_ = memoryview(_tmparr_barxj)\n \n else:\n if barxj_.format != \"d\":\n barxj_ = memoryview(array.array(\"d\",barxj))\n \n if barxj_ is not None and len(barxj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barxj has wrong length\")\n res = self.__obj.putbarxj(whichsol_,j_,barxj_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)" ]

[ "0.777653", "0.6603404", "0.65006644", "0.64598906", "0.6418506", "0.6377557", "0.6271526", "0.6172969", "0.616665", "0.6082866", "0.6052714", "0.6035509", "0.60354376", "0.6003655", "0.5941833", "0.59121037", "0.590406", "0.5900046", "0.5877881", "0.5871721", "0.5866737", "0.5848497", "0.5833388", "0.5822951", "0.5820501", "0.57991487", "0.57565", "0.57450044", "0.56487817", "0.5588038" ]

[ "def puty(self,whichsol_,y): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if y is None: raise TypeError(\"Invalid type for argument y\")\n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n \n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n \n if y_ is not None and len(y_) != self.getnumcon():\n raise ValueError(\"Array argument y has wrong length\")\n res = self.__obj.puty(whichsol_,y_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsolutionyi(self,i_,whichsol_,y_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res = self.__obj.putsolutionyi(i_,whichsol_,y_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def set_y(self, new_y):\r\n self.y = new_y", "def set_y(self, y):\n self._y = y", "def setY(self, y):\r\n\t\tself._y=y", "def SetY(self, y):\r\n\r\n self._y = y", "def y(self, y):\n if y is None:\n raise ValueError(\"Invalid value for `y`, must not be `None`\") # noqa: E501\n\n self._y = y", "def y(self, y):\n if y is None:\n raise ValueError(\"Invalid value for `y`, must not be `None`\") # noqa: E501\n\n self._y = y", "def setY(self, y):\n self.y = y\n pass", "def putsolutionyi(self,i_,whichsol_,y_):\n res = __library__.MSK_XX_putsolutionyi(self.__nativep,i_,whichsol_,y_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def set_y(self, y: float):\n self.y = y", "def y(self, y):\n if type(y) is not int:\n raise TypeError(\"y must be an integer\")\n if y < 0:\n raise ValueError(\"y must be >= 0\")\n self.__y = y", "def y(self, y):\n if type(y) is not int:\n raise TypeError(\"y must be an integer\")\n if y < 0:\n raise ValueError(\"y must be >= 0\")\n self.__y = y", "def gety(self,whichsol_,y): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if y is None: raise TypeError(\"Invalid type for argument y\")\n _copyback_y = False\n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n _copyback_y = True\n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n _copyback_y = True\n if y_ is not None and len(y_) != self.getnumcon():\n raise ValueError(\"Array argument y has wrong length\")\n res = self.__obj.gety(whichsol_,y_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_y:\n y[:] = _tmparr_y", "def y(self, value):\n self.validate_input(y=value)\n self.__y = value", "def gety(self,whichsol_,y_):\n _y_minlength = self.getnumcon()\n if self.getnumcon() > 0 and y_ is not None and len(y_) != self.getnumcon():\n raise ValueError(\"Array argument y is not long enough: Is %d, expected %d\" % (len(y_),self.getnumcon()))\n if isinstance(y_,numpy.ndarray) and not y_.flags.writeable:\n raise ValueError(\"Argument y must be writable\")\n if y_ is None:\n raise ValueError(\"Argument y may not be None\")\n if isinstance(y_, numpy.ndarray) and y_.dtype is numpy.dtype(numpy.float64) and y_.flags.contiguous:\n _y_copyarray = False\n _y_tmp = ctypes.cast(y_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif y_ is not None:\n _y_copyarray = True\n _y_np_tmp = numpy.zeros(len(y_),numpy.dtype(numpy.float64))\n _y_np_tmp[:] = y_\n assert _y_np_tmp.flags.contiguous\n _y_tmp = ctypes.cast(_y_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _y_copyarray = False\n _y_tmp = None\n \n res = __library__.MSK_XX_gety(self.__nativep,whichsol_,_y_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _y_copyarray:\n y_[:] = _y_np_tmp", "def y(self, y):\n if type(y) is not int:\n raise TypeError(\"y must be an integer\")\n elif y < 0:\n raise ValueError(\"y must be >= 0\")\n else:\n self.__y = y", "def y(self, value):\n self.data_validator(\"y\", value)\n self.__y = value", "def set_y(self, y):\n self.scene.set_y_loc(y)\n self.redraw()", "def set_stig_y(self, target_stig_y):\n raise NotImplementedError", "def y(self, value):\n if isinstance(value, int) is False:\n raise TypeError(\"y must be an integer\")\n if value < 0:\n raise ValueError(\"y must be >= 0\")\n self.__y = value", "def y(self, value):\n if not isinstance(value, int):\n raise TypeError(\"y must be an integer\")\n if value < 0:\n raise ValueError(\"y must be >= 0\")\n self.__y = value", "def y(self, y=None):\n\n if y is None:\n return self._y\n else:\n if not isinstance(y, int) and not isinstance(y, float):\n raise TypeError(\"y must be numeric, not '%s'\" % y)\n self._y = y", "def y(self, y=None):\n\n if y is None:\n return self._y\n else:\n if not isinstance(y, int) and not isinstance(y, float):\n raise TypeError(\"y must be numeric, not '%s'\" % y)\n self._y = y", "def y(self, number):\n self.validate_int(\"y\", number)\n if number < 0:\n raise ValueError(\"y must be >= 0\")\n self.__y = number", "def setY(self, *args):\n return _libsbml.Point_setY(self, *args)", "def setY(self, y, index=np.nan):\n if len(self.shape()) > 1:\n if np.isnan(index):\n self.data[1, :] = y\n else:\n self.data[1, index] = y\n else:\n self.data[1] = y", "def Y(self, value):\n self._Y = value", "def vel_y(self, *args, **kwargs) -> Any:\n pass", "def setY(self, y):\n self.position.setY(y)" ]

[ "0.8003171", "0.73679346", "0.7363532", "0.7336165", "0.72183335", "0.7205905", "0.71375144", "0.71375144", "0.71099883", "0.7101774", "0.7048544", "0.69963944", "0.69963944", "0.69483393", "0.69331676", "0.6927535", "0.6890241", "0.6728458", "0.6610014", "0.6607487", "0.6497852", "0.6490578", "0.6415224", "0.6415224", "0.639935", "0.63952774", "0.6383997", "0.6381181", "0.6357738", "0.63016707" ]

[ "def putslc(self,whichsol_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slc is None: raise TypeError(\"Invalid type for argument slc\")\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n \n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n \n if slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.putslc(whichsol_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getslc(self,whichsol_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slc is None: raise TypeError(\"Invalid type for argument slc\")\n _copyback_slc = False\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n _copyback_slc = True\n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n _copyback_slc = True\n if slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.getslc(whichsol_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slc:\n slc[:] = _tmparr_slc", "def getslc(self,whichsol_,slc_):\n _slc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),self.getnumcon()))\n if isinstance(slc_,numpy.ndarray) and not slc_.flags.writeable:\n raise ValueError(\"Argument slc must be writable\")\n if slc_ is None:\n raise ValueError(\"Argument slc may not be None\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_getslc(self.__nativep,whichsol_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slc_copyarray:\n slc_[:] = _slc_np_tmp", "def putslcslice(self,whichsol_,first_,last_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slc is None: raise TypeError(\"Invalid type for argument slc\")\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n \n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n \n if slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.putslcslice(whichsol_,first_,last_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslcslice(self,whichsol_,first_,last_,slc_):\n _slc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),((last_) - (first_))))\n if slc_ is None:\n raise ValueError(\"Argument slc cannot be None\")\n if slc_ is None:\n raise ValueError(\"Argument slc may not be None\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_putslcslice(self.__nativep,whichsol_,first_,last_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslx(self,whichsol_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.putslx(whichsol_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskc(self,whichsol_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skc is None: raise TypeError(\"Invalid type for argument skc\")\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n \n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n \n if skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.putskc(whichsol_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslx(self,whichsol_,slx_):\n _slx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),self.getnumvar()))\n if slx_ is None:\n raise ValueError(\"Argument slx cannot be None\")\n if slx_ is None:\n raise ValueError(\"Argument slx may not be None\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_putslx(self.__nativep,whichsol_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsolution(self,whichsol_,skc,skx,skn,xc,xx,y,slc,suc,slx,sux,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n \n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n \n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skn is None:\n skn_ = None\n else:\n try:\n skn_ = memoryview(skn)\n except TypeError:\n try:\n _tmparr_skn = array.array(\"i\",skn)\n except TypeError:\n raise TypeError(\"Argument skn has wrong type\")\n else:\n skn_ = memoryview(_tmparr_skn)\n \n else:\n if skn_.format != \"i\":\n skn_ = memoryview(array.array(\"i\",skn))\n \n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n \n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n \n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n \n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n \n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n \n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n \n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n \n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n \n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n \n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n \n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n \n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n \n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n \n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n \n res = self.__obj.putsolution(whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconsolutioni(self,i_,whichsol_,sk_,x_,sl_,su_):\n res = __library__.MSK_XX_putconsolutioni(self.__nativep,i_,whichsol_,sk_,x_,sl_,su_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskc(self,whichsol_,skc_):\n _skc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),self.getnumcon()))\n if skc_ is None:\n raise ValueError(\"Argument skc cannot be None\")\n if skc_ is None:\n raise ValueError(\"Argument skc may not be None\")\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))(*skc_)\n else:\n _skc_tmp = None\n res = __library__.MSK_XX_putskc(self.__nativep,whichsol_,_skc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsolution(self,whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_):\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))(*skc_)\n else:\n _skc_tmp = None\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))(*skx_)\n else:\n _skx_tmp = None\n if skn_ is not None:\n _skn_tmp = (ctypes.c_int32 * len(skn_))(*skn_)\n else:\n _skn_tmp = None\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n if isinstance(y_, numpy.ndarray) and y_.dtype is numpy.dtype(numpy.float64) and y_.flags.contiguous:\n _y_copyarray = False\n _y_tmp = ctypes.cast(y_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif y_ is not None:\n _y_copyarray = True\n _y_np_tmp = numpy.zeros(len(y_),numpy.dtype(numpy.float64))\n _y_np_tmp[:] = y_\n assert _y_np_tmp.flags.contiguous\n _y_tmp = ctypes.cast(_y_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _y_copyarray = False\n _y_tmp = None\n \n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_putsolution(self.__nativep,whichsol_,_skc_tmp,_skx_tmp,_skn_tmp,_xc_tmp,_xx_tmp,_y_tmp,_slc_tmp,_suc_tmp,_slx_tmp,_sux_tmp,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarsolutionj(self,j_,whichsol_,sk_,x_,sl_,su_,sn_):\n res = __library__.MSK_XX_putvarsolutionj(self.__nativep,j_,whichsol_,sk_,x_,sl_,su_,sn_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getslcslice(self,whichsol_,first_,last_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_slc = False\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n _copyback_slc = True\n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n _copyback_slc = True\n if slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.getslcslice(whichsol_,first_,last_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slc:\n slc[:] = _tmparr_slc", "def putsolutioni(self,accmode_,i_,whichsol_,sk_,x_,sl_,su_,sn_): # 3\n if not isinstance(accmode_,accmode): raise TypeError(\"Argument accmode has wrong type\")\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if not isinstance(sk_,stakey): raise TypeError(\"Argument sk has wrong type\")\n res = self.__obj.putsolutioni(accmode_,i_,whichsol_,sk_,x_,sl_,su_,sn_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskx(self,whichsol_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skx is None: raise TypeError(\"Invalid type for argument skx\")\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.putskx(whichsol_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getslcslice(self,whichsol_,first_,last_,slc_):\n _slc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),((last_) - (first_))))\n if isinstance(slc_,numpy.ndarray) and not slc_.flags.writeable:\n raise ValueError(\"Argument slc must be writable\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_getslcslice(self.__nativep,whichsol_,first_,last_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slc_copyarray:\n slc_[:] = _slc_np_tmp", "def putskcslice(self,whichsol_,first_,last_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n \n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n \n if skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.putskcslice(whichsol_,first_,last_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsolution(self,whichsol_,skc,skx,skn,xc,xx,y,slc,suc,slx,sux,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skc = False\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n _copyback_skc = True\n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n _copyback_skc = True\n if skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc has wrong length\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx has wrong length\")\n _copyback_skn = False\n if skn is None:\n skn_ = None\n else:\n try:\n skn_ = memoryview(skn)\n except TypeError:\n try:\n _tmparr_skn = array.array(\"i\",skn)\n except TypeError:\n raise TypeError(\"Argument skn has wrong type\")\n else:\n skn_ = memoryview(_tmparr_skn)\n _copyback_skn = True\n else:\n if skn_.format != \"i\":\n skn_ = memoryview(array.array(\"i\",skn))\n _copyback_skn = True\n if skn_ is not None and len(skn_) != self.getnumcone():\n raise ValueError(\"Array argument skn has wrong length\")\n _copyback_xc = False\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n _copyback_xc = True\n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n _copyback_xc = True\n if xc_ is not None and len(xc_) != self.getnumcon():\n raise ValueError(\"Array argument xc has wrong length\")\n _copyback_xx = False\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n _copyback_xx = True\n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n _copyback_xx = True\n if xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx has wrong length\")\n _copyback_y = False\n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n _copyback_y = True\n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n _copyback_y = True\n if y_ is not None and len(y_) != self.getnumcon():\n raise ValueError(\"Array argument y has wrong length\")\n _copyback_slc = False\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n _copyback_slc = True\n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n _copyback_slc = True\n if slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc has wrong length\")\n _copyback_suc = False\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n _copyback_suc = True\n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n _copyback_suc = True\n if suc_ is not None and len(suc_) != self.getnumcon():\n raise ValueError(\"Array argument suc has wrong length\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx has wrong length\")\n _copyback_sux = False\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n _copyback_sux = True\n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n _copyback_sux = True\n if sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux has wrong length\")\n _copyback_snx = False\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n _copyback_snx = True\n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n _copyback_snx = True\n if snx_ is not None and len(snx_) != self.getnumvar():\n raise ValueError(\"Array argument snx has wrong length\")\n res,resargs = self.__obj.getsolution(whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _prosta_return_value,_solsta_return_value = resargs\n if _copyback_snx:\n snx[:] = _tmparr_snx\n if _copyback_sux:\n sux[:] = _tmparr_sux\n if _copyback_slx:\n slx[:] = _tmparr_slx\n if _copyback_suc:\n suc[:] = _tmparr_suc\n if _copyback_slc:\n slc[:] = _tmparr_slc\n if _copyback_y:\n y[:] = _tmparr_y\n if _copyback_xx:\n xx[:] = _tmparr_xx\n if _copyback_xc:\n xc[:] = _tmparr_xc\n if _copyback_skn:\n for __tmp_var_2 in range(len(skn_)): skn[__tmp_var_2] = stakey(_tmparr_skn[__tmp_var_2])\n if _copyback_skx:\n for __tmp_var_1 in range(len(skx_)): skx[__tmp_var_1] = stakey(_tmparr_skx[__tmp_var_1])\n if _copyback_skc:\n for __tmp_var_0 in range(len(skc_)): skc[__tmp_var_0] = stakey(_tmparr_skc[__tmp_var_0])\n _solsta_return_value = solsta(_solsta_return_value)\n _prosta_return_value = prosta(_prosta_return_value)\n return _prosta_return_value,_solsta_return_value", "def putslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.putslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsolution(self,whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_):\n prosta_ = ctypes.c_int32()\n solsta_ = ctypes.c_int32()\n _skc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),self.getnumcon()))\n if isinstance(skc_,numpy.ndarray) and not skc_.flags.writeable:\n raise ValueError(\"Argument skc must be writable\")\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))()\n else:\n _skc_tmp = None\n _skx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),self.getnumvar()))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n _skn_minlength = self.getnumcone()\n if self.getnumcone() > 0 and skn_ is not None and len(skn_) != self.getnumcone():\n raise ValueError(\"Array argument skn is not long enough: Is %d, expected %d\" % (len(skn_),self.getnumcone()))\n if isinstance(skn_,numpy.ndarray) and not skn_.flags.writeable:\n raise ValueError(\"Argument skn must be writable\")\n if skn_ is not None:\n _skn_tmp = (ctypes.c_int32 * len(skn_))()\n else:\n _skn_tmp = None\n _xc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and xc_ is not None and len(xc_) != self.getnumcon():\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),self.getnumcon()))\n if isinstance(xc_,numpy.ndarray) and not xc_.flags.writeable:\n raise ValueError(\"Argument xc must be writable\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n _xx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),self.getnumvar()))\n if isinstance(xx_,numpy.ndarray) and not xx_.flags.writeable:\n raise ValueError(\"Argument xx must be writable\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n _y_minlength = self.getnumcon()\n if self.getnumcon() > 0 and y_ is not None and len(y_) != self.getnumcon():\n raise ValueError(\"Array argument y is not long enough: Is %d, expected %d\" % (len(y_),self.getnumcon()))\n if isinstance(y_,numpy.ndarray) and not y_.flags.writeable:\n raise ValueError(\"Argument y must be writable\")\n if isinstance(y_, numpy.ndarray) and y_.dtype is numpy.dtype(numpy.float64) and y_.flags.contiguous:\n _y_copyarray = False\n _y_tmp = ctypes.cast(y_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif y_ is not None:\n _y_copyarray = True\n _y_np_tmp = numpy.zeros(len(y_),numpy.dtype(numpy.float64))\n _y_np_tmp[:] = y_\n assert _y_np_tmp.flags.contiguous\n _y_tmp = ctypes.cast(_y_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _y_copyarray = False\n _y_tmp = None\n \n _slc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),self.getnumcon()))\n if isinstance(slc_,numpy.ndarray) and not slc_.flags.writeable:\n raise ValueError(\"Argument slc must be writable\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n _suc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and suc_ is not None and len(suc_) != self.getnumcon():\n raise ValueError(\"Array argument suc is not long enough: Is %d, expected %d\" % (len(suc_),self.getnumcon()))\n if isinstance(suc_,numpy.ndarray) and not suc_.flags.writeable:\n raise ValueError(\"Argument suc must be writable\")\n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n _slx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),self.getnumvar()))\n if isinstance(slx_,numpy.ndarray) and not slx_.flags.writeable:\n raise ValueError(\"Argument slx must be writable\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n _sux_minlength = self.getnumvar()\n if self.getnumvar() > 0 and sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),self.getnumvar()))\n if isinstance(sux_,numpy.ndarray) and not sux_.flags.writeable:\n raise ValueError(\"Argument sux must be writable\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n _snx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and snx_ is not None and len(snx_) != self.getnumvar():\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),self.getnumvar()))\n if isinstance(snx_,numpy.ndarray) and not snx_.flags.writeable:\n raise ValueError(\"Argument snx must be writable\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_getsolution(self.__nativep,whichsol_,ctypes.byref(prosta_),ctypes.byref(solsta_),_skc_tmp,_skx_tmp,_skn_tmp,_xc_tmp,_xx_tmp,_y_tmp,_slc_tmp,_suc_tmp,_slx_tmp,_sux_tmp,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _prosta_return_value = prosta(prosta_.value)\n _solsta_return_value = solsta(solsta_.value)\n if skc_ is not None: skc_[:] = [ stakey(v) for v in _skc_tmp[0:len(skc_)] ]\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]\n if skn_ is not None: skn_[:] = [ stakey(v) for v in _skn_tmp[0:len(skn_)] ]\n if _xc_copyarray:\n xc_[:] = _xc_np_tmp\n if _xx_copyarray:\n xx_[:] = _xx_np_tmp\n if _y_copyarray:\n y_[:] = _y_np_tmp\n if _slc_copyarray:\n slc_[:] = _slc_np_tmp\n if _suc_copyarray:\n suc_[:] = _suc_np_tmp\n if _slx_copyarray:\n slx_[:] = _slx_np_tmp\n if _sux_copyarray:\n sux_[:] = _sux_np_tmp\n if _snx_copyarray:\n snx_[:] = _snx_np_tmp\n return (_prosta_return_value,_solsta_return_value)", "def setHsl ( self, h, s = 0.0, l = 0.0 ):\n self.setHsla( h, s, l )", "def putslxslice(self,whichsol_,first_,last_,slx_):\n _slx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),((last_) - (first_))))\n if slx_ is None:\n raise ValueError(\"Argument slx cannot be None\")\n if slx_ is None:\n raise ValueError(\"Argument slx may not be None\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_putslxslice(self.__nativep,whichsol_,first_,last_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskcslice(self,whichsol_,first_,last_,skc_):\n _skc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),((last_) - (first_))))\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))(*skc_)\n else:\n _skc_tmp = None\n res = __library__.MSK_XX_putskcslice(self.__nativep,whichsol_,first_,last_,_skc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getslx(self,whichsol_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.getslx(whichsol_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slx:\n slx[:] = _tmparr_slx", "def putskx(self,whichsol_,skx_):\n _skx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),self.getnumvar()))\n if skx_ is None:\n raise ValueError(\"Argument skx cannot be None\")\n if skx_ is None:\n raise ValueError(\"Argument skx may not be None\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))(*skx_)\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_putskx(self.__nativep,whichsol_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsolutionyi(self,i_,whichsol_,y_):\n res = __library__.MSK_XX_putsolutionyi(self.__nativep,i_,whichsol_,y_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getskc(self,whichsol_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skc = False\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n _copyback_skc = True\n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n _copyback_skc = True\n if skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.getskc(whichsol_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skc:\n for __tmp_var_0 in range(len(skc_)): skc[__tmp_var_0] = stakey(_tmparr_skc[__tmp_var_0])", "def getslx(self,whichsol_,slx_):\n _slx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),self.getnumvar()))\n if isinstance(slx_,numpy.ndarray) and not slx_.flags.writeable:\n raise ValueError(\"Argument slx must be writable\")\n if slx_ is None:\n raise ValueError(\"Argument slx may not be None\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_getslx(self.__nativep,whichsol_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slx_copyarray:\n slx_[:] = _slx_np_tmp", "def SetSolarSystem(self, ss):\n return _gmat_py.PowerSystem_SetSolarSystem(self, ss)" ]

[ "0.81765276", "0.71909016", "0.70336485", "0.6900895", "0.6891917", "0.65892226", "0.6535961", "0.6420544", "0.6415206", "0.62880546", "0.62139344", "0.5922277", "0.5874246", "0.58729297", "0.5872463", "0.57787675", "0.5756639", "0.56310564", "0.5614232", "0.5538193", "0.5517888", "0.5513315", "0.5493849", "0.54723954", "0.54716796", "0.54434663", "0.5414921", "0.53375477", "0.5286872", "0.5160198" ]

[ "def putsuc(self,whichsol_,suc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if suc is None: raise TypeError(\"Invalid type for argument suc\")\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n \n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n \n if suc_ is not None and len(suc_) != self.getnumcon():\n raise ValueError(\"Array argument suc has wrong length\")\n res = self.__obj.putsuc(whichsol_,suc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsuc(self,whichsol_,suc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if suc is None: raise TypeError(\"Invalid type for argument suc\")\n _copyback_suc = False\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n _copyback_suc = True\n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n _copyback_suc = True\n if suc_ is not None and len(suc_) != self.getnumcon():\n raise ValueError(\"Array argument suc has wrong length\")\n res = self.__obj.getsuc(whichsol_,suc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_suc:\n suc[:] = _tmparr_suc", "def getsuc(self,whichsol_,suc_):\n _suc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and suc_ is not None and len(suc_) != self.getnumcon():\n raise ValueError(\"Array argument suc is not long enough: Is %d, expected %d\" % (len(suc_),self.getnumcon()))\n if isinstance(suc_,numpy.ndarray) and not suc_.flags.writeable:\n raise ValueError(\"Argument suc must be writable\")\n if suc_ is None:\n raise ValueError(\"Argument suc may not be None\")\n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n res = __library__.MSK_XX_getsuc(self.__nativep,whichsol_,_suc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _suc_copyarray:\n suc_[:] = _suc_np_tmp", "def putsucslice(self,whichsol_,first_,last_,suc_):\n _suc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc is not long enough: Is %d, expected %d\" % (len(suc_),((last_) - (first_))))\n if suc_ is None:\n raise ValueError(\"Argument suc cannot be None\")\n if suc_ is None:\n raise ValueError(\"Argument suc may not be None\")\n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n res = __library__.MSK_XX_putsucslice(self.__nativep,whichsol_,first_,last_,_suc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsucslice(self,whichsol_,first_,last_,suc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if suc is None: raise TypeError(\"Invalid type for argument suc\")\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n \n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n \n if suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc has wrong length\")\n res = self.__obj.putsucslice(whichsol_,first_,last_,suc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsolution(self,whichsol_,skc,skx,skn,xc,xx,y,slc,suc,slx,sux,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n \n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n \n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skn is None:\n skn_ = None\n else:\n try:\n skn_ = memoryview(skn)\n except TypeError:\n try:\n _tmparr_skn = array.array(\"i\",skn)\n except TypeError:\n raise TypeError(\"Argument skn has wrong type\")\n else:\n skn_ = memoryview(_tmparr_skn)\n \n else:\n if skn_.format != \"i\":\n skn_ = memoryview(array.array(\"i\",skn))\n \n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n \n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n \n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n \n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n \n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n \n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n \n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n \n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n \n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n \n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n \n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n \n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n \n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n \n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n \n res = self.__obj.putsolution(whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconsolutioni(self,i_,whichsol_,sk_,x_,sl_,su_):\n res = __library__.MSK_XX_putconsolutioni(self.__nativep,i_,whichsol_,sk_,x_,sl_,su_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsolution(self,whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_):\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))(*skc_)\n else:\n _skc_tmp = None\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))(*skx_)\n else:\n _skx_tmp = None\n if skn_ is not None:\n _skn_tmp = (ctypes.c_int32 * len(skn_))(*skn_)\n else:\n _skn_tmp = None\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n if isinstance(y_, numpy.ndarray) and y_.dtype is numpy.dtype(numpy.float64) and y_.flags.contiguous:\n _y_copyarray = False\n _y_tmp = ctypes.cast(y_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif y_ is not None:\n _y_copyarray = True\n _y_np_tmp = numpy.zeros(len(y_),numpy.dtype(numpy.float64))\n _y_np_tmp[:] = y_\n assert _y_np_tmp.flags.contiguous\n _y_tmp = ctypes.cast(_y_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _y_copyarray = False\n _y_tmp = None\n \n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_putsolution(self.__nativep,whichsol_,_skc_tmp,_skx_tmp,_skn_tmp,_xc_tmp,_xx_tmp,_y_tmp,_slc_tmp,_suc_tmp,_slx_tmp,_sux_tmp,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarsolutionj(self,j_,whichsol_,sk_,x_,sl_,su_,sn_):\n res = __library__.MSK_XX_putvarsolutionj(self.__nativep,j_,whichsol_,sk_,x_,sl_,su_,sn_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsolutioni(self,accmode_,i_,whichsol_,sk_,x_,sl_,su_,sn_): # 3\n if not isinstance(accmode_,accmode): raise TypeError(\"Argument accmode has wrong type\")\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if not isinstance(sk_,stakey): raise TypeError(\"Argument sk has wrong type\")\n res = self.__obj.putsolutioni(accmode_,i_,whichsol_,sk_,x_,sl_,su_,sn_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def successeurs(self,etat):\n pass", "def add_solution(self, solution):\n if self.check_solution(solution):\n self._solution = solution\n self.solution_status = 'OK'\n else:\n self._solution = None\n self.solution_status = 'X'", "def addSuccTo(self, thisNode, addedSuccessor):\n # add addedSuccessor to node addedSuccessors\n if self.nodes.get(thisNode) != None:\n self.nodes[thisNode] += addedSuccessor\n else:\n self.nodes[thisNode] = addedSuccessor", "def getsucslice(self,whichsol_,first_,last_,suc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_suc = False\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n _copyback_suc = True\n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n _copyback_suc = True\n if suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc has wrong length\")\n res = self.__obj.getsucslice(whichsol_,first_,last_,suc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_suc:\n suc[:] = _tmparr_suc", "def suc_nonce(self, nonce = None):\n\n # if we don't provide a nonce. We will use the internal one\n if nonce is None:\n nonce = self.nonce\n\n # We convert the nonce in bit in order to work on it\n bit_nonce = int_to_bitstr(nonce, 32)\n\n \"\"\" Generate the feedback bit based on the nonce's \n second half, because the last 16 bits of the nonce is\n identical to the 16 bits prng state. \"\"\"\n fbit = self.prng_feedback(bit_nonce[16,:])\n\n # The left bit is discarded and the feedback bit is added\n nonce = bit_nonce[1:] + fbit\n\n # We will update the internal nonce/prng to the suc(nonce/prng)\n if nonce is None:\n\n # The internal prng is updated with the second part of the nonce\n self.prng = bitstr_to_int(bit_nonce[16,:])\n self.nonce = bitstr_to_int(bit_nonce)\n\n # Return nonce, it will be sent to the reader\n return self.nonce\n else:\n return bitstr_to_int(nonce)", "def getsucslice(self,whichsol_,first_,last_,suc_):\n _suc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc is not long enough: Is %d, expected %d\" % (len(suc_),((last_) - (first_))))\n if isinstance(suc_,numpy.ndarray) and not suc_.flags.writeable:\n raise ValueError(\"Argument suc must be writable\")\n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n res = __library__.MSK_XX_getsucslice(self.__nativep,whichsol_,first_,last_,_suc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _suc_copyarray:\n suc_[:] = _suc_np_tmp", "def set(self,row,col,value):\r\n self.puzzle[row][col] = value\r\n print(\"Entered value \",value)\r\n if self.puzzle[row][col] == self.rows[row][col]:\r\n self.score = self.score+5\r\n else:\r\n self.score = self.score-5", "def train(self, prob: SvmUProblem):\n # Define variables\n self.prob = prob\n x = self.prob.X\n y = self.prob.Y\n\n # Define the inputs to CVXOPT - See Appendix G.6\n P_a = prob.yi_yj * prob.xi_xj\n P_b = prob.gamma * prob.xstari_xstarj\n P_c = prob.sigma * prob.yi_yj * prob.xstarstari_xstarstarj\n\n P_row_0 = np.hstack((P_a + P_b, P_a))\n P_row_0 = np.hstack((P_row_0, P_b))\n P_row_0 = np.hstack((P_row_0, np.zeros((prob.num, prob.num))))\n P_row_1 = np.hstack((P_a, P_a + P_c))\n P_row_1 = np.hstack((P_row_1, np.zeros((prob.num, prob.num))))\n P_row_1 = np.hstack((P_row_1, P_c))\n P_row_2 = np.hstack((P_b, np.zeros((prob.num, prob.num))))\n P_row_2 = np.hstack((P_row_2, P_b))\n P_row_2 = np.hstack((P_row_2, np.zeros((prob.num, prob.num))))\n P_row_3 = np.hstack((np.zeros((prob.num, prob.num)), P_c))\n P_row_3 = np.hstack((P_row_3, np.zeros((prob.num, prob.num))))\n P_row_3 = np.hstack((P_row_3, P_c))\n\n P = np.vstack((P_row_0, P_row_1))\n P = np.vstack((P, P_row_2))\n P = np.vstack((P, P_row_3))\n\n q = np.hstack((np.repeat(-1, prob.num), np.repeat(-1, prob.num)))\n q = np.hstack((q, np.zeros(prob.num)))\n q = np.hstack((q, np.zeros(prob.num)))\n\n positive_eye = np.eye(prob.num, dtype='d')\n negative_eye = -np.eye(prob.num, dtype='d')\n zeros = np.zeros((prob.num, prob.num))\n\n # g1 = -a <= 0\n g1 = np.hstack((negative_eye, zeros))\n g1 = np.hstack((g1, zeros))\n g1 = np.hstack((g1, zeros))\n\n # g2 = -n <= 0\n g2 = np.hstack((zeros, negative_eye))\n g2 = np.hstack((g2, zeros))\n g2 = np.hstack((g2, zeros))\n\n # g3 = -d <= C\n g3 = np.hstack((zeros, zeros))\n g3 = np.hstack((g3, negative_eye))\n g3 = np.hstack((g3, zeros))\n\n # g4 = n + e <= Del C\n g4 = np.hstack((zeros, positive_eye))\n g4 = np.hstack((g4, zeros))\n g4 = np.hstack((g4, positive_eye))\n\n # g5 = -e <= C\n g5 = np.hstack((zeros, zeros))\n g5 = np.hstack((g5, zeros))\n g5 = np.hstack((g5, negative_eye))\n\n G = np.vstack((g1, g2))\n G = np.vstack((G, g3))\n G = np.vstack((G, g4))\n G = np.vstack((G, g5))\n\n h1 = np.zeros((prob.num, 1))\n h2 = np.zeros((prob.num, 1))\n h3 = np.repeat(prob.C, prob.num).reshape(-1, 1)\n h4 = np.repeat((prob.delta * prob.C), prob.num).reshape(-1, 1)\n h5 = np.repeat(prob.C, prob.num).reshape(-1, 1)\n h = np.vstack((h1, h2))\n h = np.vstack((h, h3))\n h = np.vstack((h, h4))\n h = np.vstack((h, h5))\n\n A1 = np.hstack((prob.Y, -prob.Y))\n A1 = np.hstack((A1, np.zeros(2 * prob.num)))\n A2 = np.hstack((-np.ones(prob.num), np.zeros(prob.num)))\n A2 = np.hstack((A2, -np.ones(prob.num)))\n A2 = np.hstack((A2, np.zeros(prob.num)))\n A3 = np.hstack((np.zeros(prob.num), -prob.Y))\n A3 = np.hstack((A3, np.zeros(prob.num)))\n A3 = np.hstack((A3, -prob.Y))\n\n A = np.vstack((A1, A2))\n A = np.vstack((A, A3))\n\n b = np.zeros(3)\n b = b.reshape(-1, 1)\n\n P = matrix(P, tc='d')\n q = matrix(q, tc='d')\n G = matrix(G, tc='d')\n h = matrix(h, tc='d')\n A = matrix(A, tc='d')\n b = matrix(b, tc='d')\n\n # Solve optimization problem using CVXOPT\n solvers.options['show_progress'] = False\n sol = solvers.qp(P, q, G, h, A, b)\n alphas_etas_deltas_epsilons = np.array(sol['x'])\n self.alphas = alphas_etas_deltas_epsilons[:prob.num]\n self.etas = alphas_etas_deltas_epsilons[prob.num:(2 * prob.num)]\n self.deltas = alphas_etas_deltas_epsilons[(2 * prob.num):(3 * prob.num)]\n self.epsilons = alphas_etas_deltas_epsilons[-prob.num:]\n\n # Populate Classifier object to be returned\n clf = Classifier()\n clf.b = self.get_b\n clf.alphas = np.asarray(self.alphas + self.etas)\n clf.xs = x\n clf.ys = y\n clf.kern = prob.xkernel\n return clf", "def succeeded(self, succeeded):\n\n self._succeeded = succeeded", "def putxc(self,whichsol_,xc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xc is None: raise TypeError(\"Invalid type for argument xc\")\n _copyback_xc = False\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n _copyback_xc = True\n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n _copyback_xc = True\n if xc_ is not None and len(xc_) != self.getnumcon():\n raise ValueError(\"Array argument xc has wrong length\")\n res = self.__obj.putxc(whichsol_,xc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xc:\n xc[:] = _tmparr_xc", "def updateQuestionsSolved(self):\r\n self.questionsCompletedLabel.setText(\"Questions completed: {}\".format(save.getProblemsSolved()))", "def SetResultValue(self, *args):\n return _gmat_py.Solver_SetResultValue(self, *args)", "def SetSolverResults(self, *args):\n return _gmat_py.Solver_SetSolverResults(self, *args)", "def putskc(self,whichsol_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skc is None: raise TypeError(\"Invalid type for argument skc\")\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n \n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n \n if skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.putskc(whichsol_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsolution(self,whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_):\n prosta_ = ctypes.c_int32()\n solsta_ = ctypes.c_int32()\n _skc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),self.getnumcon()))\n if isinstance(skc_,numpy.ndarray) and not skc_.flags.writeable:\n raise ValueError(\"Argument skc must be writable\")\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))()\n else:\n _skc_tmp = None\n _skx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),self.getnumvar()))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n _skn_minlength = self.getnumcone()\n if self.getnumcone() > 0 and skn_ is not None and len(skn_) != self.getnumcone():\n raise ValueError(\"Array argument skn is not long enough: Is %d, expected %d\" % (len(skn_),self.getnumcone()))\n if isinstance(skn_,numpy.ndarray) and not skn_.flags.writeable:\n raise ValueError(\"Argument skn must be writable\")\n if skn_ is not None:\n _skn_tmp = (ctypes.c_int32 * len(skn_))()\n else:\n _skn_tmp = None\n _xc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and xc_ is not None and len(xc_) != self.getnumcon():\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),self.getnumcon()))\n if isinstance(xc_,numpy.ndarray) and not xc_.flags.writeable:\n raise ValueError(\"Argument xc must be writable\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n _xx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),self.getnumvar()))\n if isinstance(xx_,numpy.ndarray) and not xx_.flags.writeable:\n raise ValueError(\"Argument xx must be writable\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n _y_minlength = self.getnumcon()\n if self.getnumcon() > 0 and y_ is not None and len(y_) != self.getnumcon():\n raise ValueError(\"Array argument y is not long enough: Is %d, expected %d\" % (len(y_),self.getnumcon()))\n if isinstance(y_,numpy.ndarray) and not y_.flags.writeable:\n raise ValueError(\"Argument y must be writable\")\n if isinstance(y_, numpy.ndarray) and y_.dtype is numpy.dtype(numpy.float64) and y_.flags.contiguous:\n _y_copyarray = False\n _y_tmp = ctypes.cast(y_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif y_ is not None:\n _y_copyarray = True\n _y_np_tmp = numpy.zeros(len(y_),numpy.dtype(numpy.float64))\n _y_np_tmp[:] = y_\n assert _y_np_tmp.flags.contiguous\n _y_tmp = ctypes.cast(_y_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _y_copyarray = False\n _y_tmp = None\n \n _slc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),self.getnumcon()))\n if isinstance(slc_,numpy.ndarray) and not slc_.flags.writeable:\n raise ValueError(\"Argument slc must be writable\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n _suc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and suc_ is not None and len(suc_) != self.getnumcon():\n raise ValueError(\"Array argument suc is not long enough: Is %d, expected %d\" % (len(suc_),self.getnumcon()))\n if isinstance(suc_,numpy.ndarray) and not suc_.flags.writeable:\n raise ValueError(\"Argument suc must be writable\")\n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n _slx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),self.getnumvar()))\n if isinstance(slx_,numpy.ndarray) and not slx_.flags.writeable:\n raise ValueError(\"Argument slx must be writable\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n _sux_minlength = self.getnumvar()\n if self.getnumvar() > 0 and sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),self.getnumvar()))\n if isinstance(sux_,numpy.ndarray) and not sux_.flags.writeable:\n raise ValueError(\"Argument sux must be writable\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n _snx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and snx_ is not None and len(snx_) != self.getnumvar():\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),self.getnumvar()))\n if isinstance(snx_,numpy.ndarray) and not snx_.flags.writeable:\n raise ValueError(\"Argument snx must be writable\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_getsolution(self.__nativep,whichsol_,ctypes.byref(prosta_),ctypes.byref(solsta_),_skc_tmp,_skx_tmp,_skn_tmp,_xc_tmp,_xx_tmp,_y_tmp,_slc_tmp,_suc_tmp,_slx_tmp,_sux_tmp,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _prosta_return_value = prosta(prosta_.value)\n _solsta_return_value = solsta(solsta_.value)\n if skc_ is not None: skc_[:] = [ stakey(v) for v in _skc_tmp[0:len(skc_)] ]\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]\n if skn_ is not None: skn_[:] = [ stakey(v) for v in _skn_tmp[0:len(skn_)] ]\n if _xc_copyarray:\n xc_[:] = _xc_np_tmp\n if _xx_copyarray:\n xx_[:] = _xx_np_tmp\n if _y_copyarray:\n y_[:] = _y_np_tmp\n if _slc_copyarray:\n slc_[:] = _slc_np_tmp\n if _suc_copyarray:\n suc_[:] = _suc_np_tmp\n if _slx_copyarray:\n slx_[:] = _slx_np_tmp\n if _sux_copyarray:\n sux_[:] = _sux_np_tmp\n if _snx_copyarray:\n snx_[:] = _snx_np_tmp\n return (_prosta_return_value,_solsta_return_value)", "def train(self, prob: SvmProblem):\n # Define variables\n self.prob = prob\n C = self.prob.C\n gamma = self.prob.gamma\n\n # Define the inputs to CVXOPT - See Appendix G.2\n P1 = (self.prob.xi_xj * self.prob.yi_yj) + gamma * self.prob.xstari_xstarj\n P2 = gamma * self.prob.xstari_xstarj\n P11 = np.hstack((P1, P2))\n P22 = np.hstack((P2, P2))\n P = np.vstack((P11, P22))\n q = np.hstack((np.repeat(-1, self.prob.num), np.zeros(self.prob.num)))\n negative_eye = -np.eye(self.prob.num, dtype='d')\n zeros = np.zeros((self.prob.num, self.prob.num))\n g1 = np.hstack((negative_eye, zeros))\n g2 = np.hstack((zeros, negative_eye))\n G = np.vstack((g1, g2))\n h1 = np.zeros((self.prob.num, 1))\n h2 = np.repeat(C, self.prob.num).reshape(-1, 1)\n h = np.vstack((h1, h2))\n A1 = np.hstack((self.prob.Y, np.zeros(self.prob.num)))\n A2 = np.repeat(-1, 2 * self.prob.num)\n A = np.vstack((A1, A2))\n b = np.zeros(2)\n b = b.reshape(-1, 1)\n\n P = matrix(P, tc='d')\n q = matrix(q, tc='d')\n G = matrix(G, tc='d')\n h = matrix(h, tc='d')\n A = matrix(A, tc='d')\n b = matrix(b, tc='d')\n\n # Solve optimization problem using CVXOPT\n solvers.options['show_progress'] = False\n sol = solvers.qp(P, q, G, h, A, b)\n alphas_deltas = np.array(sol['x'])\n self.alphas = np.asarray(alphas_deltas[:self.prob.num])\n self.deltas = alphas_deltas[self.prob.num:]\n\n # Populate Classifier object to be returned\n clf = Classifier()\n clf.b = self.getB()\n clf.alphas = self.alphas\n clf.xs = self.prob.X\n clf.ys = self.prob.Y\n clf.kern = self.prob.xkernel\n return clf", "def putskx(self,whichsol_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skx is None: raise TypeError(\"Invalid type for argument skx\")\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.putskx(whichsol_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def addSuccess(self, test):\n test.status = \"success\"", "def updatesolutioninfo(self,whichsol_):\n res = __library__.MSK_XX_updatesolutioninfo(self.__nativep,whichsol_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def notify_solution(self, sol):\n self._solutions.append(sol)" ]

[ "0.8089537", "0.7096102", "0.69045806", "0.6241367", "0.62060827", "0.5703846", "0.5530774", "0.54550856", "0.533381", "0.5319277", "0.52304506", "0.5144899", "0.51391596", "0.5130412", "0.509269", "0.49462497", "0.4835633", "0.4781143", "0.47761893", "0.4767407", "0.47571504", "0.47446036", "0.4711283", "0.47111914", "0.469672", "0.4692369", "0.46861914", "0.46834654", "0.467814", "0.46586114" ]

[ "def putslx(self,whichsol_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.putslx(whichsol_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getslx(self,whichsol_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.getslx(whichsol_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slx:\n slx[:] = _tmparr_slx", "def getslx(self,whichsol_,slx_):\n _slx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),self.getnumvar()))\n if isinstance(slx_,numpy.ndarray) and not slx_.flags.writeable:\n raise ValueError(\"Argument slx must be writable\")\n if slx_ is None:\n raise ValueError(\"Argument slx may not be None\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_getslx(self.__nativep,whichsol_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slx_copyarray:\n slx_[:] = _slx_np_tmp", "def putslxslice(self,whichsol_,first_,last_,slx_):\n _slx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),((last_) - (first_))))\n if slx_ is None:\n raise ValueError(\"Argument slx cannot be None\")\n if slx_ is None:\n raise ValueError(\"Argument slx may not be None\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_putslxslice(self.__nativep,whichsol_,first_,last_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.putslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskx(self,whichsol_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skx is None: raise TypeError(\"Invalid type for argument skx\")\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.putskx(whichsol_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsnx(self,whichsol_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if sux is None: raise TypeError(\"Invalid type for argument sux\")\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n \n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n \n if sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.putsnx(whichsol_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskx(self,whichsol_,skx_):\n _skx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),self.getnumvar()))\n if skx_ is None:\n raise ValueError(\"Argument skx cannot be None\")\n if skx_ is None:\n raise ValueError(\"Argument skx may not be None\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))(*skx_)\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_putskx(self.__nativep,whichsol_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsnx(self,whichsol_,sux_):\n _sux_minlength = self.getnumvar()\n if self.getnumvar() > 0 and sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),self.getnumvar()))\n if sux_ is None:\n raise ValueError(\"Argument sux cannot be None\")\n if sux_ is None:\n raise ValueError(\"Argument sux may not be None\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_putsnx(self.__nativep,whichsol_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsolution(self,whichsol_,skc,skx,skn,xc,xx,y,slc,suc,slx,sux,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n \n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n \n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skn is None:\n skn_ = None\n else:\n try:\n skn_ = memoryview(skn)\n except TypeError:\n try:\n _tmparr_skn = array.array(\"i\",skn)\n except TypeError:\n raise TypeError(\"Argument skn has wrong type\")\n else:\n skn_ = memoryview(_tmparr_skn)\n \n else:\n if skn_.format != \"i\":\n skn_ = memoryview(array.array(\"i\",skn))\n \n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n \n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n \n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n \n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n \n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n \n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n \n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n \n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n \n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n \n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n \n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n \n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n \n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n \n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n \n res = self.__obj.putsolution(whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getslxslice(self,whichsol_,first_,last_,slx_):\n _slx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),((last_) - (first_))))\n if isinstance(slx_,numpy.ndarray) and not slx_.flags.writeable:\n raise ValueError(\"Argument slx must be writable\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_getslxslice(self.__nativep,whichsol_,first_,last_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slx_copyarray:\n slx_[:] = _slx_np_tmp", "def getslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.getslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slx:\n slx[:] = _tmparr_slx", "def putslc(self,whichsol_,slc_):\n _slc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),self.getnumcon()))\n if slc_ is None:\n raise ValueError(\"Argument slc cannot be None\")\n if slc_ is None:\n raise ValueError(\"Argument slc may not be None\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_putslc(self.__nativep,whichsol_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslc(self,whichsol_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slc is None: raise TypeError(\"Invalid type for argument slc\")\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n \n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n \n if slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.putslc(whichsol_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putxx(self,whichsol_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xx is None: raise TypeError(\"Invalid type for argument xx\")\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n \n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n \n if xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.putxx(whichsol_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsnx(self,whichsol_,snx_):\n _snx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and snx_ is not None and len(snx_) != self.getnumvar():\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),self.getnumvar()))\n if isinstance(snx_,numpy.ndarray) and not snx_.flags.writeable:\n raise ValueError(\"Argument snx must be writable\")\n if snx_ is None:\n raise ValueError(\"Argument snx may not be None\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_getsnx(self.__nativep,whichsol_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _snx_copyarray:\n snx_[:] = _snx_np_tmp", "def getsnx(self,whichsol_,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if snx is None: raise TypeError(\"Invalid type for argument snx\")\n _copyback_snx = False\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n _copyback_snx = True\n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n _copyback_snx = True\n if snx_ is not None and len(snx_) != self.getnumvar():\n raise ValueError(\"Array argument snx has wrong length\")\n res = self.__obj.getsnx(whichsol_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_snx:\n snx[:] = _tmparr_snx", "def set_state(self, x):\n self.xs_ = x", "def putconsolutioni(self,i_,whichsol_,sk_,x_,sl_,su_):\n res = __library__.MSK_XX_putconsolutioni(self.__nativep,i_,whichsol_,sk_,x_,sl_,su_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsolution(self,whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_):\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))(*skc_)\n else:\n _skc_tmp = None\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))(*skx_)\n else:\n _skx_tmp = None\n if skn_ is not None:\n _skn_tmp = (ctypes.c_int32 * len(skn_))(*skn_)\n else:\n _skn_tmp = None\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n if isinstance(y_, numpy.ndarray) and y_.dtype is numpy.dtype(numpy.float64) and y_.flags.contiguous:\n _y_copyarray = False\n _y_tmp = ctypes.cast(y_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif y_ is not None:\n _y_copyarray = True\n _y_np_tmp = numpy.zeros(len(y_),numpy.dtype(numpy.float64))\n _y_np_tmp[:] = y_\n assert _y_np_tmp.flags.contiguous\n _y_tmp = ctypes.cast(_y_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _y_copyarray = False\n _y_tmp = None\n \n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_putsolution(self.__nativep,whichsol_,_skc_tmp,_skx_tmp,_skn_tmp,_xc_tmp,_xx_tmp,_y_tmp,_slc_tmp,_suc_tmp,_slx_tmp,_sux_tmp,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarsolutionj(self,j_,whichsol_,sk_,x_,sl_,su_,sn_):\n res = __library__.MSK_XX_putvarsolutionj(self.__nativep,j_,whichsol_,sk_,x_,sl_,su_,sn_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getskx(self,whichsol_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.getskx(whichsol_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skx:\n for __tmp_var_0 in range(len(skx_)): skx[__tmp_var_0] = stakey(_tmparr_skx[__tmp_var_0])", "def set_Srs(self, x):\n x = float(x)\n if self.Srs != x:\n self.Srs = x", "def putsolutionyi(self,i_,whichsol_,y_):\n res = __library__.MSK_XX_putsolutionyi(self.__nativep,i_,whichsol_,y_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def SetSolarSystem(self, ss):\n return _gmat_py.PowerSystem_SetSolarSystem(self, ss)", "def getskx(self,whichsol_,skx_):\n _skx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),self.getnumvar()))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_getskx(self.__nativep,whichsol_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]", "def putsux(self,whichsol_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if sux is None: raise TypeError(\"Invalid type for argument sux\")\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n \n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n \n if sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.putsux(whichsol_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsux(self,whichsol_,sux_):\n _sux_minlength = self.getnumvar()\n if self.getnumvar() > 0 and sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),self.getnumvar()))\n if sux_ is None:\n raise ValueError(\"Argument sux cannot be None\")\n if sux_ is None:\n raise ValueError(\"Argument sux may not be None\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_putsux(self.__nativep,whichsol_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def tsx(self):\n\n self.x = self.sp\n self.set_zn(self.x)", "def setHsl ( self, h, s = 0.0, l = 0.0 ):\n self.setHsla( h, s, l )" ]

[ "0.84727997", "0.757701", "0.734609", "0.70459515", "0.69720054", "0.6686734", "0.6545576", "0.6458134", "0.63578767", "0.6129842", "0.6112239", "0.60045344", "0.5910696", "0.59034264", "0.58935696", "0.58419704", "0.5817452", "0.58091056", "0.57681745", "0.57624376", "0.57403964", "0.5728401", "0.5704315", "0.5665634", "0.56634825", "0.56384426", "0.56319547", "0.5599481", "0.55852467", "0.55805415" ]

[ "def putsux(self,whichsol_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if sux is None: raise TypeError(\"Invalid type for argument sux\")\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n \n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n \n if sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.putsux(whichsol_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsux(self,whichsol_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if sux is None: raise TypeError(\"Invalid type for argument sux\")\n _copyback_sux = False\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n _copyback_sux = True\n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n _copyback_sux = True\n if sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.getsux(whichsol_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_sux:\n sux[:] = _tmparr_sux", "def putsnx(self,whichsol_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if sux is None: raise TypeError(\"Invalid type for argument sux\")\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n \n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n \n if sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.putsnx(whichsol_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsux(self,whichsol_,sux_):\n _sux_minlength = self.getnumvar()\n if self.getnumvar() > 0 and sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),self.getnumvar()))\n if isinstance(sux_,numpy.ndarray) and not sux_.flags.writeable:\n raise ValueError(\"Argument sux must be writable\")\n if sux_ is None:\n raise ValueError(\"Argument sux may not be None\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_getsux(self.__nativep,whichsol_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _sux_copyarray:\n sux_[:] = _sux_np_tmp", "def putsnx(self,whichsol_,sux_):\n _sux_minlength = self.getnumvar()\n if self.getnumvar() > 0 and sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),self.getnumvar()))\n if sux_ is None:\n raise ValueError(\"Argument sux cannot be None\")\n if sux_ is None:\n raise ValueError(\"Argument sux may not be None\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_putsnx(self.__nativep,whichsol_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslx(self,whichsol_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.putslx(whichsol_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsuxslice(self,whichsol_,first_,last_,sux_):\n _sux_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),((last_) - (first_))))\n if sux_ is None:\n raise ValueError(\"Argument sux cannot be None\")\n if sux_ is None:\n raise ValueError(\"Argument sux may not be None\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_putsuxslice(self.__nativep,whichsol_,first_,last_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsuxslice(self,whichsol_,first_,last_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if sux is None: raise TypeError(\"Invalid type for argument sux\")\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n \n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n \n if sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.putsuxslice(whichsol_,first_,last_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskx(self,whichsol_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skx is None: raise TypeError(\"Invalid type for argument skx\")\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.putskx(whichsol_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsolution(self,whichsol_,skc,skx,skn,xc,xx,y,slc,suc,slx,sux,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n \n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n \n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skn is None:\n skn_ = None\n else:\n try:\n skn_ = memoryview(skn)\n except TypeError:\n try:\n _tmparr_skn = array.array(\"i\",skn)\n except TypeError:\n raise TypeError(\"Argument skn has wrong type\")\n else:\n skn_ = memoryview(_tmparr_skn)\n \n else:\n if skn_.format != \"i\":\n skn_ = memoryview(array.array(\"i\",skn))\n \n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n \n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n \n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n \n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n \n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n \n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n \n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n \n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n \n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n \n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n \n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n \n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n \n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n \n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n \n res = self.__obj.putsolution(whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslx(self,whichsol_,slx_):\n _slx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),self.getnumvar()))\n if slx_ is None:\n raise ValueError(\"Argument slx cannot be None\")\n if slx_ is None:\n raise ValueError(\"Argument slx may not be None\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_putslx(self.__nativep,whichsol_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsuxslice(self,whichsol_,first_,last_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_sux = False\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n _copyback_sux = True\n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n _copyback_sux = True\n if sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.getsuxslice(whichsol_,first_,last_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_sux:\n sux[:] = _tmparr_sux", "def putvarsolutionj(self,j_,whichsol_,sk_,x_,sl_,su_,sn_):\n res = __library__.MSK_XX_putvarsolutionj(self.__nativep,j_,whichsol_,sk_,x_,sl_,su_,sn_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskx(self,whichsol_,skx_):\n _skx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),self.getnumvar()))\n if skx_ is None:\n raise ValueError(\"Argument skx cannot be None\")\n if skx_ is None:\n raise ValueError(\"Argument skx may not be None\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))(*skx_)\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_putskx(self.__nativep,whichsol_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsuxslice(self,whichsol_,first_,last_,sux_):\n _sux_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),((last_) - (first_))))\n if isinstance(sux_,numpy.ndarray) and not sux_.flags.writeable:\n raise ValueError(\"Argument sux must be writable\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_getsuxslice(self.__nativep,whichsol_,first_,last_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _sux_copyarray:\n sux_[:] = _sux_np_tmp", "def putxx(self,whichsol_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xx is None: raise TypeError(\"Invalid type for argument xx\")\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n \n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n \n if xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.putxx(whichsol_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsolution(self,whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_):\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))(*skc_)\n else:\n _skc_tmp = None\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))(*skx_)\n else:\n _skx_tmp = None\n if skn_ is not None:\n _skn_tmp = (ctypes.c_int32 * len(skn_))(*skn_)\n else:\n _skn_tmp = None\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n if isinstance(y_, numpy.ndarray) and y_.dtype is numpy.dtype(numpy.float64) and y_.flags.contiguous:\n _y_copyarray = False\n _y_tmp = ctypes.cast(y_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif y_ is not None:\n _y_copyarray = True\n _y_np_tmp = numpy.zeros(len(y_),numpy.dtype(numpy.float64))\n _y_np_tmp[:] = y_\n assert _y_np_tmp.flags.contiguous\n _y_tmp = ctypes.cast(_y_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _y_copyarray = False\n _y_tmp = None\n \n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_putsolution(self.__nativep,whichsol_,_skc_tmp,_skx_tmp,_skn_tmp,_xc_tmp,_xx_tmp,_y_tmp,_slc_tmp,_suc_tmp,_slx_tmp,_sux_tmp,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslc(self,whichsol_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slc is None: raise TypeError(\"Invalid type for argument slc\")\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n \n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n \n if slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.putslc(whichsol_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsolutionyi(self,i_,whichsol_,y_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res = self.__obj.putsolutionyi(i_,whichsol_,y_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconsolutioni(self,i_,whichsol_,sk_,x_,sl_,su_):\n res = __library__.MSK_XX_putconsolutioni(self.__nativep,i_,whichsol_,sk_,x_,sl_,su_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsolutionyi(self,i_,whichsol_,y_):\n res = __library__.MSK_XX_putsolutionyi(self.__nativep,i_,whichsol_,y_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def test_set_su(self):\n s = State(substance=\"water\")\n s.su = Q_(3028.9867985920914, \"J/(kg*K)\"), Q_(1013250.0, \"J/kg\")\n # Pylance does not support NumPy ufuncs\n assert np.isclose(s.T, Q_(373.1242958476843, \"K\")) # type: ignore\n assert np.isclose(s.p, Q_(101325.0, \"Pa\")) # type: ignore\n assert np.isclose(s.su[0], Q_(3028.9867985920914, \"J/(kg*K)\")) # type: ignore\n assert np.isclose(s.su[1], Q_(1013250.0, \"J/kg\")) # type: ignore\n assert np.isclose(s.u, Q_(1013250, \"J/kg\")) # type: ignore\n assert np.isclose(s.s, Q_(3028.9867985920914, \"J/(kg*K)\")) # type: ignore\n assert np.isclose(s.v, Q_(0.4772010021515822, \"m**3/kg\")) # type: ignore\n assert np.isclose(s.h, Q_(1061602.391543017, \"J/kg\")) # type: ignore\n assert np.isclose(s.x, Q_(0.28475636946248034, \"dimensionless\")) # type: ignore", "def getsolution(self,whichsol_,skc,skx,skn,xc,xx,y,slc,suc,slx,sux,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skc = False\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n _copyback_skc = True\n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n _copyback_skc = True\n if skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc has wrong length\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx has wrong length\")\n _copyback_skn = False\n if skn is None:\n skn_ = None\n else:\n try:\n skn_ = memoryview(skn)\n except TypeError:\n try:\n _tmparr_skn = array.array(\"i\",skn)\n except TypeError:\n raise TypeError(\"Argument skn has wrong type\")\n else:\n skn_ = memoryview(_tmparr_skn)\n _copyback_skn = True\n else:\n if skn_.format != \"i\":\n skn_ = memoryview(array.array(\"i\",skn))\n _copyback_skn = True\n if skn_ is not None and len(skn_) != self.getnumcone():\n raise ValueError(\"Array argument skn has wrong length\")\n _copyback_xc = False\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n _copyback_xc = True\n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n _copyback_xc = True\n if xc_ is not None and len(xc_) != self.getnumcon():\n raise ValueError(\"Array argument xc has wrong length\")\n _copyback_xx = False\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n _copyback_xx = True\n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n _copyback_xx = True\n if xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx has wrong length\")\n _copyback_y = False\n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n _copyback_y = True\n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n _copyback_y = True\n if y_ is not None and len(y_) != self.getnumcon():\n raise ValueError(\"Array argument y has wrong length\")\n _copyback_slc = False\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n _copyback_slc = True\n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n _copyback_slc = True\n if slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc has wrong length\")\n _copyback_suc = False\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n _copyback_suc = True\n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n _copyback_suc = True\n if suc_ is not None and len(suc_) != self.getnumcon():\n raise ValueError(\"Array argument suc has wrong length\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx has wrong length\")\n _copyback_sux = False\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n _copyback_sux = True\n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n _copyback_sux = True\n if sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux has wrong length\")\n _copyback_snx = False\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n _copyback_snx = True\n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n _copyback_snx = True\n if snx_ is not None and len(snx_) != self.getnumvar():\n raise ValueError(\"Array argument snx has wrong length\")\n res,resargs = self.__obj.getsolution(whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _prosta_return_value,_solsta_return_value = resargs\n if _copyback_snx:\n snx[:] = _tmparr_snx\n if _copyback_sux:\n sux[:] = _tmparr_sux\n if _copyback_slx:\n slx[:] = _tmparr_slx\n if _copyback_suc:\n suc[:] = _tmparr_suc\n if _copyback_slc:\n slc[:] = _tmparr_slc\n if _copyback_y:\n y[:] = _tmparr_y\n if _copyback_xx:\n xx[:] = _tmparr_xx\n if _copyback_xc:\n xc[:] = _tmparr_xc\n if _copyback_skn:\n for __tmp_var_2 in range(len(skn_)): skn[__tmp_var_2] = stakey(_tmparr_skn[__tmp_var_2])\n if _copyback_skx:\n for __tmp_var_1 in range(len(skx_)): skx[__tmp_var_1] = stakey(_tmparr_skx[__tmp_var_1])\n if _copyback_skc:\n for __tmp_var_0 in range(len(skc_)): skc[__tmp_var_0] = stakey(_tmparr_skc[__tmp_var_0])\n _solsta_return_value = solsta(_solsta_return_value)\n _prosta_return_value = prosta(_prosta_return_value)\n return _prosta_return_value,_solsta_return_value", "def getslx(self,whichsol_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.getslx(whichsol_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slx:\n slx[:] = _tmparr_slx", "def set_solver(self, solver):\n self.solver = solver\n solver.associate_with_model(self)\n self.set_free_variable(0) # A reasonable initial assumption; can be overridden by simulations", "def putslc(self,whichsol_,slc_):\n _slc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),self.getnumcon()))\n if slc_ is None:\n raise ValueError(\"Argument slc cannot be None\")\n if slc_ is None:\n raise ValueError(\"Argument slc may not be None\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_putslc(self.__nativep,whichsol_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def _set_u_matirx(self):\n c_matrix = self.get_c_matrix()\n u_matrix, d_matrix, _ = np.linalg.svd(c_matrix)\n self.u_matrix = np.matrix(u_matrix)", "def putslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.putslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskc(self,whichsol_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skc is None: raise TypeError(\"Invalid type for argument skc\")\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n \n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n \n if skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.putskc(whichsol_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def solve_system(self, rhs, factor, u0, t):\n\n me = self.dtype_u(self.init)\n L = splu(sp.eye(self.params.nvars, format='csc') + factor * self.A)\n me[:] = L.solve(rhs)\n return me" ]

[ "0.79251313", "0.7518996", "0.73683834", "0.70813906", "0.70303714", "0.6494193", "0.64375514", "0.63787395", "0.6356418", "0.6146755", "0.6098636", "0.59146196", "0.5867827", "0.58237064", "0.57103294", "0.5519599", "0.5411028", "0.5345834", "0.5342507", "0.5303581", "0.5282773", "0.5220471", "0.52183914", "0.5176828", "0.5152568", "0.5152144", "0.51492846", "0.5112932", "0.5112021", "0.5078502" ]

[ "def putsnx(self,whichsol_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if sux is None: raise TypeError(\"Invalid type for argument sux\")\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n \n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n \n if sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.putsnx(whichsol_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsnx(self,whichsol_,snx_):\n _snx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and snx_ is not None and len(snx_) != self.getnumvar():\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),self.getnumvar()))\n if isinstance(snx_,numpy.ndarray) and not snx_.flags.writeable:\n raise ValueError(\"Argument snx must be writable\")\n if snx_ is None:\n raise ValueError(\"Argument snx may not be None\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_getsnx(self.__nativep,whichsol_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _snx_copyarray:\n snx_[:] = _snx_np_tmp", "def getsnx(self,whichsol_,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if snx is None: raise TypeError(\"Invalid type for argument snx\")\n _copyback_snx = False\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n _copyback_snx = True\n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n _copyback_snx = True\n if snx_ is not None and len(snx_) != self.getnumvar():\n raise ValueError(\"Array argument snx has wrong length\")\n res = self.__obj.getsnx(whichsol_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_snx:\n snx[:] = _tmparr_snx", "def putskx(self,whichsol_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skx is None: raise TypeError(\"Invalid type for argument skx\")\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.putskx(whichsol_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslx(self,whichsol_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.putslx(whichsol_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskx(self,whichsol_,skx_):\n _skx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),self.getnumvar()))\n if skx_ is None:\n raise ValueError(\"Argument skx cannot be None\")\n if skx_ is None:\n raise ValueError(\"Argument skx may not be None\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))(*skx_)\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_putskx(self.__nativep,whichsol_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslx(self,whichsol_,slx_):\n _slx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),self.getnumvar()))\n if slx_ is None:\n raise ValueError(\"Argument slx cannot be None\")\n if slx_ is None:\n raise ValueError(\"Argument slx may not be None\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_putslx(self.__nativep,whichsol_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsux(self,whichsol_,sux_):\n _sux_minlength = self.getnumvar()\n if self.getnumvar() > 0 and sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),self.getnumvar()))\n if sux_ is None:\n raise ValueError(\"Argument sux cannot be None\")\n if sux_ is None:\n raise ValueError(\"Argument sux may not be None\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_putsux(self.__nativep,whichsol_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsux(self,whichsol_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if sux is None: raise TypeError(\"Invalid type for argument sux\")\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n \n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n \n if sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.putsux(whichsol_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsnxslice(self,whichsol_,first_,last_,snx_):\n _snx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),((last_) - (first_))))\n if snx_ is None:\n raise ValueError(\"Argument snx cannot be None\")\n if snx_ is None:\n raise ValueError(\"Argument snx may not be None\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_putsnxslice(self.__nativep,whichsol_,first_,last_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsolution(self,whichsol_,skc,skx,skn,xc,xx,y,slc,suc,slx,sux,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n \n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n \n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skn is None:\n skn_ = None\n else:\n try:\n skn_ = memoryview(skn)\n except TypeError:\n try:\n _tmparr_skn = array.array(\"i\",skn)\n except TypeError:\n raise TypeError(\"Argument skn has wrong type\")\n else:\n skn_ = memoryview(_tmparr_skn)\n \n else:\n if skn_.format != \"i\":\n skn_ = memoryview(array.array(\"i\",skn))\n \n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n \n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n \n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n \n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n \n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n \n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n \n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n \n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n \n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n \n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n \n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n \n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n \n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n \n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n \n res = self.__obj.putsolution(whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsnxslice(self,whichsol_,first_,last_,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if snx is None: raise TypeError(\"Invalid type for argument snx\")\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n \n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n \n if snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx has wrong length\")\n res = self.__obj.putsnxslice(whichsol_,first_,last_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarsolutionj(self,j_,whichsol_,sk_,x_,sl_,su_,sn_):\n res = __library__.MSK_XX_putvarsolutionj(self.__nativep,j_,whichsol_,sk_,x_,sl_,su_,sn_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsux(self,whichsol_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if sux is None: raise TypeError(\"Invalid type for argument sux\")\n _copyback_sux = False\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n _copyback_sux = True\n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n _copyback_sux = True\n if sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.getsux(whichsol_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_sux:\n sux[:] = _tmparr_sux", "def putsolution(self,whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_):\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))(*skc_)\n else:\n _skc_tmp = None\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))(*skx_)\n else:\n _skx_tmp = None\n if skn_ is not None:\n _skn_tmp = (ctypes.c_int32 * len(skn_))(*skn_)\n else:\n _skn_tmp = None\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n if isinstance(y_, numpy.ndarray) and y_.dtype is numpy.dtype(numpy.float64) and y_.flags.contiguous:\n _y_copyarray = False\n _y_tmp = ctypes.cast(y_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif y_ is not None:\n _y_copyarray = True\n _y_np_tmp = numpy.zeros(len(y_),numpy.dtype(numpy.float64))\n _y_np_tmp[:] = y_\n assert _y_np_tmp.flags.contiguous\n _y_tmp = ctypes.cast(_y_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _y_copyarray = False\n _y_tmp = None\n \n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_putsolution(self.__nativep,whichsol_,_skc_tmp,_skx_tmp,_skn_tmp,_xc_tmp,_xx_tmp,_y_tmp,_slc_tmp,_suc_tmp,_slx_tmp,_sux_tmp,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsux(self,whichsol_,sux_):\n _sux_minlength = self.getnumvar()\n if self.getnumvar() > 0 and sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),self.getnumvar()))\n if isinstance(sux_,numpy.ndarray) and not sux_.flags.writeable:\n raise ValueError(\"Argument sux must be writable\")\n if sux_ is None:\n raise ValueError(\"Argument sux may not be None\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_getsux(self.__nativep,whichsol_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _sux_copyarray:\n sux_[:] = _sux_np_tmp", "def set_stig_x(self, target_stig_x):\n raise NotImplementedError", "def putxx(self,whichsol_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xx is None: raise TypeError(\"Invalid type for argument xx\")\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n \n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n \n if xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.putxx(whichsol_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def tsx(self):\n\n self.x = self.sp\n self.set_zn(self.x)", "def getskx(self,whichsol_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.getskx(whichsol_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skx:\n for __tmp_var_0 in range(len(skx_)): skx[__tmp_var_0] = stakey(_tmparr_skx[__tmp_var_0])", "def getskx(self,whichsol_,skx_):\n _skx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),self.getnumvar()))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_getskx(self.__nativep,whichsol_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]", "def putsuxslice(self,whichsol_,first_,last_,sux_):\n _sux_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),((last_) - (first_))))\n if sux_ is None:\n raise ValueError(\"Argument sux cannot be None\")\n if sux_ is None:\n raise ValueError(\"Argument sux may not be None\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_putsuxslice(self.__nativep,whichsol_,first_,last_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def szx(self, addr):\n\n if self.reg.zerox_flag:\n self.reg.ip_inc()\n self.reg.ip_inc()", "def putconsolutioni(self,i_,whichsol_,sk_,x_,sl_,su_):\n res = __library__.MSK_XX_putconsolutioni(self.__nativep,i_,whichsol_,sk_,x_,sl_,su_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsolutionyi(self,i_,whichsol_,y_):\n res = __library__.MSK_XX_putsolutionyi(self.__nativep,i_,whichsol_,y_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putxx(self,whichsol_,xx_):\n _xx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),self.getnumvar()))\n if xx_ is None:\n raise ValueError(\"Argument xx cannot be None\")\n if xx_ is None:\n raise ValueError(\"Argument xx may not be None\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n res = __library__.MSK_XX_putxx(self.__nativep,whichsol_,_xx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skx is None: raise TypeError(\"Invalid type for argument skx\")\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.putskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslxslice(self,whichsol_,first_,last_,slx_):\n _slx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),((last_) - (first_))))\n if slx_ is None:\n raise ValueError(\"Argument slx cannot be None\")\n if slx_ is None:\n raise ValueError(\"Argument slx may not be None\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_putslxslice(self.__nativep,whichsol_,first_,last_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getslx(self,whichsol_,slx_):\n _slx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),self.getnumvar()))\n if isinstance(slx_,numpy.ndarray) and not slx_.flags.writeable:\n raise ValueError(\"Argument slx must be writable\")\n if slx_ is None:\n raise ValueError(\"Argument slx may not be None\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_getslx(self.__nativep,whichsol_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slx_copyarray:\n slx_[:] = _slx_np_tmp", "def getslx(self,whichsol_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.getslx(whichsol_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slx:\n slx[:] = _tmparr_slx" ]

[ "0.8124215", "0.7021743", "0.6980632", "0.6966811", "0.6813222", "0.6800751", "0.67092973", "0.66968876", "0.66748786", "0.6496435", "0.63811874", "0.6318186", "0.62490666", "0.5961369", "0.59006256", "0.58907515", "0.57933617", "0.57347393", "0.5712153", "0.56779563", "0.56257325", "0.55665976", "0.55491734", "0.55151266", "0.55057114", "0.549969", "0.5489426", "0.5479923", "0.5464744", "0.5463901" ]

[ "def putskcslice(self,whichsol_,first_,last_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n \n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n \n if skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.putskcslice(whichsol_,first_,last_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getskcslice(self,whichsol_,first_,last_,skc_):\n _skc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),((last_) - (first_))))\n if isinstance(skc_,numpy.ndarray) and not skc_.flags.writeable:\n raise ValueError(\"Argument skc must be writable\")\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))()\n else:\n _skc_tmp = None\n res = __library__.MSK_XX_getskcslice(self.__nativep,whichsol_,first_,last_,_skc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skc_ is not None: skc_[:] = [ stakey(v) for v in _skc_tmp[0:len(skc_)] ]", "def getskcslice(self,whichsol_,first_,last_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skc = False\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n _copyback_skc = True\n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n _copyback_skc = True\n if skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.getskcslice(whichsol_,first_,last_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skc:\n for __tmp_var_0 in range(len(skc_)): skc[__tmp_var_0] = stakey(_tmparr_skc[__tmp_var_0])", "def putskxslice(self,whichsol_,first_,last_,skx_):\n _skx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),((last_) - (first_))))\n if skx_ is None:\n raise ValueError(\"Argument skx cannot be None\")\n if skx_ is None:\n raise ValueError(\"Argument skx may not be None\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))(*skx_)\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_putskxslice(self.__nativep,whichsol_,first_,last_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skx is None: raise TypeError(\"Invalid type for argument skx\")\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.putskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslcslice(self,whichsol_,first_,last_,slc_):\n _slc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),((last_) - (first_))))\n if slc_ is None:\n raise ValueError(\"Argument slc cannot be None\")\n if slc_ is None:\n raise ValueError(\"Argument slc may not be None\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_putslcslice(self.__nativep,whichsol_,first_,last_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslcslice(self,whichsol_,first_,last_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slc is None: raise TypeError(\"Invalid type for argument slc\")\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n \n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n \n if slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.putslcslice(whichsol_,first_,last_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.getskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skx:\n for __tmp_var_0 in range(len(skx_)): skx[__tmp_var_0] = stakey(_tmparr_skx[__tmp_var_0])", "def getskxslice(self,whichsol_,first_,last_,skx_):\n _skx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),((last_) - (first_))))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_getskxslice(self.__nativep,whichsol_,first_,last_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]", "def putsucslice(self,whichsol_,first_,last_,suc_):\n _suc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc is not long enough: Is %d, expected %d\" % (len(suc_),((last_) - (first_))))\n if suc_ is None:\n raise ValueError(\"Argument suc cannot be None\")\n if suc_ is None:\n raise ValueError(\"Argument suc may not be None\")\n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n res = __library__.MSK_XX_putsucslice(self.__nativep,whichsol_,first_,last_,_suc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsucslice(self,whichsol_,first_,last_,suc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if suc is None: raise TypeError(\"Invalid type for argument suc\")\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n \n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n \n if suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc has wrong length\")\n res = self.__obj.putsucslice(whichsol_,first_,last_,suc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskc(self,whichsol_,skc_):\n _skc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),self.getnumcon()))\n if skc_ is None:\n raise ValueError(\"Argument skc cannot be None\")\n if skc_ is None:\n raise ValueError(\"Argument skc may not be None\")\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))(*skc_)\n else:\n _skc_tmp = None\n res = __library__.MSK_XX_putskc(self.__nativep,whichsol_,_skc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskc(self,whichsol_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skc is None: raise TypeError(\"Invalid type for argument skc\")\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n \n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n \n if skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.putskc(whichsol_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getslcslice(self,whichsol_,first_,last_,slc_):\n _slc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),((last_) - (first_))))\n if isinstance(slc_,numpy.ndarray) and not slc_.flags.writeable:\n raise ValueError(\"Argument slc must be writable\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_getslcslice(self.__nativep,whichsol_,first_,last_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slc_copyarray:\n slc_[:] = _slc_np_tmp", "def getslcslice(self,whichsol_,first_,last_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_slc = False\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n _copyback_slc = True\n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n _copyback_slc = True\n if slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.getslcslice(whichsol_,first_,last_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slc:\n slc[:] = _tmparr_slc", "def putsnxslice(self,whichsol_,first_,last_,snx_):\n _snx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),((last_) - (first_))))\n if snx_ is None:\n raise ValueError(\"Argument snx cannot be None\")\n if snx_ is None:\n raise ValueError(\"Argument snx may not be None\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_putsnxslice(self.__nativep,whichsol_,first_,last_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconboundsliceconst(self,first_,last_,bkc_,blc_,buc_):\n res = __library__.MSK_XX_putconboundsliceconst(self.__nativep,first_,last_,bkc_,blc_,buc_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getskc(self,whichsol_,skc_):\n _skc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),self.getnumcon()))\n if isinstance(skc_,numpy.ndarray) and not skc_.flags.writeable:\n raise ValueError(\"Argument skc must be writable\")\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))()\n else:\n _skc_tmp = None\n res = __library__.MSK_XX_getskc(self.__nativep,whichsol_,_skc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skc_ is not None: skc_[:] = [ stakey(v) for v in _skc_tmp[0:len(skc_)] ]", "def putsnxslice(self,whichsol_,first_,last_,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if snx is None: raise TypeError(\"Invalid type for argument snx\")\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n \n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n \n if snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx has wrong length\")\n res = self.__obj.putsnxslice(whichsol_,first_,last_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putxcslice(self,whichsol_,first_,last_,xc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xc is None: raise TypeError(\"Invalid type for argument xc\")\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n \n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n \n if xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc has wrong length\")\n res = self.__obj.putxcslice(whichsol_,first_,last_,xc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getskc(self,whichsol_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skc = False\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n _copyback_skc = True\n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n _copyback_skc = True\n if skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.getskc(whichsol_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skc:\n for __tmp_var_0 in range(len(skc_)): skc[__tmp_var_0] = stakey(_tmparr_skc[__tmp_var_0])", "def putxcslice(self,whichsol_,first_,last_,xc_):\n _xc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),((last_) - (first_))))\n if xc_ is None:\n raise ValueError(\"Argument xc cannot be None\")\n if xc_ is None:\n raise ValueError(\"Argument xc may not be None\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n res = __library__.MSK_XX_putxcslice(self.__nativep,whichsol_,first_,last_,_xc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsucslice(self,whichsol_,first_,last_,suc_):\n _suc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc is not long enough: Is %d, expected %d\" % (len(suc_),((last_) - (first_))))\n if isinstance(suc_,numpy.ndarray) and not suc_.flags.writeable:\n raise ValueError(\"Argument suc must be writable\")\n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n res = __library__.MSK_XX_getsucslice(self.__nativep,whichsol_,first_,last_,_suc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _suc_copyarray:\n suc_[:] = _suc_np_tmp", "def getsucslice(self,whichsol_,first_,last_,suc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_suc = False\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n _copyback_suc = True\n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n _copyback_suc = True\n if suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc has wrong length\")\n res = self.__obj.getsucslice(whichsol_,first_,last_,suc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_suc:\n suc[:] = _tmparr_suc", "def putslc(self,whichsol_,slc_):\n _slc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),self.getnumcon()))\n if slc_ is None:\n raise ValueError(\"Argument slc cannot be None\")\n if slc_ is None:\n raise ValueError(\"Argument slc may not be None\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_putslc(self.__nativep,whichsol_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarboundsliceconst(self,first_,last_,bkx_,blx_,bux_):\n res = __library__.MSK_XX_putvarboundsliceconst(self.__nativep,first_,last_,bkx_,blx_,bux_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslxslice(self,whichsol_,first_,last_,slx_):\n _slx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),((last_) - (first_))))\n if slx_ is None:\n raise ValueError(\"Argument slx cannot be None\")\n if slx_ is None:\n raise ValueError(\"Argument slx may not be None\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_putslxslice(self.__nativep,whichsol_,first_,last_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.putslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putcslice(self,first_,last_,slice): # 3\n if slice is None: raise TypeError(\"Invalid type for argument slice\")\n if slice is None:\n slice_ = None\n else:\n try:\n slice_ = memoryview(slice)\n except TypeError:\n try:\n _tmparr_slice = array.array(\"d\",slice)\n except TypeError:\n raise TypeError(\"Argument slice has wrong type\")\n else:\n slice_ = memoryview(_tmparr_slice)\n \n else:\n if slice_.format != \"d\":\n slice_ = memoryview(array.array(\"d\",slice))\n \n if slice_ is not None and len(slice_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slice has wrong length\")\n res = self.__obj.putcslice(first_,last_,slice_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslc(self,whichsol_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slc is None: raise TypeError(\"Invalid type for argument slc\")\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n \n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n \n if slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.putslc(whichsol_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)" ]

[ "0.79454774", "0.75047725", "0.7407678", "0.7173813", "0.7109814", "0.69620323", "0.688445", "0.6570131", "0.65653163", "0.644008", "0.64193016", "0.63047063", "0.6149271", "0.61239773", "0.60884666", "0.60470337", "0.6041082", "0.6021966", "0.6010248", "0.59961426", "0.59598625", "0.5927975", "0.58832186", "0.579421", "0.57922286", "0.56573457", "0.56059027", "0.5581814", "0.5490742", "0.548861" ]

[ "def putskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skx is None: raise TypeError(\"Invalid type for argument skx\")\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.putskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getskxslice(self,whichsol_,first_,last_,skx_):\n _skx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),((last_) - (first_))))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_getskxslice(self.__nativep,whichsol_,first_,last_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]", "def getskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.getskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skx:\n for __tmp_var_0 in range(len(skx_)): skx[__tmp_var_0] = stakey(_tmparr_skx[__tmp_var_0])", "def putsnxslice(self,whichsol_,first_,last_,snx_):\n _snx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),((last_) - (first_))))\n if snx_ is None:\n raise ValueError(\"Argument snx cannot be None\")\n if snx_ is None:\n raise ValueError(\"Argument snx may not be None\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_putsnxslice(self.__nativep,whichsol_,first_,last_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsnxslice(self,whichsol_,first_,last_,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if snx is None: raise TypeError(\"Invalid type for argument snx\")\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n \n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n \n if snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx has wrong length\")\n res = self.__obj.putsnxslice(whichsol_,first_,last_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskcslice(self,whichsol_,first_,last_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n \n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n \n if skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.putskcslice(whichsol_,first_,last_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskcslice(self,whichsol_,first_,last_,skc_):\n _skc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),((last_) - (first_))))\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))(*skc_)\n else:\n _skc_tmp = None\n res = __library__.MSK_XX_putskcslice(self.__nativep,whichsol_,first_,last_,_skc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getskcslice(self,whichsol_,first_,last_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skc = False\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n _copyback_skc = True\n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n _copyback_skc = True\n if skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.getskcslice(whichsol_,first_,last_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skc:\n for __tmp_var_0 in range(len(skc_)): skc[__tmp_var_0] = stakey(_tmparr_skc[__tmp_var_0])", "def putslxslice(self,whichsol_,first_,last_,slx_):\n _slx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),((last_) - (first_))))\n if slx_ is None:\n raise ValueError(\"Argument slx cannot be None\")\n if slx_ is None:\n raise ValueError(\"Argument slx may not be None\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_putslxslice(self.__nativep,whichsol_,first_,last_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsnxslice(self,whichsol_,first_,last_,snx_):\n _snx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),((last_) - (first_))))\n if isinstance(snx_,numpy.ndarray) and not snx_.flags.writeable:\n raise ValueError(\"Argument snx must be writable\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_getsnxslice(self.__nativep,whichsol_,first_,last_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _snx_copyarray:\n snx_[:] = _snx_np_tmp", "def putslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.putslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getskx(self,whichsol_,skx_):\n _skx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),self.getnumvar()))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_getskx(self.__nativep,whichsol_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]", "def getskcslice(self,whichsol_,first_,last_,skc_):\n _skc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),((last_) - (first_))))\n if isinstance(skc_,numpy.ndarray) and not skc_.flags.writeable:\n raise ValueError(\"Argument skc must be writable\")\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))()\n else:\n _skc_tmp = None\n res = __library__.MSK_XX_getskcslice(self.__nativep,whichsol_,first_,last_,_skc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skc_ is not None: skc_[:] = [ stakey(v) for v in _skc_tmp[0:len(skc_)] ]", "def putskx(self,whichsol_,skx_):\n _skx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),self.getnumvar()))\n if skx_ is None:\n raise ValueError(\"Argument skx cannot be None\")\n if skx_ is None:\n raise ValueError(\"Argument skx may not be None\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))(*skx_)\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_putskx(self.__nativep,whichsol_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getskx(self,whichsol_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.getskx(whichsol_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skx:\n for __tmp_var_0 in range(len(skx_)): skx[__tmp_var_0] = stakey(_tmparr_skx[__tmp_var_0])", "def getsnxslice(self,whichsol_,first_,last_,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_snx = False\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n _copyback_snx = True\n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n _copyback_snx = True\n if snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx has wrong length\")\n res = self.__obj.getsnxslice(whichsol_,first_,last_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_snx:\n snx[:] = _tmparr_snx", "def putskx(self,whichsol_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skx is None: raise TypeError(\"Invalid type for argument skx\")\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.putskx(whichsol_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarboundsliceconst(self,first_,last_,bkx_,blx_,bux_):\n res = __library__.MSK_XX_putvarboundsliceconst(self.__nativep,first_,last_,bkx_,blx_,bux_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getslxslice(self,whichsol_,first_,last_,slx_):\n _slx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),((last_) - (first_))))\n if isinstance(slx_,numpy.ndarray) and not slx_.flags.writeable:\n raise ValueError(\"Argument slx must be writable\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_getslxslice(self.__nativep,whichsol_,first_,last_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slx_copyarray:\n slx_[:] = _slx_np_tmp", "def putslcslice(self,whichsol_,first_,last_,slc_):\n _slc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),((last_) - (first_))))\n if slc_ is None:\n raise ValueError(\"Argument slc cannot be None\")\n if slc_ is None:\n raise ValueError(\"Argument slc may not be None\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_putslcslice(self.__nativep,whichsol_,first_,last_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putxxslice(self,whichsol_,first_,last_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xx is None: raise TypeError(\"Invalid type for argument xx\")\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n \n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n \n if xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.putxxslice(whichsol_,first_,last_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.getslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slx:\n slx[:] = _tmparr_slx", "def putsucslice(self,whichsol_,first_,last_,suc_):\n _suc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc is not long enough: Is %d, expected %d\" % (len(suc_),((last_) - (first_))))\n if suc_ is None:\n raise ValueError(\"Argument suc cannot be None\")\n if suc_ is None:\n raise ValueError(\"Argument suc may not be None\")\n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n res = __library__.MSK_XX_putsucslice(self.__nativep,whichsol_,first_,last_,_suc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putxxslice(self,whichsol_,first_,last_,xx_):\n _xx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),((last_) - (first_))))\n if xx_ is None:\n raise ValueError(\"Argument xx cannot be None\")\n if xx_ is None:\n raise ValueError(\"Argument xx may not be None\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n res = __library__.MSK_XX_putxxslice(self.__nativep,whichsol_,first_,last_,_xx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslcslice(self,whichsol_,first_,last_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slc is None: raise TypeError(\"Invalid type for argument slc\")\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n \n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n \n if slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.putslcslice(whichsol_,first_,last_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putxcslice(self,whichsol_,first_,last_,xc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xc is None: raise TypeError(\"Invalid type for argument xc\")\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n \n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n \n if xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc has wrong length\")\n res = self.__obj.putxcslice(whichsol_,first_,last_,xc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putxcslice(self,whichsol_,first_,last_,xc_):\n _xc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),((last_) - (first_))))\n if xc_ is None:\n raise ValueError(\"Argument xc cannot be None\")\n if xc_ is None:\n raise ValueError(\"Argument xc may not be None\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n res = __library__.MSK_XX_putxcslice(self.__nativep,whichsol_,first_,last_,_xc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsucslice(self,whichsol_,first_,last_,suc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if suc is None: raise TypeError(\"Invalid type for argument suc\")\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n \n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n \n if suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc has wrong length\")\n res = self.__obj.putsucslice(whichsol_,first_,last_,suc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsuxslice(self,whichsol_,first_,last_,sux_):\n _sux_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),((last_) - (first_))))\n if sux_ is None:\n raise ValueError(\"Argument sux cannot be None\")\n if sux_ is None:\n raise ValueError(\"Argument sux may not be None\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_putsuxslice(self.__nativep,whichsol_,first_,last_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsuxslice(self,whichsol_,first_,last_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if sux is None: raise TypeError(\"Invalid type for argument sux\")\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n \n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n \n if sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.putsuxslice(whichsol_,first_,last_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)" ]

[ "0.78931737", "0.7580194", "0.75786614", "0.70705414", "0.6861257", "0.6841048", "0.6743091", "0.65563947", "0.6522296", "0.64854133", "0.64648354", "0.6417967", "0.64111745", "0.6388277", "0.6313509", "0.6206941", "0.61367166", "0.60655457", "0.60014707", "0.5933573", "0.5890052", "0.5852617", "0.5850427", "0.5807284", "0.5801124", "0.5782891", "0.5768315", "0.5758308", "0.57136273", "0.5708819" ]

[ "def putxcslice(self,whichsol_,first_,last_,xc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xc is None: raise TypeError(\"Invalid type for argument xc\")\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n \n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n \n if xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc has wrong length\")\n res = self.__obj.putxcslice(whichsol_,first_,last_,xc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getxcslice(self,whichsol_,first_,last_,xc_):\n _xc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),((last_) - (first_))))\n if isinstance(xc_,numpy.ndarray) and not xc_.flags.writeable:\n raise ValueError(\"Argument xc must be writable\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n res = __library__.MSK_XX_getxcslice(self.__nativep,whichsol_,first_,last_,_xc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _xc_copyarray:\n xc_[:] = _xc_np_tmp", "def getxcslice(self,whichsol_,first_,last_,xc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_xc = False\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n _copyback_xc = True\n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n _copyback_xc = True\n if xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc has wrong length\")\n res = self.__obj.getxcslice(whichsol_,first_,last_,xc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xc:\n xc[:] = _tmparr_xc", "def putskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skx is None: raise TypeError(\"Invalid type for argument skx\")\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.putskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskxslice(self,whichsol_,first_,last_,skx_):\n _skx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),((last_) - (first_))))\n if skx_ is None:\n raise ValueError(\"Argument skx cannot be None\")\n if skx_ is None:\n raise ValueError(\"Argument skx may not be None\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))(*skx_)\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_putskxslice(self.__nativep,whichsol_,first_,last_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putxxslice(self,whichsol_,first_,last_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xx is None: raise TypeError(\"Invalid type for argument xx\")\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n \n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n \n if xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.putxxslice(whichsol_,first_,last_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putxxslice(self,whichsol_,first_,last_,xx_):\n _xx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),((last_) - (first_))))\n if xx_ is None:\n raise ValueError(\"Argument xx cannot be None\")\n if xx_ is None:\n raise ValueError(\"Argument xx may not be None\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n res = __library__.MSK_XX_putxxslice(self.__nativep,whichsol_,first_,last_,_xx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsnxslice(self,whichsol_,first_,last_,snx_):\n _snx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),((last_) - (first_))))\n if snx_ is None:\n raise ValueError(\"Argument snx cannot be None\")\n if snx_ is None:\n raise ValueError(\"Argument snx may not be None\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_putsnxslice(self.__nativep,whichsol_,first_,last_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskcslice(self,whichsol_,first_,last_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n \n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n \n if skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.putskcslice(whichsol_,first_,last_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsnxslice(self,whichsol_,first_,last_,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if snx is None: raise TypeError(\"Invalid type for argument snx\")\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n \n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n \n if snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx has wrong length\")\n res = self.__obj.putsnxslice(whichsol_,first_,last_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.putslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslxslice(self,whichsol_,first_,last_,slx_):\n _slx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),((last_) - (first_))))\n if slx_ is None:\n raise ValueError(\"Argument slx cannot be None\")\n if slx_ is None:\n raise ValueError(\"Argument slx may not be None\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_putslxslice(self.__nativep,whichsol_,first_,last_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskcslice(self,whichsol_,first_,last_,skc_):\n _skc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),((last_) - (first_))))\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))(*skc_)\n else:\n _skc_tmp = None\n res = __library__.MSK_XX_putskcslice(self.__nativep,whichsol_,first_,last_,_skc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getxxslice(self,whichsol_,first_,last_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_xx = False\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n _copyback_xx = True\n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n _copyback_xx = True\n if xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.getxxslice(whichsol_,first_,last_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xx:\n xx[:] = _tmparr_xx", "def getxxslice(self,whichsol_,first_,last_,xx_):\n _xx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),((last_) - (first_))))\n if isinstance(xx_,numpy.ndarray) and not xx_.flags.writeable:\n raise ValueError(\"Argument xx must be writable\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n res = __library__.MSK_XX_getxxslice(self.__nativep,whichsol_,first_,last_,_xx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _xx_copyarray:\n xx_[:] = _xx_np_tmp", "def getskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.getskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skx:\n for __tmp_var_0 in range(len(skx_)): skx[__tmp_var_0] = stakey(_tmparr_skx[__tmp_var_0])", "def getskxslice(self,whichsol_,first_,last_,skx_):\n _skx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),((last_) - (first_))))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_getskxslice(self.__nativep,whichsol_,first_,last_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]", "def putxc(self,whichsol_,xc_):\n _xc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and xc_ is not None and len(xc_) != self.getnumcon():\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),self.getnumcon()))\n if isinstance(xc_,numpy.ndarray) and not xc_.flags.writeable:\n raise ValueError(\"Argument xc must be writable\")\n if xc_ is None:\n raise ValueError(\"Argument xc may not be None\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n res = __library__.MSK_XX_putxc(self.__nativep,whichsol_,_xc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _xc_copyarray:\n xc_[:] = _xc_np_tmp", "def putslcslice(self,whichsol_,first_,last_,slc_):\n _slc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),((last_) - (first_))))\n if slc_ is None:\n raise ValueError(\"Argument slc cannot be None\")\n if slc_ is None:\n raise ValueError(\"Argument slc may not be None\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_putslcslice(self.__nativep,whichsol_,first_,last_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putxc(self,whichsol_,xc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xc is None: raise TypeError(\"Invalid type for argument xc\")\n _copyback_xc = False\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n _copyback_xc = True\n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n _copyback_xc = True\n if xc_ is not None and len(xc_) != self.getnumcon():\n raise ValueError(\"Array argument xc has wrong length\")\n res = self.__obj.putxc(whichsol_,xc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xc:\n xc[:] = _tmparr_xc", "def getsnxslice(self,whichsol_,first_,last_,snx_):\n _snx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),((last_) - (first_))))\n if isinstance(snx_,numpy.ndarray) and not snx_.flags.writeable:\n raise ValueError(\"Argument snx must be writable\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_getsnxslice(self.__nativep,whichsol_,first_,last_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _snx_copyarray:\n snx_[:] = _snx_np_tmp", "def putslcslice(self,whichsol_,first_,last_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slc is None: raise TypeError(\"Invalid type for argument slc\")\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n \n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n \n if slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.putslcslice(whichsol_,first_,last_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getslxslice(self,whichsol_,first_,last_,slx_):\n _slx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),((last_) - (first_))))\n if isinstance(slx_,numpy.ndarray) and not slx_.flags.writeable:\n raise ValueError(\"Argument slx must be writable\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_getslxslice(self.__nativep,whichsol_,first_,last_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slx_copyarray:\n slx_[:] = _slx_np_tmp", "def getsnxslice(self,whichsol_,first_,last_,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_snx = False\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n _copyback_snx = True\n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n _copyback_snx = True\n if snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx has wrong length\")\n res = self.__obj.getsnxslice(whichsol_,first_,last_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_snx:\n snx[:] = _tmparr_snx", "def getskcslice(self,whichsol_,first_,last_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skc = False\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n _copyback_skc = True\n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n _copyback_skc = True\n if skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.getskcslice(whichsol_,first_,last_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skc:\n for __tmp_var_0 in range(len(skc_)): skc[__tmp_var_0] = stakey(_tmparr_skc[__tmp_var_0])", "def getslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.getslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slx:\n slx[:] = _tmparr_slx", "def getskcslice(self,whichsol_,first_,last_,skc_):\n _skc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),((last_) - (first_))))\n if isinstance(skc_,numpy.ndarray) and not skc_.flags.writeable:\n raise ValueError(\"Argument skc must be writable\")\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))()\n else:\n _skc_tmp = None\n res = __library__.MSK_XX_getskcslice(self.__nativep,whichsol_,first_,last_,_skc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skc_ is not None: skc_[:] = [ stakey(v) for v in _skc_tmp[0:len(skc_)] ]", "def putsucslice(self,whichsol_,first_,last_,suc_):\n _suc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc is not long enough: Is %d, expected %d\" % (len(suc_),((last_) - (first_))))\n if suc_ is None:\n raise ValueError(\"Argument suc cannot be None\")\n if suc_ is None:\n raise ValueError(\"Argument suc may not be None\")\n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n res = __library__.MSK_XX_putsucslice(self.__nativep,whichsol_,first_,last_,_suc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getxc(self,whichsol_,xc_):\n _xc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and xc_ is not None and len(xc_) != self.getnumcon():\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),self.getnumcon()))\n if isinstance(xc_,numpy.ndarray) and not xc_.flags.writeable:\n raise ValueError(\"Argument xc must be writable\")\n if xc_ is None:\n raise ValueError(\"Argument xc may not be None\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n res = __library__.MSK_XX_getxc(self.__nativep,whichsol_,_xc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _xc_copyarray:\n xc_[:] = _xc_np_tmp", "def putsuxslice(self,whichsol_,first_,last_,sux_):\n _sux_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),((last_) - (first_))))\n if sux_ is None:\n raise ValueError(\"Argument sux cannot be None\")\n if sux_ is None:\n raise ValueError(\"Argument sux may not be None\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_putsuxslice(self.__nativep,whichsol_,first_,last_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)" ]

[ "0.8484041", "0.7903161", "0.7884057", "0.7309912", "0.7146928", "0.7065587", "0.70522225", "0.6999224", "0.69972736", "0.6951669", "0.6913128", "0.6899812", "0.6836824", "0.6834631", "0.6740456", "0.66461045", "0.65965986", "0.6587351", "0.6582062", "0.6548527", "0.6501206", "0.6488845", "0.6438017", "0.63779354", "0.6375595", "0.6366976", "0.63628423", "0.6327927", "0.62605107", "0.62583077" ]

[ "def putxxslice(self,whichsol_,first_,last_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xx is None: raise TypeError(\"Invalid type for argument xx\")\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n \n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n \n if xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.putxxslice(whichsol_,first_,last_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getxxslice(self,whichsol_,first_,last_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_xx = False\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n _copyback_xx = True\n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n _copyback_xx = True\n if xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.getxxslice(whichsol_,first_,last_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xx:\n xx[:] = _tmparr_xx", "def getxxslice(self,whichsol_,first_,last_,xx_):\n _xx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),((last_) - (first_))))\n if isinstance(xx_,numpy.ndarray) and not xx_.flags.writeable:\n raise ValueError(\"Argument xx must be writable\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n res = __library__.MSK_XX_getxxslice(self.__nativep,whichsol_,first_,last_,_xx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _xx_copyarray:\n xx_[:] = _xx_np_tmp", "def putsuxslice(self,whichsol_,first_,last_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if sux is None: raise TypeError(\"Invalid type for argument sux\")\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n \n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n \n if sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.putsuxslice(whichsol_,first_,last_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsuxslice(self,whichsol_,first_,last_,sux_):\n _sux_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),((last_) - (first_))))\n if sux_ is None:\n raise ValueError(\"Argument sux cannot be None\")\n if sux_ is None:\n raise ValueError(\"Argument sux may not be None\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_putsuxslice(self.__nativep,whichsol_,first_,last_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skx is None: raise TypeError(\"Invalid type for argument skx\")\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.putskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsuxslice(self,whichsol_,first_,last_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_sux = False\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n _copyback_sux = True\n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n _copyback_sux = True\n if sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.getsuxslice(whichsol_,first_,last_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_sux:\n sux[:] = _tmparr_sux", "def putskxslice(self,whichsol_,first_,last_,skx_):\n _skx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),((last_) - (first_))))\n if skx_ is None:\n raise ValueError(\"Argument skx cannot be None\")\n if skx_ is None:\n raise ValueError(\"Argument skx may not be None\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))(*skx_)\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_putskxslice(self.__nativep,whichsol_,first_,last_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.putslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsuxslice(self,whichsol_,first_,last_,sux_):\n _sux_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),((last_) - (first_))))\n if isinstance(sux_,numpy.ndarray) and not sux_.flags.writeable:\n raise ValueError(\"Argument sux must be writable\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_getsuxslice(self.__nativep,whichsol_,first_,last_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _sux_copyarray:\n sux_[:] = _sux_np_tmp", "def putslxslice(self,whichsol_,first_,last_,slx_):\n _slx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),((last_) - (first_))))\n if slx_ is None:\n raise ValueError(\"Argument slx cannot be None\")\n if slx_ is None:\n raise ValueError(\"Argument slx may not be None\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_putslxslice(self.__nativep,whichsol_,first_,last_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsnxslice(self,whichsol_,first_,last_,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if snx is None: raise TypeError(\"Invalid type for argument snx\")\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n \n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n \n if snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx has wrong length\")\n res = self.__obj.putsnxslice(whichsol_,first_,last_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsnxslice(self,whichsol_,first_,last_,snx_):\n _snx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),((last_) - (first_))))\n if snx_ is None:\n raise ValueError(\"Argument snx cannot be None\")\n if snx_ is None:\n raise ValueError(\"Argument snx may not be None\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_putsnxslice(self.__nativep,whichsol_,first_,last_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putxcslice(self,whichsol_,first_,last_,xc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xc is None: raise TypeError(\"Invalid type for argument xc\")\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n \n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n \n if xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc has wrong length\")\n res = self.__obj.putxcslice(whichsol_,first_,last_,xc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putxcslice(self,whichsol_,first_,last_,xc_):\n _xc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),((last_) - (first_))))\n if xc_ is None:\n raise ValueError(\"Argument xc cannot be None\")\n if xc_ is None:\n raise ValueError(\"Argument xc may not be None\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n res = __library__.MSK_XX_putxcslice(self.__nativep,whichsol_,first_,last_,_xc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putxx(self,whichsol_,xx_):\n _xx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),self.getnumvar()))\n if xx_ is None:\n raise ValueError(\"Argument xx cannot be None\")\n if xx_ is None:\n raise ValueError(\"Argument xx may not be None\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n res = __library__.MSK_XX_putxx(self.__nativep,whichsol_,_xx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarboundsliceconst(self,first_,last_,bkx_,blx_,bux_):\n res = __library__.MSK_XX_putvarboundsliceconst(self.__nativep,first_,last_,bkx_,blx_,bux_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putyslice(self,whichsol_,first_,last_,y): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if y is None: raise TypeError(\"Invalid type for argument y\")\n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n \n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n \n if y_ is not None and len(y_) != ((last_) - (first_)):\n raise ValueError(\"Array argument y has wrong length\")\n res = self.__obj.putyslice(whichsol_,first_,last_,y_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putxx(self,whichsol_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xx is None: raise TypeError(\"Invalid type for argument xx\")\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n \n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n \n if xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.putxx(whichsol_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putyslice(self,whichsol_,first_,last_,y_):\n _y_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and y_ is not None and len(y_) != ((last_) - (first_)):\n raise ValueError(\"Array argument y is not long enough: Is %d, expected %d\" % (len(y_),((last_) - (first_))))\n if y_ is None:\n raise ValueError(\"Argument y cannot be None\")\n if y_ is None:\n raise ValueError(\"Argument y may not be None\")\n if isinstance(y_, numpy.ndarray) and y_.dtype is numpy.dtype(numpy.float64) and y_.flags.contiguous:\n _y_copyarray = False\n _y_tmp = ctypes.cast(y_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif y_ is not None:\n _y_copyarray = True\n _y_np_tmp = numpy.zeros(len(y_),numpy.dtype(numpy.float64))\n _y_np_tmp[:] = y_\n assert _y_np_tmp.flags.contiguous\n _y_tmp = ctypes.cast(_y_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _y_copyarray = False\n _y_tmp = None\n \n res = __library__.MSK_XX_putyslice(self.__nativep,whichsol_,first_,last_,_y_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskcslice(self,whichsol_,first_,last_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n \n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n \n if skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.putskcslice(whichsol_,first_,last_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getslxslice(self,whichsol_,first_,last_,slx_):\n _slx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),((last_) - (first_))))\n if isinstance(slx_,numpy.ndarray) and not slx_.flags.writeable:\n raise ValueError(\"Argument slx must be writable\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_getslxslice(self.__nativep,whichsol_,first_,last_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slx_copyarray:\n slx_[:] = _slx_np_tmp", "def getxx(self,whichsol_,xx_):\n _xx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),self.getnumvar()))\n if isinstance(xx_,numpy.ndarray) and not xx_.flags.writeable:\n raise ValueError(\"Argument xx must be writable\")\n if xx_ is None:\n raise ValueError(\"Argument xx may not be None\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n res = __library__.MSK_XX_getxx(self.__nativep,whichsol_,_xx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _xx_copyarray:\n xx_[:] = _xx_np_tmp", "def getslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.getslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slx:\n slx[:] = _tmparr_slx", "def putslcslice(self,whichsol_,first_,last_,slc_):\n _slc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),((last_) - (first_))))\n if slc_ is None:\n raise ValueError(\"Argument slc cannot be None\")\n if slc_ is None:\n raise ValueError(\"Argument slc may not be None\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_putslcslice(self.__nativep,whichsol_,first_,last_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.getskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skx:\n for __tmp_var_0 in range(len(skx_)): skx[__tmp_var_0] = stakey(_tmparr_skx[__tmp_var_0])", "def getsnxslice(self,whichsol_,first_,last_,snx_):\n _snx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),((last_) - (first_))))\n if isinstance(snx_,numpy.ndarray) and not snx_.flags.writeable:\n raise ValueError(\"Argument snx must be writable\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_getsnxslice(self.__nativep,whichsol_,first_,last_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _snx_copyarray:\n snx_[:] = _snx_np_tmp", "def getbarxslice(self,whichsol_,first_,last_,slicesize_,barxslice_):\n _barxslice_minlength = (slicesize_)\n if (slicesize_) > 0 and barxslice_ is not None and len(barxslice_) != (slicesize_):\n raise ValueError(\"Array argument barxslice is not long enough: Is %d, expected %d\" % (len(barxslice_),(slicesize_)))\n if isinstance(barxslice_,numpy.ndarray) and not barxslice_.flags.writeable:\n raise ValueError(\"Argument barxslice must be writable\")\n if barxslice_ is None:\n raise ValueError(\"Argument barxslice may not be None\")\n if isinstance(barxslice_, numpy.ndarray) and barxslice_.dtype is numpy.dtype(numpy.float64) and barxslice_.flags.contiguous:\n _barxslice_copyarray = False\n _barxslice_tmp = ctypes.cast(barxslice_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif barxslice_ is not None:\n _barxslice_copyarray = True\n _barxslice_np_tmp = numpy.zeros(len(barxslice_),numpy.dtype(numpy.float64))\n _barxslice_np_tmp[:] = barxslice_\n assert _barxslice_np_tmp.flags.contiguous\n _barxslice_tmp = ctypes.cast(_barxslice_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _barxslice_copyarray = False\n _barxslice_tmp = None\n \n res = __library__.MSK_XX_getbarxslice(self.__nativep,whichsol_,first_,last_,slicesize_,_barxslice_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _barxslice_copyarray:\n barxslice_[:] = _barxslice_np_tmp", "def putslcslice(self,whichsol_,first_,last_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slc is None: raise TypeError(\"Invalid type for argument slc\")\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n \n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n \n if slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.putslcslice(whichsol_,first_,last_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getskxslice(self,whichsol_,first_,last_,skx_):\n _skx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),((last_) - (first_))))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_getskxslice(self.__nativep,whichsol_,first_,last_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]" ]

[ "0.8414716", "0.76765615", "0.7619203", "0.6960035", "0.6920817", "0.6883253", "0.6782231", "0.673264", "0.67314667", "0.6711455", "0.66831595", "0.6615616", "0.6601599", "0.6569291", "0.6523913", "0.6473738", "0.6392303", "0.6208213", "0.61735755", "0.61449444", "0.5961191", "0.59267867", "0.5898272", "0.5898199", "0.58865815", "0.58527577", "0.58276933", "0.57934225", "0.57834435", "0.5781493" ]

[ "def putyslice(self,whichsol_,first_,last_,y): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if y is None: raise TypeError(\"Invalid type for argument y\")\n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n \n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n \n if y_ is not None and len(y_) != ((last_) - (first_)):\n raise ValueError(\"Array argument y has wrong length\")\n res = self.__obj.putyslice(whichsol_,first_,last_,y_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getyslice(self,whichsol_,first_,last_,y): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_y = False\n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n _copyback_y = True\n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n _copyback_y = True\n if y_ is not None and len(y_) != ((last_) - (first_)):\n raise ValueError(\"Array argument y has wrong length\")\n res = self.__obj.getyslice(whichsol_,first_,last_,y_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_y:\n y[:] = _tmparr_y", "def getyslice(self,whichsol_,first_,last_,y_):\n _y_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and y_ is not None and len(y_) != ((last_) - (first_)):\n raise ValueError(\"Array argument y is not long enough: Is %d, expected %d\" % (len(y_),((last_) - (first_))))\n if isinstance(y_,numpy.ndarray) and not y_.flags.writeable:\n raise ValueError(\"Argument y must be writable\")\n if isinstance(y_, numpy.ndarray) and y_.dtype is numpy.dtype(numpy.float64) and y_.flags.contiguous:\n _y_copyarray = False\n _y_tmp = ctypes.cast(y_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif y_ is not None:\n _y_copyarray = True\n _y_np_tmp = numpy.zeros(len(y_),numpy.dtype(numpy.float64))\n _y_np_tmp[:] = y_\n assert _y_np_tmp.flags.contiguous\n _y_tmp = ctypes.cast(_y_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _y_copyarray = False\n _y_tmp = None\n \n res = __library__.MSK_XX_getyslice(self.__nativep,whichsol_,first_,last_,_y_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _y_copyarray:\n y_[:] = _y_np_tmp", "def putskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skx is None: raise TypeError(\"Invalid type for argument skx\")\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.putskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.putslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def puty(self,whichsol_,y_):\n _y_minlength = self.getnumcon()\n if self.getnumcon() > 0 and y_ is not None and len(y_) != self.getnumcon():\n raise ValueError(\"Array argument y is not long enough: Is %d, expected %d\" % (len(y_),self.getnumcon()))\n if y_ is None:\n raise ValueError(\"Argument y cannot be None\")\n if y_ is None:\n raise ValueError(\"Argument y may not be None\")\n if isinstance(y_, numpy.ndarray) and y_.dtype is numpy.dtype(numpy.float64) and y_.flags.contiguous:\n _y_copyarray = False\n _y_tmp = ctypes.cast(y_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif y_ is not None:\n _y_copyarray = True\n _y_np_tmp = numpy.zeros(len(y_),numpy.dtype(numpy.float64))\n _y_np_tmp[:] = y_\n assert _y_np_tmp.flags.contiguous\n _y_tmp = ctypes.cast(_y_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _y_copyarray = False\n _y_tmp = None\n \n res = __library__.MSK_XX_puty(self.__nativep,whichsol_,_y_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslxslice(self,whichsol_,first_,last_,slx_):\n _slx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),((last_) - (first_))))\n if slx_ is None:\n raise ValueError(\"Argument slx cannot be None\")\n if slx_ is None:\n raise ValueError(\"Argument slx may not be None\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_putslxslice(self.__nativep,whichsol_,first_,last_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def puty(self,whichsol_,y): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if y is None: raise TypeError(\"Invalid type for argument y\")\n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n \n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n \n if y_ is not None and len(y_) != self.getnumcon():\n raise ValueError(\"Array argument y has wrong length\")\n res = self.__obj.puty(whichsol_,y_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskxslice(self,whichsol_,first_,last_,skx_):\n _skx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),((last_) - (first_))))\n if skx_ is None:\n raise ValueError(\"Argument skx cannot be None\")\n if skx_ is None:\n raise ValueError(\"Argument skx may not be None\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))(*skx_)\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_putskxslice(self.__nativep,whichsol_,first_,last_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def gety(self,whichsol_,y_):\n _y_minlength = self.getnumcon()\n if self.getnumcon() > 0 and y_ is not None and len(y_) != self.getnumcon():\n raise ValueError(\"Array argument y is not long enough: Is %d, expected %d\" % (len(y_),self.getnumcon()))\n if isinstance(y_,numpy.ndarray) and not y_.flags.writeable:\n raise ValueError(\"Argument y must be writable\")\n if y_ is None:\n raise ValueError(\"Argument y may not be None\")\n if isinstance(y_, numpy.ndarray) and y_.dtype is numpy.dtype(numpy.float64) and y_.flags.contiguous:\n _y_copyarray = False\n _y_tmp = ctypes.cast(y_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif y_ is not None:\n _y_copyarray = True\n _y_np_tmp = numpy.zeros(len(y_),numpy.dtype(numpy.float64))\n _y_np_tmp[:] = y_\n assert _y_np_tmp.flags.contiguous\n _y_tmp = ctypes.cast(_y_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _y_copyarray = False\n _y_tmp = None\n \n res = __library__.MSK_XX_gety(self.__nativep,whichsol_,_y_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _y_copyarray:\n y_[:] = _y_np_tmp", "def putxxslice(self,whichsol_,first_,last_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xx is None: raise TypeError(\"Invalid type for argument xx\")\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n \n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n \n if xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.putxxslice(whichsol_,first_,last_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsnxslice(self,whichsol_,first_,last_,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if snx is None: raise TypeError(\"Invalid type for argument snx\")\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n \n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n \n if snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx has wrong length\")\n res = self.__obj.putsnxslice(whichsol_,first_,last_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskcslice(self,whichsol_,first_,last_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n \n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n \n if skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.putskcslice(whichsol_,first_,last_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsolutionyi(self,i_,whichsol_,y_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res = self.__obj.putsolutionyi(i_,whichsol_,y_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def gety(self,whichsol_,y): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if y is None: raise TypeError(\"Invalid type for argument y\")\n _copyback_y = False\n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n _copyback_y = True\n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n _copyback_y = True\n if y_ is not None and len(y_) != self.getnumcon():\n raise ValueError(\"Array argument y has wrong length\")\n res = self.__obj.gety(whichsol_,y_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_y:\n y[:] = _tmparr_y", "def getslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.getslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slx:\n slx[:] = _tmparr_slx", "def putsolutionyi(self,i_,whichsol_,y_):\n res = __library__.MSK_XX_putsolutionyi(self.__nativep,i_,whichsol_,y_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslcslice(self,whichsol_,first_,last_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slc is None: raise TypeError(\"Invalid type for argument slc\")\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n \n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n \n if slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.putslcslice(whichsol_,first_,last_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslcslice(self,whichsol_,first_,last_,slc_):\n _slc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),((last_) - (first_))))\n if slc_ is None:\n raise ValueError(\"Argument slc cannot be None\")\n if slc_ is None:\n raise ValueError(\"Argument slc may not be None\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_putslcslice(self.__nativep,whichsol_,first_,last_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getslxslice(self,whichsol_,first_,last_,slx_):\n _slx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),((last_) - (first_))))\n if isinstance(slx_,numpy.ndarray) and not slx_.flags.writeable:\n raise ValueError(\"Argument slx must be writable\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_getslxslice(self.__nativep,whichsol_,first_,last_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slx_copyarray:\n slx_[:] = _slx_np_tmp", "def putsnxslice(self,whichsol_,first_,last_,snx_):\n _snx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),((last_) - (first_))))\n if snx_ is None:\n raise ValueError(\"Argument snx cannot be None\")\n if snx_ is None:\n raise ValueError(\"Argument snx may not be None\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_putsnxslice(self.__nativep,whichsol_,first_,last_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.getskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skx:\n for __tmp_var_0 in range(len(skx_)): skx[__tmp_var_0] = stakey(_tmparr_skx[__tmp_var_0])", "def putxxslice(self,whichsol_,first_,last_,xx_):\n _xx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),((last_) - (first_))))\n if xx_ is None:\n raise ValueError(\"Argument xx cannot be None\")\n if xx_ is None:\n raise ValueError(\"Argument xx may not be None\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n res = __library__.MSK_XX_putxxslice(self.__nativep,whichsol_,first_,last_,_xx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsolutionslice(self,whichsol_,solitem_,first_,last_,values): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if not isinstance(solitem_,solitem): raise TypeError(\"Argument solitem has wrong type\")\n _copyback_values = False\n if values is None:\n values_ = None\n else:\n try:\n values_ = memoryview(values)\n except TypeError:\n try:\n _tmparr_values = array.array(\"d\",values)\n except TypeError:\n raise TypeError(\"Argument values has wrong type\")\n else:\n values_ = memoryview(_tmparr_values)\n _copyback_values = True\n else:\n if values_.format != \"d\":\n values_ = memoryview(array.array(\"d\",values))\n _copyback_values = True\n if values_ is not None and len(values_) != ((last_) - (first_)):\n raise ValueError(\"Array argument values has wrong length\")\n res = self.__obj.getsolutionslice(whichsol_,solitem_,first_,last_,values_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_values:\n values[:] = _tmparr_values", "def putxcslice(self,whichsol_,first_,last_,xc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xc is None: raise TypeError(\"Invalid type for argument xc\")\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n \n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n \n if xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc has wrong length\")\n res = self.__obj.putxcslice(whichsol_,first_,last_,xc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsuxslice(self,whichsol_,first_,last_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if sux is None: raise TypeError(\"Invalid type for argument sux\")\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n \n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n \n if sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.putsuxslice(whichsol_,first_,last_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsuxslice(self,whichsol_,first_,last_,sux_):\n _sux_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),((last_) - (first_))))\n if sux_ is None:\n raise ValueError(\"Argument sux cannot be None\")\n if sux_ is None:\n raise ValueError(\"Argument sux may not be None\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_putsuxslice(self.__nativep,whichsol_,first_,last_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def set_involved_series(self, y):\n y = self.check_consistent_y(y)\n\n if self.indices is not None:\n self.series = []\n for index in self.indices:\n try:\n self.series.append(y[index])\n except IndexError:\n warnings.warn(\"'%d' index out of 'y' range. Max: '%d'. Ignoring this index...\"\n % (index, y.shape[0]-1))\n else:\n self.series = y", "def set_data(self, y: Iterable[torch.Tensor]):\n self._y = y\n\n return self", "def putxcslice(self,whichsol_,first_,last_,xc_):\n _xc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),((last_) - (first_))))\n if xc_ is None:\n raise ValueError(\"Argument xc cannot be None\")\n if xc_ is None:\n raise ValueError(\"Argument xc may not be None\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n res = __library__.MSK_XX_putxcslice(self.__nativep,whichsol_,first_,last_,_xc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)" ]

[ "0.82857347", "0.7882383", "0.78458613", "0.6470758", "0.64416134", "0.629237", "0.62799585", "0.6174029", "0.60688806", "0.59423494", "0.59167624", "0.5902043", "0.5868281", "0.5862139", "0.5847072", "0.58451796", "0.5844967", "0.5815283", "0.581092", "0.5778133", "0.5759294", "0.5748007", "0.5738484", "0.57165754", "0.57131916", "0.56731874", "0.5637981", "0.5627688", "0.55555916", "0.55159867" ]

[ "def putslcslice(self,whichsol_,first_,last_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slc is None: raise TypeError(\"Invalid type for argument slc\")\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n \n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n \n if slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.putslcslice(whichsol_,first_,last_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getslcslice(self,whichsol_,first_,last_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_slc = False\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n _copyback_slc = True\n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n _copyback_slc = True\n if slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.getslcslice(whichsol_,first_,last_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slc:\n slc[:] = _tmparr_slc", "def getslcslice(self,whichsol_,first_,last_,slc_):\n _slc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),((last_) - (first_))))\n if isinstance(slc_,numpy.ndarray) and not slc_.flags.writeable:\n raise ValueError(\"Argument slc must be writable\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_getslcslice(self.__nativep,whichsol_,first_,last_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slc_copyarray:\n slc_[:] = _slc_np_tmp", "def putslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.putslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskcslice(self,whichsol_,first_,last_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n \n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n \n if skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.putskcslice(whichsol_,first_,last_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslxslice(self,whichsol_,first_,last_,slx_):\n _slx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),((last_) - (first_))))\n if slx_ is None:\n raise ValueError(\"Argument slx cannot be None\")\n if slx_ is None:\n raise ValueError(\"Argument slx may not be None\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_putslxslice(self.__nativep,whichsol_,first_,last_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskcslice(self,whichsol_,first_,last_,skc_):\n _skc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),((last_) - (first_))))\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))(*skc_)\n else:\n _skc_tmp = None\n res = __library__.MSK_XX_putskcslice(self.__nativep,whichsol_,first_,last_,_skc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslc(self,whichsol_,slc_):\n _slc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),self.getnumcon()))\n if slc_ is None:\n raise ValueError(\"Argument slc cannot be None\")\n if slc_ is None:\n raise ValueError(\"Argument slc may not be None\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_putslc(self.__nativep,whichsol_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslc(self,whichsol_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slc is None: raise TypeError(\"Invalid type for argument slc\")\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n \n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n \n if slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.putslc(whichsol_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getskcslice(self,whichsol_,first_,last_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skc = False\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n _copyback_skc = True\n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n _copyback_skc = True\n if skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.getskcslice(whichsol_,first_,last_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skc:\n for __tmp_var_0 in range(len(skc_)): skc[__tmp_var_0] = stakey(_tmparr_skc[__tmp_var_0])", "def getslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.getslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slx:\n slx[:] = _tmparr_slx", "def putskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skx is None: raise TypeError(\"Invalid type for argument skx\")\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.putskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getslxslice(self,whichsol_,first_,last_,slx_):\n _slx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),((last_) - (first_))))\n if isinstance(slx_,numpy.ndarray) and not slx_.flags.writeable:\n raise ValueError(\"Argument slx must be writable\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_getslxslice(self.__nativep,whichsol_,first_,last_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slx_copyarray:\n slx_[:] = _slx_np_tmp", "def getslc(self,whichsol_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slc is None: raise TypeError(\"Invalid type for argument slc\")\n _copyback_slc = False\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n _copyback_slc = True\n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n _copyback_slc = True\n if slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.getslc(whichsol_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slc:\n slc[:] = _tmparr_slc", "def getslc(self,whichsol_,slc_):\n _slc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),self.getnumcon()))\n if isinstance(slc_,numpy.ndarray) and not slc_.flags.writeable:\n raise ValueError(\"Argument slc must be writable\")\n if slc_ is None:\n raise ValueError(\"Argument slc may not be None\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_getslc(self.__nativep,whichsol_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slc_copyarray:\n slc_[:] = _slc_np_tmp", "def getskcslice(self,whichsol_,first_,last_,skc_):\n _skc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),((last_) - (first_))))\n if isinstance(skc_,numpy.ndarray) and not skc_.flags.writeable:\n raise ValueError(\"Argument skc must be writable\")\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))()\n else:\n _skc_tmp = None\n res = __library__.MSK_XX_getskcslice(self.__nativep,whichsol_,first_,last_,_skc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skc_ is not None: skc_[:] = [ stakey(v) for v in _skc_tmp[0:len(skc_)] ]", "def putskxslice(self,whichsol_,first_,last_,skx_):\n _skx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),((last_) - (first_))))\n if skx_ is None:\n raise ValueError(\"Argument skx cannot be None\")\n if skx_ is None:\n raise ValueError(\"Argument skx may not be None\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))(*skx_)\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_putskxslice(self.__nativep,whichsol_,first_,last_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsnxslice(self,whichsol_,first_,last_,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if snx is None: raise TypeError(\"Invalid type for argument snx\")\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n \n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n \n if snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx has wrong length\")\n res = self.__obj.putsnxslice(whichsol_,first_,last_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsucslice(self,whichsol_,first_,last_,suc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if suc is None: raise TypeError(\"Invalid type for argument suc\")\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n \n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n \n if suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc has wrong length\")\n res = self.__obj.putsucslice(whichsol_,first_,last_,suc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsucslice(self,whichsol_,first_,last_,suc_):\n _suc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc is not long enough: Is %d, expected %d\" % (len(suc_),((last_) - (first_))))\n if suc_ is None:\n raise ValueError(\"Argument suc cannot be None\")\n if suc_ is None:\n raise ValueError(\"Argument suc may not be None\")\n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n res = __library__.MSK_XX_putsucslice(self.__nativep,whichsol_,first_,last_,_suc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsnxslice(self,whichsol_,first_,last_,snx_):\n _snx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),((last_) - (first_))))\n if snx_ is None:\n raise ValueError(\"Argument snx cannot be None\")\n if snx_ is None:\n raise ValueError(\"Argument snx may not be None\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_putsnxslice(self.__nativep,whichsol_,first_,last_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putxcslice(self,whichsol_,first_,last_,xc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xc is None: raise TypeError(\"Invalid type for argument xc\")\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n \n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n \n if xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc has wrong length\")\n res = self.__obj.putxcslice(whichsol_,first_,last_,xc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.getskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skx:\n for __tmp_var_0 in range(len(skx_)): skx[__tmp_var_0] = stakey(_tmparr_skx[__tmp_var_0])", "def getsucslice(self,whichsol_,first_,last_,suc_):\n _suc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc is not long enough: Is %d, expected %d\" % (len(suc_),((last_) - (first_))))\n if isinstance(suc_,numpy.ndarray) and not suc_.flags.writeable:\n raise ValueError(\"Argument suc must be writable\")\n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n res = __library__.MSK_XX_getsucslice(self.__nativep,whichsol_,first_,last_,_suc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _suc_copyarray:\n suc_[:] = _suc_np_tmp", "def getsucslice(self,whichsol_,first_,last_,suc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_suc = False\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n _copyback_suc = True\n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n _copyback_suc = True\n if suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc has wrong length\")\n res = self.__obj.getsucslice(whichsol_,first_,last_,suc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_suc:\n suc[:] = _tmparr_suc", "def putsuxslice(self,whichsol_,first_,last_,sux_):\n _sux_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),((last_) - (first_))))\n if sux_ is None:\n raise ValueError(\"Argument sux cannot be None\")\n if sux_ is None:\n raise ValueError(\"Argument sux may not be None\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_putsuxslice(self.__nativep,whichsol_,first_,last_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsuxslice(self,whichsol_,first_,last_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if sux is None: raise TypeError(\"Invalid type for argument sux\")\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n \n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n \n if sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.putsuxslice(whichsol_,first_,last_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putxcslice(self,whichsol_,first_,last_,xc_):\n _xc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),((last_) - (first_))))\n if xc_ is None:\n raise ValueError(\"Argument xc cannot be None\")\n if xc_ is None:\n raise ValueError(\"Argument xc may not be None\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n res = __library__.MSK_XX_putxcslice(self.__nativep,whichsol_,first_,last_,_xc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsuxslice(self,whichsol_,first_,last_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_sux = False\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n _copyback_sux = True\n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n _copyback_sux = True\n if sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.getsuxslice(whichsol_,first_,last_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_sux:\n sux[:] = _tmparr_sux", "def putslx(self,whichsol_,slx_):\n _slx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),self.getnumvar()))\n if slx_ is None:\n raise ValueError(\"Argument slx cannot be None\")\n if slx_ is None:\n raise ValueError(\"Argument slx may not be None\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_putslx(self.__nativep,whichsol_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)" ]

[ "0.8701502", "0.8133429", "0.806384", "0.76658696", "0.7658473", "0.7546955", "0.74436045", "0.7409827", "0.7223596", "0.6984172", "0.6980541", "0.6971406", "0.69320714", "0.6919073", "0.68930155", "0.68504506", "0.6744624", "0.65483", "0.65033495", "0.6489441", "0.63791984", "0.6278538", "0.62429035", "0.6242414", "0.6209035", "0.61912733", "0.6180007", "0.61193365", "0.60827285", "0.60692865" ]

[ "def putsucslice(self,whichsol_,first_,last_,suc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if suc is None: raise TypeError(\"Invalid type for argument suc\")\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n \n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n \n if suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc has wrong length\")\n res = self.__obj.putsucslice(whichsol_,first_,last_,suc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsucslice(self,whichsol_,first_,last_,suc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_suc = False\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n _copyback_suc = True\n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n _copyback_suc = True\n if suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc has wrong length\")\n res = self.__obj.getsucslice(whichsol_,first_,last_,suc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_suc:\n suc[:] = _tmparr_suc", "def getsucslice(self,whichsol_,first_,last_,suc_):\n _suc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc is not long enough: Is %d, expected %d\" % (len(suc_),((last_) - (first_))))\n if isinstance(suc_,numpy.ndarray) and not suc_.flags.writeable:\n raise ValueError(\"Argument suc must be writable\")\n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n res = __library__.MSK_XX_getsucslice(self.__nativep,whichsol_,first_,last_,_suc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _suc_copyarray:\n suc_[:] = _suc_np_tmp", "def putskcslice(self,whichsol_,first_,last_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n \n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n \n if skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.putskcslice(whichsol_,first_,last_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskcslice(self,whichsol_,first_,last_,skc_):\n _skc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),((last_) - (first_))))\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))(*skc_)\n else:\n _skc_tmp = None\n res = __library__.MSK_XX_putskcslice(self.__nativep,whichsol_,first_,last_,_skc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skx is None: raise TypeError(\"Invalid type for argument skx\")\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.putskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslcslice(self,whichsol_,first_,last_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slc is None: raise TypeError(\"Invalid type for argument slc\")\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n \n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n \n if slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.putslcslice(whichsol_,first_,last_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslcslice(self,whichsol_,first_,last_,slc_):\n _slc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),((last_) - (first_))))\n if slc_ is None:\n raise ValueError(\"Argument slc cannot be None\")\n if slc_ is None:\n raise ValueError(\"Argument slc may not be None\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_putslcslice(self.__nativep,whichsol_,first_,last_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsuxslice(self,whichsol_,first_,last_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if sux is None: raise TypeError(\"Invalid type for argument sux\")\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n \n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n \n if sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.putsuxslice(whichsol_,first_,last_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsuxslice(self,whichsol_,first_,last_,sux_):\n _sux_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),((last_) - (first_))))\n if sux_ is None:\n raise ValueError(\"Argument sux cannot be None\")\n if sux_ is None:\n raise ValueError(\"Argument sux may not be None\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_putsuxslice(self.__nativep,whichsol_,first_,last_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskxslice(self,whichsol_,first_,last_,skx_):\n _skx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),((last_) - (first_))))\n if skx_ is None:\n raise ValueError(\"Argument skx cannot be None\")\n if skx_ is None:\n raise ValueError(\"Argument skx may not be None\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))(*skx_)\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_putskxslice(self.__nativep,whichsol_,first_,last_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsnxslice(self,whichsol_,first_,last_,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if snx is None: raise TypeError(\"Invalid type for argument snx\")\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n \n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n \n if snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx has wrong length\")\n res = self.__obj.putsnxslice(whichsol_,first_,last_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsnxslice(self,whichsol_,first_,last_,snx_):\n _snx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),((last_) - (first_))))\n if snx_ is None:\n raise ValueError(\"Argument snx cannot be None\")\n if snx_ is None:\n raise ValueError(\"Argument snx may not be None\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_putsnxslice(self.__nativep,whichsol_,first_,last_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putxcslice(self,whichsol_,first_,last_,xc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xc is None: raise TypeError(\"Invalid type for argument xc\")\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n \n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n \n if xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc has wrong length\")\n res = self.__obj.putxcslice(whichsol_,first_,last_,xc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsuc(self,whichsol_,suc_):\n _suc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and suc_ is not None and len(suc_) != self.getnumcon():\n raise ValueError(\"Array argument suc is not long enough: Is %d, expected %d\" % (len(suc_),self.getnumcon()))\n if suc_ is None:\n raise ValueError(\"Argument suc cannot be None\")\n if suc_ is None:\n raise ValueError(\"Argument suc may not be None\")\n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n res = __library__.MSK_XX_putsuc(self.__nativep,whichsol_,_suc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putxcslice(self,whichsol_,first_,last_,xc_):\n _xc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),((last_) - (first_))))\n if xc_ is None:\n raise ValueError(\"Argument xc cannot be None\")\n if xc_ is None:\n raise ValueError(\"Argument xc may not be None\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n res = __library__.MSK_XX_putxcslice(self.__nativep,whichsol_,first_,last_,_xc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.putslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsuxslice(self,whichsol_,first_,last_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_sux = False\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n _copyback_sux = True\n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n _copyback_sux = True\n if sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.getsuxslice(whichsol_,first_,last_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_sux:\n sux[:] = _tmparr_sux", "def getskcslice(self,whichsol_,first_,last_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skc = False\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n _copyback_skc = True\n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n _copyback_skc = True\n if skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.getskcslice(whichsol_,first_,last_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skc:\n for __tmp_var_0 in range(len(skc_)): skc[__tmp_var_0] = stakey(_tmparr_skc[__tmp_var_0])", "def putsuc(self,whichsol_,suc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if suc is None: raise TypeError(\"Invalid type for argument suc\")\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n \n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n \n if suc_ is not None and len(suc_) != self.getnumcon():\n raise ValueError(\"Array argument suc has wrong length\")\n res = self.__obj.putsuc(whichsol_,suc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslxslice(self,whichsol_,first_,last_,slx_):\n _slx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),((last_) - (first_))))\n if slx_ is None:\n raise ValueError(\"Argument slx cannot be None\")\n if slx_ is None:\n raise ValueError(\"Argument slx may not be None\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_putslxslice(self.__nativep,whichsol_,first_,last_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putyslice(self,whichsol_,first_,last_,y): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if y is None: raise TypeError(\"Invalid type for argument y\")\n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n \n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n \n if y_ is not None and len(y_) != ((last_) - (first_)):\n raise ValueError(\"Array argument y has wrong length\")\n res = self.__obj.putyslice(whichsol_,first_,last_,y_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getskcslice(self,whichsol_,first_,last_,skc_):\n _skc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),((last_) - (first_))))\n if isinstance(skc_,numpy.ndarray) and not skc_.flags.writeable:\n raise ValueError(\"Argument skc must be writable\")\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))()\n else:\n _skc_tmp = None\n res = __library__.MSK_XX_getskcslice(self.__nativep,whichsol_,first_,last_,_skc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skc_ is not None: skc_[:] = [ stakey(v) for v in _skc_tmp[0:len(skc_)] ]", "def putxxslice(self,whichsol_,first_,last_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xx is None: raise TypeError(\"Invalid type for argument xx\")\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n \n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n \n if xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.putxxslice(whichsol_,first_,last_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsuxslice(self,whichsol_,first_,last_,sux_):\n _sux_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),((last_) - (first_))))\n if isinstance(sux_,numpy.ndarray) and not sux_.flags.writeable:\n raise ValueError(\"Argument sux must be writable\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_getsuxslice(self.__nativep,whichsol_,first_,last_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _sux_copyarray:\n sux_[:] = _sux_np_tmp", "def getslcslice(self,whichsol_,first_,last_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_slc = False\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n _copyback_slc = True\n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n _copyback_slc = True\n if slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.getslcslice(whichsol_,first_,last_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slc:\n slc[:] = _tmparr_slc", "def getskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.getskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skx:\n for __tmp_var_0 in range(len(skx_)): skx[__tmp_var_0] = stakey(_tmparr_skx[__tmp_var_0])", "def getsuc(self,whichsol_,suc_):\n _suc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and suc_ is not None and len(suc_) != self.getnumcon():\n raise ValueError(\"Array argument suc is not long enough: Is %d, expected %d\" % (len(suc_),self.getnumcon()))\n if isinstance(suc_,numpy.ndarray) and not suc_.flags.writeable:\n raise ValueError(\"Argument suc must be writable\")\n if suc_ is None:\n raise ValueError(\"Argument suc may not be None\")\n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n res = __library__.MSK_XX_getsuc(self.__nativep,whichsol_,_suc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _suc_copyarray:\n suc_[:] = _suc_np_tmp", "def putyslice(self,whichsol_,first_,last_,y_):\n _y_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and y_ is not None and len(y_) != ((last_) - (first_)):\n raise ValueError(\"Array argument y is not long enough: Is %d, expected %d\" % (len(y_),((last_) - (first_))))\n if y_ is None:\n raise ValueError(\"Argument y cannot be None\")\n if y_ is None:\n raise ValueError(\"Argument y may not be None\")\n if isinstance(y_, numpy.ndarray) and y_.dtype is numpy.dtype(numpy.float64) and y_.flags.contiguous:\n _y_copyarray = False\n _y_tmp = ctypes.cast(y_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif y_ is not None:\n _y_copyarray = True\n _y_np_tmp = numpy.zeros(len(y_),numpy.dtype(numpy.float64))\n _y_np_tmp[:] = y_\n assert _y_np_tmp.flags.contiguous\n _y_tmp = ctypes.cast(_y_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _y_copyarray = False\n _y_tmp = None\n \n res = __library__.MSK_XX_putyslice(self.__nativep,whichsol_,first_,last_,_y_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsuc(self,whichsol_,suc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if suc is None: raise TypeError(\"Invalid type for argument suc\")\n _copyback_suc = False\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n _copyback_suc = True\n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n _copyback_suc = True\n if suc_ is not None and len(suc_) != self.getnumcon():\n raise ValueError(\"Array argument suc has wrong length\")\n res = self.__obj.getsuc(whichsol_,suc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_suc:\n suc[:] = _tmparr_suc" ]

[ "0.85092914", "0.79236835", "0.7901774", "0.710677", "0.6811282", "0.6809746", "0.67143184", "0.66562814", "0.6645037", "0.6538894", "0.650998", "0.64967585", "0.63445026", "0.63221073", "0.6295248", "0.61873865", "0.6112312", "0.6103999", "0.61039084", "0.606613", "0.5948238", "0.59398496", "0.59066373", "0.58637196", "0.5849322", "0.5815042", "0.5811846", "0.57950175", "0.5736311", "0.5726971" ]

[ "def putslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.putslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getslxslice(self,whichsol_,first_,last_,slx_):\n _slx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),((last_) - (first_))))\n if isinstance(slx_,numpy.ndarray) and not slx_.flags.writeable:\n raise ValueError(\"Argument slx must be writable\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_getslxslice(self.__nativep,whichsol_,first_,last_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slx_copyarray:\n slx_[:] = _slx_np_tmp", "def getslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.getslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slx:\n slx[:] = _tmparr_slx", "def putskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skx is None: raise TypeError(\"Invalid type for argument skx\")\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.putskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskxslice(self,whichsol_,first_,last_,skx_):\n _skx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),((last_) - (first_))))\n if skx_ is None:\n raise ValueError(\"Argument skx cannot be None\")\n if skx_ is None:\n raise ValueError(\"Argument skx may not be None\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))(*skx_)\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_putskxslice(self.__nativep,whichsol_,first_,last_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsnxslice(self,whichsol_,first_,last_,snx_):\n _snx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),((last_) - (first_))))\n if snx_ is None:\n raise ValueError(\"Argument snx cannot be None\")\n if snx_ is None:\n raise ValueError(\"Argument snx may not be None\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_putsnxslice(self.__nativep,whichsol_,first_,last_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsnxslice(self,whichsol_,first_,last_,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if snx is None: raise TypeError(\"Invalid type for argument snx\")\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n \n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n \n if snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx has wrong length\")\n res = self.__obj.putsnxslice(whichsol_,first_,last_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslcslice(self,whichsol_,first_,last_,slc_):\n _slc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),((last_) - (first_))))\n if slc_ is None:\n raise ValueError(\"Argument slc cannot be None\")\n if slc_ is None:\n raise ValueError(\"Argument slc may not be None\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_putslcslice(self.__nativep,whichsol_,first_,last_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslcslice(self,whichsol_,first_,last_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slc is None: raise TypeError(\"Invalid type for argument slc\")\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n \n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n \n if slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.putslcslice(whichsol_,first_,last_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslx(self,whichsol_,slx_):\n _slx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),self.getnumvar()))\n if slx_ is None:\n raise ValueError(\"Argument slx cannot be None\")\n if slx_ is None:\n raise ValueError(\"Argument slx may not be None\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_putslx(self.__nativep,whichsol_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslx(self,whichsol_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.putslx(whichsol_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.getskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skx:\n for __tmp_var_0 in range(len(skx_)): skx[__tmp_var_0] = stakey(_tmparr_skx[__tmp_var_0])", "def getsnxslice(self,whichsol_,first_,last_,snx_):\n _snx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),((last_) - (first_))))\n if isinstance(snx_,numpy.ndarray) and not snx_.flags.writeable:\n raise ValueError(\"Argument snx must be writable\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_getsnxslice(self.__nativep,whichsol_,first_,last_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _snx_copyarray:\n snx_[:] = _snx_np_tmp", "def getskxslice(self,whichsol_,first_,last_,skx_):\n _skx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),((last_) - (first_))))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_getskxslice(self.__nativep,whichsol_,first_,last_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]", "def getsnxslice(self,whichsol_,first_,last_,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_snx = False\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n _copyback_snx = True\n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n _copyback_snx = True\n if snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx has wrong length\")\n res = self.__obj.getsnxslice(whichsol_,first_,last_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_snx:\n snx[:] = _tmparr_snx", "def getslx(self,whichsol_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.getslx(whichsol_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slx:\n slx[:] = _tmparr_slx", "def getslcslice(self,whichsol_,first_,last_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_slc = False\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n _copyback_slc = True\n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n _copyback_slc = True\n if slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.getslcslice(whichsol_,first_,last_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slc:\n slc[:] = _tmparr_slc", "def getslcslice(self,whichsol_,first_,last_,slc_):\n _slc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),((last_) - (first_))))\n if isinstance(slc_,numpy.ndarray) and not slc_.flags.writeable:\n raise ValueError(\"Argument slc must be writable\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_getslcslice(self.__nativep,whichsol_,first_,last_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slc_copyarray:\n slc_[:] = _slc_np_tmp", "def getslx(self,whichsol_,slx_):\n _slx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),self.getnumvar()))\n if isinstance(slx_,numpy.ndarray) and not slx_.flags.writeable:\n raise ValueError(\"Argument slx must be writable\")\n if slx_ is None:\n raise ValueError(\"Argument slx may not be None\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_getslx(self.__nativep,whichsol_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slx_copyarray:\n slx_[:] = _slx_np_tmp", "def putxxslice(self,whichsol_,first_,last_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xx is None: raise TypeError(\"Invalid type for argument xx\")\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n \n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n \n if xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.putxxslice(whichsol_,first_,last_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsuxslice(self,whichsol_,first_,last_,sux_):\n _sux_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),((last_) - (first_))))\n if sux_ is None:\n raise ValueError(\"Argument sux cannot be None\")\n if sux_ is None:\n raise ValueError(\"Argument sux may not be None\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_putsuxslice(self.__nativep,whichsol_,first_,last_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putyslice(self,whichsol_,first_,last_,y): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if y is None: raise TypeError(\"Invalid type for argument y\")\n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n \n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n \n if y_ is not None and len(y_) != ((last_) - (first_)):\n raise ValueError(\"Array argument y has wrong length\")\n res = self.__obj.putyslice(whichsol_,first_,last_,y_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsuxslice(self,whichsol_,first_,last_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_sux = False\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n _copyback_sux = True\n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n _copyback_sux = True\n if sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.getsuxslice(whichsol_,first_,last_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_sux:\n sux[:] = _tmparr_sux", "def putxxslice(self,whichsol_,first_,last_,xx_):\n _xx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),((last_) - (first_))))\n if xx_ is None:\n raise ValueError(\"Argument xx cannot be None\")\n if xx_ is None:\n raise ValueError(\"Argument xx may not be None\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n res = __library__.MSK_XX_putxxslice(self.__nativep,whichsol_,first_,last_,_xx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsuxslice(self,whichsol_,first_,last_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if sux is None: raise TypeError(\"Invalid type for argument sux\")\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n \n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n \n if sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.putsuxslice(whichsol_,first_,last_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskcslice(self,whichsol_,first_,last_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n \n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n \n if skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.putskcslice(whichsol_,first_,last_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsuxslice(self,whichsol_,first_,last_,sux_):\n _sux_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),((last_) - (first_))))\n if isinstance(sux_,numpy.ndarray) and not sux_.flags.writeable:\n raise ValueError(\"Argument sux must be writable\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_getsuxslice(self.__nativep,whichsol_,first_,last_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _sux_copyarray:\n sux_[:] = _sux_np_tmp", "def putyslice(self,whichsol_,first_,last_,y_):\n _y_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and y_ is not None and len(y_) != ((last_) - (first_)):\n raise ValueError(\"Array argument y is not long enough: Is %d, expected %d\" % (len(y_),((last_) - (first_))))\n if y_ is None:\n raise ValueError(\"Argument y cannot be None\")\n if y_ is None:\n raise ValueError(\"Argument y may not be None\")\n if isinstance(y_, numpy.ndarray) and y_.dtype is numpy.dtype(numpy.float64) and y_.flags.contiguous:\n _y_copyarray = False\n _y_tmp = ctypes.cast(y_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif y_ is not None:\n _y_copyarray = True\n _y_np_tmp = numpy.zeros(len(y_),numpy.dtype(numpy.float64))\n _y_np_tmp[:] = y_\n assert _y_np_tmp.flags.contiguous\n _y_tmp = ctypes.cast(_y_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _y_copyarray = False\n _y_tmp = None\n \n res = __library__.MSK_XX_putyslice(self.__nativep,whichsol_,first_,last_,_y_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getxxslice(self,whichsol_,first_,last_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_xx = False\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n _copyback_xx = True\n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n _copyback_xx = True\n if xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.getxxslice(whichsol_,first_,last_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xx:\n xx[:] = _tmparr_xx", "def putxcslice(self,whichsol_,first_,last_,xc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xc is None: raise TypeError(\"Invalid type for argument xc\")\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n \n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n \n if xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc has wrong length\")\n res = self.__obj.putxcslice(whichsol_,first_,last_,xc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)" ]

[ "0.87658566", "0.8256838", "0.82101905", "0.7792551", "0.76803", "0.7590878", "0.754748", "0.73802775", "0.73302394", "0.73208", "0.7255603", "0.7252787", "0.72040206", "0.7198659", "0.71512777", "0.7144093", "0.7055716", "0.70355844", "0.7016022", "0.6608226", "0.6572912", "0.6550317", "0.6548971", "0.6540673", "0.65021807", "0.6472795", "0.6467453", "0.6425065", "0.6372505", "0.63199776" ]

[ "def putsuxslice(self,whichsol_,first_,last_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if sux is None: raise TypeError(\"Invalid type for argument sux\")\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n \n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n \n if sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.putsuxslice(whichsol_,first_,last_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsuxslice(self,whichsol_,first_,last_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_sux = False\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n _copyback_sux = True\n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n _copyback_sux = True\n if sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.getsuxslice(whichsol_,first_,last_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_sux:\n sux[:] = _tmparr_sux", "def getsuxslice(self,whichsol_,first_,last_,sux_):\n _sux_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),((last_) - (first_))))\n if isinstance(sux_,numpy.ndarray) and not sux_.flags.writeable:\n raise ValueError(\"Argument sux must be writable\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_getsuxslice(self.__nativep,whichsol_,first_,last_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _sux_copyarray:\n sux_[:] = _sux_np_tmp", "def putxxslice(self,whichsol_,first_,last_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xx is None: raise TypeError(\"Invalid type for argument xx\")\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n \n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n \n if xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.putxxslice(whichsol_,first_,last_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skx is None: raise TypeError(\"Invalid type for argument skx\")\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.putskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.putslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsux(self,whichsol_,sux_):\n _sux_minlength = self.getnumvar()\n if self.getnumvar() > 0 and sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),self.getnumvar()))\n if sux_ is None:\n raise ValueError(\"Argument sux cannot be None\")\n if sux_ is None:\n raise ValueError(\"Argument sux may not be None\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_putsux(self.__nativep,whichsol_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putxxslice(self,whichsol_,first_,last_,xx_):\n _xx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),((last_) - (first_))))\n if xx_ is None:\n raise ValueError(\"Argument xx cannot be None\")\n if xx_ is None:\n raise ValueError(\"Argument xx may not be None\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n res = __library__.MSK_XX_putxxslice(self.__nativep,whichsol_,first_,last_,_xx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsnxslice(self,whichsol_,first_,last_,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if snx is None: raise TypeError(\"Invalid type for argument snx\")\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n \n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n \n if snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx has wrong length\")\n res = self.__obj.putsnxslice(whichsol_,first_,last_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsux(self,whichsol_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if sux is None: raise TypeError(\"Invalid type for argument sux\")\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n \n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n \n if sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.putsux(whichsol_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsux(self,whichsol_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if sux is None: raise TypeError(\"Invalid type for argument sux\")\n _copyback_sux = False\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n _copyback_sux = True\n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n _copyback_sux = True\n if sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.getsux(whichsol_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_sux:\n sux[:] = _tmparr_sux", "def putskxslice(self,whichsol_,first_,last_,skx_):\n _skx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),((last_) - (first_))))\n if skx_ is None:\n raise ValueError(\"Argument skx cannot be None\")\n if skx_ is None:\n raise ValueError(\"Argument skx may not be None\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))(*skx_)\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_putskxslice(self.__nativep,whichsol_,first_,last_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getxxslice(self,whichsol_,first_,last_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_xx = False\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n _copyback_xx = True\n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n _copyback_xx = True\n if xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.getxxslice(whichsol_,first_,last_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xx:\n xx[:] = _tmparr_xx", "def getsux(self,whichsol_,sux_):\n _sux_minlength = self.getnumvar()\n if self.getnumvar() > 0 and sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),self.getnumvar()))\n if isinstance(sux_,numpy.ndarray) and not sux_.flags.writeable:\n raise ValueError(\"Argument sux must be writable\")\n if sux_ is None:\n raise ValueError(\"Argument sux may not be None\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_getsux(self.__nativep,whichsol_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _sux_copyarray:\n sux_[:] = _sux_np_tmp", "def putslxslice(self,whichsol_,first_,last_,slx_):\n _slx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),((last_) - (first_))))\n if slx_ is None:\n raise ValueError(\"Argument slx cannot be None\")\n if slx_ is None:\n raise ValueError(\"Argument slx may not be None\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_putslxslice(self.__nativep,whichsol_,first_,last_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskcslice(self,whichsol_,first_,last_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n \n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n \n if skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.putskcslice(whichsol_,first_,last_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsnxslice(self,whichsol_,first_,last_,snx_):\n _snx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),((last_) - (first_))))\n if snx_ is None:\n raise ValueError(\"Argument snx cannot be None\")\n if snx_ is None:\n raise ValueError(\"Argument snx may not be None\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_putsnxslice(self.__nativep,whichsol_,first_,last_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslcslice(self,whichsol_,first_,last_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slc is None: raise TypeError(\"Invalid type for argument slc\")\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n \n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n \n if slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.putslcslice(whichsol_,first_,last_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsnx(self,whichsol_,sux_):\n _sux_minlength = self.getnumvar()\n if self.getnumvar() > 0 and sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),self.getnumvar()))\n if sux_ is None:\n raise ValueError(\"Argument sux cannot be None\")\n if sux_ is None:\n raise ValueError(\"Argument sux may not be None\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_putsnx(self.__nativep,whichsol_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsnx(self,whichsol_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if sux is None: raise TypeError(\"Invalid type for argument sux\")\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n \n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n \n if sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.putsnx(whichsol_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsucslice(self,whichsol_,first_,last_,suc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if suc is None: raise TypeError(\"Invalid type for argument suc\")\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n \n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n \n if suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc has wrong length\")\n res = self.__obj.putsucslice(whichsol_,first_,last_,suc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsucslice(self,whichsol_,first_,last_,suc_):\n _suc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc is not long enough: Is %d, expected %d\" % (len(suc_),((last_) - (first_))))\n if suc_ is None:\n raise ValueError(\"Argument suc cannot be None\")\n if suc_ is None:\n raise ValueError(\"Argument suc may not be None\")\n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n res = __library__.MSK_XX_putsucslice(self.__nativep,whichsol_,first_,last_,_suc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslcslice(self,whichsol_,first_,last_,slc_):\n _slc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),((last_) - (first_))))\n if slc_ is None:\n raise ValueError(\"Argument slc cannot be None\")\n if slc_ is None:\n raise ValueError(\"Argument slc may not be None\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_putslcslice(self.__nativep,whichsol_,first_,last_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getxxslice(self,whichsol_,first_,last_,xx_):\n _xx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),((last_) - (first_))))\n if isinstance(xx_,numpy.ndarray) and not xx_.flags.writeable:\n raise ValueError(\"Argument xx must be writable\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n res = __library__.MSK_XX_getxxslice(self.__nativep,whichsol_,first_,last_,_xx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _xx_copyarray:\n xx_[:] = _xx_np_tmp", "def getsucslice(self,whichsol_,first_,last_,suc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_suc = False\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n _copyback_suc = True\n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n _copyback_suc = True\n if suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc has wrong length\")\n res = self.__obj.getsucslice(whichsol_,first_,last_,suc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_suc:\n suc[:] = _tmparr_suc", "def getskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.getskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skx:\n for __tmp_var_0 in range(len(skx_)): skx[__tmp_var_0] = stakey(_tmparr_skx[__tmp_var_0])", "def putyslice(self,whichsol_,first_,last_,y): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if y is None: raise TypeError(\"Invalid type for argument y\")\n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n \n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n \n if y_ is not None and len(y_) != ((last_) - (first_)):\n raise ValueError(\"Array argument y has wrong length\")\n res = self.__obj.putyslice(whichsol_,first_,last_,y_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.getslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slx:\n slx[:] = _tmparr_slx", "def getsucslice(self,whichsol_,first_,last_,suc_):\n _suc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc is not long enough: Is %d, expected %d\" % (len(suc_),((last_) - (first_))))\n if isinstance(suc_,numpy.ndarray) and not suc_.flags.writeable:\n raise ValueError(\"Argument suc must be writable\")\n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n res = __library__.MSK_XX_getsucslice(self.__nativep,whichsol_,first_,last_,_suc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _suc_copyarray:\n suc_[:] = _suc_np_tmp", "def putskcslice(self,whichsol_,first_,last_,skc_):\n _skc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),((last_) - (first_))))\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))(*skc_)\n else:\n _skc_tmp = None\n res = __library__.MSK_XX_putskcslice(self.__nativep,whichsol_,first_,last_,_skc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)" ]

[ "0.8508719", "0.83340466", "0.8057801", "0.69197226", "0.6710496", "0.64897186", "0.6475755", "0.6451187", "0.6406239", "0.6389337", "0.6378048", "0.63440204", "0.63357335", "0.63132656", "0.62359446", "0.62201715", "0.6173615", "0.616365", "0.61357236", "0.6130329", "0.61110735", "0.6052921", "0.60264003", "0.5911905", "0.5902889", "0.5881998", "0.5868419", "0.5839705", "0.583016", "0.57788485" ]

[ "def putsnxslice(self,whichsol_,first_,last_,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if snx is None: raise TypeError(\"Invalid type for argument snx\")\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n \n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n \n if snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx has wrong length\")\n res = self.__obj.putsnxslice(whichsol_,first_,last_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsnxslice(self,whichsol_,first_,last_,snx_):\n _snx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),((last_) - (first_))))\n if isinstance(snx_,numpy.ndarray) and not snx_.flags.writeable:\n raise ValueError(\"Argument snx must be writable\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_getsnxslice(self.__nativep,whichsol_,first_,last_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _snx_copyarray:\n snx_[:] = _snx_np_tmp", "def putskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skx is None: raise TypeError(\"Invalid type for argument skx\")\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.putskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsnxslice(self,whichsol_,first_,last_,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_snx = False\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n _copyback_snx = True\n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n _copyback_snx = True\n if snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx has wrong length\")\n res = self.__obj.getsnxslice(whichsol_,first_,last_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_snx:\n snx[:] = _tmparr_snx", "def putskxslice(self,whichsol_,first_,last_,skx_):\n _skx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),((last_) - (first_))))\n if skx_ is None:\n raise ValueError(\"Argument skx cannot be None\")\n if skx_ is None:\n raise ValueError(\"Argument skx may not be None\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))(*skx_)\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_putskxslice(self.__nativep,whichsol_,first_,last_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.putslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslxslice(self,whichsol_,first_,last_,slx_):\n _slx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),((last_) - (first_))))\n if slx_ is None:\n raise ValueError(\"Argument slx cannot be None\")\n if slx_ is None:\n raise ValueError(\"Argument slx may not be None\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_putslxslice(self.__nativep,whichsol_,first_,last_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.getskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skx:\n for __tmp_var_0 in range(len(skx_)): skx[__tmp_var_0] = stakey(_tmparr_skx[__tmp_var_0])", "def getskxslice(self,whichsol_,first_,last_,skx_):\n _skx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),((last_) - (first_))))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_getskxslice(self.__nativep,whichsol_,first_,last_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]", "def getslxslice(self,whichsol_,first_,last_,slx_):\n _slx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),((last_) - (first_))))\n if isinstance(slx_,numpy.ndarray) and not slx_.flags.writeable:\n raise ValueError(\"Argument slx must be writable\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_getslxslice(self.__nativep,whichsol_,first_,last_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slx_copyarray:\n slx_[:] = _slx_np_tmp", "def getslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.getslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slx:\n slx[:] = _tmparr_slx", "def getsnx(self,whichsol_,snx_):\n _snx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and snx_ is not None and len(snx_) != self.getnumvar():\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),self.getnumvar()))\n if isinstance(snx_,numpy.ndarray) and not snx_.flags.writeable:\n raise ValueError(\"Argument snx must be writable\")\n if snx_ is None:\n raise ValueError(\"Argument snx may not be None\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_getsnx(self.__nativep,whichsol_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _snx_copyarray:\n snx_[:] = _snx_np_tmp", "def putsuxslice(self,whichsol_,first_,last_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if sux is None: raise TypeError(\"Invalid type for argument sux\")\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n \n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n \n if sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.putsuxslice(whichsol_,first_,last_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsuxslice(self,whichsol_,first_,last_,sux_):\n _sux_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),((last_) - (first_))))\n if sux_ is None:\n raise ValueError(\"Argument sux cannot be None\")\n if sux_ is None:\n raise ValueError(\"Argument sux may not be None\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_putsuxslice(self.__nativep,whichsol_,first_,last_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putxxslice(self,whichsol_,first_,last_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xx is None: raise TypeError(\"Invalid type for argument xx\")\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n \n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n \n if xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.putxxslice(whichsol_,first_,last_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskcslice(self,whichsol_,first_,last_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n \n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n \n if skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.putskcslice(whichsol_,first_,last_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsnx(self,whichsol_,sux_):\n _sux_minlength = self.getnumvar()\n if self.getnumvar() > 0 and sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),self.getnumvar()))\n if sux_ is None:\n raise ValueError(\"Argument sux cannot be None\")\n if sux_ is None:\n raise ValueError(\"Argument sux may not be None\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_putsnx(self.__nativep,whichsol_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsnx(self,whichsol_,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if snx is None: raise TypeError(\"Invalid type for argument snx\")\n _copyback_snx = False\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n _copyback_snx = True\n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n _copyback_snx = True\n if snx_ is not None and len(snx_) != self.getnumvar():\n raise ValueError(\"Array argument snx has wrong length\")\n res = self.__obj.getsnx(whichsol_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_snx:\n snx[:] = _tmparr_snx", "def putxxslice(self,whichsol_,first_,last_,xx_):\n _xx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),((last_) - (first_))))\n if xx_ is None:\n raise ValueError(\"Argument xx cannot be None\")\n if xx_ is None:\n raise ValueError(\"Argument xx may not be None\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n res = __library__.MSK_XX_putxxslice(self.__nativep,whichsol_,first_,last_,_xx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsnx(self,whichsol_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if sux is None: raise TypeError(\"Invalid type for argument sux\")\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n \n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n \n if sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.putsnx(whichsol_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsuxslice(self,whichsol_,first_,last_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_sux = False\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n _copyback_sux = True\n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n _copyback_sux = True\n if sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.getsuxslice(whichsol_,first_,last_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_sux:\n sux[:] = _tmparr_sux", "def putxcslice(self,whichsol_,first_,last_,xc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xc is None: raise TypeError(\"Invalid type for argument xc\")\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n \n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n \n if xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc has wrong length\")\n res = self.__obj.putxcslice(whichsol_,first_,last_,xc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsuxslice(self,whichsol_,first_,last_,sux_):\n _sux_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),((last_) - (first_))))\n if isinstance(sux_,numpy.ndarray) and not sux_.flags.writeable:\n raise ValueError(\"Argument sux must be writable\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_getsuxslice(self.__nativep,whichsol_,first_,last_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _sux_copyarray:\n sux_[:] = _sux_np_tmp", "def putslcslice(self,whichsol_,first_,last_,slc_):\n _slc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),((last_) - (first_))))\n if slc_ is None:\n raise ValueError(\"Argument slc cannot be None\")\n if slc_ is None:\n raise ValueError(\"Argument slc may not be None\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_putslcslice(self.__nativep,whichsol_,first_,last_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslcslice(self,whichsol_,first_,last_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slc is None: raise TypeError(\"Invalid type for argument slc\")\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n \n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n \n if slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.putslcslice(whichsol_,first_,last_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskcslice(self,whichsol_,first_,last_,skc_):\n _skc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),((last_) - (first_))))\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))(*skc_)\n else:\n _skc_tmp = None\n res = __library__.MSK_XX_putskcslice(self.__nativep,whichsol_,first_,last_,_skc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putxcslice(self,whichsol_,first_,last_,xc_):\n _xc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),((last_) - (first_))))\n if xc_ is None:\n raise ValueError(\"Argument xc cannot be None\")\n if xc_ is None:\n raise ValueError(\"Argument xc may not be None\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n res = __library__.MSK_XX_putxcslice(self.__nativep,whichsol_,first_,last_,_xc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getxxslice(self,whichsol_,first_,last_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_xx = False\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n _copyback_xx = True\n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n _copyback_xx = True\n if xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.getxxslice(whichsol_,first_,last_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xx:\n xx[:] = _tmparr_xx", "def putsucslice(self,whichsol_,first_,last_,suc_):\n _suc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc is not long enough: Is %d, expected %d\" % (len(suc_),((last_) - (first_))))\n if suc_ is None:\n raise ValueError(\"Argument suc cannot be None\")\n if suc_ is None:\n raise ValueError(\"Argument suc may not be None\")\n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n res = __library__.MSK_XX_putsucslice(self.__nativep,whichsol_,first_,last_,_suc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putyslice(self,whichsol_,first_,last_,y): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if y is None: raise TypeError(\"Invalid type for argument y\")\n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n \n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n \n if y_ is not None and len(y_) != ((last_) - (first_)):\n raise ValueError(\"Array argument y has wrong length\")\n res = self.__obj.putyslice(whichsol_,first_,last_,y_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)" ]

[ "0.85671264", "0.805008", "0.79371846", "0.79229695", "0.7840644", "0.7586533", "0.75405127", "0.7280455", "0.7215171", "0.6978972", "0.6911959", "0.67005694", "0.66865796", "0.6662985", "0.66343945", "0.662925", "0.6617821", "0.66010696", "0.65472627", "0.6508029", "0.6459285", "0.6352539", "0.6342621", "0.6339596", "0.63367176", "0.6330985", "0.6241264", "0.61891544", "0.6182295", "0.6154826" ]

[ "def putbarxj(self,whichsol_,j_,barxj): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if barxj is None: raise TypeError(\"Invalid type for argument barxj\")\n if barxj is None:\n barxj_ = None\n else:\n try:\n barxj_ = memoryview(barxj)\n except TypeError:\n try:\n _tmparr_barxj = array.array(\"d\",barxj)\n except TypeError:\n raise TypeError(\"Argument barxj has wrong type\")\n else:\n barxj_ = memoryview(_tmparr_barxj)\n \n else:\n if barxj_.format != \"d\":\n barxj_ = memoryview(array.array(\"d\",barxj))\n \n if barxj_ is not None and len(barxj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barxj has wrong length\")\n res = self.__obj.putbarxj(whichsol_,j_,barxj_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getbarxj(self,whichsol_,j_,barxj_):\n _barxj_minlength = self.getlenbarvarj((j_))\n if self.getlenbarvarj((j_)) > 0 and barxj_ is not None and len(barxj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barxj is not long enough: Is %d, expected %d\" % (len(barxj_),self.getlenbarvarj((j_))))\n if isinstance(barxj_,numpy.ndarray) and not barxj_.flags.writeable:\n raise ValueError(\"Argument barxj must be writable\")\n if barxj_ is None:\n raise ValueError(\"Argument barxj may not be None\")\n if isinstance(barxj_, numpy.ndarray) and barxj_.dtype is numpy.dtype(numpy.float64) and barxj_.flags.contiguous:\n _barxj_copyarray = False\n _barxj_tmp = ctypes.cast(barxj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif barxj_ is not None:\n _barxj_copyarray = True\n _barxj_np_tmp = numpy.zeros(len(barxj_),numpy.dtype(numpy.float64))\n _barxj_np_tmp[:] = barxj_\n assert _barxj_np_tmp.flags.contiguous\n _barxj_tmp = ctypes.cast(_barxj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _barxj_copyarray = False\n _barxj_tmp = None\n \n res = __library__.MSK_XX_getbarxj(self.__nativep,whichsol_,j_,_barxj_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _barxj_copyarray:\n barxj_[:] = _barxj_np_tmp", "def putbarsj(self,whichsol_,j_,barsj_):\n _barsj_minlength = self.getlenbarvarj((j_))\n if self.getlenbarvarj((j_)) > 0 and barsj_ is not None and len(barsj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barsj is not long enough: Is %d, expected %d\" % (len(barsj_),self.getlenbarvarj((j_))))\n if barsj_ is None:\n raise ValueError(\"Argument barsj cannot be None\")\n if barsj_ is None:\n raise ValueError(\"Argument barsj may not be None\")\n if isinstance(barsj_, numpy.ndarray) and barsj_.dtype is numpy.dtype(numpy.float64) and barsj_.flags.contiguous:\n _barsj_copyarray = False\n _barsj_tmp = ctypes.cast(barsj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif barsj_ is not None:\n _barsj_copyarray = True\n _barsj_np_tmp = numpy.zeros(len(barsj_),numpy.dtype(numpy.float64))\n _barsj_np_tmp[:] = barsj_\n assert _barsj_np_tmp.flags.contiguous\n _barsj_tmp = ctypes.cast(_barsj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _barsj_copyarray = False\n _barsj_tmp = None\n \n res = __library__.MSK_XX_putbarsj(self.__nativep,whichsol_,j_,_barsj_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getbarxj(self,whichsol_,j_,barxj): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if barxj is None: raise TypeError(\"Invalid type for argument barxj\")\n _copyback_barxj = False\n if barxj is None:\n barxj_ = None\n else:\n try:\n barxj_ = memoryview(barxj)\n except TypeError:\n try:\n _tmparr_barxj = array.array(\"d\",barxj)\n except TypeError:\n raise TypeError(\"Argument barxj has wrong type\")\n else:\n barxj_ = memoryview(_tmparr_barxj)\n _copyback_barxj = True\n else:\n if barxj_.format != \"d\":\n barxj_ = memoryview(array.array(\"d\",barxj))\n _copyback_barxj = True\n if barxj_ is not None and len(barxj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barxj has wrong length\")\n res = self.__obj.getbarxj(whichsol_,j_,barxj_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_barxj:\n barxj[:] = _tmparr_barxj", "def putbarsj(self,whichsol_,j_,barsj): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if barsj is None: raise TypeError(\"Invalid type for argument barsj\")\n if barsj is None:\n barsj_ = None\n else:\n try:\n barsj_ = memoryview(barsj)\n except TypeError:\n try:\n _tmparr_barsj = array.array(\"d\",barsj)\n except TypeError:\n raise TypeError(\"Argument barsj has wrong type\")\n else:\n barsj_ = memoryview(_tmparr_barsj)\n \n else:\n if barsj_.format != \"d\":\n barsj_ = memoryview(array.array(\"d\",barsj))\n \n if barsj_ is not None and len(barsj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barsj has wrong length\")\n res = self.__obj.putbarsj(whichsol_,j_,barsj_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarsolutionj(self,j_,whichsol_,sk_,x_,sl_,su_,sn_):\n res = __library__.MSK_XX_putvarsolutionj(self.__nativep,j_,whichsol_,sk_,x_,sl_,su_,sn_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getbarsj(self,whichsol_,j_,barsj_):\n _barsj_minlength = self.getlenbarvarj((j_))\n if self.getlenbarvarj((j_)) > 0 and barsj_ is not None and len(barsj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barsj is not long enough: Is %d, expected %d\" % (len(barsj_),self.getlenbarvarj((j_))))\n if isinstance(barsj_,numpy.ndarray) and not barsj_.flags.writeable:\n raise ValueError(\"Argument barsj must be writable\")\n if barsj_ is None:\n raise ValueError(\"Argument barsj may not be None\")\n if isinstance(barsj_, numpy.ndarray) and barsj_.dtype is numpy.dtype(numpy.float64) and barsj_.flags.contiguous:\n _barsj_copyarray = False\n _barsj_tmp = ctypes.cast(barsj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif barsj_ is not None:\n _barsj_copyarray = True\n _barsj_np_tmp = numpy.zeros(len(barsj_),numpy.dtype(numpy.float64))\n _barsj_np_tmp[:] = barsj_\n assert _barsj_np_tmp.flags.contiguous\n _barsj_tmp = ctypes.cast(_barsj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _barsj_copyarray = False\n _barsj_tmp = None\n \n res = __library__.MSK_XX_getbarsj(self.__nativep,whichsol_,j_,_barsj_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _barsj_copyarray:\n barsj_[:] = _barsj_np_tmp", "def getbarsj(self,whichsol_,j_,barsj): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if barsj is None: raise TypeError(\"Invalid type for argument barsj\")\n _copyback_barsj = False\n if barsj is None:\n barsj_ = None\n else:\n try:\n barsj_ = memoryview(barsj)\n except TypeError:\n try:\n _tmparr_barsj = array.array(\"d\",barsj)\n except TypeError:\n raise TypeError(\"Argument barsj has wrong type\")\n else:\n barsj_ = memoryview(_tmparr_barsj)\n _copyback_barsj = True\n else:\n if barsj_.format != \"d\":\n barsj_ = memoryview(array.array(\"d\",barsj))\n _copyback_barsj = True\n if barsj_ is not None and len(barsj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barsj has wrong length\")\n res = self.__obj.getbarsj(whichsol_,j_,barsj_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_barsj:\n barsj[:] = _tmparr_barsj", "def putsolutionyi(self,i_,whichsol_,y_):\n res = __library__.MSK_XX_putsolutionyi(self.__nativep,i_,whichsol_,y_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsolutionyi(self,i_,whichsol_,y_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res = self.__obj.putsolutionyi(i_,whichsol_,y_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarbound(self,j_,bkx_,blx_,bux_):\n res = __library__.MSK_XX_putvarbound(self.__nativep,j_,bkx_,blx_,bux_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def setGasState(self, j):\n nsp = self.gas.nSpecies()\n y = zeros(nsp, 'd')\n for n in range(nsp):\n nm = self.gas.speciesName(n)\n y[n] = self.solution(nm, j)\n self.gas.setState_TPY(self.T(j), self.pressure, y)", "def jacobian(self, x):\n pass", "def getdimbarvarj(self,j_): # 3\n res,resargs = self.__obj.getdimbarvarj(j_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _dimbarvarj_return_value = resargs\n return _dimbarvarj_return_value", "def putxx(self,whichsol_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xx is None: raise TypeError(\"Invalid type for argument xx\")\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n \n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n \n if xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.putxx(whichsol_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbarvarname(self,j_,name_): # 3\n res = self.__obj.putbarvarname(j_,name_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putxx(self,whichsol_,xx_):\n _xx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),self.getnumvar()))\n if xx_ is None:\n raise ValueError(\"Argument xx cannot be None\")\n if xx_ is None:\n raise ValueError(\"Argument xx may not be None\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n res = __library__.MSK_XX_putxx(self.__nativep,whichsol_,_xx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def chgvarbound(self,j_,lower_,finite_,value_): # 3\n res = self.__obj.chgvarbound(j_,lower_,finite_,value_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def setConstQuantityAndBetaEqState(self, pointDict, quantity, target):\n print \"setConstQuantityAndBetaEqState: \", pointDict\n assert 'ye' not in pointDict, \"You can't SPECIFY a Ye if you're \" \\\n \"setting neutrinoless beta equlibrium!\"\n self.validatePointDict(pointDict)\n assert len(pointDict) < 2, \"State overdetermined for more than 1 indVars!\"\n #todo: check quantity is valid 3D table\n\n #defines 1D root solver to use in routine\n solveRoot = scipyOptimize.brentq # solveRootBisect\n\n solveVarName = 'logtemp'\n currentSolveVar = 0.0\n currentYe = 0.25\n #previous variables used to measure convergence of solve\n # so set them to something significantly different than starting values\n previousSolveVar = 100.0\n previousYe = 100.0\n yeError = relativeError(currentYe, previousYe)\n solveVarError = relativeError(currentSolveVar, previousSolveVar)\n otherVarName = pointDict.keys()[0]\n otherVar = pointDict.values()[0]\n\n maxIters = 5\n tol = 1e-3\n\n iteration = 0\n while iteration < maxIters and yeError + solveVarError > tol/2.0:\n previousSolveVar = currentSolveVar\n previousYe = currentYe\n getSolveVar = lambda x: multidimInterp((currentYe, x, otherVar),\n [self.h5file['ye'][:],\n self.h5file[solveVarName],\n self.h5file[otherVarName]],\n self.h5file[quantity][...],\n linInterp, 2) - target\n try:\n currentSolveVar = solveRoot(getSolveVar,\n self.h5file[solveVarName][0],\n self.h5file[solveVarName][-1],\n (),tol)\n except ValueError as err:\n print \"Root for log10(T) not bracketed on entire table: \" \\\n + str(err)\n # see if lower or upper temperature bound best\n logtemp = self.h5file['logtemp']\n answer1 = multidimInterp((currentYe, logtemp[0], otherVar),\n [self.h5file['ye'][:],\n self.h5file['logtemp'],\n self.h5file['logrho']],\n self.h5file[quantity][...],\n linInterp, 2) - target\n answer2 = multidimInterp((currentYe, logtemp[-1], otherVar),\n [self.h5file['ye'][:],\n self.h5file['logtemp'],\n self.h5file['logrho']],\n self.h5file[quantity][...],\n linInterp, 2) - target\n\n if (abs(answer1) < abs(answer2)):\n currentSolveVar = self.h5file['logtemp'][0]\n print \"Recovering with lowest table value, answer: %s\" % currentSolveVar\n else:\n currentSolveVar = self.h5file['logtemp'][-1]\n print \"Recovering with highest value, answer: %s\" % currentSolveVar\n\n getYe = lambda x : multidimInterp((x, currentSolveVar, otherVar),\n [self.h5file['ye'][:],\n self.h5file[solveVarName],\n self.h5file[otherVarName]],\n self.h5file['munu'][...],\n linInterp, 2)\n #check for bracketing error in root solve for ye\n try:\n currentYe = solveRoot(getYe,\n self.h5file['ye'][0],\n self.h5file['ye'][-1], (), tol)\n except ValueError as err:\n print \"Error in scipy root solver solving for ye: \", str(err)\n currentYe = self.findYeOfMinAbsMunu((currentSolveVar, otherVar))\n print \"Recovering with findYeOfMinAbsMunu, answer: %s\" % currentYe\n #print \"currentYe: \", currentYe, \"\\tcurrentT: \", currentSolveVar\n\n yeError = relativeError(currentYe, previousYe)\n solveVarError = relativeError(currentSolveVar, previousSolveVar)\n iteration += 1\n #print \"errs: \", yeError, solveVarError\n\n newDict = pointDict.copy()\n newDict['ye'] = currentYe\n temp = numpy.power(10.0,currentSolveVar) # TODO TEMP HARD CODE\n newDict['temp'] = temp\n self.setState(newDict)\n return currentYe, temp # TODO TEMP HARD CODE", "def putbarvarname(self,j_,name_):\n if isinstance(name_,unicode):\n name_ = name_.encode(\"utf-8\",errors=\"replace\")\n res = __library__.MSK_XX_putbarvarname(self.__nativep,j_,name_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getbarcsparsity(self,idxj_):\n maxnumnz_ = self.getnumbarcnz()\n numnz_ = ctypes.c_int64()\n _idxj_minlength = (maxnumnz_)\n if (maxnumnz_) > 0 and idxj_ is not None and len(idxj_) != (maxnumnz_):\n raise ValueError(\"Array argument idxj is not long enough: Is %d, expected %d\" % (len(idxj_),(maxnumnz_)))\n if isinstance(idxj_,numpy.ndarray) and not idxj_.flags.writeable:\n raise ValueError(\"Argument idxj must be writable\")\n if idxj_ is None:\n raise ValueError(\"Argument idxj may not be None\")\n if isinstance(idxj_, numpy.ndarray) and idxj_.dtype is numpy.dtype(numpy.int64) and idxj_.flags.contiguous:\n _idxj_copyarray = False\n _idxj_tmp = ctypes.cast(idxj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif idxj_ is not None:\n _idxj_copyarray = True\n _idxj_np_tmp = numpy.zeros(len(idxj_),numpy.dtype(numpy.int64))\n _idxj_np_tmp[:] = idxj_\n assert _idxj_np_tmp.flags.contiguous\n _idxj_tmp = ctypes.cast(_idxj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _idxj_copyarray = False\n _idxj_tmp = None\n \n res = __library__.MSK_XX_getbarcsparsity(self.__nativep,maxnumnz_,ctypes.byref(numnz_),_idxj_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n numnz_ = numnz_.value\n _numnz_return_value = numnz_\n if _idxj_copyarray:\n idxj_[:] = _idxj_np_tmp\n return (_numnz_return_value)", "def setBetaEqState(self, pointDict, useThisYeIfSolveFails=None):\n assert isinstance(pointDict, dict)\n assert 'ye' not in pointDict, \"You can't SPECIFY a Ye if you're \" \\\n \"setting neutrinoless beta equlibrium!\"\n self.validatePointDict(pointDict)\n assert len(pointDict) < 3, \"State overdetermined for more than 2 indVars!\"\n\n #defines 1D root solver to use in routine\n solveRoot = scipyOptimize.brentq # solveRootBisect\n\n\n #ASSUME 2 INDEPENENT VARIABLES ARE rho & temp\n logtemp = pointDict['logtemp']\n logrho = pointDict['logrho']\n\n tol = 1.e-6\n getYe = lambda x : multidimInterp((x, logtemp, logrho),\n [self.h5file['ye'][:],\n self.h5file['logtemp'],\n self.h5file['logrho']],\n self.h5file['munu'][...],\n linInterp, 2)\n #check for bracketing error in root solve for ye\n try:\n currentYe = solveRoot(getYe,\n self.h5file['ye'][0],\n self.h5file['ye'][-1], (), tol)\n except ValueError as err:\n print \"Error in scipy root solver solving for ye: \", str(err)\n if useThisYeIfSolveFails is None:\n currentYe = self.findYeOfMinAbsMunu((logtemp, logrho))\n print \"Recovering with findYeOfMinAbsMunu, answer: %s\" % currentYe\n else:\n currentYe = useThisYeIfSolveFails\n print \"Setting Ye to useThisYeIfSolveFails, answer: %s\" % currentYe\n\n newDict = pointDict.copy()\n newDict['ye'] = currentYe\n self.setState(newDict)\n return currentYe", "def putqobjij(self,i_,j_,qoij_): # 3\n res = self.__obj.putqobjij(i_,j_,qoij_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def set_jpos(self, position, joint_name=None, wait=True, *args, **kwargs):\n raise NotImplementedError", "def fixB(self,i,j,value):\n if self.coeffPattern[1] == None:\n m,n=self.m,self.n\n self.coeffPattern = [[None]*n for i in range(m)]\n self.coeffPattern[1][i][j]=value\n self._updateEstimatorSize(i)", "def putbaraij(self,i_,j_,sub,weights): # 3\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(weights)\n elif num_ != len(weights):\n raise IndexError(\"Inconsistent length of array weights\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"q\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"q\":\n sub_ = memoryview(array.array(\"q\",sub))\n \n if weights is None: raise TypeError(\"Invalid type for argument weights\")\n if weights is None:\n weights_ = None\n else:\n try:\n weights_ = memoryview(weights)\n except TypeError:\n try:\n _tmparr_weights = array.array(\"d\",weights)\n except TypeError:\n raise TypeError(\"Argument weights has wrong type\")\n else:\n weights_ = memoryview(_tmparr_weights)\n \n else:\n if weights_.format != \"d\":\n weights_ = memoryview(array.array(\"d\",weights))\n \n res = self.__obj.putbaraij(i_,j_,num_,sub_,weights_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def set_psi(self, orb, psi):\n pass", "def putvarbound(self,j_,bk_,bl_,bu_): # 3\n if not isinstance(bk_,boundkey): raise TypeError(\"Argument bk has wrong type\")\n res = self.__obj.putvarbound(j_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def Vega_zero_Jy(self):\n c = 1e-8 * Constants.c.to('m/s').value\n f = 1e5 / c * (self.lpivot.to('AA').value ** 2 *\n self.Vega_zero_flux.to('erg*s**-1*cm**-2*AA**-1').value)\n return f * Unit('Jy')", "def putbarcj(self,j_,sub,weights): # 3\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(weights)\n elif num_ != len(weights):\n raise IndexError(\"Inconsistent length of array weights\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"q\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"q\":\n sub_ = memoryview(array.array(\"q\",sub))\n \n if weights is None: raise TypeError(\"Invalid type for argument weights\")\n if weights is None:\n weights_ = None\n else:\n try:\n weights_ = memoryview(weights)\n except TypeError:\n try:\n _tmparr_weights = array.array(\"d\",weights)\n except TypeError:\n raise TypeError(\"Argument weights has wrong type\")\n else:\n weights_ = memoryview(_tmparr_weights)\n \n else:\n if weights_.format != \"d\":\n weights_ = memoryview(array.array(\"d\",weights))\n \n res = self.__obj.putbarcj(j_,num_,sub_,weights_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)" ]

[ "0.770654", "0.70869404", "0.70080966", "0.6835413", "0.6786031", "0.6757253", "0.63863504", "0.61618286", "0.5885918", "0.5792498", "0.5745077", "0.5469879", "0.5450824", "0.5299678", "0.5173049", "0.51557606", "0.51208526", "0.50883186", "0.5061993", "0.50501186", "0.5037188", "0.50267166", "0.5018201", "0.5012155", "0.4999065", "0.49867523", "0.4968299", "0.49608046", "0.49469385", "0.49360904" ]

[ "def putbarsj(self,whichsol_,j_,barsj): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if barsj is None: raise TypeError(\"Invalid type for argument barsj\")\n if barsj is None:\n barsj_ = None\n else:\n try:\n barsj_ = memoryview(barsj)\n except TypeError:\n try:\n _tmparr_barsj = array.array(\"d\",barsj)\n except TypeError:\n raise TypeError(\"Argument barsj has wrong type\")\n else:\n barsj_ = memoryview(_tmparr_barsj)\n \n else:\n if barsj_.format != \"d\":\n barsj_ = memoryview(array.array(\"d\",barsj))\n \n if barsj_ is not None and len(barsj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barsj has wrong length\")\n res = self.__obj.putbarsj(whichsol_,j_,barsj_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getbarsj(self,whichsol_,j_,barsj_):\n _barsj_minlength = self.getlenbarvarj((j_))\n if self.getlenbarvarj((j_)) > 0 and barsj_ is not None and len(barsj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barsj is not long enough: Is %d, expected %d\" % (len(barsj_),self.getlenbarvarj((j_))))\n if isinstance(barsj_,numpy.ndarray) and not barsj_.flags.writeable:\n raise ValueError(\"Argument barsj must be writable\")\n if barsj_ is None:\n raise ValueError(\"Argument barsj may not be None\")\n if isinstance(barsj_, numpy.ndarray) and barsj_.dtype is numpy.dtype(numpy.float64) and barsj_.flags.contiguous:\n _barsj_copyarray = False\n _barsj_tmp = ctypes.cast(barsj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif barsj_ is not None:\n _barsj_copyarray = True\n _barsj_np_tmp = numpy.zeros(len(barsj_),numpy.dtype(numpy.float64))\n _barsj_np_tmp[:] = barsj_\n assert _barsj_np_tmp.flags.contiguous\n _barsj_tmp = ctypes.cast(_barsj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _barsj_copyarray = False\n _barsj_tmp = None\n \n res = __library__.MSK_XX_getbarsj(self.__nativep,whichsol_,j_,_barsj_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _barsj_copyarray:\n barsj_[:] = _barsj_np_tmp", "def putvarsolutionj(self,j_,whichsol_,sk_,x_,sl_,su_,sn_):\n res = __library__.MSK_XX_putvarsolutionj(self.__nativep,j_,whichsol_,sk_,x_,sl_,su_,sn_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbarxj(self,whichsol_,j_,barxj): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if barxj is None: raise TypeError(\"Invalid type for argument barxj\")\n if barxj is None:\n barxj_ = None\n else:\n try:\n barxj_ = memoryview(barxj)\n except TypeError:\n try:\n _tmparr_barxj = array.array(\"d\",barxj)\n except TypeError:\n raise TypeError(\"Argument barxj has wrong type\")\n else:\n barxj_ = memoryview(_tmparr_barxj)\n \n else:\n if barxj_.format != \"d\":\n barxj_ = memoryview(array.array(\"d\",barxj))\n \n if barxj_ is not None and len(barxj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barxj has wrong length\")\n res = self.__obj.putbarxj(whichsol_,j_,barxj_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getbarsj(self,whichsol_,j_,barsj): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if barsj is None: raise TypeError(\"Invalid type for argument barsj\")\n _copyback_barsj = False\n if barsj is None:\n barsj_ = None\n else:\n try:\n barsj_ = memoryview(barsj)\n except TypeError:\n try:\n _tmparr_barsj = array.array(\"d\",barsj)\n except TypeError:\n raise TypeError(\"Argument barsj has wrong type\")\n else:\n barsj_ = memoryview(_tmparr_barsj)\n _copyback_barsj = True\n else:\n if barsj_.format != \"d\":\n barsj_ = memoryview(array.array(\"d\",barsj))\n _copyback_barsj = True\n if barsj_ is not None and len(barsj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barsj has wrong length\")\n res = self.__obj.getbarsj(whichsol_,j_,barsj_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_barsj:\n barsj[:] = _tmparr_barsj", "def putbarxj(self,whichsol_,j_,barxj_):\n _barxj_minlength = self.getlenbarvarj((j_))\n if self.getlenbarvarj((j_)) > 0 and barxj_ is not None and len(barxj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barxj is not long enough: Is %d, expected %d\" % (len(barxj_),self.getlenbarvarj((j_))))\n if barxj_ is None:\n raise ValueError(\"Argument barxj cannot be None\")\n if barxj_ is None:\n raise ValueError(\"Argument barxj may not be None\")\n if isinstance(barxj_, numpy.ndarray) and barxj_.dtype is numpy.dtype(numpy.float64) and barxj_.flags.contiguous:\n _barxj_copyarray = False\n _barxj_tmp = ctypes.cast(barxj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif barxj_ is not None:\n _barxj_copyarray = True\n _barxj_np_tmp = numpy.zeros(len(barxj_),numpy.dtype(numpy.float64))\n _barxj_np_tmp[:] = barxj_\n assert _barxj_np_tmp.flags.contiguous\n _barxj_tmp = ctypes.cast(_barxj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _barxj_copyarray = False\n _barxj_tmp = None\n \n res = __library__.MSK_XX_putbarxj(self.__nativep,whichsol_,j_,_barxj_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getbarxj(self,whichsol_,j_,barxj_):\n _barxj_minlength = self.getlenbarvarj((j_))\n if self.getlenbarvarj((j_)) > 0 and barxj_ is not None and len(barxj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barxj is not long enough: Is %d, expected %d\" % (len(barxj_),self.getlenbarvarj((j_))))\n if isinstance(barxj_,numpy.ndarray) and not barxj_.flags.writeable:\n raise ValueError(\"Argument barxj must be writable\")\n if barxj_ is None:\n raise ValueError(\"Argument barxj may not be None\")\n if isinstance(barxj_, numpy.ndarray) and barxj_.dtype is numpy.dtype(numpy.float64) and barxj_.flags.contiguous:\n _barxj_copyarray = False\n _barxj_tmp = ctypes.cast(barxj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif barxj_ is not None:\n _barxj_copyarray = True\n _barxj_np_tmp = numpy.zeros(len(barxj_),numpy.dtype(numpy.float64))\n _barxj_np_tmp[:] = barxj_\n assert _barxj_np_tmp.flags.contiguous\n _barxj_tmp = ctypes.cast(_barxj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _barxj_copyarray = False\n _barxj_tmp = None\n \n res = __library__.MSK_XX_getbarxj(self.__nativep,whichsol_,j_,_barxj_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _barxj_copyarray:\n barxj_[:] = _barxj_np_tmp", "def getbarxj(self,whichsol_,j_,barxj): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if barxj is None: raise TypeError(\"Invalid type for argument barxj\")\n _copyback_barxj = False\n if barxj is None:\n barxj_ = None\n else:\n try:\n barxj_ = memoryview(barxj)\n except TypeError:\n try:\n _tmparr_barxj = array.array(\"d\",barxj)\n except TypeError:\n raise TypeError(\"Argument barxj has wrong type\")\n else:\n barxj_ = memoryview(_tmparr_barxj)\n _copyback_barxj = True\n else:\n if barxj_.format != \"d\":\n barxj_ = memoryview(array.array(\"d\",barxj))\n _copyback_barxj = True\n if barxj_ is not None and len(barxj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barxj has wrong length\")\n res = self.__obj.getbarxj(whichsol_,j_,barxj_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_barxj:\n barxj[:] = _tmparr_barxj", "def putsolutionyi(self,i_,whichsol_,y_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res = self.__obj.putsolutionyi(i_,whichsol_,y_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsolutionyi(self,i_,whichsol_,y_):\n res = __library__.MSK_XX_putsolutionyi(self.__nativep,i_,whichsol_,y_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def puty(self,whichsol_,y): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if y is None: raise TypeError(\"Invalid type for argument y\")\n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n \n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n \n if y_ is not None and len(y_) != self.getnumcon():\n raise ValueError(\"Array argument y has wrong length\")\n res = self.__obj.puty(whichsol_,y_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def puty(self,whichsol_,y_):\n _y_minlength = self.getnumcon()\n if self.getnumcon() > 0 and y_ is not None and len(y_) != self.getnumcon():\n raise ValueError(\"Array argument y is not long enough: Is %d, expected %d\" % (len(y_),self.getnumcon()))\n if y_ is None:\n raise ValueError(\"Argument y cannot be None\")\n if y_ is None:\n raise ValueError(\"Argument y may not be None\")\n if isinstance(y_, numpy.ndarray) and y_.dtype is numpy.dtype(numpy.float64) and y_.flags.contiguous:\n _y_copyarray = False\n _y_tmp = ctypes.cast(y_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif y_ is not None:\n _y_copyarray = True\n _y_np_tmp = numpy.zeros(len(y_),numpy.dtype(numpy.float64))\n _y_np_tmp[:] = y_\n assert _y_np_tmp.flags.contiguous\n _y_tmp = ctypes.cast(_y_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _y_copyarray = False\n _y_tmp = None\n \n res = __library__.MSK_XX_puty(self.__nativep,whichsol_,_y_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def setGasState(self, j):\n nsp = self.gas.nSpecies()\n y = zeros(nsp, 'd')\n for n in range(nsp):\n nm = self.gas.speciesName(n)\n y[n] = self.solution(nm, j)\n self.gas.setState_TPY(self.T(j), self.pressure, y)", "def writesolution(self,whichsol_,filename_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res = self.__obj.writesolution(whichsol_,filename_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getdimbarvarj(self,j_): # 3\n res,resargs = self.__obj.getdimbarvarj(j_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _dimbarvarj_return_value = resargs\n return _dimbarvarj_return_value", "def chgvarbound(self,j_,lower_,finite_,value_): # 3\n res = self.__obj.chgvarbound(j_,lower_,finite_,value_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarbound(self,j_,bkx_,blx_,bux_):\n res = __library__.MSK_XX_putvarbound(self.__nativep,j_,bkx_,blx_,bux_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def SetNestedSolver(self, solver):\n self._solver = solver\n return", "def set_solver(self, solver):\n self.solver = solver\n solver.associate_with_model(self)\n self.set_free_variable(0) # A reasonable initial assumption; can be overridden by simulations", "def setConstQuantityAndBetaEqState(self, pointDict, quantity, target):\n print \"setConstQuantityAndBetaEqState: \", pointDict\n assert 'ye' not in pointDict, \"You can't SPECIFY a Ye if you're \" \\\n \"setting neutrinoless beta equlibrium!\"\n self.validatePointDict(pointDict)\n assert len(pointDict) < 2, \"State overdetermined for more than 1 indVars!\"\n #todo: check quantity is valid 3D table\n\n #defines 1D root solver to use in routine\n solveRoot = scipyOptimize.brentq # solveRootBisect\n\n solveVarName = 'logtemp'\n currentSolveVar = 0.0\n currentYe = 0.25\n #previous variables used to measure convergence of solve\n # so set them to something significantly different than starting values\n previousSolveVar = 100.0\n previousYe = 100.0\n yeError = relativeError(currentYe, previousYe)\n solveVarError = relativeError(currentSolveVar, previousSolveVar)\n otherVarName = pointDict.keys()[0]\n otherVar = pointDict.values()[0]\n\n maxIters = 5\n tol = 1e-3\n\n iteration = 0\n while iteration < maxIters and yeError + solveVarError > tol/2.0:\n previousSolveVar = currentSolveVar\n previousYe = currentYe\n getSolveVar = lambda x: multidimInterp((currentYe, x, otherVar),\n [self.h5file['ye'][:],\n self.h5file[solveVarName],\n self.h5file[otherVarName]],\n self.h5file[quantity][...],\n linInterp, 2) - target\n try:\n currentSolveVar = solveRoot(getSolveVar,\n self.h5file[solveVarName][0],\n self.h5file[solveVarName][-1],\n (),tol)\n except ValueError as err:\n print \"Root for log10(T) not bracketed on entire table: \" \\\n + str(err)\n # see if lower or upper temperature bound best\n logtemp = self.h5file['logtemp']\n answer1 = multidimInterp((currentYe, logtemp[0], otherVar),\n [self.h5file['ye'][:],\n self.h5file['logtemp'],\n self.h5file['logrho']],\n self.h5file[quantity][...],\n linInterp, 2) - target\n answer2 = multidimInterp((currentYe, logtemp[-1], otherVar),\n [self.h5file['ye'][:],\n self.h5file['logtemp'],\n self.h5file['logrho']],\n self.h5file[quantity][...],\n linInterp, 2) - target\n\n if (abs(answer1) < abs(answer2)):\n currentSolveVar = self.h5file['logtemp'][0]\n print \"Recovering with lowest table value, answer: %s\" % currentSolveVar\n else:\n currentSolveVar = self.h5file['logtemp'][-1]\n print \"Recovering with highest value, answer: %s\" % currentSolveVar\n\n getYe = lambda x : multidimInterp((x, currentSolveVar, otherVar),\n [self.h5file['ye'][:],\n self.h5file[solveVarName],\n self.h5file[otherVarName]],\n self.h5file['munu'][...],\n linInterp, 2)\n #check for bracketing error in root solve for ye\n try:\n currentYe = solveRoot(getYe,\n self.h5file['ye'][0],\n self.h5file['ye'][-1], (), tol)\n except ValueError as err:\n print \"Error in scipy root solver solving for ye: \", str(err)\n currentYe = self.findYeOfMinAbsMunu((currentSolveVar, otherVar))\n print \"Recovering with findYeOfMinAbsMunu, answer: %s\" % currentYe\n #print \"currentYe: \", currentYe, \"\\tcurrentT: \", currentSolveVar\n\n yeError = relativeError(currentYe, previousYe)\n solveVarError = relativeError(currentSolveVar, previousSolveVar)\n iteration += 1\n #print \"errs: \", yeError, solveVarError\n\n newDict = pointDict.copy()\n newDict['ye'] = currentYe\n temp = numpy.power(10.0,currentSolveVar) # TODO TEMP HARD CODE\n newDict['temp'] = temp\n self.setState(newDict)\n return currentYe, temp # TODO TEMP HARD CODE", "def putbarvarname(self,j_,name_): # 3\n res = self.__obj.putbarvarname(j_,name_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def setBetaEqState(self, pointDict, useThisYeIfSolveFails=None):\n assert isinstance(pointDict, dict)\n assert 'ye' not in pointDict, \"You can't SPECIFY a Ye if you're \" \\\n \"setting neutrinoless beta equlibrium!\"\n self.validatePointDict(pointDict)\n assert len(pointDict) < 3, \"State overdetermined for more than 2 indVars!\"\n\n #defines 1D root solver to use in routine\n solveRoot = scipyOptimize.brentq # solveRootBisect\n\n\n #ASSUME 2 INDEPENENT VARIABLES ARE rho & temp\n logtemp = pointDict['logtemp']\n logrho = pointDict['logrho']\n\n tol = 1.e-6\n getYe = lambda x : multidimInterp((x, logtemp, logrho),\n [self.h5file['ye'][:],\n self.h5file['logtemp'],\n self.h5file['logrho']],\n self.h5file['munu'][...],\n linInterp, 2)\n #check for bracketing error in root solve for ye\n try:\n currentYe = solveRoot(getYe,\n self.h5file['ye'][0],\n self.h5file['ye'][-1], (), tol)\n except ValueError as err:\n print \"Error in scipy root solver solving for ye: \", str(err)\n if useThisYeIfSolveFails is None:\n currentYe = self.findYeOfMinAbsMunu((logtemp, logrho))\n print \"Recovering with findYeOfMinAbsMunu, answer: %s\" % currentYe\n else:\n currentYe = useThisYeIfSolveFails\n print \"Setting Ye to useThisYeIfSolveFails, answer: %s\" % currentYe\n\n newDict = pointDict.copy()\n newDict['ye'] = currentYe\n self.setState(newDict)\n return currentYe", "def putxx(self,whichsol_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xx is None: raise TypeError(\"Invalid type for argument xx\")\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n \n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n \n if xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.putxx(whichsol_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def solve(self, solver):\n solver.solve()", "def getpviolbarvar(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getpviolbarvar(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def writesolution(self,whichsol_,filename_):\n if isinstance(filename_,unicode):\n filename_ = filename_.encode(\"utf-8\",errors=\"replace\")\n res = __library__.MSK_XX_writesolution(self.__nativep,whichsol_,filename_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsolution(self,whichsol_,skc,skx,skn,xc,xx,y,slc,suc,slx,sux,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n \n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n \n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skn is None:\n skn_ = None\n else:\n try:\n skn_ = memoryview(skn)\n except TypeError:\n try:\n _tmparr_skn = array.array(\"i\",skn)\n except TypeError:\n raise TypeError(\"Argument skn has wrong type\")\n else:\n skn_ = memoryview(_tmparr_skn)\n \n else:\n if skn_.format != \"i\":\n skn_ = memoryview(array.array(\"i\",skn))\n \n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n \n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n \n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n \n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n \n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n \n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n \n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n \n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n \n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n \n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n \n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n \n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n \n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n \n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n \n res = self.__obj.putsolution(whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconsolutioni(self,i_,whichsol_,sk_,x_,sl_,su_):\n res = __library__.MSK_XX_putconsolutioni(self.__nativep,i_,whichsol_,sk_,x_,sl_,su_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def chgvarbound(self,j_,lower_,finite_,value_):\n res = __library__.MSK_XX_chgvarbound(self.__nativep,j_,lower_,finite_,value_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarbound(self,j_,bk_,bl_,bu_): # 3\n if not isinstance(bk_,boundkey): raise TypeError(\"Argument bk has wrong type\")\n res = self.__obj.putvarbound(j_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)" ]

[ "0.7529406", "0.7106301", "0.7095135", "0.704483", "0.70355266", "0.6961045", "0.63031244", "0.62779295", "0.62522095", "0.61191875", "0.5482647", "0.5454781", "0.53319716", "0.5229526", "0.5227902", "0.5091524", "0.50431776", "0.4994456", "0.49108714", "0.48669758", "0.48429072", "0.48428792", "0.48396116", "0.4827638", "0.47984233", "0.47841358", "0.4764496", "0.47587597", "0.47555688", "0.47429597" ]

[ "def getpviolcon(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getpviolcon(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getpviolcones(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getpviolcones(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getpviolcones(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getpviolcones(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getdviolcon(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getdviolcon(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getpviolvar(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getpviolvar(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getpviolbarvar(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getpviolbarvar(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getdviolcon(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getdviolcon(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getpviolvar(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getpviolvar(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getdviolcones(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getdviolcones(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getdviolbarvar(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getdviolbarvar(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getpviolbarvar(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getpviolbarvar(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getdviolcones(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getdviolcones(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getdviolvar(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getdviolvar(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getdviolvar(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getdviolvar(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getdviolbarvar(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getdviolbarvar(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getsolutioninfo(self,whichsol_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res,resargs = self.__obj.getsolutioninfo(whichsol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _pobj_return_value,_pviolcon_return_value,_pviolvar_return_value,_pviolbarvar_return_value,_pviolcone_return_value,_pviolitg_return_value,_dobj_return_value,_dviolcon_return_value,_dviolvar_return_value,_dviolbarvar_return_value,_dviolcone_return_value = resargs\n return _pobj_return_value,_pviolcon_return_value,_pviolvar_return_value,_pviolbarvar_return_value,_pviolcone_return_value,_pviolitg_return_value,_dobj_return_value,_dviolcon_return_value,_dviolvar_return_value,_dviolbarvar_return_value,_dviolcone_return_value", "def getprimalobj(self,whichsol_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res,resargs = self.__obj.getprimalobj(whichsol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _primalobj_return_value = resargs\n return _primalobj_return_value", "def getsolutioninfo(self,whichsol_):\n pobj_ = ctypes.c_double()\n pviolcon_ = ctypes.c_double()\n pviolvar_ = ctypes.c_double()\n pviolbarvar_ = ctypes.c_double()\n pviolcone_ = ctypes.c_double()\n pviolitg_ = ctypes.c_double()\n dobj_ = ctypes.c_double()\n dviolcon_ = ctypes.c_double()\n dviolvar_ = ctypes.c_double()\n dviolbarvar_ = ctypes.c_double()\n dviolcone_ = ctypes.c_double()\n res = __library__.MSK_XX_getsolutioninfo(self.__nativep,whichsol_,ctypes.byref(pobj_),ctypes.byref(pviolcon_),ctypes.byref(pviolvar_),ctypes.byref(pviolbarvar_),ctypes.byref(pviolcone_),ctypes.byref(pviolitg_),ctypes.byref(dobj_),ctypes.byref(dviolcon_),ctypes.byref(dviolvar_),ctypes.byref(dviolbarvar_),ctypes.byref(dviolcone_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n pobj_ = pobj_.value\n _pobj_return_value = pobj_\n pviolcon_ = pviolcon_.value\n _pviolcon_return_value = pviolcon_\n pviolvar_ = pviolvar_.value\n _pviolvar_return_value = pviolvar_\n pviolbarvar_ = pviolbarvar_.value\n _pviolbarvar_return_value = pviolbarvar_\n pviolcone_ = pviolcone_.value\n _pviolcone_return_value = pviolcone_\n pviolitg_ = pviolitg_.value\n _pviolitg_return_value = pviolitg_\n dobj_ = dobj_.value\n _dobj_return_value = dobj_\n dviolcon_ = dviolcon_.value\n _dviolcon_return_value = dviolcon_\n dviolvar_ = dviolvar_.value\n _dviolvar_return_value = dviolvar_\n dviolbarvar_ = dviolbarvar_.value\n _dviolbarvar_return_value = dviolbarvar_\n dviolcone_ = dviolcone_.value\n _dviolcone_return_value = dviolcone_\n return (_pobj_return_value,_pviolcon_return_value,_pviolvar_return_value,_pviolbarvar_return_value,_pviolcone_return_value,_pviolitg_return_value,_dobj_return_value,_dviolcon_return_value,_dviolvar_return_value,_dviolbarvar_return_value,_dviolcone_return_value)", "def getinfeasiblesubproblem(self,whichsol_):\n inftask_ = ctypes.c_void_p()\n res = __library__.MSK_XX_getinfeasiblesubproblem(self.__nativep,whichsol_,ctypes.byref(inftask_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _inftask_return_value = Task(nativep = inftask_)\n return (_inftask_return_value)", "def vcg_solve(thy, goal):\n pt = ProofTermDeriv(\"vcg\", thy, goal, [])\n vc_pt = [ProofTermDeriv(\"z3\", thy, vc, []) for vc in pt.assums]\n return ProofTerm.implies_elim(pt, *vc_pt)", "def getprosta(self,whichsol_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res,resargs = self.__obj.getprosta(whichsol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _prosta_return_value = resargs\n _prosta_return_value = prosta(_prosta_return_value)\n return _prosta_return_value", "def getprimalobj(self,whichsol_):\n primalobj_ = ctypes.c_double()\n res = __library__.MSK_XX_getprimalobj(self.__nativep,whichsol_,ctypes.byref(primalobj_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n primalobj_ = primalobj_.value\n _primalobj_return_value = primalobj_\n return (_primalobj_return_value)", "def calcpv(pvrange, pvinx1, pvinx2, sipx, sipy, tpvx, tpvy):\n x, y = symbols(\"x y\")\n if pvinx1 == 1:\n expr1 = tpvx\n expr2 = sipx\n elif pvinx1 == 2:\n expr1 = tpvy\n expr2 = sipy\n else:\n raise ValueError('incorrect first index to PV keywords')\n if pvinx2 not in pvrange:\n raise ValueError('incorrect second index to PV keywords')\n pvar = symbols('pv%d_%d' % (pvinx1, pvinx2))\n xord = yord = 0\n if expr1.coeff(pvar).has(x):\n xord = poly(expr1.coeff(pvar)).degree(x)\n if expr1.coeff(pvar).has(y):\n yord = poly(expr1.coeff(pvar)).degree(y)\n\n return expr2.coeff(x, xord).coeff(y, yord)", "def get_sol(self):", "def v_p(self, psi_l, ci):\n\t\treturn min((ci*self.VPMAX0)/(ci + self.KP), self.VPR)", "def solutionCovariance(self):\n return self.standardError2()*self.AtAinv", "def ineqconstr(x, problem):\n x, t_final = matrify(x, problem)\n c = []\n\n # inter vehicles\n c += [veh_coll_avoid(x[:, :2, v1], x[:, :2, v2], problem)\n for v1 in range(problem['Nv']) for v2 in range(v1 + 1, problem['Nv'])]\n\n # obstacles\n c += [obs.avoid(x[:, :2, veh]) for obs in problem['obstacles'] for veh in range(problem['Nv'])]\n return np.concatenate(c) if c else np.array([])", "def _check_parameter(h, i, j, v, integral=False, name=None, sym=None):\n if integral:\n try:\n v = integralize(v)\n except TypeError:\n raise InfeasibleError(\"%s %s[%d, %d, %d] is nonintegral\"\n % (name, sym, h, i, j))\n assert checkNonneg(v), \\\n \"%s %s[%d, %d, %d] is negative\" % (name, sym, h, i, j)\n return v", "def con_cieq(x,project):\n \n cons = project.con_cieq(x)\n \n if cons: cons = array(cons)\n else: cons = zeros([0])\n \n return -cons", "def pjacobi_poissoneq(RHS, phi0, tol=1e-2, max_iter=1e3):\n M, N = phi0.shape\n\n phi = phi0.copy()\n phip = phi + np.random.random(phi.shape)\n k=0\n while np.abs(phip-phi).max()>tol and k<=max_iter:\n print((np.abs(phip-phi).max(),tol))\n phi = phip\n for j in range(1, M-1):\n for i in range(1, N-1):\n phip[j,i] = 0.25*(phi[j-1,i] + phi[j+1,i] + phi[j,i-1] + phi[j,i+1] - RHS[j,i]) # Moin (2010) eq. 5.70.\n k+=1\n\n return phip" ]

[ "0.8221106", "0.7790813", "0.7730766", "0.7602995", "0.75367993", "0.7487027", "0.74122614", "0.7377827", "0.7157516", "0.71299803", "0.71229476", "0.70915055", "0.7080185", "0.6899327", "0.6775787", "0.6151009", "0.59081674", "0.5845173", "0.5752855", "0.5502655", "0.5453856", "0.54354566", "0.5393601", "0.5347873", "0.53372544", "0.5317507", "0.5216747", "0.5179426", "0.5150723", "0.5126399" ]

[ "def getpviolvar(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getpviolvar(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getpviolbarvar(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getpviolbarvar(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getdviolvar(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getdviolvar(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getpviolbarvar(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getpviolbarvar(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getdviolvar(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getdviolvar(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getdviolbarvar(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getdviolbarvar(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getdviolbarvar(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getdviolbarvar(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getpviolcones(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getpviolcones(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getpviolcones(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getpviolcones(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getpviolcon(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getpviolcon(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getpviolcon(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getpviolcon(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getdviolcones(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getdviolcones(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getdviolcones(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getdviolcones(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getdviolcon(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getdviolcon(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getdviolcon(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getdviolcon(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getsolutioninfo(self,whichsol_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res,resargs = self.__obj.getsolutioninfo(whichsol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _pobj_return_value,_pviolcon_return_value,_pviolvar_return_value,_pviolbarvar_return_value,_pviolcone_return_value,_pviolitg_return_value,_dobj_return_value,_dviolcon_return_value,_dviolvar_return_value,_dviolbarvar_return_value,_dviolcone_return_value = resargs\n return _pobj_return_value,_pviolcon_return_value,_pviolvar_return_value,_pviolbarvar_return_value,_pviolcone_return_value,_pviolitg_return_value,_dobj_return_value,_dviolcon_return_value,_dviolvar_return_value,_dviolbarvar_return_value,_dviolcone_return_value", "def _var_sol(self, var: Union[LpVariable, Var]) -> float:\n\n return value(var) if self.optimizer == 'pulp' else var.x", "def _solve(self, solver):\n self.prob.solve(solver)\n if self.prob.status <= 0:\n raise Exception(\"Infeasible Solution.\")\n return {pid for pid, variable \n in self.player_vars.iteritems()\n if variable.varValue}", "def getprimalobj(self,whichsol_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res,resargs = self.__obj.getprimalobj(whichsol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _primalobj_return_value = resargs\n return _primalobj_return_value", "def getsolutioninfo(self,whichsol_):\n pobj_ = ctypes.c_double()\n pviolcon_ = ctypes.c_double()\n pviolvar_ = ctypes.c_double()\n pviolbarvar_ = ctypes.c_double()\n pviolcone_ = ctypes.c_double()\n pviolitg_ = ctypes.c_double()\n dobj_ = ctypes.c_double()\n dviolcon_ = ctypes.c_double()\n dviolvar_ = ctypes.c_double()\n dviolbarvar_ = ctypes.c_double()\n dviolcone_ = ctypes.c_double()\n res = __library__.MSK_XX_getsolutioninfo(self.__nativep,whichsol_,ctypes.byref(pobj_),ctypes.byref(pviolcon_),ctypes.byref(pviolvar_),ctypes.byref(pviolbarvar_),ctypes.byref(pviolcone_),ctypes.byref(pviolitg_),ctypes.byref(dobj_),ctypes.byref(dviolcon_),ctypes.byref(dviolvar_),ctypes.byref(dviolbarvar_),ctypes.byref(dviolcone_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n pobj_ = pobj_.value\n _pobj_return_value = pobj_\n pviolcon_ = pviolcon_.value\n _pviolcon_return_value = pviolcon_\n pviolvar_ = pviolvar_.value\n _pviolvar_return_value = pviolvar_\n pviolbarvar_ = pviolbarvar_.value\n _pviolbarvar_return_value = pviolbarvar_\n pviolcone_ = pviolcone_.value\n _pviolcone_return_value = pviolcone_\n pviolitg_ = pviolitg_.value\n _pviolitg_return_value = pviolitg_\n dobj_ = dobj_.value\n _dobj_return_value = dobj_\n dviolcon_ = dviolcon_.value\n _dviolcon_return_value = dviolcon_\n dviolvar_ = dviolvar_.value\n _dviolvar_return_value = dviolvar_\n dviolbarvar_ = dviolbarvar_.value\n _dviolbarvar_return_value = dviolbarvar_\n dviolcone_ = dviolcone_.value\n _dviolcone_return_value = dviolcone_\n return (_pobj_return_value,_pviolcon_return_value,_pviolvar_return_value,_pviolbarvar_return_value,_pviolcone_return_value,_pviolitg_return_value,_dobj_return_value,_dviolcon_return_value,_dviolvar_return_value,_dviolbarvar_return_value,_dviolcone_return_value)", "def find_varying(params, nvmax):\n print('Finding variable parameters')\n if nvmax < 0:\n raise ValueError(f'nvmax ({nvmax}) must be positive')\n\n var = []\n cnt = 0\n for p in params:\n if len(params[p]) == 2:\n if (params[p][1] - params[p][0]) < 0:\n raise ValueError(f'range is inverted for param: {p}')\n elif cnt >= nvmax:\n raise ValueError(f'too many param ranges were given. Expected {nvmax}')\n else:\n var.append(p)\n cnt += 1\n return var", "def v_p(self, psi_l, ci):\n\t\treturn min((ci*self.VPMAX0)/(ci + self.KP), self.VPR)", "def V_var(self) -> Optional[np.ndarray]:\n\n def _retrieve(fm: VariationalFM) -> np.ndarray:\n return fm.V_var\n\n return runtime_error_to_optional(self, _retrieve)", "def get_var_soln(self, label):\n\n assert self.var_array is not None, 'calculate_diagnostics has not been run'\n i_label = self.var_labels.index(label)\n return self.var_array[:, i_label]", "def external_irregular_vector_potential(self):\n if self._vpei is not None:\n return self._vpei.get_vec_h()\n\n return None", "def calcpv(pvrange, pvinx1, pvinx2, sipx, sipy, tpvx, tpvy):\n x, y = symbols(\"x y\")\n if pvinx1 == 1:\n expr1 = tpvx\n expr2 = sipx\n elif pvinx1 == 2:\n expr1 = tpvy\n expr2 = sipy\n else:\n raise ValueError('incorrect first index to PV keywords')\n if pvinx2 not in pvrange:\n raise ValueError('incorrect second index to PV keywords')\n pvar = symbols('pv%d_%d' % (pvinx1, pvinx2))\n xord = yord = 0\n if expr1.coeff(pvar).has(x):\n xord = poly(expr1.coeff(pvar)).degree(x)\n if expr1.coeff(pvar).has(y):\n yord = poly(expr1.coeff(pvar)).degree(y)\n\n return expr2.coeff(x, xord).coeff(y, yord)", "def najvec_sosedov(mine, s, v):\n return [(x, y) for x in range(s) for y in range(v) if max([sosedov(x1, y1, mine) for x1 in range(s) for y1 in range(v)]) <= sosedov(x,y,mine)][0]", "def getprimalsolutionnorms(self,whichsol_):\n nrmxc_ = ctypes.c_double()\n nrmxx_ = ctypes.c_double()\n nrmbarx_ = ctypes.c_double()\n res = __library__.MSK_XX_getprimalsolutionnorms(self.__nativep,whichsol_,ctypes.byref(nrmxc_),ctypes.byref(nrmxx_),ctypes.byref(nrmbarx_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n nrmxc_ = nrmxc_.value\n _nrmxc_return_value = nrmxc_\n nrmxx_ = nrmxx_.value\n _nrmxx_return_value = nrmxx_\n nrmbarx_ = nrmbarx_.value\n _nrmbarx_return_value = nrmbarx_\n return (_nrmxc_return_value,_nrmxx_return_value,_nrmbarx_return_value)", "def getVs(self, Vp, residual, beta):\n return Vp + beta*residual", "def interp_vel(z, u, v, sva, zi, pPsva, return_diagnostics=False):\n\n svac, ir, ic, w1, w2 = interp_quantity(z, sva, zi, pPsva, True)\n\n um = u[ir, ic]\n vm = v[ir, ic]\n svam = sva[ir, ic]\n\n theta = np.arctan2(vm[:, 0] - vm[:, 1], um[:, 0] - um[:, 1])\n\n ur = np.empty_like(um)\n ur[:, 0] = um[:, 0]*np.cos(theta) + vm[:, 0]*np.sin(theta)\n ur[:, 1] = um[:, 1]*np.cos(theta) + vm[:, 1]*np.sin(theta)\n vr = -um[:, 0]*np.sin(theta) + vm[:, 0]*np.cos(theta)\n\n sc = (ur[:, 0]*(svac - svam[:, 1]) + ur[:, 1]*(svam[:, 0] - svac))\n sc /= (svam[:, 0] - svam[:, 1])\n\n uc = sc*np.cos(theta) - vr*np.sin(theta)\n vc = sc*np.sin(theta) + vr*np.cos(theta)\n\n if return_diagnostics:\n return uc, vc, ir, ic, w1, w2\n else:\n return uc, vc" ]

[ "0.8212852", "0.80189174", "0.77537113", "0.7703347", "0.76981986", "0.7579893", "0.72967196", "0.7223914", "0.7146749", "0.70975226", "0.7050911", "0.6550313", "0.6498878", "0.64796567", "0.64707077", "0.6052757", "0.5924624", "0.57292634", "0.5577812", "0.55258375", "0.5510013", "0.54840606", "0.5466425", "0.53889865", "0.5324611", "0.52653766", "0.5229023", "0.5187065", "0.51645046", "0.51441383" ]

[ "def getpviolbarvar(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getpviolbarvar(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getpviolvar(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getpviolvar(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getpviolvar(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getpviolvar(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getdviolbarvar(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getdviolbarvar(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getdviolbarvar(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getdviolbarvar(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getdviolvar(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getdviolvar(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getdviolvar(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getdviolvar(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getpviolcones(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getpviolcones(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getpviolcon(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getpviolcon(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getpviolcones(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getpviolcones(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getpviolcon(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getpviolcon(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getdviolcon(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getdviolcon(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getdviolcones(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getdviolcones(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getdviolcones(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getdviolcones(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getdviolcon(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getdviolcon(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def _var_sol(self, var: Union[LpVariable, Var]) -> float:\n\n return value(var) if self.optimizer == 'pulp' else var.x", "def getsolutioninfo(self,whichsol_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res,resargs = self.__obj.getsolutioninfo(whichsol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _pobj_return_value,_pviolcon_return_value,_pviolvar_return_value,_pviolbarvar_return_value,_pviolcone_return_value,_pviolitg_return_value,_dobj_return_value,_dviolcon_return_value,_dviolvar_return_value,_dviolbarvar_return_value,_dviolcone_return_value = resargs\n return _pobj_return_value,_pviolcon_return_value,_pviolvar_return_value,_pviolbarvar_return_value,_pviolcone_return_value,_pviolitg_return_value,_dobj_return_value,_dviolcon_return_value,_dviolvar_return_value,_dviolbarvar_return_value,_dviolcone_return_value", "def _solve(self, solver):\n self.prob.solve(solver)\n if self.prob.status <= 0:\n raise Exception(\"Infeasible Solution.\")\n return {pid for pid, variable \n in self.player_vars.iteritems()\n if variable.varValue}", "def V_var(self) -> Optional[np.ndarray]:\n\n def _retrieve(fm: VariationalFM) -> np.ndarray:\n return fm.V_var\n\n return runtime_error_to_optional(self, _retrieve)", "def find_varying(params, nvmax):\n print('Finding variable parameters')\n if nvmax < 0:\n raise ValueError(f'nvmax ({nvmax}) must be positive')\n\n var = []\n cnt = 0\n for p in params:\n if len(params[p]) == 2:\n if (params[p][1] - params[p][0]) < 0:\n raise ValueError(f'range is inverted for param: {p}')\n elif cnt >= nvmax:\n raise ValueError(f'too many param ranges were given. Expected {nvmax}')\n else:\n var.append(p)\n cnt += 1\n return var", "def getprimalobj(self,whichsol_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res,resargs = self.__obj.getprimalobj(whichsol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _primalobj_return_value = resargs\n return _primalobj_return_value", "def getsolutioninfo(self,whichsol_):\n pobj_ = ctypes.c_double()\n pviolcon_ = ctypes.c_double()\n pviolvar_ = ctypes.c_double()\n pviolbarvar_ = ctypes.c_double()\n pviolcone_ = ctypes.c_double()\n pviolitg_ = ctypes.c_double()\n dobj_ = ctypes.c_double()\n dviolcon_ = ctypes.c_double()\n dviolvar_ = ctypes.c_double()\n dviolbarvar_ = ctypes.c_double()\n dviolcone_ = ctypes.c_double()\n res = __library__.MSK_XX_getsolutioninfo(self.__nativep,whichsol_,ctypes.byref(pobj_),ctypes.byref(pviolcon_),ctypes.byref(pviolvar_),ctypes.byref(pviolbarvar_),ctypes.byref(pviolcone_),ctypes.byref(pviolitg_),ctypes.byref(dobj_),ctypes.byref(dviolcon_),ctypes.byref(dviolvar_),ctypes.byref(dviolbarvar_),ctypes.byref(dviolcone_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n pobj_ = pobj_.value\n _pobj_return_value = pobj_\n pviolcon_ = pviolcon_.value\n _pviolcon_return_value = pviolcon_\n pviolvar_ = pviolvar_.value\n _pviolvar_return_value = pviolvar_\n pviolbarvar_ = pviolbarvar_.value\n _pviolbarvar_return_value = pviolbarvar_\n pviolcone_ = pviolcone_.value\n _pviolcone_return_value = pviolcone_\n pviolitg_ = pviolitg_.value\n _pviolitg_return_value = pviolitg_\n dobj_ = dobj_.value\n _dobj_return_value = dobj_\n dviolcon_ = dviolcon_.value\n _dviolcon_return_value = dviolcon_\n dviolvar_ = dviolvar_.value\n _dviolvar_return_value = dviolvar_\n dviolbarvar_ = dviolbarvar_.value\n _dviolbarvar_return_value = dviolbarvar_\n dviolcone_ = dviolcone_.value\n _dviolcone_return_value = dviolcone_\n return (_pobj_return_value,_pviolcon_return_value,_pviolvar_return_value,_pviolbarvar_return_value,_pviolcone_return_value,_pviolitg_return_value,_dobj_return_value,_dviolcon_return_value,_dviolvar_return_value,_dviolbarvar_return_value,_dviolcone_return_value)", "def get_var_soln(self, label):\n\n assert self.var_array is not None, 'calculate_diagnostics has not been run'\n i_label = self.var_labels.index(label)\n return self.var_array[:, i_label]", "def _vPVAR(self):\r\n\r\n logStr = \"{0:s}.{1:s}: \".format(self.__class__.__name__, sys._getframe().f_code.co_name)\r\n logger.debug(\"{0:s}{1:s}\".format(logStr,'Start.')) \r\n \r\n try: \r\n vPVAR = None\r\n vPVAR=pd.merge(self.dataFrames['PVAR'],self.dataFrames['PVAR_ROWT'],left_on='pk',right_on='fk')\r\n vPVAR['ZEIT']=pd.to_numeric(vPVAR['ZEIT']) \r\n vPVAR['PH']=pd.to_numeric(vPVAR['PH']) \r\n vPVAR['ZEIT_RANG']=vPVAR.groupby(['pk_x'])['ZEIT'].rank(ascending=True)\r\n #\r\n vPVAR_gPH=vPVAR.groupby(['pk_x'], as_index=False).agg({'PH':[np.min,np.max]})\r\n vPVAR_gPH.columns= [tup[0]+tup[1] for tup in zip(vPVAR_gPH.columns.get_level_values(0),vPVAR_gPH.columns.get_level_values(1))]\r\n vPVAR_gPH.rename(columns={'PHamin':'PH_min','PHamax':'PH_max'},inplace=True)\r\n #\r\n vPVAR=pd.merge(vPVAR,vPVAR_gPH,left_on='pk_x',right_on='pk_x')\r\n #\r\n vPVAR=vPVAR[vPVAR['ZEIT_RANG']==1]\r\n #\r\n vPVAR=vPVAR[['NAME','BESCHREIBUNG','INTPOL','ZEITOPTION','PH','PH_min','PH_max','pk_x']]\r\n #\r\n vPVAR.rename(columns={'pk_x':'pk'},inplace=True)\r\n \r\n except Exception as e:\r\n logStrFinal=\"{:s}Exception: Line: {:d}: {!s:s}: {:s}\".format(logStr,sys.exc_info()[-1].tb_lineno,type(e),str(e))\r\n logger.error(logStrFinal) \r\n raise XmError(logStrFinal) \r\n finally:\r\n logger.debug(\"{0:s}{1:s}\".format(logStr,'_Done.')) \r\n return vPVAR", "def v_p(self, psi_l, ci):\n\t\treturn min((ci*self.VPMAX0)/(ci + self.KP), self.VPR)", "def solve_ivp(y: Symbol, v: List[Tuple[Number, Number]], t: Symbol = t, func: Function = Function('y', real=True)(t)) -> Tuple[Symbol, Procedure]:\n equations = []\n derivatives = []\n\n for i, (t1, y1) in enumerate(v):\n derivative = diff(y, t, i)\n d_simp = simplify(derivative)\n eq = Eq(d_simp.subs(t, t1), y1)\n derivatives.append(Eq(func.diff(t, i), d_simp, evaluate=False))\n equations.append(eq)\n\n sol = solve(equations)\n for k in sol:\n y = y.subs(k, sol[k])\n\n procedure = Procedure()\n procedure\\\n .text('Find successive derivatives of ').latex('y(t)', nl=True)\\\n .equlist(derivatives)\\\n .text('Substitute the initial conditions', nl=True)\\\n .equarr(equations)\\\n .text('Solve for the arbitrary constants', nl=True)\\\n .equarr([Eq(k, v, evaluate=False) for k, v in sol.items()])\\\n .text('Substitute the solved constants into ').latex('y(t)', nl=True)\\\n .eq(Eq(Dummy('y'), y, evaluate=False))\n\n return y, procedure", "def getbarxj(self,whichsol_,j_,barxj): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if barxj is None: raise TypeError(\"Invalid type for argument barxj\")\n _copyback_barxj = False\n if barxj is None:\n barxj_ = None\n else:\n try:\n barxj_ = memoryview(barxj)\n except TypeError:\n try:\n _tmparr_barxj = array.array(\"d\",barxj)\n except TypeError:\n raise TypeError(\"Argument barxj has wrong type\")\n else:\n barxj_ = memoryview(_tmparr_barxj)\n _copyback_barxj = True\n else:\n if barxj_.format != \"d\":\n barxj_ = memoryview(array.array(\"d\",barxj))\n _copyback_barxj = True\n if barxj_ is not None and len(barxj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barxj has wrong length\")\n res = self.__obj.getbarxj(whichsol_,j_,barxj_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_barxj:\n barxj[:] = _tmparr_barxj", "def _check_parameter(h, i, j, v, integral=False, name=None, sym=None):\n if integral:\n try:\n v = integralize(v)\n except TypeError:\n raise InfeasibleError(\"%s %s[%d, %d, %d] is nonintegral\"\n % (name, sym, h, i, j))\n assert checkNonneg(v), \\\n \"%s %s[%d, %d, %d] is negative\" % (name, sym, h, i, j)\n return v", "def getbarsj(self,whichsol_,j_,barsj): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if barsj is None: raise TypeError(\"Invalid type for argument barsj\")\n _copyback_barsj = False\n if barsj is None:\n barsj_ = None\n else:\n try:\n barsj_ = memoryview(barsj)\n except TypeError:\n try:\n _tmparr_barsj = array.array(\"d\",barsj)\n except TypeError:\n raise TypeError(\"Argument barsj has wrong type\")\n else:\n barsj_ = memoryview(_tmparr_barsj)\n _copyback_barsj = True\n else:\n if barsj_.format != \"d\":\n barsj_ = memoryview(array.array(\"d\",barsj))\n _copyback_barsj = True\n if barsj_ is not None and len(barsj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barsj has wrong length\")\n res = self.__obj.getbarsj(whichsol_,j_,barsj_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_barsj:\n barsj[:] = _tmparr_barsj", "def vcg_solve(thy, goal):\n pt = ProofTermDeriv(\"vcg\", thy, goal, [])\n vc_pt = [ProofTermDeriv(\"z3\", thy, vc, []) for vc in pt.assums]\n return ProofTerm.implies_elim(pt, *vc_pt)" ]

[ "0.83343863", "0.8084883", "0.8037239", "0.78737986", "0.78627396", "0.7469893", "0.74174345", "0.69883305", "0.6957489", "0.69532615", "0.68989563", "0.626489", "0.6257099", "0.62073106", "0.61752826", "0.57343996", "0.56017363", "0.55548275", "0.5449524", "0.5389601", "0.5173509", "0.5171305", "0.5168292", "0.5130271", "0.51291287", "0.50454175", "0.49745524", "0.496891", "0.49394515", "0.49354297" ]

[ "def getpviolcones(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getpviolcones(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getpviolcon(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getpviolcon(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getpviolcon(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getpviolcon(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getdviolcones(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getdviolcones(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getdviolcones(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getdviolcones(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getdviolcon(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getdviolcon(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getdviolcon(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getdviolcon(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getpviolvar(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getpviolvar(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getpviolbarvar(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getpviolbarvar(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getpviolvar(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getpviolvar(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getdviolvar(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getdviolvar(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getdviolbarvar(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getdviolbarvar(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getdviolvar(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getdviolvar(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getpviolbarvar(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getpviolbarvar(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getdviolbarvar(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getdviolbarvar(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getsolutioninfo(self,whichsol_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res,resargs = self.__obj.getsolutioninfo(whichsol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _pobj_return_value,_pviolcon_return_value,_pviolvar_return_value,_pviolbarvar_return_value,_pviolcone_return_value,_pviolitg_return_value,_dobj_return_value,_dviolcon_return_value,_dviolvar_return_value,_dviolbarvar_return_value,_dviolcone_return_value = resargs\n return _pobj_return_value,_pviolcon_return_value,_pviolvar_return_value,_pviolbarvar_return_value,_pviolcone_return_value,_pviolitg_return_value,_dobj_return_value,_dviolcon_return_value,_dviolvar_return_value,_dviolbarvar_return_value,_dviolcone_return_value", "def getsolutioninfo(self,whichsol_):\n pobj_ = ctypes.c_double()\n pviolcon_ = ctypes.c_double()\n pviolvar_ = ctypes.c_double()\n pviolbarvar_ = ctypes.c_double()\n pviolcone_ = ctypes.c_double()\n pviolitg_ = ctypes.c_double()\n dobj_ = ctypes.c_double()\n dviolcon_ = ctypes.c_double()\n dviolvar_ = ctypes.c_double()\n dviolbarvar_ = ctypes.c_double()\n dviolcone_ = ctypes.c_double()\n res = __library__.MSK_XX_getsolutioninfo(self.__nativep,whichsol_,ctypes.byref(pobj_),ctypes.byref(pviolcon_),ctypes.byref(pviolvar_),ctypes.byref(pviolbarvar_),ctypes.byref(pviolcone_),ctypes.byref(pviolitg_),ctypes.byref(dobj_),ctypes.byref(dviolcon_),ctypes.byref(dviolvar_),ctypes.byref(dviolbarvar_),ctypes.byref(dviolcone_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n pobj_ = pobj_.value\n _pobj_return_value = pobj_\n pviolcon_ = pviolcon_.value\n _pviolcon_return_value = pviolcon_\n pviolvar_ = pviolvar_.value\n _pviolvar_return_value = pviolvar_\n pviolbarvar_ = pviolbarvar_.value\n _pviolbarvar_return_value = pviolbarvar_\n pviolcone_ = pviolcone_.value\n _pviolcone_return_value = pviolcone_\n pviolitg_ = pviolitg_.value\n _pviolitg_return_value = pviolitg_\n dobj_ = dobj_.value\n _dobj_return_value = dobj_\n dviolcon_ = dviolcon_.value\n _dviolcon_return_value = dviolcon_\n dviolvar_ = dviolvar_.value\n _dviolvar_return_value = dviolvar_\n dviolbarvar_ = dviolbarvar_.value\n _dviolbarvar_return_value = dviolbarvar_\n dviolcone_ = dviolcone_.value\n _dviolcone_return_value = dviolcone_\n return (_pobj_return_value,_pviolcon_return_value,_pviolvar_return_value,_pviolbarvar_return_value,_pviolcone_return_value,_pviolitg_return_value,_dobj_return_value,_dviolcon_return_value,_dviolvar_return_value,_dviolbarvar_return_value,_dviolcone_return_value)", "def ineqconstr(x, problem):\n x, t_final = matrify(x, problem)\n c = []\n\n # inter vehicles\n c += [veh_coll_avoid(x[:, :2, v1], x[:, :2, v2], problem)\n for v1 in range(problem['Nv']) for v2 in range(v1 + 1, problem['Nv'])]\n\n # obstacles\n c += [obs.avoid(x[:, :2, veh]) for obs in problem['obstacles'] for veh in range(problem['Nv'])]\n return np.concatenate(c) if c else np.array([])", "def get_sol(self):", "def vcg_solve(thy, goal):\n pt = ProofTermDeriv(\"vcg\", thy, goal, [])\n vc_pt = [ProofTermDeriv(\"z3\", thy, vc, []) for vc in pt.assums]\n return ProofTerm.implies_elim(pt, *vc_pt)", "def getinfeasiblesubproblem(self,whichsol_):\n inftask_ = ctypes.c_void_p()\n res = __library__.MSK_XX_getinfeasiblesubproblem(self.__nativep,whichsol_,ctypes.byref(inftask_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _inftask_return_value = Task(nativep = inftask_)\n return (_inftask_return_value)", "def solutionCovariance(self):\n return self.standardError2()*self.AtAinv", "def check_sol(sol: int,\n subcase: Any,\n allowed_sols: List[int],\n case_control_key: str,\n log: Any, ierror: int, nerrors: int) -> int:\n if sol not in allowed_sols:\n msg = '%s is not valid in sol=%s allowed_sols=%s\\n%s' % (\n case_control_key, sol, allowed_sols, subcase)\n log.error(msg)\n if ierror == nerrors:\n raise RuntimeError(msg)\n if case_control_key not in subcase:\n msg = f'sol={sol} is missing {case_control_key!r}\\n{subcase}'\n log.error(msg)\n if ierror == nerrors:\n raise RuntimeError(msg)\n ierror += 1\n return ierror", "def calcpv(pvrange, pvinx1, pvinx2, sipx, sipy, tpvx, tpvy):\n x, y = symbols(\"x y\")\n if pvinx1 == 1:\n expr1 = tpvx\n expr2 = sipx\n elif pvinx1 == 2:\n expr1 = tpvy\n expr2 = sipy\n else:\n raise ValueError('incorrect first index to PV keywords')\n if pvinx2 not in pvrange:\n raise ValueError('incorrect second index to PV keywords')\n pvar = symbols('pv%d_%d' % (pvinx1, pvinx2))\n xord = yord = 0\n if expr1.coeff(pvar).has(x):\n xord = poly(expr1.coeff(pvar)).degree(x)\n if expr1.coeff(pvar).has(y):\n yord = poly(expr1.coeff(pvar)).degree(y)\n\n return expr2.coeff(x, xord).coeff(y, yord)", "def objective_constraints(self, variables, mask, reservations, mpc_ene=None):\n constraint_list = []\n ice_gen = variables['ice_gen']\n on_ice = variables['on_ice']\n\n constraint_list += [cvx.NonPos(cvx.multiply(self.p_min, on_ice) - ice_gen)]\n constraint_list += [cvx.NonPos(ice_gen - cvx.multiply(self.rated_power*self.n, on_ice))]\n\n return constraint_list", "def apply(self, problem):\n data = dict()\n var = problem.x\n inv_data = {self.VAR_ID: var.id,\n 'suc_slacks': [], 'y_slacks': [], 'snx_slacks': [], 'psd_dims': []}\n\n # Get integrality constraint information\n data[s.BOOL_IDX] = [int(t[0]) for t in var.boolean_idx]\n data[s.INT_IDX] = [int(t[0]) for t in var.integer_idx]\n inv_data['integer_variables'] = len(data[s.BOOL_IDX]) + len(data[s.INT_IDX]) > 0\n\n if not problem.formatted:\n problem = self.format_constraints(problem,\n MOSEK.EXP_CONE_ORDER)\n data[s.PARAM_PROB] = problem\n constr_map = problem.constr_map\n data[s.DIMS] = problem.cone_dims\n\n inv_data['constraints'] = problem.constraints\n\n # A is ordered as [Zero, NonNeg, SOC, PSD, EXP]\n c, d, A, b = problem.apply_parameters()\n A = -A\n data[s.C] = c.ravel()\n inv_data['n0'] = len(data[s.C])\n data[s.OBJ_OFFSET] = float(d)\n inv_data[s.OBJ_OFFSET] = float(d)\n\n Gs = []\n hs = []\n # Linear inequalities\n num_linear_equalities = len(constr_map[Zero])\n num_linear_inequalities = len(constr_map[NonNeg])\n leq_dim = data[s.DIMS][s.LEQ_DIM]\n eq_dim = data[s.DIMS][s.EQ_DIM]\n if num_linear_inequalities > 0:\n # G, h : G * z <= h\n offset = num_linear_equalities\n for c in problem.constraints[offset:offset + num_linear_inequalities]:\n assert(isinstance(c, NonNeg))\n inv_data['suc_slacks'].append((c.id, c.size))\n row_offset = eq_dim\n Gs.append(A[row_offset:row_offset + leq_dim])\n hs.append(b[row_offset:row_offset + leq_dim])\n\n # Linear equations\n if num_linear_equalities > 0:\n for c in problem.constraints[:num_linear_equalities]:\n assert(isinstance(c, Zero))\n inv_data['y_slacks'].append((c.id, c.size))\n Gs.append(A[:eq_dim])\n hs.append(b[:eq_dim])\n\n # Second order cone\n num_soc = len(constr_map[SOC])\n soc_dim = sum(data[s.DIMS][s.SOC_DIM])\n if num_soc > 0:\n offset = num_linear_inequalities + num_linear_equalities\n for c in problem.constraints[offset:offset + num_soc]:\n assert(isinstance(c, SOC))\n inv_data['snx_slacks'].append((c.id, c.size))\n row_offset = leq_dim + eq_dim\n Gs.append(A[row_offset:row_offset + soc_dim])\n hs.append(b[row_offset:row_offset + soc_dim])\n\n # Exponential cone\n num_exp = len(constr_map[ExpCone])\n if num_exp > 0:\n # G * z <=_{EXP} h.\n len_exp = 0\n for c in problem.constraints[-num_exp:]:\n assert(isinstance(c, ExpCone))\n inv_data['snx_slacks'].append((c.id, 3 * c.num_cones()))\n len_exp += 3 * c.num_cones()\n Gs.append(A[-len_exp:])\n hs.append(b[-len_exp:])\n\n # PSD constraints\n num_psd = len(constr_map[PSD])\n psd_dim = sum([dim ** 2 for dim in data[s.DIMS][s.PSD_DIM]])\n if num_psd > 0:\n offset = num_linear_inequalities + num_linear_equalities + num_soc\n for c in problem.constraints[offset:offset + num_psd]:\n assert(isinstance(c, PSD))\n inv_data['psd_dims'].append((c.id, c.expr.shape[0]))\n row_offset = leq_dim + eq_dim + soc_dim\n Gs.append(A[row_offset:row_offset + psd_dim])\n hs.append(b[row_offset:row_offset + psd_dim])\n\n if Gs:\n data[s.G] = sp.sparse.vstack(tuple(Gs))\n else:\n data[s.G] = sp.sparse.csc_matrix((0, 0))\n if hs:\n data[s.H] = np.hstack(tuple(hs))\n else:\n data[s.H] = np.array([])\n inv_data['is_LP'] = (len(constr_map[PSD]) +\n len(constr_map[ExpCone]) +\n len(constr_map[SOC])) == 0\n\n return data, inv_data", "def getsolution(self,whichsol_,skc,skx,skn,xc,xx,y,slc,suc,slx,sux,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skc = False\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n _copyback_skc = True\n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n _copyback_skc = True\n if skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc has wrong length\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx has wrong length\")\n _copyback_skn = False\n if skn is None:\n skn_ = None\n else:\n try:\n skn_ = memoryview(skn)\n except TypeError:\n try:\n _tmparr_skn = array.array(\"i\",skn)\n except TypeError:\n raise TypeError(\"Argument skn has wrong type\")\n else:\n skn_ = memoryview(_tmparr_skn)\n _copyback_skn = True\n else:\n if skn_.format != \"i\":\n skn_ = memoryview(array.array(\"i\",skn))\n _copyback_skn = True\n if skn_ is not None and len(skn_) != self.getnumcone():\n raise ValueError(\"Array argument skn has wrong length\")\n _copyback_xc = False\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n _copyback_xc = True\n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n _copyback_xc = True\n if xc_ is not None and len(xc_) != self.getnumcon():\n raise ValueError(\"Array argument xc has wrong length\")\n _copyback_xx = False\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n _copyback_xx = True\n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n _copyback_xx = True\n if xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx has wrong length\")\n _copyback_y = False\n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n _copyback_y = True\n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n _copyback_y = True\n if y_ is not None and len(y_) != self.getnumcon():\n raise ValueError(\"Array argument y has wrong length\")\n _copyback_slc = False\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n _copyback_slc = True\n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n _copyback_slc = True\n if slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc has wrong length\")\n _copyback_suc = False\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n _copyback_suc = True\n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n _copyback_suc = True\n if suc_ is not None and len(suc_) != self.getnumcon():\n raise ValueError(\"Array argument suc has wrong length\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx has wrong length\")\n _copyback_sux = False\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n _copyback_sux = True\n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n _copyback_sux = True\n if sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux has wrong length\")\n _copyback_snx = False\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n _copyback_snx = True\n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n _copyback_snx = True\n if snx_ is not None and len(snx_) != self.getnumvar():\n raise ValueError(\"Array argument snx has wrong length\")\n res,resargs = self.__obj.getsolution(whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _prosta_return_value,_solsta_return_value = resargs\n if _copyback_snx:\n snx[:] = _tmparr_snx\n if _copyback_sux:\n sux[:] = _tmparr_sux\n if _copyback_slx:\n slx[:] = _tmparr_slx\n if _copyback_suc:\n suc[:] = _tmparr_suc\n if _copyback_slc:\n slc[:] = _tmparr_slc\n if _copyback_y:\n y[:] = _tmparr_y\n if _copyback_xx:\n xx[:] = _tmparr_xx\n if _copyback_xc:\n xc[:] = _tmparr_xc\n if _copyback_skn:\n for __tmp_var_2 in range(len(skn_)): skn[__tmp_var_2] = stakey(_tmparr_skn[__tmp_var_2])\n if _copyback_skx:\n for __tmp_var_1 in range(len(skx_)): skx[__tmp_var_1] = stakey(_tmparr_skx[__tmp_var_1])\n if _copyback_skc:\n for __tmp_var_0 in range(len(skc_)): skc[__tmp_var_0] = stakey(_tmparr_skc[__tmp_var_0])\n _solsta_return_value = solsta(_solsta_return_value)\n _prosta_return_value = prosta(_prosta_return_value)\n return _prosta_return_value,_solsta_return_value", "def putconsolutioni(self,i_,whichsol_,sk_,x_,sl_,su_):\n res = __library__.MSK_XX_putconsolutioni(self.__nativep,i_,whichsol_,sk_,x_,sl_,su_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def con_cieq(x,project):\n \n cons = project.con_cieq(x)\n \n if cons: cons = array(cons)\n else: cons = zeros([0])\n \n return -cons", "def getsolution(self,whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_):\n prosta_ = ctypes.c_int32()\n solsta_ = ctypes.c_int32()\n _skc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),self.getnumcon()))\n if isinstance(skc_,numpy.ndarray) and not skc_.flags.writeable:\n raise ValueError(\"Argument skc must be writable\")\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))()\n else:\n _skc_tmp = None\n _skx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),self.getnumvar()))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n _skn_minlength = self.getnumcone()\n if self.getnumcone() > 0 and skn_ is not None and len(skn_) != self.getnumcone():\n raise ValueError(\"Array argument skn is not long enough: Is %d, expected %d\" % (len(skn_),self.getnumcone()))\n if isinstance(skn_,numpy.ndarray) and not skn_.flags.writeable:\n raise ValueError(\"Argument skn must be writable\")\n if skn_ is not None:\n _skn_tmp = (ctypes.c_int32 * len(skn_))()\n else:\n _skn_tmp = None\n _xc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and xc_ is not None and len(xc_) != self.getnumcon():\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),self.getnumcon()))\n if isinstance(xc_,numpy.ndarray) and not xc_.flags.writeable:\n raise ValueError(\"Argument xc must be writable\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n _xx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),self.getnumvar()))\n if isinstance(xx_,numpy.ndarray) and not xx_.flags.writeable:\n raise ValueError(\"Argument xx must be writable\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n _y_minlength = self.getnumcon()\n if self.getnumcon() > 0 and y_ is not None and len(y_) != self.getnumcon():\n raise ValueError(\"Array argument y is not long enough: Is %d, expected %d\" % (len(y_),self.getnumcon()))\n if isinstance(y_,numpy.ndarray) and not y_.flags.writeable:\n raise ValueError(\"Argument y must be writable\")\n if isinstance(y_, numpy.ndarray) and y_.dtype is numpy.dtype(numpy.float64) and y_.flags.contiguous:\n _y_copyarray = False\n _y_tmp = ctypes.cast(y_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif y_ is not None:\n _y_copyarray = True\n _y_np_tmp = numpy.zeros(len(y_),numpy.dtype(numpy.float64))\n _y_np_tmp[:] = y_\n assert _y_np_tmp.flags.contiguous\n _y_tmp = ctypes.cast(_y_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _y_copyarray = False\n _y_tmp = None\n \n _slc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),self.getnumcon()))\n if isinstance(slc_,numpy.ndarray) and not slc_.flags.writeable:\n raise ValueError(\"Argument slc must be writable\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n _suc_minlength = self.getnumcon()\n if self.getnumcon() > 0 and suc_ is not None and len(suc_) != self.getnumcon():\n raise ValueError(\"Array argument suc is not long enough: Is %d, expected %d\" % (len(suc_),self.getnumcon()))\n if isinstance(suc_,numpy.ndarray) and not suc_.flags.writeable:\n raise ValueError(\"Argument suc must be writable\")\n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n _slx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),self.getnumvar()))\n if isinstance(slx_,numpy.ndarray) and not slx_.flags.writeable:\n raise ValueError(\"Argument slx must be writable\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n _sux_minlength = self.getnumvar()\n if self.getnumvar() > 0 and sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),self.getnumvar()))\n if isinstance(sux_,numpy.ndarray) and not sux_.flags.writeable:\n raise ValueError(\"Argument sux must be writable\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n _snx_minlength = self.getnumvar()\n if self.getnumvar() > 0 and snx_ is not None and len(snx_) != self.getnumvar():\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),self.getnumvar()))\n if isinstance(snx_,numpy.ndarray) and not snx_.flags.writeable:\n raise ValueError(\"Argument snx must be writable\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_getsolution(self.__nativep,whichsol_,ctypes.byref(prosta_),ctypes.byref(solsta_),_skc_tmp,_skx_tmp,_skn_tmp,_xc_tmp,_xx_tmp,_y_tmp,_slc_tmp,_suc_tmp,_slx_tmp,_sux_tmp,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _prosta_return_value = prosta(prosta_.value)\n _solsta_return_value = solsta(solsta_.value)\n if skc_ is not None: skc_[:] = [ stakey(v) for v in _skc_tmp[0:len(skc_)] ]\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]\n if skn_ is not None: skn_[:] = [ stakey(v) for v in _skn_tmp[0:len(skn_)] ]\n if _xc_copyarray:\n xc_[:] = _xc_np_tmp\n if _xx_copyarray:\n xx_[:] = _xx_np_tmp\n if _y_copyarray:\n y_[:] = _y_np_tmp\n if _slc_copyarray:\n slc_[:] = _slc_np_tmp\n if _suc_copyarray:\n suc_[:] = _suc_np_tmp\n if _slx_copyarray:\n slx_[:] = _slx_np_tmp\n if _sux_copyarray:\n sux_[:] = _sux_np_tmp\n if _snx_copyarray:\n snx_[:] = _snx_np_tmp\n return (_prosta_return_value,_solsta_return_value)" ]

[ "0.83693093", "0.8122024", "0.7921561", "0.78917754", "0.77556485", "0.7697431", "0.7501031", "0.7185669", "0.7032077", "0.6933271", "0.68799603", "0.68395555", "0.6595575", "0.6583671", "0.6386636", "0.5925055", "0.56148916", "0.557249", "0.53885525", "0.5341692", "0.5337214", "0.5224035", "0.517586", "0.5159774", "0.5107375", "0.507843", "0.5012441", "0.5011908", "0.50073135", "0.49996182" ]

[ "def getdviolvar(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getdviolvar(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getpviolvar(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getpviolvar(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getpviolvar(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getpviolvar(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getdviolbarvar(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getdviolbarvar(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getdviolbarvar(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getdviolbarvar(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getpviolbarvar(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getpviolbarvar(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getpviolbarvar(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getpviolbarvar(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getdviolcon(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getdviolcon(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getdviolcones(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getdviolcones(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getdviolcon(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getdviolcon(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getdviolcones(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getdviolcones(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getpviolcon(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getpviolcon(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getpviolcones(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getpviolcones(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getpviolcon(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getpviolcon(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getpviolcones(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getpviolcones(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getsolutioninfo(self,whichsol_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res,resargs = self.__obj.getsolutioninfo(whichsol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _pobj_return_value,_pviolcon_return_value,_pviolvar_return_value,_pviolbarvar_return_value,_pviolcone_return_value,_pviolitg_return_value,_dobj_return_value,_dviolcon_return_value,_dviolvar_return_value,_dviolbarvar_return_value,_dviolcone_return_value = resargs\n return _pobj_return_value,_pviolcon_return_value,_pviolvar_return_value,_pviolbarvar_return_value,_pviolcone_return_value,_pviolitg_return_value,_dobj_return_value,_dviolcon_return_value,_dviolvar_return_value,_dviolbarvar_return_value,_dviolcone_return_value", "def getsolutioninfo(self,whichsol_):\n pobj_ = ctypes.c_double()\n pviolcon_ = ctypes.c_double()\n pviolvar_ = ctypes.c_double()\n pviolbarvar_ = ctypes.c_double()\n pviolcone_ = ctypes.c_double()\n pviolitg_ = ctypes.c_double()\n dobj_ = ctypes.c_double()\n dviolcon_ = ctypes.c_double()\n dviolvar_ = ctypes.c_double()\n dviolbarvar_ = ctypes.c_double()\n dviolcone_ = ctypes.c_double()\n res = __library__.MSK_XX_getsolutioninfo(self.__nativep,whichsol_,ctypes.byref(pobj_),ctypes.byref(pviolcon_),ctypes.byref(pviolvar_),ctypes.byref(pviolbarvar_),ctypes.byref(pviolcone_),ctypes.byref(pviolitg_),ctypes.byref(dobj_),ctypes.byref(dviolcon_),ctypes.byref(dviolvar_),ctypes.byref(dviolbarvar_),ctypes.byref(dviolcone_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n pobj_ = pobj_.value\n _pobj_return_value = pobj_\n pviolcon_ = pviolcon_.value\n _pviolcon_return_value = pviolcon_\n pviolvar_ = pviolvar_.value\n _pviolvar_return_value = pviolvar_\n pviolbarvar_ = pviolbarvar_.value\n _pviolbarvar_return_value = pviolbarvar_\n pviolcone_ = pviolcone_.value\n _pviolcone_return_value = pviolcone_\n pviolitg_ = pviolitg_.value\n _pviolitg_return_value = pviolitg_\n dobj_ = dobj_.value\n _dobj_return_value = dobj_\n dviolcon_ = dviolcon_.value\n _dviolcon_return_value = dviolcon_\n dviolvar_ = dviolvar_.value\n _dviolvar_return_value = dviolvar_\n dviolbarvar_ = dviolbarvar_.value\n _dviolbarvar_return_value = dviolbarvar_\n dviolcone_ = dviolcone_.value\n _dviolcone_return_value = dviolcone_\n return (_pobj_return_value,_pviolcon_return_value,_pviolvar_return_value,_pviolbarvar_return_value,_pviolcone_return_value,_pviolitg_return_value,_dobj_return_value,_dviolcon_return_value,_dviolvar_return_value,_dviolbarvar_return_value,_dviolcone_return_value)", "def getdualobj(self,whichsol_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res,resargs = self.__obj.getdualobj(whichsol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _dualobj_return_value = resargs\n return _dualobj_return_value", "def get_var_soln(self, label):\n\n assert self.var_array is not None, 'calculate_diagnostics has not been run'\n i_label = self.var_labels.index(label)\n return self.var_array[:, i_label]", "def getdualsolutionnorms(self,whichsol_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res,resargs = self.__obj.getdualsolutionnorms(whichsol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _nrmy_return_value,_nrmslc_return_value,_nrmsuc_return_value,_nrmslx_return_value,_nrmsux_return_value,_nrmsnx_return_value,_nrmbars_return_value = resargs\n return _nrmy_return_value,_nrmslc_return_value,_nrmsuc_return_value,_nrmslx_return_value,_nrmsux_return_value,_nrmsnx_return_value,_nrmbars_return_value", "def recover_dual_variables(task, sol, inverse_data):\n dual_vars = dict()\n\n # Dual variables for the inequality constraints\n suc_len = sum(ell for _, ell in inverse_data['suc_slacks'])\n if suc_len > 0:\n suc = [0.] * suc_len\n task.getsucslice(sol, 0, suc_len, suc)\n dual_vars.update(MOSEK._parse_dual_var_block(suc, inverse_data['suc_slacks']))\n\n # Dual variables for the original equality constraints\n y_len = sum(ell for _, ell in inverse_data['y_slacks'])\n if y_len > 0:\n y = [0.] * y_len\n task.getyslice(sol, suc_len, suc_len + y_len, y)\n y = [-val for val in y]\n dual_vars.update(MOSEK._parse_dual_var_block(y, inverse_data['y_slacks']))\n\n # Dual variables for SOC and EXP constraints\n snx_len = sum(ell for _, ell in inverse_data['snx_slacks'])\n if snx_len > 0:\n snx = np.zeros(snx_len)\n task.getsnxslice(sol, inverse_data['n0'], inverse_data['n0'] + snx_len, snx)\n dual_vars.update(MOSEK._parse_dual_var_block(snx, inverse_data['snx_slacks']))\n\n # Dual variables for PSD constraints\n for j, (id, dim) in enumerate(inverse_data['psd_dims']):\n sj = [0.] * (dim * (dim + 1) // 2)\n task.getbarsj(sol, j, sj)\n dual_vars[id] = vectorized_lower_tri_to_mat(sj, dim)\n\n # Now that all dual variables have been recovered, find those corresponding\n # to the exponential cone, and permute the entries to reflect the CVXPY\n # standard for the exponential cone.\n for con in inverse_data['constraints']:\n if isinstance(con, ExpCone):\n cid = con.id\n perm = expcone_permutor(con.num_cones(), MOSEK.EXP_CONE_ORDER)\n dual_vars[cid] = dual_vars[cid][perm]\n return dual_vars", "def getdualsolutionnorms(self,whichsol_):\n nrmy_ = ctypes.c_double()\n nrmslc_ = ctypes.c_double()\n nrmsuc_ = ctypes.c_double()\n nrmslx_ = ctypes.c_double()\n nrmsux_ = ctypes.c_double()\n nrmsnx_ = ctypes.c_double()\n nrmbars_ = ctypes.c_double()\n res = __library__.MSK_XX_getdualsolutionnorms(self.__nativep,whichsol_,ctypes.byref(nrmy_),ctypes.byref(nrmslc_),ctypes.byref(nrmsuc_),ctypes.byref(nrmslx_),ctypes.byref(nrmsux_),ctypes.byref(nrmsnx_),ctypes.byref(nrmbars_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n nrmy_ = nrmy_.value\n _nrmy_return_value = nrmy_\n nrmslc_ = nrmslc_.value\n _nrmslc_return_value = nrmslc_\n nrmsuc_ = nrmsuc_.value\n _nrmsuc_return_value = nrmsuc_\n nrmslx_ = nrmslx_.value\n _nrmslx_return_value = nrmslx_\n nrmsux_ = nrmsux_.value\n _nrmsux_return_value = nrmsux_\n nrmsnx_ = nrmsnx_.value\n _nrmsnx_return_value = nrmsnx_\n nrmbars_ = nrmbars_.value\n _nrmbars_return_value = nrmbars_\n return (_nrmy_return_value,_nrmslc_return_value,_nrmsuc_return_value,_nrmslx_return_value,_nrmsux_return_value,_nrmsnx_return_value,_nrmbars_return_value)", "def _var_sol(self, var: Union[LpVariable, Var]) -> float:\n\n return value(var) if self.optimizer == 'pulp' else var.x", "def solutionCovariance(self):\n return self.standardError2()*self.AtAinv", "def V_var(self) -> Optional[np.ndarray]:\n\n def _retrieve(fm: VariationalFM) -> np.ndarray:\n return fm.V_var\n\n return runtime_error_to_optional(self, _retrieve)", "def getSolRatioVarIndx( self, var ):\n \n self.updateAdb( )\n\n if var in self.solNames:\n return self.solNames[ var ]\n elif var in self.solNames.values():\n return var\n else:\n return -1", "def dVdx(self, sys):\n return self._dfdx_fcn(self.pes1.dVdx(sys), self.pes2.dVdx(sys))", "def getdualobj(self,whichsol_):\n dualobj_ = ctypes.c_double()\n res = __library__.MSK_XX_getdualobj(self.__nativep,whichsol_,ctypes.byref(dualobj_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n dualobj_ = dualobj_.value\n _dualobj_return_value = dualobj_\n return (_dualobj_return_value)", "def _solve(self, solver):\n self.prob.solve(solver)\n if self.prob.status <= 0:\n raise Exception(\"Infeasible Solution.\")\n return {pid for pid, variable \n in self.player_vars.iteritems()\n if variable.varValue}", "def getsolution(self,whichsol_,skc,skx,skn,xc,xx,y,slc,suc,slx,sux,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skc = False\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n _copyback_skc = True\n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n _copyback_skc = True\n if skc_ is not None and len(skc_) != self.getnumcon():\n raise ValueError(\"Array argument skc has wrong length\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != self.getnumvar():\n raise ValueError(\"Array argument skx has wrong length\")\n _copyback_skn = False\n if skn is None:\n skn_ = None\n else:\n try:\n skn_ = memoryview(skn)\n except TypeError:\n try:\n _tmparr_skn = array.array(\"i\",skn)\n except TypeError:\n raise TypeError(\"Argument skn has wrong type\")\n else:\n skn_ = memoryview(_tmparr_skn)\n _copyback_skn = True\n else:\n if skn_.format != \"i\":\n skn_ = memoryview(array.array(\"i\",skn))\n _copyback_skn = True\n if skn_ is not None and len(skn_) != self.getnumcone():\n raise ValueError(\"Array argument skn has wrong length\")\n _copyback_xc = False\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n _copyback_xc = True\n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n _copyback_xc = True\n if xc_ is not None and len(xc_) != self.getnumcon():\n raise ValueError(\"Array argument xc has wrong length\")\n _copyback_xx = False\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n _copyback_xx = True\n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n _copyback_xx = True\n if xx_ is not None and len(xx_) != self.getnumvar():\n raise ValueError(\"Array argument xx has wrong length\")\n _copyback_y = False\n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n _copyback_y = True\n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n _copyback_y = True\n if y_ is not None and len(y_) != self.getnumcon():\n raise ValueError(\"Array argument y has wrong length\")\n _copyback_slc = False\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n _copyback_slc = True\n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n _copyback_slc = True\n if slc_ is not None and len(slc_) != self.getnumcon():\n raise ValueError(\"Array argument slc has wrong length\")\n _copyback_suc = False\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n _copyback_suc = True\n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n _copyback_suc = True\n if suc_ is not None and len(suc_) != self.getnumcon():\n raise ValueError(\"Array argument suc has wrong length\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != self.getnumvar():\n raise ValueError(\"Array argument slx has wrong length\")\n _copyback_sux = False\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n _copyback_sux = True\n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n _copyback_sux = True\n if sux_ is not None and len(sux_) != self.getnumvar():\n raise ValueError(\"Array argument sux has wrong length\")\n _copyback_snx = False\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n _copyback_snx = True\n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n _copyback_snx = True\n if snx_ is not None and len(snx_) != self.getnumvar():\n raise ValueError(\"Array argument snx has wrong length\")\n res,resargs = self.__obj.getsolution(whichsol_,skc_,skx_,skn_,xc_,xx_,y_,slc_,suc_,slx_,sux_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _prosta_return_value,_solsta_return_value = resargs\n if _copyback_snx:\n snx[:] = _tmparr_snx\n if _copyback_sux:\n sux[:] = _tmparr_sux\n if _copyback_slx:\n slx[:] = _tmparr_slx\n if _copyback_suc:\n suc[:] = _tmparr_suc\n if _copyback_slc:\n slc[:] = _tmparr_slc\n if _copyback_y:\n y[:] = _tmparr_y\n if _copyback_xx:\n xx[:] = _tmparr_xx\n if _copyback_xc:\n xc[:] = _tmparr_xc\n if _copyback_skn:\n for __tmp_var_2 in range(len(skn_)): skn[__tmp_var_2] = stakey(_tmparr_skn[__tmp_var_2])\n if _copyback_skx:\n for __tmp_var_1 in range(len(skx_)): skx[__tmp_var_1] = stakey(_tmparr_skx[__tmp_var_1])\n if _copyback_skc:\n for __tmp_var_0 in range(len(skc_)): skc[__tmp_var_0] = stakey(_tmparr_skc[__tmp_var_0])\n _solsta_return_value = solsta(_solsta_return_value)\n _prosta_return_value = prosta(_prosta_return_value)\n return _prosta_return_value,_solsta_return_value" ]

[ "0.842469", "0.8020049", "0.7901954", "0.78885037", "0.7700739", "0.74876314", "0.7316246", "0.7308457", "0.71310973", "0.7126803", "0.70612556", "0.69538635", "0.6839152", "0.6820221", "0.6764274", "0.63441837", "0.60243124", "0.58630145", "0.58565766", "0.5746518", "0.5669999", "0.56638867", "0.5632464", "0.54839176", "0.54359204", "0.5323286", "0.5305652", "0.52432036", "0.52140373", "0.52127135" ]

[ "def getdviolbarvar(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getdviolbarvar(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getdviolvar(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getdviolvar(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getpviolbarvar(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getpviolbarvar(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getpviolbarvar(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getpviolbarvar(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getdviolvar(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getdviolvar(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getpviolvar(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getpviolvar(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getpviolvar(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getpviolvar(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getdviolcon(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getdviolcon(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getpviolcon(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getpviolcon(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getdviolcones(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getdviolcones(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getdviolcon(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getdviolcon(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getdviolcones(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getdviolcones(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getpviolcones(self,whichsol_,sub,viol): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if viol is None: raise TypeError(\"Invalid type for argument viol\")\n _copyback_viol = False\n if viol is None:\n viol_ = None\n else:\n try:\n viol_ = memoryview(viol)\n except TypeError:\n try:\n _tmparr_viol = array.array(\"d\",viol)\n except TypeError:\n raise TypeError(\"Argument viol has wrong type\")\n else:\n viol_ = memoryview(_tmparr_viol)\n _copyback_viol = True\n else:\n if viol_.format != \"d\":\n viol_ = memoryview(array.array(\"d\",viol))\n _copyback_viol = True\n if viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol has wrong length\")\n res = self.__obj.getpviolcones(whichsol_,num_,sub_,viol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_viol:\n viol[:] = _tmparr_viol", "def getpviolcon(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getpviolcon(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getpviolcones(self,whichsol_,sub_,viol_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _viol_minlength = (num_)\n if (num_) > 0 and viol_ is not None and len(viol_) != (num_):\n raise ValueError(\"Array argument viol is not long enough: Is %d, expected %d\" % (len(viol_),(num_)))\n if isinstance(viol_,numpy.ndarray) and not viol_.flags.writeable:\n raise ValueError(\"Argument viol must be writable\")\n if viol_ is None:\n raise ValueError(\"Argument viol may not be None\")\n if isinstance(viol_, numpy.ndarray) and viol_.dtype is numpy.dtype(numpy.float64) and viol_.flags.contiguous:\n _viol_copyarray = False\n _viol_tmp = ctypes.cast(viol_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif viol_ is not None:\n _viol_copyarray = True\n _viol_np_tmp = numpy.zeros(len(viol_),numpy.dtype(numpy.float64))\n _viol_np_tmp[:] = viol_\n assert _viol_np_tmp.flags.contiguous\n _viol_tmp = ctypes.cast(_viol_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _viol_copyarray = False\n _viol_tmp = None\n \n res = __library__.MSK_XX_getpviolcones(self.__nativep,whichsol_,num_,_sub_tmp,_viol_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _viol_copyarray:\n viol_[:] = _viol_np_tmp", "def getsolutioninfo(self,whichsol_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res,resargs = self.__obj.getsolutioninfo(whichsol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _pobj_return_value,_pviolcon_return_value,_pviolvar_return_value,_pviolbarvar_return_value,_pviolcone_return_value,_pviolitg_return_value,_dobj_return_value,_dviolcon_return_value,_dviolvar_return_value,_dviolbarvar_return_value,_dviolcone_return_value = resargs\n return _pobj_return_value,_pviolcon_return_value,_pviolvar_return_value,_pviolbarvar_return_value,_pviolcone_return_value,_pviolitg_return_value,_dobj_return_value,_dviolcon_return_value,_dviolvar_return_value,_dviolbarvar_return_value,_dviolcone_return_value", "def getsolutioninfo(self,whichsol_):\n pobj_ = ctypes.c_double()\n pviolcon_ = ctypes.c_double()\n pviolvar_ = ctypes.c_double()\n pviolbarvar_ = ctypes.c_double()\n pviolcone_ = ctypes.c_double()\n pviolitg_ = ctypes.c_double()\n dobj_ = ctypes.c_double()\n dviolcon_ = ctypes.c_double()\n dviolvar_ = ctypes.c_double()\n dviolbarvar_ = ctypes.c_double()\n dviolcone_ = ctypes.c_double()\n res = __library__.MSK_XX_getsolutioninfo(self.__nativep,whichsol_,ctypes.byref(pobj_),ctypes.byref(pviolcon_),ctypes.byref(pviolvar_),ctypes.byref(pviolbarvar_),ctypes.byref(pviolcone_),ctypes.byref(pviolitg_),ctypes.byref(dobj_),ctypes.byref(dviolcon_),ctypes.byref(dviolvar_),ctypes.byref(dviolbarvar_),ctypes.byref(dviolcone_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n pobj_ = pobj_.value\n _pobj_return_value = pobj_\n pviolcon_ = pviolcon_.value\n _pviolcon_return_value = pviolcon_\n pviolvar_ = pviolvar_.value\n _pviolvar_return_value = pviolvar_\n pviolbarvar_ = pviolbarvar_.value\n _pviolbarvar_return_value = pviolbarvar_\n pviolcone_ = pviolcone_.value\n _pviolcone_return_value = pviolcone_\n pviolitg_ = pviolitg_.value\n _pviolitg_return_value = pviolitg_\n dobj_ = dobj_.value\n _dobj_return_value = dobj_\n dviolcon_ = dviolcon_.value\n _dviolcon_return_value = dviolcon_\n dviolvar_ = dviolvar_.value\n _dviolvar_return_value = dviolvar_\n dviolbarvar_ = dviolbarvar_.value\n _dviolbarvar_return_value = dviolbarvar_\n dviolcone_ = dviolcone_.value\n _dviolcone_return_value = dviolcone_\n return (_pobj_return_value,_pviolcon_return_value,_pviolvar_return_value,_pviolbarvar_return_value,_pviolcone_return_value,_pviolitg_return_value,_dobj_return_value,_dviolcon_return_value,_dviolvar_return_value,_dviolbarvar_return_value,_dviolcone_return_value)", "def recover_dual_variables(task, sol, inverse_data):\n dual_vars = dict()\n\n # Dual variables for the inequality constraints\n suc_len = sum(ell for _, ell in inverse_data['suc_slacks'])\n if suc_len > 0:\n suc = [0.] * suc_len\n task.getsucslice(sol, 0, suc_len, suc)\n dual_vars.update(MOSEK._parse_dual_var_block(suc, inverse_data['suc_slacks']))\n\n # Dual variables for the original equality constraints\n y_len = sum(ell for _, ell in inverse_data['y_slacks'])\n if y_len > 0:\n y = [0.] * y_len\n task.getyslice(sol, suc_len, suc_len + y_len, y)\n y = [-val for val in y]\n dual_vars.update(MOSEK._parse_dual_var_block(y, inverse_data['y_slacks']))\n\n # Dual variables for SOC and EXP constraints\n snx_len = sum(ell for _, ell in inverse_data['snx_slacks'])\n if snx_len > 0:\n snx = np.zeros(snx_len)\n task.getsnxslice(sol, inverse_data['n0'], inverse_data['n0'] + snx_len, snx)\n dual_vars.update(MOSEK._parse_dual_var_block(snx, inverse_data['snx_slacks']))\n\n # Dual variables for PSD constraints\n for j, (id, dim) in enumerate(inverse_data['psd_dims']):\n sj = [0.] * (dim * (dim + 1) // 2)\n task.getbarsj(sol, j, sj)\n dual_vars[id] = vectorized_lower_tri_to_mat(sj, dim)\n\n # Now that all dual variables have been recovered, find those corresponding\n # to the exponential cone, and permute the entries to reflect the CVXPY\n # standard for the exponential cone.\n for con in inverse_data['constraints']:\n if isinstance(con, ExpCone):\n cid = con.id\n perm = expcone_permutor(con.num_cones(), MOSEK.EXP_CONE_ORDER)\n dual_vars[cid] = dual_vars[cid][perm]\n return dual_vars", "def get_var_soln(self, label):\n\n assert self.var_array is not None, 'calculate_diagnostics has not been run'\n i_label = self.var_labels.index(label)\n return self.var_array[:, i_label]", "def _var_sol(self, var: Union[LpVariable, Var]) -> float:\n\n return value(var) if self.optimizer == 'pulp' else var.x", "def V_var(self) -> Optional[np.ndarray]:\n\n def _retrieve(fm: VariationalFM) -> np.ndarray:\n return fm.V_var\n\n return runtime_error_to_optional(self, _retrieve)", "def getdualobj(self,whichsol_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res,resargs = self.__obj.getdualobj(whichsol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _dualobj_return_value = resargs\n return _dualobj_return_value", "def vcg_solve(thy, goal):\n pt = ProofTermDeriv(\"vcg\", thy, goal, [])\n vc_pt = [ProofTermDeriv(\"z3\", thy, vc, []) for vc in pt.assums]\n return ProofTerm.implies_elim(pt, *vc_pt)", "def solutionCovariance(self):\n return self.standardError2()*self.AtAinv", "def getbarxj(self,whichsol_,j_,barxj): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if barxj is None: raise TypeError(\"Invalid type for argument barxj\")\n _copyback_barxj = False\n if barxj is None:\n barxj_ = None\n else:\n try:\n barxj_ = memoryview(barxj)\n except TypeError:\n try:\n _tmparr_barxj = array.array(\"d\",barxj)\n except TypeError:\n raise TypeError(\"Argument barxj has wrong type\")\n else:\n barxj_ = memoryview(_tmparr_barxj)\n _copyback_barxj = True\n else:\n if barxj_.format != \"d\":\n barxj_ = memoryview(array.array(\"d\",barxj))\n _copyback_barxj = True\n if barxj_ is not None and len(barxj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barxj has wrong length\")\n res = self.__obj.getbarxj(whichsol_,j_,barxj_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_barxj:\n barxj[:] = _tmparr_barxj", "def g_solving_subproblem_of_LR(self,vehicle_id):\r\n global_LB=-10000\r\n global_UB=10000\r\n iteration_for_RSP=20\r\n optimal_solution_for_RSP=None\r\n optimal_value_y=0\r\n self.multiplier_v=0.5\r\n\r\n #solve the expected shortest path problem\r\n self.g_dynamic_programming_algorithm(vehicle_id, 4)\r\n #obtain the variance\r\n y_=self.g_ending_state_vector[vehicle_id].VSStateVector[0].Primal_Label_cost_variance\r\n\r\n for k in range(iteration_for_RSP):\r\n # print(k)\r\n LB=0\r\n # step 2: solve decomposed dual problems\r\n # Part I: subproblem of x\r\n self.g_dynamic_programming_algorithm(vehicle_id, 2)\r\n LB+=self.g_ending_state_vector[vehicle_id].VSStateVector[0].Label_cost_for_lagrangian\r\n\r\n # Part II: subproblem of y\r\n obj_of_y_ = self.reliability * (y_) ** 0.5 - self.multiplier_v * y_\r\n if obj_of_y_ > 0:\r\n y = 0\r\n LB += 0\r\n else:\r\n y = y_\r\n LB += obj_of_y_\r\n # generate an upper bound\r\n variance = self.g_ending_state_vector[vehicle_id].VSStateVector[0].Primal_Label_cost_variance\r\n Label_cost_for_lagrangian_mean=self.g_ending_state_vector[vehicle_id].VSStateVector[0].Label_cost_for_lagrangian_mean\r\n UB=Label_cost_for_lagrangian_mean+self.reliability*(variance)**0.5\r\n\r\n # print(\"UB:{}\".format(UB))\r\n # print(\"LB:{}\".format(LB))\r\n\r\n # UB and LB update\r\n if LB > global_LB:\r\n global_LB = LB\r\n optimal_solution_for_RSP = self.g_ending_state_vector[vehicle_id].VSStateVector\r\n optimal_value_y = y\r\n\r\n if UB < global_UB:\r\n global_UB = UB\r\n\r\n\r\n # step 3: update multipliers\r\n if variance-y!= 0:\r\n self.multiplier_v+= (global_UB - LB) / (variance-y)\r\n # if self.multiplier_v<0:\r\n # self.multiplier_v=1\r\n # print(self.multiplier_v)\r\n\r\n # step 4: termination condition test\r\n if global_UB != 0:\r\n gap = abs((global_UB-global_LB) / global_UB)\r\n # print(gap)\r\n if gap < 0.02:\r\n print(\"iteration{}\".format(k + 1))\r\n print(self.multiplier_v)\r\n print(global_LB, global_UB)\r\n return optimal_solution_for_RSP, optimal_value_y,global_LB,global_UB\r\n else:\r\n if global_UB - global_LB == 0:\r\n print(\"iteration{}\".format(k + 1))\r\n print(self.multiplier_v)\r\n print(global_LB, global_UB)\r\n return optimal_solution_for_RSP,optimal_value_y,global_LB,global_UB\r\n\r\n if k == iteration_for_RSP - 1:\r\n print(\"iteration{}\".format(k + 1))\r\n print(self.multiplier_v)\r\n print(global_LB, global_UB)\r\n return optimal_solution_for_RSP,optimal_value_y,global_LB,global_UB", "def getSolRatioVarIndx( self, var ):\n \n self.updateAdb( )\n\n if var in self.solNames:\n return self.solNames[ var ]\n elif var in self.solNames.values():\n return var\n else:\n return -1", "def getbarsj(self,whichsol_,j_,barsj): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if barsj is None: raise TypeError(\"Invalid type for argument barsj\")\n _copyback_barsj = False\n if barsj is None:\n barsj_ = None\n else:\n try:\n barsj_ = memoryview(barsj)\n except TypeError:\n try:\n _tmparr_barsj = array.array(\"d\",barsj)\n except TypeError:\n raise TypeError(\"Argument barsj has wrong type\")\n else:\n barsj_ = memoryview(_tmparr_barsj)\n _copyback_barsj = True\n else:\n if barsj_.format != \"d\":\n barsj_ = memoryview(array.array(\"d\",barsj))\n _copyback_barsj = True\n if barsj_ is not None and len(barsj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barsj has wrong length\")\n res = self.__obj.getbarsj(whichsol_,j_,barsj_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_barsj:\n barsj[:] = _tmparr_barsj", "def get_dual_change_value(self, var_change_name, pos):\n return self.get_other_value(self.dual_var_change, var_change_name, pos)", "def find_varying(params, nvmax):\n print('Finding variable parameters')\n if nvmax < 0:\n raise ValueError(f'nvmax ({nvmax}) must be positive')\n\n var = []\n cnt = 0\n for p in params:\n if len(params[p]) == 2:\n if (params[p][1] - params[p][0]) < 0:\n raise ValueError(f'range is inverted for param: {p}')\n elif cnt >= nvmax:\n raise ValueError(f'too many param ranges were given. Expected {nvmax}')\n else:\n var.append(p)\n cnt += 1\n return var" ]

[ "0.8365152", "0.820791", "0.80888903", "0.80470765", "0.8035463", "0.79758537", "0.7821625", "0.71889246", "0.7017734", "0.69864213", "0.69533056", "0.6851415", "0.68440586", "0.6822642", "0.6695411", "0.5912819", "0.5740153", "0.5733863", "0.56503063", "0.55693674", "0.5439116", "0.5373284", "0.5322045", "0.5261187", "0.5244662", "0.5210755", "0.5184446", "0.51537484", "0.5134094", "0.5125635" ]

[ "def getsolutioninfo(self,whichsol_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res,resargs = self.__obj.getsolutioninfo(whichsol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _pobj_return_value,_pviolcon_return_value,_pviolvar_return_value,_pviolbarvar_return_value,_pviolcone_return_value,_pviolitg_return_value,_dobj_return_value,_dviolcon_return_value,_dviolvar_return_value,_dviolbarvar_return_value,_dviolcone_return_value = resargs\n return _pobj_return_value,_pviolcon_return_value,_pviolvar_return_value,_pviolbarvar_return_value,_pviolcone_return_value,_pviolitg_return_value,_dobj_return_value,_dviolcon_return_value,_dviolvar_return_value,_dviolbarvar_return_value,_dviolcone_return_value", "def updatesolutioninfo(self,whichsol_):\n res = __library__.MSK_XX_updatesolutioninfo(self.__nativep,whichsol_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def updatesolutioninfo(self,whichsol_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res = self.__obj.updatesolutioninfo(whichsol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def details(self) -> Optional[pulumi.Input['SolutionDetailsArgs']]:\n return pulumi.get(self, \"details\")", "def getInfo():", "def getsolutioni(self,accmode_,i_,whichsol_): # 3\n if not isinstance(accmode_,accmode): raise TypeError(\"Argument accmode has wrong type\")\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res,resargs = self.__obj.getsolutioni(accmode_,i_,whichsol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _sk_return_value,_x_return_value,_sl_return_value,_su_return_value,_sn_return_value = resargs\n _sk_return_value = stakey(_sk_return_value)\n return _sk_return_value,_x_return_value,_sl_return_value,_su_return_value,_sn_return_value", "def get_info(self):\n pass", "def get_info(self):\n pass", "def return_info(self):\n\t\treturn self.info", "def getinfo(self, option):\n return _librepo.Result.getinfo(self, option)", "def readsolution(self,whichsol_,filename_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res = self.__obj.readsolution(whichsol_,filename_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def info(self):\r\n\r\n return self.sim_info", "def get_info(self):\n return \"TODO !\"", "def get_info(self):\n raise NotImplementedError(\"Robot.get_info\")", "def getsolsta(self,whichsol_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res,resargs = self.__obj.getsolsta(whichsol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _solsta_return_value = resargs\n _solsta_return_value = solsta(_solsta_return_value)\n return _solsta_return_value", "def info() -> None:", "def get_solution(self):\r\n return self.solution", "def getInfo(self):\n return self.info", "def get_info(self) -> str:\n return self.info", "def info():\n return r\"\"\"Tseng, Lin-Yu, and Chun Chen. \"Multiple trajectory search for unconstrained/constrained multi-objective optimization.\" Evolutionary Computation, 2009. CEC'09. IEEE Congress on. IEEE, 2009.\"\"\"", "def _get_information(self):\n pass", "def get_info(self):\n return None", "def readSolution(solution):\n g = solution\n __data.g = g\n __data.nsp = g.n_species", "def get_info(self) -> str:\n raise NotImplementedError()", "def info(self):", "def info(self):", "def get_info(self, name):\n return self.info[name]", "def info(self, usecache=1):\r\n info = usecache and cache.info.get(self)\r\n if not info:\r\n try:\r\n output = self._svn('info')\r\n except py.process.cmdexec.Error, e:\r\n if e.err.find('Path is not a working copy directory') != -1:\r\n raise py.error.ENOENT(self, e.err)\r\n elif e.err.find(\"is not under version control\") != -1:\r\n raise py.error.ENOENT(self, e.err)\r\n raise\r\n # XXX SVN 1.3 has output on stderr instead of stdout (while it does\r\n # return 0!), so a bit nasty, but we assume no output is output\r\n # to stderr...\r\n if (output.strip() == '' or \r\n output.lower().find('not a versioned resource') != -1):\r\n raise py.error.ENOENT(self, output)\r\n info = InfoSvnWCCommand(output)\r\n\r\n # Can't reliably compare on Windows without access to win32api\r\n if py.std.sys.platform != 'win32': \r\n if info.path != self.localpath: \r\n raise py.error.ENOENT(self, \"not a versioned resource:\" + \r\n \" %s != %s\" % (info.path, self.localpath)) \r\n cache.info[self] = info\r\n self.rev = info.rev\r\n return info", "def get_perfect_information(self):\n raise NotImplementedError", "def get_info(program):\n\n return INFO[program].copy()" ]

[ "0.83259404", "0.7097056", "0.70560944", "0.62482697", "0.61821", "0.6134684", "0.5949938", "0.5949938", "0.58852124", "0.5849498", "0.58224726", "0.5818088", "0.5818062", "0.58057815", "0.5803957", "0.57681364", "0.5765166", "0.57560706", "0.5745533", "0.57215154", "0.5705366", "0.570527", "0.5669725", "0.56501234", "0.56477904", "0.56477904", "0.56417847", "0.5633926", "0.56337917", "0.5631218" ]

[ "def getdualsolutionnorms(self,whichsol_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res,resargs = self.__obj.getdualsolutionnorms(whichsol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _nrmy_return_value,_nrmslc_return_value,_nrmsuc_return_value,_nrmslx_return_value,_nrmsux_return_value,_nrmsnx_return_value,_nrmbars_return_value = resargs\n return _nrmy_return_value,_nrmslc_return_value,_nrmsuc_return_value,_nrmslx_return_value,_nrmsux_return_value,_nrmsnx_return_value,_nrmbars_return_value", "def getprimalsolutionnorms(self,whichsol_):\n nrmxc_ = ctypes.c_double()\n nrmxx_ = ctypes.c_double()\n nrmbarx_ = ctypes.c_double()\n res = __library__.MSK_XX_getprimalsolutionnorms(self.__nativep,whichsol_,ctypes.byref(nrmxc_),ctypes.byref(nrmxx_),ctypes.byref(nrmbarx_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n nrmxc_ = nrmxc_.value\n _nrmxc_return_value = nrmxc_\n nrmxx_ = nrmxx_.value\n _nrmxx_return_value = nrmxx_\n nrmbarx_ = nrmbarx_.value\n _nrmbarx_return_value = nrmbarx_\n return (_nrmxc_return_value,_nrmxx_return_value,_nrmbarx_return_value)", "def getprimalsolutionnorms(self,whichsol_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res,resargs = self.__obj.getprimalsolutionnorms(whichsol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _nrmxc_return_value,_nrmxx_return_value,_nrmbarx_return_value = resargs\n return _nrmxc_return_value,_nrmxx_return_value,_nrmbarx_return_value", "def norm(self):\n\t\treturn np.sqrt(self.normSq())", "def normsq(self):\n return sum(x**2 for x in self.data)", "def calculate_error_l2_norm(self, dY):\n solutions = []\n norm = 0.\n for mi in range(len(self._meshes)):\n for ei in range(len(self._meshes[mi].elements)):\n e = self._meshes[mi].elements[ei]\n # change this to gauss points:\n x_vals, w = p_roots(20)\n norm_e_squared = 0.\n for i, x in enumerate(x_vals):\n norm_e_squared += w[i] * \\\n self.get_sol_value(mi, ei, dY, x,\n count_lift=False)**2\n norm_e_squared *= e.jacobian\n norm += norm_e_squared\n return sqrt(norm)", "def _l2s(self, params):\n return [np.linalg.norm(param) for param in params]", "def norm(self):\n return math.sqrt(self.dotProduct(self))", "def test_compute_spectral_norms(self):\n\t\tdetails = self.watcher.analyze(layers=[self.second_layer], pool=False, randomize=False, plot=False, mp_fit=False, svd_method=ACCURATE_SVD)\n\n\t\t# SLOW method\n\t\ta = details.spectral_norm.to_numpy()\n\t\tself.assertAlmostEqual(a[0],20.2149, places=3)\n\t\tself.assertAlmostEqual(a[1],24.8158, places=3)\n\t\tself.assertAlmostEqual(a[2],19.3795, places=3)", "def norm(self):\n return sqrt(self.dot(self))", "def norm(self):", "def norm(self):\n raise NotImplementedError", "def compute_norm(self):\n\n # logger.info(\" Normalization factor:\")\n\n # loop over all the complexes in the database\n first = True\n for comp in tqdm(self.index_complexes):\n fname, molname = comp[0], comp[1]\n\n # get the feature/target\n if self.mapfly:\n feature, target = self.map_one_molecule(\n fname, mol=molname)\n else:\n feature, target = self.load_one_molecule(\n fname, mol=molname)\n\n # create the norm isntances at the first passage\n if first:\n self.param_norm = {'features': [], 'targets': None}\n for ifeat in range(feature.shape[0]):\n self.param_norm['features'].append(NormParam())\n self.param_norm['targets'] = MinMaxParam()\n first = False\n\n # update the norm instances\n for ifeat, mat in enumerate(feature):\n self.param_norm['features'][ifeat].add(\n np.mean(mat), np.var(mat))\n self.param_norm['targets'].update(target)\n\n # process the std of the features and make array for fast access\n nfeat, ncomplex = len(\n self.param_norm['features']), len(self.index_complexes)\n self.feature_mean, self.feature_std = [], []\n for ifeat in range(nfeat):\n\n # process the std and check\n self.param_norm['features'][ifeat].process(ncomplex)\n if self.param_norm['features'][ifeat].std == 0:\n logger.info(' Final STD Null. Changed it to 1')\n self.param_norm['features'][ifeat].std = 1\n\n # store as array for fast access\n self.feature_mean.append(\n self.param_norm['features'][ifeat].mean)\n self.feature_std.append(\n self.param_norm['features'][ifeat].std)\n\n self.target_min = self.param_norm['targets'].min[0]\n self.target_max = self.param_norm['targets'].max[0]\n\n logger.info(f'{self.target_min}, {self.target_max}')", "def normSq(self):\n\t\treturn self.x*self.x+self.y*self.y", "def norm(self):\n return np.linalg.norm(self.ravel())", "def normsq(self):\n return abs(sum(self._ar * self._ar))", "def norm(self):\n return np.sqrt(np.dot(self._data, self._data))", "def norm(self):\n\t\treturn math.sqrt(self.norm2())", "def norm(self):\n self.assertTrue(np.allclose(self.vectors.norm('dog.n.01'), 0.97757602))\n self.assertTrue(np.allclose(self.vectors.norm('mammal.n.01'), 0.03914723))", "def norm(self, psi):\n return np.sqrt(np.abs(self.ip(psi)))", "def norm(self):\n return numpy.linalg.norm(self.values)", "def norm(self):\n norm = self.scalarProduct(self) ** 0.5\n return norm", "def normalequ(self):\n tx = self.train_x\n y = self.train_y\n if self.regularizer is None:\n return np.linalg.solve(np.dot(tx.T, tx), np.dot(tx.T, y))\n elif self.regularizer.name is 'Ridge':\n G = np.eye(tx.shape[1])\n G[0, 0] = 0\n hes = np.dot(tx.T, tx) + self.regularizer_p * G\n return np.linalg.solve(hes, np.dot(tx.T, y))\n else:\n raise NotImplementedError", "def get_norms(self):\n l1_sum = 0\n l2_sum = 0\n actives = 0\n for lbl in self.labels:\n for fid in self.w[lbl]:\n # apply and remaing L1 penalities at the end of training.\n alpha = self.s - self.lastW[lbl].get(fid,0)\n self.w[lbl][fid] = self.w[lbl].get(fid, 0) - alpha\n weight = self.w[lbl][fid]\n l1_sum += weight if weight > 0 else -weight\n l2_sum += weight * weight\n if weight != 0:\n actives += 1\n l2_sum = math.sqrt(l2_sum)\n return (l1_sum,l2_sum,actives)", "def norm(self, N=2):\n norms = self.client.map(_call_norm, self.vecDask, N=N, pure=False)\n norm = 0.0\n for future, result in daskD.as_completed(norms, with_results=True):\n norm += np.power(np.float64(result), N)\n return np.power(norm, 1. / N)", "def norm( self):\n return self._norm", "def norm(self):\n return np.linalg.norm(self.values)", "def norm(self):\n # TODO: implement\n return", "def norm(self):\n if self._norm is None:\n from numpy.linalg import norm as lnorm\n self._norm = lnorm(self.df)\n return self._norm", "def norm(self):\n mag_squared = self._sum_of_squares()\n return sqrt(mag_squared)" ]

[ "0.86213017", "0.7799082", "0.75975305", "0.5843836", "0.58425874", "0.58296424", "0.58143187", "0.5741888", "0.572548", "0.5703944", "0.56897783", "0.5674844", "0.56606346", "0.5631683", "0.5582", "0.5572983", "0.55595255", "0.555448", "0.5498853", "0.54523396", "0.544812", "0.54249066", "0.542297", "0.54092884", "0.5408296", "0.5404508", "0.5403819", "0.5399239", "0.5395603", "0.53707904" ]

[ "def getprimalsolutionnorms(self,whichsol_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res,resargs = self.__obj.getprimalsolutionnorms(whichsol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _nrmxc_return_value,_nrmxx_return_value,_nrmbarx_return_value = resargs\n return _nrmxc_return_value,_nrmxx_return_value,_nrmbarx_return_value", "def getdualsolutionnorms(self,whichsol_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res,resargs = self.__obj.getdualsolutionnorms(whichsol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _nrmy_return_value,_nrmslc_return_value,_nrmsuc_return_value,_nrmslx_return_value,_nrmsux_return_value,_nrmsnx_return_value,_nrmbars_return_value = resargs\n return _nrmy_return_value,_nrmslc_return_value,_nrmsuc_return_value,_nrmslx_return_value,_nrmsux_return_value,_nrmsnx_return_value,_nrmbars_return_value", "def getdualsolutionnorms(self,whichsol_):\n nrmy_ = ctypes.c_double()\n nrmslc_ = ctypes.c_double()\n nrmsuc_ = ctypes.c_double()\n nrmslx_ = ctypes.c_double()\n nrmsux_ = ctypes.c_double()\n nrmsnx_ = ctypes.c_double()\n nrmbars_ = ctypes.c_double()\n res = __library__.MSK_XX_getdualsolutionnorms(self.__nativep,whichsol_,ctypes.byref(nrmy_),ctypes.byref(nrmslc_),ctypes.byref(nrmsuc_),ctypes.byref(nrmslx_),ctypes.byref(nrmsux_),ctypes.byref(nrmsnx_),ctypes.byref(nrmbars_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n nrmy_ = nrmy_.value\n _nrmy_return_value = nrmy_\n nrmslc_ = nrmslc_.value\n _nrmslc_return_value = nrmslc_\n nrmsuc_ = nrmsuc_.value\n _nrmsuc_return_value = nrmsuc_\n nrmslx_ = nrmslx_.value\n _nrmslx_return_value = nrmslx_\n nrmsux_ = nrmsux_.value\n _nrmsux_return_value = nrmsux_\n nrmsnx_ = nrmsnx_.value\n _nrmsnx_return_value = nrmsnx_\n nrmbars_ = nrmbars_.value\n _nrmbars_return_value = nrmbars_\n return (_nrmy_return_value,_nrmslc_return_value,_nrmsuc_return_value,_nrmslx_return_value,_nrmsux_return_value,_nrmsnx_return_value,_nrmbars_return_value)", "def norm(self, psi):\n return np.sqrt(np.abs(self.ip(psi)))", "def norm(self):\n\t\treturn np.sqrt(self.normSq())", "def normsq(self):\n return sum(x**2 for x in self.data)", "def norm(self):\n return math.sqrt(self.dotProduct(self))", "def norm(self):", "def norm(self):\n\t\treturn math.sqrt(self.norm2())", "def norm(self):\n raise NotImplementedError", "def getprimalobj(self,whichsol_): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n res,resargs = self.__obj.getprimalobj(whichsol_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _primalobj_return_value = resargs\n return _primalobj_return_value", "def norm(self):\n return sqrt(self.dot(self))", "def normSq(self):\n\t\treturn self.x*self.x+self.y*self.y", "def sqf_norm(f):\n s, g, r = dmp_sqf_norm(f.rep, f.lev, f.dom)\n return s, f.per(g), f.per(r, dom=f.dom.dom)", "def norm(pepx,side='I',XMAX=100,contract_SL=False,scaleX=1):\n \n norm_tens = peps_dot(np.conj(flatten(pepx)),flatten(pepx),side=side,XMAX=XMAX,contract_SL=contract_SL,\n scaleX=scaleX)\n\n # # catch cases when norm is ~0 but in reality is a small negative number\n # assert(np.abs(np.imag(norm_val)/(np.real(norm_val)+1.0e-12)) < 1.0e-12), norm_val\n # assert(np.real(norm_val) > -1.0e-10), norm_val\n\n # return np.sqrt(np.abs(norm_val))\n norm_val = np.einsum('ee->',norm_tens)\n return np.sqrt(norm_val)", "def plot_p_norm(p=2, bins=500):\n plt.title(f\"{p}-norms of solutions for lattice point quaternion polynomials\")\n plt.hist([sum(abs(x)**p for x in abcd)**(1/p) for abcd in solutions], bins=bins)", "def norm(self):\n return np.sqrt(np.dot(self._data, self._data))", "def calculate_error_l2_norm(self, dY):\n solutions = []\n norm = 0.\n for mi in range(len(self._meshes)):\n for ei in range(len(self._meshes[mi].elements)):\n e = self._meshes[mi].elements[ei]\n # change this to gauss points:\n x_vals, w = p_roots(20)\n norm_e_squared = 0.\n for i, x in enumerate(x_vals):\n norm_e_squared += w[i] * \\\n self.get_sol_value(mi, ei, dY, x,\n count_lift=False)**2\n norm_e_squared *= e.jacobian\n norm += norm_e_squared\n return sqrt(norm)", "def norm(self):\n # TODO: implement\n return", "def norm(self):\n mag_squared = self._sum_of_squares()\n return sqrt(mag_squared)", "def _convergence_criterion_simplified(self,points,_,log_prob_norm):\n return np.sum(log_prob_norm)", "def norm(self):\n self.assertTrue(np.allclose(self.vectors.norm('dog.n.01'), 0.97757602))\n self.assertTrue(np.allclose(self.vectors.norm('mammal.n.01'), 0.03914723))", "def normsq(self):\n return abs(sum(self._ar * self._ar))", "def norm(self):\n return np.linalg.norm(self.ravel())", "def _vector_norms(self, v):\n\n squared_norms = torch.sum(v * v, dim=2, keepdim=True)\n return torch.sqrt(squared_norms + _EPSILON)", "def sqnorm(v):\n res = 0\n for elt in v:\n for coef in elt:\n res += coef ** 2\n return res", "def norm( self):\n return self._norm", "def solutionStandardErrors(self):\n s2 = self.standardError2()\n res = [0]*self.n\n for i in range(self.n):\n try:\n res[i] = math.sqrt(s2*self.AtAinv[i,i])\n except ValueError:\n res[i] = float('nan')\n return res", "def norm(self):\n return math.sqrt(sum([x*x for x in self.mV]))", "def norm(self):\n norm = self.scalarProduct(self) ** 0.5\n return norm" ]

[ "0.8324788", "0.7253409", "0.7123311", "0.5990859", "0.5774027", "0.5561484", "0.5471691", "0.5438935", "0.5428926", "0.5412315", "0.54044545", "0.5353224", "0.5341129", "0.5296491", "0.5293551", "0.5284404", "0.52810794", "0.52686256", "0.52663827", "0.52657825", "0.52632594", "0.51878107", "0.5179478", "0.51713777", "0.51647294", "0.51545256", "0.5145927", "0.51366824", "0.5120614", "0.5120145" ]

[ "def getsolutionslice(self,whichsol_,solitem_,first_,last_,values): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if not isinstance(solitem_,solitem): raise TypeError(\"Argument solitem has wrong type\")\n _copyback_values = False\n if values is None:\n values_ = None\n else:\n try:\n values_ = memoryview(values)\n except TypeError:\n try:\n _tmparr_values = array.array(\"d\",values)\n except TypeError:\n raise TypeError(\"Argument values has wrong type\")\n else:\n values_ = memoryview(_tmparr_values)\n _copyback_values = True\n else:\n if values_.format != \"d\":\n values_ = memoryview(array.array(\"d\",values))\n _copyback_values = True\n if values_ is not None and len(values_) != ((last_) - (first_)):\n raise ValueError(\"Array argument values has wrong length\")\n res = self.__obj.getsolutionslice(whichsol_,solitem_,first_,last_,values_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_values:\n values[:] = _tmparr_values", "def getslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_slx = False\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n _copyback_slx = True\n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n _copyback_slx = True\n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.getslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slx:\n slx[:] = _tmparr_slx", "def getslcslice(self,whichsol_,first_,last_,slc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_slc = False\n if slc is None:\n slc_ = None\n else:\n try:\n slc_ = memoryview(slc)\n except TypeError:\n try:\n _tmparr_slc = array.array(\"d\",slc)\n except TypeError:\n raise TypeError(\"Argument slc has wrong type\")\n else:\n slc_ = memoryview(_tmparr_slc)\n _copyback_slc = True\n else:\n if slc_.format != \"d\":\n slc_ = memoryview(array.array(\"d\",slc))\n _copyback_slc = True\n if slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc has wrong length\")\n res = self.__obj.getslcslice(whichsol_,first_,last_,slc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_slc:\n slc[:] = _tmparr_slc", "def getslcslice(self,whichsol_,first_,last_,slc_):\n _slc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),((last_) - (first_))))\n if isinstance(slc_,numpy.ndarray) and not slc_.flags.writeable:\n raise ValueError(\"Argument slc must be writable\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_getslcslice(self.__nativep,whichsol_,first_,last_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slc_copyarray:\n slc_[:] = _slc_np_tmp", "def getxxslice(self,whichsol_,first_,last_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_xx = False\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n _copyback_xx = True\n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n _copyback_xx = True\n if xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.getxxslice(whichsol_,first_,last_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xx:\n xx[:] = _tmparr_xx", "def getyslice(self,whichsol_,first_,last_,y): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_y = False\n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n _copyback_y = True\n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n _copyback_y = True\n if y_ is not None and len(y_) != ((last_) - (first_)):\n raise ValueError(\"Array argument y has wrong length\")\n res = self.__obj.getyslice(whichsol_,first_,last_,y_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_y:\n y[:] = _tmparr_y", "def getslxslice(self,whichsol_,first_,last_,slx_):\n _slx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx is not long enough: Is %d, expected %d\" % (len(slx_),((last_) - (first_))))\n if isinstance(slx_,numpy.ndarray) and not slx_.flags.writeable:\n raise ValueError(\"Argument slx must be writable\")\n if isinstance(slx_, numpy.ndarray) and slx_.dtype is numpy.dtype(numpy.float64) and slx_.flags.contiguous:\n _slx_copyarray = False\n _slx_tmp = ctypes.cast(slx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slx_ is not None:\n _slx_copyarray = True\n _slx_np_tmp = numpy.zeros(len(slx_),numpy.dtype(numpy.float64))\n _slx_np_tmp[:] = slx_\n assert _slx_np_tmp.flags.contiguous\n _slx_tmp = ctypes.cast(_slx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slx_copyarray = False\n _slx_tmp = None\n \n res = __library__.MSK_XX_getslxslice(self.__nativep,whichsol_,first_,last_,_slx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _slx_copyarray:\n slx_[:] = _slx_np_tmp", "def getskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skx = False\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n _copyback_skx = True\n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n _copyback_skx = True\n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.getskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skx:\n for __tmp_var_0 in range(len(skx_)): skx[__tmp_var_0] = stakey(_tmparr_skx[__tmp_var_0])", "def getsnxslice(self,whichsol_,first_,last_,snx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_snx = False\n if snx is None:\n snx_ = None\n else:\n try:\n snx_ = memoryview(snx)\n except TypeError:\n try:\n _tmparr_snx = array.array(\"d\",snx)\n except TypeError:\n raise TypeError(\"Argument snx has wrong type\")\n else:\n snx_ = memoryview(_tmparr_snx)\n _copyback_snx = True\n else:\n if snx_.format != \"d\":\n snx_ = memoryview(array.array(\"d\",snx))\n _copyback_snx = True\n if snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx has wrong length\")\n res = self.__obj.getsnxslice(whichsol_,first_,last_,snx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_snx:\n snx[:] = _tmparr_snx", "def getxxslice(self,whichsol_,first_,last_,xx_):\n _xx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),((last_) - (first_))))\n if isinstance(xx_,numpy.ndarray) and not xx_.flags.writeable:\n raise ValueError(\"Argument xx must be writable\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n res = __library__.MSK_XX_getxxslice(self.__nativep,whichsol_,first_,last_,_xx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _xx_copyarray:\n xx_[:] = _xx_np_tmp", "def getyslice(self,whichsol_,first_,last_,y_):\n _y_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and y_ is not None and len(y_) != ((last_) - (first_)):\n raise ValueError(\"Array argument y is not long enough: Is %d, expected %d\" % (len(y_),((last_) - (first_))))\n if isinstance(y_,numpy.ndarray) and not y_.flags.writeable:\n raise ValueError(\"Argument y must be writable\")\n if isinstance(y_, numpy.ndarray) and y_.dtype is numpy.dtype(numpy.float64) and y_.flags.contiguous:\n _y_copyarray = False\n _y_tmp = ctypes.cast(y_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif y_ is not None:\n _y_copyarray = True\n _y_np_tmp = numpy.zeros(len(y_),numpy.dtype(numpy.float64))\n _y_np_tmp[:] = y_\n assert _y_np_tmp.flags.contiguous\n _y_tmp = ctypes.cast(_y_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _y_copyarray = False\n _y_tmp = None\n \n res = __library__.MSK_XX_getyslice(self.__nativep,whichsol_,first_,last_,_y_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _y_copyarray:\n y_[:] = _y_np_tmp", "def getskxslice(self,whichsol_,first_,last_,skx_):\n _skx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx is not long enough: Is %d, expected %d\" % (len(skx_),((last_) - (first_))))\n if isinstance(skx_,numpy.ndarray) and not skx_.flags.writeable:\n raise ValueError(\"Argument skx must be writable\")\n if skx_ is not None:\n _skx_tmp = (ctypes.c_int32 * len(skx_))()\n else:\n _skx_tmp = None\n res = __library__.MSK_XX_getskxslice(self.__nativep,whichsol_,first_,last_,_skx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skx_ is not None: skx_[:] = [ stakey(v) for v in _skx_tmp[0:len(skx_)] ]", "def getsucslice(self,whichsol_,first_,last_,suc_):\n _suc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc is not long enough: Is %d, expected %d\" % (len(suc_),((last_) - (first_))))\n if isinstance(suc_,numpy.ndarray) and not suc_.flags.writeable:\n raise ValueError(\"Argument suc must be writable\")\n if isinstance(suc_, numpy.ndarray) and suc_.dtype is numpy.dtype(numpy.float64) and suc_.flags.contiguous:\n _suc_copyarray = False\n _suc_tmp = ctypes.cast(suc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif suc_ is not None:\n _suc_copyarray = True\n _suc_np_tmp = numpy.zeros(len(suc_),numpy.dtype(numpy.float64))\n _suc_np_tmp[:] = suc_\n assert _suc_np_tmp.flags.contiguous\n _suc_tmp = ctypes.cast(_suc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _suc_copyarray = False\n _suc_tmp = None\n \n res = __library__.MSK_XX_getsucslice(self.__nativep,whichsol_,first_,last_,_suc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _suc_copyarray:\n suc_[:] = _suc_np_tmp", "def getsnxslice(self,whichsol_,first_,last_,snx_):\n _snx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and snx_ is not None and len(snx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument snx is not long enough: Is %d, expected %d\" % (len(snx_),((last_) - (first_))))\n if isinstance(snx_,numpy.ndarray) and not snx_.flags.writeable:\n raise ValueError(\"Argument snx must be writable\")\n if isinstance(snx_, numpy.ndarray) and snx_.dtype is numpy.dtype(numpy.float64) and snx_.flags.contiguous:\n _snx_copyarray = False\n _snx_tmp = ctypes.cast(snx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif snx_ is not None:\n _snx_copyarray = True\n _snx_np_tmp = numpy.zeros(len(snx_),numpy.dtype(numpy.float64))\n _snx_np_tmp[:] = snx_\n assert _snx_np_tmp.flags.contiguous\n _snx_tmp = ctypes.cast(_snx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _snx_copyarray = False\n _snx_tmp = None\n \n res = __library__.MSK_XX_getsnxslice(self.__nativep,whichsol_,first_,last_,_snx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _snx_copyarray:\n snx_[:] = _snx_np_tmp", "def getxcslice(self,whichsol_,first_,last_,xc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_xc = False\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n _copyback_xc = True\n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n _copyback_xc = True\n if xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc has wrong length\")\n res = self.__obj.getxcslice(whichsol_,first_,last_,xc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_xc:\n xc[:] = _tmparr_xc", "def getsucslice(self,whichsol_,first_,last_,suc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_suc = False\n if suc is None:\n suc_ = None\n else:\n try:\n suc_ = memoryview(suc)\n except TypeError:\n try:\n _tmparr_suc = array.array(\"d\",suc)\n except TypeError:\n raise TypeError(\"Argument suc has wrong type\")\n else:\n suc_ = memoryview(_tmparr_suc)\n _copyback_suc = True\n else:\n if suc_.format != \"d\":\n suc_ = memoryview(array.array(\"d\",suc))\n _copyback_suc = True\n if suc_ is not None and len(suc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument suc has wrong length\")\n res = self.__obj.getsucslice(whichsol_,first_,last_,suc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_suc:\n suc[:] = _tmparr_suc", "def getskcslice(self,whichsol_,first_,last_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_skc = False\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n _copyback_skc = True\n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n _copyback_skc = True\n if skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.getskcslice(whichsol_,first_,last_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_skc:\n for __tmp_var_0 in range(len(skc_)): skc[__tmp_var_0] = stakey(_tmparr_skc[__tmp_var_0])", "def getxcslice(self,whichsol_,first_,last_,xc_):\n _xc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),((last_) - (first_))))\n if isinstance(xc_,numpy.ndarray) and not xc_.flags.writeable:\n raise ValueError(\"Argument xc must be writable\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n res = __library__.MSK_XX_getxcslice(self.__nativep,whichsol_,first_,last_,_xc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _xc_copyarray:\n xc_[:] = _xc_np_tmp", "def getskcslice(self,whichsol_,first_,last_,skc_):\n _skc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),((last_) - (first_))))\n if isinstance(skc_,numpy.ndarray) and not skc_.flags.writeable:\n raise ValueError(\"Argument skc must be writable\")\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))()\n else:\n _skc_tmp = None\n res = __library__.MSK_XX_getskcslice(self.__nativep,whichsol_,first_,last_,_skc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if skc_ is not None: skc_[:] = [ stakey(v) for v in _skc_tmp[0:len(skc_)] ]", "def __getitem__(self, arg0: ngsolve.ngstd.IntRange) -> BaseVector:", "def getsuxslice(self,whichsol_,first_,last_,sux): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_sux = False\n if sux is None:\n sux_ = None\n else:\n try:\n sux_ = memoryview(sux)\n except TypeError:\n try:\n _tmparr_sux = array.array(\"d\",sux)\n except TypeError:\n raise TypeError(\"Argument sux has wrong type\")\n else:\n sux_ = memoryview(_tmparr_sux)\n _copyback_sux = True\n else:\n if sux_.format != \"d\":\n sux_ = memoryview(array.array(\"d\",sux))\n _copyback_sux = True\n if sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux has wrong length\")\n res = self.__obj.getsuxslice(whichsol_,first_,last_,sux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_sux:\n sux[:] = _tmparr_sux", "def putskxslice(self,whichsol_,first_,last_,skx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skx is None: raise TypeError(\"Invalid type for argument skx\")\n if skx is None:\n skx_ = None\n else:\n try:\n skx_ = memoryview(skx)\n except TypeError:\n try:\n _tmparr_skx = array.array(\"i\",skx)\n except TypeError:\n raise TypeError(\"Argument skx has wrong type\")\n else:\n skx_ = memoryview(_tmparr_skx)\n \n else:\n if skx_.format != \"i\":\n skx_ = memoryview(array.array(\"i\",skx))\n \n if skx_ is not None and len(skx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skx has wrong length\")\n res = self.__obj.putskxslice(whichsol_,first_,last_,skx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslxslice(self,whichsol_,first_,last_,slx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if slx is None: raise TypeError(\"Invalid type for argument slx\")\n if slx is None:\n slx_ = None\n else:\n try:\n slx_ = memoryview(slx)\n except TypeError:\n try:\n _tmparr_slx = array.array(\"d\",slx)\n except TypeError:\n raise TypeError(\"Argument slx has wrong type\")\n else:\n slx_ = memoryview(_tmparr_slx)\n \n else:\n if slx_.format != \"d\":\n slx_ = memoryview(array.array(\"d\",slx))\n \n if slx_ is not None and len(slx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slx has wrong length\")\n res = self.__obj.putslxslice(whichsol_,first_,last_,slx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsuxslice(self,whichsol_,first_,last_,sux_):\n _sux_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and sux_ is not None and len(sux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument sux is not long enough: Is %d, expected %d\" % (len(sux_),((last_) - (first_))))\n if isinstance(sux_,numpy.ndarray) and not sux_.flags.writeable:\n raise ValueError(\"Argument sux must be writable\")\n if isinstance(sux_, numpy.ndarray) and sux_.dtype is numpy.dtype(numpy.float64) and sux_.flags.contiguous:\n _sux_copyarray = False\n _sux_tmp = ctypes.cast(sux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif sux_ is not None:\n _sux_copyarray = True\n _sux_np_tmp = numpy.zeros(len(sux_),numpy.dtype(numpy.float64))\n _sux_np_tmp[:] = sux_\n assert _sux_np_tmp.flags.contiguous\n _sux_tmp = ctypes.cast(_sux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _sux_copyarray = False\n _sux_tmp = None\n \n res = __library__.MSK_XX_getsuxslice(self.__nativep,whichsol_,first_,last_,_sux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _sux_copyarray:\n sux_[:] = _sux_np_tmp", "def getbarsslice(self,whichsol_,first_,last_,slicesize_,barsslice_):\n _barsslice_minlength = (slicesize_)\n if (slicesize_) > 0 and barsslice_ is not None and len(barsslice_) != (slicesize_):\n raise ValueError(\"Array argument barsslice is not long enough: Is %d, expected %d\" % (len(barsslice_),(slicesize_)))\n if isinstance(barsslice_,numpy.ndarray) and not barsslice_.flags.writeable:\n raise ValueError(\"Argument barsslice must be writable\")\n if barsslice_ is None:\n raise ValueError(\"Argument barsslice may not be None\")\n if isinstance(barsslice_, numpy.ndarray) and barsslice_.dtype is numpy.dtype(numpy.float64) and barsslice_.flags.contiguous:\n _barsslice_copyarray = False\n _barsslice_tmp = ctypes.cast(barsslice_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif barsslice_ is not None:\n _barsslice_copyarray = True\n _barsslice_np_tmp = numpy.zeros(len(barsslice_),numpy.dtype(numpy.float64))\n _barsslice_np_tmp[:] = barsslice_\n assert _barsslice_np_tmp.flags.contiguous\n _barsslice_tmp = ctypes.cast(_barsslice_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _barsslice_copyarray = False\n _barsslice_tmp = None\n \n res = __library__.MSK_XX_getbarsslice(self.__nativep,whichsol_,first_,last_,slicesize_,_barsslice_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _barsslice_copyarray:\n barsslice_[:] = _barsslice_np_tmp", "def getbarxslice(self,whichsol_,first_,last_,slicesize_,barxslice_):\n _barxslice_minlength = (slicesize_)\n if (slicesize_) > 0 and barxslice_ is not None and len(barxslice_) != (slicesize_):\n raise ValueError(\"Array argument barxslice is not long enough: Is %d, expected %d\" % (len(barxslice_),(slicesize_)))\n if isinstance(barxslice_,numpy.ndarray) and not barxslice_.flags.writeable:\n raise ValueError(\"Argument barxslice must be writable\")\n if barxslice_ is None:\n raise ValueError(\"Argument barxslice may not be None\")\n if isinstance(barxslice_, numpy.ndarray) and barxslice_.dtype is numpy.dtype(numpy.float64) and barxslice_.flags.contiguous:\n _barxslice_copyarray = False\n _barxslice_tmp = ctypes.cast(barxslice_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif barxslice_ is not None:\n _barxslice_copyarray = True\n _barxslice_np_tmp = numpy.zeros(len(barxslice_),numpy.dtype(numpy.float64))\n _barxslice_np_tmp[:] = barxslice_\n assert _barxslice_np_tmp.flags.contiguous\n _barxslice_tmp = ctypes.cast(_barxslice_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _barxslice_copyarray = False\n _barxslice_tmp = None\n \n res = __library__.MSK_XX_getbarxslice(self.__nativep,whichsol_,first_,last_,slicesize_,_barxslice_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _barxslice_copyarray:\n barxslice_[:] = _barxslice_np_tmp", "def __getslice__(self, i, j):\n return self.dtrs[i:j]", "def putyslice(self,whichsol_,first_,last_,y): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if y is None: raise TypeError(\"Invalid type for argument y\")\n if y is None:\n y_ = None\n else:\n try:\n y_ = memoryview(y)\n except TypeError:\n try:\n _tmparr_y = array.array(\"d\",y)\n except TypeError:\n raise TypeError(\"Argument y has wrong type\")\n else:\n y_ = memoryview(_tmparr_y)\n \n else:\n if y_.format != \"d\":\n y_ = memoryview(array.array(\"d\",y))\n \n if y_ is not None and len(y_) != ((last_) - (first_)):\n raise ValueError(\"Array argument y has wrong length\")\n res = self.__obj.putyslice(whichsol_,first_,last_,y_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def __getslice__(self, i, j):\n return self.__getitem__(slice(i,j))", "def __getitem__(self, item: slice | tuple):\n if isinstance(item, slice):\n start, stop = item.start, item.stop\n if start is None:\n start = 0\n if stop is None:\n stop = maxsize\n if start > stop:\n raise IndexError(\"make sure start <= stop\")\n return self.query(Orthotope([Interval(start, stop)]))\n elif isinstance(item, tuple):\n pass\n else:\n raise TypeError(f\"unrecognized index {item}\")" ]

[ "0.87597924", "0.65897465", "0.65460825", "0.652142", "0.64466506", "0.6407843", "0.6392543", "0.6389086", "0.638142", "0.62045497", "0.6178242", "0.615228", "0.614273", "0.6135625", "0.61208415", "0.6096903", "0.6052912", "0.59870696", "0.5830406", "0.5768767", "0.573988", "0.573773", "0.57262605", "0.5696111", "0.5678401", "0.567407", "0.5673464", "0.5643792", "0.5577825", "0.5575645" ]

[ "def getreducedcosts(self,whichsol_,first_,last_,redcosts): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n _copyback_redcosts = False\n if redcosts is None:\n redcosts_ = None\n else:\n try:\n redcosts_ = memoryview(redcosts)\n except TypeError:\n try:\n _tmparr_redcosts = array.array(\"d\",redcosts)\n except TypeError:\n raise TypeError(\"Argument redcosts has wrong type\")\n else:\n redcosts_ = memoryview(_tmparr_redcosts)\n _copyback_redcosts = True\n else:\n if redcosts_.format != \"d\":\n redcosts_ = memoryview(array.array(\"d\",redcosts))\n _copyback_redcosts = True\n if redcosts_ is not None and len(redcosts_) != ((last_) - (first_)):\n raise ValueError(\"Array argument redcosts has wrong length\")\n res = self.__obj.getreducedcosts(whichsol_,first_,last_,redcosts_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_redcosts:\n redcosts[:] = _tmparr_redcosts", "def calculateCost(self,sol,weights):\n\t\treturn sum([x.value*y if x != None else 0 \\\n\t\t\t\t\tfor x,y in zip(sol,weights)])", "def solve_constraint_propagate_reduced_domains(problem) :\n q = [problem]\n extCount = 0\n while len(q)!=0:\n removed = q[0]\n q = q[1:]\n extCount+=1\n if has_empty_domains(removed) or check_all_constraints(removed)==False:\n continue\n if len(removed.unassigned_vars)==0:\n return (removed.assigned_values,extCount)\n \n var = removed.pop_next_unassigned_var()\n extensions = []\n for val in removed.get_domain(var):\n csp_new = removed.copy()\n csp_new.set_assigned_value(var,val)\n domain_reduction(csp_new,[var])\n extensions.append(csp_new)\n \n q = extensions + q\n return (None,extCount)", "def fixed_cost(self):\n return np.einsum('i->', self.c[self.f])", "def objective_constraints(self, variables, mask, load, generation, reservations=None):\n constraint_list = []\n constraint_list += [cvx.NonPos(-variables['regu_c'])]\n constraint_list += [cvx.NonPos(-variables['regd_c'])]\n constraint_list += [cvx.NonPos(-variables['regu_d'])]\n constraint_list += [cvx.NonPos(-variables['regd_d'])]\n # p = opt_vars['dis'] - opt_vars['ch']\n # constraint_list += [cvx.NonPos(opt_vars['regd_d'] - cvx.pos(p))]\n # constraint_list += [cvx.NonPos(opt_vars['regu_c'] - cvx.neg(p))]\n if self.combined_market:\n constraint_list += [cvx.Zero(variables['regd_d'] + variables['regd_c'] - variables['regu_d'] - variables['regu_c'])]\n\n return constraint_list", "def calculate_costs(self):\n cost_matrix = self.make_cost_matrix()\n \n if self.greedy:\n # Riesen et al., \"Greedy Graph Edit Distance\"\n costs = []\n psi = []\n \n for row in range(self.N):\n phi = self.M\n row_min = sys.maxint\n for column in range(self.N+self.M):\n if column not in psi:\n if cost_matrix[row, column] < row_min:\n row_min = cost_matrix[row, column]\n phi = column\n \n costs.append(row_min)\n if phi < self.M:\n psi.append(phi)\n \n for row in range(self.N, self.N+self.M):\n if (row - self.N) not in psi:\n costs.append(cost_matrix[row, row - self.N])\n else:\n # Riesen & Bunke, \"Approximate graph edit distance computation by means of bipartite graph matching\"\n row_ind, col_ind = optimize.linear_sum_assignment(cost_matrix)\n \n if self.verbose:\n for row, column in (row_ind, col_ind):\n value = cost_matrix[row, column]\n print '%d, %d, %.4f' % (row, column, value)\n \n return row_ind, col_ind, cost_matrix[row_ind, col_ind]", "def return_quadratic_cost_function_expansion_variables(\n X,U,dt,\n RunningCost=\"Minimize Input Energy\"):\n\n if type(RunningCost)==str:\n assert RunningCost in ['Minimize Input Energy',\n 'Minimize time away from target angle',\n 'Minimize time away from target angular velocity'],\\\n \"RunningCost must be either 'Minimize Input Energy','Minimize time away from target angle', or 'Minimize time away from target angular velocity'.\"\n else:\n assert type(RunningCost)==list, \"RunningCost must be a list of cost types.\"\n for el in RunningCost:\n assert type(el)==str, \"Each element of RunningCost must be a string. Not \" + str(type(el)) + \".\"\n assert el in ['Minimize Input Energy',\n 'Minimize time away from target angle',\n 'Minimize time away from target angular velocity'],\\\n \"Each element of RunningCost must be either 'Minimize Input Energy','Minimize time away from target angle', or 'Minimize time away from target angular velocity'. '\" + el + \"' not accepted.\"\n\n # returns a list of length len(Time)-1, each element with shape (1,1), where n is the number of states.\n l_func = return_l_func(RunningCost=RunningCost)\n l = list(\n map(\n lambda X,U: l_func(X,U,dt),\n X[:,1:].T,\n U\n )\n )\n\n # returns a list of length len(Time)-1, each element with shape (n,1), where n is the number of states.\n lx_func = return_lx_func(RunningCost=RunningCost)\n lx = list(\n map(\n lambda X,U: lx_func(X,U,dt),\n X[:,1:].T,\n U\n )\n )\n\n # returns a list of length len(Time)-1, each element with shape (m,1), where n is the number of states.\n lu_func = return_lu_func(RunningCost=RunningCost)\n lu = list(\n map(\n lambda X,U: lu_func(X,U,dt),\n X[:,1:].T,\n U\n )\n )\n\n # returns a list of length len(Time)-1, each element with shape (m,n), where m is the number of inputs and n is the number of states.\n lux_func = return_lux_func(RunningCost=RunningCost)\n lux = list(\n map(\n lambda X,U: lux_func(X,U,dt),\n X[:,1:].T,\n U\n )\n )\n\n # returns a list of length len(Time)-1, each element with shape (n,m), where n is the number of states and m is the number of inputs.\n lxu_func = return_lxu_func(RunningCost=RunningCost)\n lxu = list(\n map(\n lambda X,U: lxu_func(X,U,dt),\n X[:,1:].T,\n U\n )\n )\n\n # returns a list of length len(Time)-1, each element with shape (m,m), where m is the number of inputs.\n luu_func = return_luu_func(RunningCost=RunningCost)\n luu = list(\n map(\n lambda X,U: luu_func(X,U,dt),\n X[:,1:].T,\n U\n )\n )\n\n # returns a list of length len(Time)-1, each element with shape (n,n), where n is the number of states.\n lxx_func = return_lxx_func(RunningCost=RunningCost)\n lxx = list(\n map(\n lambda X,U: lxx_func(X,U,dt),\n X[:,1:].T,\n U\n )\n )\n\n return(l,lx,lu,lux,lxu,luu,lxx)", "def combined_costs(matrix_MSLL_IO):\r\n return", "def total_cost(self):\n return np.einsum('i->', self.c[self.s])", "def calc(self, demands: Demand, routing: Routing) -> np.ndarray:\n total_utilisation = np.zeros((self.num_nodes, self.num_nodes),\n dtype=float)\n\n for commodity_idx in range(len(self.commodities)):\n utilisation = self.calc_demand(routing,\n demands[commodity_idx],\n commodity_idx)\n total_utilisation += utilisation\n\n return np.max(np.divide(total_utilisation, self.edge_capacities))", "def _construct_reg_costs(self):\n param_reg_cost = sum([T.sum(p**2.0) for p in self.joint_params])\n return param_reg_cost", "def min_error_removed_linear_constraints(self):\n n_e_vars = len(self.removed_linear_constraints) * 2\n\n # Add a pair of (continuous) variables e+ >= 0 and e- >= 0, for each (removed) conflicting constraint\n eplus_vars = self.add_variables(n_variables=n_e_vars / 2, lb=0, var_type=\"continuous\")\n eminus_vars = self.add_variables(n_variables=n_e_vars / 2, lb=0, var_type=\"continuous\")\n\n print self.n_tuple_variables\n print len(eplus_vars)\n print len(eminus_vars)\n assert isinstance(self.problem, cplex.Cplex)\n print \"n binaries\", self.problem.variables.get_num_binary()\n print \"n all\", self.problem.variables.get_num()\n print \"n integers\", self.problem.variables.get_num_integer()\n\n # Set objective coefficients of e variables all to 1 (if minimization, otherwise -1)\n if self.problem.objective.get_sense() == cplex.Cplex.objective.sense.minimize:\n self.problem.objective.set_linear(izip(chain(eplus_vars, eminus_vars), repeat(1, n_e_vars)))\n else:\n self.problem.objective.set_linear(izip(chain(eplus_vars, eminus_vars), repeat(-1, n_e_vars)))\n\n adding_constraints = list()\n\n # For minimizing error in SUM(attr) for each attr in the query package\n for i, lc in enumerate(self.removed_linear_constraints):\n def get_coeff_function(_ugc):\n yield 1\n yield -1\n for coeff in self.get_aggregate_constraint_coefficients(_ugc.aggr, _ugc.attr):\n yield coeff\n\n def get_vars_function(_i):\n yield eplus_vars[_i]\n yield eminus_vars[_i]\n for var in self.tuple_variables:\n yield var\n\n lc = LinearConstraint(\n cid=self.new_constraint_id(),\n vals_func=(get_coeff_function, (lc.ugc,)),\n vars_func=(get_vars_function, (i,)),\n op=operator.eq,\n rhs=lc.rhs)\n\n print \"VALS\", lc.get_coeff_function\n print \"VARS\", lc.get_vars_function\n\n adding_constraints.append(lc)\n\n self.add_linear_constraints(adding_constraints)", "def getRealCosts(corpus='corpus.txt'):\n \n _realUnigramCost, _realBigramCost, _possibleFills = None, None, None\n if _realUnigramCost is None:\n print('Training language cost functions [corpus: '+ corpus+']... ')\n \n _realUnigramCost, _realBigramCost = util.makeLanguageModels(corpus)\n _possibleFills = util.makeInverseRemovalDictionary(corpus, 'aeiou')\n\n print('Done!')\n\n return _realUnigramCost, _realBigramCost, _possibleFills", "def compute_cost(self, del_u : list, u : list):\n print(\"ym: \", self.ym, \"yn: \", self.yn)\n self.cost = 0.0\n\n self.ym = self.d_model.ym\n self.yn = self.d_model.yn\n\n # FIXME : this is supposed to be from N1 to N2\n self.cost+= (self.ym[0] - self.yn[0])\n angle_diff = (self.ym[1] - self.yn[1])\n if angle_diff > np.pi:\n angle_diff -= 2*np.pi\n if angle_diff < -np.pi:\n angle_diff += 2*np.pi\n self.cost += angle_diff\n\n for j in range(self.Nu):\n self.cost += (self.ym[j] - self.yn[j])**2\n\n for j in range(self.Nu):\n self.cost += self.lambd[j]*(del_u[j])**2\n\n for j in range(self.Nu):\n self.cost += self.s / (u[j] + self.r / 2.0 - self.b) + self.s / (self.r/2.0 + self.b - u[j]) - 4.0 / self.r\n\n return self.cost", "def sol_cost ( S, D, R ) :\n\tmask = array([0]* len(R))\n\tmask[R>0] = 1\n\tmaxerr = max(mask * abs(S - D))\n\tmeanerr = float(sum(mask * abs(S - D)))\n\tmeanerr /= sum(mask)\n\t\n\treturn (sum(R * (S - D)**2),maxerr,meanerr)", "def optimize_reference(self, num_targets):\n \n target_weights = np.ones(num_targets)\n target_weights = target_weights/sum(target_weights)\n \n #target_weights = [0.8,0.2]\n\n x0 = np.asarray(np.insert(np.zeros(self._refs.shape[0]-len(target_weights)),0,target_weights))\n print(x0)\n \n # num_weights = self._refs.shape[0]\n # x0 = np.ones(num_weights)/sum(np.ones(num_weights))\n\n #x0 = np.asarray([0.8,0.2,0,0,0,0,0,0])\n\n assert num_targets >= 1, 'num_targets >= 1'\n assert num_targets <= len(x0), 'num_targets < len(x0)'\n\n\n lsq = sciopt.least_squares(self.residual, \n x0, \n #args=(np.reshape(self._true, (1,36)), num_targets), \n args=(self._true, num_targets), \n bounds=(0,1), \n method='trf', \n tr_solver='lsmr', \n diff_step=0.1, \n loss='soft_l1',\n tr_options={'damp':1.0},\n ftol=1e-6,\n verbose=2) #diff_step=0.2, verbose=2)#, loss='linear')\n\n return (lsq.x/sum(lsq.x), lsq)", "def final_cost(self, x):\n return self.x_M_x(x[-1,:,:],self.R)", "def opt(self, demands: Demand) -> float:\n # Create the linear solver with the GLOP backend.\n solver = pywraplp.Solver('multicommodity_flow_lp',\n pywraplp.Solver.GLOP_LINEAR_PROGRAMMING)\n\n ## VARIABLES\n # Flow variables, the splitting ratios for each edge\n # Stored as a list of lists (flow_variables[ith_flow][jth_edge])\n flow_variables = []\n for i in range(len(self.commodities)):\n flow_variable_edges = []\n for j in range(self.num_edges):\n flow_variable_edges.append(\n solver.NumVar(0, 1, '({},{})'.format(i, j)))\n flow_variables.append(flow_variable_edges)\n\n ## CONSTRAINTS\n # Capacity constraint\n capacity_constraints = []\n for i, edge in enumerate(self.edges):\n # Constraint between 0 and edge capacity\n constraint_i = solver.Constraint(\n 0, self.graph.get_edge_data(*edge)['weight'],\n '(1,{},{})'.format(*edge))\n for j, commodity in enumerate(self.commodities):\n # Coefficient for jth flow over ith edge is scaled by flow width\n constraint_i.SetCoefficient(flow_variables[j][i],\n # cast because or-tools :'(\n float(demands[j]))\n capacity_constraints.append(constraint_i)\n\n # Conservation on transit nodes\n conservation_transit_constraints = []\n for i, commodity in enumerate(self.commodities):\n constraints_flow_i = []\n for j in range(self.num_nodes):\n if j != commodity[0] and j != commodity[1]:\n # Constraint must sum to zero\n constraint_j = solver.Constraint(0, 0,\n '(2,{},{})'.format(i, j))\n for k in list(sorted(self.graph.adj[j].keys())):\n # Ingress edges\n constraint_j.SetCoefficient(\n flow_variables[i][self.edge_index_dict[(k, j)]], 1)\n # Egress edges\n constraint_j.SetCoefficient(\n flow_variables[i][self.edge_index_dict[(j, k)]], -1)\n constraints_flow_i.append(constraint_j)\n conservation_transit_constraints.append(constraints_flow_i)\n\n # Conservation of flow at source node\n conservation_source_constraints = []\n for i, commodity in enumerate(self.commodities):\n # Constraint must sum to one (assuming all the demand can be met)\n constraint_i = solver.Constraint(1, 1, '(3,{})'.format(i))\n for edge_dest in list(sorted(self.graph.adj[commodity[0]].keys())):\n constraint_i.SetCoefficient(\n flow_variables[i][\n self.edge_index_dict[(commodity[0], edge_dest)]],\n 1)\n constraint_i.SetCoefficient(\n flow_variables[i][\n self.edge_index_dict[(edge_dest, commodity[0])]],\n -1)\n conservation_source_constraints.append(constraint_i)\n\n # Conservation of flow at destination node\n conservation_dest_constraints = []\n for i, commodity in enumerate(self.commodities):\n # Constraint must sum to one (assuming all the demand can be met)\n constraint_i = solver.Constraint(1, 1, '(4,{})'.format(i))\n for edge_dest in list(sorted(self.graph.adj[commodity[1]].keys())):\n constraint_i.SetCoefficient(\n flow_variables[i][\n self.edge_index_dict[(edge_dest, commodity[1])]],\n 1)\n constraint_i.SetCoefficient(\n flow_variables[i][\n self.edge_index_dict[(commodity[1], edge_dest)]],\n -1)\n conservation_dest_constraints.append(constraint_i)\n\n ## OBJECTIVES\n # Implementation of the load-balancing example from Wikipedia\n # First we add more constraints so that we are minimising the maximum\n max_utilisation_variable = solver.NumVar(0, solver.Infinity(),\n 'max_link_utilisation')\n min_of_max_constraints = []\n for i, edge in enumerate(self.edges):\n # Constraint that '-inf < f_0 + f_1 +... - max < 0'\n # i.e 'f_0 + f_1 + ... < max'\n constraint_i = solver.Constraint(-solver.Infinity(), 0,\n '(5,{})'.format(i))\n constraint_i.SetCoefficient(max_utilisation_variable, -1)\n for j, flow_variable in enumerate(flow_variables):\n constraint_i.SetCoefficient(flow_variable[i],\n demands[j] /\n self.graph.get_edge_data(*edge)[\n 'weight'])\n min_of_max_constraints.append(constraint_i)\n\n # Objective now is to minimise the maximum link utilisation\n objective = solver.Objective()\n objective.SetCoefficient(max_utilisation_variable, 1)\n objective.SetMinimization()\n solver.Solve()\n\n return objective.Value()", "def _reduce(self, x, y):\n ind = self.ind_\n n_samples, n_features = x.shape\n n_features_selected = sum(ind)\n\n for _ in range(self.iters, self.max_iter):\n if np.count_nonzero(ind) == 0:\n warnings.warn(\n \"Sparsity parameter is too big ({}) and eliminated all coeficients\".format(self.threshold)\n )\n coef = np.zeros_like(ind, dtype=float)\n break\n\n coef = self._regress(x[:, ind], y, self.alpha)\n coef, ind = self._sparse_coefficients(n_features, ind, coef, self.threshold)\n\n if sum(ind) == n_features_selected or self._no_change():\n # could not (further) select important features\n break\n else:\n warnings.warn(\n \"STRidge._reduce did not converge after {} iterations.\".format(self.max_iter),\n ConvergenceWarning,\n )\n try:\n coef\n except NameError:\n coef = self.coef_\n warnings.warn(\"STRidge._reduce has no iterations left to determine coef\", ConvergenceWarning)\n self.coef_ = coef\n self.ind_ = ind", "def return_terminal_cost_func(TerminalCost='Minimize final angle',\n ReturnGradientAndHessian=False):\n if type(TerminalCost)==str:\n assert TerminalCost in ['Minimize final angle from target angle',\n 'Minimize final angular velocity from target angular velocity'],\\\n \"TerminalCost must be either 'Minimize final angle from target angle' (Default), 'Minimize final angular velocity from target angular velocity'.\"\n else:\n assert type(TerminalCost)==list, \"TerminalCost must be a list of cost types.\"\n for el in TerminalCost:\n assert type(el)==str, \"Each element of TerminalCost must be a string. Not \" + str(type(el)) + \".\"\n assert el in ['Minimize final angle from target angle',\n 'Minimize final angular velocity from target angular velocity'],\\\n \"Each element of TerminalCost must be either 'Minimize final angle from target angle' (Default), 'Minimize final angular velocity from target angular velocity'. '\" + el + \"' not accepted.\"\n\n if \"Minimize final angle from target angle\" in TerminalCost:\n result1 = lambda X,U,dt: k4*(1/2)*(X[0,-1]-TargetAngle)**2\n result1_grad = lambda X,U,dt:\\\n np.matrix([[k4*(X[0,-1]-TargetAngle)],[0]])\n result1_hess = lambda X,U,dt: np.matrix([[k4*1,0],[0,0]])\n else:\n result1 = lambda X,U,dt: 0\n result1_grad = lambda X,U,dt:\\\n np.matrix([[0],[0]])\n result1_hess = lambda X,U,dt: np.matrix([[0,0],[0,0]])\n\n if \"Minimize final angular velocity from target angular velocity\" in TerminalCost:\n result2 = lambda X,U,dt: k5*(1/2)*(X[1,-1]-TargetAngularVelocity)**2\n result2_grad = lambda X,U,dt:\\\n np.matrix([[0],[k5*(X[1,-1]-TargetAngularVelocity)]])\n result2_hess = lambda X,U,dt: np.matrix([[0,0],[0,k5*1]])\n else:\n result2 = lambda X,U,dt: 0\n result2_grad = lambda X,U,dt:\\\n np.matrix([[0],[0]])\n result2_hess = lambda X,U,dt: np.matrix([[0,0],[0,0]])\n\n result = lambda X,U,dt: result1(X,U,dt) \\\n + result2(X,U,dt)\n if ReturnGradientAndHessian:\n result_grad = lambda X,U,dt: result1_grad(X,U,dt) \\\n + result2_grad(X,U,dt)\n result_hess = lambda X,U,dt: result1_hess(X,U,dt) \\\n + result2_hess(X,U,dt)\n return(result,result_grad,result_hess)\n else:\n return(result)", "def get_cost(rnn_model, seqs, vocab_size):\n seqs_oh_X = rnn.get_one_hot(seqs, vocab_size, vocab_size-1, \n shift_left=True)\n seqs_oh_Y = rnn.get_one_hot(seqs, vocab_size, vocab_size-1, \n shift_left=False) \n rnn_model.forward_pass(seqs_oh_X)\n cost = rnn_model.compute_cost(seqs_oh_Y, rnn_model.y_hats)\n return cost", "def _calculate_costs(self):\n cost = 0\n cost += self._cost_route_fine()\n cost += self._cost_petrol()\n cost += self._cost_wage()\n cost += self._cost_refueling()\n cost += self._cost_caught_by_police()\n cost += self._cost_vehicle_malfunction()\n return cost", "def solve_constraint_propagate_reduced_domains(problem) :\n agenda=[problem]\n extension=0\n current_prob=agenda.pop(0)\n extension+=1\n\n #check failure\n if has_empty_domains(current_prob) or (not check_all_constraints(current_prob)):\n return (None, extension)\n\n #check success\n all_assigned=True\n variables = current_prob.get_all_variables()\n for var in variables:\n if current_prob.get_assigned_value(var)==None:\n all_assigned=False\n break\n if all_assigned:\n return (current_prob.assigned_values,extension)\n\n #iteration\n next_un_var=current_prob.pop_next_unassigned_var()\n next_domain=current_prob.get_domain(next_un_var)\n new_probs=[]\n for val in next_domain:\n temp=current_prob.copy()\n new=temp.set_assigned_value(next_un_var,val)\n\n queue=[next_un_var]\n domain_reduction(new,queue)\n\n new_probs.append(new)\n agenda=new_probs+agenda\n while (len(agenda)!=0):\n new_prob = agenda.pop(0)\n result=solve_constraint_propagate_reduced_domains(new_prob)\n extension+=result[1]\n if not result[0] is None:\n return (result[0],extension)\n return (None,extension)", "def eval_cost(self, params, **kwargs):\n raise NotImplementedError", "def getCosts(self):\n return self.costs", "def get_cost(self) -> numpy.ndarray:\n def product(*args, repeat=1):\n # product('ABCD', 'xy') --> Ax Ay Bx By Cx Cy Dx Dy\n # product(range(2), repeat=3) --> 000 001 010 011 100 101 110 111\n pools = [list(pool) for pool in args] * repeat\n result = [[]]\n for pool in pools:\n result = [x + [y] for x in result for y in pool]\n for prod in result:\n yield list(prod)\n\n # Number of edges\n M = self.num_edges\n # Number of nodes\n N = self.num_nodes\n # Adjacency matrix\n A = networkx.adjacency_matrix(self.graph).todense()\n\n # Generate a list of all possible n‐tuples of elements from {1,-1} and\n # organize them as a (2^n x n) matrix. In other words create all\n # possible solutions to the problem.\n s = numpy.array(list(product([1, -1], repeat=N)))\n\n # Construct the the cost function for Max Cut: C=1/2*Sum(Z_i*Z_j)-M/2\n # Note: This is the minimization version\n return 1 / 2 * (numpy.diag([email protected](A)@s.T) - M)", "def substitute_cost(self, i, j):\n raise NotImplementedError", "def deriv_costFunction(self, x, y):\n self.yEst = self.forward_propagate(x)\n\n delta_o = np.multiply( ( self.yEst - y ), self.deriv_sigmoid(self.z_o) )\n #partial deriv of cost wrt hidden -> output weights\n partial_J_w_ho = np.dot( self.a_h.T, delta_o )\n\n ones_o = np.ones( delta_o.shape[0] )\n #partial deriv of cost wrt output biases\n partial_J_b_o = np.dot( ones_o, delta_o )\n\n delta_h = np.dot( delta_o, self.w_ho.T ) * self.deriv_sigmoid( self.z_h )\n #partial deriv of cost wrt input -> hidden weights\n partial_J_w_ih = np.dot( x.T, delta_h )\n \n ones_h = np.ones( delta_h.shape[0] )\n #partial deriv of cost wrt hidden biases\n partial_J_b_h = np.dot( ones_h, delta_h)\n\n return partial_J_w_ih, partial_J_w_ho, partial_J_b_h, partial_J_b_o", "def get_expected_cost(self):", "def costFun(self, S, x):" ]

[ "0.8526416", "0.5733916", "0.5447237", "0.535488", "0.5351056", "0.5340395", "0.5331999", "0.533112", "0.523295", "0.5223164", "0.52220964", "0.5167097", "0.51390874", "0.5138091", "0.5131547", "0.51277804", "0.5109994", "0.5080163", "0.5077774", "0.5056903", "0.5050309", "0.50263864", "0.5025255", "0.50151134", "0.50128615", "0.49801958", "0.4970778", "0.49664998", "0.49447927", "0.49435624" ]

[ "def getStrParam(self, paramkey, default=None):\n value = self.request.getParameter(paramkey)\n if value is None: return default\n return value", "def getstrparam(self,param_): # 3\n if not isinstance(param_,sparam): raise TypeError(\"Argument param has wrong type\")\n maxlen_ = (1 + self.getstrparamlen((param_)))\n arr_parvalue = array.array(\"b\",[0]*((maxlen_)))\n memview_arr_parvalue = memoryview(arr_parvalue)\n res,resargs = self.__obj.getstrparam(param_,maxlen_,memview_arr_parvalue)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _len_return_value,retarg_parvalue = resargs\n retarg_parvalue = arr_parvalue.tobytes()[:-1].decode(\"utf-8\",errors=\"ignore\")\n return _len_return_value,retarg_parvalue", "def get_param(self, param):\n return self.params.get(param, None)", "def getParam(self,param):\n if param in self.params.keys():\n return self.params[param]\n else:\n return None", "def get_param_as_string(self):\n\t\treturn call_sdk_function('PrlResult_GetParamAsString', self.handle)", "def gui_get_param(self,param_name):\n return self._tkvars[param_name].get()", "def putstrparam(self,param_,parvalue_): # 3\n if not isinstance(param_,sparam): raise TypeError(\"Argument param has wrong type\")\n res = self.__obj.putstrparam(param_,parvalue_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def get_param_with_name(self, param_name):\n return self.params[param_name]", "def get_param(param):\n try:\n return get_param_server().getParam(param)\n except socket.error:\n raise RosParamIOException(\"Unable to communicate with master!\")", "def getParam(self, params, name):\n return params.get(name)", "def getCgiParameter(param,nvl=''):\n query_string = os.environ['QUERY_STRING']\n parsed = parse_qs(query_string)\n retval = parsed.get(param)\n if retval is None: \n return None\n else:\n return retval[0]", "def get_param(self, param_name):\n if hasattr(self, param_name):\n return getattr(self, param_name)\n else:\n return None", "def get_parameter(self, param):\n try:\n result = self._data[\"queryResult\"][\"parameters\"][param]\n except KeyError:\n result = None\n\n return result", "def getParameter(self, name):", "def get_parameter(key):\n if key in param_dict:\n # was a supplied parameter\n param = param_dict.get(key)\n elif module and hasattr(module, key):\n param = getattr(module, key)\n if hasattr(param, \"__call__\"):\n # we don't allow module methods\n raise Exception()\n elif attr_getter:\n # get value from attr_getter function\n try:\n param = attr_getter(key)\n except: # noqa e722\n raise Exception()\n else:\n raise Exception()\n if isinstance(param, Composite):\n if param.text():\n param = param.copy()\n else:\n param = \"\"\n return param", "def get_param(name, default=''):\n return request.GET.get(name, default).strip()", "def _get_one_param(self, param_name):\n return getattr(self, '__' + param_name)", "def get_param(self, param_name, memo=None):\n # Cast param_name to str once, for convenience:\n # (This is needed because Parameter members are Enum objects,\n # which can't be used in place of string-valued indexes)\n param_name = str(param_name)\n explicit_attr = getattr(self, param_name)\n if explicit_attr is not None:\n return explicit_attr\n else:\n return self.build_param(param_name, memo=memo)", "def get_parameter(cur, par):\n cur.execute(\"SELECT value FROM parameters WHERE par='%s';\" % par)\n return cur.fetchone()[0]", "def putstrparam(self,param_,parvalue_):\n if isinstance(parvalue_,unicode):\n parvalue_ = parvalue_.encode(\"utf-8\",errors=\"replace\")\n res = __library__.MSK_XX_putstrparam(self.__nativep,param_,parvalue_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getStr( self, par, path ):\n\n return self.db.getStrPar( par, path )", "def param_value(self):\n if self.string:\n return self.string\n if self.token:\n return self.token\n if self.number:\n return self.number\n if self.date:\n return self.date\n if self.quantity:\n return self.quantity\n if self.reference:\n return self.reference\n return ''", "def getstrparamlen(self,param_):\n len_ = ctypes.c_int32()\n res = __library__.MSK_XX_getstrparamlen(self.__nativep,param_,ctypes.byref(len_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n len_ = len_.value\n _len_return_value = len_\n return (_len_return_value)", "def get_string(self, **kwargs):\n ...", "def get_param(self, parameter):\n if self.c.get(1).get('data'):\n return self.c.get(1).data.get(parameter, None)\n return None", "def check_param(param):\n return PREPEND_STR+param if keyword.iskeyword(param) else param", "def get_parameter(par_name):\r\n config_file = open('./config.txt', 'r')\r\n lines = config_file.readlines()\r\n for line in lines:\r\n line = line.rstrip('\\n\\r')\r\n if line.startswith(par_name):\r\n return line.split('=')[1]", "def get_param(self):\n\t\treturn handle_to_object(call_sdk_function('PrlResult_GetParam', self.handle))", "def get_param( self, param, default=None, header='content-type', unquote=1, decode=None ):\n param = _Message.get_param( self, param, default, header, unquote )\n\n if type(param) is TupleType:\n return '' # TODO\n\n #if param is default or not decode:\n # return param\n\n # XXX why is this commented out???\n #return recode_header( param, self._hint_charset )\n\n # XXX _get_params_preserve does not support Header objects\n return param", "def get_parameter(request, param):\n if param == \"Params\":\n return request.split(\"\\r\\n\\r\\n\")[1]\n if isinstance(param, type([])):\n return [request.split(\"\\r\\n\\r\\n\")[1] if x == \"Param\" else request.split(x + \": \")[1].split(\"\\r\\n\")[0] for x in param]\n if isinstance(param, type(\"\")):\n return request.split(param + \": \")[1].split(\"\\r\\n\")[0]" ]

[ "0.7935466", "0.7634089", "0.7359659", "0.720644", "0.67880225", "0.67430836", "0.6694598", "0.6593283", "0.65884066", "0.6575903", "0.6563992", "0.65217215", "0.6457357", "0.6379218", "0.63673365", "0.63578653", "0.63423514", "0.6282078", "0.62551343", "0.6241636", "0.6197033", "0.6145352", "0.614268", "0.61416507", "0.61407185", "0.6137264", "0.6133058", "0.6131445", "0.6127324", "0.61266357" ]

[ "def getstrparamlen(self,param_): # 3\n if not isinstance(param_,sparam): raise TypeError(\"Argument param has wrong type\")\n res,resargs = self.__obj.getstrparamlen(param_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _len_return_value = resargs\n return _len_return_value", "def getstrparam(self,param_):\n maxlen_ = (1 + self.getstrparamlen((param_)))\n len_ = ctypes.c_int32()\n parvalue_ = (ctypes.c_char * (maxlen_))()\n res = __library__.MSK_XX_getstrparam(self.__nativep,param_,maxlen_,ctypes.byref(len_),parvalue_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n len_ = len_.value\n _len_return_value = len_\n _parvalue_retval = parvalue_.value.decode(\"utf-8\",errors=\"replace\")\n return (_len_return_value,_parvalue_retval)", "def get_string_length(self):\n return int(self.read('H')[0])", "def parse_len_token(self, token, context):\n match = Ftype_character.len_token_re.match(token)\n if match is not None:\n return match.group(1)\n else:\n raise ParseSyntaxError(\"length type-param-value\", token=token, context=context)", "def getstrparam(self,param_): # 3\n if not isinstance(param_,sparam): raise TypeError(\"Argument param has wrong type\")\n maxlen_ = (1 + self.getstrparamlen((param_)))\n arr_parvalue = array.array(\"b\",[0]*((maxlen_)))\n memview_arr_parvalue = memoryview(arr_parvalue)\n res,resargs = self.__obj.getstrparam(param_,maxlen_,memview_arr_parvalue)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _len_return_value,retarg_parvalue = resargs\n retarg_parvalue = arr_parvalue.tobytes()[:-1].decode(\"utf-8\",errors=\"ignore\")\n return _len_return_value,retarg_parvalue", "def arglen(self) -> int:\n arg = self.arg\n return self.text.find(arg) + len(arg)", "def getLength(string):\n return (0)", "def LPSubsequenceLength(str):\n return len(LPSubsequence(str))", "def strlen(val): \n return len(val)", "def get_len(string):\n return len(tokenizer.tokenize(string))", "def LEN(text):\n return len(text)", "def getLength(msg):\n return len(msg)", "def _mb_strlen(string):\n return len(string.decode(_ENCODING))", "def getvarnamelen(self,i_): # 3\n res,resargs = self.__obj.getvarnamelen(i_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _len_return_value = resargs\n return _len_return_value", "def UTF8Strlen(utf):\n ret = libxml2mod.xmlUTF8Strlen(utf)\n return ret", "def hash_str_length(self):\n return self.hash_byte_length() * 2", "def getconenamelen(self,i_): # 3\n res,resargs = self.__obj.getconenamelen(i_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _len_return_value = resargs\n return _len_return_value", "def getvarnamelen(self,i_):\n len_ = ctypes.c_int32()\n res = __library__.MSK_XX_getvarnamelen(self.__nativep,i_,ctypes.byref(len_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n len_ = len_.value\n _len_return_value = len_\n return (_len_return_value)", "def byte_len(s):\n if isinstance(s, str):\n return len(s.encode())\n elif isinstance(s, bytes):\n return len(s)\n else:\n raise TypeError('Cannot determine byte length for type {}'.format(type(s)))", "def strlen(self, tuple_data, val):\r\n return len(val)", "def strlen(self, tuple_data, val):\r\n return len(val)", "def get_street_length(street):\r\n return len(street)", "def namelength(self):\n return self[\"namelength\"]", "def UTF8Strsize(utf, len):\n ret = libxml2mod.xmlUTF8Strsize(utf, len)\n return ret", "def _get_length(self):\n return self._length", "def get_length(self):\n return self.run_command('get_length')[0]", "def num_chars(word):\n return len(word)", "def hstrlen(self, key, field):\n return self._command(b'HSTRLEN', key, field)", "def get_path_length(self) :\n return self.path_length", "def _remaining_str_len(self, s: str) -> int:\r\n total_remaining_chars = len(s) # includes color/repeater specifiers\r\n\r\n specifiers_used = ''.join(self._color_or_repeater_regexp.findall(s))\r\n # length of specifier strings used\r\n specifier_chars_len = len(specifiers_used)\r\n\r\n return total_remaining_chars - specifier_chars_len" ]

[ "0.9096072", "0.71522003", "0.6668345", "0.65663975", "0.6506962", "0.64881116", "0.6398439", "0.614287", "0.61132294", "0.6104768", "0.6094698", "0.5968915", "0.5955851", "0.59100646", "0.5908313", "0.58431584", "0.58408535", "0.582819", "0.5819093", "0.5803778", "0.5803778", "0.57887006", "0.57394886", "0.5725252", "0.56844604", "0.56649554", "0.5656937", "0.56468135", "0.56076723", "0.56007683" ]

[ "def gettasknamelen(self): # 3\n res,resargs = self.__obj.gettasknamelen()\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _len_return_value = resargs\n return _len_return_value", "def gettaskname(self):\n sizetaskname_ = (1 + self.gettasknamelen())\n taskname_ = (ctypes.c_char * (sizetaskname_))()\n res = __library__.MSK_XX_gettaskname(self.__nativep,sizetaskname_,taskname_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _taskname_retval = taskname_.value.decode(\"utf-8\",errors=\"replace\")\n return (_taskname_retval)", "def gettaskname(self): # 3\n sizetaskname_ = (1 + self.gettasknamelen())\n arr_taskname = array.array(\"b\",[0]*((sizetaskname_)))\n memview_arr_taskname = memoryview(arr_taskname)\n res,resargs = self.__obj.gettaskname(sizetaskname_,memview_arr_taskname)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n retarg_taskname = resargs\n retarg_taskname = arr_taskname.tobytes()[:-1].decode(\"utf-8\",errors=\"ignore\")\n return retarg_taskname", "def getobjnamelen(self):\n len_ = ctypes.c_int32()\n res = __library__.MSK_XX_getobjnamelen(self.__nativep,ctypes.byref(len_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n len_ = len_.value\n _len_return_value = len_\n return (_len_return_value)", "def getobjnamelen(self): # 3\n res,resargs = self.__obj.getobjnamelen()\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _len_return_value = resargs\n return _len_return_value", "def __len__(self):\n try:\n return self.number_tasks\n except AttributeError:\n return 0", "def getconnamelen(self,i_):\n len_ = ctypes.c_int32()\n res = __library__.MSK_XX_getconnamelen(self.__nativep,i_,ctypes.byref(len_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n len_ = len_.value\n _len_return_value = len_\n return (_len_return_value)", "def getconnamelen(self,i_): # 3\n res,resargs = self.__obj.getconnamelen(i_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _len_return_value = resargs\n return _len_return_value", "def namelength(self):\n return self[\"namelength\"]", "def length_name(self):\n return self._src_decoder.length_tensor_name", "def getconenamelen(self,i_): # 3\n res,resargs = self.__obj.getconenamelen(i_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _len_return_value = resargs\n return _len_return_value", "def __len__(self) -> int:\n return len(self._tasks)", "def __len__(self) -> int:\n return len(self._tasks)", "def target_length_name(self):\n name = dsutils._connect_name(\n self._data_spec.name_prefix[1],\n self._tgt_decoder.length_tensor_name)\n return name", "def getvarnamelen(self,i_): # 3\n res,resargs = self.__obj.getvarnamelen(i_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _len_return_value = resargs\n return _len_return_value", "def task_name(self):\n pass", "def name(self):\n try:\n return self._name\n except AttributeError:\n if self.is_task:\n try:\n return self.pos_str\n except:\n return os.path.basename(self.workdir)\n else:\n return os.path.basename(self.workdir)", "def get_task_length(self, task_id):\r\n task_length = self.task_length\r\n if get_param(\"task_length_distribution\") == \"exponential\":\r\n task_length = random.expovariate(1.0 / self.task_length)\r\n elif get_param(\"task_length_distribution\") == \"facebook\":\r\n if random.random() > 0.95:\r\n task_length += random.expovariate(10.0 / self.task_length)\r\n self.longest_task = max(self.longest_task, task_length)\r\n return task_length", "def get_length(self):\n return self.run_command('get_length')[0]", "def getvarnamelen(self,i_):\n len_ = ctypes.c_int32()\n res = __library__.MSK_XX_getvarnamelen(self.__nativep,i_,ctypes.byref(len_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n len_ = len_.value\n _len_return_value = len_\n return (_len_return_value)", "def getTaskName(self):\n return self._taskName", "def task_name(self) -> str:\n return self._task_name", "def getconenamelen(self,i_):\n len_ = ctypes.c_int32()\n res = __library__.MSK_XX_getconenamelen(self.__nativep,i_,ctypes.byref(len_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n len_ = len_.value\n _len_return_value = len_\n return (_len_return_value)", "def getbarvarnamelen(self,i_): # 3\n res,resargs = self.__obj.getbarvarnamelen(i_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _len_return_value = resargs\n return _len_return_value", "def grindname(self, length: int) -> None:\n assert type(length) == int\n return self.rpc_call(\"grindname\")", "def getLength(self):\n return self.n", "def __len__(self):\n # TODO: Is this method used?\n return self._info['length']", "def num_tasks(self):\n return self.num_labels", "def ntasks(self):\n return len(self.tasks)", "def length_of_name(self, name):\n length = len(name)\n if length > 10:\n self.show_message_when_name_very_long()\n return length" ]

[ "0.8965651", "0.7397242", "0.72126365", "0.667672", "0.6508015", "0.6390483", "0.6323408", "0.62874895", "0.61902267", "0.61406875", "0.61028075", "0.61009693", "0.61009693", "0.60868466", "0.58861375", "0.58722395", "0.58384854", "0.5818338", "0.5761852", "0.5759502", "0.57546556", "0.5737002", "0.572525", "0.5703503", "0.5654588", "0.56178135", "0.5576321", "0.55616474", "0.5557653", "0.5552728" ]

[ "def getvartype(self,j_): # 3\n res,resargs = self.__obj.getvartype(j_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _vartype_return_value = resargs\n _vartype_return_value = variabletype(_vartype_return_value)\n return _vartype_return_value", "def _get_vartype(scalar):\n return VARINFO_DICT[type(scalar)]", "def putvartype(self,j_,vartype_): # 3\n if not isinstance(vartype_,variabletype): raise TypeError(\"Argument vartype has wrong type\")\n res = self.__obj.putvartype(j_,vartype_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getdimbarvarj(self,j_): # 3\n res,resargs = self.__obj.getdimbarvarj(j_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _dimbarvarj_return_value = resargs\n return _dimbarvarj_return_value", "def get_var_type(self, var_name):\n return str(self.get_value_ref(var_name).dtype)", "def get_variables_of_type(self, variable_type):\n if isinstance(variable_type,str):\n variable_key = variable_type\n else:\n #it is a class\n variable_key = variable_type.__name__\n return self._var_kinds[variable_key]", "def variable_type(self, variable): # pragma: no cover\n raise NotImplementedError('Implemented in child class')", "def getvarname(self,j_): # 3\n sizename_ = (1 + self.getvarnamelen((j_)))\n arr_name = array.array(\"b\",[0]*((sizename_)))\n memview_arr_name = memoryview(arr_name)\n res,resargs = self.__obj.getvarname(j_,sizename_,memview_arr_name)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n retarg_name = resargs\n retarg_name = arr_name.tobytes()[:-1].decode(\"utf-8\",errors=\"ignore\")\n return retarg_name", "def getlenbarvarj(self,j_): # 3\n res,resargs = self.__obj.getlenbarvarj(j_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _lenbarvarj_return_value = resargs\n return _lenbarvarj_return_value", "def getdimbarvarj(self,j_):\n dimbarvarj_ = ctypes.c_int32()\n res = __library__.MSK_XX_getdimbarvarj(self.__nativep,j_,ctypes.byref(dimbarvarj_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n dimbarvarj_ = dimbarvarj_.value\n _dimbarvarj_return_value = dimbarvarj_\n return (_dimbarvarj_return_value)", "def dtype(self):\n return self._vars[0].dtype", "def get_variable_from_model(self,modeltype,obsname):\n return get_variable_from_model(self.getmodel(modeltype),obsname)", "def putvartype(self,j_,vartype_):\n res = __library__.MSK_XX_putvartype(self.__nativep,j_,vartype_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def get_variable(self, name):\n if self._scalamagic:\n intp = self.scala_interpreter\n intp.interpret(name)\n return intp.last_result()", "def getvarname(self,j_):\n sizename_ = (1 + self.getvarnamelen((j_)))\n name_ = (ctypes.c_char * (sizename_))()\n res = __library__.MSK_XX_getvarname(self.__nativep,j_,sizename_,name_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _name_retval = name_.value.decode(\"utf-8\",errors=\"replace\")\n return (_name_retval)", "def var(self):\n if self._properties[\"var\"] is None:\n self._derive_variance_()\n return self._properties[\"var\"]", "def _variable_types(self):\n return self._variable_single_types + self._variable_array_types", "def value_type(self) -> global___Type:", "def type(self, *args):\n return _ida_hexrays.lvar_t_type(self, *args)", "def visit_Variable(self, node):\n var_name = node.value\n val = self.VARIABLES.get(var_name)\n if val is None:\n raise NameError(repr(var_name))\n else:\n return val", "def getIRVar(self, name, _type, isGlobal=False):\n name = self.getUnusedName(name)\n irv = IRVariable(name, _type, isGlobal)\n return irv", "def getlenbarvarj(self,j_):\n lenbarvarj_ = ctypes.c_int64()\n res = __library__.MSK_XX_getlenbarvarj(self.__nativep,j_,ctypes.byref(lenbarvarj_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n lenbarvarj_ = lenbarvarj_.value\n _lenbarvarj_return_value = lenbarvarj_\n return (_lenbarvarj_return_value)", "def d_var(self):\r\n return 'dval'", "def getvartypelist(self,subj,vartype): # 3\n num_ = None\n if num_ is None:\n num_ = len(subj)\n elif num_ != len(subj):\n raise IndexError(\"Inconsistent length of array subj\")\n if num_ is None: num_ = 0\n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n \n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n \n _copyback_vartype = False\n if vartype is None:\n vartype_ = None\n else:\n try:\n vartype_ = memoryview(vartype)\n except TypeError:\n try:\n _tmparr_vartype = array.array(\"i\",vartype)\n except TypeError:\n raise TypeError(\"Argument vartype has wrong type\")\n else:\n vartype_ = memoryview(_tmparr_vartype)\n _copyback_vartype = True\n else:\n if vartype_.format != \"i\":\n vartype_ = memoryview(array.array(\"i\",vartype))\n _copyback_vartype = True\n if vartype_ is not None and len(vartype_) != (num_):\n raise ValueError(\"Array argument vartype has wrong length\")\n res = self.__obj.getvartypelist(num_,subj_,vartype_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_vartype:\n for __tmp_var_0 in range(len(vartype_)): vartype[__tmp_var_0] = variabletype(_tmparr_vartype[__tmp_var_0])", "def var(self, name):\n return self.get_ground_vector('!Var:{}'.format(name))", "def var(self, name):\n return self.get_ground_vector('!Var:{}'.format(name))", "def var(self, name):\n return self.get_ground_vector('!Var:{}'.format(name))", "def is_tvar(x):\n return type(x) is T.TensorVariable", "def t(self):\n index = self.var_index()\n return self.var_data(index)", "def datatype(self):\n # datatype is type of first dataarg\n return self[self.dataargs()[0]].typename" ]

[ "0.905106", "0.68339425", "0.6826129", "0.6610592", "0.64489937", "0.6415037", "0.63719475", "0.6252331", "0.61517644", "0.61124295", "0.60500795", "0.6013344", "0.5994384", "0.59254044", "0.5884005", "0.5843133", "0.5802532", "0.5790517", "0.5766481", "0.56811124", "0.56686056", "0.55974793", "0.5597321", "0.5588712", "0.5581013", "0.5581013", "0.5581013", "0.5552837", "0.5552338", "0.55341023" ]

[ "def getvartypelist(self,subj,vartype): # 3\n num_ = None\n if num_ is None:\n num_ = len(subj)\n elif num_ != len(subj):\n raise IndexError(\"Inconsistent length of array subj\")\n if num_ is None: num_ = 0\n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n \n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n \n _copyback_vartype = False\n if vartype is None:\n vartype_ = None\n else:\n try:\n vartype_ = memoryview(vartype)\n except TypeError:\n try:\n _tmparr_vartype = array.array(\"i\",vartype)\n except TypeError:\n raise TypeError(\"Argument vartype has wrong type\")\n else:\n vartype_ = memoryview(_tmparr_vartype)\n _copyback_vartype = True\n else:\n if vartype_.format != \"i\":\n vartype_ = memoryview(array.array(\"i\",vartype))\n _copyback_vartype = True\n if vartype_ is not None and len(vartype_) != (num_):\n raise ValueError(\"Array argument vartype has wrong length\")\n res = self.__obj.getvartypelist(num_,subj_,vartype_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_vartype:\n for __tmp_var_0 in range(len(vartype_)): vartype[__tmp_var_0] = variabletype(_tmparr_vartype[__tmp_var_0])", "def putvartypelist(self,subj,vartype): # 3\n num_ = None\n if num_ is None:\n num_ = len(subj)\n elif num_ != len(subj):\n raise IndexError(\"Inconsistent length of array subj\")\n if num_ is None:\n num_ = len(vartype)\n elif num_ != len(vartype):\n raise IndexError(\"Inconsistent length of array vartype\")\n if num_ is None: num_ = 0\n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n \n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n \n if vartype is None: raise TypeError(\"Invalid type for argument vartype\")\n if vartype is None:\n vartype_ = None\n else:\n try:\n vartype_ = memoryview(vartype)\n except TypeError:\n try:\n _tmparr_vartype = array.array(\"i\",vartype)\n except TypeError:\n raise TypeError(\"Argument vartype has wrong type\")\n else:\n vartype_ = memoryview(_tmparr_vartype)\n \n else:\n if vartype_.format != \"i\":\n vartype_ = memoryview(array.array(\"i\",vartype))\n \n res = self.__obj.putvartypelist(num_,subj_,vartype_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getvartype(self,j_): # 3\n res,resargs = self.__obj.getvartype(j_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _vartype_return_value = resargs\n _vartype_return_value = variabletype(_vartype_return_value)\n return _vartype_return_value", "def putvartypelist(self,subj_,vartype_):\n num_ = None\n if num_ is None:\n num_ = len(subj_)\n elif num_ != len(subj_):\n raise IndexError(\"Inconsistent length of array subj\")\n if num_ is None:\n num_ = len(vartype_)\n elif num_ != len(vartype_):\n raise IndexError(\"Inconsistent length of array vartype\")\n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n if vartype_ is None:\n raise ValueError(\"Argument vartype cannot be None\")\n if vartype_ is None:\n raise ValueError(\"Argument vartype may not be None\")\n if vartype_ is not None:\n _vartype_tmp = (ctypes.c_int32 * len(vartype_))(*vartype_)\n else:\n _vartype_tmp = None\n res = __library__.MSK_XX_putvartypelist(self.__nativep,num_,_subj_tmp,_vartype_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def get_variables_of_type(self, variable_type):\n if isinstance(variable_type,str):\n variable_key = variable_type\n else:\n #it is a class\n variable_key = variable_type.__name__\n return self._var_kinds[variable_key]", "def getvartype(self,j_):\n vartype_ = ctypes.c_int32()\n res = __library__.MSK_XX_getvartype(self.__nativep,j_,ctypes.byref(vartype_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _vartype_return_value = variabletype(vartype_.value)\n return (_vartype_return_value)", "def _get_vartype(scalar):\n return VARINFO_DICT[type(scalar)]", "def validVarConstructType(self,vartype):\r\n indArray = vartype.find('[]')\r\n if indArray>0:\r\n thisType = vartype[0:indArray]\r\n isArray = True\r\n else:\r\n thisType = vartype\r\n isArray = False\r\n \r\n if thisType in ('rng','range'):\r\n type = 'range'\r\n elif thisType in ('rate'):\r\n type = 'rate'\r\n elif thisType in ('amt','amount'):\r\n type = 'amount'\r\n elif thisType in ('minamt','minamount'):\r\n type = 'minamount'\r\n elif thisType in ('bool'):\r\n type = 'bool'\r\n else:\r\n print 'variable type must be range, rate, amount, minamount, bool (or abbreviated forms)'\r\n return False, ''\r\n \r\n return True, type, isArray", "def get_datatypes(self, tid):\n return self._parametersdict[\"DATATYPES\"].get(tid)", "def _variable_types(self):\n return self._variable_single_types + self._variable_array_types", "def putvartype(self,j_,vartype_): # 3\n if not isinstance(vartype_,variabletype): raise TypeError(\"Argument vartype has wrong type\")\n res = self.__obj.putvartype(j_,vartype_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def MigrateV2VarType(vartype, log):\n return {\n VarType.Integer: qtiv2.variables.BaseType.integer,\n VarType.String: qtiv2.variables.BaseType.string,\n VarType.Decimal: qtiv2.variables.BaseType.float,\n VarType.Scientific: qtiv2.variables.BaseType.float,\n VarType.Boolean: qtiv2.variables.BaseType.boolean,\n VarType.Enumerated: qtiv2.variables.BaseType.identifier,\n VarType.Set: qtiv2.variables.BaseType.identifier\n }[vartype]", "def variables(self):\n return {u for u in self if u.type == 'var'}", "def get_variable_values(self, vars):\n raise NotImplementedError()", "def get_list_vars(my_vars):\n lists = []\n for var in my_vars:\n try:\n temp = my_vars[var].getValue()\n #print var + '=' + str(temp)\n except ValueError:\n lists.append(var)\n return lists", "def get_variables(self, shader_type=None):\n if not shader_type:\n return self.variables\n else:\n return [var for (_, var) in self.variables.iteritems() \\\n if var['shader_type'] == shader_type]", "def vars(*tensor_types):\n return map(var, tensor_types)", "def get_vehicle_variable_values_list(self, var='battery'):\n return self.get('vehicles/GetVehicleVariableValuesList/{}'.format(var))", "def gettypes(self):\n return [str(self.sd.xlate(t[0])) for t in self.sd.types]", "def variables(self, setname='data file', numeric=True, string=True,\n date=True, boolean=True, blacklist=None):\n varlist = []\n except_list = []\n dsvars = self._variables_from_set(setname)\n if not numeric: except_list.extend(['int', 'float'])\n if not string: except_list.append('string')\n if not date: except_list.append('date')\n if not boolean: except_list.append('boolean')\n for dsvar in dsvars:\n if self._get_type(dsvar) in except_list: continue\n if dsvar in blacklist: continue\n varlist.append(dsvar)\n return varlist", "def type(self, *args):\n return _ida_hexrays.lvar_t_type(self, *args)", "def getType(self, terms):\n\n\t\treturn [i for i in xrange(len(self.toTYPE)) if terms in self.toTYPE[i]]", "def getTypesList():\n return Gw2Spidy._request('types')['results']", "def types(self, lang, vocid=None):\n\n if vocid is not None:\n url = self.api_base + vocid + '/types'\n else:\n url = self.api_base + 'types'\n payload = {'lang': lang}\n req = requests.get(url, params=payload)\n req.raise_for_status()\n return req.json()['types']", "def variable_types(self, data_key, only_type=None):\r\n if self[data_key].meta['columns'] is None:\r\n return 'No meta attached to data_key: %s' %(data_key)\r\n else:\r\n types = {\r\n 'int': [],\r\n 'float': [],\r\n 'single': [],\r\n 'delimited set': [],\r\n 'string': [],\r\n 'date': [],\r\n 'time': [],\r\n 'array': []\r\n }\r\n not_found = []\r\n for col in self[data_key].data.columns:\r\n if not col in ['@1', 'id_L1', 'id_L1.1']: \r\n try:\r\n types[\r\n self[data_key].meta['columns'][col]['type']\r\n ].append(col)\r\n except:\r\n not_found.append(col) \r\n for mask in self[data_key].meta['masks'].keys():\r\n types[self[data_key].meta['masks'][mask]['type']].append(mask)\r\n if not_found:\r\n print '%s not found in meta file. Ignored.' %(not_found)\r\n if only_type:\r\n return types[only_type]\r\n else:\r\n return types", "def get_var_type(self, var_name):\n return str(self.get_value_ref(var_name).dtype)", "def vars(self):\n return [Var(i,self.dims[i]) for i in range(self.nvar)] # TODO: use stored state info (=1 sometimes)", "def variables(self):\n return [term.variable for term in self.terms]", "def get_vehicle_variables_list(self):\n return self.get('vehicles/GetVehicleVariableList')", "def __getitem__(self, varName):\n # Static variables\n if varName in self.statVars:\n staticFV = StaticFileVariable(self, varName)\n return staticFV\n\n # Time variables\n elif varName in self.timeVars:\n timeVariables = TimeFileVariable(self, varName)\n return timeVariables" ]

[ "0.79822195", "0.6934229", "0.6789694", "0.65395796", "0.61634475", "0.6046211", "0.5934622", "0.58922654", "0.5809417", "0.5805788", "0.56369525", "0.55829936", "0.5531917", "0.5438396", "0.5414235", "0.53518057", "0.53442925", "0.5290569", "0.52470815", "0.52378434", "0.5225699", "0.5198114", "0.5196148", "0.51874864", "0.5164912", "0.5160645", "0.51318896", "0.5092454", "0.5087117", "0.50819355" ]

[ "def inputdata(self,maxnumcon_,maxnumvar_,c,cfix_,aptrb,aptre,asub,aval,bkc,blc,buc,bkx,blx,bux): # 3\n numcon_ = None\n if numcon_ is None:\n numcon_ = len(buc)\n elif numcon_ != len(buc):\n raise IndexError(\"Inconsistent length of array buc\")\n if numcon_ is None:\n numcon_ = len(blc)\n elif numcon_ != len(blc):\n raise IndexError(\"Inconsistent length of array blc\")\n if numcon_ is None:\n numcon_ = len(bkc)\n elif numcon_ != len(bkc):\n raise IndexError(\"Inconsistent length of array bkc\")\n if numcon_ is None: numcon_ = 0\n numvar_ = None\n if numvar_ is None:\n numvar_ = len(c)\n elif numvar_ != len(c):\n raise IndexError(\"Inconsistent length of array c\")\n if numvar_ is None:\n numvar_ = len(bux)\n elif numvar_ != len(bux):\n raise IndexError(\"Inconsistent length of array bux\")\n if numvar_ is None:\n numvar_ = len(blx)\n elif numvar_ != len(blx):\n raise IndexError(\"Inconsistent length of array blx\")\n if numvar_ is None:\n numvar_ = len(bkx)\n elif numvar_ != len(bkx):\n raise IndexError(\"Inconsistent length of array bkx\")\n if numvar_ is None:\n numvar_ = len(aptrb)\n elif numvar_ != len(aptrb):\n raise IndexError(\"Inconsistent length of array aptrb\")\n if numvar_ is None:\n numvar_ = len(aptre)\n elif numvar_ != len(aptre):\n raise IndexError(\"Inconsistent length of array aptre\")\n if numvar_ is None: numvar_ = 0\n if c is None:\n c_ = None\n else:\n try:\n c_ = memoryview(c)\n except TypeError:\n try:\n _tmparr_c = array.array(\"d\",c)\n except TypeError:\n raise TypeError(\"Argument c has wrong type\")\n else:\n c_ = memoryview(_tmparr_c)\n \n else:\n if c_.format != \"d\":\n c_ = memoryview(array.array(\"d\",c))\n \n if aptrb is None: raise TypeError(\"Invalid type for argument aptrb\")\n if aptrb is None:\n aptrb_ = None\n else:\n try:\n aptrb_ = memoryview(aptrb)\n except TypeError:\n try:\n _tmparr_aptrb = array.array(\"q\",aptrb)\n except TypeError:\n raise TypeError(\"Argument aptrb has wrong type\")\n else:\n aptrb_ = memoryview(_tmparr_aptrb)\n \n else:\n if aptrb_.format != \"q\":\n aptrb_ = memoryview(array.array(\"q\",aptrb))\n \n if aptre is None: raise TypeError(\"Invalid type for argument aptre\")\n if aptre is None:\n aptre_ = None\n else:\n try:\n aptre_ = memoryview(aptre)\n except TypeError:\n try:\n _tmparr_aptre = array.array(\"q\",aptre)\n except TypeError:\n raise TypeError(\"Argument aptre has wrong type\")\n else:\n aptre_ = memoryview(_tmparr_aptre)\n \n else:\n if aptre_.format != \"q\":\n aptre_ = memoryview(array.array(\"q\",aptre))\n \n if asub is None: raise TypeError(\"Invalid type for argument asub\")\n if asub is None:\n asub_ = None\n else:\n try:\n asub_ = memoryview(asub)\n except TypeError:\n try:\n _tmparr_asub = array.array(\"i\",asub)\n except TypeError:\n raise TypeError(\"Argument asub has wrong type\")\n else:\n asub_ = memoryview(_tmparr_asub)\n \n else:\n if asub_.format != \"i\":\n asub_ = memoryview(array.array(\"i\",asub))\n \n if aval is None: raise TypeError(\"Invalid type for argument aval\")\n if aval is None:\n aval_ = None\n else:\n try:\n aval_ = memoryview(aval)\n except TypeError:\n try:\n _tmparr_aval = array.array(\"d\",aval)\n except TypeError:\n raise TypeError(\"Argument aval has wrong type\")\n else:\n aval_ = memoryview(_tmparr_aval)\n \n else:\n if aval_.format != \"d\":\n aval_ = memoryview(array.array(\"d\",aval))\n \n if bkc is None: raise TypeError(\"Invalid type for argument bkc\")\n if bkc is None:\n bkc_ = None\n else:\n try:\n bkc_ = memoryview(bkc)\n except TypeError:\n try:\n _tmparr_bkc = array.array(\"i\",bkc)\n except TypeError:\n raise TypeError(\"Argument bkc has wrong type\")\n else:\n bkc_ = memoryview(_tmparr_bkc)\n \n else:\n if bkc_.format != \"i\":\n bkc_ = memoryview(array.array(\"i\",bkc))\n \n if blc is None: raise TypeError(\"Invalid type for argument blc\")\n if blc is None:\n blc_ = None\n else:\n try:\n blc_ = memoryview(blc)\n except TypeError:\n try:\n _tmparr_blc = array.array(\"d\",blc)\n except TypeError:\n raise TypeError(\"Argument blc has wrong type\")\n else:\n blc_ = memoryview(_tmparr_blc)\n \n else:\n if blc_.format != \"d\":\n blc_ = memoryview(array.array(\"d\",blc))\n \n if buc is None: raise TypeError(\"Invalid type for argument buc\")\n if buc is None:\n buc_ = None\n else:\n try:\n buc_ = memoryview(buc)\n except TypeError:\n try:\n _tmparr_buc = array.array(\"d\",buc)\n except TypeError:\n raise TypeError(\"Argument buc has wrong type\")\n else:\n buc_ = memoryview(_tmparr_buc)\n \n else:\n if buc_.format != \"d\":\n buc_ = memoryview(array.array(\"d\",buc))\n \n if bkx is None: raise TypeError(\"Invalid type for argument bkx\")\n if bkx is None:\n bkx_ = None\n else:\n try:\n bkx_ = memoryview(bkx)\n except TypeError:\n try:\n _tmparr_bkx = array.array(\"i\",bkx)\n except TypeError:\n raise TypeError(\"Argument bkx has wrong type\")\n else:\n bkx_ = memoryview(_tmparr_bkx)\n \n else:\n if bkx_.format != \"i\":\n bkx_ = memoryview(array.array(\"i\",bkx))\n \n if blx is None: raise TypeError(\"Invalid type for argument blx\")\n if blx is None:\n blx_ = None\n else:\n try:\n blx_ = memoryview(blx)\n except TypeError:\n try:\n _tmparr_blx = array.array(\"d\",blx)\n except TypeError:\n raise TypeError(\"Argument blx has wrong type\")\n else:\n blx_ = memoryview(_tmparr_blx)\n \n else:\n if blx_.format != \"d\":\n blx_ = memoryview(array.array(\"d\",blx))\n \n if bux is None: raise TypeError(\"Invalid type for argument bux\")\n if bux is None:\n bux_ = None\n else:\n try:\n bux_ = memoryview(bux)\n except TypeError:\n try:\n _tmparr_bux = array.array(\"d\",bux)\n except TypeError:\n raise TypeError(\"Argument bux has wrong type\")\n else:\n bux_ = memoryview(_tmparr_bux)\n \n else:\n if bux_.format != \"d\":\n bux_ = memoryview(array.array(\"d\",bux))\n \n res = self.__obj.inputdata64(maxnumcon_,maxnumvar_,numcon_,numvar_,c_,cfix_,aptrb_,aptre_,asub_,aval_,bkc_,blc_,buc_,bkx_,blx_,bux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def MILP_1(self,xData,uData):\n print \"\\n\",\"*\"*80,\"\\n\",\"MILP 1: Parameter Estimation\\n\",\"*\"*80 \n model=Model(\"parameters\")\n outflow={}\n d={}\n bigM=500\n Q_out={}\n Q_in={}\n N=max(l[1] for l in xData.keys())\n print \"x Data size is\",N\n N=max(l[1] for l in uData.keys())\n print \"u Data size is\",N\n for l in self.links:\n l.d=model.addVar(lb=0,ub=200,obj=0*l.type==\"road\") \n for t in range(1,N):\n d[l,t]=model.addVar(lb=0,ub=200,obj=1)\n for k in l.outgoing:\n outflow[l,k,t]=model.addVar(lb=0,ub=200)\n self.c[l,k]=model.addVar(lb=20,ub=200)\n self.beta[l,k]=model.addVar(lb=0.2,ub=0.8)\n self.alpha[l,k]=model.addVar(lb=0,ub=1)\n self.M[l,k]=model.addVar(lb=0,ub=200)\n d[\"outflow-1\",l,k,t]=model.addVar(vtype=GRB.BINARY) \n d[\"outflow-2\",l,k,t]=model.addVar(vtype=GRB.BINARY) \n model.update()\n for t in range(1,N):\n for l in self.links:\n if True:\n Q_out[l,t]=LinExpr()\n Q_in[l,t]=LinExpr()\n Q_out[l,t].addConstant(0)\n Q_in[l,t].addConstant(0)\n for k in l.outgoing:\n model.addConstr(outflow[l,k,t]<=self.beta[l,k]*uData[l,t]*xData[l,t])\n model.addConstr(outflow[l,k,t]<=self.M[l,k])\n model.addConstr(outflow[l,k,t]<=self.c[l,k]-self.alpha[l,k]*xData[k,t])\n model.addConstr(outflow[l,k,t]>=self.beta[l,k]*uData[l,t]*xData[l,t]+bigM*d[\"outflow-1\",l,k,t]-bigM)\n model.addConstr(outflow[l,k,t]>=self.M[l,k]+bigM*d[\"outflow-2\",l,k,t]-bigM)\n model.addConstr(outflow[l,k,t]>=self.c[l,k]-self.alpha[l,k]*xData[k,t]-bigM*d[\"outflow-1\",l,k,t]-bigM*d[\"outflow-2\",l,k,t])\n Q_out[l,t].add(outflow[l,k,t])\n for k in l.incoming:\n Q_in[l,t].add(outflow[k,l,t])\n if l.type==\"road\":\n model.addConstr(xData[l,t+1]<=xData[l,t]- Q_out[l,t] + Q_in[l,t] + d[l,t] + l.lambda_arrival) \n else:\n model.addConstr(xData[l,t+1]<=xData[l,t]- uData[l,t]*xData[l,t] + Q_in[l,t] + d[l,t] + l.lambda_arrival)\n for l in self.links:\n sum=LinExpr()\n for k in l.outgoing:\n sum.add(self.beta[l,k])\n model.addConstr(sum>=0)\n \n# J=QuadExpr()\n# for l in self.links:\n# for t in range(1,N):\n# if l.type==\"road\":\n# J.add(d[l,t]*d[l,t])\n# model.setObjective(J)\n model.optimize()\n for l in self.links:\n l.d=l.d.X\n for k in l.outgoing:\n self.beta[l,k]=self.beta[l,k].X\n self.c[l,k]=self.c[l,k].X\n self.alpha[l,k]=self.alpha[l,k].X\n self.M[l,k]=self.M[l,k].X\n for l in self.links:\n for t in range(1,N):\n l.d=max(d[l,t].X,l.d)\n \n \n\n \n if True:\n for t in range(1,N):\n print \"*\"*80,\"time=\",t\n for l in self.links:\n print \"\\n\",l,\"x is\",xData[l,t],\"u is\",uData[l,t],\"x+ is\",xData[l,t+1]\n for k in l.outgoing:\n print k,\"beta:\",self.beta[l,k],\"outflow\",outflow[l,k,t].X", "def n_inputs(self):", "def _compute_linear_input(self, module_list, x):\n model = nn.ModuleList(module_list)\n for module_pt in model:\n x = module_pt(x)\n x = nn.Flatten()(x)\n return x.shape[1]", "def nnRegression(data):", "def split_inputs(self):\n\n lca = self.lca\n inputs = self.inputs\n\n inputs_dict = {} # Only store exchanges with uncertainty\n\n # Keep track of which tech_params and bio_params are already included to the analysis\n # Needed to avoid running sa indices computations twice for the same tech or bio params. \n # Initialize with parameterized exchanges\n if self.parameters != None and self.ParametersModel != None:\n indices_tech_all = self.parameters_dict['tech_params_where']\n indices_bio_all = self.parameters_dict['bio_params_where']\n else:\n indices_tech_all = np.array([], dtype=int)\n indices_bio_all = np.array([], dtype=int)\n\n for input_ in inputs:\n\n if input_ == 'biosphere':\n continue\n\n inputs_dict[input_] = {}\n\n indices_tech = np.array([], dtype=int)\n indices_bio = np.array([], dtype=int)\n\n if input_ == 'technosphere':\n indices_tech = np.where(lca.tech_params['uncertainty_type']!=0)[0]\n if 'biosphere' in inputs:\n indices_bio = np.where(lca.bio_params['uncertainty_type']!=0)[0]\n\n elif input_ == 'demand_exc':\n # Select all products that pertain to activities in the given demand vector\n for act_index in np.nonzero(lca.demand_array)[0]:\n mask_tech = np.all([lca.tech_params['uncertainty_type']!=0, lca.tech_params['col']==act_index], axis=0)\n indices_tech = np.concatenate([indices_tech, np.where(mask_tech)[0]])\n if 'biosphere' in inputs:\n mask_bio = np.all([lca.bio_params['uncertainty_type']!=0, lca.bio_params['col']==act_index], axis=0)\n indices_bio = np.concatenate([indices_bio, np.where(mask_bio)[0]])\n\n elif input_ in self.databases:\n # Select all products and flows that are linked to the given database\n # Indices corresponding to exchanges in the tech_params depending on the given database\n db_act_indices_tech = [val for key,val in lca.activity_dict.items() if key[0]==input_]\n if len(db_act_indices_tech) > 0:\n db_act_index_min_tech = db_act_indices_tech[0]\n db_act_index_max_tech = db_act_indices_tech[-1]\n mask = lambda i : np.all( [lca.tech_params['uncertainty_type']!=0, \n lca.tech_params['col']==i,\n lca.tech_params['amount']!=0], axis=0 )\n indices_tech = [ np.where( mask(i) ) [0] for i in range(db_act_index_min_tech, db_act_index_max_tech+1) ]\n indices_tech = np.concatenate(indices_tech)\n\n # Indices corresponding to flows in the biosphere params depending on the given database\n if 'biosphere' in inputs:\n mask = lambda j : np.all( [lca.bio_params['uncertainty_type']!=0, lca.bio_params['col']==j], axis=0 )\n indices_bio = [ np.where(mask(j))[0] for j in range(db_act_index_min_tech, db_act_index_max_tech+1) ]\n indices_bio = np.concatenate(indices_bio)\n\n indices_tech = np.sort(indices_tech)\n indices_bio = np.sort(indices_bio)\n\n # Do not add indices_tech that are already in the indices_tech_all\n indices_tech_same = np.intersect1d(indices_tech, indices_tech_all)\n pos_tech = np.array([ np.where(indices_tech==s)[0] for s in indices_tech_same ]).flatten()\n indices_tech = np.delete(indices_tech, pos_tech)\n np.append(indices_tech_all, indices_tech)\n\n # Do not add indices_bio that are already in the indices_bio_all\n indices_bio_same = np.intersect1d(indices_bio, indices_bio_all)\n pos_bio = np.array([ np.where(indices_bio==s)[0] for s in indices_bio_same ]).flatten()\n indices_bio = np.delete(indices_bio, pos_bio)\n np.append(indices_bio_all, indices_bio)\n \n inputs_dict[input_]['tech_params'] = lca.tech_params[indices_tech] #TODO maybe remove later, indices should be sufficient\n inputs_dict[input_]['tech_params_where'] = indices_tech\n inputs_dict[input_]['tech_n_params'] = len(indices_tech) #TODO remove later\n\n inputs_dict[input_]['bio_params'] = lca.bio_params[indices_bio] #TODO maybe remove later\n inputs_dict[input_]['bio_params_where'] = indices_bio\n inputs_dict[input_]['bio_n_params'] = len(indices_bio)\n\n\n self.indices_tech_all = indices_tech_all #TODO remove later\n self.indices_bio_all = indices_bio_all\n self.inputs_dict = inputs_dict", "def component_input_constraint(index):\n i, t = index\n return component_input[i, t] == [\n a * v for a, v in zip(component_para[i][\"fundata\"][\"a\"], component_output_k[i, t, RANGE])\n ] + [b * v for b, v in zip(component_para[i][\"fundata\"][\"b\"], component_status_k[i, t, RANGE])]", "def SetInput(self, , , p_float_6):\n ...", "def processInputs(self):", "def predict(self, first_preprocessed_inputs,second_preprocessed_inputs,third_preprocessed_inputs):\r\n pass", "def process_input(default_input, advanced_input):\n if default_input == None:\n csv_file = constants.IN_FILE\n df = get_df(csv_file)\n slotdict = constants.SLOTDICT\n duration = constants.DURATION\n else:\n csv_file = default_input[0]\n df = default_input[1]\n slotdict = default_input[2]\n duration = default_input[3]\n\n if csv_file == None:\n csv_file = constants.IN_FILE\n\n if slotdict == None:\n slotdict = constants.SLOTDICT\n\n if duration == None:\n duration = contants.DURATION # length of slots (in minutes)\n\n num_shifts = get_num_shifts(slotdict)\n bonus_cols = check_col(df)\n\n # dict of slots and their prev slots\n prev_slot = get_prev_slots(df, duration)\n\n if advanced_input == None:\n weight_dict = constants.WEIGHT_DICT\n min_exp = constants.MIN_EXP\n min_skill = constants.MIN_SKILL\n stress_slots = constants.STRESS_SLOTS\n target_delta = constants.TARGET_DELTA\n flex_shifts = constants.FLEX_SHIFTS\n else:\n weight_dict = advanced_input[0]\n min_exp = advanced_input[1]\n if min_exp != None and bonus_cols[0] == False:\n print(\n \"NOTE: Your input file does not include an 'experience' column. Thus, your min exp constraint will not be effective.\"\n )\n min_skill = advanced_input[2]\n stress_slots = advanced_input[3]\n if stress_slots != None and bonus_cols[1] == False:\n print(\n \"NOTE: Your input file does not include a 'skill' column. Thus, your stress slots constraint will not be effective.\"\n )\n target_delta = advanced_input[4]\n flex_shifts = advanced_input[5]\n\n if weight_dict == None:\n weight_dict = constants.WEIGHT_DICT\n\n if stress_slots == None:\n stress_slots = constants.STRESS_SLOTS\n\n if target_delta == None:\n target_delta = constants.TARGET_DELTA\n\n if flex_shifts == None:\n flex_shifts = constants.FLEX_SHIFTS\n\n if min_exp == None:\n min_exp = constants.MIN_EXP\n\n if min_skill == None:\n min_skill = constants.MIN_SKILL\n\n cleaned_input = [\n csv_file,\n df,\n slotdict,\n duration,\n num_shifts,\n prev_slot,\n weight_dict,\n stress_slots,\n target_delta,\n flex_shifts,\n min_exp,\n min_skill,\n ]\n return cleaned_input", "def transfer_parameters_call_optimization(self, mainCl, mainPt, consCall=None, consPt=None):", "def auxmaxf1(x):\n \n# Sum over data points\n f = 0.0\n for m_ind in range(cfg.ntrain):\n f += auxmax_f1_part_i(x,m_ind) \n \n return f", "def _buildInput (self):\n\n\t\tindata = self.config['input']\n\t\tif not isinstance (indata, dict):\n\t\t\tindata = ','.join(utils.alwaysList (indata))\t\t\t\n\t\t\tdepdchan = channel.fromChannels (*[d.channel for d in self.depends])\n\t\t\tindata = {indata: depdchan if self.depends else channel.fromArgv()}\n\t\t\t\n\t\t# expand to one key-channel pairs\n\t\tfor inkeys, invals in indata.iteritems():\n\t\t\tkeys = utils.split(inkeys, ',')\n\t\t\tif callable (invals):\n\t\t\t\tvals = invals (*[d.channel.copy() for d in self.depends] if self.depends else channel.fromArgv())\n\t\t\t\tvals = vals.split()\n\t\t\telif isinstance (invals, basestring): # only for files: \"/a/b/*.txt, /a/c/*.txt\"\n\t\t\t\tvals = utils.split(invals, ',')\n\t\t\telif isinstance (invals, channel):\n\t\t\t\tvals = invals.split()\n\t\t\telif isinstance (invals, list):\n\t\t\t\tvals = channel.create(invals).split()\n\t\t\telse:\n\t\t\t\traise ValueError (\"%s: Unexpected values for input. Expect dict, list, str, channel, callable.\" % self._name())\n\t\t\t\n\t\t\twidth = len (vals)\n\t\t\tif len (keys) > width:\n\t\t\t\traise ValueError ('%s: Not enough data for input variables.\\nVarialbes: %s\\nData: %s' % (self._name(), keys, vals))\n\t\t\t\n\t\t\tfor i, key in enumerate(keys):\n\t\t\t\tintype = key.split(':')[-1]\n\t\t\t\tthekey = key.split(':')[0]\n\t\t\t\tval = vals[i].toList() #if isinstance(vals[i], channel) else vals[i]\n\n\t\t\t\tif intype not in proc.IN_VARTYPE + proc.IN_FILESTYPE + proc.IN_FILETYPE:\n\t\t\t\t\tintype = proc.IN_VARTYPE[0]\n\t\t\t\t\n\t\t\t\tif intype in proc.IN_FILESTYPE:\n\t\t\t\t\tfor x, v in enumerate(val):\n\t\t\t\t\t\tif isinstance (v, basestring):\n\t\t\t\t\t\t\tval[x] = channel.fromPath (v).toList()\n\t\t\t\t\n\t\t\t\tif self.length == 0: \n\t\t\t\t\tself.props['length'] = len (val)\n\t\t\t\tif self.length != len (val):\n\t\t\t\t\traise ValueError ('%s: Expect same lengths for input channels, but got %s and %s (keys: %s).' % (self._name(), self.length, len (val), key))\n\t\t\t\tself.props['indata'][thekey] = {\n\t\t\t\t\t'type': intype,\n\t\t\t\t\t'data': val\n\t\t\t\t}\n\t\t\tself.props['jobs'] = [None] * self.length", "def _gctmpca_cl_input(self,data):\n # Get the right setting for each parameter\n data = self._set_command_line_parameters(data)\n # Explicitly disallow intermolecular experiments (I do this here to\n # make sure I'm looking at the final version of data)\n if data['comparison_type'] == 1: \n raise NotImplementedError,\\\n \"Intermolecular experiments currently supported only via coevolve_alignments.\"\n # Create the command line parameter string and return it \n return ' '.join([str(data[p]) for p in self._parameter_order]).strip()", "def __init__(self, inp_subQ, inp_divQ, inp_subRH, inp_divRH, hyam, hybm, **kwargs):\n self.inp_subQ, self.inp_divQ, self.inp_subRH, self.inp_divRH, self.hyam, self.hybm = \\\n np.array(inp_subQ), np.array(inp_divQ), np.array(inp_subRH), np.array(inp_divRH), \\\n np.array(hyam), np.array(hybm)\n # Define variable indices here\n # Input\n self.QBP_idx = slice(0,30)\n self.TBP_idx = slice(90,120)\n self.PS_idx = 300\n self.SHFLX_idx = 302\n self.LHFLX_idx = 303\n\n super().__init__(**kwargs)", "def input(self):", "def _onEVT_FUNC_PARS(self, event):\r\n temp=[]\r\n fittings.Parameter(self.model, 'A', event.cstA)\r\n fittings.Parameter(self.model, 'B', event.cstB)\r\n if self.file_data.x:\r\n for x_i in self.file_data.x:\r\n temp.append(self.model.run(x_i))\r\n self.file_data1.y =temp\r\n self.file_data1.x= self.file_data.x\r\n else:\r\n # xtemp has a default value in case the user doesn't load data\r\n xtemp = [1, 2, 3, 4, 5, 6]\r\n for x_i in xtemp:\r\n temp.append(self.model.run(x_i))\r\n self.file_data1.x =xtemp\r\n self.file_data1.y =temp\r\n self.file_data1.reset_view()\r\n self.graph.add(self.file_data1)\r\n self.graph.render(self)\r\n self.subplot.figure.canvas.draw_idle()", "def data_input(self):\n path = os.path.abspath(os.path.join(os.path.dirname(__file__), '..', 'data'))\n if not os.path.isfile('{0}/{1}.csv'.format(path, self.data_file)):\n print 'Error: Dataset file is not exist.'\n exit()\n # Uplead Dataset.csv file.\n f = open('{0}/{1}.csv'.format(path, self.data_file), 'r')\n print 'Now uploading dataset File.....'\n f = list(f)\n # The Dataset contains heading, number of lines - heading\n self.number_of_VOCs = sum(1 for row in f)-1\n # Count number of columns, last column's value is empty, that is why -1.\n self.number_of_columns = len(f[0].split(',')) -1\n self.first_m_z = int(f[0].split(',')[3]) # find the first m/z value.\n self.last_m_z = int(f[0].split(',')[-2]) # find the last m/z value.\n print 'dataset includes ', self.number_of_VOCs, 'VOCs in all samples '\n print ('dataset includes ', self.number_of_columns, ' Columns, ',\n 'm/z values start from ', self.first_m_z,\n 'and end ', self.last_m_z)\n # Create a matrix with a shape of (number_of_VOCs X number_of_columns) filled with zeros.\n self.dataset = np.zeros((self.number_of_VOCs,\n self.number_of_columns))\n for line in range(1, len(f)):\n if int(float(f[line].strip().split(',')[0])) not in self.loaded_samples:\n self.loaded_samples.append(int(float(f[line].strip().split(',')[0])))\n for column in range(self.number_of_columns):\n self.dataset[line-1][column] = int(float(f[line].strip().split(',')[column]))", "def inputs(self):\n pass", "def _input_as_parameter(self, data):\r\n self.Parameters['-i'].on(data)\r\n return ''", "def __init__(self, calcGrad, calcCost, input):\n\tself.calcGrad = calcGrad\n\tself.calcCost = calcCost\n\tself.input = np.asarray(input, dtype=np.float32)\n\tself.inp_shape = input.shape", "def optimize(self, x0):\n (result,f,d) = fmin_l_bfgs_b(lambda x:self.costFun(x), np.ravel(x0),lambda x: self.gradFun(x))\n print(\"optimization completed with cost: \" + str(f))\n return result.reshape(self.inp_shape)", "def CostFunction(self, out, V, P, params):\n u = self.u\n p = self.p\n puni = self.puni\n xd = self.xd\n xa = self.xa\n l = self.l\n Lagrange_Tracking = 0\n Lagrange_Regularisation = 0\n\n # input regularization\n for name in set(u.keys()):\n Lagrange_Regularisation += puni['weights',name][0]*ca.mtimes((u[name]-p['ref',name]).T,u[name]-p['ref',name])\n\n Lagrange_Regularisation += puni['weights','AoA']*out['AoA']**2\n Lagrange_Regularisation += puni['weights','sslip']*out['sslip']**2\n\n # --- Initialization tracking\n for name in set(xd.keys())- set(['R','E','Drag']):\n Lagrange_Tracking += puni['weights',name][0]*ca.mtimes((xd[name]-p['ref',name]).T,xd[name]-p['ref',name])\n for k in range(9):\n Lagrange_Tracking += ca.reshape(puni['weights','R'][0]*ca.mtimes((xd['R']-p['ref','R']).T,xd['R']-p['ref','R']),9,1)[k]\n\n\n Lagrange_Tracking = ca.Function('lagrange_track', [xd,xa,u,p,puni,l],[Lagrange_Tracking])\n Lagrange_Regularisation = ca.Function( 'lagrange_reg', [xd,xa,u,p,puni,l],[Lagrange_Regularisation])\n\n\n Tracking = 0\n Regularisation = 0\n\n\n for k in range(self.nk): # V['XA',k,0] is not same time step as V['Xd',k,0] but same result\n ftrack = Lagrange_Tracking(V['Xd',k,0], V['XA',k,0], V['U',k], P['p',k,0],P['puni'], V['l'])\n Tracking += ftrack\n\n freg = Lagrange_Regularisation(V['Xd',k,0], V['XA',k,0], V['U',k], P['p',k,0],P['puni'], V['l'])\n Regularisation += freg\n\n E_final = 10. * V['Xd',-1,-1,'E'] # for maximising final energy\n Tracking_Cost = (1-P['toggle_to_energy']) * Tracking #* 1e-3 # Tracking of initial guess\n Regularisation_Cost = Regularisation # Regularisation of inputs\n Lift_Cost = 0.5*V['vlift']**2 #* 1e2 # Regularisation of inputs\n Energy_Cost = P['toggle_to_energy'] * (E_final/params['sref'])/V['tf']\n SOSCFix = 10. * V['Xd',self.nk/4,0,'q',1]**2\n\n Cost = 0\n Cost = (Tracking_Cost + Regularisation_Cost + Lift_Cost + SOSCFix)/float(self.nk) + Energy_Cost\n\n return Cost", "def _propagateInputClassification(self,input):\n Y,Z = self._propagateInputRegression(input)\n \n #apply softmax function\n try:\n \n expY = [_exp(y) for y in Y]\n \n #if the exp of the outputs starts getting too big just normalize the outputs\n except OverflowError: \n expY = Y\n sumExpY = sum(expY)\n \n Y = [y/sumExpY for y in Y]\n \n return Y,Z", "def preprocess(self, first_inputs,second_inputs,third_inputs):\r\n pass", "def task_metalearn(inp, reuse=True):\n inputa1,inputa2,inputa3, inputb1,inputb2,inputb3, labela, labelb = inp\n print(\"Input a: \" , inputa1)\n task_outputbs, task_lossesb, auto_losses = [], [], []\n auto_loss = None\n\n #One for each. \n\n # This takes in the input and passes out the latent variables.\n temp_in_a_1 = self.encoder(inputa1,self.auto_weights, reuse=reuse)\n #Then transform it back, and take the loss\n temp_out_a_1 = self.decoder(temp_in_a_1,self.auto_weights, reuse=reuse)\n auto_out_a_1 = temp_out_a_1\n\n temp_in_a_2 = self.encoder(inputa2,self.auto_weights, reuse=reuse)\n #Then transform it back, and take the loss\n temp_out_a_2 = self.decoder(temp_in_a_2,self.auto_weights, reuse=reuse)\n auto_out_a_2 = temp_out_a_2\n\n temp_in_a_3 = self.encoder(inputa3,self.auto_weights, reuse=reuse)\n #Then transform it back, and take the loss\n temp_out_a_3 = self.decoder(temp_in_a_3,self.auto_weights, reuse=reuse)\n auto_out_a_3 = temp_out_a_3\n\n # This takes in the input and passes out the latent variables.\n temp_in_b_1 = self.encoder(inputb1,self.auto_weights, reuse=reuse)\n #Then transform it back, and take the loss\n temp_out_b_1 = self.decoder(temp_in_b_1,self.auto_weights, reuse=reuse)\n auto_out_b_1 = temp_out_b_1\n\n temp_in_b_2 = self.encoder(inputb2,self.auto_weights, reuse=reuse)\n #Then transform it back, and take the loss\n temp_out_b_2 = self.decoder(temp_in_b_2,self.auto_weights, reuse=reuse)\n auto_out_b_2 = temp_out_b_2\n\n temp_in_b_3 = self.encoder(inputb3,self.auto_weights, reuse=reuse)\n #Then transform it back, and take the loss\n temp_out_b_3 = self.decoder(temp_in_b_3,self.auto_weights, reuse=reuse)\n auto_out_b_3 = temp_out_b_3\n\n\n #print(\"temp out a: \" , temp_out_a)\n la_1 = self.loss_func(temp_out_a_1,inputa1)\n la_2 = self.loss_func(temp_out_a_2,inputa2)\n la_3 = self.loss_func(temp_out_a_3,inputa3)\n\n lb_1 = self.loss_func(temp_out_b_1,inputb1)\n lb_2 = self.loss_func(temp_out_b_2,inputb2)\n lb_3 = self.loss_func(temp_out_b_3,inputb3)\n\n auto_loss = la_1+la_2+la_3\n\n print(\"Input a1: \" , temp_in_a_1)\n inputa=tf.concat([temp_in_a_1, temp_in_a_2,temp_in_a_3],1)\n inputb=tf.concat([temp_in_b_1, temp_in_b_2,temp_in_b_3],1)\n print(\"Inputa: \" , inputa)\n task_outputa = self.forward(inputa, weights, reuse=reuse) # only reuse on the first iter\n temp_outputa = self.decoder(task_outputa,self.auto_weights,reuse=reuse)\n \n print(\"Task outputa: \" , temp_outputa)\n print(\"Label a: \" , labela)\n task_lossa = self.loss_func(temp_outputa, labela)\n\n grads = tf.gradients(task_lossa, list(weights.values()))\n if FLAGS.stop_grad:\n grads = [tf.stop_gradient(grad) for grad in grads]\n gradients = dict(zip(weights.keys(), grads))\n fast_weights = dict(zip(weights.keys(), [weights[key] - self.update_lr*gradients[key] for key in weights.keys()]))\n output = self.forward(inputb, fast_weights, reuse=True)\n \n temp_outputb = self.decoder(output,self.auto_weights, reuse=True)\n output = temp_outputb\n\n task_outputbs.append(output)\n print(\"Output: \" , output)\n print(\"Labels: \" , labelb)\n task_lossesb.append(self.loss_func(output, labelb))\n print(\"Num updates is: \" , num_updates-1)\n\n for j in range(num_updates - 1):\n loss = self.loss_func(self.decoder(self.forward(inputa, fast_weights, reuse=True),self.auto_weights), labela)\n grads = tf.gradients(loss, list(fast_weights.values()))\n if FLAGS.stop_grad:\n grads = [tf.stop_gradient(grad) for grad in grads]\n gradients = dict(zip(fast_weights.keys(), grads))\n fast_weights = dict(zip(fast_weights.keys(), [fast_weights[key] - self.update_lr*gradients[key] for key in fast_weights.keys()]))\n \n output = self.forward(inputb, fast_weights, reuse=True)\n output = self.decoder(output,self.auto_weights)\n \n task_outputbs.append(output)\n task_lossesb.append(self.loss_func(output, labelb))\n # Task Outputa Direct output, non-decoded (only first step). This is the location (so it is in hyperparameter space)\n # Task_outputbs Output from complete system, for each step (first is after 1st step, 2nd is after next, etc.)\n # task_lossa Loss of difference in first step (decoded)\n # task_lossesb Losses from complete ssystem from each step \n # auto_loss Sum of all auto-encoding loss of a's\n # auto_out_a_1 Auto-encoded a1 output\n # auto_out_a_2 Auto-encoded a2 output\n\n task_output = [temp_outputa, task_outputbs, task_lossa, task_lossesb, auto_loss,auto_out_a_1,auto_out_a_2]\n return task_output", "def __call__(self, init_layout, train_data=False, **kwargs):\n # http://www.alglib.net/optimization/boundandlinearlyconstrained.php\n # xs = [2, 2]\n # bounds = ([-np.inf, 1.5], np.inf)\n bounds = []\n for const in init_layout.problem.constraints():\n lb = -np.inf if const._min is None else const._min\n ub = +np.inf if const._max is None else const._max\n bounds.append([lb, ub])\n\n X_0 = init_layout.to_vec4()\n\n # if train_data is True:\n # t_train = np.linspace(t_min, t_max, n_points)\n # y_train = gen_data(t_train, a, b, c, noise=0.1, n_outliers=3)\n res = optim.least_squares(self._cost_fn, X_0,\n loss='soft_l1',\n # args=(t_train, y_train),\n bounds=bounds)\n\n # optim.lsq_linear(A, b, bounds=[], method='blvs')\n res2 = optim.minimize(self._cost_fn,\n X_0,\n method=\"L-BFGS-B\"\n )\n # optim.LinearConstraint\n \"\"\"\n https://cvxopt.org/examples/tutorial/qp.html\n position\n \n adjacent \n < r1_x - r2_x \n \n \n \"\"\"\n return res", "def process_inputs(self, inputs):", "def _get_input_data(self, var, start_date, end_date):\n logging.info(self._print_verbose(\"Getting input data:\", var))\n # Pass numerical constants as is.\n if isinstance(var, (float, int)):\n return var\n # aospy.Var objects remain.\n # Pressure handled specially due to complications from sigma vs. p.\n elif var.name in ('p', 'dp'):\n data = self._get_pressure_vals(var, start_date, end_date)\n if self.dtype_in_vert == internal_names.ETA_STR:\n return self._to_desired_dates(data)\n return data\n # Get grid, time, etc. arrays directly from model object\n elif var.name in (internal_names.LAT_STR, internal_names.LON_STR,\n internal_names.TIME_STR, internal_names.PLEVEL_STR,\n internal_names.PK_STR, internal_names.BK_STR,\n internal_names.SFC_AREA_STR):\n data = getattr(self.model, var.name)\n else:\n cond_pfull = ((not hasattr(self, internal_names.PFULL_STR))\n and var.def_vert and\n self.dtype_in_vert == internal_names.ETA_STR)\n data = self.data_loader.load_variable(var, start_date, end_date,\n self.time_offset,\n **self.data_loader_attrs)\n name = data.name\n data = self._add_grid_attributes(data.to_dataset(name=data.name))\n data = data[name]\n if cond_pfull:\n try:\n self.pfull_coord = data[internal_names.PFULL_STR]\n except KeyError:\n pass\n # Force all data to be at full pressure levels, not half levels.\n bool_to_pfull = (self.dtype_in_vert == internal_names.ETA_STR and\n var.def_vert == internal_names.PHALF_STR)\n if bool_to_pfull:\n data = utils.vertcoord.to_pfull_from_phalf(data,\n self.pfull_coord)\n if var.def_time:\n # Restrict to the desired dates within each year.\n if self.dtype_in_time != 'av':\n return self._to_desired_dates(data)\n else:\n return data" ]

[ "0.75954765", "0.58628434", "0.56659245", "0.5474209", "0.54651934", "0.5464624", "0.5457585", "0.5383377", "0.53758955", "0.5368115", "0.53530073", "0.53413105", "0.5320913", "0.5311969", "0.5309887", "0.5296562", "0.52821916", "0.5266035", "0.52494615", "0.524528", "0.52344966", "0.5226535", "0.52047956", "0.51861763", "0.5182696", "0.51799136", "0.5179547", "0.5175456", "0.5174533", "0.5165105" ]

[ "def isdouparname(self,parname_): # 3\n res,resargs = self.__obj.isdouparname(parname_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _param_return_value = resargs\n _param_return_value = dparam(_param_return_value)\n return _param_return_value", "def isstrparname(self,parname_): # 3\n res,resargs = self.__obj.isstrparname(parname_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _param_return_value = resargs\n _param_return_value = sparam(_param_return_value)\n return _param_return_value", "def legal_name(name, is_param_name=False):\n if name.startswith('_'):\n return False\n\n if name in ('self',):\n return False\n\n if keyword.iskeyword(name):\n return False\n\n regex = r'^[a-zA-Z][a-zA-Z0-9_]*$' if is_param_name else (\n r'^[a-zA-Z][.\\w-]*$')\n return bool(re.match(regex, name))", "def isintparname(self,parname_): # 3\n res,resargs = self.__obj.isintparname(parname_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _param_return_value = resargs\n _param_return_value = iparam(_param_return_value)\n return _param_return_value", "def has_parameter(self, name):\n for par in self.params:\n if par.name == name:\n return True\n return False", "def _check_name(self):\n\t\tpass", "def _check_name(self, symbol):\n if symbol.type == self.scanner.NAME:\n return True\n else:\n return False", "def isstrparname(self,parname_):\n if isinstance(parname_,unicode):\n parname_ = parname_.encode(\"utf-8\",errors=\"replace\")\n param_ = ctypes.c_int32()\n res = __library__.MSK_XX_isstrparname(self.__nativep,parname_,ctypes.byref(param_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _param_return_value = sparam(param_.value)\n return (_param_return_value)", "def is_selfish_name(name):\n return name in SELFISH_PARAMETER_NAMES", "def _check_for_parameter_syntax(self,parameter):\n err_msg = \"Illegal parameter name {}.\".format(parameter)\n if len(parameter) == 0:\n raise ValueError(err_msg + \" Empty parameter name\")\n if parameter[0] != '$':\n raise ValueError(err_msg + \" Parameter must start with '$'\")\n if parameter != string.join(parameter.split()).translate(None,' '):\n raise ValueError(err_msg + \" Parameter can't contain whitepaces\")\n if ('$' in parameter and parameter[0] != '$') or (parameter.count('$') > 1):\n raise ValueError(\n err_msg + \" Wrong parameter specification in {}\".format(parameter)\n )", "def _is_valid_varname(self, name):\n if name in RESERVED or re.match(r'^str([0-9]+|L)$', name): return False\n return True if VALID_NAME_RE.match(name) else False", "def _is_valid_varname(self, name):\n if name in RESERVED or re.match(r'^str[0-9]+$', name): return False\n return True if VALID_NAME_RE.match(name) else False", "def has_name(self):\n return self.unpack_word(0x2) != 0", "def verify_name(name):\n try:\n if name.index(' '):\n return False\n except ValueError:\n return True", "def has_param_with_name(self, param_name):\n return param_name in self.params", "def is_named(self):\n return self._name != \"\"", "def _is_valid_input(self, parameter_name):\n raise NotImplementedError()", "def _illegal_parameter(self, name):\r\n raise ValueError(\r\n 'parameter \"%s\" is not registered.\\nLegal '\\\r\n 'parameters are\\n%s' %\r\n (name, ' '.join(list(self.prm.keys()))))", "def _check_validparam(self, symbol):\n if symbol.type == self.scanner.KEYWORD and \\\n symbol.id in self.validparamids:\n return True\n else:\n return False", "def _validate_name(name):\r\n\tif HOST_NAME != name and len(name) > 0 and ZOOM_PHRASES[0] not in name and name not in WAITING_ROOM:\r\n\t\treturn True\r\n\treturn False", "def _is_dunder(name):\n return (name[:2] == name[-2:] == '__' and\n name[2:3] != '_' and\n name[-3:-2] != '_' and\n len(name) > 4)", "def is_reserved_with_trailing_underscore(name):\r\n if name.endswith('_') and not name.endswith('__'):\r\n return is_reserved_name(name[:-1])\r\n return False", "def isValidDataTypeName(name: unicode) -> bool:\n ...", "def test_name_validation(self, attr):\n kwargs = {'kind': POSITIONAL_ONLY, attr: 3}\n with pytest.raises(TypeError) as excinfo:\n FParameter(**kwargs)\n assert excinfo.value.args[0] == \\\n '{} must be a str, not a {}'.format(attr, 3)", "def check_parameter(cls, par: str, value):\n\n global dtParameterDesc\n if par not in dtParameterDesc:\n return False\n\n pardata = dtParameterDesc[par]\n\n if isinstance(value, str):\n try:\n value = float(value.replace(',', '.')) * dtg.units[pardata['dunit']]['multiple']\n except ValueError:\n return False\n\n if pardata['type'] is Integral and value != int(value):\n return False\n\n if 'uplim' in pardata and (value > pardata['uplim'] or value < pardata['lowlim']):\n return False\n\n return True", "def isAddName(name):\t\n if lib.essentials.isAlphanumeric(name) != 0:\n\tprint \" '%s' is not valid name. \\n Vadapter-name should be an alphanumeric.\" % (name)\n #output.completeOutputError(lib.errorhandler.InvalidArgumentCount(descape = \" '%s' is not valid name. \\n Vadapter-name should be an alphanumeric.\" % (name))) \n return -1\n \n if lib.essentials.isStartNumeric(name) != 0:\n\tprint \"'%s' is not valid name. \\n Vadapter name should not start with an digit\"% (name)\n\t#output.completeOutputError(lib.errorhandler.InvalidArgumentCount(descape = \"'%s' is not valid name. \\n Vadapter name should not start with an digit\"% (name)))\n return -1\n\n if lib.essentials.isContainSpecial(name) != 0:\n\tprint \"'%s' is not valid name. \\n Vadapter name should not contain special characher\" % (name)\n\t#output.completeOutputError(InvalidArgumentCount(descape = \"'%s' is not valid name. \\n Vadapter name should not contain special characher\" % (name)))\n return -1\n\n# if lib.db.db.ifExistsInDatabase(name) == 0:\n#\tprint NameError(\"'%s' is not valid name. \\n Already Exists\" % (name))\n#\treturn -1\n \n return 0", "def validate_names(name):\n return isinstance(name, str) and not re.search(r'[\\s]', name)", "def verify_name(name):\n if name and not name.isspace(): # if it's not empty/NULL and it's not whitespace\n return True\n else:\n return False", "def isintparname(self,parname_):\n if isinstance(parname_,unicode):\n parname_ = parname_.encode(\"utf-8\",errors=\"replace\")\n param_ = ctypes.c_int32()\n res = __library__.MSK_XX_isintparname(self.__nativep,parname_,ctypes.byref(param_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _param_return_value = iparam(param_.value)\n return (_param_return_value)", "def verify_naming(self, reserved):\n for w in reserved:\n if w in self.decisions:\n raise ParseError('Duplicate variable/block name \"{}\"'.format(w))" ]

[ "0.80806935", "0.68700576", "0.64967716", "0.63709056", "0.61381704", "0.60840553", "0.59852844", "0.5982808", "0.58434045", "0.5807862", "0.5747373", "0.57192117", "0.5711429", "0.5684285", "0.5672923", "0.56625664", "0.56414455", "0.5623535", "0.56149685", "0.5614595", "0.5577352", "0.55741817", "0.5538922", "0.5486591", "0.5463054", "0.5462326", "0.54318506", "0.5415201", "0.539328", "0.53866243" ]

[ "def isintparname(self,parname_): # 3\n res,resargs = self.__obj.isintparname(parname_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _param_return_value = resargs\n _param_return_value = iparam(_param_return_value)\n return _param_return_value", "def isstrparname(self,parname_): # 3\n res,resargs = self.__obj.isstrparname(parname_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _param_return_value = resargs\n _param_return_value = sparam(_param_return_value)\n return _param_return_value", "def isstrparname(self,parname_):\n if isinstance(parname_,unicode):\n parname_ = parname_.encode(\"utf-8\",errors=\"replace\")\n param_ = ctypes.c_int32()\n res = __library__.MSK_XX_isstrparname(self.__nativep,parname_,ctypes.byref(param_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _param_return_value = sparam(param_.value)\n return (_param_return_value)", "def isdouparname(self,parname_):\n if isinstance(parname_,unicode):\n parname_ = parname_.encode(\"utf-8\",errors=\"replace\")\n param_ = ctypes.c_int32()\n res = __library__.MSK_XX_isdouparname(self.__nativep,parname_,ctypes.byref(param_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _param_return_value = dparam(param_.value)\n return (_param_return_value)", "def isdouparname(self,parname_): # 3\n res,resargs = self.__obj.isdouparname(parname_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _param_return_value = resargs\n _param_return_value = dparam(_param_return_value)\n return _param_return_value", "def _is_valid_input(self, parameter_name):\n raise NotImplementedError()", "def getIntParam(self, params, name):\n try:\n return int(params.get(name))\n except:\n return None", "def check_parameter(cls, par: str, value):\n\n global dtParameterDesc\n if par not in dtParameterDesc:\n return False\n\n pardata = dtParameterDesc[par]\n\n if isinstance(value, str):\n try:\n value = float(value.replace(',', '.')) * dtg.units[pardata['dunit']]['multiple']\n except ValueError:\n return False\n\n if pardata['type'] is Integral and value != int(value):\n return False\n\n if 'uplim' in pardata and (value > pardata['uplim'] or value < pardata['lowlim']):\n return False\n\n return True", "def has_param_with_name(self, param_name):\n return param_name in self.params", "def has_parameter(self, name):\n for par in self.params:\n if par.name == name:\n return True\n return False", "def __is_int(self,string):\r\n try: \r\n int(string)\r\n return True\r\n except ValueError:\r\n return False", "def legal_name(name, is_param_name=False):\n if name.startswith('_'):\n return False\n\n if name in ('self',):\n return False\n\n if keyword.iskeyword(name):\n return False\n\n regex = r'^[a-zA-Z][a-zA-Z0-9_]*$' if is_param_name else (\n r'^[a-zA-Z][.\\w-]*$')\n return bool(re.match(regex, name))", "def validate_puzzle_param(self, name):\n is_puzzle_parameter_valid = False\n while is_puzzle_parameter_valid is False:\n puzzle_parameter = self.ask_user_input(\"Enter a valid '\" + name + \"'\")\n if not puzzle_parameter.isdigit():\n print(\"Not a number, please try again\")\n elif 1 <= int(puzzle_parameter) <= 9:\n is_puzzle_parameter_valid = True\n self.current_response = puzzle_parameter\n else:\n print(\"Number is out of the valid range (1 to 9), please try again\")\n return is_puzzle_parameter_valid", "def __checkInput(self, var):\n try:\n int(var)\n\n except:\n return False\n\n else:\n return True", "def validate_integer(self, p_str):\n # p_str is str\n if re.search(r\"^[1-9]\\d*$\", p_str) or p_str == \"\":\n return True\n self.frame.bell() # alert wrong input\n return False", "def check_params(self, name, fs_in, fs_out, window):\n if not isinstance(name, str):\n raise TypeError('name must be a string, not %s' % name)\n if fs_in <= 0:\n raise ValueError('fs_in should not be less than 0.')\n if fs_out <= 0:\n raise ValueError('fs_out should not be less than 0.')\n if window <= 0:\n raise ValueError('window must be greater than than 0.')", "def validate_int(self, name, number):\n if type(number) is not int:\n raise TypeError(\"{} must be an integer\".format(name))", "def validate_int(self, name, number):\n if type(number) is not int:\n raise TypeError(\"{} must be an integer\".format(name))", "def _check_id(self, keyword):\n if keyword not in self.request.data:\n return '{} parameter is missing'.format(keyword)\n \"\"\" Check if <keyword> parameter is not None \"\"\"\n if self.request.data[keyword] == '':\n return '{} ID cannot be None'.format(keyword)\n \"\"\" Check if <keyword> parameter is > 0 \"\"\"\n if int(self.request.data[keyword]) < 1:\n return '{} ID must be an integer > 0'.format(keyword)", "def getintparam(self,param_): # 3\n if not isinstance(param_,iparam): raise TypeError(\"Argument param has wrong type\")\n res,resargs = self.__obj.getintparam(param_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _parvalue_return_value = resargs\n return _parvalue_return_value", "def _illegal_parameter(self, name):\r\n raise ValueError(\r\n 'parameter \"%s\" is not registered.\\nLegal '\\\r\n 'parameters are\\n%s' %\r\n (name, ' '.join(list(self.prm.keys()))))", "def checkint(name, val, mn=None, mx=None):\n try:\n\tif val[0:2] == '0x' or val[0:2] == '0X':\n\t x = string.atoi(val, 16)\n\telif val[0:0] == '0':\n\t x = string.atoi(val, 8)\n\telse:\n\t # allow commas as long as they are properly spaced\n\t x = string.split(val, \",\")\n\t if len(x) > 1:\n\t\tfor e in x[1:]:\n\t\t if len(e) != 3:\n\t\t\traise ValidationError, \\\n\t\t\t '%s is not a valid integer' % val\n\t\tif len(x[0]) < 1 or len(x[0]) > 3:\n\t\t raise ValidationError, \\\n\t\t\t '%s is not a valid integer' % val\n\t\tval = re.sub(\",\", \"\", val)\n\t x = string.atoi(val)\n\tif ((mn is not None and x < mn) or\n\t (mx is not None and x > mx)):\n\t\traise ValidationError, \\\n\t\t 'parameter \"%s\", value \"%s\" is out of range' % \\\n\t\t (name, val)\n\treturn\n except ValueError:\n\traise ValidationError, '%s is not a valid integer' % val", "def test_integer_identifier(self):\n self._compare_avp(\n avp.AVP(1, 'Hello'),\n avp.UTF8StringAVP(\n 1, value='Hello', vendor=avp.VendorId.DEFAULT,\n flags=avp.FLAG_MANDATORY,\n name='User-Name',\n ),\n )\n\n # Unknown AVPs default to unknown AVP\n self._compare_avp(\n avp.AVP(0xdeadb33f, b'wut'),\n avp.UnknownAVP(\n 0xdeadb33f, value=b'wut',\n vendor=avp.VendorId.DEFAULT,\n flags=0, name='Unknown-AVP',\n ),\n )", "def only_int(p):\r\n if p.isdigit():\r\n return True\r\n return False", "def integer_validator(self, name, value):\n if type(value) is not int:\n raise TypeError(name + \" must be an integer\")\n elif value <= 0 and name not in (\"x\", \"y\"):\n raise ValueError(name + \" must be > 0\")\n elif value < 0 and name in (\"x\", \"y\"):\n raise ValueError(name + \" must be >= 0\")", "def putintparam(self,param_,parvalue_): # 3\n if not isinstance(param_,iparam): raise TypeError(\"Argument param has wrong type\")\n res = self.__obj.putintparam(param_,parvalue_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def _is_valid_varname(self, name):\n if name in RESERVED or re.match(r'^str[0-9]+$', name): return False\n return True if VALID_NAME_RE.match(name) else False", "def _check_validparam(self, symbol):\n if symbol.type == self.scanner.KEYWORD and \\\n symbol.id in self.validparamids:\n return True\n else:\n return False", "def isEditName(id):\n for char in id:\n if re.compile('[0-9]+').match(char[0]) == None:\n print NameError(\"'%s' is not valid name. \\n Id should be numeric\" % (name))\n return -1\n return 0", "def _isintvar(self, index):\n return 251 <= self._typlist[index] <= 253" ]

[ "0.8943503", "0.72626674", "0.7105855", "0.6482964", "0.63203907", "0.6214711", "0.61602587", "0.61551595", "0.60910577", "0.6028535", "0.59252524", "0.57617325", "0.5749392", "0.57139874", "0.5683462", "0.5636818", "0.56267637", "0.56267637", "0.5624048", "0.56225157", "0.5616737", "0.55818766", "0.5565457", "0.5550738", "0.553895", "0.5531683", "0.55136746", "0.5511876", "0.54896235", "0.54834133" ]

[ "def isstrparname(self,parname_): # 3\n res,resargs = self.__obj.isstrparname(parname_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _param_return_value = resargs\n _param_return_value = sparam(_param_return_value)\n return _param_return_value", "def string_check(param, name):\n\tif not isinstance(param, strcomp):\n\t\traise TypeError(\"Keyword arg '%s' must be of type string. Got: %s\" % (\n\t\t\tname, type(param)))\n\telse:\n\t\tpass", "def isintparname(self,parname_): # 3\n res,resargs = self.__obj.isintparname(parname_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _param_return_value = resargs\n _param_return_value = iparam(_param_return_value)\n return _param_return_value", "def isintparname(self,parname_):\n if isinstance(parname_,unicode):\n parname_ = parname_.encode(\"utf-8\",errors=\"replace\")\n param_ = ctypes.c_int32()\n res = __library__.MSK_XX_isintparname(self.__nativep,parname_,ctypes.byref(param_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _param_return_value = iparam(param_.value)\n return (_param_return_value)", "def isdouparname(self,parname_):\n if isinstance(parname_,unicode):\n parname_ = parname_.encode(\"utf-8\",errors=\"replace\")\n param_ = ctypes.c_int32()\n res = __library__.MSK_XX_isdouparname(self.__nativep,parname_,ctypes.byref(param_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _param_return_value = dparam(param_.value)\n return (_param_return_value)", "def isdouparname(self,parname_): # 3\n res,resargs = self.__obj.isdouparname(parname_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _param_return_value = resargs\n _param_return_value = dparam(_param_return_value)\n return _param_return_value", "def _is_valid_varname(self, name):\n if name in RESERVED or re.match(r'^str[0-9]+$', name): return False\n return True if VALID_NAME_RE.match(name) else False", "def legal_name(name, is_param_name=False):\n if name.startswith('_'):\n return False\n\n if name in ('self',):\n return False\n\n if keyword.iskeyword(name):\n return False\n\n regex = r'^[a-zA-Z][a-zA-Z0-9_]*$' if is_param_name else (\n r'^[a-zA-Z][.\\w-]*$')\n return bool(re.match(regex, name))", "def _is_valid_varname(self, name):\n if name in RESERVED or re.match(r'^str([0-9]+|L)$', name): return False\n return True if VALID_NAME_RE.match(name) else False", "def check_param(self, param_str):\n param_groups = None\n \"\"\" Initial param cosmetic adjustment \"\"\"\n param_str = param_str.strip()\n\n \"\"\" Cherck the param syntax \"\"\"\n for key, pattern in self.patterns.items():\n param_groups = re.fullmatch(pattern, param_str)\n if param_groups:\n return True\n return False", "def check_param(self, param_str):\n param_groups = None\n \"\"\" Initial param cosmetic adjustment \"\"\"\n param_str = param_str.strip()\n\n \"\"\" Cherck the param syntax \"\"\"\n for key, pattern in self.patterns.items():\n param_groups = re.fullmatch(pattern, param_str)\n if param_groups:\n return True\n return False", "def validate_input_string(self):\n invalid_string = \"\"\n try:\n for key in self.module.params:\n val = self.module.params[key]\n if key == \"description\" or key == \"snap_schedule_name\" \\\n or key == \"snap_schedule_id\":\n continue\n if isinstance(val, str) \\\n and val == invalid_string:\n errmsg = 'Invalid input parameter \"\" for {0}'.format(\n key)\n self.module.fail_json(msg=errmsg)\n\n except Exception as e:\n errormsg = \"Failed to validate the module param with \" \\\n \"error {0}\".format(str(e))\n LOG.error(errormsg)\n self.module.fail_json(msg=errormsg)", "def putnastrparam(self,paramname_,parvalue_): # 3\n res = self.__obj.putnastrparam(paramname_,parvalue_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def has_param_with_name(self, param_name):\n return param_name in self.params", "def putstrparam(self,param_,parvalue_): # 3\n if not isinstance(param_,sparam): raise TypeError(\"Argument param has wrong type\")\n res = self.__obj.putstrparam(param_,parvalue_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def _is_valid_input(self, parameter_name):\n raise NotImplementedError()", "def validname(name):\r\n return len(name)>0 and (\r\n Context.__invalid_character.search(name) is None)", "def _check_for_parameter_syntax(self,parameter):\n err_msg = \"Illegal parameter name {}.\".format(parameter)\n if len(parameter) == 0:\n raise ValueError(err_msg + \" Empty parameter name\")\n if parameter[0] != '$':\n raise ValueError(err_msg + \" Parameter must start with '$'\")\n if parameter != string.join(parameter.split()).translate(None,' '):\n raise ValueError(err_msg + \" Parameter can't contain whitepaces\")\n if ('$' in parameter and parameter[0] != '$') or (parameter.count('$') > 1):\n raise ValueError(\n err_msg + \" Wrong parameter specification in {}\".format(parameter)\n )", "def putnastrparam(self,paramname_,parvalue_):\n if isinstance(paramname_,unicode):\n paramname_ = paramname_.encode(\"utf-8\",errors=\"replace\")\n if isinstance(parvalue_,unicode):\n parvalue_ = parvalue_.encode(\"utf-8\",errors=\"replace\")\n res = __library__.MSK_XX_putnastrparam(self.__nativep,paramname_,parvalue_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def _check_name(self):\n\t\tpass", "def verify_name(name):\n if name and not name.isspace(): # if it's not empty/NULL and it's not whitespace\n return True\n else:\n return False", "def validate_string(s, name=''):\n assert (s is not None), name + ' settings should not be None'\n assert (isinstance(s, str)), name + ' settings should be a string'\n assert (s != ''), name + ' settings should be not be empty'", "def validName(varname):\r\n if (len(varname[0])>32):\r\n return False\r\n if not(varname[0][0].isalpha()):\r\n return False \r\n for ch in varname[0][1:]:\r\n if not(ch.isalpha() or ch.isdigit() or ch=='_'):\r\n return False\r\n \r\n return True", "def _validate_name(name):\r\n\tif HOST_NAME != name and len(name) > 0 and ZOOM_PHRASES[0] not in name and name not in WAITING_ROOM:\r\n\t\treturn True\r\n\treturn False", "def check_valid_key_name(name):\n if type(name) not in [str]:\n return False\n bad_chars = [\"*\", \".\", \"&&&&\"]\n for k in bad_chars:\n if k in name:\n return False\n return True", "def validate_names(name):\n return isinstance(name, str) and not re.search(r'[\\s]', name)", "def is_valid(self, qstr):\r\n pass", "def verify_name(name):\n try:\n if name.index(' '):\n return False\n except ValueError:\n return True", "def has_parameter(self, name):\n for par in self.params:\n if par.name == name:\n return True\n return False", "def test_name_validation(self, attr):\n kwargs = {'kind': POSITIONAL_ONLY, attr: 3}\n with pytest.raises(TypeError) as excinfo:\n FParameter(**kwargs)\n assert excinfo.value.args[0] == \\\n '{} must be a str, not a {}'.format(attr, 3)" ]

[ "0.89850354", "0.7278682", "0.7277868", "0.7031824", "0.70296276", "0.6844901", "0.6804795", "0.6768947", "0.6753342", "0.66259956", "0.66259956", "0.64886266", "0.62590593", "0.62335366", "0.61893946", "0.6130385", "0.6129044", "0.61108005", "0.6060818", "0.6014146", "0.5991578", "0.5989824", "0.59682965", "0.59679264", "0.596351", "0.5959435", "0.5958055", "0.59452754", "0.5927105", "0.59172624" ]

[ "def linkfiletostream(self,whichstream_,filename_,append_): # 3\n if not isinstance(whichstream_,streamtype): raise TypeError(\"Argument whichstream has wrong type\")\n res = self.__obj.linkfiletotaskstream(whichstream_,filename_,append_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def linkfiletostream(self,whichstream_,filename_,append_): # 3\n if not isinstance(whichstream_,streamtype): raise TypeError(\"Argument whichstream has wrong type\")\n res = self.__obj.linkfiletoenvstream(whichstream_,filename_,append_)\n if res != 0:\n raise Error(rescode(res),\"\")", "def linkfiletostream(self,whichstream_,filename_,append_):\n if isinstance(filename_,unicode):\n filename_ = filename_.encode(\"utf-8\",errors=\"replace\")\n res = __library__.MSK_XX_linkfiletoenvstream(self.__nativep,whichstream_,filename_,append_)\n if res != 0:\n raise Error(rescode(res),Env.getcodedesc(rescode(res))[1])", "def addFileToStream(filename, outstream, header=None, outputIsDir=False):\n if outputIsDir:\n # Special case if output is a directory\n copyFragmentOutputDir(filename, outstream)\n return\n\n # if outstream is file,stream pair, get stream\n outstream=getStream(outstream)\n\n if header is not None:\n outstream.write(header)\n outstream.write('\\n')\n\n with open(filename, 'rt') as f:\n for line in f:\n outstream.write(line)", "def writefile(name, instream, start=None, end=None, append=False):", "def writefile(path, instream, start=None, end=None, append=False):", "def set_output(self, *, file, filemode='a'):\n self._output = open(file, filemode) if isinstance(file, str) else file", "def stream_to_file(self, path):\n # Using default state of files being overwritten for now\n if os.path.exists(path):\n os.remove(path)\n\n # Stream downloaded contents to file and show progress\n with open(path, 'wb') as f:\n for chunk in self.stream.iter_content(chunk_size=self.chunk_size):\n f.write(chunk)\n self.progress += int(len(chunk))\n self.prog_bar.show(self.progress)", "def _open_output_files(self):\n self.links_outfile = open(self.opts.links_outfile, 'wb')", "def append(self, file):\n\t\tself.stream.next.append_file(file)", "def open_file(self):\n self.file = open(os.path.join(self.__output_dir,\n self.__file_name), 'a+')", "def attach_stream(self, name, mode):\n stream = open(getattr(self, name), mode)\n os.dup2(stream.fileno(), getattr(sys, name).fileno())", "def __do_write(filestream, seq, header=None):\n if header is not None:\n filestream.write(header + '\\n') # double check newlines\n try:\n for line in chunks(seq, 70):\n filestream.write(line + '\\n')\n except Exception as e:\n print(e)", "def render_book_to_stream(self, file_stream, book, **keywords):\n raise NotImplementedError(\"We are not writing to file\")", "def render_sheet_to_stream(self, file_stream, sheet, **keywords):\n raise NotImplementedError(\"We are not writing to file\")", "async def stream_file(self, file: Union[str, io.BufferedReader], **kwargs) -> None:\n await self.relay(\"stream_file\")(file, **kwargs)", "def beginFileOutput(self):\n self._outputFilepath = self.dataSet[self._outputFileLabel]\n self._outputFile = open(self._outputFilepath, 'w')", "def send_file(cobj, dest, port, fname, hash, handler):\n pass", "def export(self, stream):\n pass", "def copy_and_link(file_name):\n if os.path.normpath(output_path) != os.getcwd():\n write_to_runner(f\"mv {file_name} {output_path} \\n\")\n write_to_runner(f\"ln -s {output_path}/{file_name} . \\n\")", "def setOutputStream(self, stream):\n self.stream = stream", "def write(self, instream: typ.BinaryIO, filepath: str,\r\n filename: str = None) -> None:\r\n if filename is not None:\r\n filename = path.basename(filename)\r\n if self.fs_type == 'FAT':\r\n allocator_metadata = self.fs.write(instream, filepath)\r\n self.metadata.add_file(filename, allocator_metadata)\r\n elif self.fs_type == 'NTFS':\r\n allocator_metadata = self.fs.write(instream, filepath)\r\n self.metadata.add_file(filename, allocator_metadata)\r\n else:\r\n raise NotImplementedError()", "def on_line(self, stream_name, line):\n if stream_name == 'stdout':\n self.stdout.write(line)\n elif stream_name == 'stderr':\n self.stderr.write(line)", "def add_stream_to_event(self,stream):\n assert isinstance(stream,Stream)", "def open_logfile(self):\r\n if self.output_option == 2:\r\n self.ER_file = open(self.result_filename, 'w')", "def create_external_link(self, path, target_file, target_path):\n if self.options['storage_method'] == 'hdf5':\n # execute h5py command\n self.file.file_pointer[self.full_path] = h5py.ExternalLink(file,path)\n elif self.options['storage_method'] == 'none':\n # save command for later processing\n self.h5commands.append((\"create_external_link\", path, target_file, target_path))\n else:\n raise Exception('Invalid option value for storage_method (%s)' % storage_method)", "def _sync(self):\n\n self.outfile.close()\n self.outfile = open(self.messenger.name + '-acceptor.out', 'a+')", "def write_to_file(self, filename: str) -> None:", "def write(self, line):\n for stream in self.streams:\n stream.write(line)", "def readfile(name, outstream, start=0, end=None):" ]

[ "0.8318727", "0.77448934", "0.7373398", "0.57945675", "0.5791961", "0.5715489", "0.5558145", "0.55282754", "0.55161315", "0.54058146", "0.533981", "0.5332803", "0.5253724", "0.5166495", "0.51639307", "0.51587784", "0.5121433", "0.50872654", "0.50666916", "0.50341964", "0.5025305", "0.49667022", "0.4953761", "0.49525183", "0.49427846", "0.49271348", "0.49044192", "0.4901109", "0.4879376", "0.4879082" ]

[ "def primalrepair(self,wlc,wuc,wlx,wux): # 3\n if wlc is None:\n wlc_ = None\n else:\n try:\n wlc_ = memoryview(wlc)\n except TypeError:\n try:\n _tmparr_wlc = array.array(\"d\",wlc)\n except TypeError:\n raise TypeError(\"Argument wlc has wrong type\")\n else:\n wlc_ = memoryview(_tmparr_wlc)\n \n else:\n if wlc_.format != \"d\":\n wlc_ = memoryview(array.array(\"d\",wlc))\n \n if wlc_ is not None and len(wlc_) != self.getnumcon():\n raise ValueError(\"Array argument wlc has wrong length\")\n if wuc is None:\n wuc_ = None\n else:\n try:\n wuc_ = memoryview(wuc)\n except TypeError:\n try:\n _tmparr_wuc = array.array(\"d\",wuc)\n except TypeError:\n raise TypeError(\"Argument wuc has wrong type\")\n else:\n wuc_ = memoryview(_tmparr_wuc)\n \n else:\n if wuc_.format != \"d\":\n wuc_ = memoryview(array.array(\"d\",wuc))\n \n if wuc_ is not None and len(wuc_) != self.getnumcon():\n raise ValueError(\"Array argument wuc has wrong length\")\n if wlx is None:\n wlx_ = None\n else:\n try:\n wlx_ = memoryview(wlx)\n except TypeError:\n try:\n _tmparr_wlx = array.array(\"d\",wlx)\n except TypeError:\n raise TypeError(\"Argument wlx has wrong type\")\n else:\n wlx_ = memoryview(_tmparr_wlx)\n \n else:\n if wlx_.format != \"d\":\n wlx_ = memoryview(array.array(\"d\",wlx))\n \n if wlx_ is not None and len(wlx_) != self.getnumvar():\n raise ValueError(\"Array argument wlx has wrong length\")\n if wux is None:\n wux_ = None\n else:\n try:\n wux_ = memoryview(wux)\n except TypeError:\n try:\n _tmparr_wux = array.array(\"d\",wux)\n except TypeError:\n raise TypeError(\"Argument wux has wrong type\")\n else:\n wux_ = memoryview(_tmparr_wux)\n \n else:\n if wux_.format != \"d\":\n wux_ = memoryview(array.array(\"d\",wux))\n \n if wux_ is not None and len(wux_) != self.getnumvar():\n raise ValueError(\"Array argument wux has wrong length\")\n res = self.__obj.primalrepair(wlc_,wuc_,wlx_,wux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def actualSolve(self, lp):\n\t\tif not self.executable(self.path):\n\t\t\traise \"PuLP: cannot execute \"+self.path\n\t\tif not self.keepFiles:\n\t\t\tpid = os.getpid()\n\t\t\ttmpLp = os.path.join(self.tmpDir, \"%d-pulp.lp\" % pid)\n\t\t\t# Should probably use another CPLEX solution format\n\t\t\ttmpSol = os.path.join(self.tmpDir, \"%d-pulp.txt\" % pid)\n\t\telse:\n\t\t\ttmpLp = lp.name+\"-pulp.lp\"\n\t\t\t# Should probably use another CPLEX solution format\n\t\t\ttmpSol = lp.name+\"-pulp.txt\"\n\t\tlp.writeLP(tmpLp, writeSOS = 1)\n\t\ttry: os.remove(tmpSol)\n\t\texcept: pass\n\t\tif not self.msg:\n\t\t\tcplex = os.popen(self.path+\" > /dev/null 2> /dev/null\", \"w\")\n\t\telse:\n\t\t\tcplex = os.popen(self.path, \"w\")\n\t\tcplex.write(\"read \"+tmpLp+\"\\n\")\n\t\tfor option in self.options:\n\t\t\tcplex.write(option+\"\\n\")\n\t\tif lp.isMIP():\n\t\t\tif self.mip:\n\t\t\t\tcplex.write(\"mipopt\\n\")\n\t\t\t\tcplex.write(\"change problem fixed\\n\")\n\t\t\telse:\n\t\t\t\tcplex.write(\"change problem relaxed_milp\\n\")\n\t\t\t\t\n\t\tcplex.write(\"optimize\\n\")\n\t\tcplex.write(\"write \"+tmpSol+\"\\n\")\n\t\tcplex.write(\"quit\\n\")\n\t\tif cplex.close() != None:\n\t\t\traise \"PuLP: Error while trying to execute \"+self.path\n\t\tif not self.keepFiles:\n\t\t\ttry: os.remove(tmpLp)\n\t\t\texcept: pass\n\t\tif not os.path.exists(tmpSol):\n\t\t\tstatus = LpStatusInfeasible\n\t\telse:\n\t\t\tstatus, values = self.readsol(tmpSol)\n\t\tif not self.keepFiles:\n\t\t\ttry: os.remove(tmpSol)\n\t\t\texcept: pass\n\t\t\ttry: os.remove(\"cplex.log\")\n\t\t\texcept: pass\n\t\tif status != LpStatusInfeasible:\n\t\t\tlp.assign(values)\n\t\tlp.status = status\n\t\treturn status", "def repair(self):\n # self.add_cons_vars([x.constraint for x in self._cons_dict.values()])\n # self.add_cons_vars([x.variable for x in self._var_dict.values()])\n self._push_queue()\n Model.repair(self)\n self.regenerate_constraints()\n self.regenerate_variables()", "def solve_CLP(self, lp):\n\t\tif not self.executable(self.path[0]):\n\t\t\traise \"PuLP: cannot execute \"+self.path[0]\n\t\tif not self.keepFiles:\n\t\t\tpid = os.getpid()\n\t\t\ttmpLp = os.path.join(self.tmpDir, \"%d-pulp.mps\" % pid)\n\t\t\ttmpSol = os.path.join(self.tmpDir, \"%d-pulp.sol\" % pid)\n\t\telse:\n\t\t\ttmpLp = lp.name+\"-pulp.mps\"\n\t\t\ttmpSol = lp.name+\"-pulp.sol\"\n\t\tvs, variablesNames, constraintsNames, objectiveName = lp.writeMPS(tmpLp, rename = 1)\n\t\tif not self.msg:\n\t\t\tclp = os.popen(self.path[0]+\" - > /dev/null 2> /dev/null\",\"w\")\n\t\telse:\n\t\t\tclp = os.popen(self.path[0]+\" -\",\"w\")\n\t\tclp.write(\"import \"+tmpLp+\"\\n\")\n\t\tif self.presolve:\n\t\t\tclp.write(\"presolve on\\n\")\n\t\tfor option in self.options:\n\t\t\tclp.write(option+\"\\n\")\n\t\tif lp.sense == LpMinimize:\n\t\t\tclp.write(\"min\\n\")\n\t\telse:\n\t\t\tclp.write(\"max\\n\")\n\t\tif self.dual:\n\t\t\tclp.write(\"dualS\\n\")\n\t\telse:\n\t\t\tclp.write(\"primalS\\n\")\n\t\tclp.write(\"solution \"+tmpSol+\"\\n\")\n\t\tclp.write(\"quit\\n\")\n\t\tif clp.close() != None:\n\t\t\traise \"PuLP: Error while trying to execute \"+self.path[0]\n\t\tif not os.path.exists(tmpSol):\n\t\t\traise \"PuLP: Error while executing \"+self.path[0]\n\t\tlp.status, values = self.readsol_CLP(tmpSol, lp, vs, variablesNames, constraintsNames, objectiveName)\n\t\tlp.assign(values)\n\t\tif not self.keepFiles:\n\t\t\ttry: os.remove(tmpLp)\n\t\t\texcept: pass\n\t\t\ttry: os.remove(tmpSol)\n\t\t\texcept: pass\n\t\treturn lp.status", "def solve_CBC(self, lp):\n\t\tif not self.executable(self.path[1]):\n\t\t\traise \"PuLP: cannot execute \"+self.path[1]\n\t\tif not self.keepFiles:\n\t\t\tpid = os.getpid()\n\t\t\ttmpLp = os.path.join(self.tmpDir, \"%d-pulp.mps\" % pid)\n\t\t\ttmpSol = os.path.join(self.tmpDir, \"%d-pulp.sol\" % pid)\n\t\telse:\n\t\t\ttmpLp = lp.name+\"-pulp.mps\"\n\t\t\ttmpSol = lp.name+\"-pulp.sol\"\n##\t\tvs, variablesNames, constraintsNames, objectiveName = lp.writeMPS(tmpLp, rename = 1)\r\n\t\tvs = lp.writeMPS(tmpLp, rename = 0)\n\t\tif not self.msg:\n\t\t\tcbc = os.popen(self.path[1]+\" - > /dev/null 2> /dev/null\",\"w\")\n\t\telse:\n\t\t\tcbc = os.popen(self.path[1]+\" -\",\"w\")\n\t\tcbc.write(\"import \"+tmpLp+\"\\n\")\n\t\tif self.presolve:\n\t\t\tcbc.write(\"presolve on\\n\")\n\t\tcbc.write(\"strong %d\\n\" % self.strong)\n\t\tif self.cuts:\n\t\t\tcbc.write(\"gomory on\\n\")\n\t\t\tcbc.write(\"oddhole on\\n\")\n\t\t\tcbc.write(\"knapsack on\\n\")\n\t\t\tcbc.write(\"probing on\\n\")\n\t\tfor option in self.options:\n\t\t\tcbc.write(option+\"\\n\")\n\t\tif lp.sense == LpMinimize:\n\t\t\tcbc.write(\"min\\n\")\n\t\telse:\n\t\t\tcbc.write(\"max\\n\")\n\t\tif self.mip:\n\t\t\tcbc.write(\"branch\\n\")\n\t\telse:\n\t\t\tcbc.write(\"initialSolve\\n\")\n\t\tcbc.write(\"solution \"+tmpSol+\"\\n\")\n\t\tcbc.write(\"quit\\n\")\n\t\tif cbc.close() != None:\n\t\t\traise \"PuLP: Error while trying to execute \"+self.path[1]\n\t\tif not os.path.exists(tmpSol):\n\t\t\traise \"PuLP: Error while executing \"+self.path[1]\n\t\tlp.status, values = self.readsol_CBC(tmpSol, lp, vs)\n\t\tlp.assign(values)\n\t\tif not self.keepFiles:\n\t\t\ttry: os.remove(tmpLp)\n\t\t\texcept: pass\n\t\t\ttry: os.remove(tmpSol)\n\t\t\texcept: pass\n\t\treturn lp.status", "def actualSolve(self, lp):\n if not self.executable(self.path):\n raise PulpSolverError(\"PuLP: cannot execute \" + self.path)\n tmpLp, tmpSol, tmpCmd, tmpAttr, tmpStart = self.create_tmp_files(\n lp.name, \"lp\", \"prt\", \"cmd\", \"attr\", \"slx\"\n )\n variables = lp.writeLP(tmpLp, writeSOS=1, mip=self.mip)\n if self.optionsDict.get(\"warmStart\", False):\n start = [(v.name, v.value()) for v in variables if v.value() is not None]\n self.writeslxsol(tmpStart, start)\n # Explicitly capture some attributes so that we can easily get\n # information about the solution.\n attrNames = []\n if _ismip(lp) and self.mip:\n attrNames.extend([\"mipobjval\", \"bestbound\", \"mipstatus\"])\n statusmap = {\n 0: constants.LpStatusUndefined, # XPRS_MIP_NOT_LOADED\n 1: constants.LpStatusUndefined, # XPRS_MIP_LP_NOT_OPTIMAL\n 2: constants.LpStatusUndefined, # XPRS_MIP_LP_OPTIMAL\n 3: constants.LpStatusUndefined, # XPRS_MIP_NO_SOL_FOUND\n 4: constants.LpStatusUndefined, # XPRS_MIP_SOLUTION\n 5: constants.LpStatusInfeasible, # XPRS_MIP_INFEAS\n 6: constants.LpStatusOptimal, # XPRS_MIP_OPTIMAL\n 7: constants.LpStatusUndefined, # XPRS_MIP_UNBOUNDED\n }\n statuskey = \"mipstatus\"\n else:\n attrNames.extend([\"lpobjval\", \"lpstatus\"])\n statusmap = {\n 0: constants.LpStatusNotSolved, # XPRS_LP_UNSTARTED\n 1: constants.LpStatusOptimal, # XPRS_LP_OPTIMAL\n 2: constants.LpStatusInfeasible, # XPRS_LP_INFEAS\n 3: constants.LpStatusUndefined, # XPRS_LP_CUTOFF\n 4: constants.LpStatusUndefined, # XPRS_LP_UNFINISHED\n 5: constants.LpStatusUnbounded, # XPRS_LP_UNBOUNDED\n 6: constants.LpStatusUndefined, # XPRS_LP_CUTOFF_IN_DUAL\n 7: constants.LpStatusNotSolved, # XPRS_LP_UNSOLVED\n 8: constants.LpStatusUndefined, # XPRS_LP_NONCONVEX\n }\n statuskey = \"lpstatus\"\n with open(tmpCmd, \"w\") as cmd:\n if not self.msg:\n cmd.write(\"OUTPUTLOG=0\\n\")\n # The readprob command must be in lower case for correct filename handling\n cmd.write(\"readprob \" + self.quote_path(tmpLp) + \"\\n\")\n if self.timeLimit is not None:\n cmd.write(\"MAXTIME=%d\\n\" % self.timeLimit)\n targetGap = self.optionsDict.get(\"gapRel\")\n if targetGap is not None:\n cmd.write(f\"MIPRELSTOP={targetGap:f}\\n\")\n heurFreq = self.optionsDict.get(\"heurFreq\")\n if heurFreq is not None:\n cmd.write(\"HEURFREQ=%d\\n\" % heurFreq)\n heurStra = self.optionsDict.get(\"heurStra\")\n if heurStra is not None:\n cmd.write(\"HEURSTRATEGY=%d\\n\" % heurStra)\n coverCuts = self.optionsDict.get(\"coverCuts\")\n if coverCuts is not None:\n cmd.write(\"COVERCUTS=%d\\n\" % coverCuts)\n preSolve = self.optionsDict.get(\"preSolve\")\n if preSolve is not None:\n cmd.write(\"PRESOLVE=%d\\n\" % preSolve)\n if self.optionsDict.get(\"warmStart\", False):\n cmd.write(\"readslxsol \" + self.quote_path(tmpStart) + \"\\n\")\n for option in self.options:\n cmd.write(option + \"\\n\")\n if _ismip(lp) and self.mip:\n cmd.write(\"mipoptimize\\n\")\n else:\n cmd.write(\"lpoptimize\\n\")\n # The writeprtsol command must be in lower case for correct filename handling\n cmd.write(\"writeprtsol \" + self.quote_path(tmpSol) + \"\\n\")\n cmd.write(\n f\"set fh [open {self.quote_path(tmpAttr)} w]; list\\n\"\n ) # `list` to suppress output\n\n for attr in attrNames:\n cmd.write(f'puts $fh \"{attr}=${attr}\"\\n')\n cmd.write(\"close $fh\\n\")\n cmd.write(\"QUIT\\n\")\n with open(tmpCmd) as cmd:\n consume = False\n subout = None\n suberr = None\n if not self.msg:\n # Xpress writes a banner before we can disable output. So\n # we have to explicitly consume the banner.\n if sys.hexversion >= 0x03030000:\n subout = subprocess.DEVNULL\n suberr = subprocess.DEVNULL\n else:\n # We could also use open(os.devnull, 'w') but then we\n # would be responsible for closing the file.\n subout = subprocess.PIPE\n suberr = subprocess.STDOUT\n consume = True\n xpress = subprocess.Popen(\n [self.path, lp.name],\n shell=True,\n stdin=cmd,\n stdout=subout,\n stderr=suberr,\n universal_newlines=True,\n )\n if consume:\n # Special case in which messages are disabled and we have\n # to consume any output\n for _ in xpress.stdout:\n pass\n\n if xpress.wait() != 0:\n raise PulpSolverError(\"PuLP: Error while executing \" + self.path)\n values, redcost, slacks, duals, attrs = self.readsol(tmpSol, tmpAttr)\n self.delete_tmp_files(tmpLp, tmpSol, tmpCmd, tmpAttr)\n status = statusmap.get(attrs.get(statuskey, -1), constants.LpStatusUndefined)\n lp.assignVarsVals(values)\n lp.assignVarsDj(redcost)\n lp.assignConsSlack(slacks)\n lp.assignConsPi(duals)\n lp.assignStatus(status)\n return status", "def actualSolve(self, lp):\n\t\tif not self.executable(self.path):\n\t\t\traise \"PuLP: cannot execute \"+self.path\n\t\tif not self.keepFiles:\n\t\t\tpid = os.getpid()\n\t\t\ttmpLp = os.path.join(self.tmpDir, \"%d-pulp.lp\" % pid)\n\t\t\ttmpSol = os.path.join(self.tmpDir, \"%d-pulp.prt\" % pid)\n\t\telse:\n\t\t\ttmpLp = lp.name+\"-pulp.lp\"\n\t\t\ttmpSol = lp.name+\"-pulp.prt\"\n\t\tlp.writeLP(tmpLp, writeSOS = 1, mip = self.mip)\n\t\tif not self.msg:\n\t\t\txpress = os.popen(self.path+\" \"+lp.name+\" > /dev/null 2> /dev/null\", \"w\")\n\t\telse:\n\t\t\txpress = os.popen(self.path+\" \"+lp.name, \"w\")\n\t\txpress.write(\"READPROB \"+tmpLp+\"\\n\")\n\t\tif lp.sense == LpMaximize:\n\t\t\txpress.write(\"MAXIM\\n\")\n\t\telse:\n\t\t\txpress.write(\"MINIM\\n\")\n\t\tif lp.isMIP() and self.mip:\n\t\t\txpress.write(\"GLOBAL\\n\")\n\t\txpress.write(\"WRITEPRTSOL \"+tmpSol+\"\\n\")\n\t\txpress.write(\"QUIT\\n\")\n\t\tif xpress.close() != None:\n\t\t\traise \"PuLP: Error while executing \"+self.path\n\t\tstatus, values = self.readsol(tmpSol)\n\t\tif not self.keepFiles:\n\t\t\ttry: os.remove(tmpLp)\n\t\t\texcept: pass\n\t\t\ttry: os.remove(tmpSol)\n\t\t\texcept: pass\n\t\tlp.status = status\n\t\tlp.assign(values)\n\t\tif abs(lp.infeasibilityGap(self.mip)) > 1e-5: # Arbitrary\n\t\t\tlp.status = LpStatusInfeasible\n\t\treturn lp.status", "def solve(num_wizards, num_constraints, wizards, constraints): \n global wiz_const\n wiz_const = mapConstraints(wizards, constraints)\n partial_soltns = []\n\n # counter for priority queue since it doesn't allow \n # identical priorities\n k = 0\n\n # list of wizards sorted by lowest to highest degree\n sorted_wiz = sortWizByConsts(wiz_const)\n wiz_rankings = {wiz: i for i, wiz in enumerate(sorted_wiz)}\n\n const_set = set(map(tuple, constraints))\n for i in range(4) : \n heapq.heappush(partial_soltns, (0, k, nx.DiGraph(), const_set.copy()))\n k += 1\n\n print(\"setup done, commencing solving\")\n\n while len(partial_soltns) : \n\n # for partial_soltn, const_set in partial_soltns : \n# partial_soltns.remove(partial_soltn)\n num_seen, _, partial_soltn, const_set = heapq.heappop(partial_soltns)\n const = findNextConst(partial_soltn, const_set, wiz_rankings)\n print(\"seen \" + str(len(partial_soltn)) + \"\\t num partial_solutions\\t\" + str(len(partial_soltns)))\n try : \n const_set.remove(const)\n except KeyError : \n print(\"BAD SHIT\")\n pass\n possible_arrangements = [(const[0], const[1], const[2]),\n (const[2], const[0], const[1]), \n (const[2], const[1], const[0]),\n (const[1], const[0], const[2])]\n for arr in possible_arrangements:\n soltn = partial_soltn.copy()\n a, b, c = arr\n if not (soltn.has_node(a) and soltn.has_node(b) and nx.has_path(soltn, a, b)) : \n soltn.add_edge(a, b)\n if not (soltn.has_node(b) and soltn.has_node(c) and nx.has_path(soltn, b, c)) : \n soltn.add_edge(b, c)\n # see if we violated any other constraints (seen or not seen)\n is_valid, num_wiz = validNumWiz(soltn, const_set)\n\n if is_valid and len(list(nx.simple_cycles(soltn))) == 0 :\n heapq.heappush(partial_soltns, (-len(soltn), k, soltn, const_set.copy()))\n k += 1\n # are we done?\n if num_wiz == num_wizards :\n print(\"FINAL SOLUTION (found without processing all constraints but validating against them)\")\n ordering = list(nx.topological_sort(soltn))\n finishEverything(ordering, constraints)\n return ordering\n if foundCompleteOrdering(heapq.heappop(partial_soltns)) : \n print(\"FINAL SOLUTION\")\n ordering = list(nx.topological_sort(soltn))\n finishEverything(ordering, constraints)\n return ordering\n print(\"NO SOLUTION FOUND\")\n return \"\"", "def minimize(self, evaluate, constrainToLower=False, constrainToUpper=False):\n improved = array([0,0,0])\n #------------------------------------------------\n for index, member in enumerate(self.population):\n #------------------------------------------------\n source = self.population[randrange(len(self.population))]\n x = member.copyAndModify(self.maxMutations, self.scale, source, self.maxIndexes)\n if constrainToLower:\n x = maximum(self.lowerDomain, x)\n if constrainToUpper:\n x = minimum(self.upperDomain, x)\n #------------------------------------------------\n loss = evaluate(x)\n #------------------------------------------------\n if index == self.diversityIndex:\n self.diversity.update(x, loss)\n self.diversityLoss = loss\n #------------------------------------------------\n if loss < self.eliteLoss:\n member.update(x, loss)\n self.eliteIndex = index\n self.eliteLoss = loss\n improved[0] += 1\n else:\n slot = randrange(len(self.population))\n slotMember = self.population[slot]\n if (slot != self.diversityIndex) and (loss <= slotMember.loss):\n # --------------------------------------------------\n slotMember.update(x, loss)\n improved[1] += 1\n # --------------------------------------------------\n elif (index != self.diversityIndex) and (loss <= member.loss):\n # --------------------------------------------------\n member.update(x, loss)\n improved[2] += 1\n # --------------------------------------------------\n #------------------------------------------------\n # --------------------------------------------------\n # reduce the scale if there were less than 'self.minImprovements' \n # improved members in the population.\n if sum(improved) < self.minImprovements:\n self.scale *= self.gamma\n # --------------------------------------------------\n self.improvements += improved", "def limited_information_privacy_utility(rho: float,\r\n lmbd: float,\r\n P0: np.ndarray,\r\n P1: np.ndarray,\r\n R0: np.ndarray,\r\n R1: np.ndarray,\r\n initial_points: int = 1,\r\n max_iterations: int = 30,\r\n solver=cp.ECOS,\r\n debug: bool = False,\r\n pi0: np.ndarray = None):\r\n\r\n # Sanity checks\r\n P0, P1 = sanity_check_probabilities(P0, P1)\r\n R0, R1 = sanity_check_rewards(R0, R1)\r\n initial_points = int(initial_points) if initial_points >= 1 else 1\r\n max_iterations = initial_points if initial_points > max_iterations else int(\r\n max_iterations)\r\n\r\n if rho < 0 or rho > 1:\r\n raise ValueError('Rho should be in [0,1]')\r\n\r\n if lmbd < 0:\r\n raise ValueError('Lambda should be non-negative')\r\n\r\n na = P0.shape[0]\r\n ns = P1.shape[1]\r\n\r\n if pi0 is not None:\r\n _xi0, _ = compute_stationary_distribution(P0, pi0)\r\n rho = 1\r\n\r\n best_res, best_xi1, best_xi0 = np.inf, None, None\r\n\r\n # Loop through initial points and return best result\r\n i = 0\r\n n = 0\r\n while i == 0 or (i < initial_points and n < max_iterations):\r\n n += 1\r\n\r\n # Construct the problem to find minimum privacy\r\n gamma = cp.Variable(1, nonneg=True)\r\n xi0 = cp.Variable((ns, na), nonneg=True) if pi0 is None else _xi0\r\n xi1 = cp.Variable((ns, na), nonneg=True)\r\n\r\n kl_div_stationary_dis = 0\r\n for s in range(ns):\r\n kl_div_stationary_dis += cp.kl_div(\r\n cp.sum(xi1[s, :]), cp.sum(xi0[s, :])) + cp.sum(\r\n xi1[s, :]) - cp.sum(xi0[s, :])\r\n objective = gamma - lmbd * kl_div_stationary_dis\r\n\r\n # stationarity constraints\r\n stationarity_constraint0 = 0\r\n stationarity_constraint1 = 0\r\n for a in range(na):\r\n stationarity_constraint0 += xi0[:, a].T @ (\r\n P0[a, :, :] - np.eye(ns))\r\n stationarity_constraint1 += xi1[:, a].T @ (\r\n P1[a, :, :] - np.eye(ns))\r\n\r\n constraints = [stationarity_constraint1 == 0, cp.sum(xi1) == 1]\r\n\r\n if pi0 is None:\r\n constraints += [cp.sum(xi0) == 1, stationarity_constraint0 == 0]\r\n\r\n # Privacy-utility constraints\r\n privacy_utility_constraint = 0\r\n for s in range(ns):\r\n for y in range(ns):\r\n privacy_utility_constraint += lmbd * (\r\n cp.kl_div(xi1[s, :] @ P1[:, s, y], xi0[s, :] @ P0[:, s, y])\r\n + (xi1[s, :] @ P1[:, s, y]) - (xi0[s, :] @ P0[:, s, y]))\r\n for a in range(na):\r\n privacy_utility_constraint -= (\r\n rho * xi1[s, a] * R1[s, a] +\r\n (1 - rho) * xi0[s, a] * R0[s, a])\r\n\r\n constraints += [privacy_utility_constraint <= gamma]\r\n\r\n # Solve problem\r\n problem = cp.Problem(cp.Minimize(objective), constraints)\r\n if not dccp.is_dccp(problem):\r\n raise Exception('Problem is not Concave with convex constraints!')\r\n try:\r\n result = problem.solve(\r\n method='dccp', ccp_times=1, verbose=debug, solver=solver)\r\n except Exception as err:\r\n continue\r\n\r\n # Check if results are better than previous ones\r\n if result[0] is not None:\r\n i += 1\r\n if result[0] < best_res:\r\n best_res, best_xi1, best_xi0 = result[0], xi1.value, \\\r\n xi0.value if pi0 is None else xi0\r\n\r\n # Make sure to normalize the results\r\n best_xi0 += eps\r\n best_xi1 += eps\r\n best_xi0 /= np.sum(best_xi0) if not np.isclose(np.sum(best_xi0), 0) else 1.\r\n best_xi1 /= np.sum(best_xi1) if not np.isclose(np.sum(best_xi1), 0) else 1.\r\n return best_res, best_xi1, best_xi0", "def repair_weight(cromo,problem):\n indiv = copy.deepcopy(cromo)\n capacity = problem['capacity']\n pheno = phenotype(indiv)\n pheno.sort(key= operator.itemgetter(1))\n \n weight_indiv = get_weight(indiv,problem)\n for index, weight,value in pheno:\n if weight_indiv <= capacity:\n break\n else:\n indiv[index] = 0\n weight_indiv -= weight\n return indiv", "def setRepairCost(self):\n # first take into account the ship hull which is based on internal structure points\n ratio = 1.0 - (self.currentISP/self.myShipHull.maxISP)\n CR = int(self.myShipHull.costCR*ratio)\n AL = int(self.myShipHull.costAL*ratio)\n EC = int(self.myShipHull.costEC*ratio)\n IA = int(self.myShipHull.costIA*ratio)\n\n # compare to ship design, add costs of replacement\n for position, myQuad in self.quads.iteritems():\n designQuad = self.myDesign.quads[position]\n weaponsInQuad = []\n # look for missing components\n for componentID in designQuad.components.keys():\n if componentID not in myQuad.components:\n missingComponent = designQuad.components[componentID]\n if missingComponent.weaponID == '':\n # regular component\n CR += missingComponent.myComponentData.costCR\n AL += missingComponent.myComponentData.costAL\n EC += missingComponent.myComponentData.costEC\n IA += missingComponent.myComponentData.costIA\n elif missingComponent.weaponID not in weaponsInQuad:\n # component part of weapon, weapon must be replaced\n weaponsInQuad.append(missingComponent.weaponID)\n\n # go through weapons that were damaged in this quadrant\n for weaponID in weaponsInQuad:\n damagedWeapon = designQuad.weapons[weaponID]\n CR += damagedWeapon.myWeaponData.costCR\n AL += damagedWeapon.myWeaponData.costAL\n EC += damagedWeapon.myWeaponData.costEC\n IA += damagedWeapon.myWeaponData.costIA\n\n self.repairCost = [CR,AL,EC,IA]", "def solve(self):\n\n if self.optimizer == 'pulp':\n for constraint in self.constraints:\n self.engine_model += constraint\n\n self.engine_model += self.objective\n status = self.engine_model.solve(PULP_CBC_CMD(msg=False))\n solution = (\n np.vectorize(self._var_sol)(self.variable_set)\n if status == LpStatusOptimal\n else np.array([])\n )\n\n else:\n for constraint in self.constraints:\n self.engine_model.addConstr(constraint)\n\n self.engine_model.setObjective(self.objective, self.sense)\n self.engine_model.optimize()\n solution = (\n np.vectorize(self._var_sol)(self.variable_set)\n if self.engine_model.status == GRB.OPTIMAL\n else np.array([])\n )\n\n return solution", "def _getPrimalSolution(u_hat_mean, Amatrix, hypothesisCosts):\n\n # find partial primal solution without conflicts\n idx_selectedHyps = u_hat_mean == 1\n\n idx_unselectedHyps = np.logical_not(idx_selectedHyps)\n\n # Tracks and measurements not used by the partial solution (ordered by\n # tracks first, then measurements for each scan)\n idx_uncertainTracksMeas = np.sum(Amatrix[:, idx_selectedHyps], axis=1).astype(np.int32) == 0\n\n # If a track or measurement used by the partial solution, remove it from\n # the problem to be solved by integer linear programming\n for i, val in enumerate(idx_uncertainTracksMeas):\n if not val:\n idx_unselectedHyps[Amatrix[i, :] == 1] = False\n\n # Solve remaining problem using OR tools solver to find a feasible solution\n A_uncertain = Amatrix[:, idx_unselectedHyps][idx_uncertainTracksMeas, :]\n c_uncertain = hypothesisCosts[idx_unselectedHyps] * 1000000\n\n # Create the mip solver with the SCIP backend.\n solver = pywraplp.Solver.CreateSolver(\"SCIP\")\n\n # Add constraints\n vars = [solver.BoolVar(str(i)) for i in range(c_uncertain.size)]\n for A_uncertain_row in A_uncertain:\n selected_vars = [var for var, A_val in zip(vars, A_uncertain_row) if A_val]\n solver.Add(solver.Sum(selected_vars) == 1)\n\n # Run the solver\n solver.Minimize(solver.Sum([c * var for var, c in zip(vars, c_uncertain)]))\n status = solver.Solve()\n if status not in (pywraplp.Solver.OPTIMAL, pywraplp.Solver.FEASIBLE): # pragma: no cover\n raise RuntimeError(\"Infeasible primal problem\")\n\n uprimal_uncertain = [bool(v.solution_value()) for v in vars]\n\n # Get solution to full problem by combining the partial and linear programming solutions\n u_primal_hat = u_hat_mean == 1\n u_primal_hat[idx_unselectedHyps] = uprimal_uncertain\n\n # Obtain primal cost\n primal_cost_hat = hypothesisCosts @ u_primal_hat\n\n return u_primal_hat, primal_cost_hat", "def actualResolve(self, lp, prepare=None):\n try:\n rhsind = list()\n rhsval = list()\n for name in sorted(lp.constraints):\n con = lp.constraints[name]\n if not con.modified:\n continue\n if not hasattr(con, \"_xprs\"):\n # Adding constraints is not implemented at the moment\n raise PulpSolverError(\"Cannot add new constraints\")\n # At the moment only RHS can change in pulp.py\n rhsind.append(con._xprs[0])\n rhsval.append(-con.constant)\n if len(rhsind) > 0:\n lp.solverModel.chgrhs(rhsind, rhsval)\n\n bndind = list()\n bndtype = list()\n bndval = list()\n for v in lp.variables():\n if not v.modified:\n continue\n if not hasattr(v, \"_xprs\"):\n # Adding variables is not implemented at the moment\n raise PulpSolverError(\"Cannot add new variables\")\n # At the moment only bounds can change in pulp.py\n bndind.append(v._xprs[0])\n bndtype.append(\"L\")\n bndval.append(-xpress.infinity if v.lowBound is None else v.lowBound)\n bndind.append(v._xprs[0])\n bndtype.append(\"G\")\n bndval.append(xpress.infinity if v.upBound is None else v.upBound)\n if len(bndtype) > 0:\n lp.solverModel.chgbounds(bndind, bndtype, bndval)\n\n self.callSolver(lp, prepare)\n return self.findSolutionValues(lp)\n except (xpress.ModelError, xpress.InterfaceError, xpress.SolverError) as err:\n raise PulpSolverError(str(err))", "def cvxpy_solver(self, verbose=False):\n self.gamma = self._gamma_from_drawdown_control()\n\n objective = 0\n constr = []\n\n # weights variable depends on whether there is a risk-free asset in data\n if self.rf_included is True:\n # variable with shape h+1 predictions so first row\n # can be the known (non-variable) portfolio weight at time t\n weights = cp.Variable(shape=(self.n_preds + 1, self.n_assets))\n else:\n # Set rf to zero in all preds and cov\n self.rets = np.insert(self.rets, self.n_assets, 0, axis=1)\n self.cov = np.insert(self.cov, self.n_assets, 0, axis=-2)\n self.cov = np.insert(self.cov, self.n_assets, 0, axis=-1) # Has to be done in two steps for cov due to dims\n self.start_weights = np.append(self.start_weights, 0)\n\n weights = cp.Variable(shape=(self.n_preds + 1, self.n_assets+1))\n rf_zero_weights = np.zeros(shape=self.n_preds)\n constr += [weights[1:, -1] == 0] # Keep rf pos at zero since it non-present in this case\n\n\n # Loop through each row in the weights variable and construct the optimization problem\n # Note this loop is very cpu-light since no actual computations takes place inside it\n for t in range(1, weights.shape[0]):\n # sum problem objectives. Weights are shifted 1 period forward compared to self.rets\n # Concatenates objective and constraints in lists\n objective += self.single_period_objective_func(weights[t], weights[t-1], self.rets[t-1], self.cov[t-1])\n constr += self.single_period_constraints(weights[t]) # Concatenate constraints\n\n constr += [weights[0] == self.start_weights] # first weights are fixed at known current portfolio\n\n prob = cp.Problem(cp.Maximize(objective), constr) # Construct maximization problem\n prob.solve(solver=cp.ECOS, verbose=verbose)\n\n if self.rf_included is True:\n opt_var = weights.value\n else:\n opt_var = weights.value[:, :-1]\n\n if verbose is True:\n print(\"Shape of var: \", opt_var.shape)\n temp_df = pd.DataFrame(opt_var).round(3)\n temp_df['sum_weights'] = np.sum(opt_var, axis=1)\n print(temp_df)\n\n return opt_var[1:] # Discard first row which is not a variable.", "def compute_bounds(self):\n # Note: linear_constraints object has been been populated at this stage\n L_zero_var = []\n \n for constraint in self._linear_constraints.L_linear_constraints:\n lhs_string = constraint[0]\n rhs_string = constraint[1]\n if float(rhs_string)==0:\n #print \"rhs=0: forcing the variables to zero\"\n L_vars = re.split(r'[+-]',lhs_string)\n \n for var in L_vars:\n modform_var = var.strip()\n \n # forcing all the variables in this constraint to be zero\n self._linear_constraints.modform_space.D_PuLP_variables[modform_var] = pulp.LpVariable(modform_var, lowBound=0, upBound=0)\n #print \"var forced to zero: \", modform_var\n L_zero_var.append(modform_var)\n else: #if float(rhs)==0\n continue\n \n if len(L_zero_var)>0:\n print \"\\n####### Variables forced to zero (rhs = 0) ##########\"\n print \"variables forced to zero: \", set(L_zero_var)\n \n feasible_lc = flc.FeasibleLinearConstraints(self._linear_constraints)\n \n feasible_lc.get_feasible_linear_constraints()\n \n feasible_linear_constraints = feasible_lc.feasible_linear_constraints\n \n lp_solver = lps.LinearProgrammingSolver(feasible_linear_constraints)\n \n D_lower_bounds = {}; D_upper_bounds = {}\n \n for v in [self._linear_constraints.modform_space.D_PuLP_variables[k] for k in sorted(self._linear_constraints.modform_space.D_PuLP_variables.keys(), key=gbfunc.natural_keys)]:\n \n if str(v) in L_zero_var:\n D_lower_bounds[str(v)] = '0'\n D_upper_bounds[str(v)] = '0'\n continue\n #end if str(v) in L_zero_var\n \n objective_function_PuLP = v\n \n list_values_minimize = lp_solver.linear_programming_solver(objective_function_PuLP, pulp.LpMinimize)\n D_lower_bounds[str(v)] = \"%.3f\"%round(pulp.value(v),3)\n \n list_values_maximize = lp_solver.linear_programming_solver(objective_function_PuLP, pulp.LpMaximize)\n D_upper_bounds[str(v)] = \"%.3f\"%round(pulp.value(v),3)\n\n #end for v in ..\n\n return((D_lower_bounds, D_upper_bounds))", "def initialize_lattice_cpa(risk_slim_settings, warmstart_settings, cplex_parameters, compute_loss_real, compute_loss_cut_real, bounds = None):\n warmstart_settings = dict(warmstart_settings)\n risk_slim_settings = dict(risk_slim_settings)\n #get_objval\n #check_feasible\n\n\n C_0 = np.array(risk_slim_settings['coef_set'].C_0j)\n L0_reg_ind = np.isnan(C_0)\n C_0[L0_reg_ind] = risk_slim_settings['C_0']\n C_0_nnz = C_0[L0_reg_ind]\n\n if bounds is None:\n bounds = {\n 'objval_min': 0.0,\n 'objval_max': CPX_INFINITY,\n 'loss_min': 0.0,\n 'loss_max': CPX_INFINITY,\n 'L0_min': 0,\n 'L0_max': risk_slim_settings['L0_max'],\n }\n warmstart_settings['type'] = 'cvx'\n risk_slim_settings.update(bounds)\n risk_slim_settings['relax_integer_variables'] = True\n\n #create RiskSLIM LP\n risk_slim_lp, risk_slim_lp_indices = create_risk_slim(risk_slim_settings)\n risk_slim_lp = set_cplex_mip_parameters(risk_slim_lp, cplex_parameters, display_cplex_progress = warmstart_settings['display_cplex_progress'])\n\n # solve risk_slim_lp LP using standard CPA\n cpa_stats, initial_cuts, cts_pool = cutting_plane_algorithm(risk_slim_lp,\n risk_slim_lp_indices,\n warmstart_settings,\n compute_loss_real,\n compute_loss_cut_real)\n\n # update bounds\n initial_bounds = chained_updates(bounds, C_0_nnz, new_objval_at_relaxation=cpa_stats['lowerbound'])\n initial_pool = SolutionPool(cts_pool.P)\n\n #remove redundant solutions, remove infeasible solutions, order solutions by objective value of RiskSLIMLP\n cts_pool = cts_pool.distinct().removeInfeasible(check_feasible).sort()\n\n if warmstart_settings['use_sequential_rounding']:\n initial_pool, _, _ = sequential_round_solution_pool(cts_pool,\n max_runtime=warmstart_settings['sequential_rounding_max_runtime'],\n max_solutions=warmstart_settings['sequential_rounding_max_solutions'],\n objval_cutoff=bounds['objval_max'],\n L0_min=bounds['L0_min'],\n L0_max=bounds['L0_max'])\n\n initial_pool = initial_pool.distinct().sort()\n bounds = chained_updates(bounds, C_0_nnz, new_objval_at_feasible=np.min(initial_pool.objvals))\n else:\n initial_pool, _, _ = round_solution_pool(cts_pool, constraints)\n\n initial_pool.computeObjvals(get_objval)\n if warmstart_settings['polishing_after'] and len(initial_pool) > 0:\n initial_pool, _, _ = discrete_descent_solution_pool(initial_pool,\n warmstart_settings['polishing_max_runtime'],\n warmstart_settings['polishing_max_solutions'])\n\n initial_pool = initial_pool.removeInfeasible(check_feasible).distinct().sort()\n\n if len(initial_pool) > 0:\n initial_bounds = chained_updates(bounds, C_0_nnz, new_objval_at_feasible=np.min(initial_pool.objvals))\n\n return initial_pool, initial_cuts, initial_pool", "def original_lp(self, naive_obj=False, debug=False):\n\n bounds, epsilons, prob = self.setup()\n\n # Set up objective function for the LP\n if naive_obj:\n obj = sum([epsilons[(i, j)] for i, j in epsilons])\n else:\n eps = list()\n\n for i, j in self.contingent_constraints:\n c = self.stnu[i][j]['weight'] + self.stnu[j][i]['weight']\n\n eps.append((epsilons[(j, '+')]+epsilons[j, '-'])/c)\n obj = sum(eps)\n\n prob += obj, \"Maximize the Super-Interval/Max-Subinterval for the input STN\"\n\n # write LP into file for debugging (optional)\n if debug:\n prob.writeLP('original.lp')\n pulp.LpSolverDefault.msg = 10\n\n try:\n prob.solve()\n except Exception:\n self.logger.error(\"The model is invalid.\")\n return 'Invalid', None, None\n\n # Report status message\n status = pulp.LpStatus[prob.status]\n if debug:\n self.logger.debug(\"Status: %s\", status)\n\n for v in prob.variables():\n self.logger.debug(\"%s = %s \", v.name, v.varValue)\n\n if status != 'Optimal':\n self.logger.debug(\"The solution for LP is not optimal\")\n return status, None, None\n return status, bounds, epsilons", "def convert_to_risk_slim_cplex_solution(rho, indices, loss=None, objval=None):\n solution_idx = range(0, indices['n_variables'])\n solution_val = np.zeros(indices['n_variables'])\n\n # rho\n solution_val[indices['rho']] = rho\n\n # alpha\n alpha = np.zeros(len(indices['alpha']))\n alpha[np.flatnonzero(rho[indices['L0_reg_ind']])] = 1.0\n solution_val[indices['alpha']] = alpha\n L0_penalty = np.sum(indices['C_0_alpha'] * alpha)\n\n # add loss / objval\n need_loss = 'loss' in indices\n need_objective_val = 'objval' in indices\n need_L0_norm = 'L0_norm' in indices\n need_sigma = 'sigma_names' in indices\n\n # check that we have the right length\n # COMMENT THIS OUT FOR DEPLOYMENT\n # if need_sigma:\n # pass\n # else:\n # assert (indices['n_variables'] == (len(rho) + len(alpha) + need_loss + need_objective_val + need_L0_norm))\n\n if need_loss:\n if loss is None:\n if objval is None:\n loss = compute_loss(rho)\n else:\n loss = objval - L0_penalty\n\n solution_val[indices['loss']] = loss\n\n if need_objective_val:\n if objval is None:\n if loss is None:\n objval = compute_loss(rho) + L0_penalty\n else:\n objval = loss + L0_penalty\n\n solution_val[indices['objval']] = objval\n\n if need_L0_norm:\n solution_val[indices['L0_norm']] = np.sum(alpha)\n\n if need_sigma:\n rho_for_sigma = np.array([indices['rho'][int(s.strip('sigma_'))] for s in indices['sigma_names']])\n solution_val[indices['sigma']] = np.abs(solution_val[rho_for_sigma])\n\n solution_cpx = cplex.SparsePair(ind=solution_idx, val=solution_val.tolist())\n return solution_cpx, objval", "def optimize_cobra_model(sbml, bound=INF):\n\n cobra = convert_sbml_to_cobra(sbml, bound)\n\n N, L, U = cobra['S'], list(cobra['lb']), list(cobra['ub'])\n f, b = list(cobra['c']), list(cobra['b'])\n v_sol, f_opt, conv = easy_lp(f, N, b, L, U, one=True)\n\n return v_sol, f_opt", "def seven_pars_adjustment(cp_wgs84, cp_grs80):\n L = (cp_grs80.T - cp_wgs84.T).flatten()\n A = []\n I = np.eye(3)\n\n for p in cp_wgs84.T:\n aa = np.zeros((p.shape[0], p.shape[0] + 1))\n aa[:, 0] = p.T\n aa[:, 1] = np.array([0, p[-1], -p[1]])\n aa[:, 2] = np.array([-p[-1], 0, p[0]])\n aa[:, 3] = np.array([p[1], -p[0], 0])\n aa = np.hstack((I, aa))\n A.append(aa)\n\n A = np.vstack(A)\n\n N = np.dot(A.T, A)\n u = np.dot(A.T, L)\n\n return np.linalg.solve(N, u)", "def solve_stationary_equilibrium(self) :\n \n \n \n \n #a. find the equilibrium wage given the tax rate and subsidy\n w_ss = self.find_equilibrium_wage(self.w0_guess, self.w1_guess)\n \n #b. obtain firm policy functions and discount present value factors\n W_e , pol_k, pol_n, pi, W, pol_enter = self.entry_condition(w_ss)\n \n \n #c. obtain the invariant distribution \n \n #i. normalized invariant distribution over firms\n mu_hat = pol_enter/self.lambdaa * self.joint_pdf\n \n #ii. labor market clearing (section 3.5), agg demand for labor\n N_ss = np.sum(np.sum(pol_n*mu_hat, axis=0))\n \n #iii. ss equilibrium level of entry (mass of entrants)\n E_star = 1/N_ss \n \n #iv. rescale invariant distribution over firms, mu(s,tau)\n mu = E_star*mu_hat\n \n #d. marginal distributions\n \n #i. sum over subsidies, except, taxes of stationary distribution\n distrib_stationary = np.sum(mu, axis=1)\n total_mass = np.sum(distrib_stationary)\n \n #ii. marginal stationary distribution over productivity\n pdf_stationary = distrib_stationary / total_mass\n cdf_stationary = np.cumsum(pdf_stationary)\n \n #iii. stationary distribution over number of employed \n distrib_emp = (pol_n[:,2] * pdf_stationary)/ np.sum(pol_n[:,2] * pdf_stationary)\n pdf_emp = distrib_emp / np.sum(distrib_emp)\n cdf_emp = np.cumsum(pdf_emp)\n \n #e. Aggregate statistics\n \n Y_ss = np.sum(np.sum( self.grid_s_matrix * pol_k**self.alpha * pol_n**self.gamma*mu, axis=0)) #ss output\n K_ss = np.sum(np.sum(pol_k*mu, axis=0)) #ss capital\n TFP_ss = Y_ss/(N_ss*E_star)/(K_ss/(N_ss*E_star))**self.alpha\n total_employment = np.dot(self.labor_demand_rel, distrib_stationary)\n average_firm_size = total_employment / total_mass\n \n #output share of subsidy, excemption, taxed\n Y_set = np.sum(self.grid_s_matrix * pol_k**self.alpha*pol_n**self.gamma*mu, axis=0) / Y_ss\n \n Y_sub_percent = Y_set[0] #output share of establishments that are receiving a subsidy, Y_s/Y\n Y_exempt_percent = Y_set[1]\n Y_taxed__Percent = Y_set[2]\n \n #the total subsidies paid out to establishments receiving subsidies as a fraction of output. numerator takes first column which is subsidy (S/Y)\n subsidy_size = np.sum(-self.tau_output[:,0]*self.grid_s_matrix[:,0]*pol_k[:,0]**self.alpha \\\n *pol_n[:,0]**self.gamma*mu[:,0]-self.tau_capital[:,0]*self.ret \\\n *pol_k[:,0]*mu[:,0]-self.tau_labor[:,0]*w_ss* \\\n pol_n[:,0]*mu[:,0]) / Y_ss\n \n \n return Y_ss, K_ss, TFP_ss, average_firm_size, E_star, Y_set, subsidy_size, N_ss, w_ss, cdf_stationary, cdf_emp", "def potentialSolver3(self, w, max_it, tol):\n\n dx2 = 1.0/(self.dh[0]*self.dh[0]); # dx^2\n dy2 = 1.0/(self.dh[1]*self.dh[1]); # dy^2\n dz2 = 1.0/(self.dh[2]*self.dh[2]); # dz^2\n \n L2 = 0.0 # norm\n \n converged = False\n \n # Step 1: create *integer* array the same size as u \n x = np.zeros_like(self.phi,dtype=np.int)\n\n # Step 2: populate all non-boundary cells with running numbers from 1 to (n-2)^2\n x[1:-1,1:-1,1:-1] = np.arange(1,(self.ni-2)*(self.nj-2)*(self.nk-2)+1).reshape(self.ni-2,self.nj-2,self.nk-2)\n\n # Step 3: get indices of even (red) and odd (black) points\n ir, jr, kr = np.where((x>0) & (x%2 == 0)) # indices of red pts = indices of even numbers\n ib, jb, kb = np.where((x>0) & (x%2 == 1)) # indices of black pts = indices of odd numbers\n\n\n \n # solve potential\n for it in np.arange(1,max_it+1):\n \"\"\"\n for i in np.arange(1,self.ni-1):\n for j in np.arange(1,self.nj-1):\n for k in np.arange(1,self.nk-1):\n \"\"\" \n \"\"\"\n #standard internal open node\n phi_new = (self.rho[i][j][k]/self.EPS_0 +\\\n dx2*(self.phi[i-1][j][k] + self.phi[i+1][j][k]) +\\\n dy2*(self.phi[i][j-1][k] + self.phi[i][j+1][k]) +\\\n dz2*(self.phi[i][j][k-1] + self.phi[i][j][k+1]))/(2*dx2+2*dy2+2*dz2)\n \n # sucessive over relaxation \n self.phi[i,j,k] = self.phi[i,j,k] + 1.4*(phi_new - self.phi[i][j][k])\n \n \"\"\" \n \n \"\"\"\n #standard internal open node\n self.phi[1:self.ni-1,1:self.nj-1,1:self.nk-1] = \\\n (self.rho[1:self.ni-1,1:self.nj-1,1:self.nk-1]/self.EPS_0 +\\\n dx2*(self.phi[0:self.ni-2,1:self.nj-1,1:self.nk-1] + self.phi[2:self.ni,1:self.nj-1,1:self.nk-1])+\\\n dy2*(self.phi[1:self.ni-1,0:self.nj-2,1:self.nk-1] + self.phi[1:self.ni-1,2:self.nj,1:self.nk-1])+\\\n dz2*(self.phi[1:self.ni-1,1:self.nj-1,0:self.nk-2] + self.phi[1:self.ni-1,1:self.nj-1,2:self.nk]))/(2*dx2+2*dy2+2*dz2)\n \n \"\"\"\n \"\"\"\n # sucessive over relaxation \n self.phi[1:self.ni-1,1:self.nj-1,1:self.nk-1] = self.phi[1:self.ni-1,1:self.nj-1,1:self.nk-1] +\\\n 1.8*(self.phi_new[1:self.ni-1,1:self.nj-1,1:self.nk-1] - \\\n self.phi[1:self.ni-1,1:self.nj-1,1:self.nk-1])\n \"\"\"\n \n # Red point update\n self.phi[ir,jr,kr] = (1-w)*self.phi[ir,jr,kr] + (1.0/6.0)*w*(self.phi[ir+1,jr,kr] + self.phi[ir-1,jr,kr] +\\\n self.phi[ir,jr+1,kr] + self.phi[ir,jr-1,kr] +\\\n self.phi[ir,jr,kr+1] + self.phi[ir,jr,kr-1] +\\\n (self.rho[ir,jr,kr]/self.EPS_0)*(self.dh[0]*self.dh[1]))\n\n # Black point update\n self.phi[ib,jb,kb] = (1-w)*self.phi[ib,jb,kb] + (1.0/6.0)*w*(self.phi[ib+1,jb,kb] + self.phi[ib-1,jb,kb] +\\\n self.phi[ib,jb+1,kb] + self.phi[ib,jb-1,kb] +\\\n self.phi[ib,jb,kb+1] + self.phi[ib,jb,kb-1] +\\\n (self.rho[ib,jb,kb]/self.EPS_0)*(self.dh[0]*self.dh[1]))\n\n #check for convergence*/\n if it%25==0:\n sum = 0;\n \"\"\"\n for i in np.arange(1,self.ni-1):\n for j in np.arange(1,self.nj-1):\n for k in np.arange(1,self.nk-1):\n \"\"\"\n\n self.R[1:self.ni-1,1:self.nj-1,1:self.nk-1] = \\\n -self.phi[1:self.ni-1,1:self.nj-1,1:self.nk-1]*(2*dx2+2*dy2+2*dz2) +\\\n self.rho[1:self.ni-1,1:self.nj-1,1:self.nk-1]/self.EPS_0 +\\\n dx2*(self.phi[0:self.ni-2,1:self.nj-1,1:self.nk-1] + self.phi[2:self.ni,1:self.nj-1,1:self.nk-1]) +\\\n dy2*(self.phi[1:self.ni-1,0:self.nj-2,1:self.nk-1] + self.phi[1:self.ni-1,2:self.nj,1:self.nk-1]) +\\\n dz2*(self.phi[1:self.ni-1,1:self.nj-1,0:self.nk-2] + self.phi[1:self.ni-1,1:self.nj-1,2:self.nk])\n\n sum = np.sum(self.R**2)\n\n L2 = np.sqrt(sum/(self.ni*self.nj*self.nk));\n #print(\"iter: \"+str(it)+\", L2 = \"+str(L2))\n if (L2<tol):\n converged = True\n break\n\n if (converged==False):\n print(\"Gauss-Seidel failed to converge, L2 = \"+str(L2))\n \n return converged", "def potentialSolver3(self, w, max_it, tol):\n\n dx2 = 1.0/(self.dh[0]*self.dh[0]); # dx^2\n dy2 = 1.0/(self.dh[1]*self.dh[1]); # dy^2\n dz2 = 1.0/(self.dh[2]*self.dh[2]); # dz^2\n \n L2 = 0.0 # norm\n \n converged = False\n \n # Step 1: create *integer* array the same size as u \n x = np.zeros_like(self.phi,dtype=np.int)\n\n # Step 2: populate all non-boundary cells with running numbers from 1 to (n-2)^2\n x[1:-1,1:-1,1:-1] = np.arange(1,(self.ni-2)*(self.nj-2)*(self.nk-2)+1).reshape(self.ni-2,self.nj-2,self.nk-2)\n\n # Step 3: get indices of even (red) and odd (black) points\n ir, jr, kr = np.where((x>0) & (x%2 == 0)) # indices of red pts = indices of even numbers\n ib, jb, kb = np.where((x>0) & (x%2 == 1)) # indices of black pts = indices of odd numbers\n\n\n \n # solve potential\n for it in np.arange(1,max_it+1):\n \"\"\"\n for i in np.arange(1,self.ni-1):\n for j in np.arange(1,self.nj-1):\n for k in np.arange(1,self.nk-1):\n \"\"\" \n \"\"\"\n #standard internal open node\n phi_new = (self.rho[i][j][k]/self.EPS_0 +\\\n dx2*(self.phi[i-1][j][k] + self.phi[i+1][j][k]) +\\\n dy2*(self.phi[i][j-1][k] + self.phi[i][j+1][k]) +\\\n dz2*(self.phi[i][j][k-1] + self.phi[i][j][k+1]))/(2*dx2+2*dy2+2*dz2)\n \n # sucessive over relaxation \n self.phi[i,j,k] = self.phi[i,j,k] + 1.4*(phi_new - self.phi[i][j][k])\n \n \"\"\" \n \n \"\"\"\n #standard internal open node\n self.phi[1:self.ni-1,1:self.nj-1,1:self.nk-1] = \\\n (self.rho[1:self.ni-1,1:self.nj-1,1:self.nk-1]/self.EPS_0 +\\\n dx2*(self.phi[0:self.ni-2,1:self.nj-1,1:self.nk-1] + self.phi[2:self.ni,1:self.nj-1,1:self.nk-1])+\\\n dy2*(self.phi[1:self.ni-1,0:self.nj-2,1:self.nk-1] + self.phi[1:self.ni-1,2:self.nj,1:self.nk-1])+\\\n dz2*(self.phi[1:self.ni-1,1:self.nj-1,0:self.nk-2] + self.phi[1:self.ni-1,1:self.nj-1,2:self.nk]))/(2*dx2+2*dy2+2*dz2)\n \n \"\"\"\n \"\"\"\n # sucessive over relaxation \n self.phi[1:self.ni-1,1:self.nj-1,1:self.nk-1] = self.phi[1:self.ni-1,1:self.nj-1,1:self.nk-1] +\\\n 1.8*(self.phi_new[1:self.ni-1,1:self.nj-1,1:self.nk-1] - \\\n self.phi[1:self.ni-1,1:self.nj-1,1:self.nk-1])\n \"\"\"\n \n # Red point update\n self.phi[ir,jr,kr] = (1-w)*self.phi[ir,jr,kr] + (1.0/6.0)*w*(self.phi[ir+1,jr,kr] + self.phi[ir-1,jr,kr] +\\\n self.phi[ir,jr+1,kr] + self.phi[ir,jr-1,kr] +\\\n self.phi[ir,jr,kr+1] + self.phi[ir,jr,kr-1] +\\\n (self.rho[ir,jr,kr]/self.EPS_0)*(self.dh[0]*self.dh[1]))\n\n # Black point update\n self.phi[ib,jb,kb] = (1-w)*self.phi[ib,jb,kb] + (1.0/6.0)*w*(self.phi[ib+1,jb,kb] + self.phi[ib-1,jb,kb] +\\\n self.phi[ib,jb+1,kb] + self.phi[ib,jb-1,kb] +\\\n self.phi[ib,jb,kb+1] + self.phi[ib,jb,kb-1] +\\\n (self.rho[ib,jb,kb]/self.EPS_0)*(self.dh[0]*self.dh[1]))\n\n #check for convergence*/\n if it%25==0:\n sum = 0;\n \"\"\"\n for i in np.arange(1,self.ni-1):\n for j in np.arange(1,self.nj-1):\n for k in np.arange(1,self.nk-1):\n \"\"\"\n\n self.R[1:self.ni-1,1:self.nj-1,1:self.nk-1] = \\\n -self.phi[1:self.ni-1,1:self.nj-1,1:self.nk-1]*(2*dx2+2*dy2+2*dz2) +\\\n self.rho[1:self.ni-1,1:self.nj-1,1:self.nk-1]/self.EPS_0 +\\\n dx2*(self.phi[0:self.ni-2,1:self.nj-1,1:self.nk-1] + self.phi[2:self.ni,1:self.nj-1,1:self.nk-1]) +\\\n dy2*(self.phi[1:self.ni-1,0:self.nj-2,1:self.nk-1] + self.phi[1:self.ni-1,2:self.nj,1:self.nk-1]) +\\\n dz2*(self.phi[1:self.ni-1,1:self.nj-1,0:self.nk-2] + self.phi[1:self.ni-1,1:self.nj-1,2:self.nk])\n\n sum = np.sum(self.R**2)\n\n L2 = np.sqrt(sum/(self.ni*self.nj*self.nk));\n #print(\"iter: \"+str(it)+\", L2 = \"+str(L2))\n if (L2<tol):\n converged = True\n break\n\n if (converged==False):\n print(\"Gauss-Seidel failed to converge, L2 = \"+str(L2))\n \n return converged", "def correct_rsqs(b, neg_only=True):\n\t\t## B . x = partition areas, where x is vector of model R^2 for models (A, B, C, AB, AC, BC, ABC)\n\tB = np.array([[0, 0, 0, 0, 0, -1, 1], # Abc: envelope \n\t\t\t\t [0, 0, 0, 0, -1, 0, 1], # aBc: phonological feature \n\t\t\t\t [0, 0, 0, -1, 0, 0, 1], # abC: pitch\n\t\t\t\t [0, 0, -1, 0, 1, 1, -1], # ABc: envelope U phonological feature \n\t\t\t\t [0, -1, 0, 1, 0, 1, -1], # AbC: envelope U pitch\n\t\t\t\t [-1, 0, 0, 1, 1, 0, -1], # aBC: phonological feature U pitch \n\t\t\t\t [1, 1, 1, -1, -1, -1, 1], # ABC: envelope U phonological feature U pitch \n\t\t\t\t ])\n\t#maxs = A.dot(np.nan_to_num(b))\n\tmaxs = B.dot(np.nan_to_num(b))\n\tminfun = lambda x: (x ** 2).sum()\n\t#minfun = lambda x: np.abs(x).sum()\n\n\tbiases = np.zeros((maxs.shape[1], 7)) + np.nan\n\tM = b.shape[1]\n\tfor vi in range(M):\n\t\tif not (vi % 1000):\n\t\t\tprint (\"%d / %d\" % (vi, M))\n\t\t\n\t\tif neg_only:\n\t\t\tbnds = [(None, 0)] * 7\n\t\telse:\n\t\t\tbnds = [(None, None)] * 7\n\t\tres = scipy.optimize.fmin_slsqp(minfun, np.zeros(7),\n\t\t\t\t\t\t\t\t\t\t#f_ieqcons=lambda x: maxs[:,vi] - A.dot(x),\n\t\t\t\t\t\t\t\t\t\tf_ieqcons=lambda x: maxs[:,vi] - B.dot(x),\n\t\t\t\t\t\t\t\t\t\tbounds=bnds, iprint=0)\n\t\tbiases[vi] = res\n\t\n\t# compute fixed (legal) variance explained values for each model\n\tfixed_b = np.array(b) - np.array(biases).T\n\n\torig_parts = B.dot(b)\n\tfixed_parts = B.dot(fixed_b)\n\t\n\treturn biases, orig_parts, fixed_parts", "def repair_value(cromo,problem):\n indiv = copy.deepcopy(cromo)\n capacity = problem['capacity']\n pheno = phenotype(indiv)\n pheno.sort(key= operator.itemgetter(2))\n \n weight_indiv = get_weight(indiv,problem)\n for index, weight,value in pheno:\n if weight_indiv <= capacity:\n break\n else:\n indiv[index] = 0\n weight_indiv -= weight \n return indiv", "def np_integerizer_ortools(\n incidence,\n resid_weights,\n log_resid_weights,\n control_importance_weights,\n total_hh_control_index,\n lp_right_hand_side,\n relax_ge_upper_bound,\n hh_constraint_ge_bound):\n\n from ortools.linear_solver import pywraplp\n\n STATUS_TEXT = {\n pywraplp.Solver.OPTIMAL: 'OPTIMAL',\n pywraplp.Solver.FEASIBLE: 'FEASIBLE',\n pywraplp.Solver.INFEASIBLE: 'INFEASIBLE',\n pywraplp.Solver.UNBOUNDED: 'UNBOUNDED',\n pywraplp.Solver.ABNORMAL: 'ABNORMAL',\n pywraplp.Solver.NOT_SOLVED: 'NOT_SOLVED',\n }\n CBC_TIMEOUT_IN_SECONDS = 60\n\n control_count, sample_count = incidence.shape\n\n # - Instantiate a mixed-integer solver\n solver = pywraplp.Solver('IntegerizeCbc', pywraplp.Solver.CBC_MIXED_INTEGER_PROGRAMMING)\n\n # - Create binary integer variables\n x = [[]] * sample_count\n for hh in range(0, sample_count):\n # max_x == 0.0 if float_weights is an int, otherwise 1.0\n max_x = 1.0 - (resid_weights[hh] == 0.0)\n x[hh] = solver.NumVar(0.0, max_x, 'x_' + str(hh))\n\n # - Create positive continuous constraint relaxation variables\n relax_le = [[]] * control_count\n relax_ge = [[]] * control_count\n for c in range(0, control_count):\n # no relaxation for total households control\n if c != total_hh_control_index:\n relax_le[c] = solver.NumVar(0.0, lp_right_hand_side[c], 'relax_le_' + str(c))\n relax_ge[c] = solver.NumVar(0.0, relax_ge_upper_bound[c], 'relax_ge_' + str(c))\n\n # - Set objective function coefficients\n # use negative for objective and positive for relaxation penalties since solver is minimizing\n # objective = solver.Objective()\n # for hh in range(sample_count):\n # objective.SetCoefficient(x[hh], -1.0 * log_resid_weights[hh])\n # for c in range(control_count):\n # if c != total_hh_control_index:\n # objective.SetCoefficient(relax_le[c], control_importance_weights[c])\n # objective.SetCoefficient(relax_ge[c], control_importance_weights[c])\n\n z = solver.Sum(x[hh] * log_resid_weights[hh]\n for hh in range(sample_count)) - \\\n solver.Sum(relax_le[c] * control_importance_weights[c]\n for c in range(control_count) if c != total_hh_control_index) - \\\n solver.Sum(relax_ge[c] * control_importance_weights[c]\n for c in range(control_count) if c != total_hh_control_index)\n\n objective = solver.Maximize(z)\n\n # - inequality constraints\n hh_constraint_ge = [[]] * control_count\n hh_constraint_le = [[]] * control_count\n for c in range(0, control_count):\n # don't add inequality constraints for total households control\n if c == total_hh_control_index:\n continue\n # add the lower bound relaxation inequality constraint\n hh_constraint_le[c] = solver.Constraint(0, lp_right_hand_side[c])\n for hh in range(0, sample_count):\n hh_constraint_le[c].SetCoefficient(x[hh], incidence[c, hh])\n hh_constraint_le[c].SetCoefficient(relax_le[c], -1.0)\n\n # add the upper bound relaxation inequality constraint\n hh_constraint_ge[c] = solver.Constraint(lp_right_hand_side[c], hh_constraint_ge_bound[c])\n for hh in range(0, sample_count):\n hh_constraint_ge[c].SetCoefficient(x[hh], incidence[c, hh])\n hh_constraint_ge[c].SetCoefficient(relax_ge[c], 1.0)\n\n # using Add and Sum is easier to read but a lot slower\n # for c in range(control_count):\n # if c == total_hh_control_index:\n # continue\n # solver.Add(solver.Sum(x[hh]*incidence[c, hh] for hh in range(sample_count)) - relax_le[c]\n # >= 0)\n # solver.Add(solver.Sum(x[hh]*incidence[c, hh] for hh in range(sample_count)) - relax_le[c]\n # <= lp_right_hand_side[c])\n # solver.Add(solver.Sum(x[hh]*incidence[c, hh] for hh in range(sample_count)) + relax_ge[c]\n # >= lp_right_hand_side[c])\n # solver.Add(solver.Sum(x[hh]*incidence[c, hh] for hh in range(sample_count)) + relax_ge[c]\n # <= hh_constraint_ge_bound[c])\n\n # - equality constraint for the total households control\n total_hh_constraint = lp_right_hand_side[total_hh_control_index]\n constraint_eq = solver.Constraint(total_hh_constraint, total_hh_constraint)\n for hh in range(0, sample_count):\n constraint_eq.SetCoefficient(x[hh], 1.0)\n\n solver.set_time_limit(CBC_TIMEOUT_IN_SECONDS * 1000)\n\n solver.EnableOutput()\n\n result_status = solver.Solve()\n\n status_text = STATUS_TEXT[result_status]\n\n if status_text in STATUS_SUCCESS:\n resid_weights_out = np.asanyarray(map(lambda x: x.solution_value(), x)).astype(np.float64)\n else:\n resid_weights_out = resid_weights\n\n return resid_weights_out, status_text", "def solve(self, Bmin=2, Bmax=6, integer_programming=False,\n normalized_coverage=True, secondary_objective_coefficient=0.01, risk_manager=None) -> Tuple[bool, str]:\n if self.state == \"Initial_main_spreadsheet_loaded\":\n self.solutions_dictionary = {}\n self.fig_output_dir = os.path.join(self.root, \"Figures\", self.current_date.strdate)\n self.progress = (0, Bmax + 1 - Bmin)\n pbar = tqdm.tqdm(total=Bmax + 1 - Bmin)\n ws_success, msg = produce_weighted_risk_sheet(self.organization_df, self.risk_df,\n self.main_spreadsheet_path,\n Institution(self.organization_df, self.risk_df,\n self.current_date, risk_manager))\n for B in range(Bmin, Bmax + 1):\n pbar.set_description()\n pbar.update(1)\n\n self.progress = (lambda x: (x[0]+1, x[1]))(self.progress)\n # New Institution including weight calculation and discounting - important to create a new\n # instance to override the weight updates performed by the previous budget selections.\n self.institution = Institution(\n self.organization_df, self.risk_df, self.current_date, risk_manager)\n problem = SelectCandidatesForTest(B=B, institution=self.institution,\n integer_programming=integer_programming,\n normalized_coverage=normalized_coverage,\n secondary_objective_coefficient=secondary_objective_coefficient)\n sampled_person_lst = problem.solve(\n path=self.solver_path, verbosity=0)\n if sampled_person_lst is None:\n msg += \"Solver failed while solving B={}\".format(B)\n self.solutions_dictionary = None\n self.fig_output_dir = None\n self.state = \"Initial_main_spreadsheet_loaded\"\n self.message = msg\n return False, msg\n sampled_groups_lst = self.institution.get_groups_of_people(\n sampled_person_lst, format=\"list\")\n\n # mark the selected people as if they were tested right away\n self.institution.update_test_date(\n sampled_person_lst, self.current_date)\n self.institution.update_weights(self.current_date)\n\n # record history\n # self.institution.draw(node_size=100, marked_nodes=sampled_person_lst+sampled_groups_lst,\n # output_dir=self.fig_output_dir,\n # output_filename=\"Graph_B_{}\".format(B),\n # output_type=\"png\", figsize=(8, 12), margins=(0.05, 0.21), font_size=6)\n self.solutions_dictionary[B] = dict(sampled_person_lst=sampled_person_lst,\n sampled_groups_lst=sampled_groups_lst,\n wV=np.array([self.institution.nodes_attributes[person]['w'] for person in\n self.institution.person_lst], dtype=np.float32),\n wE=np.array([self.institution.nodes_attributes[group]['w'] for group in\n self.institution.group_lst], dtype=np.float32))\n pbar.close()\n\n # Plot of the w(e) and the w(v) as a function of B (one line per w(e)) -\n # plot_budget_exploration(solutions_dictionary=self.solutions_dictionary,\n # institution=Institution(\n # self.organization_df, self.risk_df, self.current_date, risk_manager),\n # plot_dir=self.fig_output_dir, break_to_smaller_plots=False)\n self.state = \"Solved\"\n msg += \"Successfully solved for budgets {}-{}\".format(Bmin, Bmax)\n self.message = msg\n return True, msg\n else:\n msg = \"The spreadsheet must be loaded and ready for a solution\"\n self.message = msg\n return False, msg", "def solver(u_init, eta_0, eta, eta_lin, T, H, L_lhs, L_rhs, alpha, gamma, B, D, C, ftol = 1e-3, max_iter = 5000, verbose = 0, nnls_max_iter=30):\n\n # Raise('NotImplementedError: only adjusted the arguments.')\n #Need to incorporate L_lhs into stacked and appropriate w_lin updates, u_update and eta_lin increments\n #precompute the expensive operation:\n lin_penalties = 1/np.sqrt(2*eta_lin)\n eta_T_H_L_stacked = scipy.sparse.vstack([T.multiply(1/np.sqrt(2*eta_0))] + [H[i].multiply(1/np.sqrt(2*eta[i])) for i in range(len(H))] + [L_lhs.multiply(lin_penalties[:,None])])\n #!!!!\n# premultiplied_lhs = eta_T_H_stacked.T.dot(eta_T_H_stacked).toarray()\n #!!!!\n u_prev = u_init + 1\n u = u_init\n count = 0\n obj_history = []\n relaxed_obj_history = [-1, 0.1] #just two initial values to enter the loop\n while np.abs((relaxed_obj_history[-2] - relaxed_obj_history[-1])/relaxed_obj_history[-2]) > ftol and count < max_iter:#np.linalg.norm(u - u_prev, np.inf) > 1e-3 and count < max_iter: #Maybe all of them stop changing\n start = time.time()\n \n u_prev = np.copy(u)\n w_0 = w_0_update(eta_0, u, T, alpha, B) \n w = w_update(u, H, gamma, D, C) \n w_lin = w_lin_update(u, L_lhs, L_rhs)\n# u = u_update(eta_0, eta, w_0, w, eta_T_H_stacked, nnls_max_iter=50)\n #!!!!\n # u = u_update(eta_0, eta, w_0, w, eta_T_H_L_stacked, nnls_max_iter=30)\n u = u_update(eta_0, eta, eta_lin, w_0, w, w_lin, eta_T_H_L_stacked, premultiplied_lhs = None, nnls_max_iter=nnls_max_iter)\n #!!!!\n count += 1 \n if count == 10:\n u_inf = np.copy(u)\n w_0_inf = w_0[:]\n w_inf = w[:]\n w_lin_inf = w_lin[:]\n if count > 10 and np.abs(cur_obj) > 1e+15: #HANDLE THIS BETTER!!!\n print('INFINITY! RETURNING u at the 10-th iteration to enter the feasibility loop')\n return u_inf, w_0_inf, w_inf, w_lin_inf, obj_history, relaxed_obj_history\n \n cur_obj = obj_u_opt_N_fixed(u, T, alpha, B)\n obj_history.append(cur_obj)\n cur_relaxed_obj = relaxed_obj_u_opt_N_fixed(u, w_0, w, w_lin, eta_0, eta, eta_lin, T, H, L_lhs, alpha, B)\n # relaxed_obj_u_opt_N_fixed(u, w_0, w, eta_0, eta, T, H, alpha, B)\n relaxed_obj_history.append(cur_relaxed_obj) \n \n stop = time.time()\n duration = stop-start\n \n if count%1 == 0 and verbose: \n stopping_criterion = np.abs((relaxed_obj_history[-2] - relaxed_obj_history[-1])/relaxed_obj_history[-2])\n print(' iter = {}, stopping criterion:{}, OBJ {}'.format(count, stopping_criterion, cur_obj))\n print(' This iteration took: {}'.format(duration))\n return u, w_0, w, w_lin, obj_history, relaxed_obj_history" ]

[ "0.80588853", "0.57209605", "0.56667006", "0.56207", "0.5570829", "0.55265594", "0.55035216", "0.54500896", "0.543349", "0.5393113", "0.53447133", "0.533168", "0.5316762", "0.5287845", "0.52589554", "0.5221941", "0.51770306", "0.5143078", "0.5087917", "0.50838614", "0.5065829", "0.5003847", "0.49647945", "0.496139", "0.496139", "0.49425375", "0.49423966", "0.49381799", "0.49317902", "0.49283475" ]

[ "def commitchanges(self): # 3\n res = self.__obj.commitchanges()\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def commit_changes(self):\n self.connection.commit()", "def commit(self):\n pass", "def commit(self):\n pass", "def commit(self):\n pass", "def commit(self):\n pass", "def commit(self):\n pass", "def commit(self):\n return", "def commit(self) -> None:\n pass", "def commitChanges(self):\n \n ## User is prompted that changes are being committed\n print(\"Committing changes to the CRM and Mailings database...\")\n db_connection.executeQuery(\"COMMIT;\")", "def commit(self):\n # PEP 249\n pass", "def commit(self):\n raise NotImplementedError", "def commit(self, force=False):\n if len(self.changed) > 0 or force: \n self.things_obj.set_all(self.things_dict, self.parent)\n logging.error('commited!!!!!!!!')", "def commit(self):\n self.cnx.commit()", "def commit(self) -> None:\n if self._edits and len(self._edits) > 0:\n self._update(\"\\n;\\n\".join(self._edits))\n self._edits = None", "def commit(self):\n #main.signals['exit'].disconnect(self.commit)\n self._dirty = False\n with self._lock:\n self._db.commit()", "def commit(self):\n changes = \"No reordering required.\"\n msg = \"No device reordering required on this system.\"\n\n if self.dirty:\n print(self._gen_changes_text(\"Proposed\"))\n\n # Generate committed changes text before committing.\n changes = self._gen_changes_text(\"Committed\")\n\n # If the rules have been updated commit those changes\n if self.udev.dirty:\n self.udev.commit()\n\n # If any of the fcoe or interfaces files have been\n # updated or renamed then commit those changes\n if self.fcoe_dirty or self.ifaces_dirty:\n conf_list = self.fcoe_confs + self.ifaces_confs\n rename_phases = max(c.renames_remaining\n for c in conf_list)\n\n # We want to iterate at least once, and up to max\n # number of rename operations outstanding.\n for i in range(max(1, rename_phases)):\n for conf in conf_list:\n # First time through will update file content, and\n # peforms first rename if any; subsequent commits\n # perform any remaining renames\n conf.commit()\n\n msg = (\"All device reordering changes committed to disk.\\n\"\n \"NOTE:\\n\"\n \" Please ensure that the ramdisk is updated and the\\n\"\n \" system is rebooted for these changes to take effect.\")\n\n self._create_flag_file(changes)\n print(msg)", "def commit(self):", "def commit(self):\n self._cur_batch.commit()\n self._cur_batch = None\n self._num_mutations = 0", "def _do_commit(self):\n self.backend.commit()", "def commit(self):\n if self._auto_sync:\n return\n\n result = []\n changes = list(self._remote_changes.items())\n self._remote_changes.clear()\n for key, cookie in changes:\n self._do_change(key, cookie)\n result.extend(map(methodcaller('cookie_change', key, cookie),\n self.local_observers))\n return DeferredList(result, fireOnOneErrback=True\n ).addCallback(lambda result: None)", "def apply_and_commit(self) -> None:\n self.apply()\n self.commit()", "def commit(self):\n for db in self.values():\n db.commit()", "def commitChanges(self):\n changes, liveDependencies = self._attributeManager.commitChanges()\n self.changeList.append(changes)\n # record the live attributes that we are dependent on\n for key, attributes in liveDependencies.items():\n for name, value in attributes.items():\n self.addDependency(key + \"::\" + name, value)\n return changes", "async def commit(self):\n if await self.is_valid():\n await self.update(committed=True).apply()", "def Commit(self):\n try:\n self.commit_changes([])\n return True\n except:\n return False", "def commit(self):\n self.DB.commit()", "def commit(self):\n self.db.commit()", "def commit(self):\n self.__connection.commit()", "def commit(self):\n self.conn.commit()" ]

[ "0.76084656", "0.676833", "0.6732544", "0.6732544", "0.6732544", "0.6732544", "0.6732544", "0.6690966", "0.66586244", "0.6633915", "0.6497338", "0.64345556", "0.6411314", "0.6405037", "0.63306653", "0.6300718", "0.6299956", "0.62567204", "0.62290084", "0.6215825", "0.615116", "0.61323553", "0.6119845", "0.60853374", "0.6069745", "0.60579634", "0.6048179", "0.60188687", "0.6009754", "0.60018957" ]

[ "def putatruncatetol(self,tolzero_):\n res = __library__.MSK_XX_putatruncatetol(self.__nativep,tolzero_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def root_threshold(self):\n return self._ll_tree.get_root_threshold()", "def get_abs_tolerance(self):\n\n if Test.global_abs_tolerance is None:\n return self._abs_tolerance\n return Test.global_abs_tolerance", "def actualthreshold(self):\n return self._actualthreshold", "def Tolerance(self):\n\t\treturn self._get_attribute('tolerance')", "def max_abs_error(self) -> float:\n return np.max(np.abs([self.error]))", "def SetAbsTol(self, tol):\n return _hypre.HypreGMRES_SetAbsTol(self, tol)", "def tol(self) -> Real:\n return self._tol", "def tol(self):\n return self._tol", "def test_error_at_confidence(self, threshold):\r\n\r\n nominator = numpy.sum(numpy.logical_and(self.test_errors, self.test_confidences >= threshold))\r\n denominator = numpy.sum(self.test_confidences >= threshold)\r\n if denominator > 0:\r\n return nominator / float(denominator)\r\n else:\r\n return 0", "def truncation(self) -> int:\n return self._truncate", "def xtol(self):\n return self._xtol", "def trunc(x):\n return 0", "def find_metric_threshold(self):\n logger.info(\"compute metric threshold\")\n\n ### Beaucoup trop lent quand on a beaucoup de models ###\n\n df_results_not_aggregated = self.result_reader.load_all_results(aggregate=False)\n\n if len(df_results_not_aggregated) == 0:\n logger.info(\"threshold = None\")\n return None\n\n main_scorer = \"test_%s\" % self.job_config.main_scorer\n (df_results_not_aggregated[main_scorer].fillna(df_results_not_aggregated[main_scorer].min(), inplace=True))\n min_cv = df_results_not_aggregated.groupby(\"job_id\")[main_scorer].min().values\n delta_min_max_cv = np.median(\n df_results_not_aggregated.groupby(\"job_id\")[main_scorer].apply(lambda x: x.max() - x.min())\n )\n\n if len(min_cv) <= self.min_nb_of_models:\n logger.info(\"threshold = None\")\n return None\n\n min_cv = -np.sort(-min_cv)\n result = min_cv[self.min_nb_of_models] - delta_min_max_cv\n\n # result = np.percentile( min_cv, self._get_quantile(len(min_cv)) * 100)\n # TODO : ici peut etre faire une estimation parametric du quantile avec un Kernel, plus smooth et moins sensible quand peu de valeurs\n\n logger.info(\"threshold : %2.2f\" % result)\n return result", "def GetThreshold(self) -> \"float const &\":\n return _itkHistogramThresholdCalculatorPython.itkHistogramThresholdCalculatorHDF_GetThreshold(self)", "def get_tolerance(self):\n return self.tolerance", "def threshold(self):\n return self._threshold", "def threshold(self):\n return self._threshold", "def truncation(self) -> int:\n return self._truncation", "def max_error(self) -> float:\n return float(np.max(np.abs(self._flattened_errors())))", "def zero_upper_range(x, upper_threshold):\r\n x = np.asarray(x, dtype=complex)\r\n count = 0\r\n for i in range(0, x.shape[0], 1):\r\n if x[i].real > upper_threshold:\r\n x[i] = complex(0, 0j)\r\n count+=1\r\n print(\"zeroed samples: \", count)\r\n return x;", "def threshold(self) -> float:\n return pulumi.get(self, \"threshold\")", "def max_abs(self):\n\n return np.nanmax(self.abs_data)", "def threshold(self) -> Union[float, TensorType]:\n return self._threshold", "def athreshold(a,threshmin=None,threshmax=None,newval=0):\r\n mask = N.zeros(a.shape)\r\n if threshmin <> None:\r\n mask = mask + N.where(a<threshmin,1,0)\r\n if threshmax <> None:\r\n mask = mask + N.where(a>threshmax,1,0)\r\n mask = N.clip(mask,0,1)\r\n return N.where(mask,newval,a)", "def threshold(self) -> Optional[pulumi.Input[float]]:\n return pulumi.get(self, \"threshold\")", "def threshold(self) -> Optional[pulumi.Input[float]]:\n return pulumi.get(self, \"threshold\")", "def threshold(self) -> Optional[pulumi.Input[float]]:\n return pulumi.get(self, \"threshold\")", "def truncateC(self, Dmax, tol=None):\n if (self.pC > 0) and (self.pC < self.L):\n if tol is None:\n tol = self.zero\n projL, self.C, projR, newD, discarded = self._mps_truncateC(self.C, Dmax, tol)\n self.A[self.pC - 1] = self._mps_AC(self.A[self.pC - 1], projL)\n self.A[self.pC] = self._mps_CA(projR, self.A[self.pC])\n self.D[self.pC] = newD\n self.discarded[self.pC] = max(self.discarded[self.pC], discarded)\n else:\n discarded = 0.\n return discarded", "def tpr_at_confidence(self, threshold):\r\n\r\n return numpy.sum(self.test_confidences[numpy.logical_not(self.test_errors)] >= threshold) / float(numpy.sum(numpy.logical_not(self.test_errors)))" ]

[ "0.67641044", "0.55815715", "0.55104095", "0.54922104", "0.536327", "0.53503454", "0.5266048", "0.52519375", "0.5251207", "0.51428974", "0.50763685", "0.5071689", "0.505621", "0.501474", "0.50051814", "0.49723387", "0.49293035", "0.49293035", "0.48994562", "0.48980278", "0.48826334", "0.48814046", "0.48795953", "0.4876022", "0.48690662", "0.48276517", "0.48276517", "0.48276517", "0.4807858", "0.48001796" ]

[ "def getatruncatetol(self,tolzero_):\n _tolzero_minlength = 1\n if 1 > 0 and tolzero_ is not None and len(tolzero_) != 1:\n raise ValueError(\"Array argument tolzero is not long enough: Is %d, expected %d\" % (len(tolzero_),1))\n if isinstance(tolzero_,numpy.ndarray) and not tolzero_.flags.writeable:\n raise ValueError(\"Argument tolzero must be writable\")\n if tolzero_ is None:\n raise ValueError(\"Argument tolzero may not be None\")\n if isinstance(tolzero_, numpy.ndarray) and tolzero_.dtype is numpy.dtype(numpy.float64) and tolzero_.flags.contiguous:\n _tolzero_copyarray = False\n _tolzero_tmp = ctypes.cast(tolzero_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif tolzero_ is not None:\n _tolzero_copyarray = True\n _tolzero_np_tmp = numpy.zeros(len(tolzero_),numpy.dtype(numpy.float64))\n _tolzero_np_tmp[:] = tolzero_\n assert _tolzero_np_tmp.flags.contiguous\n _tolzero_tmp = ctypes.cast(_tolzero_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _tolzero_copyarray = False\n _tolzero_tmp = None\n \n res = __library__.MSK_XX_getatruncatetol(self.__nativep,_tolzero_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _tolzero_copyarray:\n tolzero_[:] = _tolzero_np_tmp", "def zero_upper_range(x, upper_threshold):\r\n x = np.asarray(x, dtype=complex)\r\n count = 0\r\n for i in range(0, x.shape[0], 1):\r\n if x[i].real > upper_threshold:\r\n x[i] = complex(0, 0j)\r\n count+=1\r\n print(\"zeroed samples: \", count)\r\n return x;", "def cut_noise(a, tol=1E-10):\n a[abs(a) < tol] = 0\n return a", "def trunc(x):\n return 0", "def truncate(coeffs, threshold=99):\n sortedindex = np.argsort(np.abs(coeffs))[::-1]\n Ncoeff = coeffs.shape[-1]\n cutoff = np.int(np.round(Ncoeff*threshold/100.))\n \n# print \"Keeping %2.0f %% (N=%s) of the biggest coefficients\"%(threshold,cutoff)\n\n coeffs_trunc = coeffs.copy() \t\t\t# copy of all coeff\n coeffs_trunc[sortedindex[cutoff:]] = 0 \t\t# put coeff\n \n return coeffs_trunc", "def round_half_away_from_zero_inplace(a):", "def trunc_inplace(a):", "def chop(qob, tol=1.0e-15, inplace=True):\n minm = np.abs(qob).max() * tol # minimum value tolerated\n if not inplace:\n qob = qob.copy()\n if issparse(qob):\n qob.data.real[np.abs(qob.data.real) < minm] = 0.0\n qob.data.imag[np.abs(qob.data.imag) < minm] = 0.0\n qob.eliminate_zeros()\n else:\n qob.real[np.abs(qob.real) < minm] = 0.0\n qob.imag[np.abs(qob.imag) < minm] = 0.0\n return qob", "def zeroify(fn, tol=1e-14):\n\n @functools.wraps(fn)\n def zeroified_f(*args, **kwargs):\n x = fn(*args, **kwargs)\n return 0.0 if abs(x) < tol else x\n\n return zeroified_f", "def SetAbsTol(self, tol):\n return _hypre.HypreGMRES_SetAbsTol(self, tol)", "def set_abs_tolerance(self, value):\n\n self._abs_tolerance = value", "def shrink(X, tau):\n V = np.copy(X).reshape(X.size)\n for i in xrange(V.size):\n V[i] = math.copysign(max(abs(V[i]) - tau, 0), V[i])\n if V[i] == -0:\n V[i] = 0\n return V.reshape(X.shape)", "def SetAbsTol(self, atol):\n return _hypre.HyprePCG_SetAbsTol(self, atol)", "def zero_lower_range(x, lower_threshold):\r\n x = np.asarray(x, dtype=complex)\r\n count = 0\r\n for i in range(0, x.shape[0], 1):\r\n if x[i].real < lower_threshold:\r\n x[i] = complex(0, 0j)\r\n count+=1\r\n print(\"zeroed samples: \", count)\r\n return x;", "def is_close_to_zero(value: Union[float, np.ndarray]) -> Union[bool, np.ndarray]:\n return abs(value) < 1.0e-10", "def test_truncate2():\n X = rand(5,5,5)\n T = hosvd(X)\n k = 3\n Tk = T.truncate(k)\n E = X - Tk.asarray()\n Cdk = T.X\n Cdk[:k,:k,:k] = 0\n assert np.allclose(fro_norm(E), fro_norm(Cdk))", "def _truncate(self):\n dif = len(self) - self._maxLen\n if dif > 0:\n #return\n self[:dif] = []", "def drop_quasi_zero(df, thresh=0.05):\n drop_list = []\n for el in df.columns.values:\n non_zero = df[el][df[el] != 0].shape[0] / df.shape[0]\n if non_zero < thresh:\n drop_list.append(el)\n print('Dropping column: {} | Non-zero values ratio: {}%'.format(\n el, round(100 * non_zero, 3)))\n return df.drop(drop_list, axis=1)", "def truncateC(self, Dmax, tol=None):\n if (self.pC > 0) and (self.pC < self.L):\n if tol is None:\n tol = self.zero\n projL, self.C, projR, newD, discarded = self._mps_truncateC(self.C, Dmax, tol)\n self.A[self.pC - 1] = self._mps_AC(self.A[self.pC - 1], projL)\n self.A[self.pC] = self._mps_CA(projR, self.A[self.pC])\n self.D[self.pC] = newD\n self.discarded[self.pC] = max(self.discarded[self.pC], discarded)\n else:\n discarded = 0.\n return discarded", "def reset_cut(df, tol=0.005):\n time_modulo_centered = df.time_modulo_reset -1.01 # seconds\n \n df['reset_cut'] = (\n abs(time_modulo_centered) > tol\n )\n \n return None", "def nozero(arr):\n vals=sorted(list(set(np.array(arr).flatten())))\n if vals[0]<0:\n print(\"correcting for div/zero by replacing 0 with\",vals[1])\n arr[arr==0]=vals[1]\n return arr", "def average_close(a,tol=0.5):\n if a.ndim != 2:\n raise ValueError,\"array should be 2-dimensional!\"\n n = normalize(a)\n nrow = a.shape[0]\n cnt = zeros(nrow,dtype=int32)\n while cnt.min() == 0:\n w = where(cnt==0)\n nw = n[w]\n wok = where(dotpr(nw[0],nw) >= tol)\n wi = w[0][wok[0]]\n cnt[wi] = len(wi)\n a[wi] = a[wi].sum(axis=0)\n return a,cnt", "def normalize_row_scale01(data,tol=1e-6,data_min=None,data_max=None,clip=False,clip_min=1e-3,clip_max=1e3):\n if clip:\n data[data<clip_min]=clip_min\n data[data>clip_max]=clip_max\n\n if data_max is None:\n data_max=np.max(data,axis=1)\n data_max.shape=(data_max.shape[0],1)\n #if clip:\n # data_max[data_max>clip_max]=clip_max\n if data_min is None:\n data_min=np.min(data,axis=1)\n data_min.shape=(data_min.shape[0],1)\n #if clip:\n # data_min[data_min<clip_min]=clip_min\n #tol=1e-6#1e-8\n return (data-data_min)/(data_max-data_min+tol),data_min,data_max", "def iszero(a: float) -> bool:\n return np.isclose(a, 0.0, atol=1.0e-12, rtol=0.0)", "def set_tolerance(self, tol):\n self.tolerance = tol", "def DropSmallEntries(self, tol):\n return _hypre.HypreParMatrix_DropSmallEntries(self, tol)", "def shrink(x: np.ndarray, t: float) -> np.ndarray:\n return np.sign(x) * np.maximum(np.abs(x) - t, 0)", "def laplace (m,tol):\n\n dif = 1 # This should be the tolerance parameter.\n \n copym=np.copy(m)\n print(copym)\n copym[1:-1,1:-1]=(copym[:-2,1:-1]+copym[2:,1:-1]+\n copym[1:-1,2:]+copym[1:-1,:-2])/4\n print (copym) # That space has got to go!\n A=m-copym # This line could use the extra space.\n # A = m-copym # This line could use the extra space.\n print (A) # Extra print statements in the code are really annoying.\n A=np.absolute(A)\n print (A)\n dif = np.amax(A)\n print (dif,tol)\n while dif >=tol:\n copym1=np.copy(copym)\n copym1[1:-1,1:-1]=(copym1[:-2,1:-1]+copym1[2:,1:-1]+\n copym1[1:-1,2:]+copym1[1:-1,:-2])/4\n A=np.absolute(copym1)-np.absolute(copym)\n dif = np.amax(A)\n copym=copym1\n return copym", "def truncate(self, precision) :\n raise NotImplementedError", "def truncate(self, precision) :\n raise NotImplementedError" ]

[ "0.80036145", "0.5751662", "0.5640666", "0.5628784", "0.55079186", "0.5492442", "0.5491674", "0.5307355", "0.5290475", "0.5286937", "0.52232546", "0.5209159", "0.5189761", "0.51801574", "0.5154854", "0.51260567", "0.5098613", "0.50700945", "0.5041812", "0.50397253", "0.503684", "0.5024094", "0.5016218", "0.49966347", "0.49832988", "0.49625787", "0.4961821", "0.49595797", "0.49376327", "0.49376327" ]

[ "def putaij(self,i_,j_,aij_): # 3\n res = self.__obj.putaij(i_,j_,aij_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getaij(self,i_,j_):\n aij_ = ctypes.c_double()\n res = __library__.MSK_XX_getaij(self.__nativep,i_,j_,ctypes.byref(aij_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n aij_ = aij_.value\n _aij_return_value = aij_\n return (_aij_return_value)", "def setitem(self, i, j, value):\n # XXX: flint matrices do not support negative indices\n # XXX: They also raise ValueError instead of IndexError\n m, n = self.shape\n if i < 0:\n i += m\n if j < 0:\n j += n\n try:\n self.rep[i, j] = value\n except ValueError:\n raise IndexError(f\"Invalid indices ({i}, {j}) for Matrix of shape {self.shape}\")", "def fixA(self,i,j,value):\n if self.coeffPattern[0] == None:\n m,n=self.m,self.n\n self.coeffPattern[0] = [[None]*m for i in range(m)]\n self.coeffPattern[0][i][j]=value\n self._updateEstimatorSize(i)", "def setItem(self, i, j, val):\n if i < 0:\n raise IndexError('Row index must be nonnegative.')\n if j < 0:\n raise IndexError('Column index must be nonnegative.')\n\n self.__m[i - 1][j - 1] = val", "def getaij(self,i_,j_): # 3\n res,resargs = self.__obj.getaij(i_,j_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _aij_return_value = resargs\n return _aij_return_value", "def __setitem__(self, i_j, value):\n\t\t\n\t\tif i_j == Ellipsis:\n\t\t\tself.item_cache.clear()\n\t\t\tassert not self.item_cache\n\t\telse:\n\t\t\ttry:\n\t\t\t\tif any((hasattr(ij, 'start') and hasattr(ij, 'stop') and hasattr(ij, 'step')) for ij in i_j):\n\t\t\t\t\tself.item_cache.clear()\n\t\t\t\t\tassert not self.item_cache\n\t\t\texcept TypeError:\n\t\t\t\ttry:\n\t\t\t\t\tdel self.item_cache[i_j]\n\t\t\t\texcept KeyError:\n\t\t\t\t\tpass\n\t\t\n\t\tdef setitem(direction, indices_i, indices_j):\n\t\t\tif direction == self.__direction.scalar:\n\t\t\t\tself.value[self.row_dimension * indices_i + indices_j] = value\n\t\t\telif direction == self.__direction.row:\n\t\t\t\tif len(value) != len(indices_i):\n\t\t\t\t\traise ValueError(\"Assigned value (len {}) must have length equal to indices list ({}).\".format(len(value), len(indices_i)))\n\t\t\t\tj = indices_j\n\t\t\t\tfor m, i in enumerate(indices_i):\n\t\t\t\t\tself.value[self.row_dimension * i + j] = value[m]\n\t\t\telif direction == self.__direction.column:\n\t\t\t\tif len(value) != len(indices_j):\n\t\t\t\t\traise ValueError(\"Assigned value (len {}) must have length equal to indices list ({}).\".format(len(value), len(indices_j)))\n\t\t\t\ti = indices_i\n\t\t\t\tfor n, j in enumerate(indices_j):\n\t\t\t\t\tself.value[self.row_dimension * i + j] = value[n]\n\t\t\telif direction == self.__direction.matrix:\n\t\t\t\tif self.row_dimension != len(indices_i):\n\t\t\t\t\traise ValueError\n\t\t\t\tif self.column_dimension != len(indices_j):\n\t\t\t\t\traise ValueError\n\t\t\t\tfor (m, i), (n, j) in product(enumerate(indices_i), enumerate(indices_j)):\n\t\t\t\t\tself.value[self.row_dimension * i + j] = value[m, n]\n\t\t\telif direction == self.__direction.copy:\n\t\t\t\tif self.algebra != value.algebra:\n\t\t\t\t\traise TypeError(\"In-place matrix assignment works only from a matrix of the same type.\")\n\t\t\t\tif self.column_dimension != value.column_dimension or self.row_dimension != value.row_dimension:\n\t\t\t\t\traise ValueError(\"In-place matrix assignment works only from a matrix of the same dimensions.\")\n\t\t\t\tself.value = list(value.value)\n\t\t\telse:\n\t\t\t\traise RuntimeError(\"Unknown direction value: `{}`\".format(repr(direction)))\n\t\t\n\t\tself.__analyze_indices(i_j, setitem)", "def putcj(self,j_,cj_):\n res = __library__.MSK_XX_putcj(self.__nativep,j_,cj_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def SetIJ(self, newI, newJ, newsize=-1):\n return _table.Table_SetIJ(self, newI, newJ, newsize)", "def putqobjij(self,i_,j_,qoij_): # 3\n res = self.__obj.putqobjij(i_,j_,qoij_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putsolutionyi(self,i_,whichsol_,y_):\n res = __library__.MSK_XX_putsolutionyi(self.__nativep,i_,whichsol_,y_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def add(self, i, j):\n \n # use running average to update CoM coordinates.\n self._x = (self._x * self._P + i) / (self._P + 1)\n self._y = (self._y * self._P + j) / (self._P + 1)\n # increment mass\n self._P += 1", "def putqobjij(self,i_,j_,qoij_):\n res = __library__.MSK_XX_putqobjij(self.__nativep,i_,j_,qoij_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def fixB(self,i,j,value):\n if self.coeffPattern[1] == None:\n m,n=self.m,self.n\n self.coeffPattern = [[None]*n for i in range(m)]\n self.coeffPattern[1][i][j]=value\n self._updateEstimatorSize(i)", "def ij(ij, pol, ant) :\n s.ij(pol, ij, ant)", "def substitute_cost(self, i, j):\n raise NotImplementedError", "def putcj(self,j_,cj_): # 3\n res = self.__obj.putcj(j_,cj_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putaijlist(self,subi_,subj_,valij_):\n num_ = None\n if num_ is None:\n num_ = len(subi_)\n elif num_ != len(subi_):\n raise IndexError(\"Inconsistent length of array subi\")\n if num_ is None:\n num_ = len(subj_)\n elif num_ != len(subj_):\n raise IndexError(\"Inconsistent length of array subj\")\n if num_ is None:\n num_ = len(valij_)\n elif num_ != len(valij_):\n raise IndexError(\"Inconsistent length of array valij\")\n if subi_ is None:\n raise ValueError(\"Argument subi cannot be None\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n if valij_ is None:\n raise ValueError(\"Argument valij cannot be None\")\n if valij_ is None:\n raise ValueError(\"Argument valij may not be None\")\n if isinstance(valij_, numpy.ndarray) and valij_.dtype is numpy.dtype(numpy.float64) and valij_.flags.contiguous:\n _valij_copyarray = False\n _valij_tmp = ctypes.cast(valij_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif valij_ is not None:\n _valij_copyarray = True\n _valij_np_tmp = numpy.zeros(len(valij_),numpy.dtype(numpy.float64))\n _valij_np_tmp[:] = valij_\n assert _valij_np_tmp.flags.contiguous\n _valij_tmp = ctypes.cast(_valij_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _valij_copyarray = False\n _valij_tmp = None\n \n res = __library__.MSK_XX_putaijlist64(self.__nativep,num_,_subi_tmp,_subj_tmp,_valij_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def __setitem__(self, j, val):\n\t\tself._coords[j] = val", "def putaijlist(self,subi,subj,valij): # 3\n num_ = None\n if num_ is None:\n num_ = len(subi)\n elif num_ != len(subi):\n raise IndexError(\"Inconsistent length of array subi\")\n if num_ is None:\n num_ = len(subj)\n elif num_ != len(subj):\n raise IndexError(\"Inconsistent length of array subj\")\n if num_ is None:\n num_ = len(valij)\n elif num_ != len(valij):\n raise IndexError(\"Inconsistent length of array valij\")\n if num_ is None: num_ = 0\n if subi is None: raise TypeError(\"Invalid type for argument subi\")\n if subi is None:\n subi_ = None\n else:\n try:\n subi_ = memoryview(subi)\n except TypeError:\n try:\n _tmparr_subi = array.array(\"i\",subi)\n except TypeError:\n raise TypeError(\"Argument subi has wrong type\")\n else:\n subi_ = memoryview(_tmparr_subi)\n \n else:\n if subi_.format != \"i\":\n subi_ = memoryview(array.array(\"i\",subi))\n \n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n \n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n \n if valij is None: raise TypeError(\"Invalid type for argument valij\")\n if valij is None:\n valij_ = None\n else:\n try:\n valij_ = memoryview(valij)\n except TypeError:\n try:\n _tmparr_valij = array.array(\"d\",valij)\n except TypeError:\n raise TypeError(\"Argument valij has wrong type\")\n else:\n valij_ = memoryview(_tmparr_valij)\n \n else:\n if valij_.format != \"d\":\n valij_ = memoryview(array.array(\"d\",valij))\n \n res = self.__obj.putaijlist64(num_,subi_,subj_,valij_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarsolutionj(self,j_,whichsol_,sk_,x_,sl_,su_,sn_):\n res = __library__.MSK_XX_putvarsolutionj(self.__nativep,j_,whichsol_,sk_,x_,sl_,su_,sn_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def switch(self, i, j0, j1):\n if not self._mutable:\n raise ValueError(\"this constellation is immutable.\"\n \" Take a mutable copy first.\")\n S = SymmetricGroup(list(range(self.degree())))\n tr = S((j0, j1))\n i = int(i)\n if i < 0 or i >= len(self._g):\n raise ValueError(\"index out of range\")\n\n ii = i + 1\n if ii == len(self._g):\n ii = 0\n self._g[i] = self._g[i] * tr\n self._g[ii] = tr * self._g[ii]", "def ij2xy(self, i=None, j=None):\n pass", "def vjij(Vj, Ij, pol, ant) :\n s.vj(pol,Vj, ant)\n sleep(0.5)\n s.ij(pol,Ij, ant)", "def problem_reduction_single(self, i, val):\n y_update = - val * self.A.getcol(i).toarray().flatten()\n self.y += y_update\n self.A = sparse.hstack([self.A[:, :i], self.A[:, i + 1:]], format='csr')\n z_index = self.mask.searchsorted(i)\n self.mask = np.insert(self.mask, z_index, i)\n self.z = np.insert(self.z, z_index, val)", "def spin_J_set(j, *, dtype=None):\n return jmat(j, dtype=dtype)", "def jacobian(self, x):\n pass", "def _append_cx(self, i, j):\n\n if not 0 <= i < self.num_qubits or not 0 <= j < self.num_qubits:\n raise QiskitError(\"CX qubits are out of bounds.\")\n self.linear[j] = (self.linear[i] + self.linear[j]) % 2\n self.shift[j] = (self.shift[i] + self.shift[j]) % 2", "def jacobian(self, c):\n\n raise NotImplementedError", "def fast_update_col(self,j,vals):\n dataptr = self.col_view[:,j].data\n self.X.data[dataptr] = vals" ]

[ "0.77300495", "0.6668987", "0.6660921", "0.6471983", "0.64646226", "0.6461473", "0.61172444", "0.6107512", "0.60523355", "0.6006178", "0.5970558", "0.5945894", "0.5909612", "0.59052235", "0.58720404", "0.58607316", "0.58551913", "0.58178586", "0.5790797", "0.5705922", "0.56562895", "0.5646864", "0.56236583", "0.5614803", "0.5590633", "0.55853856", "0.5577703", "0.55687094", "0.55584174", "0.5509507" ]

[ "def putaijlist(self,subi,subj,valij): # 3\n num_ = None\n if num_ is None:\n num_ = len(subi)\n elif num_ != len(subi):\n raise IndexError(\"Inconsistent length of array subi\")\n if num_ is None:\n num_ = len(subj)\n elif num_ != len(subj):\n raise IndexError(\"Inconsistent length of array subj\")\n if num_ is None:\n num_ = len(valij)\n elif num_ != len(valij):\n raise IndexError(\"Inconsistent length of array valij\")\n if num_ is None: num_ = 0\n if subi is None: raise TypeError(\"Invalid type for argument subi\")\n if subi is None:\n subi_ = None\n else:\n try:\n subi_ = memoryview(subi)\n except TypeError:\n try:\n _tmparr_subi = array.array(\"i\",subi)\n except TypeError:\n raise TypeError(\"Argument subi has wrong type\")\n else:\n subi_ = memoryview(_tmparr_subi)\n \n else:\n if subi_.format != \"i\":\n subi_ = memoryview(array.array(\"i\",subi))\n \n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n \n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n \n if valij is None: raise TypeError(\"Invalid type for argument valij\")\n if valij is None:\n valij_ = None\n else:\n try:\n valij_ = memoryview(valij)\n except TypeError:\n try:\n _tmparr_valij = array.array(\"d\",valij)\n except TypeError:\n raise TypeError(\"Argument valij has wrong type\")\n else:\n valij_ = memoryview(_tmparr_valij)\n \n else:\n if valij_.format != \"d\":\n valij_ = memoryview(array.array(\"d\",valij))\n \n res = self.__obj.putaijlist64(num_,subi_,subj_,valij_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbaraijlist(self,subi_,subj_,alphaptrb_,alphaptre_,matidx_,weights_):\n num_ = None\n if num_ is None:\n num_ = len(subi_)\n elif num_ != len(subi_):\n raise IndexError(\"Inconsistent length of array subi\")\n if num_ is None:\n num_ = len(subj_)\n elif num_ != len(subj_):\n raise IndexError(\"Inconsistent length of array subj\")\n if num_ is None:\n num_ = len(alphaptrb_)\n elif num_ != len(alphaptrb_):\n raise IndexError(\"Inconsistent length of array alphaptrb\")\n if num_ is None:\n num_ = len(alphaptre_)\n elif num_ != len(alphaptre_):\n raise IndexError(\"Inconsistent length of array alphaptre\")\n if subi_ is None:\n raise ValueError(\"Argument subi cannot be None\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n if alphaptrb_ is None:\n raise ValueError(\"Argument alphaptrb cannot be None\")\n if alphaptrb_ is None:\n raise ValueError(\"Argument alphaptrb may not be None\")\n if isinstance(alphaptrb_, numpy.ndarray) and alphaptrb_.dtype is numpy.dtype(numpy.int64) and alphaptrb_.flags.contiguous:\n _alphaptrb_copyarray = False\n _alphaptrb_tmp = ctypes.cast(alphaptrb_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif alphaptrb_ is not None:\n _alphaptrb_copyarray = True\n _alphaptrb_np_tmp = numpy.zeros(len(alphaptrb_),numpy.dtype(numpy.int64))\n _alphaptrb_np_tmp[:] = alphaptrb_\n assert _alphaptrb_np_tmp.flags.contiguous\n _alphaptrb_tmp = ctypes.cast(_alphaptrb_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _alphaptrb_copyarray = False\n _alphaptrb_tmp = None\n \n if alphaptre_ is None:\n raise ValueError(\"Argument alphaptre cannot be None\")\n if alphaptre_ is None:\n raise ValueError(\"Argument alphaptre may not be None\")\n if isinstance(alphaptre_, numpy.ndarray) and alphaptre_.dtype is numpy.dtype(numpy.int64) and alphaptre_.flags.contiguous:\n _alphaptre_copyarray = False\n _alphaptre_tmp = ctypes.cast(alphaptre_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif alphaptre_ is not None:\n _alphaptre_copyarray = True\n _alphaptre_np_tmp = numpy.zeros(len(alphaptre_),numpy.dtype(numpy.int64))\n _alphaptre_np_tmp[:] = alphaptre_\n assert _alphaptre_np_tmp.flags.contiguous\n _alphaptre_tmp = ctypes.cast(_alphaptre_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _alphaptre_copyarray = False\n _alphaptre_tmp = None\n \n if matidx_ is None:\n raise ValueError(\"Argument matidx cannot be None\")\n if matidx_ is None:\n raise ValueError(\"Argument matidx may not be None\")\n if isinstance(matidx_, numpy.ndarray) and matidx_.dtype is numpy.dtype(numpy.int64) and matidx_.flags.contiguous:\n _matidx_copyarray = False\n _matidx_tmp = ctypes.cast(matidx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif matidx_ is not None:\n _matidx_copyarray = True\n _matidx_np_tmp = numpy.zeros(len(matidx_),numpy.dtype(numpy.int64))\n _matidx_np_tmp[:] = matidx_\n assert _matidx_np_tmp.flags.contiguous\n _matidx_tmp = ctypes.cast(_matidx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _matidx_copyarray = False\n _matidx_tmp = None\n \n if weights_ is None:\n raise ValueError(\"Argument weights cannot be None\")\n if weights_ is None:\n raise ValueError(\"Argument weights may not be None\")\n if isinstance(weights_, numpy.ndarray) and weights_.dtype is numpy.dtype(numpy.float64) and weights_.flags.contiguous:\n _weights_copyarray = False\n _weights_tmp = ctypes.cast(weights_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif weights_ is not None:\n _weights_copyarray = True\n _weights_np_tmp = numpy.zeros(len(weights_),numpy.dtype(numpy.float64))\n _weights_np_tmp[:] = weights_\n assert _weights_np_tmp.flags.contiguous\n _weights_tmp = ctypes.cast(_weights_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _weights_copyarray = False\n _weights_tmp = None\n \n res = __library__.MSK_XX_putbaraijlist(self.__nativep,num_,_subi_tmp,_subj_tmp,_alphaptrb_tmp,_alphaptre_tmp,_matidx_tmp,_weights_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def appendsparsesymmat(self,dim_,subi_,subj_,valij_):\n nz_ = None\n if nz_ is None:\n nz_ = len(subi_)\n elif nz_ != len(subi_):\n raise IndexError(\"Inconsistent length of array subi\")\n if nz_ is None:\n nz_ = len(subj_)\n elif nz_ != len(subj_):\n raise IndexError(\"Inconsistent length of array subj\")\n if nz_ is None:\n nz_ = len(valij_)\n elif nz_ != len(valij_):\n raise IndexError(\"Inconsistent length of array valij\")\n if subi_ is None:\n raise ValueError(\"Argument subi cannot be None\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n if valij_ is None:\n raise ValueError(\"Argument valij cannot be None\")\n if valij_ is None:\n raise ValueError(\"Argument valij may not be None\")\n if isinstance(valij_, numpy.ndarray) and valij_.dtype is numpy.dtype(numpy.float64) and valij_.flags.contiguous:\n _valij_copyarray = False\n _valij_tmp = ctypes.cast(valij_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif valij_ is not None:\n _valij_copyarray = True\n _valij_np_tmp = numpy.zeros(len(valij_),numpy.dtype(numpy.float64))\n _valij_np_tmp[:] = valij_\n assert _valij_np_tmp.flags.contiguous\n _valij_tmp = ctypes.cast(_valij_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _valij_copyarray = False\n _valij_tmp = None\n \n idx_ = ctypes.c_int64()\n res = __library__.MSK_XX_appendsparsesymmat(self.__nativep,dim_,nz_,_subi_tmp,_subj_tmp,_valij_tmp,ctypes.byref(idx_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n idx_ = idx_.value\n _idx_return_value = idx_\n return (_idx_return_value)", "def appendsparsesymmat(self,dim_,subi,subj,valij): # 3\n nz_ = None\n if nz_ is None:\n nz_ = len(subi)\n elif nz_ != len(subi):\n raise IndexError(\"Inconsistent length of array subi\")\n if nz_ is None:\n nz_ = len(subj)\n elif nz_ != len(subj):\n raise IndexError(\"Inconsistent length of array subj\")\n if nz_ is None:\n nz_ = len(valij)\n elif nz_ != len(valij):\n raise IndexError(\"Inconsistent length of array valij\")\n if nz_ is None: nz_ = 0\n if subi is None: raise TypeError(\"Invalid type for argument subi\")\n if subi is None:\n subi_ = None\n else:\n try:\n subi_ = memoryview(subi)\n except TypeError:\n try:\n _tmparr_subi = array.array(\"i\",subi)\n except TypeError:\n raise TypeError(\"Argument subi has wrong type\")\n else:\n subi_ = memoryview(_tmparr_subi)\n \n else:\n if subi_.format != \"i\":\n subi_ = memoryview(array.array(\"i\",subi))\n \n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n \n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n \n if valij is None: raise TypeError(\"Invalid type for argument valij\")\n if valij is None:\n valij_ = None\n else:\n try:\n valij_ = memoryview(valij)\n except TypeError:\n try:\n _tmparr_valij = array.array(\"d\",valij)\n except TypeError:\n raise TypeError(\"Argument valij has wrong type\")\n else:\n valij_ = memoryview(_tmparr_valij)\n \n else:\n if valij_.format != \"d\":\n valij_ = memoryview(array.array(\"d\",valij))\n \n res,resargs = self.__obj.appendsparsesymmat(dim_,nz_,subi_,subj_,valij_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _idx_return_value = resargs\n return _idx_return_value", "def putclist(self,subj,val): # 3\n num_ = None\n if num_ is None:\n num_ = len(subj)\n elif num_ != len(subj):\n raise IndexError(\"Inconsistent length of array subj\")\n if num_ is None:\n num_ = len(val)\n elif num_ != len(val):\n raise IndexError(\"Inconsistent length of array val\")\n if num_ is None: num_ = 0\n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n \n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n \n if val is None: raise TypeError(\"Invalid type for argument val\")\n if val is None:\n val_ = None\n else:\n try:\n val_ = memoryview(val)\n except TypeError:\n try:\n _tmparr_val = array.array(\"d\",val)\n except TypeError:\n raise TypeError(\"Argument val has wrong type\")\n else:\n val_ = memoryview(_tmparr_val)\n \n else:\n if val_.format != \"d\":\n val_ = memoryview(array.array(\"d\",val))\n \n res = self.__obj.putclist(num_,subj_,val_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putacol(self,j_,subj,valj): # 3\n nzj_ = None\n if nzj_ is None:\n nzj_ = len(subj)\n elif nzj_ != len(subj):\n raise IndexError(\"Inconsistent length of array subj\")\n if nzj_ is None:\n nzj_ = len(valj)\n elif nzj_ != len(valj):\n raise IndexError(\"Inconsistent length of array valj\")\n if nzj_ is None: nzj_ = 0\n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n \n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n \n if valj is None: raise TypeError(\"Invalid type for argument valj\")\n if valj is None:\n valj_ = None\n else:\n try:\n valj_ = memoryview(valj)\n except TypeError:\n try:\n _tmparr_valj = array.array(\"d\",valj)\n except TypeError:\n raise TypeError(\"Argument valj has wrong type\")\n else:\n valj_ = memoryview(_tmparr_valj)\n \n else:\n if valj_.format != \"d\":\n valj_ = memoryview(array.array(\"d\",valj))\n \n res = self.__obj.putacol(j_,nzj_,subj_,valj_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putaij(self,i_,j_,aij_): # 3\n res = self.__obj.putaij(i_,j_,aij_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putacol(self,j_,subj_,valj_):\n nzj_ = None\n if nzj_ is None:\n nzj_ = len(subj_)\n elif nzj_ != len(subj_):\n raise IndexError(\"Inconsistent length of array subj\")\n if nzj_ is None:\n nzj_ = len(valj_)\n elif nzj_ != len(valj_):\n raise IndexError(\"Inconsistent length of array valj\")\n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n if valj_ is None:\n raise ValueError(\"Argument valj cannot be None\")\n if valj_ is None:\n raise ValueError(\"Argument valj may not be None\")\n if isinstance(valj_, numpy.ndarray) and valj_.dtype is numpy.dtype(numpy.float64) and valj_.flags.contiguous:\n _valj_copyarray = False\n _valj_tmp = ctypes.cast(valj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif valj_ is not None:\n _valj_copyarray = True\n _valj_np_tmp = numpy.zeros(len(valj_),numpy.dtype(numpy.float64))\n _valj_np_tmp[:] = valj_\n assert _valj_np_tmp.flags.contiguous\n _valj_tmp = ctypes.cast(_valj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _valj_copyarray = False\n _valj_tmp = None\n \n res = __library__.MSK_XX_putacol(self.__nativep,j_,nzj_,_subj_tmp,_valj_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getsparsesymmat(self,idx_,subi_,subj_,valij_):\n maxlen_ = self.getsymmatinfo((idx_))[1]\n _subi_minlength = (maxlen_)\n if (maxlen_) > 0 and subi_ is not None and len(subi_) != (maxlen_):\n raise ValueError(\"Array argument subi is not long enough: Is %d, expected %d\" % (len(subi_),(maxlen_)))\n if isinstance(subi_,numpy.ndarray) and not subi_.flags.writeable:\n raise ValueError(\"Argument subi must be writable\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n _subj_minlength = (maxlen_)\n if (maxlen_) > 0 and subj_ is not None and len(subj_) != (maxlen_):\n raise ValueError(\"Array argument subj is not long enough: Is %d, expected %d\" % (len(subj_),(maxlen_)))\n if isinstance(subj_,numpy.ndarray) and not subj_.flags.writeable:\n raise ValueError(\"Argument subj must be writable\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n _valij_minlength = (maxlen_)\n if (maxlen_) > 0 and valij_ is not None and len(valij_) != (maxlen_):\n raise ValueError(\"Array argument valij is not long enough: Is %d, expected %d\" % (len(valij_),(maxlen_)))\n if isinstance(valij_,numpy.ndarray) and not valij_.flags.writeable:\n raise ValueError(\"Argument valij must be writable\")\n if isinstance(valij_, numpy.ndarray) and valij_.dtype is numpy.dtype(numpy.float64) and valij_.flags.contiguous:\n _valij_copyarray = False\n _valij_tmp = ctypes.cast(valij_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif valij_ is not None:\n _valij_copyarray = True\n _valij_np_tmp = numpy.zeros(len(valij_),numpy.dtype(numpy.float64))\n _valij_np_tmp[:] = valij_\n assert _valij_np_tmp.flags.contiguous\n _valij_tmp = ctypes.cast(_valij_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _valij_copyarray = False\n _valij_tmp = None\n \n res = __library__.MSK_XX_getsparsesymmat(self.__nativep,idx_,maxlen_,_subi_tmp,_subj_tmp,_valij_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _subi_copyarray:\n subi_[:] = _subi_np_tmp\n if _subj_copyarray:\n subj_[:] = _subj_np_tmp\n if _valij_copyarray:\n valij_[:] = _valij_np_tmp", "def putaij(self,i_,j_,aij_):\n res = __library__.MSK_XX_putaij(self.__nativep,i_,j_,aij_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def appendsparsesymmatlist(self,dims_,nz_,subi_,subj_,valij_,idx_):\n num_ = None\n if num_ is None:\n num_ = len(dims_)\n elif num_ != len(dims_):\n raise IndexError(\"Inconsistent length of array dims\")\n if num_ is None:\n num_ = len(nz_)\n elif num_ != len(nz_):\n raise IndexError(\"Inconsistent length of array nz\")\n if dims_ is None:\n raise ValueError(\"Argument dims cannot be None\")\n if dims_ is None:\n raise ValueError(\"Argument dims may not be None\")\n if isinstance(dims_, numpy.ndarray) and dims_.dtype is numpy.dtype(numpy.int32) and dims_.flags.contiguous:\n _dims_copyarray = False\n _dims_tmp = ctypes.cast(dims_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif dims_ is not None:\n _dims_copyarray = True\n _dims_np_tmp = numpy.zeros(len(dims_),numpy.dtype(numpy.int32))\n _dims_np_tmp[:] = dims_\n assert _dims_np_tmp.flags.contiguous\n _dims_tmp = ctypes.cast(_dims_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _dims_copyarray = False\n _dims_tmp = None\n \n if nz_ is None:\n raise ValueError(\"Argument nz cannot be None\")\n if nz_ is None:\n raise ValueError(\"Argument nz may not be None\")\n if isinstance(nz_, numpy.ndarray) and nz_.dtype is numpy.dtype(numpy.int64) and nz_.flags.contiguous:\n _nz_copyarray = False\n _nz_tmp = ctypes.cast(nz_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif nz_ is not None:\n _nz_copyarray = True\n _nz_np_tmp = numpy.zeros(len(nz_),numpy.dtype(numpy.int64))\n _nz_np_tmp[:] = nz_\n assert _nz_np_tmp.flags.contiguous\n _nz_tmp = ctypes.cast(_nz_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _nz_copyarray = False\n _nz_tmp = None\n \n _subi_minlength = sum((nz_))\n if sum((nz_)) > 0 and subi_ is not None and len(subi_) != sum((nz_)):\n raise ValueError(\"Array argument subi is not long enough: Is %d, expected %d\" % (len(subi_),sum((nz_))))\n if subi_ is None:\n raise ValueError(\"Argument subi cannot be None\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n _subj_minlength = sum((nz_))\n if sum((nz_)) > 0 and subj_ is not None and len(subj_) != sum((nz_)):\n raise ValueError(\"Array argument subj is not long enough: Is %d, expected %d\" % (len(subj_),sum((nz_))))\n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n _valij_minlength = sum((nz_))\n if sum((nz_)) > 0 and valij_ is not None and len(valij_) != sum((nz_)):\n raise ValueError(\"Array argument valij is not long enough: Is %d, expected %d\" % (len(valij_),sum((nz_))))\n if valij_ is None:\n raise ValueError(\"Argument valij cannot be None\")\n if valij_ is None:\n raise ValueError(\"Argument valij may not be None\")\n if isinstance(valij_, numpy.ndarray) and valij_.dtype is numpy.dtype(numpy.float64) and valij_.flags.contiguous:\n _valij_copyarray = False\n _valij_tmp = ctypes.cast(valij_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif valij_ is not None:\n _valij_copyarray = True\n _valij_np_tmp = numpy.zeros(len(valij_),numpy.dtype(numpy.float64))\n _valij_np_tmp[:] = valij_\n assert _valij_np_tmp.flags.contiguous\n _valij_tmp = ctypes.cast(_valij_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _valij_copyarray = False\n _valij_tmp = None\n \n _idx_minlength = (num_)\n if (num_) > 0 and idx_ is not None and len(idx_) != (num_):\n raise ValueError(\"Array argument idx is not long enough: Is %d, expected %d\" % (len(idx_),(num_)))\n if isinstance(idx_,numpy.ndarray) and not idx_.flags.writeable:\n raise ValueError(\"Argument idx must be writable\")\n if idx_ is None:\n raise ValueError(\"Argument idx may not be None\")\n if isinstance(idx_, numpy.ndarray) and idx_.dtype is numpy.dtype(numpy.int64) and idx_.flags.contiguous:\n _idx_copyarray = False\n _idx_tmp = ctypes.cast(idx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif idx_ is not None:\n _idx_copyarray = True\n _idx_np_tmp = numpy.zeros(len(idx_),numpy.dtype(numpy.int64))\n _idx_np_tmp[:] = idx_\n assert _idx_np_tmp.flags.contiguous\n _idx_tmp = ctypes.cast(_idx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _idx_copyarray = False\n _idx_tmp = None\n \n res = __library__.MSK_XX_appendsparsesymmatlist(self.__nativep,num_,_dims_tmp,_nz_tmp,_subi_tmp,_subj_tmp,_valij_tmp,_idx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _idx_copyarray:\n idx_[:] = _idx_np_tmp", "def getsparsesymmat(self,idx_,subi,subj,valij): # 3\n maxlen_ = self.getsymmatinfo((idx_))[1]\n _copyback_subi = False\n if subi is None:\n subi_ = None\n else:\n try:\n subi_ = memoryview(subi)\n except TypeError:\n try:\n _tmparr_subi = array.array(\"i\",subi)\n except TypeError:\n raise TypeError(\"Argument subi has wrong type\")\n else:\n subi_ = memoryview(_tmparr_subi)\n _copyback_subi = True\n else:\n if subi_.format != \"i\":\n subi_ = memoryview(array.array(\"i\",subi))\n _copyback_subi = True\n if subi_ is not None and len(subi_) != (maxlen_):\n raise ValueError(\"Array argument subi has wrong length\")\n _copyback_subj = False\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n _copyback_subj = True\n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n _copyback_subj = True\n if subj_ is not None and len(subj_) != (maxlen_):\n raise ValueError(\"Array argument subj has wrong length\")\n _copyback_valij = False\n if valij is None:\n valij_ = None\n else:\n try:\n valij_ = memoryview(valij)\n except TypeError:\n try:\n _tmparr_valij = array.array(\"d\",valij)\n except TypeError:\n raise TypeError(\"Argument valij has wrong type\")\n else:\n valij_ = memoryview(_tmparr_valij)\n _copyback_valij = True\n else:\n if valij_.format != \"d\":\n valij_ = memoryview(array.array(\"d\",valij))\n _copyback_valij = True\n if valij_ is not None and len(valij_) != (maxlen_):\n raise ValueError(\"Array argument valij has wrong length\")\n res = self.__obj.getsparsesymmat(idx_,maxlen_,subi_,subj_,valij_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_valij:\n valij[:] = _tmparr_valij\n if _copyback_subj:\n subj[:] = _tmparr_subj\n if _copyback_subi:\n subi[:] = _tmparr_subi", "def putclist(self,subj_,val_):\n num_ = None\n if num_ is None:\n num_ = len(subj_)\n elif num_ != len(subj_):\n raise IndexError(\"Inconsistent length of array subj\")\n if num_ is None:\n num_ = len(val_)\n elif num_ != len(val_):\n raise IndexError(\"Inconsistent length of array val\")\n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n if val_ is None:\n raise ValueError(\"Argument val cannot be None\")\n if val_ is None:\n raise ValueError(\"Argument val may not be None\")\n if isinstance(val_, numpy.ndarray) and val_.dtype is numpy.dtype(numpy.float64) and val_.flags.contiguous:\n _val_copyarray = False\n _val_tmp = ctypes.cast(val_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif val_ is not None:\n _val_copyarray = True\n _val_np_tmp = numpy.zeros(len(val_),numpy.dtype(numpy.float64))\n _val_np_tmp[:] = val_\n assert _val_np_tmp.flags.contiguous\n _val_tmp = ctypes.cast(_val_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _val_copyarray = False\n _val_tmp = None\n \n res = __library__.MSK_XX_putclist(self.__nativep,num_,_subj_tmp,_val_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbarablocktriplet(self,num_,subi_,subj_,subk_,subl_,valijkl_):\n _subi_minlength = (num_)\n if (num_) > 0 and subi_ is not None and len(subi_) != (num_):\n raise ValueError(\"Array argument subi is not long enough: Is %d, expected %d\" % (len(subi_),(num_)))\n if subi_ is None:\n raise ValueError(\"Argument subi cannot be None\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n _subj_minlength = (num_)\n if (num_) > 0 and subj_ is not None and len(subj_) != (num_):\n raise ValueError(\"Array argument subj is not long enough: Is %d, expected %d\" % (len(subj_),(num_)))\n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n _subk_minlength = (num_)\n if (num_) > 0 and subk_ is not None and len(subk_) != (num_):\n raise ValueError(\"Array argument subk is not long enough: Is %d, expected %d\" % (len(subk_),(num_)))\n if subk_ is None:\n raise ValueError(\"Argument subk cannot be None\")\n if subk_ is None:\n raise ValueError(\"Argument subk may not be None\")\n if isinstance(subk_, numpy.ndarray) and subk_.dtype is numpy.dtype(numpy.int32) and subk_.flags.contiguous:\n _subk_copyarray = False\n _subk_tmp = ctypes.cast(subk_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subk_ is not None:\n _subk_copyarray = True\n _subk_np_tmp = numpy.zeros(len(subk_),numpy.dtype(numpy.int32))\n _subk_np_tmp[:] = subk_\n assert _subk_np_tmp.flags.contiguous\n _subk_tmp = ctypes.cast(_subk_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subk_copyarray = False\n _subk_tmp = None\n \n _subl_minlength = (num_)\n if (num_) > 0 and subl_ is not None and len(subl_) != (num_):\n raise ValueError(\"Array argument subl is not long enough: Is %d, expected %d\" % (len(subl_),(num_)))\n if subl_ is None:\n raise ValueError(\"Argument subl cannot be None\")\n if subl_ is None:\n raise ValueError(\"Argument subl may not be None\")\n if isinstance(subl_, numpy.ndarray) and subl_.dtype is numpy.dtype(numpy.int32) and subl_.flags.contiguous:\n _subl_copyarray = False\n _subl_tmp = ctypes.cast(subl_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subl_ is not None:\n _subl_copyarray = True\n _subl_np_tmp = numpy.zeros(len(subl_),numpy.dtype(numpy.int32))\n _subl_np_tmp[:] = subl_\n assert _subl_np_tmp.flags.contiguous\n _subl_tmp = ctypes.cast(_subl_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subl_copyarray = False\n _subl_tmp = None\n \n _valijkl_minlength = (num_)\n if (num_) > 0 and valijkl_ is not None and len(valijkl_) != (num_):\n raise ValueError(\"Array argument valijkl is not long enough: Is %d, expected %d\" % (len(valijkl_),(num_)))\n if valijkl_ is None:\n raise ValueError(\"Argument valijkl cannot be None\")\n if valijkl_ is None:\n raise ValueError(\"Argument valijkl may not be None\")\n if isinstance(valijkl_, numpy.ndarray) and valijkl_.dtype is numpy.dtype(numpy.float64) and valijkl_.flags.contiguous:\n _valijkl_copyarray = False\n _valijkl_tmp = ctypes.cast(valijkl_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif valijkl_ is not None:\n _valijkl_copyarray = True\n _valijkl_np_tmp = numpy.zeros(len(valijkl_),numpy.dtype(numpy.float64))\n _valijkl_np_tmp[:] = valijkl_\n assert _valijkl_np_tmp.flags.contiguous\n _valijkl_tmp = ctypes.cast(_valijkl_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _valijkl_copyarray = False\n _valijkl_tmp = None\n \n res = __library__.MSK_XX_putbarablocktriplet(self.__nativep,num_,_subi_tmp,_subj_tmp,_subk_tmp,_subl_tmp,_valijkl_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbaraij(self,i_,j_,sub,weights): # 3\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(weights)\n elif num_ != len(weights):\n raise IndexError(\"Inconsistent length of array weights\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"q\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"q\":\n sub_ = memoryview(array.array(\"q\",sub))\n \n if weights is None: raise TypeError(\"Invalid type for argument weights\")\n if weights is None:\n weights_ = None\n else:\n try:\n weights_ = memoryview(weights)\n except TypeError:\n try:\n _tmparr_weights = array.array(\"d\",weights)\n except TypeError:\n raise TypeError(\"Argument weights has wrong type\")\n else:\n weights_ = memoryview(_tmparr_weights)\n \n else:\n if weights_.format != \"d\":\n weights_ = memoryview(array.array(\"d\",weights))\n \n res = self.__obj.putbaraij(i_,j_,num_,sub_,weights_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def add_com_jac(ui):\n global com_jac_list\n\n content = content_fk_jac_loops(ui, \"com_jac\")\n if content in com_jac_list:\n return\n com_jac_list.append(content)\n ui.listWidget_com_jac.addItem(f\"Center of Mass Jacobian \"\n f\"{parse_content(content)}\")", "def putbarablocktriplet(self,num_,subi,subj,subk,subl,valijkl): # 3\n if subi is None: raise TypeError(\"Invalid type for argument subi\")\n if subi is None:\n subi_ = None\n else:\n try:\n subi_ = memoryview(subi)\n except TypeError:\n try:\n _tmparr_subi = array.array(\"i\",subi)\n except TypeError:\n raise TypeError(\"Argument subi has wrong type\")\n else:\n subi_ = memoryview(_tmparr_subi)\n \n else:\n if subi_.format != \"i\":\n subi_ = memoryview(array.array(\"i\",subi))\n \n if subi_ is not None and len(subi_) != (num_):\n raise ValueError(\"Array argument subi has wrong length\")\n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n \n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n \n if subj_ is not None and len(subj_) != (num_):\n raise ValueError(\"Array argument subj has wrong length\")\n if subk is None: raise TypeError(\"Invalid type for argument subk\")\n if subk is None:\n subk_ = None\n else:\n try:\n subk_ = memoryview(subk)\n except TypeError:\n try:\n _tmparr_subk = array.array(\"i\",subk)\n except TypeError:\n raise TypeError(\"Argument subk has wrong type\")\n else:\n subk_ = memoryview(_tmparr_subk)\n \n else:\n if subk_.format != \"i\":\n subk_ = memoryview(array.array(\"i\",subk))\n \n if subk_ is not None and len(subk_) != (num_):\n raise ValueError(\"Array argument subk has wrong length\")\n if subl is None: raise TypeError(\"Invalid type for argument subl\")\n if subl is None:\n subl_ = None\n else:\n try:\n subl_ = memoryview(subl)\n except TypeError:\n try:\n _tmparr_subl = array.array(\"i\",subl)\n except TypeError:\n raise TypeError(\"Argument subl has wrong type\")\n else:\n subl_ = memoryview(_tmparr_subl)\n \n else:\n if subl_.format != \"i\":\n subl_ = memoryview(array.array(\"i\",subl))\n \n if subl_ is not None and len(subl_) != (num_):\n raise ValueError(\"Array argument subl has wrong length\")\n if valijkl is None: raise TypeError(\"Invalid type for argument valijkl\")\n if valijkl is None:\n valijkl_ = None\n else:\n try:\n valijkl_ = memoryview(valijkl)\n except TypeError:\n try:\n _tmparr_valijkl = array.array(\"d\",valijkl)\n except TypeError:\n raise TypeError(\"Argument valijkl has wrong type\")\n else:\n valijkl_ = memoryview(_tmparr_valijkl)\n \n else:\n if valijkl_.format != \"d\":\n valijkl_ = memoryview(array.array(\"d\",valijkl))\n \n if valijkl_ is not None and len(valijkl_) != (num_):\n raise ValueError(\"Array argument valijkl has wrong length\")\n res = self.__obj.putbarablocktriplet(num_,subi_,subj_,subk_,subl_,valijkl_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbaraij(self,i_,j_,sub_,weights_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(weights_)\n elif num_ != len(weights_):\n raise IndexError(\"Inconsistent length of array weights\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int64) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int64))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n if weights_ is None:\n raise ValueError(\"Argument weights cannot be None\")\n if weights_ is None:\n raise ValueError(\"Argument weights may not be None\")\n if isinstance(weights_, numpy.ndarray) and weights_.dtype is numpy.dtype(numpy.float64) and weights_.flags.contiguous:\n _weights_copyarray = False\n _weights_tmp = ctypes.cast(weights_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif weights_ is not None:\n _weights_copyarray = True\n _weights_np_tmp = numpy.zeros(len(weights_),numpy.dtype(numpy.float64))\n _weights_np_tmp[:] = weights_\n assert _weights_np_tmp.flags.contiguous\n _weights_tmp = ctypes.cast(_weights_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _weights_copyarray = False\n _weights_tmp = None\n \n res = __library__.MSK_XX_putbaraij(self.__nativep,i_,j_,num_,_sub_tmp,_weights_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def store(self, subj):\n if subj in self.__lst:\n raise ValueError('Disciplina exista deja')\n self.__lst.append(subj)", "def fixA(self,i,j,value):\n if self.coeffPattern[0] == None:\n m,n=self.m,self.n\n self.coeffPattern[0] = [[None]*m for i in range(m)]\n self.coeffPattern[0][i][j]=value\n self._updateEstimatorSize(i)", "def putvartypelist(self,subj_,vartype_):\n num_ = None\n if num_ is None:\n num_ = len(subj_)\n elif num_ != len(subj_):\n raise IndexError(\"Inconsistent length of array subj\")\n if num_ is None:\n num_ = len(vartype_)\n elif num_ != len(vartype_):\n raise IndexError(\"Inconsistent length of array vartype\")\n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n if vartype_ is None:\n raise ValueError(\"Argument vartype cannot be None\")\n if vartype_ is None:\n raise ValueError(\"Argument vartype may not be None\")\n if vartype_ is not None:\n _vartype_tmp = (ctypes.c_int32 * len(vartype_))(*vartype_)\n else:\n _vartype_tmp = None\n res = __library__.MSK_XX_putvartypelist(self.__nativep,num_,_subj_tmp,_vartype_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def ij(ij, pol, ant) :\n s.ij(pol, ij, ant)", "def substitute_cost(self, i, j):\n raise NotImplementedError", "def putbararowlist(self,subi_,ptrb_,ptre_,subj_,nummat_,matidx_,weights_):\n num_ = None\n if num_ is None:\n num_ = len(subi_)\n elif num_ != len(subi_):\n raise IndexError(\"Inconsistent length of array subi\")\n if num_ is None:\n num_ = len(ptrb_)\n elif num_ != len(ptrb_):\n raise IndexError(\"Inconsistent length of array ptrb\")\n if num_ is None:\n num_ = len(ptre_)\n elif num_ != len(ptre_):\n raise IndexError(\"Inconsistent length of array ptre\")\n if subi_ is None:\n raise ValueError(\"Argument subi cannot be None\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n if ptrb_ is None:\n raise ValueError(\"Argument ptrb cannot be None\")\n if ptrb_ is None:\n raise ValueError(\"Argument ptrb may not be None\")\n if isinstance(ptrb_, numpy.ndarray) and ptrb_.dtype is numpy.dtype(numpy.int64) and ptrb_.flags.contiguous:\n _ptrb_copyarray = False\n _ptrb_tmp = ctypes.cast(ptrb_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptrb_ is not None:\n _ptrb_copyarray = True\n _ptrb_np_tmp = numpy.zeros(len(ptrb_),numpy.dtype(numpy.int64))\n _ptrb_np_tmp[:] = ptrb_\n assert _ptrb_np_tmp.flags.contiguous\n _ptrb_tmp = ctypes.cast(_ptrb_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptrb_copyarray = False\n _ptrb_tmp = None\n \n if ptre_ is None:\n raise ValueError(\"Argument ptre cannot be None\")\n if ptre_ is None:\n raise ValueError(\"Argument ptre may not be None\")\n if isinstance(ptre_, numpy.ndarray) and ptre_.dtype is numpy.dtype(numpy.int64) and ptre_.flags.contiguous:\n _ptre_copyarray = False\n _ptre_tmp = ctypes.cast(ptre_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptre_ is not None:\n _ptre_copyarray = True\n _ptre_np_tmp = numpy.zeros(len(ptre_),numpy.dtype(numpy.int64))\n _ptre_np_tmp[:] = ptre_\n assert _ptre_np_tmp.flags.contiguous\n _ptre_tmp = ctypes.cast(_ptre_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptre_copyarray = False\n _ptre_tmp = None\n \n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n _nummat_minlength = len((subj_))\n if len((subj_)) > 0 and nummat_ is not None and len(nummat_) != len((subj_)):\n raise ValueError(\"Array argument nummat is not long enough: Is %d, expected %d\" % (len(nummat_),len((subj_))))\n if nummat_ is None:\n raise ValueError(\"Argument nummat cannot be None\")\n if nummat_ is None:\n raise ValueError(\"Argument nummat may not be None\")\n if isinstance(nummat_, numpy.ndarray) and nummat_.dtype is numpy.dtype(numpy.int64) and nummat_.flags.contiguous:\n _nummat_copyarray = False\n _nummat_tmp = ctypes.cast(nummat_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif nummat_ is not None:\n _nummat_copyarray = True\n _nummat_np_tmp = numpy.zeros(len(nummat_),numpy.dtype(numpy.int64))\n _nummat_np_tmp[:] = nummat_\n assert _nummat_np_tmp.flags.contiguous\n _nummat_tmp = ctypes.cast(_nummat_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _nummat_copyarray = False\n _nummat_tmp = None\n \n _matidx_minlength = sum((nummat_))\n if sum((nummat_)) > 0 and matidx_ is not None and len(matidx_) != sum((nummat_)):\n raise ValueError(\"Array argument matidx is not long enough: Is %d, expected %d\" % (len(matidx_),sum((nummat_))))\n if matidx_ is None:\n raise ValueError(\"Argument matidx cannot be None\")\n if matidx_ is None:\n raise ValueError(\"Argument matidx may not be None\")\n if isinstance(matidx_, numpy.ndarray) and matidx_.dtype is numpy.dtype(numpy.int64) and matidx_.flags.contiguous:\n _matidx_copyarray = False\n _matidx_tmp = ctypes.cast(matidx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif matidx_ is not None:\n _matidx_copyarray = True\n _matidx_np_tmp = numpy.zeros(len(matidx_),numpy.dtype(numpy.int64))\n _matidx_np_tmp[:] = matidx_\n assert _matidx_np_tmp.flags.contiguous\n _matidx_tmp = ctypes.cast(_matidx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _matidx_copyarray = False\n _matidx_tmp = None\n \n _weights_minlength = sum((nummat_))\n if sum((nummat_)) > 0 and weights_ is not None and len(weights_) != sum((nummat_)):\n raise ValueError(\"Array argument weights is not long enough: Is %d, expected %d\" % (len(weights_),sum((nummat_))))\n if weights_ is None:\n raise ValueError(\"Argument weights cannot be None\")\n if weights_ is None:\n raise ValueError(\"Argument weights may not be None\")\n if isinstance(weights_, numpy.ndarray) and weights_.dtype is numpy.dtype(numpy.float64) and weights_.flags.contiguous:\n _weights_copyarray = False\n _weights_tmp = ctypes.cast(weights_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif weights_ is not None:\n _weights_copyarray = True\n _weights_np_tmp = numpy.zeros(len(weights_),numpy.dtype(numpy.float64))\n _weights_np_tmp[:] = weights_\n assert _weights_np_tmp.flags.contiguous\n _weights_tmp = ctypes.cast(_weights_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _weights_copyarray = False\n _weights_tmp = None\n \n res = __library__.MSK_XX_putbararowlist(self.__nativep,num_,_subi_tmp,_ptrb_tmp,_ptre_tmp,_subj_tmp,_nummat_tmp,_matidx_tmp,_weights_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvartypelist(self,subj,vartype): # 3\n num_ = None\n if num_ is None:\n num_ = len(subj)\n elif num_ != len(subj):\n raise IndexError(\"Inconsistent length of array subj\")\n if num_ is None:\n num_ = len(vartype)\n elif num_ != len(vartype):\n raise IndexError(\"Inconsistent length of array vartype\")\n if num_ is None: num_ = 0\n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n \n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n \n if vartype is None: raise TypeError(\"Invalid type for argument vartype\")\n if vartype is None:\n vartype_ = None\n else:\n try:\n vartype_ = memoryview(vartype)\n except TypeError:\n try:\n _tmparr_vartype = array.array(\"i\",vartype)\n except TypeError:\n raise TypeError(\"Argument vartype has wrong type\")\n else:\n vartype_ = memoryview(_tmparr_vartype)\n \n else:\n if vartype_.format != \"i\":\n vartype_ = memoryview(array.array(\"i\",vartype))\n \n res = self.__obj.putvartypelist(num_,subj_,vartype_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def setItem(self, i, j, val):\n if i < 0:\n raise IndexError('Row index must be nonnegative.')\n if j < 0:\n raise IndexError('Column index must be nonnegative.')\n\n self.__m[i - 1][j - 1] = val", "def primalsensitivity(self,subi_,marki_,subj_,markj_,leftpricei_,rightpricei_,leftrangei_,rightrangei_,leftpricej_,rightpricej_,leftrangej_,rightrangej_):\n numi_ = None\n if numi_ is None:\n numi_ = len(subi_)\n elif numi_ != len(subi_):\n raise IndexError(\"Inconsistent length of array subi\")\n if numi_ is None:\n numi_ = len(marki_)\n elif numi_ != len(marki_):\n raise IndexError(\"Inconsistent length of array marki\")\n if subi_ is None:\n raise ValueError(\"Argument subi cannot be None\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n if marki_ is None:\n raise ValueError(\"Argument marki cannot be None\")\n if marki_ is None:\n raise ValueError(\"Argument marki may not be None\")\n if marki_ is not None:\n _marki_tmp = (ctypes.c_int32 * len(marki_))(*marki_)\n else:\n _marki_tmp = None\n numj_ = None\n if numj_ is None:\n numj_ = len(subj_)\n elif numj_ != len(subj_):\n raise IndexError(\"Inconsistent length of array subj\")\n if numj_ is None:\n numj_ = len(markj_)\n elif numj_ != len(markj_):\n raise IndexError(\"Inconsistent length of array markj\")\n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n if markj_ is None:\n raise ValueError(\"Argument markj cannot be None\")\n if markj_ is None:\n raise ValueError(\"Argument markj may not be None\")\n if markj_ is not None:\n _markj_tmp = (ctypes.c_int32 * len(markj_))(*markj_)\n else:\n _markj_tmp = None\n _leftpricei_minlength = (numi_)\n if (numi_) > 0 and leftpricei_ is not None and len(leftpricei_) != (numi_):\n raise ValueError(\"Array argument leftpricei is not long enough: Is %d, expected %d\" % (len(leftpricei_),(numi_)))\n if isinstance(leftpricei_,numpy.ndarray) and not leftpricei_.flags.writeable:\n raise ValueError(\"Argument leftpricei must be writable\")\n if isinstance(leftpricei_, numpy.ndarray) and leftpricei_.dtype is numpy.dtype(numpy.float64) and leftpricei_.flags.contiguous:\n _leftpricei_copyarray = False\n _leftpricei_tmp = ctypes.cast(leftpricei_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif leftpricei_ is not None:\n _leftpricei_copyarray = True\n _leftpricei_np_tmp = numpy.zeros(len(leftpricei_),numpy.dtype(numpy.float64))\n _leftpricei_np_tmp[:] = leftpricei_\n assert _leftpricei_np_tmp.flags.contiguous\n _leftpricei_tmp = ctypes.cast(_leftpricei_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _leftpricei_copyarray = False\n _leftpricei_tmp = None\n \n _rightpricei_minlength = (numi_)\n if (numi_) > 0 and rightpricei_ is not None and len(rightpricei_) != (numi_):\n raise ValueError(\"Array argument rightpricei is not long enough: Is %d, expected %d\" % (len(rightpricei_),(numi_)))\n if isinstance(rightpricei_,numpy.ndarray) and not rightpricei_.flags.writeable:\n raise ValueError(\"Argument rightpricei must be writable\")\n if isinstance(rightpricei_, numpy.ndarray) and rightpricei_.dtype is numpy.dtype(numpy.float64) and rightpricei_.flags.contiguous:\n _rightpricei_copyarray = False\n _rightpricei_tmp = ctypes.cast(rightpricei_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif rightpricei_ is not None:\n _rightpricei_copyarray = True\n _rightpricei_np_tmp = numpy.zeros(len(rightpricei_),numpy.dtype(numpy.float64))\n _rightpricei_np_tmp[:] = rightpricei_\n assert _rightpricei_np_tmp.flags.contiguous\n _rightpricei_tmp = ctypes.cast(_rightpricei_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _rightpricei_copyarray = False\n _rightpricei_tmp = None\n \n _leftrangei_minlength = (numi_)\n if (numi_) > 0 and leftrangei_ is not None and len(leftrangei_) != (numi_):\n raise ValueError(\"Array argument leftrangei is not long enough: Is %d, expected %d\" % (len(leftrangei_),(numi_)))\n if isinstance(leftrangei_,numpy.ndarray) and not leftrangei_.flags.writeable:\n raise ValueError(\"Argument leftrangei must be writable\")\n if isinstance(leftrangei_, numpy.ndarray) and leftrangei_.dtype is numpy.dtype(numpy.float64) and leftrangei_.flags.contiguous:\n _leftrangei_copyarray = False\n _leftrangei_tmp = ctypes.cast(leftrangei_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif leftrangei_ is not None:\n _leftrangei_copyarray = True\n _leftrangei_np_tmp = numpy.zeros(len(leftrangei_),numpy.dtype(numpy.float64))\n _leftrangei_np_tmp[:] = leftrangei_\n assert _leftrangei_np_tmp.flags.contiguous\n _leftrangei_tmp = ctypes.cast(_leftrangei_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _leftrangei_copyarray = False\n _leftrangei_tmp = None\n \n _rightrangei_minlength = (numi_)\n if (numi_) > 0 and rightrangei_ is not None and len(rightrangei_) != (numi_):\n raise ValueError(\"Array argument rightrangei is not long enough: Is %d, expected %d\" % (len(rightrangei_),(numi_)))\n if isinstance(rightrangei_,numpy.ndarray) and not rightrangei_.flags.writeable:\n raise ValueError(\"Argument rightrangei must be writable\")\n if isinstance(rightrangei_, numpy.ndarray) and rightrangei_.dtype is numpy.dtype(numpy.float64) and rightrangei_.flags.contiguous:\n _rightrangei_copyarray = False\n _rightrangei_tmp = ctypes.cast(rightrangei_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif rightrangei_ is not None:\n _rightrangei_copyarray = True\n _rightrangei_np_tmp = numpy.zeros(len(rightrangei_),numpy.dtype(numpy.float64))\n _rightrangei_np_tmp[:] = rightrangei_\n assert _rightrangei_np_tmp.flags.contiguous\n _rightrangei_tmp = ctypes.cast(_rightrangei_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _rightrangei_copyarray = False\n _rightrangei_tmp = None\n \n _leftpricej_minlength = (numj_)\n if (numj_) > 0 and leftpricej_ is not None and len(leftpricej_) != (numj_):\n raise ValueError(\"Array argument leftpricej is not long enough: Is %d, expected %d\" % (len(leftpricej_),(numj_)))\n if isinstance(leftpricej_,numpy.ndarray) and not leftpricej_.flags.writeable:\n raise ValueError(\"Argument leftpricej must be writable\")\n if isinstance(leftpricej_, numpy.ndarray) and leftpricej_.dtype is numpy.dtype(numpy.float64) and leftpricej_.flags.contiguous:\n _leftpricej_copyarray = False\n _leftpricej_tmp = ctypes.cast(leftpricej_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif leftpricej_ is not None:\n _leftpricej_copyarray = True\n _leftpricej_np_tmp = numpy.zeros(len(leftpricej_),numpy.dtype(numpy.float64))\n _leftpricej_np_tmp[:] = leftpricej_\n assert _leftpricej_np_tmp.flags.contiguous\n _leftpricej_tmp = ctypes.cast(_leftpricej_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _leftpricej_copyarray = False\n _leftpricej_tmp = None\n \n _rightpricej_minlength = (numj_)\n if (numj_) > 0 and rightpricej_ is not None and len(rightpricej_) != (numj_):\n raise ValueError(\"Array argument rightpricej is not long enough: Is %d, expected %d\" % (len(rightpricej_),(numj_)))\n if isinstance(rightpricej_,numpy.ndarray) and not rightpricej_.flags.writeable:\n raise ValueError(\"Argument rightpricej must be writable\")\n if isinstance(rightpricej_, numpy.ndarray) and rightpricej_.dtype is numpy.dtype(numpy.float64) and rightpricej_.flags.contiguous:\n _rightpricej_copyarray = False\n _rightpricej_tmp = ctypes.cast(rightpricej_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif rightpricej_ is not None:\n _rightpricej_copyarray = True\n _rightpricej_np_tmp = numpy.zeros(len(rightpricej_),numpy.dtype(numpy.float64))\n _rightpricej_np_tmp[:] = rightpricej_\n assert _rightpricej_np_tmp.flags.contiguous\n _rightpricej_tmp = ctypes.cast(_rightpricej_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _rightpricej_copyarray = False\n _rightpricej_tmp = None\n \n _leftrangej_minlength = (numj_)\n if (numj_) > 0 and leftrangej_ is not None and len(leftrangej_) != (numj_):\n raise ValueError(\"Array argument leftrangej is not long enough: Is %d, expected %d\" % (len(leftrangej_),(numj_)))\n if isinstance(leftrangej_,numpy.ndarray) and not leftrangej_.flags.writeable:\n raise ValueError(\"Argument leftrangej must be writable\")\n if isinstance(leftrangej_, numpy.ndarray) and leftrangej_.dtype is numpy.dtype(numpy.float64) and leftrangej_.flags.contiguous:\n _leftrangej_copyarray = False\n _leftrangej_tmp = ctypes.cast(leftrangej_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif leftrangej_ is not None:\n _leftrangej_copyarray = True\n _leftrangej_np_tmp = numpy.zeros(len(leftrangej_),numpy.dtype(numpy.float64))\n _leftrangej_np_tmp[:] = leftrangej_\n assert _leftrangej_np_tmp.flags.contiguous\n _leftrangej_tmp = ctypes.cast(_leftrangej_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _leftrangej_copyarray = False\n _leftrangej_tmp = None\n \n _rightrangej_minlength = (numj_)\n if (numj_) > 0 and rightrangej_ is not None and len(rightrangej_) != (numj_):\n raise ValueError(\"Array argument rightrangej is not long enough: Is %d, expected %d\" % (len(rightrangej_),(numj_)))\n if isinstance(rightrangej_,numpy.ndarray) and not rightrangej_.flags.writeable:\n raise ValueError(\"Argument rightrangej must be writable\")\n if isinstance(rightrangej_, numpy.ndarray) and rightrangej_.dtype is numpy.dtype(numpy.float64) and rightrangej_.flags.contiguous:\n _rightrangej_copyarray = False\n _rightrangej_tmp = ctypes.cast(rightrangej_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif rightrangej_ is not None:\n _rightrangej_copyarray = True\n _rightrangej_np_tmp = numpy.zeros(len(rightrangej_),numpy.dtype(numpy.float64))\n _rightrangej_np_tmp[:] = rightrangej_\n assert _rightrangej_np_tmp.flags.contiguous\n _rightrangej_tmp = ctypes.cast(_rightrangej_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _rightrangej_copyarray = False\n _rightrangej_tmp = None\n \n res = __library__.MSK_XX_primalsensitivity(self.__nativep,numi_,_subi_tmp,_marki_tmp,numj_,_subj_tmp,_markj_tmp,_leftpricei_tmp,_rightpricei_tmp,_leftrangei_tmp,_rightrangei_tmp,_leftpricej_tmp,_rightpricej_tmp,_leftrangej_tmp,_rightrangej_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _leftpricei_copyarray:\n leftpricei_[:] = _leftpricei_np_tmp\n if _rightpricei_copyarray:\n rightpricei_[:] = _rightpricei_np_tmp\n if _leftrangei_copyarray:\n leftrangei_[:] = _leftrangei_np_tmp\n if _rightrangei_copyarray:\n rightrangei_[:] = _rightrangei_np_tmp\n if _leftpricej_copyarray:\n leftpricej_[:] = _leftpricej_np_tmp\n if _rightpricej_copyarray:\n rightpricej_[:] = _rightpricej_np_tmp\n if _leftrangej_copyarray:\n leftrangej_[:] = _leftrangej_np_tmp\n if _rightrangej_copyarray:\n rightrangej_[:] = _rightrangej_np_tmp", "def getbarablocktriplet(self,subi,subj,subk,subl,valijkl): # 3\n maxnum_ = self.getnumbarablocktriplets()\n if subi is None: raise TypeError(\"Invalid type for argument subi\")\n _copyback_subi = False\n if subi is None:\n subi_ = None\n else:\n try:\n subi_ = memoryview(subi)\n except TypeError:\n try:\n _tmparr_subi = array.array(\"i\",subi)\n except TypeError:\n raise TypeError(\"Argument subi has wrong type\")\n else:\n subi_ = memoryview(_tmparr_subi)\n _copyback_subi = True\n else:\n if subi_.format != \"i\":\n subi_ = memoryview(array.array(\"i\",subi))\n _copyback_subi = True\n if subi_ is not None and len(subi_) != (maxnum_):\n raise ValueError(\"Array argument subi has wrong length\")\n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n _copyback_subj = False\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n _copyback_subj = True\n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n _copyback_subj = True\n if subj_ is not None and len(subj_) != (maxnum_):\n raise ValueError(\"Array argument subj has wrong length\")\n if subk is None: raise TypeError(\"Invalid type for argument subk\")\n _copyback_subk = False\n if subk is None:\n subk_ = None\n else:\n try:\n subk_ = memoryview(subk)\n except TypeError:\n try:\n _tmparr_subk = array.array(\"i\",subk)\n except TypeError:\n raise TypeError(\"Argument subk has wrong type\")\n else:\n subk_ = memoryview(_tmparr_subk)\n _copyback_subk = True\n else:\n if subk_.format != \"i\":\n subk_ = memoryview(array.array(\"i\",subk))\n _copyback_subk = True\n if subk_ is not None and len(subk_) != (maxnum_):\n raise ValueError(\"Array argument subk has wrong length\")\n if subl is None: raise TypeError(\"Invalid type for argument subl\")\n _copyback_subl = False\n if subl is None:\n subl_ = None\n else:\n try:\n subl_ = memoryview(subl)\n except TypeError:\n try:\n _tmparr_subl = array.array(\"i\",subl)\n except TypeError:\n raise TypeError(\"Argument subl has wrong type\")\n else:\n subl_ = memoryview(_tmparr_subl)\n _copyback_subl = True\n else:\n if subl_.format != \"i\":\n subl_ = memoryview(array.array(\"i\",subl))\n _copyback_subl = True\n if subl_ is not None and len(subl_) != (maxnum_):\n raise ValueError(\"Array argument subl has wrong length\")\n if valijkl is None: raise TypeError(\"Invalid type for argument valijkl\")\n _copyback_valijkl = False\n if valijkl is None:\n valijkl_ = None\n else:\n try:\n valijkl_ = memoryview(valijkl)\n except TypeError:\n try:\n _tmparr_valijkl = array.array(\"d\",valijkl)\n except TypeError:\n raise TypeError(\"Argument valijkl has wrong type\")\n else:\n valijkl_ = memoryview(_tmparr_valijkl)\n _copyback_valijkl = True\n else:\n if valijkl_.format != \"d\":\n valijkl_ = memoryview(array.array(\"d\",valijkl))\n _copyback_valijkl = True\n if valijkl_ is not None and len(valijkl_) != (maxnum_):\n raise ValueError(\"Array argument valijkl has wrong length\")\n res,resargs = self.__obj.getbarablocktriplet(maxnum_,subi_,subj_,subk_,subl_,valijkl_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _num_return_value = resargs\n if _copyback_valijkl:\n valijkl[:] = _tmparr_valijkl\n if _copyback_subl:\n subl[:] = _tmparr_subl\n if _copyback_subk:\n subk[:] = _tmparr_subk\n if _copyback_subj:\n subj[:] = _tmparr_subj\n if _copyback_subi:\n subi[:] = _tmparr_subi\n return _num_return_value", "def setitem(self, i, j, value):\n # XXX: flint matrices do not support negative indices\n # XXX: They also raise ValueError instead of IndexError\n m, n = self.shape\n if i < 0:\n i += m\n if j < 0:\n j += n\n try:\n self.rep[i, j] = value\n except ValueError:\n raise IndexError(f\"Invalid indices ({i}, {j}) for Matrix of shape {self.shape}\")", "def primalsensitivity(self,subi,marki,subj,markj,leftpricei,rightpricei,leftrangei,rightrangei,leftpricej,rightpricej,leftrangej,rightrangej): # 3\n numi_ = None\n if numi_ is None:\n numi_ = len(subi)\n elif numi_ != len(subi):\n raise IndexError(\"Inconsistent length of array subi\")\n if numi_ is None:\n numi_ = len(marki)\n elif numi_ != len(marki):\n raise IndexError(\"Inconsistent length of array marki\")\n if numi_ is None: numi_ = 0\n if subi is None: raise TypeError(\"Invalid type for argument subi\")\n if subi is None:\n subi_ = None\n else:\n try:\n subi_ = memoryview(subi)\n except TypeError:\n try:\n _tmparr_subi = array.array(\"i\",subi)\n except TypeError:\n raise TypeError(\"Argument subi has wrong type\")\n else:\n subi_ = memoryview(_tmparr_subi)\n \n else:\n if subi_.format != \"i\":\n subi_ = memoryview(array.array(\"i\",subi))\n \n if marki is None: raise TypeError(\"Invalid type for argument marki\")\n if marki is None:\n marki_ = None\n else:\n try:\n marki_ = memoryview(marki)\n except TypeError:\n try:\n _tmparr_marki = array.array(\"i\",marki)\n except TypeError:\n raise TypeError(\"Argument marki has wrong type\")\n else:\n marki_ = memoryview(_tmparr_marki)\n \n else:\n if marki_.format != \"i\":\n marki_ = memoryview(array.array(\"i\",marki))\n \n numj_ = None\n if numj_ is None:\n numj_ = len(subj)\n elif numj_ != len(subj):\n raise IndexError(\"Inconsistent length of array subj\")\n if numj_ is None:\n numj_ = len(markj)\n elif numj_ != len(markj):\n raise IndexError(\"Inconsistent length of array markj\")\n if numj_ is None: numj_ = 0\n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n \n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n \n if markj is None: raise TypeError(\"Invalid type for argument markj\")\n if markj is None:\n markj_ = None\n else:\n try:\n markj_ = memoryview(markj)\n except TypeError:\n try:\n _tmparr_markj = array.array(\"i\",markj)\n except TypeError:\n raise TypeError(\"Argument markj has wrong type\")\n else:\n markj_ = memoryview(_tmparr_markj)\n \n else:\n if markj_.format != \"i\":\n markj_ = memoryview(array.array(\"i\",markj))\n \n _copyback_leftpricei = False\n if leftpricei is None:\n leftpricei_ = None\n else:\n try:\n leftpricei_ = memoryview(leftpricei)\n except TypeError:\n try:\n _tmparr_leftpricei = array.array(\"d\",leftpricei)\n except TypeError:\n raise TypeError(\"Argument leftpricei has wrong type\")\n else:\n leftpricei_ = memoryview(_tmparr_leftpricei)\n _copyback_leftpricei = True\n else:\n if leftpricei_.format != \"d\":\n leftpricei_ = memoryview(array.array(\"d\",leftpricei))\n _copyback_leftpricei = True\n if leftpricei_ is not None and len(leftpricei_) != (numi_):\n raise ValueError(\"Array argument leftpricei has wrong length\")\n _copyback_rightpricei = False\n if rightpricei is None:\n rightpricei_ = None\n else:\n try:\n rightpricei_ = memoryview(rightpricei)\n except TypeError:\n try:\n _tmparr_rightpricei = array.array(\"d\",rightpricei)\n except TypeError:\n raise TypeError(\"Argument rightpricei has wrong type\")\n else:\n rightpricei_ = memoryview(_tmparr_rightpricei)\n _copyback_rightpricei = True\n else:\n if rightpricei_.format != \"d\":\n rightpricei_ = memoryview(array.array(\"d\",rightpricei))\n _copyback_rightpricei = True\n if rightpricei_ is not None and len(rightpricei_) != (numi_):\n raise ValueError(\"Array argument rightpricei has wrong length\")\n _copyback_leftrangei = False\n if leftrangei is None:\n leftrangei_ = None\n else:\n try:\n leftrangei_ = memoryview(leftrangei)\n except TypeError:\n try:\n _tmparr_leftrangei = array.array(\"d\",leftrangei)\n except TypeError:\n raise TypeError(\"Argument leftrangei has wrong type\")\n else:\n leftrangei_ = memoryview(_tmparr_leftrangei)\n _copyback_leftrangei = True\n else:\n if leftrangei_.format != \"d\":\n leftrangei_ = memoryview(array.array(\"d\",leftrangei))\n _copyback_leftrangei = True\n if leftrangei_ is not None and len(leftrangei_) != (numi_):\n raise ValueError(\"Array argument leftrangei has wrong length\")\n _copyback_rightrangei = False\n if rightrangei is None:\n rightrangei_ = None\n else:\n try:\n rightrangei_ = memoryview(rightrangei)\n except TypeError:\n try:\n _tmparr_rightrangei = array.array(\"d\",rightrangei)\n except TypeError:\n raise TypeError(\"Argument rightrangei has wrong type\")\n else:\n rightrangei_ = memoryview(_tmparr_rightrangei)\n _copyback_rightrangei = True\n else:\n if rightrangei_.format != \"d\":\n rightrangei_ = memoryview(array.array(\"d\",rightrangei))\n _copyback_rightrangei = True\n if rightrangei_ is not None and len(rightrangei_) != (numi_):\n raise ValueError(\"Array argument rightrangei has wrong length\")\n _copyback_leftpricej = False\n if leftpricej is None:\n leftpricej_ = None\n else:\n try:\n leftpricej_ = memoryview(leftpricej)\n except TypeError:\n try:\n _tmparr_leftpricej = array.array(\"d\",leftpricej)\n except TypeError:\n raise TypeError(\"Argument leftpricej has wrong type\")\n else:\n leftpricej_ = memoryview(_tmparr_leftpricej)\n _copyback_leftpricej = True\n else:\n if leftpricej_.format != \"d\":\n leftpricej_ = memoryview(array.array(\"d\",leftpricej))\n _copyback_leftpricej = True\n if leftpricej_ is not None and len(leftpricej_) != (numj_):\n raise ValueError(\"Array argument leftpricej has wrong length\")\n _copyback_rightpricej = False\n if rightpricej is None:\n rightpricej_ = None\n else:\n try:\n rightpricej_ = memoryview(rightpricej)\n except TypeError:\n try:\n _tmparr_rightpricej = array.array(\"d\",rightpricej)\n except TypeError:\n raise TypeError(\"Argument rightpricej has wrong type\")\n else:\n rightpricej_ = memoryview(_tmparr_rightpricej)\n _copyback_rightpricej = True\n else:\n if rightpricej_.format != \"d\":\n rightpricej_ = memoryview(array.array(\"d\",rightpricej))\n _copyback_rightpricej = True\n if rightpricej_ is not None and len(rightpricej_) != (numj_):\n raise ValueError(\"Array argument rightpricej has wrong length\")\n _copyback_leftrangej = False\n if leftrangej is None:\n leftrangej_ = None\n else:\n try:\n leftrangej_ = memoryview(leftrangej)\n except TypeError:\n try:\n _tmparr_leftrangej = array.array(\"d\",leftrangej)\n except TypeError:\n raise TypeError(\"Argument leftrangej has wrong type\")\n else:\n leftrangej_ = memoryview(_tmparr_leftrangej)\n _copyback_leftrangej = True\n else:\n if leftrangej_.format != \"d\":\n leftrangej_ = memoryview(array.array(\"d\",leftrangej))\n _copyback_leftrangej = True\n if leftrangej_ is not None and len(leftrangej_) != (numj_):\n raise ValueError(\"Array argument leftrangej has wrong length\")\n _copyback_rightrangej = False\n if rightrangej is None:\n rightrangej_ = None\n else:\n try:\n rightrangej_ = memoryview(rightrangej)\n except TypeError:\n try:\n _tmparr_rightrangej = array.array(\"d\",rightrangej)\n except TypeError:\n raise TypeError(\"Argument rightrangej has wrong type\")\n else:\n rightrangej_ = memoryview(_tmparr_rightrangej)\n _copyback_rightrangej = True\n else:\n if rightrangej_.format != \"d\":\n rightrangej_ = memoryview(array.array(\"d\",rightrangej))\n _copyback_rightrangej = True\n if rightrangej_ is not None and len(rightrangej_) != (numj_):\n raise ValueError(\"Array argument rightrangej has wrong length\")\n res = self.__obj.primalsensitivity(numi_,subi_,marki_,numj_,subj_,markj_,leftpricei_,rightpricei_,leftrangei_,rightrangei_,leftpricej_,rightpricej_,leftrangej_,rightrangej_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_rightrangej:\n rightrangej[:] = _tmparr_rightrangej\n if _copyback_leftrangej:\n leftrangej[:] = _tmparr_leftrangej\n if _copyback_rightpricej:\n rightpricej[:] = _tmparr_rightpricej\n if _copyback_leftpricej:\n leftpricej[:] = _tmparr_leftpricej\n if _copyback_rightrangei:\n rightrangei[:] = _tmparr_rightrangei\n if _copyback_leftrangei:\n leftrangei[:] = _tmparr_leftrangei\n if _copyback_rightpricei:\n rightpricei[:] = _tmparr_rightpricei\n if _copyback_leftpricei:\n leftpricei[:] = _tmparr_leftpricei" ]

[ "0.76199657", "0.67067486", "0.6587105", "0.6432624", "0.6215005", "0.61117065", "0.5975101", "0.59496117", "0.5931895", "0.5928728", "0.5910426", "0.5877166", "0.56786174", "0.5629414", "0.5609968", "0.5585486", "0.5579588", "0.55791116", "0.5475792", "0.54427344", "0.5364289", "0.53561133", "0.52795154", "0.52522117", "0.5248881", "0.52383095", "0.519957", "0.51568425", "0.50869", "0.50774586" ]

[ "def putacol(self,j_,subj,valj): # 3\n nzj_ = None\n if nzj_ is None:\n nzj_ = len(subj)\n elif nzj_ != len(subj):\n raise IndexError(\"Inconsistent length of array subj\")\n if nzj_ is None:\n nzj_ = len(valj)\n elif nzj_ != len(valj):\n raise IndexError(\"Inconsistent length of array valj\")\n if nzj_ is None: nzj_ = 0\n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n \n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n \n if valj is None: raise TypeError(\"Invalid type for argument valj\")\n if valj is None:\n valj_ = None\n else:\n try:\n valj_ = memoryview(valj)\n except TypeError:\n try:\n _tmparr_valj = array.array(\"d\",valj)\n except TypeError:\n raise TypeError(\"Argument valj has wrong type\")\n else:\n valj_ = memoryview(_tmparr_valj)\n \n else:\n if valj_.format != \"d\":\n valj_ = memoryview(array.array(\"d\",valj))\n \n res = self.__obj.putacol(j_,nzj_,subj_,valj_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getacol(self,j_,subj_,valj_):\n nzj_ = ctypes.c_int32()\n _subj_minlength = self.getacolnumnz((j_))\n if self.getacolnumnz((j_)) > 0 and subj_ is not None and len(subj_) != self.getacolnumnz((j_)):\n raise ValueError(\"Array argument subj is not long enough: Is %d, expected %d\" % (len(subj_),self.getacolnumnz((j_))))\n if isinstance(subj_,numpy.ndarray) and not subj_.flags.writeable:\n raise ValueError(\"Argument subj must be writable\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n _valj_minlength = self.getacolnumnz((j_))\n if self.getacolnumnz((j_)) > 0 and valj_ is not None and len(valj_) != self.getacolnumnz((j_)):\n raise ValueError(\"Array argument valj is not long enough: Is %d, expected %d\" % (len(valj_),self.getacolnumnz((j_))))\n if isinstance(valj_,numpy.ndarray) and not valj_.flags.writeable:\n raise ValueError(\"Argument valj must be writable\")\n if valj_ is None:\n raise ValueError(\"Argument valj may not be None\")\n if isinstance(valj_, numpy.ndarray) and valj_.dtype is numpy.dtype(numpy.float64) and valj_.flags.contiguous:\n _valj_copyarray = False\n _valj_tmp = ctypes.cast(valj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif valj_ is not None:\n _valj_copyarray = True\n _valj_np_tmp = numpy.zeros(len(valj_),numpy.dtype(numpy.float64))\n _valj_np_tmp[:] = valj_\n assert _valj_np_tmp.flags.contiguous\n _valj_tmp = ctypes.cast(_valj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _valj_copyarray = False\n _valj_tmp = None\n \n res = __library__.MSK_XX_getacol(self.__nativep,j_,ctypes.byref(nzj_),_subj_tmp,_valj_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n nzj_ = nzj_.value\n _nzj_return_value = nzj_\n if _subj_copyarray:\n subj_[:] = _subj_np_tmp\n if _valj_copyarray:\n valj_[:] = _valj_np_tmp\n return (_nzj_return_value)", "def fast_update_col(self,j,vals):\n dataptr = self.col_view[:,j].data\n self.X.data[dataptr] = vals", "def getacol(self,j_,subj,valj): # 3\n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n _copyback_subj = False\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n _copyback_subj = True\n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n _copyback_subj = True\n if subj_ is not None and len(subj_) != self.getacolnumnz((j_)):\n raise ValueError(\"Array argument subj has wrong length\")\n if valj is None: raise TypeError(\"Invalid type for argument valj\")\n _copyback_valj = False\n if valj is None:\n valj_ = None\n else:\n try:\n valj_ = memoryview(valj)\n except TypeError:\n try:\n _tmparr_valj = array.array(\"d\",valj)\n except TypeError:\n raise TypeError(\"Argument valj has wrong type\")\n else:\n valj_ = memoryview(_tmparr_valj)\n _copyback_valj = True\n else:\n if valj_.format != \"d\":\n valj_ = memoryview(array.array(\"d\",valj))\n _copyback_valj = True\n if valj_ is not None and len(valj_) != self.getacolnumnz((j_)):\n raise ValueError(\"Array argument valj has wrong length\")\n res,resargs = self.__obj.getacol(j_,subj_,valj_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _nzj_return_value = resargs\n if _copyback_valj:\n valj[:] = _tmparr_valj\n if _copyback_subj:\n subj[:] = _tmparr_subj\n return _nzj_return_value", "def putaijlist(self,subi_,subj_,valij_):\n num_ = None\n if num_ is None:\n num_ = len(subi_)\n elif num_ != len(subi_):\n raise IndexError(\"Inconsistent length of array subi\")\n if num_ is None:\n num_ = len(subj_)\n elif num_ != len(subj_):\n raise IndexError(\"Inconsistent length of array subj\")\n if num_ is None:\n num_ = len(valij_)\n elif num_ != len(valij_):\n raise IndexError(\"Inconsistent length of array valij\")\n if subi_ is None:\n raise ValueError(\"Argument subi cannot be None\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n if valij_ is None:\n raise ValueError(\"Argument valij cannot be None\")\n if valij_ is None:\n raise ValueError(\"Argument valij may not be None\")\n if isinstance(valij_, numpy.ndarray) and valij_.dtype is numpy.dtype(numpy.float64) and valij_.flags.contiguous:\n _valij_copyarray = False\n _valij_tmp = ctypes.cast(valij_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif valij_ is not None:\n _valij_copyarray = True\n _valij_np_tmp = numpy.zeros(len(valij_),numpy.dtype(numpy.float64))\n _valij_np_tmp[:] = valij_\n assert _valij_np_tmp.flags.contiguous\n _valij_tmp = ctypes.cast(_valij_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _valij_copyarray = False\n _valij_tmp = None\n \n res = __library__.MSK_XX_putaijlist64(self.__nativep,num_,_subi_tmp,_subj_tmp,_valij_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def appendsparsesymmat(self,dim_,subi_,subj_,valij_):\n nz_ = None\n if nz_ is None:\n nz_ = len(subi_)\n elif nz_ != len(subi_):\n raise IndexError(\"Inconsistent length of array subi\")\n if nz_ is None:\n nz_ = len(subj_)\n elif nz_ != len(subj_):\n raise IndexError(\"Inconsistent length of array subj\")\n if nz_ is None:\n nz_ = len(valij_)\n elif nz_ != len(valij_):\n raise IndexError(\"Inconsistent length of array valij\")\n if subi_ is None:\n raise ValueError(\"Argument subi cannot be None\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n if valij_ is None:\n raise ValueError(\"Argument valij cannot be None\")\n if valij_ is None:\n raise ValueError(\"Argument valij may not be None\")\n if isinstance(valij_, numpy.ndarray) and valij_.dtype is numpy.dtype(numpy.float64) and valij_.flags.contiguous:\n _valij_copyarray = False\n _valij_tmp = ctypes.cast(valij_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif valij_ is not None:\n _valij_copyarray = True\n _valij_np_tmp = numpy.zeros(len(valij_),numpy.dtype(numpy.float64))\n _valij_np_tmp[:] = valij_\n assert _valij_np_tmp.flags.contiguous\n _valij_tmp = ctypes.cast(_valij_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _valij_copyarray = False\n _valij_tmp = None\n \n idx_ = ctypes.c_int64()\n res = __library__.MSK_XX_appendsparsesymmat(self.__nativep,dim_,nz_,_subi_tmp,_subj_tmp,_valij_tmp,ctypes.byref(idx_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n idx_ = idx_.value\n _idx_return_value = idx_\n return (_idx_return_value)", "def appendsparsesymmat(self,dim_,subi,subj,valij): # 3\n nz_ = None\n if nz_ is None:\n nz_ = len(subi)\n elif nz_ != len(subi):\n raise IndexError(\"Inconsistent length of array subi\")\n if nz_ is None:\n nz_ = len(subj)\n elif nz_ != len(subj):\n raise IndexError(\"Inconsistent length of array subj\")\n if nz_ is None:\n nz_ = len(valij)\n elif nz_ != len(valij):\n raise IndexError(\"Inconsistent length of array valij\")\n if nz_ is None: nz_ = 0\n if subi is None: raise TypeError(\"Invalid type for argument subi\")\n if subi is None:\n subi_ = None\n else:\n try:\n subi_ = memoryview(subi)\n except TypeError:\n try:\n _tmparr_subi = array.array(\"i\",subi)\n except TypeError:\n raise TypeError(\"Argument subi has wrong type\")\n else:\n subi_ = memoryview(_tmparr_subi)\n \n else:\n if subi_.format != \"i\":\n subi_ = memoryview(array.array(\"i\",subi))\n \n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n \n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n \n if valij is None: raise TypeError(\"Invalid type for argument valij\")\n if valij is None:\n valij_ = None\n else:\n try:\n valij_ = memoryview(valij)\n except TypeError:\n try:\n _tmparr_valij = array.array(\"d\",valij)\n except TypeError:\n raise TypeError(\"Argument valij has wrong type\")\n else:\n valij_ = memoryview(_tmparr_valij)\n \n else:\n if valij_.format != \"d\":\n valij_ = memoryview(array.array(\"d\",valij))\n \n res,resargs = self.__obj.appendsparsesymmat(dim_,nz_,subi_,subj_,valij_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _idx_return_value = resargs\n return _idx_return_value", "def setItem(self, i, j, val):\n if i < 0:\n raise IndexError('Row index must be nonnegative.')\n if j < 0:\n raise IndexError('Column index must be nonnegative.')\n\n self.__m[i - 1][j - 1] = val", "def putaijlist(self,subi,subj,valij): # 3\n num_ = None\n if num_ is None:\n num_ = len(subi)\n elif num_ != len(subi):\n raise IndexError(\"Inconsistent length of array subi\")\n if num_ is None:\n num_ = len(subj)\n elif num_ != len(subj):\n raise IndexError(\"Inconsistent length of array subj\")\n if num_ is None:\n num_ = len(valij)\n elif num_ != len(valij):\n raise IndexError(\"Inconsistent length of array valij\")\n if num_ is None: num_ = 0\n if subi is None: raise TypeError(\"Invalid type for argument subi\")\n if subi is None:\n subi_ = None\n else:\n try:\n subi_ = memoryview(subi)\n except TypeError:\n try:\n _tmparr_subi = array.array(\"i\",subi)\n except TypeError:\n raise TypeError(\"Argument subi has wrong type\")\n else:\n subi_ = memoryview(_tmparr_subi)\n \n else:\n if subi_.format != \"i\":\n subi_ = memoryview(array.array(\"i\",subi))\n \n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n \n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n \n if valij is None: raise TypeError(\"Invalid type for argument valij\")\n if valij is None:\n valij_ = None\n else:\n try:\n valij_ = memoryview(valij)\n except TypeError:\n try:\n _tmparr_valij = array.array(\"d\",valij)\n except TypeError:\n raise TypeError(\"Argument valij has wrong type\")\n else:\n valij_ = memoryview(_tmparr_valij)\n \n else:\n if valij_.format != \"d\":\n valij_ = memoryview(array.array(\"d\",valij))\n \n res = self.__obj.putaijlist64(num_,subi_,subj_,valij_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def fixA(self,i,j,value):\n if self.coeffPattern[0] == None:\n m,n=self.m,self.n\n self.coeffPattern[0] = [[None]*m for i in range(m)]\n self.coeffPattern[0][i][j]=value\n self._updateEstimatorSize(i)", "def cols(self, col):\n self.col += col", "def __setitem__(self, j, val):\n\t\tself._coords[j] = val", "def _modify_columns(self, cols, X, y=None):", "def problem_reduction_single(self, i, val):\n y_update = - val * self.A.getcol(i).toarray().flatten()\n self.y += y_update\n self.A = sparse.hstack([self.A[:, :i], self.A[:, i + 1:]], format='csr')\n z_index = self.mask.searchsorted(i)\n self.mask = np.insert(self.mask, z_index, i)\n self.z = np.insert(self.z, z_index, val)", "def fast_get_col(self,j):\n col = self.col_view[:,j].copy()\n col.data = self.X.data[col.data]\n return col", "def putclist(self,subj,val): # 3\n num_ = None\n if num_ is None:\n num_ = len(subj)\n elif num_ != len(subj):\n raise IndexError(\"Inconsistent length of array subj\")\n if num_ is None:\n num_ = len(val)\n elif num_ != len(val):\n raise IndexError(\"Inconsistent length of array val\")\n if num_ is None: num_ = 0\n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n \n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n \n if val is None: raise TypeError(\"Invalid type for argument val\")\n if val is None:\n val_ = None\n else:\n try:\n val_ = memoryview(val)\n except TypeError:\n try:\n _tmparr_val = array.array(\"d\",val)\n except TypeError:\n raise TypeError(\"Argument val has wrong type\")\n else:\n val_ = memoryview(_tmparr_val)\n \n else:\n if val_.format != \"d\":\n val_ = memoryview(array.array(\"d\",val))\n \n res = self.__obj.putclist(num_,subj_,val_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getacolslicetrip(self,first_,last_,subi_,subj_,val_):\n maxnumnz_ = self.getacolslicenumnz((first_),(last_))\n _subi_minlength = (maxnumnz_)\n if (maxnumnz_) > 0 and subi_ is not None and len(subi_) != (maxnumnz_):\n raise ValueError(\"Array argument subi is not long enough: Is %d, expected %d\" % (len(subi_),(maxnumnz_)))\n if isinstance(subi_,numpy.ndarray) and not subi_.flags.writeable:\n raise ValueError(\"Argument subi must be writable\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n _subj_minlength = (maxnumnz_)\n if (maxnumnz_) > 0 and subj_ is not None and len(subj_) != (maxnumnz_):\n raise ValueError(\"Array argument subj is not long enough: Is %d, expected %d\" % (len(subj_),(maxnumnz_)))\n if isinstance(subj_,numpy.ndarray) and not subj_.flags.writeable:\n raise ValueError(\"Argument subj must be writable\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n _val_minlength = (maxnumnz_)\n if (maxnumnz_) > 0 and val_ is not None and len(val_) != (maxnumnz_):\n raise ValueError(\"Array argument val is not long enough: Is %d, expected %d\" % (len(val_),(maxnumnz_)))\n if isinstance(val_,numpy.ndarray) and not val_.flags.writeable:\n raise ValueError(\"Argument val must be writable\")\n if isinstance(val_, numpy.ndarray) and val_.dtype is numpy.dtype(numpy.float64) and val_.flags.contiguous:\n _val_copyarray = False\n _val_tmp = ctypes.cast(val_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif val_ is not None:\n _val_copyarray = True\n _val_np_tmp = numpy.zeros(len(val_),numpy.dtype(numpy.float64))\n _val_np_tmp[:] = val_\n assert _val_np_tmp.flags.contiguous\n _val_tmp = ctypes.cast(_val_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _val_copyarray = False\n _val_tmp = None\n \n surp_ = ctypes.c_int64(_subi_minlength)\n res = __library__.MSK_XX_getacolslicetrip(self.__nativep,first_,last_,maxnumnz_,ctypes.byref(surp_),_subi_tmp,_subj_tmp,_val_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _subi_copyarray:\n subi_[:] = _subi_np_tmp\n if _subj_copyarray:\n subj_[:] = _subj_np_tmp\n if _val_copyarray:\n val_[:] = _val_np_tmp", "def add_col(M, a, j1, j2):\n Q = zeros(*M.shape)\n Q[j1, j2] = 1\n return M + a * M * Q", "def fixB(self,i,j,value):\n if self.coeffPattern[1] == None:\n m,n=self.m,self.n\n self.coeffPattern = [[None]*n for i in range(m)]\n self.coeffPattern[1][i][j]=value\n self._updateEstimatorSize(i)", "def getacolslicetrip(self,first_,last_,subi,subj,val): # 3\n maxnumnz_ = self.getaslicenumnz(accmode.var,(first_),(last_))\n _copyback_subi = False\n if subi is None:\n subi_ = None\n else:\n try:\n subi_ = memoryview(subi)\n except TypeError:\n try:\n _tmparr_subi = array.array(\"i\",subi)\n except TypeError:\n raise TypeError(\"Argument subi has wrong type\")\n else:\n subi_ = memoryview(_tmparr_subi)\n _copyback_subi = True\n else:\n if subi_.format != \"i\":\n subi_ = memoryview(array.array(\"i\",subi))\n _copyback_subi = True\n if subi_ is not None and len(subi_) != (maxnumnz_):\n raise ValueError(\"Array argument subi has wrong length\")\n _copyback_subj = False\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n _copyback_subj = True\n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n _copyback_subj = True\n if subj_ is not None and len(subj_) != (maxnumnz_):\n raise ValueError(\"Array argument subj has wrong length\")\n _copyback_val = False\n if val is None:\n val_ = None\n else:\n try:\n val_ = memoryview(val)\n except TypeError:\n try:\n _tmparr_val = array.array(\"d\",val)\n except TypeError:\n raise TypeError(\"Argument val has wrong type\")\n else:\n val_ = memoryview(_tmparr_val)\n _copyback_val = True\n else:\n if val_.format != \"d\":\n val_ = memoryview(array.array(\"d\",val))\n _copyback_val = True\n if val_ is not None and len(val_) != (maxnumnz_):\n raise ValueError(\"Array argument val has wrong length\")\n res = self.__obj.getacolslicetrip(first_,last_,maxnumnz_,len(subi),subi_,subj_,val_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_val:\n val[:] = _tmparr_val\n if _copyback_subj:\n subj[:] = _tmparr_subj\n if _copyback_subi:\n subi[:] = _tmparr_subi", "def getsparsesymmat(self,idx_,subi,subj,valij): # 3\n maxlen_ = self.getsymmatinfo((idx_))[1]\n _copyback_subi = False\n if subi is None:\n subi_ = None\n else:\n try:\n subi_ = memoryview(subi)\n except TypeError:\n try:\n _tmparr_subi = array.array(\"i\",subi)\n except TypeError:\n raise TypeError(\"Argument subi has wrong type\")\n else:\n subi_ = memoryview(_tmparr_subi)\n _copyback_subi = True\n else:\n if subi_.format != \"i\":\n subi_ = memoryview(array.array(\"i\",subi))\n _copyback_subi = True\n if subi_ is not None and len(subi_) != (maxlen_):\n raise ValueError(\"Array argument subi has wrong length\")\n _copyback_subj = False\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n _copyback_subj = True\n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n _copyback_subj = True\n if subj_ is not None and len(subj_) != (maxlen_):\n raise ValueError(\"Array argument subj has wrong length\")\n _copyback_valij = False\n if valij is None:\n valij_ = None\n else:\n try:\n valij_ = memoryview(valij)\n except TypeError:\n try:\n _tmparr_valij = array.array(\"d\",valij)\n except TypeError:\n raise TypeError(\"Argument valij has wrong type\")\n else:\n valij_ = memoryview(_tmparr_valij)\n _copyback_valij = True\n else:\n if valij_.format != \"d\":\n valij_ = memoryview(array.array(\"d\",valij))\n _copyback_valij = True\n if valij_ is not None and len(valij_) != (maxlen_):\n raise ValueError(\"Array argument valij has wrong length\")\n res = self.__obj.getsparsesymmat(idx_,maxlen_,subi_,subj_,valij_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_valij:\n valij[:] = _tmparr_valij\n if _copyback_subj:\n subj[:] = _tmparr_subj\n if _copyback_subi:\n subi[:] = _tmparr_subi", "def collocation(lhs, rhs, basis, nterms, domain=(0, 1), x_col=None):\n x0, x1 = domain\n if x_col is None:\n dx = S(x1 - x0)/(nterms - 2)\n x_col = [dx + dx*cont for cont in range(nterms)]\n x = symbols(\"x\")\n A_mat = zeros(nterms, nterms)\n b_vec = zeros(nterms, 1)\n for row in range(nterms):\n b_vec[row] = rhs(x_col[row])\n for col in range(nterms):\n phi_j = basis(x, col)\n A_mat[row, col] = lhs(phi_j, x).subs(x, x_col[row])\n return A_mat, b_vec", "def putvarsolutionj(self,j_,whichsol_,sk_,x_,sl_,su_,sn_):\n res = __library__.MSK_XX_putvarsolutionj(self.__nativep,j_,whichsol_,sk_,x_,sl_,su_,sn_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def add_to_column(M, i, j):\n N = M.transpose()\n return add_to_row(N, i, j).transpose()", "def fill_col(col, x):\n col.append(x)\n return col", "def add_entry(matrix,i,j,replace=False):\n if j not in matrix[i].keys():\n matrix[i][j] = abs(i - j)\n else:\n if replace:\n matrix[i][j] = abs(i - j)", "def set_col( self, col ):\n self.ix_col = col", "def setitem(self, i, j, value):\n # XXX: flint matrices do not support negative indices\n # XXX: They also raise ValueError instead of IndexError\n m, n = self.shape\n if i < 0:\n i += m\n if j < 0:\n j += n\n try:\n self.rep[i, j] = value\n except ValueError:\n raise IndexError(f\"Invalid indices ({i}, {j}) for Matrix of shape {self.shape}\")", "def getsparsesymmat(self,idx_,subi_,subj_,valij_):\n maxlen_ = self.getsymmatinfo((idx_))[1]\n _subi_minlength = (maxlen_)\n if (maxlen_) > 0 and subi_ is not None and len(subi_) != (maxlen_):\n raise ValueError(\"Array argument subi is not long enough: Is %d, expected %d\" % (len(subi_),(maxlen_)))\n if isinstance(subi_,numpy.ndarray) and not subi_.flags.writeable:\n raise ValueError(\"Argument subi must be writable\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n _subj_minlength = (maxlen_)\n if (maxlen_) > 0 and subj_ is not None and len(subj_) != (maxlen_):\n raise ValueError(\"Array argument subj is not long enough: Is %d, expected %d\" % (len(subj_),(maxlen_)))\n if isinstance(subj_,numpy.ndarray) and not subj_.flags.writeable:\n raise ValueError(\"Argument subj must be writable\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n _valij_minlength = (maxlen_)\n if (maxlen_) > 0 and valij_ is not None and len(valij_) != (maxlen_):\n raise ValueError(\"Array argument valij is not long enough: Is %d, expected %d\" % (len(valij_),(maxlen_)))\n if isinstance(valij_,numpy.ndarray) and not valij_.flags.writeable:\n raise ValueError(\"Argument valij must be writable\")\n if isinstance(valij_, numpy.ndarray) and valij_.dtype is numpy.dtype(numpy.float64) and valij_.flags.contiguous:\n _valij_copyarray = False\n _valij_tmp = ctypes.cast(valij_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif valij_ is not None:\n _valij_copyarray = True\n _valij_np_tmp = numpy.zeros(len(valij_),numpy.dtype(numpy.float64))\n _valij_np_tmp[:] = valij_\n assert _valij_np_tmp.flags.contiguous\n _valij_tmp = ctypes.cast(_valij_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _valij_copyarray = False\n _valij_tmp = None\n \n res = __library__.MSK_XX_getsparsesymmat(self.__nativep,idx_,maxlen_,_subi_tmp,_subj_tmp,_valij_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _subi_copyarray:\n subi_[:] = _subi_np_tmp\n if _subj_copyarray:\n subj_[:] = _subj_np_tmp\n if _valij_copyarray:\n valij_[:] = _valij_np_tmp", "def __setitem__(self, idx, val):\n self.rows[idx[0]][idx[1]] = val" ]

[ "0.7239256", "0.66198826", "0.6576874", "0.6424902", "0.5502499", "0.54932886", "0.5471949", "0.546628", "0.5395238", "0.5250104", "0.51579374", "0.5112476", "0.5112115", "0.5078982", "0.50694185", "0.506477", "0.5047945", "0.50186586", "0.5005424", "0.49487793", "0.49407876", "0.4940061", "0.49327824", "0.4930652", "0.49218667", "0.4916461", "0.4906075", "0.4901057", "0.48924974", "0.48751825" ]

[ "def putarow(self,i_,subi,vali): # 3\n nzi_ = None\n if nzi_ is None:\n nzi_ = len(subi)\n elif nzi_ != len(subi):\n raise IndexError(\"Inconsistent length of array subi\")\n if nzi_ is None:\n nzi_ = len(vali)\n elif nzi_ != len(vali):\n raise IndexError(\"Inconsistent length of array vali\")\n if nzi_ is None: nzi_ = 0\n if subi is None: raise TypeError(\"Invalid type for argument subi\")\n if subi is None:\n subi_ = None\n else:\n try:\n subi_ = memoryview(subi)\n except TypeError:\n try:\n _tmparr_subi = array.array(\"i\",subi)\n except TypeError:\n raise TypeError(\"Argument subi has wrong type\")\n else:\n subi_ = memoryview(_tmparr_subi)\n \n else:\n if subi_.format != \"i\":\n subi_ = memoryview(array.array(\"i\",subi))\n \n if vali is None: raise TypeError(\"Invalid type for argument vali\")\n if vali is None:\n vali_ = None\n else:\n try:\n vali_ = memoryview(vali)\n except TypeError:\n try:\n _tmparr_vali = array.array(\"d\",vali)\n except TypeError:\n raise TypeError(\"Argument vali has wrong type\")\n else:\n vali_ = memoryview(_tmparr_vali)\n \n else:\n if vali_.format != \"d\":\n vali_ = memoryview(array.array(\"d\",vali))\n \n res = self.__obj.putarow(i_,nzi_,subi_,vali_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def problem_reduction_single(self, i, val):\n y_update = - val * self.A.getcol(i).toarray().flatten()\n self.y += y_update\n self.A = sparse.hstack([self.A[:, :i], self.A[:, i + 1:]], format='csr')\n z_index = self.mask.searchsorted(i)\n self.mask = np.insert(self.mask, z_index, i)\n self.z = np.insert(self.z, z_index, val)", "def getarow(self,i_,subi_,vali_):\n nzi_ = ctypes.c_int32()\n _subi_minlength = self.getarownumnz((i_))\n if self.getarownumnz((i_)) > 0 and subi_ is not None and len(subi_) != self.getarownumnz((i_)):\n raise ValueError(\"Array argument subi is not long enough: Is %d, expected %d\" % (len(subi_),self.getarownumnz((i_))))\n if isinstance(subi_,numpy.ndarray) and not subi_.flags.writeable:\n raise ValueError(\"Argument subi must be writable\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n _vali_minlength = self.getarownumnz((i_))\n if self.getarownumnz((i_)) > 0 and vali_ is not None and len(vali_) != self.getarownumnz((i_)):\n raise ValueError(\"Array argument vali is not long enough: Is %d, expected %d\" % (len(vali_),self.getarownumnz((i_))))\n if isinstance(vali_,numpy.ndarray) and not vali_.flags.writeable:\n raise ValueError(\"Argument vali must be writable\")\n if vali_ is None:\n raise ValueError(\"Argument vali may not be None\")\n if isinstance(vali_, numpy.ndarray) and vali_.dtype is numpy.dtype(numpy.float64) and vali_.flags.contiguous:\n _vali_copyarray = False\n _vali_tmp = ctypes.cast(vali_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif vali_ is not None:\n _vali_copyarray = True\n _vali_np_tmp = numpy.zeros(len(vali_),numpy.dtype(numpy.float64))\n _vali_np_tmp[:] = vali_\n assert _vali_np_tmp.flags.contiguous\n _vali_tmp = ctypes.cast(_vali_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _vali_copyarray = False\n _vali_tmp = None\n \n res = __library__.MSK_XX_getarow(self.__nativep,i_,ctypes.byref(nzi_),_subi_tmp,_vali_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n nzi_ = nzi_.value\n _nzi_return_value = nzi_\n if _subi_copyarray:\n subi_[:] = _subi_np_tmp\n if _vali_copyarray:\n vali_[:] = _vali_np_tmp\n return (_nzi_return_value)", "def fixA(self,i,j,value):\n if self.coeffPattern[0] == None:\n m,n=self.m,self.n\n self.coeffPattern[0] = [[None]*m for i in range(m)]\n self.coeffPattern[0][i][j]=value\n self._updateEstimatorSize(i)", "def getarow(self,i_,subi,vali): # 3\n if subi is None: raise TypeError(\"Invalid type for argument subi\")\n _copyback_subi = False\n if subi is None:\n subi_ = None\n else:\n try:\n subi_ = memoryview(subi)\n except TypeError:\n try:\n _tmparr_subi = array.array(\"i\",subi)\n except TypeError:\n raise TypeError(\"Argument subi has wrong type\")\n else:\n subi_ = memoryview(_tmparr_subi)\n _copyback_subi = True\n else:\n if subi_.format != \"i\":\n subi_ = memoryview(array.array(\"i\",subi))\n _copyback_subi = True\n if subi_ is not None and len(subi_) != self.getarownumnz((i_)):\n raise ValueError(\"Array argument subi has wrong length\")\n if vali is None: raise TypeError(\"Invalid type for argument vali\")\n _copyback_vali = False\n if vali is None:\n vali_ = None\n else:\n try:\n vali_ = memoryview(vali)\n except TypeError:\n try:\n _tmparr_vali = array.array(\"d\",vali)\n except TypeError:\n raise TypeError(\"Argument vali has wrong type\")\n else:\n vali_ = memoryview(_tmparr_vali)\n _copyback_vali = True\n else:\n if vali_.format != \"d\":\n vali_ = memoryview(array.array(\"d\",vali))\n _copyback_vali = True\n if vali_ is not None and len(vali_) != self.getarownumnz((i_)):\n raise ValueError(\"Array argument vali has wrong length\")\n res,resargs = self.__obj.getarow(i_,subi_,vali_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _nzi_return_value = resargs\n if _copyback_vali:\n vali[:] = _tmparr_vali\n if _copyback_subi:\n subi[:] = _tmparr_subi\n return _nzi_return_value", "def setitem(self, i, j, value):\n # XXX: flint matrices do not support negative indices\n # XXX: They also raise ValueError instead of IndexError\n m, n = self.shape\n if i < 0:\n i += m\n if j < 0:\n j += n\n try:\n self.rep[i, j] = value\n except ValueError:\n raise IndexError(f\"Invalid indices ({i}, {j}) for Matrix of shape {self.shape}\")", "def assign_in_place_subblock(A, a, i, j):\n bi = 2*i\n bj = 2*j\n A[bi, bj] = a[0, 0]\n A[bi, bj+1] = a[0, 1]\n A[bi+1, bj] = a[1, 0]\n A[bi+1, bj+1] = a[1, 1]", "def _append_cx(self, i, j):\n\n if not 0 <= i < self.num_qubits or not 0 <= j < self.num_qubits:\n raise QiskitError(\"CX qubits are out of bounds.\")\n self.linear[j] = (self.linear[i] + self.linear[j]) % 2\n self.shift[j] = (self.shift[i] + self.shift[j]) % 2", "def putaijlist(self,subi_,subj_,valij_):\n num_ = None\n if num_ is None:\n num_ = len(subi_)\n elif num_ != len(subi_):\n raise IndexError(\"Inconsistent length of array subi\")\n if num_ is None:\n num_ = len(subj_)\n elif num_ != len(subj_):\n raise IndexError(\"Inconsistent length of array subj\")\n if num_ is None:\n num_ = len(valij_)\n elif num_ != len(valij_):\n raise IndexError(\"Inconsistent length of array valij\")\n if subi_ is None:\n raise ValueError(\"Argument subi cannot be None\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n if valij_ is None:\n raise ValueError(\"Argument valij cannot be None\")\n if valij_ is None:\n raise ValueError(\"Argument valij may not be None\")\n if isinstance(valij_, numpy.ndarray) and valij_.dtype is numpy.dtype(numpy.float64) and valij_.flags.contiguous:\n _valij_copyarray = False\n _valij_tmp = ctypes.cast(valij_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif valij_ is not None:\n _valij_copyarray = True\n _valij_np_tmp = numpy.zeros(len(valij_),numpy.dtype(numpy.float64))\n _valij_np_tmp[:] = valij_\n assert _valij_np_tmp.flags.contiguous\n _valij_tmp = ctypes.cast(_valij_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _valij_copyarray = False\n _valij_tmp = None\n \n res = __library__.MSK_XX_putaijlist64(self.__nativep,num_,_subi_tmp,_subj_tmp,_valij_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def appendsparsesymmat(self,dim_,subi_,subj_,valij_):\n nz_ = None\n if nz_ is None:\n nz_ = len(subi_)\n elif nz_ != len(subi_):\n raise IndexError(\"Inconsistent length of array subi\")\n if nz_ is None:\n nz_ = len(subj_)\n elif nz_ != len(subj_):\n raise IndexError(\"Inconsistent length of array subj\")\n if nz_ is None:\n nz_ = len(valij_)\n elif nz_ != len(valij_):\n raise IndexError(\"Inconsistent length of array valij\")\n if subi_ is None:\n raise ValueError(\"Argument subi cannot be None\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n if valij_ is None:\n raise ValueError(\"Argument valij cannot be None\")\n if valij_ is None:\n raise ValueError(\"Argument valij may not be None\")\n if isinstance(valij_, numpy.ndarray) and valij_.dtype is numpy.dtype(numpy.float64) and valij_.flags.contiguous:\n _valij_copyarray = False\n _valij_tmp = ctypes.cast(valij_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif valij_ is not None:\n _valij_copyarray = True\n _valij_np_tmp = numpy.zeros(len(valij_),numpy.dtype(numpy.float64))\n _valij_np_tmp[:] = valij_\n assert _valij_np_tmp.flags.contiguous\n _valij_tmp = ctypes.cast(_valij_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _valij_copyarray = False\n _valij_tmp = None\n \n idx_ = ctypes.c_int64()\n res = __library__.MSK_XX_appendsparsesymmat(self.__nativep,dim_,nz_,_subi_tmp,_subj_tmp,_valij_tmp,ctypes.byref(idx_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n idx_ = idx_.value\n _idx_return_value = idx_\n return (_idx_return_value)", "def __setitem__(self, i, val):\n\t\tif i < self.n:\n\t\t\tself.v[i] = val", "def fixB(self,i,j,value):\n if self.coeffPattern[1] == None:\n m,n=self.m,self.n\n self.coeffPattern = [[None]*n for i in range(m)]\n self.coeffPattern[1][i][j]=value\n self._updateEstimatorSize(i)", "def add_entry(matrix,i,j,replace=False):\n if j not in matrix[i].keys():\n matrix[i][j] = abs(i - j)\n else:\n if replace:\n matrix[i][j] = abs(i - j)", "def setItem(self, i, j, val):\n if i < 0:\n raise IndexError('Row index must be nonnegative.')\n if j < 0:\n raise IndexError('Column index must be nonnegative.')\n\n self.__m[i - 1][j - 1] = val", "def putaijlist(self,subi,subj,valij): # 3\n num_ = None\n if num_ is None:\n num_ = len(subi)\n elif num_ != len(subi):\n raise IndexError(\"Inconsistent length of array subi\")\n if num_ is None:\n num_ = len(subj)\n elif num_ != len(subj):\n raise IndexError(\"Inconsistent length of array subj\")\n if num_ is None:\n num_ = len(valij)\n elif num_ != len(valij):\n raise IndexError(\"Inconsistent length of array valij\")\n if num_ is None: num_ = 0\n if subi is None: raise TypeError(\"Invalid type for argument subi\")\n if subi is None:\n subi_ = None\n else:\n try:\n subi_ = memoryview(subi)\n except TypeError:\n try:\n _tmparr_subi = array.array(\"i\",subi)\n except TypeError:\n raise TypeError(\"Argument subi has wrong type\")\n else:\n subi_ = memoryview(_tmparr_subi)\n \n else:\n if subi_.format != \"i\":\n subi_ = memoryview(array.array(\"i\",subi))\n \n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n \n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n \n if valij is None: raise TypeError(\"Invalid type for argument valij\")\n if valij is None:\n valij_ = None\n else:\n try:\n valij_ = memoryview(valij)\n except TypeError:\n try:\n _tmparr_valij = array.array(\"d\",valij)\n except TypeError:\n raise TypeError(\"Argument valij has wrong type\")\n else:\n valij_ = memoryview(_tmparr_valij)\n \n else:\n if valij_.format != \"d\":\n valij_ = memoryview(array.array(\"d\",valij))\n \n res = self.__obj.putaijlist64(num_,subi_,subj_,valij_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbarablocktriplet(self,num_,subi_,subj_,subk_,subl_,valijkl_):\n _subi_minlength = (num_)\n if (num_) > 0 and subi_ is not None and len(subi_) != (num_):\n raise ValueError(\"Array argument subi is not long enough: Is %d, expected %d\" % (len(subi_),(num_)))\n if subi_ is None:\n raise ValueError(\"Argument subi cannot be None\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n _subj_minlength = (num_)\n if (num_) > 0 and subj_ is not None and len(subj_) != (num_):\n raise ValueError(\"Array argument subj is not long enough: Is %d, expected %d\" % (len(subj_),(num_)))\n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n _subk_minlength = (num_)\n if (num_) > 0 and subk_ is not None and len(subk_) != (num_):\n raise ValueError(\"Array argument subk is not long enough: Is %d, expected %d\" % (len(subk_),(num_)))\n if subk_ is None:\n raise ValueError(\"Argument subk cannot be None\")\n if subk_ is None:\n raise ValueError(\"Argument subk may not be None\")\n if isinstance(subk_, numpy.ndarray) and subk_.dtype is numpy.dtype(numpy.int32) and subk_.flags.contiguous:\n _subk_copyarray = False\n _subk_tmp = ctypes.cast(subk_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subk_ is not None:\n _subk_copyarray = True\n _subk_np_tmp = numpy.zeros(len(subk_),numpy.dtype(numpy.int32))\n _subk_np_tmp[:] = subk_\n assert _subk_np_tmp.flags.contiguous\n _subk_tmp = ctypes.cast(_subk_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subk_copyarray = False\n _subk_tmp = None\n \n _subl_minlength = (num_)\n if (num_) > 0 and subl_ is not None and len(subl_) != (num_):\n raise ValueError(\"Array argument subl is not long enough: Is %d, expected %d\" % (len(subl_),(num_)))\n if subl_ is None:\n raise ValueError(\"Argument subl cannot be None\")\n if subl_ is None:\n raise ValueError(\"Argument subl may not be None\")\n if isinstance(subl_, numpy.ndarray) and subl_.dtype is numpy.dtype(numpy.int32) and subl_.flags.contiguous:\n _subl_copyarray = False\n _subl_tmp = ctypes.cast(subl_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subl_ is not None:\n _subl_copyarray = True\n _subl_np_tmp = numpy.zeros(len(subl_),numpy.dtype(numpy.int32))\n _subl_np_tmp[:] = subl_\n assert _subl_np_tmp.flags.contiguous\n _subl_tmp = ctypes.cast(_subl_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subl_copyarray = False\n _subl_tmp = None\n \n _valijkl_minlength = (num_)\n if (num_) > 0 and valijkl_ is not None and len(valijkl_) != (num_):\n raise ValueError(\"Array argument valijkl is not long enough: Is %d, expected %d\" % (len(valijkl_),(num_)))\n if valijkl_ is None:\n raise ValueError(\"Argument valijkl cannot be None\")\n if valijkl_ is None:\n raise ValueError(\"Argument valijkl may not be None\")\n if isinstance(valijkl_, numpy.ndarray) and valijkl_.dtype is numpy.dtype(numpy.float64) and valijkl_.flags.contiguous:\n _valijkl_copyarray = False\n _valijkl_tmp = ctypes.cast(valijkl_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif valijkl_ is not None:\n _valijkl_copyarray = True\n _valijkl_np_tmp = numpy.zeros(len(valijkl_),numpy.dtype(numpy.float64))\n _valijkl_np_tmp[:] = valijkl_\n assert _valijkl_np_tmp.flags.contiguous\n _valijkl_tmp = ctypes.cast(_valijkl_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _valijkl_copyarray = False\n _valijkl_tmp = None\n \n res = __library__.MSK_XX_putbarablocktriplet(self.__nativep,num_,_subi_tmp,_subj_tmp,_subk_tmp,_subl_tmp,_valijkl_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putacol(self,j_,subj,valj): # 3\n nzj_ = None\n if nzj_ is None:\n nzj_ = len(subj)\n elif nzj_ != len(subj):\n raise IndexError(\"Inconsistent length of array subj\")\n if nzj_ is None:\n nzj_ = len(valj)\n elif nzj_ != len(valj):\n raise IndexError(\"Inconsistent length of array valj\")\n if nzj_ is None: nzj_ = 0\n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n \n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n \n if valj is None: raise TypeError(\"Invalid type for argument valj\")\n if valj is None:\n valj_ = None\n else:\n try:\n valj_ = memoryview(valj)\n except TypeError:\n try:\n _tmparr_valj = array.array(\"d\",valj)\n except TypeError:\n raise TypeError(\"Argument valj has wrong type\")\n else:\n valj_ = memoryview(_tmparr_valj)\n \n else:\n if valj_.format != \"d\":\n valj_ = memoryview(array.array(\"d\",valj))\n \n res = self.__obj.putacol(j_,nzj_,subj_,valj_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putaij(self,i_,j_,aij_):\n res = __library__.MSK_XX_putaij(self.__nativep,i_,j_,aij_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def appendsparsesymmat(self,dim_,subi,subj,valij): # 3\n nz_ = None\n if nz_ is None:\n nz_ = len(subi)\n elif nz_ != len(subi):\n raise IndexError(\"Inconsistent length of array subi\")\n if nz_ is None:\n nz_ = len(subj)\n elif nz_ != len(subj):\n raise IndexError(\"Inconsistent length of array subj\")\n if nz_ is None:\n nz_ = len(valij)\n elif nz_ != len(valij):\n raise IndexError(\"Inconsistent length of array valij\")\n if nz_ is None: nz_ = 0\n if subi is None: raise TypeError(\"Invalid type for argument subi\")\n if subi is None:\n subi_ = None\n else:\n try:\n subi_ = memoryview(subi)\n except TypeError:\n try:\n _tmparr_subi = array.array(\"i\",subi)\n except TypeError:\n raise TypeError(\"Argument subi has wrong type\")\n else:\n subi_ = memoryview(_tmparr_subi)\n \n else:\n if subi_.format != \"i\":\n subi_ = memoryview(array.array(\"i\",subi))\n \n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n \n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n \n if valij is None: raise TypeError(\"Invalid type for argument valij\")\n if valij is None:\n valij_ = None\n else:\n try:\n valij_ = memoryview(valij)\n except TypeError:\n try:\n _tmparr_valij = array.array(\"d\",valij)\n except TypeError:\n raise TypeError(\"Argument valij has wrong type\")\n else:\n valij_ = memoryview(_tmparr_valij)\n \n else:\n if valij_.format != \"d\":\n valij_ = memoryview(array.array(\"d\",valij))\n \n res,resargs = self.__obj.appendsparsesymmat(dim_,nz_,subi_,subj_,valij_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _idx_return_value = resargs\n return _idx_return_value", "def fast_update_col(self,j,vals):\n dataptr = self.col_view[:,j].data\n self.X.data[dataptr] = vals", "def __setitem__(self, inds, value):\n i, j = inds\n self.array[i][j] = value", "def replace_at_index(tup, ix, val):\n\n return tup[:ix] + (val,) + tup[ix + 1:]", "def updateValue(self,i,x):\n assert 0 <= i < len(self)\n self.__update_aux(0,0,len(self),i,x)", "def conj_inplace(a):", "def putbaraij(self,i_,j_,sub_,weights_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(weights_)\n elif num_ != len(weights_):\n raise IndexError(\"Inconsistent length of array weights\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int64) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int64))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n if weights_ is None:\n raise ValueError(\"Argument weights cannot be None\")\n if weights_ is None:\n raise ValueError(\"Argument weights may not be None\")\n if isinstance(weights_, numpy.ndarray) and weights_.dtype is numpy.dtype(numpy.float64) and weights_.flags.contiguous:\n _weights_copyarray = False\n _weights_tmp = ctypes.cast(weights_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif weights_ is not None:\n _weights_copyarray = True\n _weights_np_tmp = numpy.zeros(len(weights_),numpy.dtype(numpy.float64))\n _weights_np_tmp[:] = weights_\n assert _weights_np_tmp.flags.contiguous\n _weights_tmp = ctypes.cast(_weights_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _weights_copyarray = False\n _weights_tmp = None\n \n res = __library__.MSK_XX_putbaraij(self.__nativep,i_,j_,num_,_sub_tmp,_weights_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putacol(self,j_,subj_,valj_):\n nzj_ = None\n if nzj_ is None:\n nzj_ = len(subj_)\n elif nzj_ != len(subj_):\n raise IndexError(\"Inconsistent length of array subj\")\n if nzj_ is None:\n nzj_ = len(valj_)\n elif nzj_ != len(valj_):\n raise IndexError(\"Inconsistent length of array valj\")\n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n if valj_ is None:\n raise ValueError(\"Argument valj cannot be None\")\n if valj_ is None:\n raise ValueError(\"Argument valj may not be None\")\n if isinstance(valj_, numpy.ndarray) and valj_.dtype is numpy.dtype(numpy.float64) and valj_.flags.contiguous:\n _valj_copyarray = False\n _valj_tmp = ctypes.cast(valj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif valj_ is not None:\n _valj_copyarray = True\n _valj_np_tmp = numpy.zeros(len(valj_),numpy.dtype(numpy.float64))\n _valj_np_tmp[:] = valj_\n assert _valj_np_tmp.flags.contiguous\n _valj_tmp = ctypes.cast(_valj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _valj_copyarray = False\n _valj_tmp = None\n \n res = __library__.MSK_XX_putacol(self.__nativep,j_,nzj_,_subj_tmp,_valj_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbaraij(self,i_,j_,sub,weights): # 3\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(weights)\n elif num_ != len(weights):\n raise IndexError(\"Inconsistent length of array weights\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"q\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"q\":\n sub_ = memoryview(array.array(\"q\",sub))\n \n if weights is None: raise TypeError(\"Invalid type for argument weights\")\n if weights is None:\n weights_ = None\n else:\n try:\n weights_ = memoryview(weights)\n except TypeError:\n try:\n _tmparr_weights = array.array(\"d\",weights)\n except TypeError:\n raise TypeError(\"Argument weights has wrong type\")\n else:\n weights_ = memoryview(_tmparr_weights)\n \n else:\n if weights_.format != \"d\":\n weights_ = memoryview(array.array(\"d\",weights))\n \n res = self.__obj.putbaraij(i_,j_,num_,sub_,weights_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def fixC(self,i,value):\n if self.coeffPattern[2] == None:\n m,n=self.m,self.n\n self.coeffPattern[2] = [None]*m\n self.coeffPattern[2][i]=value\n self._updateEstimatorSize(i)", "def __setitem__(self, idx, val):\n self.rows[idx[0]][idx[1]] = val", "def putaij(self,i_,j_,aij_): # 3\n res = self.__obj.putaij(i_,j_,aij_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)" ]

[ "0.67917335", "0.60628814", "0.5958818", "0.5807271", "0.5769178", "0.56926376", "0.5588199", "0.5587641", "0.5496159", "0.54637206", "0.5370489", "0.5326177", "0.5312469", "0.5302563", "0.52845985", "0.52328", "0.51951206", "0.5188997", "0.5179855", "0.5082866", "0.50648874", "0.505677", "0.5056639", "0.50562966", "0.50492156", "0.5045948", "0.50380427", "0.5020755", "0.5019314", "0.5008785" ]

[ "def putacolslice(self,first_,last_,ptrb_,ptre_,asub_,aval_):\n if ptrb_ is None:\n raise ValueError(\"Argument ptrb cannot be None\")\n if ptrb_ is None:\n raise ValueError(\"Argument ptrb may not be None\")\n if isinstance(ptrb_, numpy.ndarray) and ptrb_.dtype is numpy.dtype(numpy.int64) and ptrb_.flags.contiguous:\n _ptrb_copyarray = False\n _ptrb_tmp = ctypes.cast(ptrb_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptrb_ is not None:\n _ptrb_copyarray = True\n _ptrb_np_tmp = numpy.zeros(len(ptrb_),numpy.dtype(numpy.int64))\n _ptrb_np_tmp[:] = ptrb_\n assert _ptrb_np_tmp.flags.contiguous\n _ptrb_tmp = ctypes.cast(_ptrb_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptrb_copyarray = False\n _ptrb_tmp = None\n \n if ptre_ is None:\n raise ValueError(\"Argument ptre cannot be None\")\n if ptre_ is None:\n raise ValueError(\"Argument ptre may not be None\")\n if isinstance(ptre_, numpy.ndarray) and ptre_.dtype is numpy.dtype(numpy.int64) and ptre_.flags.contiguous:\n _ptre_copyarray = False\n _ptre_tmp = ctypes.cast(ptre_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptre_ is not None:\n _ptre_copyarray = True\n _ptre_np_tmp = numpy.zeros(len(ptre_),numpy.dtype(numpy.int64))\n _ptre_np_tmp[:] = ptre_\n assert _ptre_np_tmp.flags.contiguous\n _ptre_tmp = ctypes.cast(_ptre_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptre_copyarray = False\n _ptre_tmp = None\n \n if asub_ is None:\n raise ValueError(\"Argument asub cannot be None\")\n if asub_ is None:\n raise ValueError(\"Argument asub may not be None\")\n if isinstance(asub_, numpy.ndarray) and asub_.dtype is numpy.dtype(numpy.int32) and asub_.flags.contiguous:\n _asub_copyarray = False\n _asub_tmp = ctypes.cast(asub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif asub_ is not None:\n _asub_copyarray = True\n _asub_np_tmp = numpy.zeros(len(asub_),numpy.dtype(numpy.int32))\n _asub_np_tmp[:] = asub_\n assert _asub_np_tmp.flags.contiguous\n _asub_tmp = ctypes.cast(_asub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _asub_copyarray = False\n _asub_tmp = None\n \n if aval_ is None:\n raise ValueError(\"Argument aval cannot be None\")\n if aval_ is None:\n raise ValueError(\"Argument aval may not be None\")\n if isinstance(aval_, numpy.ndarray) and aval_.dtype is numpy.dtype(numpy.float64) and aval_.flags.contiguous:\n _aval_copyarray = False\n _aval_tmp = ctypes.cast(aval_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif aval_ is not None:\n _aval_copyarray = True\n _aval_np_tmp = numpy.zeros(len(aval_),numpy.dtype(numpy.float64))\n _aval_np_tmp[:] = aval_\n assert _aval_np_tmp.flags.contiguous\n _aval_tmp = ctypes.cast(_aval_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _aval_copyarray = False\n _aval_tmp = None\n \n res = __library__.MSK_XX_putacolslice64(self.__nativep,first_,last_,_ptrb_tmp,_ptre_tmp,_asub_tmp,_aval_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putarowslice(self,first_,last_,ptrb,ptre,asub,aval): # 3\n if ptrb is None: raise TypeError(\"Invalid type for argument ptrb\")\n if ptrb is None:\n ptrb_ = None\n else:\n try:\n ptrb_ = memoryview(ptrb)\n except TypeError:\n try:\n _tmparr_ptrb = array.array(\"q\",ptrb)\n except TypeError:\n raise TypeError(\"Argument ptrb has wrong type\")\n else:\n ptrb_ = memoryview(_tmparr_ptrb)\n \n else:\n if ptrb_.format != \"q\":\n ptrb_ = memoryview(array.array(\"q\",ptrb))\n \n if ptrb_ is not None and len(ptrb_) != ((last_) - (first_)):\n raise ValueError(\"Array argument ptrb has wrong length\")\n if ptre is None: raise TypeError(\"Invalid type for argument ptre\")\n if ptre is None:\n ptre_ = None\n else:\n try:\n ptre_ = memoryview(ptre)\n except TypeError:\n try:\n _tmparr_ptre = array.array(\"q\",ptre)\n except TypeError:\n raise TypeError(\"Argument ptre has wrong type\")\n else:\n ptre_ = memoryview(_tmparr_ptre)\n \n else:\n if ptre_.format != \"q\":\n ptre_ = memoryview(array.array(\"q\",ptre))\n \n if ptre_ is not None and len(ptre_) != ((last_) - (first_)):\n raise ValueError(\"Array argument ptre has wrong length\")\n if asub is None: raise TypeError(\"Invalid type for argument asub\")\n if asub is None:\n asub_ = None\n else:\n try:\n asub_ = memoryview(asub)\n except TypeError:\n try:\n _tmparr_asub = array.array(\"i\",asub)\n except TypeError:\n raise TypeError(\"Argument asub has wrong type\")\n else:\n asub_ = memoryview(_tmparr_asub)\n \n else:\n if asub_.format != \"i\":\n asub_ = memoryview(array.array(\"i\",asub))\n \n if aval is None: raise TypeError(\"Invalid type for argument aval\")\n if aval is None:\n aval_ = None\n else:\n try:\n aval_ = memoryview(aval)\n except TypeError:\n try:\n _tmparr_aval = array.array(\"d\",aval)\n except TypeError:\n raise TypeError(\"Argument aval has wrong type\")\n else:\n aval_ = memoryview(_tmparr_aval)\n \n else:\n if aval_.format != \"d\":\n aval_ = memoryview(array.array(\"d\",aval))\n \n res = self.__obj.putarowslice64(first_,last_,ptrb_,ptre_,asub_,aval_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putacolslice(self,first_,last_,ptrb,ptre,asub,aval): # 3\n if ptrb is None: raise TypeError(\"Invalid type for argument ptrb\")\n if ptrb is None:\n ptrb_ = None\n else:\n try:\n ptrb_ = memoryview(ptrb)\n except TypeError:\n try:\n _tmparr_ptrb = array.array(\"q\",ptrb)\n except TypeError:\n raise TypeError(\"Argument ptrb has wrong type\")\n else:\n ptrb_ = memoryview(_tmparr_ptrb)\n \n else:\n if ptrb_.format != \"q\":\n ptrb_ = memoryview(array.array(\"q\",ptrb))\n \n if ptre is None: raise TypeError(\"Invalid type for argument ptre\")\n if ptre is None:\n ptre_ = None\n else:\n try:\n ptre_ = memoryview(ptre)\n except TypeError:\n try:\n _tmparr_ptre = array.array(\"q\",ptre)\n except TypeError:\n raise TypeError(\"Argument ptre has wrong type\")\n else:\n ptre_ = memoryview(_tmparr_ptre)\n \n else:\n if ptre_.format != \"q\":\n ptre_ = memoryview(array.array(\"q\",ptre))\n \n if asub is None: raise TypeError(\"Invalid type for argument asub\")\n if asub is None:\n asub_ = None\n else:\n try:\n asub_ = memoryview(asub)\n except TypeError:\n try:\n _tmparr_asub = array.array(\"i\",asub)\n except TypeError:\n raise TypeError(\"Argument asub has wrong type\")\n else:\n asub_ = memoryview(_tmparr_asub)\n \n else:\n if asub_.format != \"i\":\n asub_ = memoryview(array.array(\"i\",asub))\n \n if aval is None: raise TypeError(\"Invalid type for argument aval\")\n if aval is None:\n aval_ = None\n else:\n try:\n aval_ = memoryview(aval)\n except TypeError:\n try:\n _tmparr_aval = array.array(\"d\",aval)\n except TypeError:\n raise TypeError(\"Argument aval has wrong type\")\n else:\n aval_ = memoryview(_tmparr_aval)\n \n else:\n if aval_.format != \"d\":\n aval_ = memoryview(array.array(\"d\",aval))\n \n res = self.__obj.putacolslice64(first_,last_,ptrb_,ptre_,asub_,aval_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getarowslice(self,first_,last_,ptrb_,ptre_,sub_,val_):\n maxnumnz_ = self.getarowslicenumnz((first_),(last_))\n _ptrb_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and ptrb_ is not None and len(ptrb_) != ((last_) - (first_)):\n raise ValueError(\"Array argument ptrb is not long enough: Is %d, expected %d\" % (len(ptrb_),((last_) - (first_))))\n if isinstance(ptrb_,numpy.ndarray) and not ptrb_.flags.writeable:\n raise ValueError(\"Argument ptrb must be writable\")\n if ptrb_ is None:\n raise ValueError(\"Argument ptrb may not be None\")\n if isinstance(ptrb_, numpy.ndarray) and ptrb_.dtype is numpy.dtype(numpy.int64) and ptrb_.flags.contiguous:\n _ptrb_copyarray = False\n _ptrb_tmp = ctypes.cast(ptrb_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptrb_ is not None:\n _ptrb_copyarray = True\n _ptrb_np_tmp = numpy.zeros(len(ptrb_),numpy.dtype(numpy.int64))\n _ptrb_np_tmp[:] = ptrb_\n assert _ptrb_np_tmp.flags.contiguous\n _ptrb_tmp = ctypes.cast(_ptrb_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptrb_copyarray = False\n _ptrb_tmp = None\n \n _ptre_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and ptre_ is not None and len(ptre_) != ((last_) - (first_)):\n raise ValueError(\"Array argument ptre is not long enough: Is %d, expected %d\" % (len(ptre_),((last_) - (first_))))\n if isinstance(ptre_,numpy.ndarray) and not ptre_.flags.writeable:\n raise ValueError(\"Argument ptre must be writable\")\n if ptre_ is None:\n raise ValueError(\"Argument ptre may not be None\")\n if isinstance(ptre_, numpy.ndarray) and ptre_.dtype is numpy.dtype(numpy.int64) and ptre_.flags.contiguous:\n _ptre_copyarray = False\n _ptre_tmp = ctypes.cast(ptre_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptre_ is not None:\n _ptre_copyarray = True\n _ptre_np_tmp = numpy.zeros(len(ptre_),numpy.dtype(numpy.int64))\n _ptre_np_tmp[:] = ptre_\n assert _ptre_np_tmp.flags.contiguous\n _ptre_tmp = ctypes.cast(_ptre_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptre_copyarray = False\n _ptre_tmp = None\n \n _sub_minlength = (maxnumnz_)\n if (maxnumnz_) > 0 and sub_ is not None and len(sub_) != (maxnumnz_):\n raise ValueError(\"Array argument sub is not long enough: Is %d, expected %d\" % (len(sub_),(maxnumnz_)))\n if isinstance(sub_,numpy.ndarray) and not sub_.flags.writeable:\n raise ValueError(\"Argument sub must be writable\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _val_minlength = (maxnumnz_)\n if (maxnumnz_) > 0 and val_ is not None and len(val_) != (maxnumnz_):\n raise ValueError(\"Array argument val is not long enough: Is %d, expected %d\" % (len(val_),(maxnumnz_)))\n if isinstance(val_,numpy.ndarray) and not val_.flags.writeable:\n raise ValueError(\"Argument val must be writable\")\n if val_ is None:\n raise ValueError(\"Argument val may not be None\")\n if isinstance(val_, numpy.ndarray) and val_.dtype is numpy.dtype(numpy.float64) and val_.flags.contiguous:\n _val_copyarray = False\n _val_tmp = ctypes.cast(val_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif val_ is not None:\n _val_copyarray = True\n _val_np_tmp = numpy.zeros(len(val_),numpy.dtype(numpy.float64))\n _val_np_tmp[:] = val_\n assert _val_np_tmp.flags.contiguous\n _val_tmp = ctypes.cast(_val_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _val_copyarray = False\n _val_tmp = None\n \n surp_ = ctypes.c_int64(_sub_minlength)\n res = __library__.MSK_XX_getarowslice64(self.__nativep,first_,last_,maxnumnz_,ctypes.byref(surp_),_ptrb_tmp,_ptre_tmp,_sub_tmp,_val_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _ptrb_copyarray:\n ptrb_[:] = _ptrb_np_tmp\n if _ptre_copyarray:\n ptre_[:] = _ptre_np_tmp\n if _sub_copyarray:\n sub_[:] = _sub_np_tmp\n if _val_copyarray:\n val_[:] = _val_np_tmp", "def getacolslice(self,first_,last_,ptrb_,ptre_,sub_,val_):\n maxnumnz_ = self.getacolslicenumnz((first_),(last_))\n _ptrb_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and ptrb_ is not None and len(ptrb_) != ((last_) - (first_)):\n raise ValueError(\"Array argument ptrb is not long enough: Is %d, expected %d\" % (len(ptrb_),((last_) - (first_))))\n if isinstance(ptrb_,numpy.ndarray) and not ptrb_.flags.writeable:\n raise ValueError(\"Argument ptrb must be writable\")\n if ptrb_ is None:\n raise ValueError(\"Argument ptrb may not be None\")\n if isinstance(ptrb_, numpy.ndarray) and ptrb_.dtype is numpy.dtype(numpy.int64) and ptrb_.flags.contiguous:\n _ptrb_copyarray = False\n _ptrb_tmp = ctypes.cast(ptrb_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptrb_ is not None:\n _ptrb_copyarray = True\n _ptrb_np_tmp = numpy.zeros(len(ptrb_),numpy.dtype(numpy.int64))\n _ptrb_np_tmp[:] = ptrb_\n assert _ptrb_np_tmp.flags.contiguous\n _ptrb_tmp = ctypes.cast(_ptrb_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptrb_copyarray = False\n _ptrb_tmp = None\n \n _ptre_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and ptre_ is not None and len(ptre_) != ((last_) - (first_)):\n raise ValueError(\"Array argument ptre is not long enough: Is %d, expected %d\" % (len(ptre_),((last_) - (first_))))\n if isinstance(ptre_,numpy.ndarray) and not ptre_.flags.writeable:\n raise ValueError(\"Argument ptre must be writable\")\n if ptre_ is None:\n raise ValueError(\"Argument ptre may not be None\")\n if isinstance(ptre_, numpy.ndarray) and ptre_.dtype is numpy.dtype(numpy.int64) and ptre_.flags.contiguous:\n _ptre_copyarray = False\n _ptre_tmp = ctypes.cast(ptre_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptre_ is not None:\n _ptre_copyarray = True\n _ptre_np_tmp = numpy.zeros(len(ptre_),numpy.dtype(numpy.int64))\n _ptre_np_tmp[:] = ptre_\n assert _ptre_np_tmp.flags.contiguous\n _ptre_tmp = ctypes.cast(_ptre_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptre_copyarray = False\n _ptre_tmp = None\n \n _sub_minlength = (maxnumnz_)\n if (maxnumnz_) > 0 and sub_ is not None and len(sub_) != (maxnumnz_):\n raise ValueError(\"Array argument sub is not long enough: Is %d, expected %d\" % (len(sub_),(maxnumnz_)))\n if isinstance(sub_,numpy.ndarray) and not sub_.flags.writeable:\n raise ValueError(\"Argument sub must be writable\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _val_minlength = (maxnumnz_)\n if (maxnumnz_) > 0 and val_ is not None and len(val_) != (maxnumnz_):\n raise ValueError(\"Array argument val is not long enough: Is %d, expected %d\" % (len(val_),(maxnumnz_)))\n if isinstance(val_,numpy.ndarray) and not val_.flags.writeable:\n raise ValueError(\"Argument val must be writable\")\n if val_ is None:\n raise ValueError(\"Argument val may not be None\")\n if isinstance(val_, numpy.ndarray) and val_.dtype is numpy.dtype(numpy.float64) and val_.flags.contiguous:\n _val_copyarray = False\n _val_tmp = ctypes.cast(val_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif val_ is not None:\n _val_copyarray = True\n _val_np_tmp = numpy.zeros(len(val_),numpy.dtype(numpy.float64))\n _val_np_tmp[:] = val_\n assert _val_np_tmp.flags.contiguous\n _val_tmp = ctypes.cast(_val_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _val_copyarray = False\n _val_tmp = None\n \n surp_ = ctypes.c_int64(_sub_minlength)\n res = __library__.MSK_XX_getacolslice64(self.__nativep,first_,last_,maxnumnz_,ctypes.byref(surp_),_ptrb_tmp,_ptre_tmp,_sub_tmp,_val_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _ptrb_copyarray:\n ptrb_[:] = _ptrb_np_tmp\n if _ptre_copyarray:\n ptre_[:] = _ptre_np_tmp\n if _sub_copyarray:\n sub_[:] = _sub_np_tmp\n if _val_copyarray:\n val_[:] = _val_np_tmp", "def putxxslice(self,whichsol_,first_,last_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xx is None: raise TypeError(\"Invalid type for argument xx\")\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n \n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n \n if xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.putxxslice(whichsol_,first_,last_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putxxslice(self,whichsol_,first_,last_,xx_):\n _xx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),((last_) - (first_))))\n if xx_ is None:\n raise ValueError(\"Argument xx cannot be None\")\n if xx_ is None:\n raise ValueError(\"Argument xx may not be None\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n res = __library__.MSK_XX_putxxslice(self.__nativep,whichsol_,first_,last_,_xx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarboundsliceconst(self,first_,last_,bkx_,blx_,bux_):\n res = __library__.MSK_XX_putvarboundsliceconst(self.__nativep,first_,last_,bkx_,blx_,bux_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putarowlist(self,sub_,ptrb_,ptre_,asub_,aval_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(ptrb_)\n elif num_ != len(ptrb_):\n raise IndexError(\"Inconsistent length of array ptrb\")\n if num_ is None:\n num_ = len(ptre_)\n elif num_ != len(ptre_):\n raise IndexError(\"Inconsistent length of array ptre\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n if ptrb_ is None:\n raise ValueError(\"Argument ptrb cannot be None\")\n if ptrb_ is None:\n raise ValueError(\"Argument ptrb may not be None\")\n if isinstance(ptrb_, numpy.ndarray) and ptrb_.dtype is numpy.dtype(numpy.int64) and ptrb_.flags.contiguous:\n _ptrb_copyarray = False\n _ptrb_tmp = ctypes.cast(ptrb_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptrb_ is not None:\n _ptrb_copyarray = True\n _ptrb_np_tmp = numpy.zeros(len(ptrb_),numpy.dtype(numpy.int64))\n _ptrb_np_tmp[:] = ptrb_\n assert _ptrb_np_tmp.flags.contiguous\n _ptrb_tmp = ctypes.cast(_ptrb_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptrb_copyarray = False\n _ptrb_tmp = None\n \n if ptre_ is None:\n raise ValueError(\"Argument ptre cannot be None\")\n if ptre_ is None:\n raise ValueError(\"Argument ptre may not be None\")\n if isinstance(ptre_, numpy.ndarray) and ptre_.dtype is numpy.dtype(numpy.int64) and ptre_.flags.contiguous:\n _ptre_copyarray = False\n _ptre_tmp = ctypes.cast(ptre_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptre_ is not None:\n _ptre_copyarray = True\n _ptre_np_tmp = numpy.zeros(len(ptre_),numpy.dtype(numpy.int64))\n _ptre_np_tmp[:] = ptre_\n assert _ptre_np_tmp.flags.contiguous\n _ptre_tmp = ctypes.cast(_ptre_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptre_copyarray = False\n _ptre_tmp = None\n \n if asub_ is None:\n raise ValueError(\"Argument asub cannot be None\")\n if asub_ is None:\n raise ValueError(\"Argument asub may not be None\")\n if isinstance(asub_, numpy.ndarray) and asub_.dtype is numpy.dtype(numpy.int32) and asub_.flags.contiguous:\n _asub_copyarray = False\n _asub_tmp = ctypes.cast(asub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif asub_ is not None:\n _asub_copyarray = True\n _asub_np_tmp = numpy.zeros(len(asub_),numpy.dtype(numpy.int32))\n _asub_np_tmp[:] = asub_\n assert _asub_np_tmp.flags.contiguous\n _asub_tmp = ctypes.cast(_asub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _asub_copyarray = False\n _asub_tmp = None\n \n if aval_ is None:\n raise ValueError(\"Argument aval cannot be None\")\n if aval_ is None:\n raise ValueError(\"Argument aval may not be None\")\n if isinstance(aval_, numpy.ndarray) and aval_.dtype is numpy.dtype(numpy.float64) and aval_.flags.contiguous:\n _aval_copyarray = False\n _aval_tmp = ctypes.cast(aval_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif aval_ is not None:\n _aval_copyarray = True\n _aval_np_tmp = numpy.zeros(len(aval_),numpy.dtype(numpy.float64))\n _aval_np_tmp[:] = aval_\n assert _aval_np_tmp.flags.contiguous\n _aval_tmp = ctypes.cast(_aval_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _aval_copyarray = False\n _aval_tmp = None\n \n res = __library__.MSK_XX_putarowlist64(self.__nativep,num_,_sub_tmp,_ptrb_tmp,_ptre_tmp,_asub_tmp,_aval_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getacolslicetrip(self,first_,last_,subi_,subj_,val_):\n maxnumnz_ = self.getacolslicenumnz((first_),(last_))\n _subi_minlength = (maxnumnz_)\n if (maxnumnz_) > 0 and subi_ is not None and len(subi_) != (maxnumnz_):\n raise ValueError(\"Array argument subi is not long enough: Is %d, expected %d\" % (len(subi_),(maxnumnz_)))\n if isinstance(subi_,numpy.ndarray) and not subi_.flags.writeable:\n raise ValueError(\"Argument subi must be writable\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n _subj_minlength = (maxnumnz_)\n if (maxnumnz_) > 0 and subj_ is not None and len(subj_) != (maxnumnz_):\n raise ValueError(\"Array argument subj is not long enough: Is %d, expected %d\" % (len(subj_),(maxnumnz_)))\n if isinstance(subj_,numpy.ndarray) and not subj_.flags.writeable:\n raise ValueError(\"Argument subj must be writable\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n _val_minlength = (maxnumnz_)\n if (maxnumnz_) > 0 and val_ is not None and len(val_) != (maxnumnz_):\n raise ValueError(\"Array argument val is not long enough: Is %d, expected %d\" % (len(val_),(maxnumnz_)))\n if isinstance(val_,numpy.ndarray) and not val_.flags.writeable:\n raise ValueError(\"Argument val must be writable\")\n if isinstance(val_, numpy.ndarray) and val_.dtype is numpy.dtype(numpy.float64) and val_.flags.contiguous:\n _val_copyarray = False\n _val_tmp = ctypes.cast(val_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif val_ is not None:\n _val_copyarray = True\n _val_np_tmp = numpy.zeros(len(val_),numpy.dtype(numpy.float64))\n _val_np_tmp[:] = val_\n assert _val_np_tmp.flags.contiguous\n _val_tmp = ctypes.cast(_val_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _val_copyarray = False\n _val_tmp = None\n \n surp_ = ctypes.c_int64(_subi_minlength)\n res = __library__.MSK_XX_getacolslicetrip(self.__nativep,first_,last_,maxnumnz_,ctypes.byref(surp_),_subi_tmp,_subj_tmp,_val_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _subi_copyarray:\n subi_[:] = _subi_np_tmp\n if _subj_copyarray:\n subj_[:] = _subj_np_tmp\n if _val_copyarray:\n val_[:] = _val_np_tmp", "def getarowslicetrip(self,first_,last_,subi_,subj_,val_):\n maxnumnz_ = self.getarowslicenumnz((first_),(last_))\n _subi_minlength = (maxnumnz_)\n if (maxnumnz_) > 0 and subi_ is not None and len(subi_) != (maxnumnz_):\n raise ValueError(\"Array argument subi is not long enough: Is %d, expected %d\" % (len(subi_),(maxnumnz_)))\n if isinstance(subi_,numpy.ndarray) and not subi_.flags.writeable:\n raise ValueError(\"Argument subi must be writable\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n _subj_minlength = (maxnumnz_)\n if (maxnumnz_) > 0 and subj_ is not None and len(subj_) != (maxnumnz_):\n raise ValueError(\"Array argument subj is not long enough: Is %d, expected %d\" % (len(subj_),(maxnumnz_)))\n if isinstance(subj_,numpy.ndarray) and not subj_.flags.writeable:\n raise ValueError(\"Argument subj must be writable\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n _val_minlength = (maxnumnz_)\n if (maxnumnz_) > 0 and val_ is not None and len(val_) != (maxnumnz_):\n raise ValueError(\"Array argument val is not long enough: Is %d, expected %d\" % (len(val_),(maxnumnz_)))\n if isinstance(val_,numpy.ndarray) and not val_.flags.writeable:\n raise ValueError(\"Argument val must be writable\")\n if isinstance(val_, numpy.ndarray) and val_.dtype is numpy.dtype(numpy.float64) and val_.flags.contiguous:\n _val_copyarray = False\n _val_tmp = ctypes.cast(val_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif val_ is not None:\n _val_copyarray = True\n _val_np_tmp = numpy.zeros(len(val_),numpy.dtype(numpy.float64))\n _val_np_tmp[:] = val_\n assert _val_np_tmp.flags.contiguous\n _val_tmp = ctypes.cast(_val_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _val_copyarray = False\n _val_tmp = None\n \n surp_ = ctypes.c_int64(_subi_minlength)\n res = __library__.MSK_XX_getarowslicetrip(self.__nativep,first_,last_,maxnumnz_,ctypes.byref(surp_),_subi_tmp,_subj_tmp,_val_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _subi_copyarray:\n subi_[:] = _subi_np_tmp\n if _subj_copyarray:\n subj_[:] = _subj_np_tmp\n if _val_copyarray:\n val_[:] = _val_np_tmp", "def putacollist(self,sub_,ptrb_,ptre_,asub_,aval_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(ptrb_)\n elif num_ != len(ptrb_):\n raise IndexError(\"Inconsistent length of array ptrb\")\n if num_ is None:\n num_ = len(ptre_)\n elif num_ != len(ptre_):\n raise IndexError(\"Inconsistent length of array ptre\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n if ptrb_ is None:\n raise ValueError(\"Argument ptrb cannot be None\")\n if ptrb_ is None:\n raise ValueError(\"Argument ptrb may not be None\")\n if isinstance(ptrb_, numpy.ndarray) and ptrb_.dtype is numpy.dtype(numpy.int64) and ptrb_.flags.contiguous:\n _ptrb_copyarray = False\n _ptrb_tmp = ctypes.cast(ptrb_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptrb_ is not None:\n _ptrb_copyarray = True\n _ptrb_np_tmp = numpy.zeros(len(ptrb_),numpy.dtype(numpy.int64))\n _ptrb_np_tmp[:] = ptrb_\n assert _ptrb_np_tmp.flags.contiguous\n _ptrb_tmp = ctypes.cast(_ptrb_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptrb_copyarray = False\n _ptrb_tmp = None\n \n if ptre_ is None:\n raise ValueError(\"Argument ptre cannot be None\")\n if ptre_ is None:\n raise ValueError(\"Argument ptre may not be None\")\n if isinstance(ptre_, numpy.ndarray) and ptre_.dtype is numpy.dtype(numpy.int64) and ptre_.flags.contiguous:\n _ptre_copyarray = False\n _ptre_tmp = ctypes.cast(ptre_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptre_ is not None:\n _ptre_copyarray = True\n _ptre_np_tmp = numpy.zeros(len(ptre_),numpy.dtype(numpy.int64))\n _ptre_np_tmp[:] = ptre_\n assert _ptre_np_tmp.flags.contiguous\n _ptre_tmp = ctypes.cast(_ptre_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptre_copyarray = False\n _ptre_tmp = None\n \n if asub_ is None:\n raise ValueError(\"Argument asub cannot be None\")\n if asub_ is None:\n raise ValueError(\"Argument asub may not be None\")\n if isinstance(asub_, numpy.ndarray) and asub_.dtype is numpy.dtype(numpy.int32) and asub_.flags.contiguous:\n _asub_copyarray = False\n _asub_tmp = ctypes.cast(asub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif asub_ is not None:\n _asub_copyarray = True\n _asub_np_tmp = numpy.zeros(len(asub_),numpy.dtype(numpy.int32))\n _asub_np_tmp[:] = asub_\n assert _asub_np_tmp.flags.contiguous\n _asub_tmp = ctypes.cast(_asub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _asub_copyarray = False\n _asub_tmp = None\n \n if aval_ is None:\n raise ValueError(\"Argument aval cannot be None\")\n if aval_ is None:\n raise ValueError(\"Argument aval may not be None\")\n if isinstance(aval_, numpy.ndarray) and aval_.dtype is numpy.dtype(numpy.float64) and aval_.flags.contiguous:\n _aval_copyarray = False\n _aval_tmp = ctypes.cast(aval_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif aval_ is not None:\n _aval_copyarray = True\n _aval_np_tmp = numpy.zeros(len(aval_),numpy.dtype(numpy.float64))\n _aval_np_tmp[:] = aval_\n assert _aval_np_tmp.flags.contiguous\n _aval_tmp = ctypes.cast(_aval_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _aval_copyarray = False\n _aval_tmp = None\n \n res = __library__.MSK_XX_putacollist64(self.__nativep,num_,_sub_tmp,_ptrb_tmp,_ptre_tmp,_asub_tmp,_aval_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getarowslicetrip(self,first_,last_,subi,subj,val): # 3\n maxnumnz_ = self.getaslicenumnz(accmode.con,(first_),(last_))\n _copyback_subi = False\n if subi is None:\n subi_ = None\n else:\n try:\n subi_ = memoryview(subi)\n except TypeError:\n try:\n _tmparr_subi = array.array(\"i\",subi)\n except TypeError:\n raise TypeError(\"Argument subi has wrong type\")\n else:\n subi_ = memoryview(_tmparr_subi)\n _copyback_subi = True\n else:\n if subi_.format != \"i\":\n subi_ = memoryview(array.array(\"i\",subi))\n _copyback_subi = True\n if subi_ is not None and len(subi_) != (maxnumnz_):\n raise ValueError(\"Array argument subi has wrong length\")\n _copyback_subj = False\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n _copyback_subj = True\n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n _copyback_subj = True\n if subj_ is not None and len(subj_) != (maxnumnz_):\n raise ValueError(\"Array argument subj has wrong length\")\n _copyback_val = False\n if val is None:\n val_ = None\n else:\n try:\n val_ = memoryview(val)\n except TypeError:\n try:\n _tmparr_val = array.array(\"d\",val)\n except TypeError:\n raise TypeError(\"Argument val has wrong type\")\n else:\n val_ = memoryview(_tmparr_val)\n _copyback_val = True\n else:\n if val_.format != \"d\":\n val_ = memoryview(array.array(\"d\",val))\n _copyback_val = True\n if val_ is not None and len(val_) != (maxnumnz_):\n raise ValueError(\"Array argument val has wrong length\")\n res = self.__obj.getarowslicetrip(first_,last_,maxnumnz_,len(subi),subi_,subj_,val_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_val:\n val[:] = _tmparr_val\n if _copyback_subj:\n subj[:] = _tmparr_subj\n if _copyback_subi:\n subi[:] = _tmparr_subi", "def putbararowlist(self,subi_,ptrb_,ptre_,subj_,nummat_,matidx_,weights_):\n num_ = None\n if num_ is None:\n num_ = len(subi_)\n elif num_ != len(subi_):\n raise IndexError(\"Inconsistent length of array subi\")\n if num_ is None:\n num_ = len(ptrb_)\n elif num_ != len(ptrb_):\n raise IndexError(\"Inconsistent length of array ptrb\")\n if num_ is None:\n num_ = len(ptre_)\n elif num_ != len(ptre_):\n raise IndexError(\"Inconsistent length of array ptre\")\n if subi_ is None:\n raise ValueError(\"Argument subi cannot be None\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n if ptrb_ is None:\n raise ValueError(\"Argument ptrb cannot be None\")\n if ptrb_ is None:\n raise ValueError(\"Argument ptrb may not be None\")\n if isinstance(ptrb_, numpy.ndarray) and ptrb_.dtype is numpy.dtype(numpy.int64) and ptrb_.flags.contiguous:\n _ptrb_copyarray = False\n _ptrb_tmp = ctypes.cast(ptrb_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptrb_ is not None:\n _ptrb_copyarray = True\n _ptrb_np_tmp = numpy.zeros(len(ptrb_),numpy.dtype(numpy.int64))\n _ptrb_np_tmp[:] = ptrb_\n assert _ptrb_np_tmp.flags.contiguous\n _ptrb_tmp = ctypes.cast(_ptrb_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptrb_copyarray = False\n _ptrb_tmp = None\n \n if ptre_ is None:\n raise ValueError(\"Argument ptre cannot be None\")\n if ptre_ is None:\n raise ValueError(\"Argument ptre may not be None\")\n if isinstance(ptre_, numpy.ndarray) and ptre_.dtype is numpy.dtype(numpy.int64) and ptre_.flags.contiguous:\n _ptre_copyarray = False\n _ptre_tmp = ctypes.cast(ptre_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptre_ is not None:\n _ptre_copyarray = True\n _ptre_np_tmp = numpy.zeros(len(ptre_),numpy.dtype(numpy.int64))\n _ptre_np_tmp[:] = ptre_\n assert _ptre_np_tmp.flags.contiguous\n _ptre_tmp = ctypes.cast(_ptre_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptre_copyarray = False\n _ptre_tmp = None\n \n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n _nummat_minlength = len((subj_))\n if len((subj_)) > 0 and nummat_ is not None and len(nummat_) != len((subj_)):\n raise ValueError(\"Array argument nummat is not long enough: Is %d, expected %d\" % (len(nummat_),len((subj_))))\n if nummat_ is None:\n raise ValueError(\"Argument nummat cannot be None\")\n if nummat_ is None:\n raise ValueError(\"Argument nummat may not be None\")\n if isinstance(nummat_, numpy.ndarray) and nummat_.dtype is numpy.dtype(numpy.int64) and nummat_.flags.contiguous:\n _nummat_copyarray = False\n _nummat_tmp = ctypes.cast(nummat_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif nummat_ is not None:\n _nummat_copyarray = True\n _nummat_np_tmp = numpy.zeros(len(nummat_),numpy.dtype(numpy.int64))\n _nummat_np_tmp[:] = nummat_\n assert _nummat_np_tmp.flags.contiguous\n _nummat_tmp = ctypes.cast(_nummat_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _nummat_copyarray = False\n _nummat_tmp = None\n \n _matidx_minlength = sum((nummat_))\n if sum((nummat_)) > 0 and matidx_ is not None and len(matidx_) != sum((nummat_)):\n raise ValueError(\"Array argument matidx is not long enough: Is %d, expected %d\" % (len(matidx_),sum((nummat_))))\n if matidx_ is None:\n raise ValueError(\"Argument matidx cannot be None\")\n if matidx_ is None:\n raise ValueError(\"Argument matidx may not be None\")\n if isinstance(matidx_, numpy.ndarray) and matidx_.dtype is numpy.dtype(numpy.int64) and matidx_.flags.contiguous:\n _matidx_copyarray = False\n _matidx_tmp = ctypes.cast(matidx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif matidx_ is not None:\n _matidx_copyarray = True\n _matidx_np_tmp = numpy.zeros(len(matidx_),numpy.dtype(numpy.int64))\n _matidx_np_tmp[:] = matidx_\n assert _matidx_np_tmp.flags.contiguous\n _matidx_tmp = ctypes.cast(_matidx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _matidx_copyarray = False\n _matidx_tmp = None\n \n _weights_minlength = sum((nummat_))\n if sum((nummat_)) > 0 and weights_ is not None and len(weights_) != sum((nummat_)):\n raise ValueError(\"Array argument weights is not long enough: Is %d, expected %d\" % (len(weights_),sum((nummat_))))\n if weights_ is None:\n raise ValueError(\"Argument weights cannot be None\")\n if weights_ is None:\n raise ValueError(\"Argument weights may not be None\")\n if isinstance(weights_, numpy.ndarray) and weights_.dtype is numpy.dtype(numpy.float64) and weights_.flags.contiguous:\n _weights_copyarray = False\n _weights_tmp = ctypes.cast(weights_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif weights_ is not None:\n _weights_copyarray = True\n _weights_np_tmp = numpy.zeros(len(weights_),numpy.dtype(numpy.float64))\n _weights_np_tmp[:] = weights_\n assert _weights_np_tmp.flags.contiguous\n _weights_tmp = ctypes.cast(_weights_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _weights_copyarray = False\n _weights_tmp = None\n \n res = __library__.MSK_XX_putbararowlist(self.__nativep,num_,_subi_tmp,_ptrb_tmp,_ptre_tmp,_subj_tmp,_nummat_tmp,_matidx_tmp,_weights_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getacolslicetrip(self,first_,last_,subi,subj,val): # 3\n maxnumnz_ = self.getaslicenumnz(accmode.var,(first_),(last_))\n _copyback_subi = False\n if subi is None:\n subi_ = None\n else:\n try:\n subi_ = memoryview(subi)\n except TypeError:\n try:\n _tmparr_subi = array.array(\"i\",subi)\n except TypeError:\n raise TypeError(\"Argument subi has wrong type\")\n else:\n subi_ = memoryview(_tmparr_subi)\n _copyback_subi = True\n else:\n if subi_.format != \"i\":\n subi_ = memoryview(array.array(\"i\",subi))\n _copyback_subi = True\n if subi_ is not None and len(subi_) != (maxnumnz_):\n raise ValueError(\"Array argument subi has wrong length\")\n _copyback_subj = False\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n _copyback_subj = True\n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n _copyback_subj = True\n if subj_ is not None and len(subj_) != (maxnumnz_):\n raise ValueError(\"Array argument subj has wrong length\")\n _copyback_val = False\n if val is None:\n val_ = None\n else:\n try:\n val_ = memoryview(val)\n except TypeError:\n try:\n _tmparr_val = array.array(\"d\",val)\n except TypeError:\n raise TypeError(\"Argument val has wrong type\")\n else:\n val_ = memoryview(_tmparr_val)\n _copyback_val = True\n else:\n if val_.format != \"d\":\n val_ = memoryview(array.array(\"d\",val))\n _copyback_val = True\n if val_ is not None and len(val_) != (maxnumnz_):\n raise ValueError(\"Array argument val has wrong length\")\n res = self.__obj.getacolslicetrip(first_,last_,maxnumnz_,len(subi),subi_,subj_,val_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_val:\n val[:] = _tmparr_val\n if _copyback_subj:\n subj[:] = _tmparr_subj\n if _copyback_subi:\n subi[:] = _tmparr_subi", "def putconboundsliceconst(self,first_,last_,bkc_,blc_,buc_):\n res = __library__.MSK_XX_putconboundsliceconst(self.__nativep,first_,last_,bkc_,blc_,buc_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putacollist(self,sub,ptrb,ptre,asub,aval): # 3\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(ptrb)\n elif num_ != len(ptrb):\n raise IndexError(\"Inconsistent length of array ptrb\")\n if num_ is None:\n num_ = len(ptre)\n elif num_ != len(ptre):\n raise IndexError(\"Inconsistent length of array ptre\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if ptrb is None: raise TypeError(\"Invalid type for argument ptrb\")\n if ptrb is None:\n ptrb_ = None\n else:\n try:\n ptrb_ = memoryview(ptrb)\n except TypeError:\n try:\n _tmparr_ptrb = array.array(\"q\",ptrb)\n except TypeError:\n raise TypeError(\"Argument ptrb has wrong type\")\n else:\n ptrb_ = memoryview(_tmparr_ptrb)\n \n else:\n if ptrb_.format != \"q\":\n ptrb_ = memoryview(array.array(\"q\",ptrb))\n \n if ptre is None: raise TypeError(\"Invalid type for argument ptre\")\n if ptre is None:\n ptre_ = None\n else:\n try:\n ptre_ = memoryview(ptre)\n except TypeError:\n try:\n _tmparr_ptre = array.array(\"q\",ptre)\n except TypeError:\n raise TypeError(\"Argument ptre has wrong type\")\n else:\n ptre_ = memoryview(_tmparr_ptre)\n \n else:\n if ptre_.format != \"q\":\n ptre_ = memoryview(array.array(\"q\",ptre))\n \n if asub is None: raise TypeError(\"Invalid type for argument asub\")\n if asub is None:\n asub_ = None\n else:\n try:\n asub_ = memoryview(asub)\n except TypeError:\n try:\n _tmparr_asub = array.array(\"i\",asub)\n except TypeError:\n raise TypeError(\"Argument asub has wrong type\")\n else:\n asub_ = memoryview(_tmparr_asub)\n \n else:\n if asub_.format != \"i\":\n asub_ = memoryview(array.array(\"i\",asub))\n \n if aval is None: raise TypeError(\"Invalid type for argument aval\")\n if aval is None:\n aval_ = None\n else:\n try:\n aval_ = memoryview(aval)\n except TypeError:\n try:\n _tmparr_aval = array.array(\"d\",aval)\n except TypeError:\n raise TypeError(\"Argument aval has wrong type\")\n else:\n aval_ = memoryview(_tmparr_aval)\n \n else:\n if aval_.format != \"d\":\n aval_ = memoryview(array.array(\"d\",aval))\n \n res = self.__obj.putacollist64(num_,sub_,ptrb_,ptre_,asub_,aval_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarboundslice(self,first_,last_,bk,bl,bu): # 3\n if bk is None: raise TypeError(\"Invalid type for argument bk\")\n if bk is None:\n bk_ = None\n else:\n try:\n bk_ = memoryview(bk)\n except TypeError:\n try:\n _tmparr_bk = array.array(\"i\",bk)\n except TypeError:\n raise TypeError(\"Argument bk has wrong type\")\n else:\n bk_ = memoryview(_tmparr_bk)\n \n else:\n if bk_.format != \"i\":\n bk_ = memoryview(array.array(\"i\",bk))\n \n if bk_ is not None and len(bk_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bk has wrong length\")\n if bl is None: raise TypeError(\"Invalid type for argument bl\")\n if bl is None:\n bl_ = None\n else:\n try:\n bl_ = memoryview(bl)\n except TypeError:\n try:\n _tmparr_bl = array.array(\"d\",bl)\n except TypeError:\n raise TypeError(\"Argument bl has wrong type\")\n else:\n bl_ = memoryview(_tmparr_bl)\n \n else:\n if bl_.format != \"d\":\n bl_ = memoryview(array.array(\"d\",bl))\n \n if bl_ is not None and len(bl_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bl has wrong length\")\n if bu is None: raise TypeError(\"Invalid type for argument bu\")\n if bu is None:\n bu_ = None\n else:\n try:\n bu_ = memoryview(bu)\n except TypeError:\n try:\n _tmparr_bu = array.array(\"d\",bu)\n except TypeError:\n raise TypeError(\"Argument bu has wrong type\")\n else:\n bu_ = memoryview(_tmparr_bu)\n \n else:\n if bu_.format != \"d\":\n bu_ = memoryview(array.array(\"d\",bu))\n \n if bu_ is not None and len(bu_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bu has wrong length\")\n res = self.__obj.putvarboundslice(first_,last_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putarowlist(self,sub,ptrb,ptre,asub,aval): # 3\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(ptrb)\n elif num_ != len(ptrb):\n raise IndexError(\"Inconsistent length of array ptrb\")\n if num_ is None:\n num_ = len(ptre)\n elif num_ != len(ptre):\n raise IndexError(\"Inconsistent length of array ptre\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if ptrb is None: raise TypeError(\"Invalid type for argument ptrb\")\n if ptrb is None:\n ptrb_ = None\n else:\n try:\n ptrb_ = memoryview(ptrb)\n except TypeError:\n try:\n _tmparr_ptrb = array.array(\"q\",ptrb)\n except TypeError:\n raise TypeError(\"Argument ptrb has wrong type\")\n else:\n ptrb_ = memoryview(_tmparr_ptrb)\n \n else:\n if ptrb_.format != \"q\":\n ptrb_ = memoryview(array.array(\"q\",ptrb))\n \n if ptre is None: raise TypeError(\"Invalid type for argument ptre\")\n if ptre is None:\n ptre_ = None\n else:\n try:\n ptre_ = memoryview(ptre)\n except TypeError:\n try:\n _tmparr_ptre = array.array(\"q\",ptre)\n except TypeError:\n raise TypeError(\"Argument ptre has wrong type\")\n else:\n ptre_ = memoryview(_tmparr_ptre)\n \n else:\n if ptre_.format != \"q\":\n ptre_ = memoryview(array.array(\"q\",ptre))\n \n if asub is None: raise TypeError(\"Invalid type for argument asub\")\n if asub is None:\n asub_ = None\n else:\n try:\n asub_ = memoryview(asub)\n except TypeError:\n try:\n _tmparr_asub = array.array(\"i\",asub)\n except TypeError:\n raise TypeError(\"Argument asub has wrong type\")\n else:\n asub_ = memoryview(_tmparr_asub)\n \n else:\n if asub_.format != \"i\":\n asub_ = memoryview(array.array(\"i\",asub))\n \n if aval is None: raise TypeError(\"Invalid type for argument aval\")\n if aval is None:\n aval_ = None\n else:\n try:\n aval_ = memoryview(aval)\n except TypeError:\n try:\n _tmparr_aval = array.array(\"d\",aval)\n except TypeError:\n raise TypeError(\"Argument aval has wrong type\")\n else:\n aval_ = memoryview(_tmparr_aval)\n \n else:\n if aval_.format != \"d\":\n aval_ = memoryview(array.array(\"d\",aval))\n \n res = self.__obj.putarowlist64(num_,sub_,ptrb_,ptre_,asub_,aval_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getaslice(self,accmode_,first_,last_,ptrb,ptre,sub,val): # 3\n if not isinstance(accmode_,accmode): raise TypeError(\"Argument accmode has wrong type\")\n maxnumnz_ = self.getaslicenumnz((accmode_),(first_),(last_))\n _copyback_ptrb = False\n if ptrb is None:\n ptrb_ = None\n else:\n try:\n ptrb_ = memoryview(ptrb)\n except TypeError:\n try:\n _tmparr_ptrb = array.array(\"q\",ptrb)\n except TypeError:\n raise TypeError(\"Argument ptrb has wrong type\")\n else:\n ptrb_ = memoryview(_tmparr_ptrb)\n _copyback_ptrb = True\n else:\n if ptrb_.format != \"q\":\n ptrb_ = memoryview(array.array(\"q\",ptrb))\n _copyback_ptrb = True\n if ptrb_ is not None and len(ptrb_) != ((last_) - (first_)):\n raise ValueError(\"Array argument ptrb has wrong length\")\n _copyback_ptre = False\n if ptre is None:\n ptre_ = None\n else:\n try:\n ptre_ = memoryview(ptre)\n except TypeError:\n try:\n _tmparr_ptre = array.array(\"q\",ptre)\n except TypeError:\n raise TypeError(\"Argument ptre has wrong type\")\n else:\n ptre_ = memoryview(_tmparr_ptre)\n _copyback_ptre = True\n else:\n if ptre_.format != \"q\":\n ptre_ = memoryview(array.array(\"q\",ptre))\n _copyback_ptre = True\n if ptre_ is not None and len(ptre_) != ((last_) - (first_)):\n raise ValueError(\"Array argument ptre has wrong length\")\n _copyback_sub = False\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n _copyback_sub = True\n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n _copyback_sub = True\n if sub_ is not None and len(sub_) != (maxnumnz_):\n raise ValueError(\"Array argument sub has wrong length\")\n _copyback_val = False\n if val is None:\n val_ = None\n else:\n try:\n val_ = memoryview(val)\n except TypeError:\n try:\n _tmparr_val = array.array(\"d\",val)\n except TypeError:\n raise TypeError(\"Argument val has wrong type\")\n else:\n val_ = memoryview(_tmparr_val)\n _copyback_val = True\n else:\n if val_.format != \"d\":\n val_ = memoryview(array.array(\"d\",val))\n _copyback_val = True\n if val_ is not None and len(val_) != (maxnumnz_):\n raise ValueError(\"Array argument val has wrong length\")\n res = self.__obj.getaslice64(accmode_,first_,last_,maxnumnz_,len(sub),ptrb_,ptre_,sub_,val_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_val:\n val[:] = _tmparr_val\n if _copyback_sub:\n sub[:] = _tmparr_sub\n if _copyback_ptre:\n ptre[:] = _tmparr_ptre\n if _copyback_ptrb:\n ptrb[:] = _tmparr_ptrb", "def putcslice(self,first_,last_,slice_):\n _slice_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slice_ is not None and len(slice_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slice is not long enough: Is %d, expected %d\" % (len(slice_),((last_) - (first_))))\n if slice_ is None:\n raise ValueError(\"Argument slice cannot be None\")\n if slice_ is None:\n raise ValueError(\"Argument slice may not be None\")\n if isinstance(slice_, numpy.ndarray) and slice_.dtype is numpy.dtype(numpy.float64) and slice_.flags.contiguous:\n _slice_copyarray = False\n _slice_tmp = ctypes.cast(slice_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slice_ is not None:\n _slice_copyarray = True\n _slice_np_tmp = numpy.zeros(len(slice_),numpy.dtype(numpy.float64))\n _slice_np_tmp[:] = slice_\n assert _slice_np_tmp.flags.contiguous\n _slice_tmp = ctypes.cast(_slice_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slice_copyarray = False\n _slice_tmp = None\n \n res = __library__.MSK_XX_putcslice(self.__nativep,first_,last_,_slice_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconboundslice(self,first_,last_,bk,bl,bu): # 3\n if bk is None: raise TypeError(\"Invalid type for argument bk\")\n if bk is None:\n bk_ = None\n else:\n try:\n bk_ = memoryview(bk)\n except TypeError:\n try:\n _tmparr_bk = array.array(\"i\",bk)\n except TypeError:\n raise TypeError(\"Argument bk has wrong type\")\n else:\n bk_ = memoryview(_tmparr_bk)\n \n else:\n if bk_.format != \"i\":\n bk_ = memoryview(array.array(\"i\",bk))\n \n if bk_ is not None and len(bk_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bk has wrong length\")\n if bl is None: raise TypeError(\"Invalid type for argument bl\")\n if bl is None:\n bl_ = None\n else:\n try:\n bl_ = memoryview(bl)\n except TypeError:\n try:\n _tmparr_bl = array.array(\"d\",bl)\n except TypeError:\n raise TypeError(\"Argument bl has wrong type\")\n else:\n bl_ = memoryview(_tmparr_bl)\n \n else:\n if bl_.format != \"d\":\n bl_ = memoryview(array.array(\"d\",bl))\n \n if bl_ is not None and len(bl_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bl has wrong length\")\n if bu is None: raise TypeError(\"Invalid type for argument bu\")\n if bu is None:\n bu_ = None\n else:\n try:\n bu_ = memoryview(bu)\n except TypeError:\n try:\n _tmparr_bu = array.array(\"d\",bu)\n except TypeError:\n raise TypeError(\"Argument bu has wrong type\")\n else:\n bu_ = memoryview(_tmparr_bu)\n \n else:\n if bu_.format != \"d\":\n bu_ = memoryview(array.array(\"d\",bu))\n \n if bu_ is not None and len(bu_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bu has wrong length\")\n res = self.__obj.putconboundslice(first_,last_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putboundslice(self,con_,first_,last_,bk,bl,bu): # 3\n if not isinstance(con_,accmode): raise TypeError(\"Argument con has wrong type\")\n if bk is None: raise TypeError(\"Invalid type for argument bk\")\n if bk is None:\n bk_ = None\n else:\n try:\n bk_ = memoryview(bk)\n except TypeError:\n try:\n _tmparr_bk = array.array(\"i\",bk)\n except TypeError:\n raise TypeError(\"Argument bk has wrong type\")\n else:\n bk_ = memoryview(_tmparr_bk)\n \n else:\n if bk_.format != \"i\":\n bk_ = memoryview(array.array(\"i\",bk))\n \n if bk_ is not None and len(bk_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bk has wrong length\")\n if bl is None: raise TypeError(\"Invalid type for argument bl\")\n if bl is None:\n bl_ = None\n else:\n try:\n bl_ = memoryview(bl)\n except TypeError:\n try:\n _tmparr_bl = array.array(\"d\",bl)\n except TypeError:\n raise TypeError(\"Argument bl has wrong type\")\n else:\n bl_ = memoryview(_tmparr_bl)\n \n else:\n if bl_.format != \"d\":\n bl_ = memoryview(array.array(\"d\",bl))\n \n if bl_ is not None and len(bl_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bl has wrong length\")\n if bu is None: raise TypeError(\"Invalid type for argument bu\")\n if bu is None:\n bu_ = None\n else:\n try:\n bu_ = memoryview(bu)\n except TypeError:\n try:\n _tmparr_bu = array.array(\"d\",bu)\n except TypeError:\n raise TypeError(\"Argument bu has wrong type\")\n else:\n bu_ = memoryview(_tmparr_bu)\n \n else:\n if bu_.format != \"d\":\n bu_ = memoryview(array.array(\"d\",bu))\n \n if bu_ is not None and len(bu_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bu has wrong length\")\n res = self.__obj.putboundslice(con_,first_,last_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarboundlistconst(self,sub_,bkx_,blx_,bux_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n res = __library__.MSK_XX_putvarboundlistconst(self.__nativep,num_,_sub_tmp,bkx_,blx_,bux_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putcslice(self,first_,last_,slice): # 3\n if slice is None: raise TypeError(\"Invalid type for argument slice\")\n if slice is None:\n slice_ = None\n else:\n try:\n slice_ = memoryview(slice)\n except TypeError:\n try:\n _tmparr_slice = array.array(\"d\",slice)\n except TypeError:\n raise TypeError(\"Argument slice has wrong type\")\n else:\n slice_ = memoryview(_tmparr_slice)\n \n else:\n if slice_.format != \"d\":\n slice_ = memoryview(array.array(\"d\",slice))\n \n if slice_ is not None and len(slice_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slice has wrong length\")\n res = self.__obj.putcslice(first_,last_,slice_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslcslice(self,whichsol_,first_,last_,slc_):\n _slc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),((last_) - (first_))))\n if slc_ is None:\n raise ValueError(\"Argument slc cannot be None\")\n if slc_ is None:\n raise ValueError(\"Argument slc may not be None\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_putslcslice(self.__nativep,whichsol_,first_,last_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def assign_in_place_subblock(A, a, i, j):\n bi = 2*i\n bj = 2*j\n A[bi, bj] = a[0, 0]\n A[bi, bj+1] = a[0, 1]\n A[bi+1, bj] = a[1, 0]\n A[bi+1, bj+1] = a[1, 1]", "def putvarboundslice(self,first_,last_,bkx_,blx_,bux_):\n _bkx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and bkx_ is not None and len(bkx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bkx is not long enough: Is %d, expected %d\" % (len(bkx_),((last_) - (first_))))\n if bkx_ is None:\n raise ValueError(\"Argument bkx cannot be None\")\n if bkx_ is None:\n raise ValueError(\"Argument bkx may not be None\")\n if bkx_ is not None:\n _bkx_tmp = (ctypes.c_int32 * len(bkx_))(*bkx_)\n else:\n _bkx_tmp = None\n _blx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and blx_ is not None and len(blx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument blx is not long enough: Is %d, expected %d\" % (len(blx_),((last_) - (first_))))\n if blx_ is None:\n raise ValueError(\"Argument blx cannot be None\")\n if blx_ is None:\n raise ValueError(\"Argument blx may not be None\")\n if isinstance(blx_, numpy.ndarray) and blx_.dtype is numpy.dtype(numpy.float64) and blx_.flags.contiguous:\n _blx_copyarray = False\n _blx_tmp = ctypes.cast(blx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif blx_ is not None:\n _blx_copyarray = True\n _blx_np_tmp = numpy.zeros(len(blx_),numpy.dtype(numpy.float64))\n _blx_np_tmp[:] = blx_\n assert _blx_np_tmp.flags.contiguous\n _blx_tmp = ctypes.cast(_blx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _blx_copyarray = False\n _blx_tmp = None\n \n _bux_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and bux_ is not None and len(bux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bux is not long enough: Is %d, expected %d\" % (len(bux_),((last_) - (first_))))\n if bux_ is None:\n raise ValueError(\"Argument bux cannot be None\")\n if bux_ is None:\n raise ValueError(\"Argument bux may not be None\")\n if isinstance(bux_, numpy.ndarray) and bux_.dtype is numpy.dtype(numpy.float64) and bux_.flags.contiguous:\n _bux_copyarray = False\n _bux_tmp = ctypes.cast(bux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif bux_ is not None:\n _bux_copyarray = True\n _bux_np_tmp = numpy.zeros(len(bux_),numpy.dtype(numpy.float64))\n _bux_np_tmp[:] = bux_\n assert _bux_np_tmp.flags.contiguous\n _bux_tmp = ctypes.cast(_bux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _bux_copyarray = False\n _bux_tmp = None\n \n res = __library__.MSK_XX_putvarboundslice(self.__nativep,first_,last_,_bkx_tmp,_blx_tmp,_bux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def _fix_slice(self, inputs, new_attr):\n begin = new_attr.get('begin')\n end = new_attr.get('end')\n axes = new_attr.get('axis', tuple(range(len(begin))))\n slice_op = mx.sym.slice_axis(inputs[0], axis=axes[0], begin=begin[0], end=end[0])\n if len(axes) > 1:\n for i, axis in enumerate(axes):\n slice_op = mx.sym.slice_axis(slice_op, axis=axis, begin=begin[i], end=end[i])\n return slice_op", "def test00(self):\n a = np.arange(1, 111)\n b = bcolz.carray(a, chunklen=10)\n sl = [3, 1]\n b[sl] = (10, 20)\n a[sl] = (10, 20)\n # print \"b[%s] -> %r\" % (sl, b)\n assert_array_equal(b[:], a, \"fancy indexing does not work correctly\")" ]

[ "0.7404314", "0.7322725", "0.7104161", "0.6849304", "0.6482448", "0.61469907", "0.61213756", "0.6089529", "0.5984134", "0.59686124", "0.59560657", "0.59348285", "0.591947", "0.5878643", "0.58049715", "0.5793094", "0.574386", "0.55775774", "0.5560746", "0.54988486", "0.5478345", "0.5348343", "0.5345428", "0.53161067", "0.52886635", "0.52606946", "0.5255645", "0.51667327", "0.5156674", "0.5121031" ]

[ "def putacollist(self,sub_,ptrb_,ptre_,asub_,aval_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(ptrb_)\n elif num_ != len(ptrb_):\n raise IndexError(\"Inconsistent length of array ptrb\")\n if num_ is None:\n num_ = len(ptre_)\n elif num_ != len(ptre_):\n raise IndexError(\"Inconsistent length of array ptre\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n if ptrb_ is None:\n raise ValueError(\"Argument ptrb cannot be None\")\n if ptrb_ is None:\n raise ValueError(\"Argument ptrb may not be None\")\n if isinstance(ptrb_, numpy.ndarray) and ptrb_.dtype is numpy.dtype(numpy.int64) and ptrb_.flags.contiguous:\n _ptrb_copyarray = False\n _ptrb_tmp = ctypes.cast(ptrb_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptrb_ is not None:\n _ptrb_copyarray = True\n _ptrb_np_tmp = numpy.zeros(len(ptrb_),numpy.dtype(numpy.int64))\n _ptrb_np_tmp[:] = ptrb_\n assert _ptrb_np_tmp.flags.contiguous\n _ptrb_tmp = ctypes.cast(_ptrb_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptrb_copyarray = False\n _ptrb_tmp = None\n \n if ptre_ is None:\n raise ValueError(\"Argument ptre cannot be None\")\n if ptre_ is None:\n raise ValueError(\"Argument ptre may not be None\")\n if isinstance(ptre_, numpy.ndarray) and ptre_.dtype is numpy.dtype(numpy.int64) and ptre_.flags.contiguous:\n _ptre_copyarray = False\n _ptre_tmp = ctypes.cast(ptre_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptre_ is not None:\n _ptre_copyarray = True\n _ptre_np_tmp = numpy.zeros(len(ptre_),numpy.dtype(numpy.int64))\n _ptre_np_tmp[:] = ptre_\n assert _ptre_np_tmp.flags.contiguous\n _ptre_tmp = ctypes.cast(_ptre_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptre_copyarray = False\n _ptre_tmp = None\n \n if asub_ is None:\n raise ValueError(\"Argument asub cannot be None\")\n if asub_ is None:\n raise ValueError(\"Argument asub may not be None\")\n if isinstance(asub_, numpy.ndarray) and asub_.dtype is numpy.dtype(numpy.int32) and asub_.flags.contiguous:\n _asub_copyarray = False\n _asub_tmp = ctypes.cast(asub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif asub_ is not None:\n _asub_copyarray = True\n _asub_np_tmp = numpy.zeros(len(asub_),numpy.dtype(numpy.int32))\n _asub_np_tmp[:] = asub_\n assert _asub_np_tmp.flags.contiguous\n _asub_tmp = ctypes.cast(_asub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _asub_copyarray = False\n _asub_tmp = None\n \n if aval_ is None:\n raise ValueError(\"Argument aval cannot be None\")\n if aval_ is None:\n raise ValueError(\"Argument aval may not be None\")\n if isinstance(aval_, numpy.ndarray) and aval_.dtype is numpy.dtype(numpy.float64) and aval_.flags.contiguous:\n _aval_copyarray = False\n _aval_tmp = ctypes.cast(aval_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif aval_ is not None:\n _aval_copyarray = True\n _aval_np_tmp = numpy.zeros(len(aval_),numpy.dtype(numpy.float64))\n _aval_np_tmp[:] = aval_\n assert _aval_np_tmp.flags.contiguous\n _aval_tmp = ctypes.cast(_aval_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _aval_copyarray = False\n _aval_tmp = None\n \n res = __library__.MSK_XX_putacollist64(self.__nativep,num_,_sub_tmp,_ptrb_tmp,_ptre_tmp,_asub_tmp,_aval_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putarowlist(self,sub,ptrb,ptre,asub,aval): # 3\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(ptrb)\n elif num_ != len(ptrb):\n raise IndexError(\"Inconsistent length of array ptrb\")\n if num_ is None:\n num_ = len(ptre)\n elif num_ != len(ptre):\n raise IndexError(\"Inconsistent length of array ptre\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if ptrb is None: raise TypeError(\"Invalid type for argument ptrb\")\n if ptrb is None:\n ptrb_ = None\n else:\n try:\n ptrb_ = memoryview(ptrb)\n except TypeError:\n try:\n _tmparr_ptrb = array.array(\"q\",ptrb)\n except TypeError:\n raise TypeError(\"Argument ptrb has wrong type\")\n else:\n ptrb_ = memoryview(_tmparr_ptrb)\n \n else:\n if ptrb_.format != \"q\":\n ptrb_ = memoryview(array.array(\"q\",ptrb))\n \n if ptre is None: raise TypeError(\"Invalid type for argument ptre\")\n if ptre is None:\n ptre_ = None\n else:\n try:\n ptre_ = memoryview(ptre)\n except TypeError:\n try:\n _tmparr_ptre = array.array(\"q\",ptre)\n except TypeError:\n raise TypeError(\"Argument ptre has wrong type\")\n else:\n ptre_ = memoryview(_tmparr_ptre)\n \n else:\n if ptre_.format != \"q\":\n ptre_ = memoryview(array.array(\"q\",ptre))\n \n if asub is None: raise TypeError(\"Invalid type for argument asub\")\n if asub is None:\n asub_ = None\n else:\n try:\n asub_ = memoryview(asub)\n except TypeError:\n try:\n _tmparr_asub = array.array(\"i\",asub)\n except TypeError:\n raise TypeError(\"Argument asub has wrong type\")\n else:\n asub_ = memoryview(_tmparr_asub)\n \n else:\n if asub_.format != \"i\":\n asub_ = memoryview(array.array(\"i\",asub))\n \n if aval is None: raise TypeError(\"Invalid type for argument aval\")\n if aval is None:\n aval_ = None\n else:\n try:\n aval_ = memoryview(aval)\n except TypeError:\n try:\n _tmparr_aval = array.array(\"d\",aval)\n except TypeError:\n raise TypeError(\"Argument aval has wrong type\")\n else:\n aval_ = memoryview(_tmparr_aval)\n \n else:\n if aval_.format != \"d\":\n aval_ = memoryview(array.array(\"d\",aval))\n \n res = self.__obj.putarowlist64(num_,sub_,ptrb_,ptre_,asub_,aval_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbararowlist(self,subi_,ptrb_,ptre_,subj_,nummat_,matidx_,weights_):\n num_ = None\n if num_ is None:\n num_ = len(subi_)\n elif num_ != len(subi_):\n raise IndexError(\"Inconsistent length of array subi\")\n if num_ is None:\n num_ = len(ptrb_)\n elif num_ != len(ptrb_):\n raise IndexError(\"Inconsistent length of array ptrb\")\n if num_ is None:\n num_ = len(ptre_)\n elif num_ != len(ptre_):\n raise IndexError(\"Inconsistent length of array ptre\")\n if subi_ is None:\n raise ValueError(\"Argument subi cannot be None\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n if ptrb_ is None:\n raise ValueError(\"Argument ptrb cannot be None\")\n if ptrb_ is None:\n raise ValueError(\"Argument ptrb may not be None\")\n if isinstance(ptrb_, numpy.ndarray) and ptrb_.dtype is numpy.dtype(numpy.int64) and ptrb_.flags.contiguous:\n _ptrb_copyarray = False\n _ptrb_tmp = ctypes.cast(ptrb_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptrb_ is not None:\n _ptrb_copyarray = True\n _ptrb_np_tmp = numpy.zeros(len(ptrb_),numpy.dtype(numpy.int64))\n _ptrb_np_tmp[:] = ptrb_\n assert _ptrb_np_tmp.flags.contiguous\n _ptrb_tmp = ctypes.cast(_ptrb_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptrb_copyarray = False\n _ptrb_tmp = None\n \n if ptre_ is None:\n raise ValueError(\"Argument ptre cannot be None\")\n if ptre_ is None:\n raise ValueError(\"Argument ptre may not be None\")\n if isinstance(ptre_, numpy.ndarray) and ptre_.dtype is numpy.dtype(numpy.int64) and ptre_.flags.contiguous:\n _ptre_copyarray = False\n _ptre_tmp = ctypes.cast(ptre_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptre_ is not None:\n _ptre_copyarray = True\n _ptre_np_tmp = numpy.zeros(len(ptre_),numpy.dtype(numpy.int64))\n _ptre_np_tmp[:] = ptre_\n assert _ptre_np_tmp.flags.contiguous\n _ptre_tmp = ctypes.cast(_ptre_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptre_copyarray = False\n _ptre_tmp = None\n \n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n _nummat_minlength = len((subj_))\n if len((subj_)) > 0 and nummat_ is not None and len(nummat_) != len((subj_)):\n raise ValueError(\"Array argument nummat is not long enough: Is %d, expected %d\" % (len(nummat_),len((subj_))))\n if nummat_ is None:\n raise ValueError(\"Argument nummat cannot be None\")\n if nummat_ is None:\n raise ValueError(\"Argument nummat may not be None\")\n if isinstance(nummat_, numpy.ndarray) and nummat_.dtype is numpy.dtype(numpy.int64) and nummat_.flags.contiguous:\n _nummat_copyarray = False\n _nummat_tmp = ctypes.cast(nummat_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif nummat_ is not None:\n _nummat_copyarray = True\n _nummat_np_tmp = numpy.zeros(len(nummat_),numpy.dtype(numpy.int64))\n _nummat_np_tmp[:] = nummat_\n assert _nummat_np_tmp.flags.contiguous\n _nummat_tmp = ctypes.cast(_nummat_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _nummat_copyarray = False\n _nummat_tmp = None\n \n _matidx_minlength = sum((nummat_))\n if sum((nummat_)) > 0 and matidx_ is not None and len(matidx_) != sum((nummat_)):\n raise ValueError(\"Array argument matidx is not long enough: Is %d, expected %d\" % (len(matidx_),sum((nummat_))))\n if matidx_ is None:\n raise ValueError(\"Argument matidx cannot be None\")\n if matidx_ is None:\n raise ValueError(\"Argument matidx may not be None\")\n if isinstance(matidx_, numpy.ndarray) and matidx_.dtype is numpy.dtype(numpy.int64) and matidx_.flags.contiguous:\n _matidx_copyarray = False\n _matidx_tmp = ctypes.cast(matidx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif matidx_ is not None:\n _matidx_copyarray = True\n _matidx_np_tmp = numpy.zeros(len(matidx_),numpy.dtype(numpy.int64))\n _matidx_np_tmp[:] = matidx_\n assert _matidx_np_tmp.flags.contiguous\n _matidx_tmp = ctypes.cast(_matidx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _matidx_copyarray = False\n _matidx_tmp = None\n \n _weights_minlength = sum((nummat_))\n if sum((nummat_)) > 0 and weights_ is not None and len(weights_) != sum((nummat_)):\n raise ValueError(\"Array argument weights is not long enough: Is %d, expected %d\" % (len(weights_),sum((nummat_))))\n if weights_ is None:\n raise ValueError(\"Argument weights cannot be None\")\n if weights_ is None:\n raise ValueError(\"Argument weights may not be None\")\n if isinstance(weights_, numpy.ndarray) and weights_.dtype is numpy.dtype(numpy.float64) and weights_.flags.contiguous:\n _weights_copyarray = False\n _weights_tmp = ctypes.cast(weights_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif weights_ is not None:\n _weights_copyarray = True\n _weights_np_tmp = numpy.zeros(len(weights_),numpy.dtype(numpy.float64))\n _weights_np_tmp[:] = weights_\n assert _weights_np_tmp.flags.contiguous\n _weights_tmp = ctypes.cast(_weights_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _weights_copyarray = False\n _weights_tmp = None\n \n res = __library__.MSK_XX_putbararowlist(self.__nativep,num_,_subi_tmp,_ptrb_tmp,_ptre_tmp,_subj_tmp,_nummat_tmp,_matidx_tmp,_weights_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putacollist(self,sub,ptrb,ptre,asub,aval): # 3\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(ptrb)\n elif num_ != len(ptrb):\n raise IndexError(\"Inconsistent length of array ptrb\")\n if num_ is None:\n num_ = len(ptre)\n elif num_ != len(ptre):\n raise IndexError(\"Inconsistent length of array ptre\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if ptrb is None: raise TypeError(\"Invalid type for argument ptrb\")\n if ptrb is None:\n ptrb_ = None\n else:\n try:\n ptrb_ = memoryview(ptrb)\n except TypeError:\n try:\n _tmparr_ptrb = array.array(\"q\",ptrb)\n except TypeError:\n raise TypeError(\"Argument ptrb has wrong type\")\n else:\n ptrb_ = memoryview(_tmparr_ptrb)\n \n else:\n if ptrb_.format != \"q\":\n ptrb_ = memoryview(array.array(\"q\",ptrb))\n \n if ptre is None: raise TypeError(\"Invalid type for argument ptre\")\n if ptre is None:\n ptre_ = None\n else:\n try:\n ptre_ = memoryview(ptre)\n except TypeError:\n try:\n _tmparr_ptre = array.array(\"q\",ptre)\n except TypeError:\n raise TypeError(\"Argument ptre has wrong type\")\n else:\n ptre_ = memoryview(_tmparr_ptre)\n \n else:\n if ptre_.format != \"q\":\n ptre_ = memoryview(array.array(\"q\",ptre))\n \n if asub is None: raise TypeError(\"Invalid type for argument asub\")\n if asub is None:\n asub_ = None\n else:\n try:\n asub_ = memoryview(asub)\n except TypeError:\n try:\n _tmparr_asub = array.array(\"i\",asub)\n except TypeError:\n raise TypeError(\"Argument asub has wrong type\")\n else:\n asub_ = memoryview(_tmparr_asub)\n \n else:\n if asub_.format != \"i\":\n asub_ = memoryview(array.array(\"i\",asub))\n \n if aval is None: raise TypeError(\"Invalid type for argument aval\")\n if aval is None:\n aval_ = None\n else:\n try:\n aval_ = memoryview(aval)\n except TypeError:\n try:\n _tmparr_aval = array.array(\"d\",aval)\n except TypeError:\n raise TypeError(\"Argument aval has wrong type\")\n else:\n aval_ = memoryview(_tmparr_aval)\n \n else:\n if aval_.format != \"d\":\n aval_ = memoryview(array.array(\"d\",aval))\n \n res = self.__obj.putacollist64(num_,sub_,ptrb_,ptre_,asub_,aval_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarboundlistconst(self,sub_,bkx_,blx_,bux_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n res = __library__.MSK_XX_putvarboundlistconst(self.__nativep,num_,_sub_tmp,bkx_,blx_,bux_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbaraijlist(self,subi_,subj_,alphaptrb_,alphaptre_,matidx_,weights_):\n num_ = None\n if num_ is None:\n num_ = len(subi_)\n elif num_ != len(subi_):\n raise IndexError(\"Inconsistent length of array subi\")\n if num_ is None:\n num_ = len(subj_)\n elif num_ != len(subj_):\n raise IndexError(\"Inconsistent length of array subj\")\n if num_ is None:\n num_ = len(alphaptrb_)\n elif num_ != len(alphaptrb_):\n raise IndexError(\"Inconsistent length of array alphaptrb\")\n if num_ is None:\n num_ = len(alphaptre_)\n elif num_ != len(alphaptre_):\n raise IndexError(\"Inconsistent length of array alphaptre\")\n if subi_ is None:\n raise ValueError(\"Argument subi cannot be None\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n if alphaptrb_ is None:\n raise ValueError(\"Argument alphaptrb cannot be None\")\n if alphaptrb_ is None:\n raise ValueError(\"Argument alphaptrb may not be None\")\n if isinstance(alphaptrb_, numpy.ndarray) and alphaptrb_.dtype is numpy.dtype(numpy.int64) and alphaptrb_.flags.contiguous:\n _alphaptrb_copyarray = False\n _alphaptrb_tmp = ctypes.cast(alphaptrb_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif alphaptrb_ is not None:\n _alphaptrb_copyarray = True\n _alphaptrb_np_tmp = numpy.zeros(len(alphaptrb_),numpy.dtype(numpy.int64))\n _alphaptrb_np_tmp[:] = alphaptrb_\n assert _alphaptrb_np_tmp.flags.contiguous\n _alphaptrb_tmp = ctypes.cast(_alphaptrb_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _alphaptrb_copyarray = False\n _alphaptrb_tmp = None\n \n if alphaptre_ is None:\n raise ValueError(\"Argument alphaptre cannot be None\")\n if alphaptre_ is None:\n raise ValueError(\"Argument alphaptre may not be None\")\n if isinstance(alphaptre_, numpy.ndarray) and alphaptre_.dtype is numpy.dtype(numpy.int64) and alphaptre_.flags.contiguous:\n _alphaptre_copyarray = False\n _alphaptre_tmp = ctypes.cast(alphaptre_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif alphaptre_ is not None:\n _alphaptre_copyarray = True\n _alphaptre_np_tmp = numpy.zeros(len(alphaptre_),numpy.dtype(numpy.int64))\n _alphaptre_np_tmp[:] = alphaptre_\n assert _alphaptre_np_tmp.flags.contiguous\n _alphaptre_tmp = ctypes.cast(_alphaptre_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _alphaptre_copyarray = False\n _alphaptre_tmp = None\n \n if matidx_ is None:\n raise ValueError(\"Argument matidx cannot be None\")\n if matidx_ is None:\n raise ValueError(\"Argument matidx may not be None\")\n if isinstance(matidx_, numpy.ndarray) and matidx_.dtype is numpy.dtype(numpy.int64) and matidx_.flags.contiguous:\n _matidx_copyarray = False\n _matidx_tmp = ctypes.cast(matidx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif matidx_ is not None:\n _matidx_copyarray = True\n _matidx_np_tmp = numpy.zeros(len(matidx_),numpy.dtype(numpy.int64))\n _matidx_np_tmp[:] = matidx_\n assert _matidx_np_tmp.flags.contiguous\n _matidx_tmp = ctypes.cast(_matidx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _matidx_copyarray = False\n _matidx_tmp = None\n \n if weights_ is None:\n raise ValueError(\"Argument weights cannot be None\")\n if weights_ is None:\n raise ValueError(\"Argument weights may not be None\")\n if isinstance(weights_, numpy.ndarray) and weights_.dtype is numpy.dtype(numpy.float64) and weights_.flags.contiguous:\n _weights_copyarray = False\n _weights_tmp = ctypes.cast(weights_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif weights_ is not None:\n _weights_copyarray = True\n _weights_np_tmp = numpy.zeros(len(weights_),numpy.dtype(numpy.float64))\n _weights_np_tmp[:] = weights_\n assert _weights_np_tmp.flags.contiguous\n _weights_tmp = ctypes.cast(_weights_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _weights_copyarray = False\n _weights_tmp = None\n \n res = __library__.MSK_XX_putbaraijlist(self.__nativep,num_,_subi_tmp,_subj_tmp,_alphaptrb_tmp,_alphaptre_tmp,_matidx_tmp,_weights_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarboundlist(self,sub_,bkx_,blx_,bux_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(bkx_)\n elif num_ != len(bkx_):\n raise IndexError(\"Inconsistent length of array bkx\")\n if num_ is None:\n num_ = len(blx_)\n elif num_ != len(blx_):\n raise IndexError(\"Inconsistent length of array blx\")\n if num_ is None:\n num_ = len(bux_)\n elif num_ != len(bux_):\n raise IndexError(\"Inconsistent length of array bux\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n if bkx_ is None:\n raise ValueError(\"Argument bkx cannot be None\")\n if bkx_ is None:\n raise ValueError(\"Argument bkx may not be None\")\n if bkx_ is not None:\n _bkx_tmp = (ctypes.c_int32 * len(bkx_))(*bkx_)\n else:\n _bkx_tmp = None\n if blx_ is None:\n raise ValueError(\"Argument blx cannot be None\")\n if blx_ is None:\n raise ValueError(\"Argument blx may not be None\")\n if isinstance(blx_, numpy.ndarray) and blx_.dtype is numpy.dtype(numpy.float64) and blx_.flags.contiguous:\n _blx_copyarray = False\n _blx_tmp = ctypes.cast(blx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif blx_ is not None:\n _blx_copyarray = True\n _blx_np_tmp = numpy.zeros(len(blx_),numpy.dtype(numpy.float64))\n _blx_np_tmp[:] = blx_\n assert _blx_np_tmp.flags.contiguous\n _blx_tmp = ctypes.cast(_blx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _blx_copyarray = False\n _blx_tmp = None\n \n if bux_ is None:\n raise ValueError(\"Argument bux cannot be None\")\n if bux_ is None:\n raise ValueError(\"Argument bux may not be None\")\n if isinstance(bux_, numpy.ndarray) and bux_.dtype is numpy.dtype(numpy.float64) and bux_.flags.contiguous:\n _bux_copyarray = False\n _bux_tmp = ctypes.cast(bux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif bux_ is not None:\n _bux_copyarray = True\n _bux_np_tmp = numpy.zeros(len(bux_),numpy.dtype(numpy.float64))\n _bux_np_tmp[:] = bux_\n assert _bux_np_tmp.flags.contiguous\n _bux_tmp = ctypes.cast(_bux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _bux_copyarray = False\n _bux_tmp = None\n \n res = __library__.MSK_XX_putvarboundlist(self.__nativep,num_,_sub_tmp,_bkx_tmp,_blx_tmp,_bux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconboundlistconst(self,sub_,bkc_,blc_,buc_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n res = __library__.MSK_XX_putconboundlistconst(self.__nativep,num_,_sub_tmp,bkc_,blc_,buc_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putboundlist(self,accmode_,sub,bk,bl,bu): # 3\n if not isinstance(accmode_,accmode): raise TypeError(\"Argument accmode has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(bk)\n elif num_ != len(bk):\n raise IndexError(\"Inconsistent length of array bk\")\n if num_ is None:\n num_ = len(bl)\n elif num_ != len(bl):\n raise IndexError(\"Inconsistent length of array bl\")\n if num_ is None:\n num_ = len(bu)\n elif num_ != len(bu):\n raise IndexError(\"Inconsistent length of array bu\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if bk is None: raise TypeError(\"Invalid type for argument bk\")\n if bk is None:\n bk_ = None\n else:\n try:\n bk_ = memoryview(bk)\n except TypeError:\n try:\n _tmparr_bk = array.array(\"i\",bk)\n except TypeError:\n raise TypeError(\"Argument bk has wrong type\")\n else:\n bk_ = memoryview(_tmparr_bk)\n \n else:\n if bk_.format != \"i\":\n bk_ = memoryview(array.array(\"i\",bk))\n \n if bl is None: raise TypeError(\"Invalid type for argument bl\")\n if bl is None:\n bl_ = None\n else:\n try:\n bl_ = memoryview(bl)\n except TypeError:\n try:\n _tmparr_bl = array.array(\"d\",bl)\n except TypeError:\n raise TypeError(\"Argument bl has wrong type\")\n else:\n bl_ = memoryview(_tmparr_bl)\n \n else:\n if bl_.format != \"d\":\n bl_ = memoryview(array.array(\"d\",bl))\n \n if bu is None: raise TypeError(\"Invalid type for argument bu\")\n if bu is None:\n bu_ = None\n else:\n try:\n bu_ = memoryview(bu)\n except TypeError:\n try:\n _tmparr_bu = array.array(\"d\",bu)\n except TypeError:\n raise TypeError(\"Argument bu has wrong type\")\n else:\n bu_ = memoryview(_tmparr_bu)\n \n else:\n if bu_.format != \"d\":\n bu_ = memoryview(array.array(\"d\",bu))\n \n res = self.__obj.putboundlist(accmode_,num_,sub_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconboundlist(self,sub_,bkc_,blc_,buc_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(bkc_)\n elif num_ != len(bkc_):\n raise IndexError(\"Inconsistent length of array bkc\")\n if num_ is None:\n num_ = len(blc_)\n elif num_ != len(blc_):\n raise IndexError(\"Inconsistent length of array blc\")\n if num_ is None:\n num_ = len(buc_)\n elif num_ != len(buc_):\n raise IndexError(\"Inconsistent length of array buc\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n if bkc_ is None:\n raise ValueError(\"Argument bkc cannot be None\")\n if bkc_ is None:\n raise ValueError(\"Argument bkc may not be None\")\n if bkc_ is not None:\n _bkc_tmp = (ctypes.c_int32 * len(bkc_))(*bkc_)\n else:\n _bkc_tmp = None\n if blc_ is None:\n raise ValueError(\"Argument blc cannot be None\")\n if blc_ is None:\n raise ValueError(\"Argument blc may not be None\")\n if isinstance(blc_, numpy.ndarray) and blc_.dtype is numpy.dtype(numpy.float64) and blc_.flags.contiguous:\n _blc_copyarray = False\n _blc_tmp = ctypes.cast(blc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif blc_ is not None:\n _blc_copyarray = True\n _blc_np_tmp = numpy.zeros(len(blc_),numpy.dtype(numpy.float64))\n _blc_np_tmp[:] = blc_\n assert _blc_np_tmp.flags.contiguous\n _blc_tmp = ctypes.cast(_blc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _blc_copyarray = False\n _blc_tmp = None\n \n if buc_ is None:\n raise ValueError(\"Argument buc cannot be None\")\n if buc_ is None:\n raise ValueError(\"Argument buc may not be None\")\n if isinstance(buc_, numpy.ndarray) and buc_.dtype is numpy.dtype(numpy.float64) and buc_.flags.contiguous:\n _buc_copyarray = False\n _buc_tmp = ctypes.cast(buc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif buc_ is not None:\n _buc_copyarray = True\n _buc_np_tmp = numpy.zeros(len(buc_),numpy.dtype(numpy.float64))\n _buc_np_tmp[:] = buc_\n assert _buc_np_tmp.flags.contiguous\n _buc_tmp = ctypes.cast(_buc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _buc_copyarray = False\n _buc_tmp = None\n \n res = __library__.MSK_XX_putconboundlist(self.__nativep,num_,_sub_tmp,_bkc_tmp,_blc_tmp,_buc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconboundlist(self,sub,bk,bl,bu): # 3\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(bk)\n elif num_ != len(bk):\n raise IndexError(\"Inconsistent length of array bk\")\n if num_ is None:\n num_ = len(bl)\n elif num_ != len(bl):\n raise IndexError(\"Inconsistent length of array bl\")\n if num_ is None:\n num_ = len(bu)\n elif num_ != len(bu):\n raise IndexError(\"Inconsistent length of array bu\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if bk is None: raise TypeError(\"Invalid type for argument bk\")\n if bk is None:\n bk_ = None\n else:\n try:\n bk_ = memoryview(bk)\n except TypeError:\n try:\n _tmparr_bk = array.array(\"i\",bk)\n except TypeError:\n raise TypeError(\"Argument bk has wrong type\")\n else:\n bk_ = memoryview(_tmparr_bk)\n \n else:\n if bk_.format != \"i\":\n bk_ = memoryview(array.array(\"i\",bk))\n \n if bl is None: raise TypeError(\"Invalid type for argument bl\")\n if bl is None:\n bl_ = None\n else:\n try:\n bl_ = memoryview(bl)\n except TypeError:\n try:\n _tmparr_bl = array.array(\"d\",bl)\n except TypeError:\n raise TypeError(\"Argument bl has wrong type\")\n else:\n bl_ = memoryview(_tmparr_bl)\n \n else:\n if bl_.format != \"d\":\n bl_ = memoryview(array.array(\"d\",bl))\n \n if bu is None: raise TypeError(\"Invalid type for argument bu\")\n if bu is None:\n bu_ = None\n else:\n try:\n bu_ = memoryview(bu)\n except TypeError:\n try:\n _tmparr_bu = array.array(\"d\",bu)\n except TypeError:\n raise TypeError(\"Argument bu has wrong type\")\n else:\n bu_ = memoryview(_tmparr_bu)\n \n else:\n if bu_.format != \"d\":\n bu_ = memoryview(array.array(\"d\",bu))\n \n res = self.__obj.putconboundlist(num_,sub_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbarablocktriplet(self,num_,subi_,subj_,subk_,subl_,valijkl_):\n _subi_minlength = (num_)\n if (num_) > 0 and subi_ is not None and len(subi_) != (num_):\n raise ValueError(\"Array argument subi is not long enough: Is %d, expected %d\" % (len(subi_),(num_)))\n if subi_ is None:\n raise ValueError(\"Argument subi cannot be None\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n _subj_minlength = (num_)\n if (num_) > 0 and subj_ is not None and len(subj_) != (num_):\n raise ValueError(\"Array argument subj is not long enough: Is %d, expected %d\" % (len(subj_),(num_)))\n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n _subk_minlength = (num_)\n if (num_) > 0 and subk_ is not None and len(subk_) != (num_):\n raise ValueError(\"Array argument subk is not long enough: Is %d, expected %d\" % (len(subk_),(num_)))\n if subk_ is None:\n raise ValueError(\"Argument subk cannot be None\")\n if subk_ is None:\n raise ValueError(\"Argument subk may not be None\")\n if isinstance(subk_, numpy.ndarray) and subk_.dtype is numpy.dtype(numpy.int32) and subk_.flags.contiguous:\n _subk_copyarray = False\n _subk_tmp = ctypes.cast(subk_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subk_ is not None:\n _subk_copyarray = True\n _subk_np_tmp = numpy.zeros(len(subk_),numpy.dtype(numpy.int32))\n _subk_np_tmp[:] = subk_\n assert _subk_np_tmp.flags.contiguous\n _subk_tmp = ctypes.cast(_subk_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subk_copyarray = False\n _subk_tmp = None\n \n _subl_minlength = (num_)\n if (num_) > 0 and subl_ is not None and len(subl_) != (num_):\n raise ValueError(\"Array argument subl is not long enough: Is %d, expected %d\" % (len(subl_),(num_)))\n if subl_ is None:\n raise ValueError(\"Argument subl cannot be None\")\n if subl_ is None:\n raise ValueError(\"Argument subl may not be None\")\n if isinstance(subl_, numpy.ndarray) and subl_.dtype is numpy.dtype(numpy.int32) and subl_.flags.contiguous:\n _subl_copyarray = False\n _subl_tmp = ctypes.cast(subl_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subl_ is not None:\n _subl_copyarray = True\n _subl_np_tmp = numpy.zeros(len(subl_),numpy.dtype(numpy.int32))\n _subl_np_tmp[:] = subl_\n assert _subl_np_tmp.flags.contiguous\n _subl_tmp = ctypes.cast(_subl_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subl_copyarray = False\n _subl_tmp = None\n \n _valijkl_minlength = (num_)\n if (num_) > 0 and valijkl_ is not None and len(valijkl_) != (num_):\n raise ValueError(\"Array argument valijkl is not long enough: Is %d, expected %d\" % (len(valijkl_),(num_)))\n if valijkl_ is None:\n raise ValueError(\"Argument valijkl cannot be None\")\n if valijkl_ is None:\n raise ValueError(\"Argument valijkl may not be None\")\n if isinstance(valijkl_, numpy.ndarray) and valijkl_.dtype is numpy.dtype(numpy.float64) and valijkl_.flags.contiguous:\n _valijkl_copyarray = False\n _valijkl_tmp = ctypes.cast(valijkl_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif valijkl_ is not None:\n _valijkl_copyarray = True\n _valijkl_np_tmp = numpy.zeros(len(valijkl_),numpy.dtype(numpy.float64))\n _valijkl_np_tmp[:] = valijkl_\n assert _valijkl_np_tmp.flags.contiguous\n _valijkl_tmp = ctypes.cast(_valijkl_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _valijkl_copyarray = False\n _valijkl_tmp = None\n \n res = __library__.MSK_XX_putbarablocktriplet(self.__nativep,num_,_subi_tmp,_subj_tmp,_subk_tmp,_subl_tmp,_valijkl_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarboundlist(self,sub,bkx,blx,bux): # 3\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(bkx)\n elif num_ != len(bkx):\n raise IndexError(\"Inconsistent length of array bkx\")\n if num_ is None:\n num_ = len(blx)\n elif num_ != len(blx):\n raise IndexError(\"Inconsistent length of array blx\")\n if num_ is None:\n num_ = len(bux)\n elif num_ != len(bux):\n raise IndexError(\"Inconsistent length of array bux\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if bkx is None: raise TypeError(\"Invalid type for argument bkx\")\n if bkx is None:\n bkx_ = None\n else:\n try:\n bkx_ = memoryview(bkx)\n except TypeError:\n try:\n _tmparr_bkx = array.array(\"i\",bkx)\n except TypeError:\n raise TypeError(\"Argument bkx has wrong type\")\n else:\n bkx_ = memoryview(_tmparr_bkx)\n \n else:\n if bkx_.format != \"i\":\n bkx_ = memoryview(array.array(\"i\",bkx))\n \n if blx is None: raise TypeError(\"Invalid type for argument blx\")\n if blx is None:\n blx_ = None\n else:\n try:\n blx_ = memoryview(blx)\n except TypeError:\n try:\n _tmparr_blx = array.array(\"d\",blx)\n except TypeError:\n raise TypeError(\"Argument blx has wrong type\")\n else:\n blx_ = memoryview(_tmparr_blx)\n \n else:\n if blx_.format != \"d\":\n blx_ = memoryview(array.array(\"d\",blx))\n \n if bux is None: raise TypeError(\"Invalid type for argument bux\")\n if bux is None:\n bux_ = None\n else:\n try:\n bux_ = memoryview(bux)\n except TypeError:\n try:\n _tmparr_bux = array.array(\"d\",bux)\n except TypeError:\n raise TypeError(\"Argument bux has wrong type\")\n else:\n bux_ = memoryview(_tmparr_bux)\n \n else:\n if bux_.format != \"d\":\n bux_ = memoryview(array.array(\"d\",bux))\n \n res = self.__obj.putvarboundlist(num_,sub_,bkx_,blx_,bux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbarablocktriplet(self,num_,subi,subj,subk,subl,valijkl): # 3\n if subi is None: raise TypeError(\"Invalid type for argument subi\")\n if subi is None:\n subi_ = None\n else:\n try:\n subi_ = memoryview(subi)\n except TypeError:\n try:\n _tmparr_subi = array.array(\"i\",subi)\n except TypeError:\n raise TypeError(\"Argument subi has wrong type\")\n else:\n subi_ = memoryview(_tmparr_subi)\n \n else:\n if subi_.format != \"i\":\n subi_ = memoryview(array.array(\"i\",subi))\n \n if subi_ is not None and len(subi_) != (num_):\n raise ValueError(\"Array argument subi has wrong length\")\n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n \n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n \n if subj_ is not None and len(subj_) != (num_):\n raise ValueError(\"Array argument subj has wrong length\")\n if subk is None: raise TypeError(\"Invalid type for argument subk\")\n if subk is None:\n subk_ = None\n else:\n try:\n subk_ = memoryview(subk)\n except TypeError:\n try:\n _tmparr_subk = array.array(\"i\",subk)\n except TypeError:\n raise TypeError(\"Argument subk has wrong type\")\n else:\n subk_ = memoryview(_tmparr_subk)\n \n else:\n if subk_.format != \"i\":\n subk_ = memoryview(array.array(\"i\",subk))\n \n if subk_ is not None and len(subk_) != (num_):\n raise ValueError(\"Array argument subk has wrong length\")\n if subl is None: raise TypeError(\"Invalid type for argument subl\")\n if subl is None:\n subl_ = None\n else:\n try:\n subl_ = memoryview(subl)\n except TypeError:\n try:\n _tmparr_subl = array.array(\"i\",subl)\n except TypeError:\n raise TypeError(\"Argument subl has wrong type\")\n else:\n subl_ = memoryview(_tmparr_subl)\n \n else:\n if subl_.format != \"i\":\n subl_ = memoryview(array.array(\"i\",subl))\n \n if subl_ is not None and len(subl_) != (num_):\n raise ValueError(\"Array argument subl has wrong length\")\n if valijkl is None: raise TypeError(\"Invalid type for argument valijkl\")\n if valijkl is None:\n valijkl_ = None\n else:\n try:\n valijkl_ = memoryview(valijkl)\n except TypeError:\n try:\n _tmparr_valijkl = array.array(\"d\",valijkl)\n except TypeError:\n raise TypeError(\"Argument valijkl has wrong type\")\n else:\n valijkl_ = memoryview(_tmparr_valijkl)\n \n else:\n if valijkl_.format != \"d\":\n valijkl_ = memoryview(array.array(\"d\",valijkl))\n \n if valijkl_ is not None and len(valijkl_) != (num_):\n raise ValueError(\"Array argument valijkl has wrong length\")\n res = self.__obj.putbarablocktriplet(num_,subi_,subj_,subk_,subl_,valijkl_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putarowslice(self,first_,last_,ptrb_,ptre_,asub_,aval_):\n _ptrb_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and ptrb_ is not None and len(ptrb_) != ((last_) - (first_)):\n raise ValueError(\"Array argument ptrb is not long enough: Is %d, expected %d\" % (len(ptrb_),((last_) - (first_))))\n if ptrb_ is None:\n raise ValueError(\"Argument ptrb cannot be None\")\n if ptrb_ is None:\n raise ValueError(\"Argument ptrb may not be None\")\n if isinstance(ptrb_, numpy.ndarray) and ptrb_.dtype is numpy.dtype(numpy.int64) and ptrb_.flags.contiguous:\n _ptrb_copyarray = False\n _ptrb_tmp = ctypes.cast(ptrb_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptrb_ is not None:\n _ptrb_copyarray = True\n _ptrb_np_tmp = numpy.zeros(len(ptrb_),numpy.dtype(numpy.int64))\n _ptrb_np_tmp[:] = ptrb_\n assert _ptrb_np_tmp.flags.contiguous\n _ptrb_tmp = ctypes.cast(_ptrb_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptrb_copyarray = False\n _ptrb_tmp = None\n \n _ptre_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and ptre_ is not None and len(ptre_) != ((last_) - (first_)):\n raise ValueError(\"Array argument ptre is not long enough: Is %d, expected %d\" % (len(ptre_),((last_) - (first_))))\n if ptre_ is None:\n raise ValueError(\"Argument ptre cannot be None\")\n if ptre_ is None:\n raise ValueError(\"Argument ptre may not be None\")\n if isinstance(ptre_, numpy.ndarray) and ptre_.dtype is numpy.dtype(numpy.int64) and ptre_.flags.contiguous:\n _ptre_copyarray = False\n _ptre_tmp = ctypes.cast(ptre_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptre_ is not None:\n _ptre_copyarray = True\n _ptre_np_tmp = numpy.zeros(len(ptre_),numpy.dtype(numpy.int64))\n _ptre_np_tmp[:] = ptre_\n assert _ptre_np_tmp.flags.contiguous\n _ptre_tmp = ctypes.cast(_ptre_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptre_copyarray = False\n _ptre_tmp = None\n \n if asub_ is None:\n raise ValueError(\"Argument asub cannot be None\")\n if asub_ is None:\n raise ValueError(\"Argument asub may not be None\")\n if isinstance(asub_, numpy.ndarray) and asub_.dtype is numpy.dtype(numpy.int32) and asub_.flags.contiguous:\n _asub_copyarray = False\n _asub_tmp = ctypes.cast(asub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif asub_ is not None:\n _asub_copyarray = True\n _asub_np_tmp = numpy.zeros(len(asub_),numpy.dtype(numpy.int32))\n _asub_np_tmp[:] = asub_\n assert _asub_np_tmp.flags.contiguous\n _asub_tmp = ctypes.cast(_asub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _asub_copyarray = False\n _asub_tmp = None\n \n if aval_ is None:\n raise ValueError(\"Argument aval cannot be None\")\n if aval_ is None:\n raise ValueError(\"Argument aval may not be None\")\n if isinstance(aval_, numpy.ndarray) and aval_.dtype is numpy.dtype(numpy.float64) and aval_.flags.contiguous:\n _aval_copyarray = False\n _aval_tmp = ctypes.cast(aval_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif aval_ is not None:\n _aval_copyarray = True\n _aval_np_tmp = numpy.zeros(len(aval_),numpy.dtype(numpy.float64))\n _aval_np_tmp[:] = aval_\n assert _aval_np_tmp.flags.contiguous\n _aval_tmp = ctypes.cast(_aval_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _aval_copyarray = False\n _aval_tmp = None\n \n res = __library__.MSK_XX_putarowslice64(self.__nativep,first_,last_,_ptrb_tmp,_ptre_tmp,_asub_tmp,_aval_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putaijlist(self,subi_,subj_,valij_):\n num_ = None\n if num_ is None:\n num_ = len(subi_)\n elif num_ != len(subi_):\n raise IndexError(\"Inconsistent length of array subi\")\n if num_ is None:\n num_ = len(subj_)\n elif num_ != len(subj_):\n raise IndexError(\"Inconsistent length of array subj\")\n if num_ is None:\n num_ = len(valij_)\n elif num_ != len(valij_):\n raise IndexError(\"Inconsistent length of array valij\")\n if subi_ is None:\n raise ValueError(\"Argument subi cannot be None\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n if valij_ is None:\n raise ValueError(\"Argument valij cannot be None\")\n if valij_ is None:\n raise ValueError(\"Argument valij may not be None\")\n if isinstance(valij_, numpy.ndarray) and valij_.dtype is numpy.dtype(numpy.float64) and valij_.flags.contiguous:\n _valij_copyarray = False\n _valij_tmp = ctypes.cast(valij_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif valij_ is not None:\n _valij_copyarray = True\n _valij_np_tmp = numpy.zeros(len(valij_),numpy.dtype(numpy.float64))\n _valij_np_tmp[:] = valij_\n assert _valij_np_tmp.flags.contiguous\n _valij_tmp = ctypes.cast(_valij_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _valij_copyarray = False\n _valij_tmp = None\n \n res = __library__.MSK_XX_putaijlist64(self.__nativep,num_,_subi_tmp,_subj_tmp,_valij_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def appendsparsesymmatlist(self,dims_,nz_,subi_,subj_,valij_,idx_):\n num_ = None\n if num_ is None:\n num_ = len(dims_)\n elif num_ != len(dims_):\n raise IndexError(\"Inconsistent length of array dims\")\n if num_ is None:\n num_ = len(nz_)\n elif num_ != len(nz_):\n raise IndexError(\"Inconsistent length of array nz\")\n if dims_ is None:\n raise ValueError(\"Argument dims cannot be None\")\n if dims_ is None:\n raise ValueError(\"Argument dims may not be None\")\n if isinstance(dims_, numpy.ndarray) and dims_.dtype is numpy.dtype(numpy.int32) and dims_.flags.contiguous:\n _dims_copyarray = False\n _dims_tmp = ctypes.cast(dims_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif dims_ is not None:\n _dims_copyarray = True\n _dims_np_tmp = numpy.zeros(len(dims_),numpy.dtype(numpy.int32))\n _dims_np_tmp[:] = dims_\n assert _dims_np_tmp.flags.contiguous\n _dims_tmp = ctypes.cast(_dims_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _dims_copyarray = False\n _dims_tmp = None\n \n if nz_ is None:\n raise ValueError(\"Argument nz cannot be None\")\n if nz_ is None:\n raise ValueError(\"Argument nz may not be None\")\n if isinstance(nz_, numpy.ndarray) and nz_.dtype is numpy.dtype(numpy.int64) and nz_.flags.contiguous:\n _nz_copyarray = False\n _nz_tmp = ctypes.cast(nz_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif nz_ is not None:\n _nz_copyarray = True\n _nz_np_tmp = numpy.zeros(len(nz_),numpy.dtype(numpy.int64))\n _nz_np_tmp[:] = nz_\n assert _nz_np_tmp.flags.contiguous\n _nz_tmp = ctypes.cast(_nz_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _nz_copyarray = False\n _nz_tmp = None\n \n _subi_minlength = sum((nz_))\n if sum((nz_)) > 0 and subi_ is not None and len(subi_) != sum((nz_)):\n raise ValueError(\"Array argument subi is not long enough: Is %d, expected %d\" % (len(subi_),sum((nz_))))\n if subi_ is None:\n raise ValueError(\"Argument subi cannot be None\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n _subj_minlength = sum((nz_))\n if sum((nz_)) > 0 and subj_ is not None and len(subj_) != sum((nz_)):\n raise ValueError(\"Array argument subj is not long enough: Is %d, expected %d\" % (len(subj_),sum((nz_))))\n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n _valij_minlength = sum((nz_))\n if sum((nz_)) > 0 and valij_ is not None and len(valij_) != sum((nz_)):\n raise ValueError(\"Array argument valij is not long enough: Is %d, expected %d\" % (len(valij_),sum((nz_))))\n if valij_ is None:\n raise ValueError(\"Argument valij cannot be None\")\n if valij_ is None:\n raise ValueError(\"Argument valij may not be None\")\n if isinstance(valij_, numpy.ndarray) and valij_.dtype is numpy.dtype(numpy.float64) and valij_.flags.contiguous:\n _valij_copyarray = False\n _valij_tmp = ctypes.cast(valij_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif valij_ is not None:\n _valij_copyarray = True\n _valij_np_tmp = numpy.zeros(len(valij_),numpy.dtype(numpy.float64))\n _valij_np_tmp[:] = valij_\n assert _valij_np_tmp.flags.contiguous\n _valij_tmp = ctypes.cast(_valij_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _valij_copyarray = False\n _valij_tmp = None\n \n _idx_minlength = (num_)\n if (num_) > 0 and idx_ is not None and len(idx_) != (num_):\n raise ValueError(\"Array argument idx is not long enough: Is %d, expected %d\" % (len(idx_),(num_)))\n if isinstance(idx_,numpy.ndarray) and not idx_.flags.writeable:\n raise ValueError(\"Argument idx must be writable\")\n if idx_ is None:\n raise ValueError(\"Argument idx may not be None\")\n if isinstance(idx_, numpy.ndarray) and idx_.dtype is numpy.dtype(numpy.int64) and idx_.flags.contiguous:\n _idx_copyarray = False\n _idx_tmp = ctypes.cast(idx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif idx_ is not None:\n _idx_copyarray = True\n _idx_np_tmp = numpy.zeros(len(idx_),numpy.dtype(numpy.int64))\n _idx_np_tmp[:] = idx_\n assert _idx_np_tmp.flags.contiguous\n _idx_tmp = ctypes.cast(_idx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _idx_copyarray = False\n _idx_tmp = None\n \n res = __library__.MSK_XX_appendsparsesymmatlist(self.__nativep,num_,_dims_tmp,_nz_tmp,_subi_tmp,_subj_tmp,_valij_tmp,_idx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _idx_copyarray:\n idx_[:] = _idx_np_tmp", "def putarowslice(self,first_,last_,ptrb,ptre,asub,aval): # 3\n if ptrb is None: raise TypeError(\"Invalid type for argument ptrb\")\n if ptrb is None:\n ptrb_ = None\n else:\n try:\n ptrb_ = memoryview(ptrb)\n except TypeError:\n try:\n _tmparr_ptrb = array.array(\"q\",ptrb)\n except TypeError:\n raise TypeError(\"Argument ptrb has wrong type\")\n else:\n ptrb_ = memoryview(_tmparr_ptrb)\n \n else:\n if ptrb_.format != \"q\":\n ptrb_ = memoryview(array.array(\"q\",ptrb))\n \n if ptrb_ is not None and len(ptrb_) != ((last_) - (first_)):\n raise ValueError(\"Array argument ptrb has wrong length\")\n if ptre is None: raise TypeError(\"Invalid type for argument ptre\")\n if ptre is None:\n ptre_ = None\n else:\n try:\n ptre_ = memoryview(ptre)\n except TypeError:\n try:\n _tmparr_ptre = array.array(\"q\",ptre)\n except TypeError:\n raise TypeError(\"Argument ptre has wrong type\")\n else:\n ptre_ = memoryview(_tmparr_ptre)\n \n else:\n if ptre_.format != \"q\":\n ptre_ = memoryview(array.array(\"q\",ptre))\n \n if ptre_ is not None and len(ptre_) != ((last_) - (first_)):\n raise ValueError(\"Array argument ptre has wrong length\")\n if asub is None: raise TypeError(\"Invalid type for argument asub\")\n if asub is None:\n asub_ = None\n else:\n try:\n asub_ = memoryview(asub)\n except TypeError:\n try:\n _tmparr_asub = array.array(\"i\",asub)\n except TypeError:\n raise TypeError(\"Argument asub has wrong type\")\n else:\n asub_ = memoryview(_tmparr_asub)\n \n else:\n if asub_.format != \"i\":\n asub_ = memoryview(array.array(\"i\",asub))\n \n if aval is None: raise TypeError(\"Invalid type for argument aval\")\n if aval is None:\n aval_ = None\n else:\n try:\n aval_ = memoryview(aval)\n except TypeError:\n try:\n _tmparr_aval = array.array(\"d\",aval)\n except TypeError:\n raise TypeError(\"Argument aval has wrong type\")\n else:\n aval_ = memoryview(_tmparr_aval)\n \n else:\n if aval_.format != \"d\":\n aval_ = memoryview(array.array(\"d\",aval))\n \n res = self.__obj.putarowslice64(first_,last_,ptrb_,ptre_,asub_,aval_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putacolslice(self,first_,last_,ptrb_,ptre_,asub_,aval_):\n if ptrb_ is None:\n raise ValueError(\"Argument ptrb cannot be None\")\n if ptrb_ is None:\n raise ValueError(\"Argument ptrb may not be None\")\n if isinstance(ptrb_, numpy.ndarray) and ptrb_.dtype is numpy.dtype(numpy.int64) and ptrb_.flags.contiguous:\n _ptrb_copyarray = False\n _ptrb_tmp = ctypes.cast(ptrb_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptrb_ is not None:\n _ptrb_copyarray = True\n _ptrb_np_tmp = numpy.zeros(len(ptrb_),numpy.dtype(numpy.int64))\n _ptrb_np_tmp[:] = ptrb_\n assert _ptrb_np_tmp.flags.contiguous\n _ptrb_tmp = ctypes.cast(_ptrb_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptrb_copyarray = False\n _ptrb_tmp = None\n \n if ptre_ is None:\n raise ValueError(\"Argument ptre cannot be None\")\n if ptre_ is None:\n raise ValueError(\"Argument ptre may not be None\")\n if isinstance(ptre_, numpy.ndarray) and ptre_.dtype is numpy.dtype(numpy.int64) and ptre_.flags.contiguous:\n _ptre_copyarray = False\n _ptre_tmp = ctypes.cast(ptre_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptre_ is not None:\n _ptre_copyarray = True\n _ptre_np_tmp = numpy.zeros(len(ptre_),numpy.dtype(numpy.int64))\n _ptre_np_tmp[:] = ptre_\n assert _ptre_np_tmp.flags.contiguous\n _ptre_tmp = ctypes.cast(_ptre_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptre_copyarray = False\n _ptre_tmp = None\n \n if asub_ is None:\n raise ValueError(\"Argument asub cannot be None\")\n if asub_ is None:\n raise ValueError(\"Argument asub may not be None\")\n if isinstance(asub_, numpy.ndarray) and asub_.dtype is numpy.dtype(numpy.int32) and asub_.flags.contiguous:\n _asub_copyarray = False\n _asub_tmp = ctypes.cast(asub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif asub_ is not None:\n _asub_copyarray = True\n _asub_np_tmp = numpy.zeros(len(asub_),numpy.dtype(numpy.int32))\n _asub_np_tmp[:] = asub_\n assert _asub_np_tmp.flags.contiguous\n _asub_tmp = ctypes.cast(_asub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _asub_copyarray = False\n _asub_tmp = None\n \n if aval_ is None:\n raise ValueError(\"Argument aval cannot be None\")\n if aval_ is None:\n raise ValueError(\"Argument aval may not be None\")\n if isinstance(aval_, numpy.ndarray) and aval_.dtype is numpy.dtype(numpy.float64) and aval_.flags.contiguous:\n _aval_copyarray = False\n _aval_tmp = ctypes.cast(aval_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif aval_ is not None:\n _aval_copyarray = True\n _aval_np_tmp = numpy.zeros(len(aval_),numpy.dtype(numpy.float64))\n _aval_np_tmp[:] = aval_\n assert _aval_np_tmp.flags.contiguous\n _aval_tmp = ctypes.cast(_aval_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _aval_copyarray = False\n _aval_tmp = None\n \n res = __library__.MSK_XX_putacolslice64(self.__nativep,first_,last_,_ptrb_tmp,_ptre_tmp,_asub_tmp,_aval_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def appendsparsesymmat(self,dim_,subi_,subj_,valij_):\n nz_ = None\n if nz_ is None:\n nz_ = len(subi_)\n elif nz_ != len(subi_):\n raise IndexError(\"Inconsistent length of array subi\")\n if nz_ is None:\n nz_ = len(subj_)\n elif nz_ != len(subj_):\n raise IndexError(\"Inconsistent length of array subj\")\n if nz_ is None:\n nz_ = len(valij_)\n elif nz_ != len(valij_):\n raise IndexError(\"Inconsistent length of array valij\")\n if subi_ is None:\n raise ValueError(\"Argument subi cannot be None\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n if valij_ is None:\n raise ValueError(\"Argument valij cannot be None\")\n if valij_ is None:\n raise ValueError(\"Argument valij may not be None\")\n if isinstance(valij_, numpy.ndarray) and valij_.dtype is numpy.dtype(numpy.float64) and valij_.flags.contiguous:\n _valij_copyarray = False\n _valij_tmp = ctypes.cast(valij_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif valij_ is not None:\n _valij_copyarray = True\n _valij_np_tmp = numpy.zeros(len(valij_),numpy.dtype(numpy.float64))\n _valij_np_tmp[:] = valij_\n assert _valij_np_tmp.flags.contiguous\n _valij_tmp = ctypes.cast(_valij_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _valij_copyarray = False\n _valij_tmp = None\n \n idx_ = ctypes.c_int64()\n res = __library__.MSK_XX_appendsparsesymmat(self.__nativep,dim_,nz_,_subi_tmp,_subj_tmp,_valij_tmp,ctypes.byref(idx_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n idx_ = idx_.value\n _idx_return_value = idx_\n return (_idx_return_value)", "def putbarcblocktriplet(self,num_,subj,subk,subl,valjkl): # 3\n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n \n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n \n if subj_ is not None and len(subj_) != (num_):\n raise ValueError(\"Array argument subj has wrong length\")\n if subk is None: raise TypeError(\"Invalid type for argument subk\")\n if subk is None:\n subk_ = None\n else:\n try:\n subk_ = memoryview(subk)\n except TypeError:\n try:\n _tmparr_subk = array.array(\"i\",subk)\n except TypeError:\n raise TypeError(\"Argument subk has wrong type\")\n else:\n subk_ = memoryview(_tmparr_subk)\n \n else:\n if subk_.format != \"i\":\n subk_ = memoryview(array.array(\"i\",subk))\n \n if subk_ is not None and len(subk_) != (num_):\n raise ValueError(\"Array argument subk has wrong length\")\n if subl is None: raise TypeError(\"Invalid type for argument subl\")\n if subl is None:\n subl_ = None\n else:\n try:\n subl_ = memoryview(subl)\n except TypeError:\n try:\n _tmparr_subl = array.array(\"i\",subl)\n except TypeError:\n raise TypeError(\"Argument subl has wrong type\")\n else:\n subl_ = memoryview(_tmparr_subl)\n \n else:\n if subl_.format != \"i\":\n subl_ = memoryview(array.array(\"i\",subl))\n \n if subl_ is not None and len(subl_) != (num_):\n raise ValueError(\"Array argument subl has wrong length\")\n if valjkl is None: raise TypeError(\"Invalid type for argument valjkl\")\n if valjkl is None:\n valjkl_ = None\n else:\n try:\n valjkl_ = memoryview(valjkl)\n except TypeError:\n try:\n _tmparr_valjkl = array.array(\"d\",valjkl)\n except TypeError:\n raise TypeError(\"Argument valjkl has wrong type\")\n else:\n valjkl_ = memoryview(_tmparr_valjkl)\n \n else:\n if valjkl_.format != \"d\":\n valjkl_ = memoryview(array.array(\"d\",valjkl))\n \n if valjkl_ is not None and len(valjkl_) != (num_):\n raise ValueError(\"Array argument valjkl has wrong length\")\n res = self.__obj.putbarcblocktriplet(num_,subj_,subk_,subl_,valjkl_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def assign_in_place_subblock(A, a, i, j):\n bi = 2*i\n bj = 2*j\n A[bi, bj] = a[0, 0]\n A[bi, bj+1] = a[0, 1]\n A[bi+1, bj] = a[1, 0]\n A[bi+1, bj+1] = a[1, 1]", "def putacolslice(self,first_,last_,ptrb,ptre,asub,aval): # 3\n if ptrb is None: raise TypeError(\"Invalid type for argument ptrb\")\n if ptrb is None:\n ptrb_ = None\n else:\n try:\n ptrb_ = memoryview(ptrb)\n except TypeError:\n try:\n _tmparr_ptrb = array.array(\"q\",ptrb)\n except TypeError:\n raise TypeError(\"Argument ptrb has wrong type\")\n else:\n ptrb_ = memoryview(_tmparr_ptrb)\n \n else:\n if ptrb_.format != \"q\":\n ptrb_ = memoryview(array.array(\"q\",ptrb))\n \n if ptre is None: raise TypeError(\"Invalid type for argument ptre\")\n if ptre is None:\n ptre_ = None\n else:\n try:\n ptre_ = memoryview(ptre)\n except TypeError:\n try:\n _tmparr_ptre = array.array(\"q\",ptre)\n except TypeError:\n raise TypeError(\"Argument ptre has wrong type\")\n else:\n ptre_ = memoryview(_tmparr_ptre)\n \n else:\n if ptre_.format != \"q\":\n ptre_ = memoryview(array.array(\"q\",ptre))\n \n if asub is None: raise TypeError(\"Invalid type for argument asub\")\n if asub is None:\n asub_ = None\n else:\n try:\n asub_ = memoryview(asub)\n except TypeError:\n try:\n _tmparr_asub = array.array(\"i\",asub)\n except TypeError:\n raise TypeError(\"Argument asub has wrong type\")\n else:\n asub_ = memoryview(_tmparr_asub)\n \n else:\n if asub_.format != \"i\":\n asub_ = memoryview(array.array(\"i\",asub))\n \n if aval is None: raise TypeError(\"Invalid type for argument aval\")\n if aval is None:\n aval_ = None\n else:\n try:\n aval_ = memoryview(aval)\n except TypeError:\n try:\n _tmparr_aval = array.array(\"d\",aval)\n except TypeError:\n raise TypeError(\"Argument aval has wrong type\")\n else:\n aval_ = memoryview(_tmparr_aval)\n \n else:\n if aval_.format != \"d\":\n aval_ = memoryview(array.array(\"d\",aval))\n \n res = self.__obj.putacolslice64(first_,last_,ptrb_,ptre_,asub_,aval_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putaijlist(self,subi,subj,valij): # 3\n num_ = None\n if num_ is None:\n num_ = len(subi)\n elif num_ != len(subi):\n raise IndexError(\"Inconsistent length of array subi\")\n if num_ is None:\n num_ = len(subj)\n elif num_ != len(subj):\n raise IndexError(\"Inconsistent length of array subj\")\n if num_ is None:\n num_ = len(valij)\n elif num_ != len(valij):\n raise IndexError(\"Inconsistent length of array valij\")\n if num_ is None: num_ = 0\n if subi is None: raise TypeError(\"Invalid type for argument subi\")\n if subi is None:\n subi_ = None\n else:\n try:\n subi_ = memoryview(subi)\n except TypeError:\n try:\n _tmparr_subi = array.array(\"i\",subi)\n except TypeError:\n raise TypeError(\"Argument subi has wrong type\")\n else:\n subi_ = memoryview(_tmparr_subi)\n \n else:\n if subi_.format != \"i\":\n subi_ = memoryview(array.array(\"i\",subi))\n \n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n \n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n \n if valij is None: raise TypeError(\"Invalid type for argument valij\")\n if valij is None:\n valij_ = None\n else:\n try:\n valij_ = memoryview(valij)\n except TypeError:\n try:\n _tmparr_valij = array.array(\"d\",valij)\n except TypeError:\n raise TypeError(\"Argument valij has wrong type\")\n else:\n valij_ = memoryview(_tmparr_valij)\n \n else:\n if valij_.format != \"d\":\n valij_ = memoryview(array.array(\"d\",valij))\n \n res = self.__obj.putaijlist64(num_,subi_,subj_,valij_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbarcblocktriplet(self,num_,subj_,subk_,subl_,valjkl_):\n _subj_minlength = (num_)\n if (num_) > 0 and subj_ is not None and len(subj_) != (num_):\n raise ValueError(\"Array argument subj is not long enough: Is %d, expected %d\" % (len(subj_),(num_)))\n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n _subk_minlength = (num_)\n if (num_) > 0 and subk_ is not None and len(subk_) != (num_):\n raise ValueError(\"Array argument subk is not long enough: Is %d, expected %d\" % (len(subk_),(num_)))\n if subk_ is None:\n raise ValueError(\"Argument subk cannot be None\")\n if subk_ is None:\n raise ValueError(\"Argument subk may not be None\")\n if isinstance(subk_, numpy.ndarray) and subk_.dtype is numpy.dtype(numpy.int32) and subk_.flags.contiguous:\n _subk_copyarray = False\n _subk_tmp = ctypes.cast(subk_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subk_ is not None:\n _subk_copyarray = True\n _subk_np_tmp = numpy.zeros(len(subk_),numpy.dtype(numpy.int32))\n _subk_np_tmp[:] = subk_\n assert _subk_np_tmp.flags.contiguous\n _subk_tmp = ctypes.cast(_subk_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subk_copyarray = False\n _subk_tmp = None\n \n _subl_minlength = (num_)\n if (num_) > 0 and subl_ is not None and len(subl_) != (num_):\n raise ValueError(\"Array argument subl is not long enough: Is %d, expected %d\" % (len(subl_),(num_)))\n if subl_ is None:\n raise ValueError(\"Argument subl cannot be None\")\n if subl_ is None:\n raise ValueError(\"Argument subl may not be None\")\n if isinstance(subl_, numpy.ndarray) and subl_.dtype is numpy.dtype(numpy.int32) and subl_.flags.contiguous:\n _subl_copyarray = False\n _subl_tmp = ctypes.cast(subl_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subl_ is not None:\n _subl_copyarray = True\n _subl_np_tmp = numpy.zeros(len(subl_),numpy.dtype(numpy.int32))\n _subl_np_tmp[:] = subl_\n assert _subl_np_tmp.flags.contiguous\n _subl_tmp = ctypes.cast(_subl_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subl_copyarray = False\n _subl_tmp = None\n \n _valjkl_minlength = (num_)\n if (num_) > 0 and valjkl_ is not None and len(valjkl_) != (num_):\n raise ValueError(\"Array argument valjkl is not long enough: Is %d, expected %d\" % (len(valjkl_),(num_)))\n if valjkl_ is None:\n raise ValueError(\"Argument valjkl cannot be None\")\n if valjkl_ is None:\n raise ValueError(\"Argument valjkl may not be None\")\n if isinstance(valjkl_, numpy.ndarray) and valjkl_.dtype is numpy.dtype(numpy.float64) and valjkl_.flags.contiguous:\n _valjkl_copyarray = False\n _valjkl_tmp = ctypes.cast(valjkl_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif valjkl_ is not None:\n _valjkl_copyarray = True\n _valjkl_np_tmp = numpy.zeros(len(valjkl_),numpy.dtype(numpy.float64))\n _valjkl_np_tmp[:] = valjkl_\n assert _valjkl_np_tmp.flags.contiguous\n _valjkl_tmp = ctypes.cast(_valjkl_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _valjkl_copyarray = False\n _valjkl_tmp = None\n \n res = __library__.MSK_XX_putbarcblocktriplet(self.__nativep,num_,_subj_tmp,_subk_tmp,_subl_tmp,_valjkl_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def appendsparsesymmat(self,dim_,subi,subj,valij): # 3\n nz_ = None\n if nz_ is None:\n nz_ = len(subi)\n elif nz_ != len(subi):\n raise IndexError(\"Inconsistent length of array subi\")\n if nz_ is None:\n nz_ = len(subj)\n elif nz_ != len(subj):\n raise IndexError(\"Inconsistent length of array subj\")\n if nz_ is None:\n nz_ = len(valij)\n elif nz_ != len(valij):\n raise IndexError(\"Inconsistent length of array valij\")\n if nz_ is None: nz_ = 0\n if subi is None: raise TypeError(\"Invalid type for argument subi\")\n if subi is None:\n subi_ = None\n else:\n try:\n subi_ = memoryview(subi)\n except TypeError:\n try:\n _tmparr_subi = array.array(\"i\",subi)\n except TypeError:\n raise TypeError(\"Argument subi has wrong type\")\n else:\n subi_ = memoryview(_tmparr_subi)\n \n else:\n if subi_.format != \"i\":\n subi_ = memoryview(array.array(\"i\",subi))\n \n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n \n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n \n if valij is None: raise TypeError(\"Invalid type for argument valij\")\n if valij is None:\n valij_ = None\n else:\n try:\n valij_ = memoryview(valij)\n except TypeError:\n try:\n _tmparr_valij = array.array(\"d\",valij)\n except TypeError:\n raise TypeError(\"Argument valij has wrong type\")\n else:\n valij_ = memoryview(_tmparr_valij)\n \n else:\n if valij_.format != \"d\":\n valij_ = memoryview(array.array(\"d\",valij))\n \n res,resargs = self.__obj.appendsparsesymmat(dim_,nz_,subi_,subj_,valij_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _idx_return_value = resargs\n return _idx_return_value", "def newrow(self, rowlist):\n if len(rowlist) > 0:\n if islist(rowlist[0]):\n for row in rowlist:\n self.newrow(row)\n elif len(rowlist) == self.x:\n for x in xrange(0, len(rowlist)):\n rowlist[x] = self.prepare(rowlist[x])\n self.a.append(rowlist)\n self.y += 1\n else:\n raise IndexError(\"Unequal matrix row lengths for newrow of \"+str(self.x)+\" and \"+str(len(rowlist)))", "def getbarablocktriplet(self,subi,subj,subk,subl,valijkl): # 3\n maxnum_ = self.getnumbarablocktriplets()\n if subi is None: raise TypeError(\"Invalid type for argument subi\")\n _copyback_subi = False\n if subi is None:\n subi_ = None\n else:\n try:\n subi_ = memoryview(subi)\n except TypeError:\n try:\n _tmparr_subi = array.array(\"i\",subi)\n except TypeError:\n raise TypeError(\"Argument subi has wrong type\")\n else:\n subi_ = memoryview(_tmparr_subi)\n _copyback_subi = True\n else:\n if subi_.format != \"i\":\n subi_ = memoryview(array.array(\"i\",subi))\n _copyback_subi = True\n if subi_ is not None and len(subi_) != (maxnum_):\n raise ValueError(\"Array argument subi has wrong length\")\n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n _copyback_subj = False\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n _copyback_subj = True\n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n _copyback_subj = True\n if subj_ is not None and len(subj_) != (maxnum_):\n raise ValueError(\"Array argument subj has wrong length\")\n if subk is None: raise TypeError(\"Invalid type for argument subk\")\n _copyback_subk = False\n if subk is None:\n subk_ = None\n else:\n try:\n subk_ = memoryview(subk)\n except TypeError:\n try:\n _tmparr_subk = array.array(\"i\",subk)\n except TypeError:\n raise TypeError(\"Argument subk has wrong type\")\n else:\n subk_ = memoryview(_tmparr_subk)\n _copyback_subk = True\n else:\n if subk_.format != \"i\":\n subk_ = memoryview(array.array(\"i\",subk))\n _copyback_subk = True\n if subk_ is not None and len(subk_) != (maxnum_):\n raise ValueError(\"Array argument subk has wrong length\")\n if subl is None: raise TypeError(\"Invalid type for argument subl\")\n _copyback_subl = False\n if subl is None:\n subl_ = None\n else:\n try:\n subl_ = memoryview(subl)\n except TypeError:\n try:\n _tmparr_subl = array.array(\"i\",subl)\n except TypeError:\n raise TypeError(\"Argument subl has wrong type\")\n else:\n subl_ = memoryview(_tmparr_subl)\n _copyback_subl = True\n else:\n if subl_.format != \"i\":\n subl_ = memoryview(array.array(\"i\",subl))\n _copyback_subl = True\n if subl_ is not None and len(subl_) != (maxnum_):\n raise ValueError(\"Array argument subl has wrong length\")\n if valijkl is None: raise TypeError(\"Invalid type for argument valijkl\")\n _copyback_valijkl = False\n if valijkl is None:\n valijkl_ = None\n else:\n try:\n valijkl_ = memoryview(valijkl)\n except TypeError:\n try:\n _tmparr_valijkl = array.array(\"d\",valijkl)\n except TypeError:\n raise TypeError(\"Argument valijkl has wrong type\")\n else:\n valijkl_ = memoryview(_tmparr_valijkl)\n _copyback_valijkl = True\n else:\n if valijkl_.format != \"d\":\n valijkl_ = memoryview(array.array(\"d\",valijkl))\n _copyback_valijkl = True\n if valijkl_ is not None and len(valijkl_) != (maxnum_):\n raise ValueError(\"Array argument valijkl has wrong length\")\n res,resargs = self.__obj.getbarablocktriplet(maxnum_,subi_,subj_,subk_,subl_,valijkl_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _num_return_value = resargs\n if _copyback_valijkl:\n valijkl[:] = _tmparr_valijkl\n if _copyback_subl:\n subl[:] = _tmparr_subl\n if _copyback_subk:\n subk[:] = _tmparr_subk\n if _copyback_subj:\n subj[:] = _tmparr_subj\n if _copyback_subi:\n subi[:] = _tmparr_subi\n return _num_return_value", "def putvartypelist(self,subj_,vartype_):\n num_ = None\n if num_ is None:\n num_ = len(subj_)\n elif num_ != len(subj_):\n raise IndexError(\"Inconsistent length of array subj\")\n if num_ is None:\n num_ = len(vartype_)\n elif num_ != len(vartype_):\n raise IndexError(\"Inconsistent length of array vartype\")\n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n if vartype_ is None:\n raise ValueError(\"Argument vartype cannot be None\")\n if vartype_ is None:\n raise ValueError(\"Argument vartype may not be None\")\n if vartype_ is not None:\n _vartype_tmp = (ctypes.c_int32 * len(vartype_))(*vartype_)\n else:\n _vartype_tmp = None\n res = __library__.MSK_XX_putvartypelist(self.__nativep,num_,_subj_tmp,_vartype_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putclist(self,subj,val): # 3\n num_ = None\n if num_ is None:\n num_ = len(subj)\n elif num_ != len(subj):\n raise IndexError(\"Inconsistent length of array subj\")\n if num_ is None:\n num_ = len(val)\n elif num_ != len(val):\n raise IndexError(\"Inconsistent length of array val\")\n if num_ is None: num_ = 0\n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n \n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n \n if val is None: raise TypeError(\"Invalid type for argument val\")\n if val is None:\n val_ = None\n else:\n try:\n val_ = memoryview(val)\n except TypeError:\n try:\n _tmparr_val = array.array(\"d\",val)\n except TypeError:\n raise TypeError(\"Argument val has wrong type\")\n else:\n val_ = memoryview(_tmparr_val)\n \n else:\n if val_.format != \"d\":\n val_ = memoryview(array.array(\"d\",val))\n \n res = self.__obj.putclist(num_,subj_,val_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)" ]

[ "0.7166984", "0.70779383", "0.7077155", "0.7009495", "0.6519843", "0.61421853", "0.6117272", "0.608168", "0.59091073", "0.58321506", "0.5795848", "0.5780153", "0.57748336", "0.5751861", "0.5738041", "0.5662904", "0.56070936", "0.54496944", "0.5404027", "0.5375109", "0.53528893", "0.5334189", "0.53078425", "0.52818286", "0.5166231", "0.5105096", "0.5103053", "0.50931346", "0.50633466", "0.50350493" ]

[ "def putacolslice(self,first_,last_,ptrb,ptre,asub,aval): # 3\n if ptrb is None: raise TypeError(\"Invalid type for argument ptrb\")\n if ptrb is None:\n ptrb_ = None\n else:\n try:\n ptrb_ = memoryview(ptrb)\n except TypeError:\n try:\n _tmparr_ptrb = array.array(\"q\",ptrb)\n except TypeError:\n raise TypeError(\"Argument ptrb has wrong type\")\n else:\n ptrb_ = memoryview(_tmparr_ptrb)\n \n else:\n if ptrb_.format != \"q\":\n ptrb_ = memoryview(array.array(\"q\",ptrb))\n \n if ptre is None: raise TypeError(\"Invalid type for argument ptre\")\n if ptre is None:\n ptre_ = None\n else:\n try:\n ptre_ = memoryview(ptre)\n except TypeError:\n try:\n _tmparr_ptre = array.array(\"q\",ptre)\n except TypeError:\n raise TypeError(\"Argument ptre has wrong type\")\n else:\n ptre_ = memoryview(_tmparr_ptre)\n \n else:\n if ptre_.format != \"q\":\n ptre_ = memoryview(array.array(\"q\",ptre))\n \n if asub is None: raise TypeError(\"Invalid type for argument asub\")\n if asub is None:\n asub_ = None\n else:\n try:\n asub_ = memoryview(asub)\n except TypeError:\n try:\n _tmparr_asub = array.array(\"i\",asub)\n except TypeError:\n raise TypeError(\"Argument asub has wrong type\")\n else:\n asub_ = memoryview(_tmparr_asub)\n \n else:\n if asub_.format != \"i\":\n asub_ = memoryview(array.array(\"i\",asub))\n \n if aval is None: raise TypeError(\"Invalid type for argument aval\")\n if aval is None:\n aval_ = None\n else:\n try:\n aval_ = memoryview(aval)\n except TypeError:\n try:\n _tmparr_aval = array.array(\"d\",aval)\n except TypeError:\n raise TypeError(\"Argument aval has wrong type\")\n else:\n aval_ = memoryview(_tmparr_aval)\n \n else:\n if aval_.format != \"d\":\n aval_ = memoryview(array.array(\"d\",aval))\n \n res = self.__obj.putacolslice64(first_,last_,ptrb_,ptre_,asub_,aval_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getacolslice(self,first_,last_,ptrb_,ptre_,sub_,val_):\n maxnumnz_ = self.getacolslicenumnz((first_),(last_))\n _ptrb_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and ptrb_ is not None and len(ptrb_) != ((last_) - (first_)):\n raise ValueError(\"Array argument ptrb is not long enough: Is %d, expected %d\" % (len(ptrb_),((last_) - (first_))))\n if isinstance(ptrb_,numpy.ndarray) and not ptrb_.flags.writeable:\n raise ValueError(\"Argument ptrb must be writable\")\n if ptrb_ is None:\n raise ValueError(\"Argument ptrb may not be None\")\n if isinstance(ptrb_, numpy.ndarray) and ptrb_.dtype is numpy.dtype(numpy.int64) and ptrb_.flags.contiguous:\n _ptrb_copyarray = False\n _ptrb_tmp = ctypes.cast(ptrb_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptrb_ is not None:\n _ptrb_copyarray = True\n _ptrb_np_tmp = numpy.zeros(len(ptrb_),numpy.dtype(numpy.int64))\n _ptrb_np_tmp[:] = ptrb_\n assert _ptrb_np_tmp.flags.contiguous\n _ptrb_tmp = ctypes.cast(_ptrb_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptrb_copyarray = False\n _ptrb_tmp = None\n \n _ptre_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and ptre_ is not None and len(ptre_) != ((last_) - (first_)):\n raise ValueError(\"Array argument ptre is not long enough: Is %d, expected %d\" % (len(ptre_),((last_) - (first_))))\n if isinstance(ptre_,numpy.ndarray) and not ptre_.flags.writeable:\n raise ValueError(\"Argument ptre must be writable\")\n if ptre_ is None:\n raise ValueError(\"Argument ptre may not be None\")\n if isinstance(ptre_, numpy.ndarray) and ptre_.dtype is numpy.dtype(numpy.int64) and ptre_.flags.contiguous:\n _ptre_copyarray = False\n _ptre_tmp = ctypes.cast(ptre_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptre_ is not None:\n _ptre_copyarray = True\n _ptre_np_tmp = numpy.zeros(len(ptre_),numpy.dtype(numpy.int64))\n _ptre_np_tmp[:] = ptre_\n assert _ptre_np_tmp.flags.contiguous\n _ptre_tmp = ctypes.cast(_ptre_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptre_copyarray = False\n _ptre_tmp = None\n \n _sub_minlength = (maxnumnz_)\n if (maxnumnz_) > 0 and sub_ is not None and len(sub_) != (maxnumnz_):\n raise ValueError(\"Array argument sub is not long enough: Is %d, expected %d\" % (len(sub_),(maxnumnz_)))\n if isinstance(sub_,numpy.ndarray) and not sub_.flags.writeable:\n raise ValueError(\"Argument sub must be writable\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _val_minlength = (maxnumnz_)\n if (maxnumnz_) > 0 and val_ is not None and len(val_) != (maxnumnz_):\n raise ValueError(\"Array argument val is not long enough: Is %d, expected %d\" % (len(val_),(maxnumnz_)))\n if isinstance(val_,numpy.ndarray) and not val_.flags.writeable:\n raise ValueError(\"Argument val must be writable\")\n if val_ is None:\n raise ValueError(\"Argument val may not be None\")\n if isinstance(val_, numpy.ndarray) and val_.dtype is numpy.dtype(numpy.float64) and val_.flags.contiguous:\n _val_copyarray = False\n _val_tmp = ctypes.cast(val_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif val_ is not None:\n _val_copyarray = True\n _val_np_tmp = numpy.zeros(len(val_),numpy.dtype(numpy.float64))\n _val_np_tmp[:] = val_\n assert _val_np_tmp.flags.contiguous\n _val_tmp = ctypes.cast(_val_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _val_copyarray = False\n _val_tmp = None\n \n surp_ = ctypes.c_int64(_sub_minlength)\n res = __library__.MSK_XX_getacolslice64(self.__nativep,first_,last_,maxnumnz_,ctypes.byref(surp_),_ptrb_tmp,_ptre_tmp,_sub_tmp,_val_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _ptrb_copyarray:\n ptrb_[:] = _ptrb_np_tmp\n if _ptre_copyarray:\n ptre_[:] = _ptre_np_tmp\n if _sub_copyarray:\n sub_[:] = _sub_np_tmp\n if _val_copyarray:\n val_[:] = _val_np_tmp", "def putarowslice(self,first_,last_,ptrb_,ptre_,asub_,aval_):\n _ptrb_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and ptrb_ is not None and len(ptrb_) != ((last_) - (first_)):\n raise ValueError(\"Array argument ptrb is not long enough: Is %d, expected %d\" % (len(ptrb_),((last_) - (first_))))\n if ptrb_ is None:\n raise ValueError(\"Argument ptrb cannot be None\")\n if ptrb_ is None:\n raise ValueError(\"Argument ptrb may not be None\")\n if isinstance(ptrb_, numpy.ndarray) and ptrb_.dtype is numpy.dtype(numpy.int64) and ptrb_.flags.contiguous:\n _ptrb_copyarray = False\n _ptrb_tmp = ctypes.cast(ptrb_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptrb_ is not None:\n _ptrb_copyarray = True\n _ptrb_np_tmp = numpy.zeros(len(ptrb_),numpy.dtype(numpy.int64))\n _ptrb_np_tmp[:] = ptrb_\n assert _ptrb_np_tmp.flags.contiguous\n _ptrb_tmp = ctypes.cast(_ptrb_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptrb_copyarray = False\n _ptrb_tmp = None\n \n _ptre_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and ptre_ is not None and len(ptre_) != ((last_) - (first_)):\n raise ValueError(\"Array argument ptre is not long enough: Is %d, expected %d\" % (len(ptre_),((last_) - (first_))))\n if ptre_ is None:\n raise ValueError(\"Argument ptre cannot be None\")\n if ptre_ is None:\n raise ValueError(\"Argument ptre may not be None\")\n if isinstance(ptre_, numpy.ndarray) and ptre_.dtype is numpy.dtype(numpy.int64) and ptre_.flags.contiguous:\n _ptre_copyarray = False\n _ptre_tmp = ctypes.cast(ptre_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptre_ is not None:\n _ptre_copyarray = True\n _ptre_np_tmp = numpy.zeros(len(ptre_),numpy.dtype(numpy.int64))\n _ptre_np_tmp[:] = ptre_\n assert _ptre_np_tmp.flags.contiguous\n _ptre_tmp = ctypes.cast(_ptre_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptre_copyarray = False\n _ptre_tmp = None\n \n if asub_ is None:\n raise ValueError(\"Argument asub cannot be None\")\n if asub_ is None:\n raise ValueError(\"Argument asub may not be None\")\n if isinstance(asub_, numpy.ndarray) and asub_.dtype is numpy.dtype(numpy.int32) and asub_.flags.contiguous:\n _asub_copyarray = False\n _asub_tmp = ctypes.cast(asub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif asub_ is not None:\n _asub_copyarray = True\n _asub_np_tmp = numpy.zeros(len(asub_),numpy.dtype(numpy.int32))\n _asub_np_tmp[:] = asub_\n assert _asub_np_tmp.flags.contiguous\n _asub_tmp = ctypes.cast(_asub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _asub_copyarray = False\n _asub_tmp = None\n \n if aval_ is None:\n raise ValueError(\"Argument aval cannot be None\")\n if aval_ is None:\n raise ValueError(\"Argument aval may not be None\")\n if isinstance(aval_, numpy.ndarray) and aval_.dtype is numpy.dtype(numpy.float64) and aval_.flags.contiguous:\n _aval_copyarray = False\n _aval_tmp = ctypes.cast(aval_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif aval_ is not None:\n _aval_copyarray = True\n _aval_np_tmp = numpy.zeros(len(aval_),numpy.dtype(numpy.float64))\n _aval_np_tmp[:] = aval_\n assert _aval_np_tmp.flags.contiguous\n _aval_tmp = ctypes.cast(_aval_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _aval_copyarray = False\n _aval_tmp = None\n \n res = __library__.MSK_XX_putarowslice64(self.__nativep,first_,last_,_ptrb_tmp,_ptre_tmp,_asub_tmp,_aval_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putarowslice(self,first_,last_,ptrb,ptre,asub,aval): # 3\n if ptrb is None: raise TypeError(\"Invalid type for argument ptrb\")\n if ptrb is None:\n ptrb_ = None\n else:\n try:\n ptrb_ = memoryview(ptrb)\n except TypeError:\n try:\n _tmparr_ptrb = array.array(\"q\",ptrb)\n except TypeError:\n raise TypeError(\"Argument ptrb has wrong type\")\n else:\n ptrb_ = memoryview(_tmparr_ptrb)\n \n else:\n if ptrb_.format != \"q\":\n ptrb_ = memoryview(array.array(\"q\",ptrb))\n \n if ptrb_ is not None and len(ptrb_) != ((last_) - (first_)):\n raise ValueError(\"Array argument ptrb has wrong length\")\n if ptre is None: raise TypeError(\"Invalid type for argument ptre\")\n if ptre is None:\n ptre_ = None\n else:\n try:\n ptre_ = memoryview(ptre)\n except TypeError:\n try:\n _tmparr_ptre = array.array(\"q\",ptre)\n except TypeError:\n raise TypeError(\"Argument ptre has wrong type\")\n else:\n ptre_ = memoryview(_tmparr_ptre)\n \n else:\n if ptre_.format != \"q\":\n ptre_ = memoryview(array.array(\"q\",ptre))\n \n if ptre_ is not None and len(ptre_) != ((last_) - (first_)):\n raise ValueError(\"Array argument ptre has wrong length\")\n if asub is None: raise TypeError(\"Invalid type for argument asub\")\n if asub is None:\n asub_ = None\n else:\n try:\n asub_ = memoryview(asub)\n except TypeError:\n try:\n _tmparr_asub = array.array(\"i\",asub)\n except TypeError:\n raise TypeError(\"Argument asub has wrong type\")\n else:\n asub_ = memoryview(_tmparr_asub)\n \n else:\n if asub_.format != \"i\":\n asub_ = memoryview(array.array(\"i\",asub))\n \n if aval is None: raise TypeError(\"Invalid type for argument aval\")\n if aval is None:\n aval_ = None\n else:\n try:\n aval_ = memoryview(aval)\n except TypeError:\n try:\n _tmparr_aval = array.array(\"d\",aval)\n except TypeError:\n raise TypeError(\"Argument aval has wrong type\")\n else:\n aval_ = memoryview(_tmparr_aval)\n \n else:\n if aval_.format != \"d\":\n aval_ = memoryview(array.array(\"d\",aval))\n \n res = self.__obj.putarowslice64(first_,last_,ptrb_,ptre_,asub_,aval_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putacollist(self,sub_,ptrb_,ptre_,asub_,aval_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(ptrb_)\n elif num_ != len(ptrb_):\n raise IndexError(\"Inconsistent length of array ptrb\")\n if num_ is None:\n num_ = len(ptre_)\n elif num_ != len(ptre_):\n raise IndexError(\"Inconsistent length of array ptre\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n if ptrb_ is None:\n raise ValueError(\"Argument ptrb cannot be None\")\n if ptrb_ is None:\n raise ValueError(\"Argument ptrb may not be None\")\n if isinstance(ptrb_, numpy.ndarray) and ptrb_.dtype is numpy.dtype(numpy.int64) and ptrb_.flags.contiguous:\n _ptrb_copyarray = False\n _ptrb_tmp = ctypes.cast(ptrb_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptrb_ is not None:\n _ptrb_copyarray = True\n _ptrb_np_tmp = numpy.zeros(len(ptrb_),numpy.dtype(numpy.int64))\n _ptrb_np_tmp[:] = ptrb_\n assert _ptrb_np_tmp.flags.contiguous\n _ptrb_tmp = ctypes.cast(_ptrb_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptrb_copyarray = False\n _ptrb_tmp = None\n \n if ptre_ is None:\n raise ValueError(\"Argument ptre cannot be None\")\n if ptre_ is None:\n raise ValueError(\"Argument ptre may not be None\")\n if isinstance(ptre_, numpy.ndarray) and ptre_.dtype is numpy.dtype(numpy.int64) and ptre_.flags.contiguous:\n _ptre_copyarray = False\n _ptre_tmp = ctypes.cast(ptre_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptre_ is not None:\n _ptre_copyarray = True\n _ptre_np_tmp = numpy.zeros(len(ptre_),numpy.dtype(numpy.int64))\n _ptre_np_tmp[:] = ptre_\n assert _ptre_np_tmp.flags.contiguous\n _ptre_tmp = ctypes.cast(_ptre_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptre_copyarray = False\n _ptre_tmp = None\n \n if asub_ is None:\n raise ValueError(\"Argument asub cannot be None\")\n if asub_ is None:\n raise ValueError(\"Argument asub may not be None\")\n if isinstance(asub_, numpy.ndarray) and asub_.dtype is numpy.dtype(numpy.int32) and asub_.flags.contiguous:\n _asub_copyarray = False\n _asub_tmp = ctypes.cast(asub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif asub_ is not None:\n _asub_copyarray = True\n _asub_np_tmp = numpy.zeros(len(asub_),numpy.dtype(numpy.int32))\n _asub_np_tmp[:] = asub_\n assert _asub_np_tmp.flags.contiguous\n _asub_tmp = ctypes.cast(_asub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _asub_copyarray = False\n _asub_tmp = None\n \n if aval_ is None:\n raise ValueError(\"Argument aval cannot be None\")\n if aval_ is None:\n raise ValueError(\"Argument aval may not be None\")\n if isinstance(aval_, numpy.ndarray) and aval_.dtype is numpy.dtype(numpy.float64) and aval_.flags.contiguous:\n _aval_copyarray = False\n _aval_tmp = ctypes.cast(aval_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif aval_ is not None:\n _aval_copyarray = True\n _aval_np_tmp = numpy.zeros(len(aval_),numpy.dtype(numpy.float64))\n _aval_np_tmp[:] = aval_\n assert _aval_np_tmp.flags.contiguous\n _aval_tmp = ctypes.cast(_aval_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _aval_copyarray = False\n _aval_tmp = None\n \n res = __library__.MSK_XX_putacollist64(self.__nativep,num_,_sub_tmp,_ptrb_tmp,_ptre_tmp,_asub_tmp,_aval_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getacolslicetrip(self,first_,last_,subi_,subj_,val_):\n maxnumnz_ = self.getacolslicenumnz((first_),(last_))\n _subi_minlength = (maxnumnz_)\n if (maxnumnz_) > 0 and subi_ is not None and len(subi_) != (maxnumnz_):\n raise ValueError(\"Array argument subi is not long enough: Is %d, expected %d\" % (len(subi_),(maxnumnz_)))\n if isinstance(subi_,numpy.ndarray) and not subi_.flags.writeable:\n raise ValueError(\"Argument subi must be writable\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n _subj_minlength = (maxnumnz_)\n if (maxnumnz_) > 0 and subj_ is not None and len(subj_) != (maxnumnz_):\n raise ValueError(\"Array argument subj is not long enough: Is %d, expected %d\" % (len(subj_),(maxnumnz_)))\n if isinstance(subj_,numpy.ndarray) and not subj_.flags.writeable:\n raise ValueError(\"Argument subj must be writable\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n _val_minlength = (maxnumnz_)\n if (maxnumnz_) > 0 and val_ is not None and len(val_) != (maxnumnz_):\n raise ValueError(\"Array argument val is not long enough: Is %d, expected %d\" % (len(val_),(maxnumnz_)))\n if isinstance(val_,numpy.ndarray) and not val_.flags.writeable:\n raise ValueError(\"Argument val must be writable\")\n if isinstance(val_, numpy.ndarray) and val_.dtype is numpy.dtype(numpy.float64) and val_.flags.contiguous:\n _val_copyarray = False\n _val_tmp = ctypes.cast(val_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif val_ is not None:\n _val_copyarray = True\n _val_np_tmp = numpy.zeros(len(val_),numpy.dtype(numpy.float64))\n _val_np_tmp[:] = val_\n assert _val_np_tmp.flags.contiguous\n _val_tmp = ctypes.cast(_val_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _val_copyarray = False\n _val_tmp = None\n \n surp_ = ctypes.c_int64(_subi_minlength)\n res = __library__.MSK_XX_getacolslicetrip(self.__nativep,first_,last_,maxnumnz_,ctypes.byref(surp_),_subi_tmp,_subj_tmp,_val_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _subi_copyarray:\n subi_[:] = _subi_np_tmp\n if _subj_copyarray:\n subj_[:] = _subj_np_tmp\n if _val_copyarray:\n val_[:] = _val_np_tmp", "def getarowslice(self,first_,last_,ptrb_,ptre_,sub_,val_):\n maxnumnz_ = self.getarowslicenumnz((first_),(last_))\n _ptrb_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and ptrb_ is not None and len(ptrb_) != ((last_) - (first_)):\n raise ValueError(\"Array argument ptrb is not long enough: Is %d, expected %d\" % (len(ptrb_),((last_) - (first_))))\n if isinstance(ptrb_,numpy.ndarray) and not ptrb_.flags.writeable:\n raise ValueError(\"Argument ptrb must be writable\")\n if ptrb_ is None:\n raise ValueError(\"Argument ptrb may not be None\")\n if isinstance(ptrb_, numpy.ndarray) and ptrb_.dtype is numpy.dtype(numpy.int64) and ptrb_.flags.contiguous:\n _ptrb_copyarray = False\n _ptrb_tmp = ctypes.cast(ptrb_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptrb_ is not None:\n _ptrb_copyarray = True\n _ptrb_np_tmp = numpy.zeros(len(ptrb_),numpy.dtype(numpy.int64))\n _ptrb_np_tmp[:] = ptrb_\n assert _ptrb_np_tmp.flags.contiguous\n _ptrb_tmp = ctypes.cast(_ptrb_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptrb_copyarray = False\n _ptrb_tmp = None\n \n _ptre_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and ptre_ is not None and len(ptre_) != ((last_) - (first_)):\n raise ValueError(\"Array argument ptre is not long enough: Is %d, expected %d\" % (len(ptre_),((last_) - (first_))))\n if isinstance(ptre_,numpy.ndarray) and not ptre_.flags.writeable:\n raise ValueError(\"Argument ptre must be writable\")\n if ptre_ is None:\n raise ValueError(\"Argument ptre may not be None\")\n if isinstance(ptre_, numpy.ndarray) and ptre_.dtype is numpy.dtype(numpy.int64) and ptre_.flags.contiguous:\n _ptre_copyarray = False\n _ptre_tmp = ctypes.cast(ptre_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptre_ is not None:\n _ptre_copyarray = True\n _ptre_np_tmp = numpy.zeros(len(ptre_),numpy.dtype(numpy.int64))\n _ptre_np_tmp[:] = ptre_\n assert _ptre_np_tmp.flags.contiguous\n _ptre_tmp = ctypes.cast(_ptre_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptre_copyarray = False\n _ptre_tmp = None\n \n _sub_minlength = (maxnumnz_)\n if (maxnumnz_) > 0 and sub_ is not None and len(sub_) != (maxnumnz_):\n raise ValueError(\"Array argument sub is not long enough: Is %d, expected %d\" % (len(sub_),(maxnumnz_)))\n if isinstance(sub_,numpy.ndarray) and not sub_.flags.writeable:\n raise ValueError(\"Argument sub must be writable\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _val_minlength = (maxnumnz_)\n if (maxnumnz_) > 0 and val_ is not None and len(val_) != (maxnumnz_):\n raise ValueError(\"Array argument val is not long enough: Is %d, expected %d\" % (len(val_),(maxnumnz_)))\n if isinstance(val_,numpy.ndarray) and not val_.flags.writeable:\n raise ValueError(\"Argument val must be writable\")\n if val_ is None:\n raise ValueError(\"Argument val may not be None\")\n if isinstance(val_, numpy.ndarray) and val_.dtype is numpy.dtype(numpy.float64) and val_.flags.contiguous:\n _val_copyarray = False\n _val_tmp = ctypes.cast(val_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif val_ is not None:\n _val_copyarray = True\n _val_np_tmp = numpy.zeros(len(val_),numpy.dtype(numpy.float64))\n _val_np_tmp[:] = val_\n assert _val_np_tmp.flags.contiguous\n _val_tmp = ctypes.cast(_val_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _val_copyarray = False\n _val_tmp = None\n \n surp_ = ctypes.c_int64(_sub_minlength)\n res = __library__.MSK_XX_getarowslice64(self.__nativep,first_,last_,maxnumnz_,ctypes.byref(surp_),_ptrb_tmp,_ptre_tmp,_sub_tmp,_val_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _ptrb_copyarray:\n ptrb_[:] = _ptrb_np_tmp\n if _ptre_copyarray:\n ptre_[:] = _ptre_np_tmp\n if _sub_copyarray:\n sub_[:] = _sub_np_tmp\n if _val_copyarray:\n val_[:] = _val_np_tmp", "def putacollist(self,sub,ptrb,ptre,asub,aval): # 3\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(ptrb)\n elif num_ != len(ptrb):\n raise IndexError(\"Inconsistent length of array ptrb\")\n if num_ is None:\n num_ = len(ptre)\n elif num_ != len(ptre):\n raise IndexError(\"Inconsistent length of array ptre\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if ptrb is None: raise TypeError(\"Invalid type for argument ptrb\")\n if ptrb is None:\n ptrb_ = None\n else:\n try:\n ptrb_ = memoryview(ptrb)\n except TypeError:\n try:\n _tmparr_ptrb = array.array(\"q\",ptrb)\n except TypeError:\n raise TypeError(\"Argument ptrb has wrong type\")\n else:\n ptrb_ = memoryview(_tmparr_ptrb)\n \n else:\n if ptrb_.format != \"q\":\n ptrb_ = memoryview(array.array(\"q\",ptrb))\n \n if ptre is None: raise TypeError(\"Invalid type for argument ptre\")\n if ptre is None:\n ptre_ = None\n else:\n try:\n ptre_ = memoryview(ptre)\n except TypeError:\n try:\n _tmparr_ptre = array.array(\"q\",ptre)\n except TypeError:\n raise TypeError(\"Argument ptre has wrong type\")\n else:\n ptre_ = memoryview(_tmparr_ptre)\n \n else:\n if ptre_.format != \"q\":\n ptre_ = memoryview(array.array(\"q\",ptre))\n \n if asub is None: raise TypeError(\"Invalid type for argument asub\")\n if asub is None:\n asub_ = None\n else:\n try:\n asub_ = memoryview(asub)\n except TypeError:\n try:\n _tmparr_asub = array.array(\"i\",asub)\n except TypeError:\n raise TypeError(\"Argument asub has wrong type\")\n else:\n asub_ = memoryview(_tmparr_asub)\n \n else:\n if asub_.format != \"i\":\n asub_ = memoryview(array.array(\"i\",asub))\n \n if aval is None: raise TypeError(\"Invalid type for argument aval\")\n if aval is None:\n aval_ = None\n else:\n try:\n aval_ = memoryview(aval)\n except TypeError:\n try:\n _tmparr_aval = array.array(\"d\",aval)\n except TypeError:\n raise TypeError(\"Argument aval has wrong type\")\n else:\n aval_ = memoryview(_tmparr_aval)\n \n else:\n if aval_.format != \"d\":\n aval_ = memoryview(array.array(\"d\",aval))\n \n res = self.__obj.putacollist64(num_,sub_,ptrb_,ptre_,asub_,aval_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getacolslicetrip(self,first_,last_,subi,subj,val): # 3\n maxnumnz_ = self.getaslicenumnz(accmode.var,(first_),(last_))\n _copyback_subi = False\n if subi is None:\n subi_ = None\n else:\n try:\n subi_ = memoryview(subi)\n except TypeError:\n try:\n _tmparr_subi = array.array(\"i\",subi)\n except TypeError:\n raise TypeError(\"Argument subi has wrong type\")\n else:\n subi_ = memoryview(_tmparr_subi)\n _copyback_subi = True\n else:\n if subi_.format != \"i\":\n subi_ = memoryview(array.array(\"i\",subi))\n _copyback_subi = True\n if subi_ is not None and len(subi_) != (maxnumnz_):\n raise ValueError(\"Array argument subi has wrong length\")\n _copyback_subj = False\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n _copyback_subj = True\n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n _copyback_subj = True\n if subj_ is not None and len(subj_) != (maxnumnz_):\n raise ValueError(\"Array argument subj has wrong length\")\n _copyback_val = False\n if val is None:\n val_ = None\n else:\n try:\n val_ = memoryview(val)\n except TypeError:\n try:\n _tmparr_val = array.array(\"d\",val)\n except TypeError:\n raise TypeError(\"Argument val has wrong type\")\n else:\n val_ = memoryview(_tmparr_val)\n _copyback_val = True\n else:\n if val_.format != \"d\":\n val_ = memoryview(array.array(\"d\",val))\n _copyback_val = True\n if val_ is not None and len(val_) != (maxnumnz_):\n raise ValueError(\"Array argument val has wrong length\")\n res = self.__obj.getacolslicetrip(first_,last_,maxnumnz_,len(subi),subi_,subj_,val_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_val:\n val[:] = _tmparr_val\n if _copyback_subj:\n subj[:] = _tmparr_subj\n if _copyback_subi:\n subi[:] = _tmparr_subi", "def putvarboundsliceconst(self,first_,last_,bkx_,blx_,bux_):\n res = __library__.MSK_XX_putvarboundsliceconst(self.__nativep,first_,last_,bkx_,blx_,bux_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putxxslice(self,whichsol_,first_,last_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xx is None: raise TypeError(\"Invalid type for argument xx\")\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n \n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n \n if xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.putxxslice(whichsol_,first_,last_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putxxslice(self,whichsol_,first_,last_,xx_):\n _xx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),((last_) - (first_))))\n if xx_ is None:\n raise ValueError(\"Argument xx cannot be None\")\n if xx_ is None:\n raise ValueError(\"Argument xx may not be None\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n res = __library__.MSK_XX_putxxslice(self.__nativep,whichsol_,first_,last_,_xx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconboundsliceconst(self,first_,last_,bkc_,blc_,buc_):\n res = __library__.MSK_XX_putconboundsliceconst(self.__nativep,first_,last_,bkc_,blc_,buc_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def test00(self):\n a = np.arange(1, 111)\n b = bcolz.carray(a, chunklen=10)\n sl = [3, 1]\n b[sl] = (10, 20)\n a[sl] = (10, 20)\n # print \"b[%s] -> %r\" % (sl, b)\n assert_array_equal(b[:], a, \"fancy indexing does not work correctly\")", "def test02(self):\n a = np.arange(0, 1000)\n b = bcolz.carray(a, chunklen=10)\n sl = np.random.randint(0, 1000, size=3*30)\n vals = np.random.randint(1, 1000, size=3*30)\n b[sl] = vals\n a[sl] = vals\n # print \"b[%s] -> %r\" % (sl, b)\n assert_array_equal(b[:], a, \"fancy indexing does not work correctly\")", "def test01(self):\n a = np.arange(1, 1e3)\n b = bcolz.carray(a, chunklen=10)\n sl = [0, 300, 998]\n b[sl] = (5, 10, 20)\n a[sl] = (5, 10, 20)\n # print \"b[%s] -> %r\" % (sl, b)\n assert_array_equal(b[:], a, \"fancy indexing does not work correctly\")", "def putvarboundslice(self,first_,last_,bk,bl,bu): # 3\n if bk is None: raise TypeError(\"Invalid type for argument bk\")\n if bk is None:\n bk_ = None\n else:\n try:\n bk_ = memoryview(bk)\n except TypeError:\n try:\n _tmparr_bk = array.array(\"i\",bk)\n except TypeError:\n raise TypeError(\"Argument bk has wrong type\")\n else:\n bk_ = memoryview(_tmparr_bk)\n \n else:\n if bk_.format != \"i\":\n bk_ = memoryview(array.array(\"i\",bk))\n \n if bk_ is not None and len(bk_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bk has wrong length\")\n if bl is None: raise TypeError(\"Invalid type for argument bl\")\n if bl is None:\n bl_ = None\n else:\n try:\n bl_ = memoryview(bl)\n except TypeError:\n try:\n _tmparr_bl = array.array(\"d\",bl)\n except TypeError:\n raise TypeError(\"Argument bl has wrong type\")\n else:\n bl_ = memoryview(_tmparr_bl)\n \n else:\n if bl_.format != \"d\":\n bl_ = memoryview(array.array(\"d\",bl))\n \n if bl_ is not None and len(bl_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bl has wrong length\")\n if bu is None: raise TypeError(\"Invalid type for argument bu\")\n if bu is None:\n bu_ = None\n else:\n try:\n bu_ = memoryview(bu)\n except TypeError:\n try:\n _tmparr_bu = array.array(\"d\",bu)\n except TypeError:\n raise TypeError(\"Argument bu has wrong type\")\n else:\n bu_ = memoryview(_tmparr_bu)\n \n else:\n if bu_.format != \"d\":\n bu_ = memoryview(array.array(\"d\",bu))\n \n if bu_ is not None and len(bu_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bu has wrong length\")\n res = self.__obj.putvarboundslice(first_,last_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarboundlistconst(self,sub_,bkx_,blx_,bux_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n res = __library__.MSK_XX_putvarboundlistconst(self.__nativep,num_,_sub_tmp,bkx_,blx_,bux_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getarowslicetrip(self,first_,last_,subi_,subj_,val_):\n maxnumnz_ = self.getarowslicenumnz((first_),(last_))\n _subi_minlength = (maxnumnz_)\n if (maxnumnz_) > 0 and subi_ is not None and len(subi_) != (maxnumnz_):\n raise ValueError(\"Array argument subi is not long enough: Is %d, expected %d\" % (len(subi_),(maxnumnz_)))\n if isinstance(subi_,numpy.ndarray) and not subi_.flags.writeable:\n raise ValueError(\"Argument subi must be writable\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n _subj_minlength = (maxnumnz_)\n if (maxnumnz_) > 0 and subj_ is not None and len(subj_) != (maxnumnz_):\n raise ValueError(\"Array argument subj is not long enough: Is %d, expected %d\" % (len(subj_),(maxnumnz_)))\n if isinstance(subj_,numpy.ndarray) and not subj_.flags.writeable:\n raise ValueError(\"Argument subj must be writable\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n _val_minlength = (maxnumnz_)\n if (maxnumnz_) > 0 and val_ is not None and len(val_) != (maxnumnz_):\n raise ValueError(\"Array argument val is not long enough: Is %d, expected %d\" % (len(val_),(maxnumnz_)))\n if isinstance(val_,numpy.ndarray) and not val_.flags.writeable:\n raise ValueError(\"Argument val must be writable\")\n if isinstance(val_, numpy.ndarray) and val_.dtype is numpy.dtype(numpy.float64) and val_.flags.contiguous:\n _val_copyarray = False\n _val_tmp = ctypes.cast(val_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif val_ is not None:\n _val_copyarray = True\n _val_np_tmp = numpy.zeros(len(val_),numpy.dtype(numpy.float64))\n _val_np_tmp[:] = val_\n assert _val_np_tmp.flags.contiguous\n _val_tmp = ctypes.cast(_val_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _val_copyarray = False\n _val_tmp = None\n \n surp_ = ctypes.c_int64(_subi_minlength)\n res = __library__.MSK_XX_getarowslicetrip(self.__nativep,first_,last_,maxnumnz_,ctypes.byref(surp_),_subi_tmp,_subj_tmp,_val_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _subi_copyarray:\n subi_[:] = _subi_np_tmp\n if _subj_copyarray:\n subj_[:] = _subj_np_tmp\n if _val_copyarray:\n val_[:] = _val_np_tmp", "def test05(self):\n a = np.arange(1, 1e2)\n b = bcolz.carray(a, chunklen=10)\n sl = a < 5\n b[sl] = range(6, 10)\n a[sl] = range(6, 10)\n # print \"b[%s] -> %r\" % (sl, b)\n assert_array_equal(b[:], a, \"fancy indexing does not work correctly\")", "def getarowslicetrip(self,first_,last_,subi,subj,val): # 3\n maxnumnz_ = self.getaslicenumnz(accmode.con,(first_),(last_))\n _copyback_subi = False\n if subi is None:\n subi_ = None\n else:\n try:\n subi_ = memoryview(subi)\n except TypeError:\n try:\n _tmparr_subi = array.array(\"i\",subi)\n except TypeError:\n raise TypeError(\"Argument subi has wrong type\")\n else:\n subi_ = memoryview(_tmparr_subi)\n _copyback_subi = True\n else:\n if subi_.format != \"i\":\n subi_ = memoryview(array.array(\"i\",subi))\n _copyback_subi = True\n if subi_ is not None and len(subi_) != (maxnumnz_):\n raise ValueError(\"Array argument subi has wrong length\")\n _copyback_subj = False\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n _copyback_subj = True\n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n _copyback_subj = True\n if subj_ is not None and len(subj_) != (maxnumnz_):\n raise ValueError(\"Array argument subj has wrong length\")\n _copyback_val = False\n if val is None:\n val_ = None\n else:\n try:\n val_ = memoryview(val)\n except TypeError:\n try:\n _tmparr_val = array.array(\"d\",val)\n except TypeError:\n raise TypeError(\"Argument val has wrong type\")\n else:\n val_ = memoryview(_tmparr_val)\n _copyback_val = True\n else:\n if val_.format != \"d\":\n val_ = memoryview(array.array(\"d\",val))\n _copyback_val = True\n if val_ is not None and len(val_) != (maxnumnz_):\n raise ValueError(\"Array argument val has wrong length\")\n res = self.__obj.getarowslicetrip(first_,last_,maxnumnz_,len(subi),subi_,subj_,val_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_val:\n val[:] = _tmparr_val\n if _copyback_subj:\n subj[:] = _tmparr_subj\n if _copyback_subi:\n subi[:] = _tmparr_subi", "def test04(self):\n a = np.arange(1, 1e2)\n b = bcolz.carray(a, chunklen=10)\n bc = (a > 5) & (a < 40)\n sl = bcolz.carray(bc)\n b[sl] = 3.\n a[bc] = 3.\n # print \"b[%s] -> %r\" % (sl, b)\n assert_array_equal(b[:], a, \"fancy indexing does not work correctly\")", "def add_replica_columns(self):\n\n # Grow from left to right, toward the array\n for bit, port in enumerate(self.left_rbl):\n offset = self.bitcell_offset.scale(-len(self.left_rbl) + bit, -self.rbl[0] - 1) + self.unused_offset\n self.replica_col_insts[bit].place(offset)\n # Grow to the right of the bitcell array, array outward\n for bit, port in enumerate(self.right_rbl):\n offset = self.bitcell_array_inst.lr() + self.bitcell_offset.scale(bit, -self.rbl[0] - 1)\n self.replica_col_insts[self.rbl[0] + bit].place(offset)\n\n # Replica dummy rows\n # Add the dummy rows even if we aren't adding the replica column to this bitcell array\n # These grow up, toward the array\n for bit in range(self.rbl[0]):\n dummy_offset = self.bitcell_offset.scale(0, -self.rbl[0] + bit + (-self.rbl[0] + bit) % 2) + self.unused_offset\n self.dummy_row_replica_insts[bit].place(offset=dummy_offset,\n mirror=\"MX\" if (-self.rbl[0] + bit) % 2 else \"R0\")\n # These grow up, away from the array\n for bit in range(self.rbl[1]):\n dummy_offset = self.bitcell_offset.scale(0, bit + bit % 2) + self.bitcell_array_inst.ul()\n self.dummy_row_replica_insts[self.rbl[0] + bit].place(offset=dummy_offset,\n mirror=\"MX\" if (self.row_size + bit) % 2 else \"R0\")", "def putbararowlist(self,subi_,ptrb_,ptre_,subj_,nummat_,matidx_,weights_):\n num_ = None\n if num_ is None:\n num_ = len(subi_)\n elif num_ != len(subi_):\n raise IndexError(\"Inconsistent length of array subi\")\n if num_ is None:\n num_ = len(ptrb_)\n elif num_ != len(ptrb_):\n raise IndexError(\"Inconsistent length of array ptrb\")\n if num_ is None:\n num_ = len(ptre_)\n elif num_ != len(ptre_):\n raise IndexError(\"Inconsistent length of array ptre\")\n if subi_ is None:\n raise ValueError(\"Argument subi cannot be None\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n if ptrb_ is None:\n raise ValueError(\"Argument ptrb cannot be None\")\n if ptrb_ is None:\n raise ValueError(\"Argument ptrb may not be None\")\n if isinstance(ptrb_, numpy.ndarray) and ptrb_.dtype is numpy.dtype(numpy.int64) and ptrb_.flags.contiguous:\n _ptrb_copyarray = False\n _ptrb_tmp = ctypes.cast(ptrb_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptrb_ is not None:\n _ptrb_copyarray = True\n _ptrb_np_tmp = numpy.zeros(len(ptrb_),numpy.dtype(numpy.int64))\n _ptrb_np_tmp[:] = ptrb_\n assert _ptrb_np_tmp.flags.contiguous\n _ptrb_tmp = ctypes.cast(_ptrb_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptrb_copyarray = False\n _ptrb_tmp = None\n \n if ptre_ is None:\n raise ValueError(\"Argument ptre cannot be None\")\n if ptre_ is None:\n raise ValueError(\"Argument ptre may not be None\")\n if isinstance(ptre_, numpy.ndarray) and ptre_.dtype is numpy.dtype(numpy.int64) and ptre_.flags.contiguous:\n _ptre_copyarray = False\n _ptre_tmp = ctypes.cast(ptre_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptre_ is not None:\n _ptre_copyarray = True\n _ptre_np_tmp = numpy.zeros(len(ptre_),numpy.dtype(numpy.int64))\n _ptre_np_tmp[:] = ptre_\n assert _ptre_np_tmp.flags.contiguous\n _ptre_tmp = ctypes.cast(_ptre_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptre_copyarray = False\n _ptre_tmp = None\n \n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n _nummat_minlength = len((subj_))\n if len((subj_)) > 0 and nummat_ is not None and len(nummat_) != len((subj_)):\n raise ValueError(\"Array argument nummat is not long enough: Is %d, expected %d\" % (len(nummat_),len((subj_))))\n if nummat_ is None:\n raise ValueError(\"Argument nummat cannot be None\")\n if nummat_ is None:\n raise ValueError(\"Argument nummat may not be None\")\n if isinstance(nummat_, numpy.ndarray) and nummat_.dtype is numpy.dtype(numpy.int64) and nummat_.flags.contiguous:\n _nummat_copyarray = False\n _nummat_tmp = ctypes.cast(nummat_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif nummat_ is not None:\n _nummat_copyarray = True\n _nummat_np_tmp = numpy.zeros(len(nummat_),numpy.dtype(numpy.int64))\n _nummat_np_tmp[:] = nummat_\n assert _nummat_np_tmp.flags.contiguous\n _nummat_tmp = ctypes.cast(_nummat_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _nummat_copyarray = False\n _nummat_tmp = None\n \n _matidx_minlength = sum((nummat_))\n if sum((nummat_)) > 0 and matidx_ is not None and len(matidx_) != sum((nummat_)):\n raise ValueError(\"Array argument matidx is not long enough: Is %d, expected %d\" % (len(matidx_),sum((nummat_))))\n if matidx_ is None:\n raise ValueError(\"Argument matidx cannot be None\")\n if matidx_ is None:\n raise ValueError(\"Argument matidx may not be None\")\n if isinstance(matidx_, numpy.ndarray) and matidx_.dtype is numpy.dtype(numpy.int64) and matidx_.flags.contiguous:\n _matidx_copyarray = False\n _matidx_tmp = ctypes.cast(matidx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif matidx_ is not None:\n _matidx_copyarray = True\n _matidx_np_tmp = numpy.zeros(len(matidx_),numpy.dtype(numpy.int64))\n _matidx_np_tmp[:] = matidx_\n assert _matidx_np_tmp.flags.contiguous\n _matidx_tmp = ctypes.cast(_matidx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _matidx_copyarray = False\n _matidx_tmp = None\n \n _weights_minlength = sum((nummat_))\n if sum((nummat_)) > 0 and weights_ is not None and len(weights_) != sum((nummat_)):\n raise ValueError(\"Array argument weights is not long enough: Is %d, expected %d\" % (len(weights_),sum((nummat_))))\n if weights_ is None:\n raise ValueError(\"Argument weights cannot be None\")\n if weights_ is None:\n raise ValueError(\"Argument weights may not be None\")\n if isinstance(weights_, numpy.ndarray) and weights_.dtype is numpy.dtype(numpy.float64) and weights_.flags.contiguous:\n _weights_copyarray = False\n _weights_tmp = ctypes.cast(weights_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif weights_ is not None:\n _weights_copyarray = True\n _weights_np_tmp = numpy.zeros(len(weights_),numpy.dtype(numpy.float64))\n _weights_np_tmp[:] = weights_\n assert _weights_np_tmp.flags.contiguous\n _weights_tmp = ctypes.cast(_weights_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _weights_copyarray = False\n _weights_tmp = None\n \n res = __library__.MSK_XX_putbararowlist(self.__nativep,num_,_subi_tmp,_ptrb_tmp,_ptre_tmp,_subj_tmp,_nummat_tmp,_matidx_tmp,_weights_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def test01b(self):\n b = bcolz.arange(self.N, dflt=1, rootdir=self.rootdir)\n b.resize(self.N*3)\n a = np.arange(self.N*3)\n a[self.N:] = 1\n # print \"b->\", `b`\n assert_array_equal(a, b[:], \"Arrays are not equal\")", "def test03(self):\n a = np.arange(1, 1e2)\n b = bcolz.carray(a, chunklen=10)\n sl = a > 5\n b[sl] = 3.\n a[sl] = 3.\n # print \"b[%s] -> %r\" % (sl, b)\n assert_array_equal(b[:], a, \"fancy indexing does not work correctly\")", "def putcslice(self,first_,last_,slice_):\n _slice_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slice_ is not None and len(slice_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slice is not long enough: Is %d, expected %d\" % (len(slice_),((last_) - (first_))))\n if slice_ is None:\n raise ValueError(\"Argument slice cannot be None\")\n if slice_ is None:\n raise ValueError(\"Argument slice may not be None\")\n if isinstance(slice_, numpy.ndarray) and slice_.dtype is numpy.dtype(numpy.float64) and slice_.flags.contiguous:\n _slice_copyarray = False\n _slice_tmp = ctypes.cast(slice_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slice_ is not None:\n _slice_copyarray = True\n _slice_np_tmp = numpy.zeros(len(slice_),numpy.dtype(numpy.float64))\n _slice_np_tmp[:] = slice_\n assert _slice_np_tmp.flags.contiguous\n _slice_tmp = ctypes.cast(_slice_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slice_copyarray = False\n _slice_tmp = None\n \n res = __library__.MSK_XX_putcslice(self.__nativep,first_,last_,_slice_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getaslice(self,accmode_,first_,last_,ptrb,ptre,sub,val): # 3\n if not isinstance(accmode_,accmode): raise TypeError(\"Argument accmode has wrong type\")\n maxnumnz_ = self.getaslicenumnz((accmode_),(first_),(last_))\n _copyback_ptrb = False\n if ptrb is None:\n ptrb_ = None\n else:\n try:\n ptrb_ = memoryview(ptrb)\n except TypeError:\n try:\n _tmparr_ptrb = array.array(\"q\",ptrb)\n except TypeError:\n raise TypeError(\"Argument ptrb has wrong type\")\n else:\n ptrb_ = memoryview(_tmparr_ptrb)\n _copyback_ptrb = True\n else:\n if ptrb_.format != \"q\":\n ptrb_ = memoryview(array.array(\"q\",ptrb))\n _copyback_ptrb = True\n if ptrb_ is not None and len(ptrb_) != ((last_) - (first_)):\n raise ValueError(\"Array argument ptrb has wrong length\")\n _copyback_ptre = False\n if ptre is None:\n ptre_ = None\n else:\n try:\n ptre_ = memoryview(ptre)\n except TypeError:\n try:\n _tmparr_ptre = array.array(\"q\",ptre)\n except TypeError:\n raise TypeError(\"Argument ptre has wrong type\")\n else:\n ptre_ = memoryview(_tmparr_ptre)\n _copyback_ptre = True\n else:\n if ptre_.format != \"q\":\n ptre_ = memoryview(array.array(\"q\",ptre))\n _copyback_ptre = True\n if ptre_ is not None and len(ptre_) != ((last_) - (first_)):\n raise ValueError(\"Array argument ptre has wrong length\")\n _copyback_sub = False\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n _copyback_sub = True\n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n _copyback_sub = True\n if sub_ is not None and len(sub_) != (maxnumnz_):\n raise ValueError(\"Array argument sub has wrong length\")\n _copyback_val = False\n if val is None:\n val_ = None\n else:\n try:\n val_ = memoryview(val)\n except TypeError:\n try:\n _tmparr_val = array.array(\"d\",val)\n except TypeError:\n raise TypeError(\"Argument val has wrong type\")\n else:\n val_ = memoryview(_tmparr_val)\n _copyback_val = True\n else:\n if val_.format != \"d\":\n val_ = memoryview(array.array(\"d\",val))\n _copyback_val = True\n if val_ is not None and len(val_) != (maxnumnz_):\n raise ValueError(\"Array argument val has wrong length\")\n res = self.__obj.getaslice64(accmode_,first_,last_,maxnumnz_,len(sub),ptrb_,ptre_,sub_,val_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_val:\n val[:] = _tmparr_val\n if _copyback_sub:\n sub[:] = _tmparr_sub\n if _copyback_ptre:\n ptre[:] = _tmparr_ptre\n if _copyback_ptrb:\n ptrb[:] = _tmparr_ptrb", "def putarowlist(self,sub_,ptrb_,ptre_,asub_,aval_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(ptrb_)\n elif num_ != len(ptrb_):\n raise IndexError(\"Inconsistent length of array ptrb\")\n if num_ is None:\n num_ = len(ptre_)\n elif num_ != len(ptre_):\n raise IndexError(\"Inconsistent length of array ptre\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n if ptrb_ is None:\n raise ValueError(\"Argument ptrb cannot be None\")\n if ptrb_ is None:\n raise ValueError(\"Argument ptrb may not be None\")\n if isinstance(ptrb_, numpy.ndarray) and ptrb_.dtype is numpy.dtype(numpy.int64) and ptrb_.flags.contiguous:\n _ptrb_copyarray = False\n _ptrb_tmp = ctypes.cast(ptrb_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptrb_ is not None:\n _ptrb_copyarray = True\n _ptrb_np_tmp = numpy.zeros(len(ptrb_),numpy.dtype(numpy.int64))\n _ptrb_np_tmp[:] = ptrb_\n assert _ptrb_np_tmp.flags.contiguous\n _ptrb_tmp = ctypes.cast(_ptrb_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptrb_copyarray = False\n _ptrb_tmp = None\n \n if ptre_ is None:\n raise ValueError(\"Argument ptre cannot be None\")\n if ptre_ is None:\n raise ValueError(\"Argument ptre may not be None\")\n if isinstance(ptre_, numpy.ndarray) and ptre_.dtype is numpy.dtype(numpy.int64) and ptre_.flags.contiguous:\n _ptre_copyarray = False\n _ptre_tmp = ctypes.cast(ptre_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptre_ is not None:\n _ptre_copyarray = True\n _ptre_np_tmp = numpy.zeros(len(ptre_),numpy.dtype(numpy.int64))\n _ptre_np_tmp[:] = ptre_\n assert _ptre_np_tmp.flags.contiguous\n _ptre_tmp = ctypes.cast(_ptre_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptre_copyarray = False\n _ptre_tmp = None\n \n if asub_ is None:\n raise ValueError(\"Argument asub cannot be None\")\n if asub_ is None:\n raise ValueError(\"Argument asub may not be None\")\n if isinstance(asub_, numpy.ndarray) and asub_.dtype is numpy.dtype(numpy.int32) and asub_.flags.contiguous:\n _asub_copyarray = False\n _asub_tmp = ctypes.cast(asub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif asub_ is not None:\n _asub_copyarray = True\n _asub_np_tmp = numpy.zeros(len(asub_),numpy.dtype(numpy.int32))\n _asub_np_tmp[:] = asub_\n assert _asub_np_tmp.flags.contiguous\n _asub_tmp = ctypes.cast(_asub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _asub_copyarray = False\n _asub_tmp = None\n \n if aval_ is None:\n raise ValueError(\"Argument aval cannot be None\")\n if aval_ is None:\n raise ValueError(\"Argument aval may not be None\")\n if isinstance(aval_, numpy.ndarray) and aval_.dtype is numpy.dtype(numpy.float64) and aval_.flags.contiguous:\n _aval_copyarray = False\n _aval_tmp = ctypes.cast(aval_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif aval_ is not None:\n _aval_copyarray = True\n _aval_np_tmp = numpy.zeros(len(aval_),numpy.dtype(numpy.float64))\n _aval_np_tmp[:] = aval_\n assert _aval_np_tmp.flags.contiguous\n _aval_tmp = ctypes.cast(_aval_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _aval_copyarray = False\n _aval_tmp = None\n \n res = __library__.MSK_XX_putarowlist64(self.__nativep,num_,_sub_tmp,_ptrb_tmp,_ptre_tmp,_asub_tmp,_aval_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarboundlist(self,sub_,bkx_,blx_,bux_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(bkx_)\n elif num_ != len(bkx_):\n raise IndexError(\"Inconsistent length of array bkx\")\n if num_ is None:\n num_ = len(blx_)\n elif num_ != len(blx_):\n raise IndexError(\"Inconsistent length of array blx\")\n if num_ is None:\n num_ = len(bux_)\n elif num_ != len(bux_):\n raise IndexError(\"Inconsistent length of array bux\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n if bkx_ is None:\n raise ValueError(\"Argument bkx cannot be None\")\n if bkx_ is None:\n raise ValueError(\"Argument bkx may not be None\")\n if bkx_ is not None:\n _bkx_tmp = (ctypes.c_int32 * len(bkx_))(*bkx_)\n else:\n _bkx_tmp = None\n if blx_ is None:\n raise ValueError(\"Argument blx cannot be None\")\n if blx_ is None:\n raise ValueError(\"Argument blx may not be None\")\n if isinstance(blx_, numpy.ndarray) and blx_.dtype is numpy.dtype(numpy.float64) and blx_.flags.contiguous:\n _blx_copyarray = False\n _blx_tmp = ctypes.cast(blx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif blx_ is not None:\n _blx_copyarray = True\n _blx_np_tmp = numpy.zeros(len(blx_),numpy.dtype(numpy.float64))\n _blx_np_tmp[:] = blx_\n assert _blx_np_tmp.flags.contiguous\n _blx_tmp = ctypes.cast(_blx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _blx_copyarray = False\n _blx_tmp = None\n \n if bux_ is None:\n raise ValueError(\"Argument bux cannot be None\")\n if bux_ is None:\n raise ValueError(\"Argument bux may not be None\")\n if isinstance(bux_, numpy.ndarray) and bux_.dtype is numpy.dtype(numpy.float64) and bux_.flags.contiguous:\n _bux_copyarray = False\n _bux_tmp = ctypes.cast(bux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif bux_ is not None:\n _bux_copyarray = True\n _bux_np_tmp = numpy.zeros(len(bux_),numpy.dtype(numpy.float64))\n _bux_np_tmp[:] = bux_\n assert _bux_np_tmp.flags.contiguous\n _bux_tmp = ctypes.cast(_bux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _bux_copyarray = False\n _bux_tmp = None\n \n res = __library__.MSK_XX_putvarboundlist(self.__nativep,num_,_sub_tmp,_bkx_tmp,_blx_tmp,_bux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)" ]

[ "0.7589353", "0.7360616", "0.6743218", "0.64514834", "0.6416378", "0.64101464", "0.63146544", "0.6266777", "0.6082965", "0.58759755", "0.57552385", "0.5581388", "0.55421555", "0.54518884", "0.53525954", "0.53166443", "0.52935916", "0.52841985", "0.5253678", "0.5235242", "0.5223855", "0.52160615", "0.52095115", "0.5202467", "0.5198736", "0.5194537", "0.51639515", "0.5141664", "0.51343155", "0.50813115" ]

[ "def putacollist(self,sub,ptrb,ptre,asub,aval): # 3\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(ptrb)\n elif num_ != len(ptrb):\n raise IndexError(\"Inconsistent length of array ptrb\")\n if num_ is None:\n num_ = len(ptre)\n elif num_ != len(ptre):\n raise IndexError(\"Inconsistent length of array ptre\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if ptrb is None: raise TypeError(\"Invalid type for argument ptrb\")\n if ptrb is None:\n ptrb_ = None\n else:\n try:\n ptrb_ = memoryview(ptrb)\n except TypeError:\n try:\n _tmparr_ptrb = array.array(\"q\",ptrb)\n except TypeError:\n raise TypeError(\"Argument ptrb has wrong type\")\n else:\n ptrb_ = memoryview(_tmparr_ptrb)\n \n else:\n if ptrb_.format != \"q\":\n ptrb_ = memoryview(array.array(\"q\",ptrb))\n \n if ptre is None: raise TypeError(\"Invalid type for argument ptre\")\n if ptre is None:\n ptre_ = None\n else:\n try:\n ptre_ = memoryview(ptre)\n except TypeError:\n try:\n _tmparr_ptre = array.array(\"q\",ptre)\n except TypeError:\n raise TypeError(\"Argument ptre has wrong type\")\n else:\n ptre_ = memoryview(_tmparr_ptre)\n \n else:\n if ptre_.format != \"q\":\n ptre_ = memoryview(array.array(\"q\",ptre))\n \n if asub is None: raise TypeError(\"Invalid type for argument asub\")\n if asub is None:\n asub_ = None\n else:\n try:\n asub_ = memoryview(asub)\n except TypeError:\n try:\n _tmparr_asub = array.array(\"i\",asub)\n except TypeError:\n raise TypeError(\"Argument asub has wrong type\")\n else:\n asub_ = memoryview(_tmparr_asub)\n \n else:\n if asub_.format != \"i\":\n asub_ = memoryview(array.array(\"i\",asub))\n \n if aval is None: raise TypeError(\"Invalid type for argument aval\")\n if aval is None:\n aval_ = None\n else:\n try:\n aval_ = memoryview(aval)\n except TypeError:\n try:\n _tmparr_aval = array.array(\"d\",aval)\n except TypeError:\n raise TypeError(\"Argument aval has wrong type\")\n else:\n aval_ = memoryview(_tmparr_aval)\n \n else:\n if aval_.format != \"d\":\n aval_ = memoryview(array.array(\"d\",aval))\n \n res = self.__obj.putacollist64(num_,sub_,ptrb_,ptre_,asub_,aval_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarboundlistconst(self,sub_,bkx_,blx_,bux_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n res = __library__.MSK_XX_putvarboundlistconst(self.__nativep,num_,_sub_tmp,bkx_,blx_,bux_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putarowlist(self,sub_,ptrb_,ptre_,asub_,aval_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(ptrb_)\n elif num_ != len(ptrb_):\n raise IndexError(\"Inconsistent length of array ptrb\")\n if num_ is None:\n num_ = len(ptre_)\n elif num_ != len(ptre_):\n raise IndexError(\"Inconsistent length of array ptre\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n if ptrb_ is None:\n raise ValueError(\"Argument ptrb cannot be None\")\n if ptrb_ is None:\n raise ValueError(\"Argument ptrb may not be None\")\n if isinstance(ptrb_, numpy.ndarray) and ptrb_.dtype is numpy.dtype(numpy.int64) and ptrb_.flags.contiguous:\n _ptrb_copyarray = False\n _ptrb_tmp = ctypes.cast(ptrb_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptrb_ is not None:\n _ptrb_copyarray = True\n _ptrb_np_tmp = numpy.zeros(len(ptrb_),numpy.dtype(numpy.int64))\n _ptrb_np_tmp[:] = ptrb_\n assert _ptrb_np_tmp.flags.contiguous\n _ptrb_tmp = ctypes.cast(_ptrb_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptrb_copyarray = False\n _ptrb_tmp = None\n \n if ptre_ is None:\n raise ValueError(\"Argument ptre cannot be None\")\n if ptre_ is None:\n raise ValueError(\"Argument ptre may not be None\")\n if isinstance(ptre_, numpy.ndarray) and ptre_.dtype is numpy.dtype(numpy.int64) and ptre_.flags.contiguous:\n _ptre_copyarray = False\n _ptre_tmp = ctypes.cast(ptre_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptre_ is not None:\n _ptre_copyarray = True\n _ptre_np_tmp = numpy.zeros(len(ptre_),numpy.dtype(numpy.int64))\n _ptre_np_tmp[:] = ptre_\n assert _ptre_np_tmp.flags.contiguous\n _ptre_tmp = ctypes.cast(_ptre_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptre_copyarray = False\n _ptre_tmp = None\n \n if asub_ is None:\n raise ValueError(\"Argument asub cannot be None\")\n if asub_ is None:\n raise ValueError(\"Argument asub may not be None\")\n if isinstance(asub_, numpy.ndarray) and asub_.dtype is numpy.dtype(numpy.int32) and asub_.flags.contiguous:\n _asub_copyarray = False\n _asub_tmp = ctypes.cast(asub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif asub_ is not None:\n _asub_copyarray = True\n _asub_np_tmp = numpy.zeros(len(asub_),numpy.dtype(numpy.int32))\n _asub_np_tmp[:] = asub_\n assert _asub_np_tmp.flags.contiguous\n _asub_tmp = ctypes.cast(_asub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _asub_copyarray = False\n _asub_tmp = None\n \n if aval_ is None:\n raise ValueError(\"Argument aval cannot be None\")\n if aval_ is None:\n raise ValueError(\"Argument aval may not be None\")\n if isinstance(aval_, numpy.ndarray) and aval_.dtype is numpy.dtype(numpy.float64) and aval_.flags.contiguous:\n _aval_copyarray = False\n _aval_tmp = ctypes.cast(aval_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif aval_ is not None:\n _aval_copyarray = True\n _aval_np_tmp = numpy.zeros(len(aval_),numpy.dtype(numpy.float64))\n _aval_np_tmp[:] = aval_\n assert _aval_np_tmp.flags.contiguous\n _aval_tmp = ctypes.cast(_aval_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _aval_copyarray = False\n _aval_tmp = None\n \n res = __library__.MSK_XX_putarowlist64(self.__nativep,num_,_sub_tmp,_ptrb_tmp,_ptre_tmp,_asub_tmp,_aval_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbararowlist(self,subi_,ptrb_,ptre_,subj_,nummat_,matidx_,weights_):\n num_ = None\n if num_ is None:\n num_ = len(subi_)\n elif num_ != len(subi_):\n raise IndexError(\"Inconsistent length of array subi\")\n if num_ is None:\n num_ = len(ptrb_)\n elif num_ != len(ptrb_):\n raise IndexError(\"Inconsistent length of array ptrb\")\n if num_ is None:\n num_ = len(ptre_)\n elif num_ != len(ptre_):\n raise IndexError(\"Inconsistent length of array ptre\")\n if subi_ is None:\n raise ValueError(\"Argument subi cannot be None\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n if ptrb_ is None:\n raise ValueError(\"Argument ptrb cannot be None\")\n if ptrb_ is None:\n raise ValueError(\"Argument ptrb may not be None\")\n if isinstance(ptrb_, numpy.ndarray) and ptrb_.dtype is numpy.dtype(numpy.int64) and ptrb_.flags.contiguous:\n _ptrb_copyarray = False\n _ptrb_tmp = ctypes.cast(ptrb_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptrb_ is not None:\n _ptrb_copyarray = True\n _ptrb_np_tmp = numpy.zeros(len(ptrb_),numpy.dtype(numpy.int64))\n _ptrb_np_tmp[:] = ptrb_\n assert _ptrb_np_tmp.flags.contiguous\n _ptrb_tmp = ctypes.cast(_ptrb_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptrb_copyarray = False\n _ptrb_tmp = None\n \n if ptre_ is None:\n raise ValueError(\"Argument ptre cannot be None\")\n if ptre_ is None:\n raise ValueError(\"Argument ptre may not be None\")\n if isinstance(ptre_, numpy.ndarray) and ptre_.dtype is numpy.dtype(numpy.int64) and ptre_.flags.contiguous:\n _ptre_copyarray = False\n _ptre_tmp = ctypes.cast(ptre_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptre_ is not None:\n _ptre_copyarray = True\n _ptre_np_tmp = numpy.zeros(len(ptre_),numpy.dtype(numpy.int64))\n _ptre_np_tmp[:] = ptre_\n assert _ptre_np_tmp.flags.contiguous\n _ptre_tmp = ctypes.cast(_ptre_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptre_copyarray = False\n _ptre_tmp = None\n \n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n _nummat_minlength = len((subj_))\n if len((subj_)) > 0 and nummat_ is not None and len(nummat_) != len((subj_)):\n raise ValueError(\"Array argument nummat is not long enough: Is %d, expected %d\" % (len(nummat_),len((subj_))))\n if nummat_ is None:\n raise ValueError(\"Argument nummat cannot be None\")\n if nummat_ is None:\n raise ValueError(\"Argument nummat may not be None\")\n if isinstance(nummat_, numpy.ndarray) and nummat_.dtype is numpy.dtype(numpy.int64) and nummat_.flags.contiguous:\n _nummat_copyarray = False\n _nummat_tmp = ctypes.cast(nummat_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif nummat_ is not None:\n _nummat_copyarray = True\n _nummat_np_tmp = numpy.zeros(len(nummat_),numpy.dtype(numpy.int64))\n _nummat_np_tmp[:] = nummat_\n assert _nummat_np_tmp.flags.contiguous\n _nummat_tmp = ctypes.cast(_nummat_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _nummat_copyarray = False\n _nummat_tmp = None\n \n _matidx_minlength = sum((nummat_))\n if sum((nummat_)) > 0 and matidx_ is not None and len(matidx_) != sum((nummat_)):\n raise ValueError(\"Array argument matidx is not long enough: Is %d, expected %d\" % (len(matidx_),sum((nummat_))))\n if matidx_ is None:\n raise ValueError(\"Argument matidx cannot be None\")\n if matidx_ is None:\n raise ValueError(\"Argument matidx may not be None\")\n if isinstance(matidx_, numpy.ndarray) and matidx_.dtype is numpy.dtype(numpy.int64) and matidx_.flags.contiguous:\n _matidx_copyarray = False\n _matidx_tmp = ctypes.cast(matidx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif matidx_ is not None:\n _matidx_copyarray = True\n _matidx_np_tmp = numpy.zeros(len(matidx_),numpy.dtype(numpy.int64))\n _matidx_np_tmp[:] = matidx_\n assert _matidx_np_tmp.flags.contiguous\n _matidx_tmp = ctypes.cast(_matidx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _matidx_copyarray = False\n _matidx_tmp = None\n \n _weights_minlength = sum((nummat_))\n if sum((nummat_)) > 0 and weights_ is not None and len(weights_) != sum((nummat_)):\n raise ValueError(\"Array argument weights is not long enough: Is %d, expected %d\" % (len(weights_),sum((nummat_))))\n if weights_ is None:\n raise ValueError(\"Argument weights cannot be None\")\n if weights_ is None:\n raise ValueError(\"Argument weights may not be None\")\n if isinstance(weights_, numpy.ndarray) and weights_.dtype is numpy.dtype(numpy.float64) and weights_.flags.contiguous:\n _weights_copyarray = False\n _weights_tmp = ctypes.cast(weights_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif weights_ is not None:\n _weights_copyarray = True\n _weights_np_tmp = numpy.zeros(len(weights_),numpy.dtype(numpy.float64))\n _weights_np_tmp[:] = weights_\n assert _weights_np_tmp.flags.contiguous\n _weights_tmp = ctypes.cast(_weights_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _weights_copyarray = False\n _weights_tmp = None\n \n res = __library__.MSK_XX_putbararowlist(self.__nativep,num_,_subi_tmp,_ptrb_tmp,_ptre_tmp,_subj_tmp,_nummat_tmp,_matidx_tmp,_weights_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarboundlist(self,sub_,bkx_,blx_,bux_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(bkx_)\n elif num_ != len(bkx_):\n raise IndexError(\"Inconsistent length of array bkx\")\n if num_ is None:\n num_ = len(blx_)\n elif num_ != len(blx_):\n raise IndexError(\"Inconsistent length of array blx\")\n if num_ is None:\n num_ = len(bux_)\n elif num_ != len(bux_):\n raise IndexError(\"Inconsistent length of array bux\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n if bkx_ is None:\n raise ValueError(\"Argument bkx cannot be None\")\n if bkx_ is None:\n raise ValueError(\"Argument bkx may not be None\")\n if bkx_ is not None:\n _bkx_tmp = (ctypes.c_int32 * len(bkx_))(*bkx_)\n else:\n _bkx_tmp = None\n if blx_ is None:\n raise ValueError(\"Argument blx cannot be None\")\n if blx_ is None:\n raise ValueError(\"Argument blx may not be None\")\n if isinstance(blx_, numpy.ndarray) and blx_.dtype is numpy.dtype(numpy.float64) and blx_.flags.contiguous:\n _blx_copyarray = False\n _blx_tmp = ctypes.cast(blx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif blx_ is not None:\n _blx_copyarray = True\n _blx_np_tmp = numpy.zeros(len(blx_),numpy.dtype(numpy.float64))\n _blx_np_tmp[:] = blx_\n assert _blx_np_tmp.flags.contiguous\n _blx_tmp = ctypes.cast(_blx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _blx_copyarray = False\n _blx_tmp = None\n \n if bux_ is None:\n raise ValueError(\"Argument bux cannot be None\")\n if bux_ is None:\n raise ValueError(\"Argument bux may not be None\")\n if isinstance(bux_, numpy.ndarray) and bux_.dtype is numpy.dtype(numpy.float64) and bux_.flags.contiguous:\n _bux_copyarray = False\n _bux_tmp = ctypes.cast(bux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif bux_ is not None:\n _bux_copyarray = True\n _bux_np_tmp = numpy.zeros(len(bux_),numpy.dtype(numpy.float64))\n _bux_np_tmp[:] = bux_\n assert _bux_np_tmp.flags.contiguous\n _bux_tmp = ctypes.cast(_bux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _bux_copyarray = False\n _bux_tmp = None\n \n res = __library__.MSK_XX_putvarboundlist(self.__nativep,num_,_sub_tmp,_bkx_tmp,_blx_tmp,_bux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putacolslice(self,first_,last_,ptrb_,ptre_,asub_,aval_):\n if ptrb_ is None:\n raise ValueError(\"Argument ptrb cannot be None\")\n if ptrb_ is None:\n raise ValueError(\"Argument ptrb may not be None\")\n if isinstance(ptrb_, numpy.ndarray) and ptrb_.dtype is numpy.dtype(numpy.int64) and ptrb_.flags.contiguous:\n _ptrb_copyarray = False\n _ptrb_tmp = ctypes.cast(ptrb_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptrb_ is not None:\n _ptrb_copyarray = True\n _ptrb_np_tmp = numpy.zeros(len(ptrb_),numpy.dtype(numpy.int64))\n _ptrb_np_tmp[:] = ptrb_\n assert _ptrb_np_tmp.flags.contiguous\n _ptrb_tmp = ctypes.cast(_ptrb_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptrb_copyarray = False\n _ptrb_tmp = None\n \n if ptre_ is None:\n raise ValueError(\"Argument ptre cannot be None\")\n if ptre_ is None:\n raise ValueError(\"Argument ptre may not be None\")\n if isinstance(ptre_, numpy.ndarray) and ptre_.dtype is numpy.dtype(numpy.int64) and ptre_.flags.contiguous:\n _ptre_copyarray = False\n _ptre_tmp = ctypes.cast(ptre_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptre_ is not None:\n _ptre_copyarray = True\n _ptre_np_tmp = numpy.zeros(len(ptre_),numpy.dtype(numpy.int64))\n _ptre_np_tmp[:] = ptre_\n assert _ptre_np_tmp.flags.contiguous\n _ptre_tmp = ctypes.cast(_ptre_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptre_copyarray = False\n _ptre_tmp = None\n \n if asub_ is None:\n raise ValueError(\"Argument asub cannot be None\")\n if asub_ is None:\n raise ValueError(\"Argument asub may not be None\")\n if isinstance(asub_, numpy.ndarray) and asub_.dtype is numpy.dtype(numpy.int32) and asub_.flags.contiguous:\n _asub_copyarray = False\n _asub_tmp = ctypes.cast(asub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif asub_ is not None:\n _asub_copyarray = True\n _asub_np_tmp = numpy.zeros(len(asub_),numpy.dtype(numpy.int32))\n _asub_np_tmp[:] = asub_\n assert _asub_np_tmp.flags.contiguous\n _asub_tmp = ctypes.cast(_asub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _asub_copyarray = False\n _asub_tmp = None\n \n if aval_ is None:\n raise ValueError(\"Argument aval cannot be None\")\n if aval_ is None:\n raise ValueError(\"Argument aval may not be None\")\n if isinstance(aval_, numpy.ndarray) and aval_.dtype is numpy.dtype(numpy.float64) and aval_.flags.contiguous:\n _aval_copyarray = False\n _aval_tmp = ctypes.cast(aval_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif aval_ is not None:\n _aval_copyarray = True\n _aval_np_tmp = numpy.zeros(len(aval_),numpy.dtype(numpy.float64))\n _aval_np_tmp[:] = aval_\n assert _aval_np_tmp.flags.contiguous\n _aval_tmp = ctypes.cast(_aval_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _aval_copyarray = False\n _aval_tmp = None\n \n res = __library__.MSK_XX_putacolslice64(self.__nativep,first_,last_,_ptrb_tmp,_ptre_tmp,_asub_tmp,_aval_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putarowlist(self,sub,ptrb,ptre,asub,aval): # 3\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(ptrb)\n elif num_ != len(ptrb):\n raise IndexError(\"Inconsistent length of array ptrb\")\n if num_ is None:\n num_ = len(ptre)\n elif num_ != len(ptre):\n raise IndexError(\"Inconsistent length of array ptre\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if ptrb is None: raise TypeError(\"Invalid type for argument ptrb\")\n if ptrb is None:\n ptrb_ = None\n else:\n try:\n ptrb_ = memoryview(ptrb)\n except TypeError:\n try:\n _tmparr_ptrb = array.array(\"q\",ptrb)\n except TypeError:\n raise TypeError(\"Argument ptrb has wrong type\")\n else:\n ptrb_ = memoryview(_tmparr_ptrb)\n \n else:\n if ptrb_.format != \"q\":\n ptrb_ = memoryview(array.array(\"q\",ptrb))\n \n if ptre is None: raise TypeError(\"Invalid type for argument ptre\")\n if ptre is None:\n ptre_ = None\n else:\n try:\n ptre_ = memoryview(ptre)\n except TypeError:\n try:\n _tmparr_ptre = array.array(\"q\",ptre)\n except TypeError:\n raise TypeError(\"Argument ptre has wrong type\")\n else:\n ptre_ = memoryview(_tmparr_ptre)\n \n else:\n if ptre_.format != \"q\":\n ptre_ = memoryview(array.array(\"q\",ptre))\n \n if asub is None: raise TypeError(\"Invalid type for argument asub\")\n if asub is None:\n asub_ = None\n else:\n try:\n asub_ = memoryview(asub)\n except TypeError:\n try:\n _tmparr_asub = array.array(\"i\",asub)\n except TypeError:\n raise TypeError(\"Argument asub has wrong type\")\n else:\n asub_ = memoryview(_tmparr_asub)\n \n else:\n if asub_.format != \"i\":\n asub_ = memoryview(array.array(\"i\",asub))\n \n if aval is None: raise TypeError(\"Invalid type for argument aval\")\n if aval is None:\n aval_ = None\n else:\n try:\n aval_ = memoryview(aval)\n except TypeError:\n try:\n _tmparr_aval = array.array(\"d\",aval)\n except TypeError:\n raise TypeError(\"Argument aval has wrong type\")\n else:\n aval_ = memoryview(_tmparr_aval)\n \n else:\n if aval_.format != \"d\":\n aval_ = memoryview(array.array(\"d\",aval))\n \n res = self.__obj.putarowlist64(num_,sub_,ptrb_,ptre_,asub_,aval_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconboundlistconst(self,sub_,bkc_,blc_,buc_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n res = __library__.MSK_XX_putconboundlistconst(self.__nativep,num_,_sub_tmp,bkc_,blc_,buc_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putacolslice(self,first_,last_,ptrb,ptre,asub,aval): # 3\n if ptrb is None: raise TypeError(\"Invalid type for argument ptrb\")\n if ptrb is None:\n ptrb_ = None\n else:\n try:\n ptrb_ = memoryview(ptrb)\n except TypeError:\n try:\n _tmparr_ptrb = array.array(\"q\",ptrb)\n except TypeError:\n raise TypeError(\"Argument ptrb has wrong type\")\n else:\n ptrb_ = memoryview(_tmparr_ptrb)\n \n else:\n if ptrb_.format != \"q\":\n ptrb_ = memoryview(array.array(\"q\",ptrb))\n \n if ptre is None: raise TypeError(\"Invalid type for argument ptre\")\n if ptre is None:\n ptre_ = None\n else:\n try:\n ptre_ = memoryview(ptre)\n except TypeError:\n try:\n _tmparr_ptre = array.array(\"q\",ptre)\n except TypeError:\n raise TypeError(\"Argument ptre has wrong type\")\n else:\n ptre_ = memoryview(_tmparr_ptre)\n \n else:\n if ptre_.format != \"q\":\n ptre_ = memoryview(array.array(\"q\",ptre))\n \n if asub is None: raise TypeError(\"Invalid type for argument asub\")\n if asub is None:\n asub_ = None\n else:\n try:\n asub_ = memoryview(asub)\n except TypeError:\n try:\n _tmparr_asub = array.array(\"i\",asub)\n except TypeError:\n raise TypeError(\"Argument asub has wrong type\")\n else:\n asub_ = memoryview(_tmparr_asub)\n \n else:\n if asub_.format != \"i\":\n asub_ = memoryview(array.array(\"i\",asub))\n \n if aval is None: raise TypeError(\"Invalid type for argument aval\")\n if aval is None:\n aval_ = None\n else:\n try:\n aval_ = memoryview(aval)\n except TypeError:\n try:\n _tmparr_aval = array.array(\"d\",aval)\n except TypeError:\n raise TypeError(\"Argument aval has wrong type\")\n else:\n aval_ = memoryview(_tmparr_aval)\n \n else:\n if aval_.format != \"d\":\n aval_ = memoryview(array.array(\"d\",aval))\n \n res = self.__obj.putacolslice64(first_,last_,ptrb_,ptre_,asub_,aval_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarboundlist(self,sub,bkx,blx,bux): # 3\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(bkx)\n elif num_ != len(bkx):\n raise IndexError(\"Inconsistent length of array bkx\")\n if num_ is None:\n num_ = len(blx)\n elif num_ != len(blx):\n raise IndexError(\"Inconsistent length of array blx\")\n if num_ is None:\n num_ = len(bux)\n elif num_ != len(bux):\n raise IndexError(\"Inconsistent length of array bux\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if bkx is None: raise TypeError(\"Invalid type for argument bkx\")\n if bkx is None:\n bkx_ = None\n else:\n try:\n bkx_ = memoryview(bkx)\n except TypeError:\n try:\n _tmparr_bkx = array.array(\"i\",bkx)\n except TypeError:\n raise TypeError(\"Argument bkx has wrong type\")\n else:\n bkx_ = memoryview(_tmparr_bkx)\n \n else:\n if bkx_.format != \"i\":\n bkx_ = memoryview(array.array(\"i\",bkx))\n \n if blx is None: raise TypeError(\"Invalid type for argument blx\")\n if blx is None:\n blx_ = None\n else:\n try:\n blx_ = memoryview(blx)\n except TypeError:\n try:\n _tmparr_blx = array.array(\"d\",blx)\n except TypeError:\n raise TypeError(\"Argument blx has wrong type\")\n else:\n blx_ = memoryview(_tmparr_blx)\n \n else:\n if blx_.format != \"d\":\n blx_ = memoryview(array.array(\"d\",blx))\n \n if bux is None: raise TypeError(\"Invalid type for argument bux\")\n if bux is None:\n bux_ = None\n else:\n try:\n bux_ = memoryview(bux)\n except TypeError:\n try:\n _tmparr_bux = array.array(\"d\",bux)\n except TypeError:\n raise TypeError(\"Argument bux has wrong type\")\n else:\n bux_ = memoryview(_tmparr_bux)\n \n else:\n if bux_.format != \"d\":\n bux_ = memoryview(array.array(\"d\",bux))\n \n res = self.__obj.putvarboundlist(num_,sub_,bkx_,blx_,bux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconboundlist(self,sub_,bkc_,blc_,buc_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(bkc_)\n elif num_ != len(bkc_):\n raise IndexError(\"Inconsistent length of array bkc\")\n if num_ is None:\n num_ = len(blc_)\n elif num_ != len(blc_):\n raise IndexError(\"Inconsistent length of array blc\")\n if num_ is None:\n num_ = len(buc_)\n elif num_ != len(buc_):\n raise IndexError(\"Inconsistent length of array buc\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n if bkc_ is None:\n raise ValueError(\"Argument bkc cannot be None\")\n if bkc_ is None:\n raise ValueError(\"Argument bkc may not be None\")\n if bkc_ is not None:\n _bkc_tmp = (ctypes.c_int32 * len(bkc_))(*bkc_)\n else:\n _bkc_tmp = None\n if blc_ is None:\n raise ValueError(\"Argument blc cannot be None\")\n if blc_ is None:\n raise ValueError(\"Argument blc may not be None\")\n if isinstance(blc_, numpy.ndarray) and blc_.dtype is numpy.dtype(numpy.float64) and blc_.flags.contiguous:\n _blc_copyarray = False\n _blc_tmp = ctypes.cast(blc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif blc_ is not None:\n _blc_copyarray = True\n _blc_np_tmp = numpy.zeros(len(blc_),numpy.dtype(numpy.float64))\n _blc_np_tmp[:] = blc_\n assert _blc_np_tmp.flags.contiguous\n _blc_tmp = ctypes.cast(_blc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _blc_copyarray = False\n _blc_tmp = None\n \n if buc_ is None:\n raise ValueError(\"Argument buc cannot be None\")\n if buc_ is None:\n raise ValueError(\"Argument buc may not be None\")\n if isinstance(buc_, numpy.ndarray) and buc_.dtype is numpy.dtype(numpy.float64) and buc_.flags.contiguous:\n _buc_copyarray = False\n _buc_tmp = ctypes.cast(buc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif buc_ is not None:\n _buc_copyarray = True\n _buc_np_tmp = numpy.zeros(len(buc_),numpy.dtype(numpy.float64))\n _buc_np_tmp[:] = buc_\n assert _buc_np_tmp.flags.contiguous\n _buc_tmp = ctypes.cast(_buc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _buc_copyarray = False\n _buc_tmp = None\n \n res = __library__.MSK_XX_putconboundlist(self.__nativep,num_,_sub_tmp,_bkc_tmp,_blc_tmp,_buc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getacolslice(self,first_,last_,ptrb_,ptre_,sub_,val_):\n maxnumnz_ = self.getacolslicenumnz((first_),(last_))\n _ptrb_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and ptrb_ is not None and len(ptrb_) != ((last_) - (first_)):\n raise ValueError(\"Array argument ptrb is not long enough: Is %d, expected %d\" % (len(ptrb_),((last_) - (first_))))\n if isinstance(ptrb_,numpy.ndarray) and not ptrb_.flags.writeable:\n raise ValueError(\"Argument ptrb must be writable\")\n if ptrb_ is None:\n raise ValueError(\"Argument ptrb may not be None\")\n if isinstance(ptrb_, numpy.ndarray) and ptrb_.dtype is numpy.dtype(numpy.int64) and ptrb_.flags.contiguous:\n _ptrb_copyarray = False\n _ptrb_tmp = ctypes.cast(ptrb_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptrb_ is not None:\n _ptrb_copyarray = True\n _ptrb_np_tmp = numpy.zeros(len(ptrb_),numpy.dtype(numpy.int64))\n _ptrb_np_tmp[:] = ptrb_\n assert _ptrb_np_tmp.flags.contiguous\n _ptrb_tmp = ctypes.cast(_ptrb_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptrb_copyarray = False\n _ptrb_tmp = None\n \n _ptre_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and ptre_ is not None and len(ptre_) != ((last_) - (first_)):\n raise ValueError(\"Array argument ptre is not long enough: Is %d, expected %d\" % (len(ptre_),((last_) - (first_))))\n if isinstance(ptre_,numpy.ndarray) and not ptre_.flags.writeable:\n raise ValueError(\"Argument ptre must be writable\")\n if ptre_ is None:\n raise ValueError(\"Argument ptre may not be None\")\n if isinstance(ptre_, numpy.ndarray) and ptre_.dtype is numpy.dtype(numpy.int64) and ptre_.flags.contiguous:\n _ptre_copyarray = False\n _ptre_tmp = ctypes.cast(ptre_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptre_ is not None:\n _ptre_copyarray = True\n _ptre_np_tmp = numpy.zeros(len(ptre_),numpy.dtype(numpy.int64))\n _ptre_np_tmp[:] = ptre_\n assert _ptre_np_tmp.flags.contiguous\n _ptre_tmp = ctypes.cast(_ptre_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptre_copyarray = False\n _ptre_tmp = None\n \n _sub_minlength = (maxnumnz_)\n if (maxnumnz_) > 0 and sub_ is not None and len(sub_) != (maxnumnz_):\n raise ValueError(\"Array argument sub is not long enough: Is %d, expected %d\" % (len(sub_),(maxnumnz_)))\n if isinstance(sub_,numpy.ndarray) and not sub_.flags.writeable:\n raise ValueError(\"Argument sub must be writable\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _val_minlength = (maxnumnz_)\n if (maxnumnz_) > 0 and val_ is not None and len(val_) != (maxnumnz_):\n raise ValueError(\"Array argument val is not long enough: Is %d, expected %d\" % (len(val_),(maxnumnz_)))\n if isinstance(val_,numpy.ndarray) and not val_.flags.writeable:\n raise ValueError(\"Argument val must be writable\")\n if val_ is None:\n raise ValueError(\"Argument val may not be None\")\n if isinstance(val_, numpy.ndarray) and val_.dtype is numpy.dtype(numpy.float64) and val_.flags.contiguous:\n _val_copyarray = False\n _val_tmp = ctypes.cast(val_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif val_ is not None:\n _val_copyarray = True\n _val_np_tmp = numpy.zeros(len(val_),numpy.dtype(numpy.float64))\n _val_np_tmp[:] = val_\n assert _val_np_tmp.flags.contiguous\n _val_tmp = ctypes.cast(_val_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _val_copyarray = False\n _val_tmp = None\n \n surp_ = ctypes.c_int64(_sub_minlength)\n res = __library__.MSK_XX_getacolslice64(self.__nativep,first_,last_,maxnumnz_,ctypes.byref(surp_),_ptrb_tmp,_ptre_tmp,_sub_tmp,_val_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _ptrb_copyarray:\n ptrb_[:] = _ptrb_np_tmp\n if _ptre_copyarray:\n ptre_[:] = _ptre_np_tmp\n if _sub_copyarray:\n sub_[:] = _sub_np_tmp\n if _val_copyarray:\n val_[:] = _val_np_tmp", "def putbaraijlist(self,subi_,subj_,alphaptrb_,alphaptre_,matidx_,weights_):\n num_ = None\n if num_ is None:\n num_ = len(subi_)\n elif num_ != len(subi_):\n raise IndexError(\"Inconsistent length of array subi\")\n if num_ is None:\n num_ = len(subj_)\n elif num_ != len(subj_):\n raise IndexError(\"Inconsistent length of array subj\")\n if num_ is None:\n num_ = len(alphaptrb_)\n elif num_ != len(alphaptrb_):\n raise IndexError(\"Inconsistent length of array alphaptrb\")\n if num_ is None:\n num_ = len(alphaptre_)\n elif num_ != len(alphaptre_):\n raise IndexError(\"Inconsistent length of array alphaptre\")\n if subi_ is None:\n raise ValueError(\"Argument subi cannot be None\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n if alphaptrb_ is None:\n raise ValueError(\"Argument alphaptrb cannot be None\")\n if alphaptrb_ is None:\n raise ValueError(\"Argument alphaptrb may not be None\")\n if isinstance(alphaptrb_, numpy.ndarray) and alphaptrb_.dtype is numpy.dtype(numpy.int64) and alphaptrb_.flags.contiguous:\n _alphaptrb_copyarray = False\n _alphaptrb_tmp = ctypes.cast(alphaptrb_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif alphaptrb_ is not None:\n _alphaptrb_copyarray = True\n _alphaptrb_np_tmp = numpy.zeros(len(alphaptrb_),numpy.dtype(numpy.int64))\n _alphaptrb_np_tmp[:] = alphaptrb_\n assert _alphaptrb_np_tmp.flags.contiguous\n _alphaptrb_tmp = ctypes.cast(_alphaptrb_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _alphaptrb_copyarray = False\n _alphaptrb_tmp = None\n \n if alphaptre_ is None:\n raise ValueError(\"Argument alphaptre cannot be None\")\n if alphaptre_ is None:\n raise ValueError(\"Argument alphaptre may not be None\")\n if isinstance(alphaptre_, numpy.ndarray) and alphaptre_.dtype is numpy.dtype(numpy.int64) and alphaptre_.flags.contiguous:\n _alphaptre_copyarray = False\n _alphaptre_tmp = ctypes.cast(alphaptre_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif alphaptre_ is not None:\n _alphaptre_copyarray = True\n _alphaptre_np_tmp = numpy.zeros(len(alphaptre_),numpy.dtype(numpy.int64))\n _alphaptre_np_tmp[:] = alphaptre_\n assert _alphaptre_np_tmp.flags.contiguous\n _alphaptre_tmp = ctypes.cast(_alphaptre_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _alphaptre_copyarray = False\n _alphaptre_tmp = None\n \n if matidx_ is None:\n raise ValueError(\"Argument matidx cannot be None\")\n if matidx_ is None:\n raise ValueError(\"Argument matidx may not be None\")\n if isinstance(matidx_, numpy.ndarray) and matidx_.dtype is numpy.dtype(numpy.int64) and matidx_.flags.contiguous:\n _matidx_copyarray = False\n _matidx_tmp = ctypes.cast(matidx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif matidx_ is not None:\n _matidx_copyarray = True\n _matidx_np_tmp = numpy.zeros(len(matidx_),numpy.dtype(numpy.int64))\n _matidx_np_tmp[:] = matidx_\n assert _matidx_np_tmp.flags.contiguous\n _matidx_tmp = ctypes.cast(_matidx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _matidx_copyarray = False\n _matidx_tmp = None\n \n if weights_ is None:\n raise ValueError(\"Argument weights cannot be None\")\n if weights_ is None:\n raise ValueError(\"Argument weights may not be None\")\n if isinstance(weights_, numpy.ndarray) and weights_.dtype is numpy.dtype(numpy.float64) and weights_.flags.contiguous:\n _weights_copyarray = False\n _weights_tmp = ctypes.cast(weights_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif weights_ is not None:\n _weights_copyarray = True\n _weights_np_tmp = numpy.zeros(len(weights_),numpy.dtype(numpy.float64))\n _weights_np_tmp[:] = weights_\n assert _weights_np_tmp.flags.contiguous\n _weights_tmp = ctypes.cast(_weights_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _weights_copyarray = False\n _weights_tmp = None\n \n res = __library__.MSK_XX_putbaraijlist(self.__nativep,num_,_subi_tmp,_subj_tmp,_alphaptrb_tmp,_alphaptre_tmp,_matidx_tmp,_weights_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putboundlist(self,accmode_,sub,bk,bl,bu): # 3\n if not isinstance(accmode_,accmode): raise TypeError(\"Argument accmode has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(bk)\n elif num_ != len(bk):\n raise IndexError(\"Inconsistent length of array bk\")\n if num_ is None:\n num_ = len(bl)\n elif num_ != len(bl):\n raise IndexError(\"Inconsistent length of array bl\")\n if num_ is None:\n num_ = len(bu)\n elif num_ != len(bu):\n raise IndexError(\"Inconsistent length of array bu\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if bk is None: raise TypeError(\"Invalid type for argument bk\")\n if bk is None:\n bk_ = None\n else:\n try:\n bk_ = memoryview(bk)\n except TypeError:\n try:\n _tmparr_bk = array.array(\"i\",bk)\n except TypeError:\n raise TypeError(\"Argument bk has wrong type\")\n else:\n bk_ = memoryview(_tmparr_bk)\n \n else:\n if bk_.format != \"i\":\n bk_ = memoryview(array.array(\"i\",bk))\n \n if bl is None: raise TypeError(\"Invalid type for argument bl\")\n if bl is None:\n bl_ = None\n else:\n try:\n bl_ = memoryview(bl)\n except TypeError:\n try:\n _tmparr_bl = array.array(\"d\",bl)\n except TypeError:\n raise TypeError(\"Argument bl has wrong type\")\n else:\n bl_ = memoryview(_tmparr_bl)\n \n else:\n if bl_.format != \"d\":\n bl_ = memoryview(array.array(\"d\",bl))\n \n if bu is None: raise TypeError(\"Invalid type for argument bu\")\n if bu is None:\n bu_ = None\n else:\n try:\n bu_ = memoryview(bu)\n except TypeError:\n try:\n _tmparr_bu = array.array(\"d\",bu)\n except TypeError:\n raise TypeError(\"Argument bu has wrong type\")\n else:\n bu_ = memoryview(_tmparr_bu)\n \n else:\n if bu_.format != \"d\":\n bu_ = memoryview(array.array(\"d\",bu))\n \n res = self.__obj.putboundlist(accmode_,num_,sub_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconboundlist(self,sub,bk,bl,bu): # 3\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(bk)\n elif num_ != len(bk):\n raise IndexError(\"Inconsistent length of array bk\")\n if num_ is None:\n num_ = len(bl)\n elif num_ != len(bl):\n raise IndexError(\"Inconsistent length of array bl\")\n if num_ is None:\n num_ = len(bu)\n elif num_ != len(bu):\n raise IndexError(\"Inconsistent length of array bu\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if bk is None: raise TypeError(\"Invalid type for argument bk\")\n if bk is None:\n bk_ = None\n else:\n try:\n bk_ = memoryview(bk)\n except TypeError:\n try:\n _tmparr_bk = array.array(\"i\",bk)\n except TypeError:\n raise TypeError(\"Argument bk has wrong type\")\n else:\n bk_ = memoryview(_tmparr_bk)\n \n else:\n if bk_.format != \"i\":\n bk_ = memoryview(array.array(\"i\",bk))\n \n if bl is None: raise TypeError(\"Invalid type for argument bl\")\n if bl is None:\n bl_ = None\n else:\n try:\n bl_ = memoryview(bl)\n except TypeError:\n try:\n _tmparr_bl = array.array(\"d\",bl)\n except TypeError:\n raise TypeError(\"Argument bl has wrong type\")\n else:\n bl_ = memoryview(_tmparr_bl)\n \n else:\n if bl_.format != \"d\":\n bl_ = memoryview(array.array(\"d\",bl))\n \n if bu is None: raise TypeError(\"Invalid type for argument bu\")\n if bu is None:\n bu_ = None\n else:\n try:\n bu_ = memoryview(bu)\n except TypeError:\n try:\n _tmparr_bu = array.array(\"d\",bu)\n except TypeError:\n raise TypeError(\"Argument bu has wrong type\")\n else:\n bu_ = memoryview(_tmparr_bu)\n \n else:\n if bu_.format != \"d\":\n bu_ = memoryview(array.array(\"d\",bu))\n \n res = self.__obj.putconboundlist(num_,sub_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def appendsparsesymmatlist(self,dims_,nz_,subi_,subj_,valij_,idx_):\n num_ = None\n if num_ is None:\n num_ = len(dims_)\n elif num_ != len(dims_):\n raise IndexError(\"Inconsistent length of array dims\")\n if num_ is None:\n num_ = len(nz_)\n elif num_ != len(nz_):\n raise IndexError(\"Inconsistent length of array nz\")\n if dims_ is None:\n raise ValueError(\"Argument dims cannot be None\")\n if dims_ is None:\n raise ValueError(\"Argument dims may not be None\")\n if isinstance(dims_, numpy.ndarray) and dims_.dtype is numpy.dtype(numpy.int32) and dims_.flags.contiguous:\n _dims_copyarray = False\n _dims_tmp = ctypes.cast(dims_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif dims_ is not None:\n _dims_copyarray = True\n _dims_np_tmp = numpy.zeros(len(dims_),numpy.dtype(numpy.int32))\n _dims_np_tmp[:] = dims_\n assert _dims_np_tmp.flags.contiguous\n _dims_tmp = ctypes.cast(_dims_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _dims_copyarray = False\n _dims_tmp = None\n \n if nz_ is None:\n raise ValueError(\"Argument nz cannot be None\")\n if nz_ is None:\n raise ValueError(\"Argument nz may not be None\")\n if isinstance(nz_, numpy.ndarray) and nz_.dtype is numpy.dtype(numpy.int64) and nz_.flags.contiguous:\n _nz_copyarray = False\n _nz_tmp = ctypes.cast(nz_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif nz_ is not None:\n _nz_copyarray = True\n _nz_np_tmp = numpy.zeros(len(nz_),numpy.dtype(numpy.int64))\n _nz_np_tmp[:] = nz_\n assert _nz_np_tmp.flags.contiguous\n _nz_tmp = ctypes.cast(_nz_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _nz_copyarray = False\n _nz_tmp = None\n \n _subi_minlength = sum((nz_))\n if sum((nz_)) > 0 and subi_ is not None and len(subi_) != sum((nz_)):\n raise ValueError(\"Array argument subi is not long enough: Is %d, expected %d\" % (len(subi_),sum((nz_))))\n if subi_ is None:\n raise ValueError(\"Argument subi cannot be None\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n _subj_minlength = sum((nz_))\n if sum((nz_)) > 0 and subj_ is not None and len(subj_) != sum((nz_)):\n raise ValueError(\"Array argument subj is not long enough: Is %d, expected %d\" % (len(subj_),sum((nz_))))\n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n _valij_minlength = sum((nz_))\n if sum((nz_)) > 0 and valij_ is not None and len(valij_) != sum((nz_)):\n raise ValueError(\"Array argument valij is not long enough: Is %d, expected %d\" % (len(valij_),sum((nz_))))\n if valij_ is None:\n raise ValueError(\"Argument valij cannot be None\")\n if valij_ is None:\n raise ValueError(\"Argument valij may not be None\")\n if isinstance(valij_, numpy.ndarray) and valij_.dtype is numpy.dtype(numpy.float64) and valij_.flags.contiguous:\n _valij_copyarray = False\n _valij_tmp = ctypes.cast(valij_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif valij_ is not None:\n _valij_copyarray = True\n _valij_np_tmp = numpy.zeros(len(valij_),numpy.dtype(numpy.float64))\n _valij_np_tmp[:] = valij_\n assert _valij_np_tmp.flags.contiguous\n _valij_tmp = ctypes.cast(_valij_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _valij_copyarray = False\n _valij_tmp = None\n \n _idx_minlength = (num_)\n if (num_) > 0 and idx_ is not None and len(idx_) != (num_):\n raise ValueError(\"Array argument idx is not long enough: Is %d, expected %d\" % (len(idx_),(num_)))\n if isinstance(idx_,numpy.ndarray) and not idx_.flags.writeable:\n raise ValueError(\"Argument idx must be writable\")\n if idx_ is None:\n raise ValueError(\"Argument idx may not be None\")\n if isinstance(idx_, numpy.ndarray) and idx_.dtype is numpy.dtype(numpy.int64) and idx_.flags.contiguous:\n _idx_copyarray = False\n _idx_tmp = ctypes.cast(idx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif idx_ is not None:\n _idx_copyarray = True\n _idx_np_tmp = numpy.zeros(len(idx_),numpy.dtype(numpy.int64))\n _idx_np_tmp[:] = idx_\n assert _idx_np_tmp.flags.contiguous\n _idx_tmp = ctypes.cast(_idx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _idx_copyarray = False\n _idx_tmp = None\n \n res = __library__.MSK_XX_appendsparsesymmatlist(self.__nativep,num_,_dims_tmp,_nz_tmp,_subi_tmp,_subj_tmp,_valij_tmp,_idx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _idx_copyarray:\n idx_[:] = _idx_np_tmp", "def add_sub_column(patient):\n\n pattern = patient + \"_First_DR_Broad\"\n for column in data.columns:\n column_match = re.match(pattern,column)\n col_index = data.columns.get_loc(pattern)\n if column_match:\n new_column = patient + \"_First_Sub\"\n new_column2 = patient + \"_Second_Sub\"\n data.insert(col_index, new_column,np.nan)\n data.insert(col_index+6, new_column2, np.nan)", "def getacolslicetrip(self,first_,last_,subi_,subj_,val_):\n maxnumnz_ = self.getacolslicenumnz((first_),(last_))\n _subi_minlength = (maxnumnz_)\n if (maxnumnz_) > 0 and subi_ is not None and len(subi_) != (maxnumnz_):\n raise ValueError(\"Array argument subi is not long enough: Is %d, expected %d\" % (len(subi_),(maxnumnz_)))\n if isinstance(subi_,numpy.ndarray) and not subi_.flags.writeable:\n raise ValueError(\"Argument subi must be writable\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n _subj_minlength = (maxnumnz_)\n if (maxnumnz_) > 0 and subj_ is not None and len(subj_) != (maxnumnz_):\n raise ValueError(\"Array argument subj is not long enough: Is %d, expected %d\" % (len(subj_),(maxnumnz_)))\n if isinstance(subj_,numpy.ndarray) and not subj_.flags.writeable:\n raise ValueError(\"Argument subj must be writable\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n _val_minlength = (maxnumnz_)\n if (maxnumnz_) > 0 and val_ is not None and len(val_) != (maxnumnz_):\n raise ValueError(\"Array argument val is not long enough: Is %d, expected %d\" % (len(val_),(maxnumnz_)))\n if isinstance(val_,numpy.ndarray) and not val_.flags.writeable:\n raise ValueError(\"Argument val must be writable\")\n if isinstance(val_, numpy.ndarray) and val_.dtype is numpy.dtype(numpy.float64) and val_.flags.contiguous:\n _val_copyarray = False\n _val_tmp = ctypes.cast(val_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif val_ is not None:\n _val_copyarray = True\n _val_np_tmp = numpy.zeros(len(val_),numpy.dtype(numpy.float64))\n _val_np_tmp[:] = val_\n assert _val_np_tmp.flags.contiguous\n _val_tmp = ctypes.cast(_val_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _val_copyarray = False\n _val_tmp = None\n \n surp_ = ctypes.c_int64(_subi_minlength)\n res = __library__.MSK_XX_getacolslicetrip(self.__nativep,first_,last_,maxnumnz_,ctypes.byref(surp_),_subi_tmp,_subj_tmp,_val_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _subi_copyarray:\n subi_[:] = _subi_np_tmp\n if _subj_copyarray:\n subj_[:] = _subj_np_tmp\n if _val_copyarray:\n val_[:] = _val_np_tmp", "def putacol(self,j_,subj_,valj_):\n nzj_ = None\n if nzj_ is None:\n nzj_ = len(subj_)\n elif nzj_ != len(subj_):\n raise IndexError(\"Inconsistent length of array subj\")\n if nzj_ is None:\n nzj_ = len(valj_)\n elif nzj_ != len(valj_):\n raise IndexError(\"Inconsistent length of array valj\")\n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n if valj_ is None:\n raise ValueError(\"Argument valj cannot be None\")\n if valj_ is None:\n raise ValueError(\"Argument valj may not be None\")\n if isinstance(valj_, numpy.ndarray) and valj_.dtype is numpy.dtype(numpy.float64) and valj_.flags.contiguous:\n _valj_copyarray = False\n _valj_tmp = ctypes.cast(valj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif valj_ is not None:\n _valj_copyarray = True\n _valj_np_tmp = numpy.zeros(len(valj_),numpy.dtype(numpy.float64))\n _valj_np_tmp[:] = valj_\n assert _valj_np_tmp.flags.contiguous\n _valj_tmp = ctypes.cast(_valj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _valj_copyarray = False\n _valj_tmp = None\n \n res = __library__.MSK_XX_putacol(self.__nativep,j_,nzj_,_subj_tmp,_valj_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def _modify_columns(self, cols, X, y=None):", "def collocation(lhs, rhs, basis, nterms, domain=(0, 1), x_col=None):\n x0, x1 = domain\n if x_col is None:\n dx = S(x1 - x0)/(nterms - 2)\n x_col = [dx + dx*cont for cont in range(nterms)]\n x = symbols(\"x\")\n A_mat = zeros(nterms, nterms)\n b_vec = zeros(nterms, 1)\n for row in range(nterms):\n b_vec[row] = rhs(x_col[row])\n for col in range(nterms):\n phi_j = basis(x, col)\n A_mat[row, col] = lhs(phi_j, x).subs(x, x_col[row])\n return A_mat, b_vec", "def putacol(self,j_,subj,valj): # 3\n nzj_ = None\n if nzj_ is None:\n nzj_ = len(subj)\n elif nzj_ != len(subj):\n raise IndexError(\"Inconsistent length of array subj\")\n if nzj_ is None:\n nzj_ = len(valj)\n elif nzj_ != len(valj):\n raise IndexError(\"Inconsistent length of array valj\")\n if nzj_ is None: nzj_ = 0\n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n \n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n \n if valj is None: raise TypeError(\"Invalid type for argument valj\")\n if valj is None:\n valj_ = None\n else:\n try:\n valj_ = memoryview(valj)\n except TypeError:\n try:\n _tmparr_valj = array.array(\"d\",valj)\n except TypeError:\n raise TypeError(\"Argument valj has wrong type\")\n else:\n valj_ = memoryview(_tmparr_valj)\n \n else:\n if valj_.format != \"d\":\n valj_ = memoryview(array.array(\"d\",valj))\n \n res = self.__obj.putacol(j_,nzj_,subj_,valj_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbarablocktriplet(self,num_,subi,subj,subk,subl,valijkl): # 3\n if subi is None: raise TypeError(\"Invalid type for argument subi\")\n if subi is None:\n subi_ = None\n else:\n try:\n subi_ = memoryview(subi)\n except TypeError:\n try:\n _tmparr_subi = array.array(\"i\",subi)\n except TypeError:\n raise TypeError(\"Argument subi has wrong type\")\n else:\n subi_ = memoryview(_tmparr_subi)\n \n else:\n if subi_.format != \"i\":\n subi_ = memoryview(array.array(\"i\",subi))\n \n if subi_ is not None and len(subi_) != (num_):\n raise ValueError(\"Array argument subi has wrong length\")\n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n \n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n \n if subj_ is not None and len(subj_) != (num_):\n raise ValueError(\"Array argument subj has wrong length\")\n if subk is None: raise TypeError(\"Invalid type for argument subk\")\n if subk is None:\n subk_ = None\n else:\n try:\n subk_ = memoryview(subk)\n except TypeError:\n try:\n _tmparr_subk = array.array(\"i\",subk)\n except TypeError:\n raise TypeError(\"Argument subk has wrong type\")\n else:\n subk_ = memoryview(_tmparr_subk)\n \n else:\n if subk_.format != \"i\":\n subk_ = memoryview(array.array(\"i\",subk))\n \n if subk_ is not None and len(subk_) != (num_):\n raise ValueError(\"Array argument subk has wrong length\")\n if subl is None: raise TypeError(\"Invalid type for argument subl\")\n if subl is None:\n subl_ = None\n else:\n try:\n subl_ = memoryview(subl)\n except TypeError:\n try:\n _tmparr_subl = array.array(\"i\",subl)\n except TypeError:\n raise TypeError(\"Argument subl has wrong type\")\n else:\n subl_ = memoryview(_tmparr_subl)\n \n else:\n if subl_.format != \"i\":\n subl_ = memoryview(array.array(\"i\",subl))\n \n if subl_ is not None and len(subl_) != (num_):\n raise ValueError(\"Array argument subl has wrong length\")\n if valijkl is None: raise TypeError(\"Invalid type for argument valijkl\")\n if valijkl is None:\n valijkl_ = None\n else:\n try:\n valijkl_ = memoryview(valijkl)\n except TypeError:\n try:\n _tmparr_valijkl = array.array(\"d\",valijkl)\n except TypeError:\n raise TypeError(\"Argument valijkl has wrong type\")\n else:\n valijkl_ = memoryview(_tmparr_valijkl)\n \n else:\n if valijkl_.format != \"d\":\n valijkl_ = memoryview(array.array(\"d\",valijkl))\n \n if valijkl_ is not None and len(valijkl_) != (num_):\n raise ValueError(\"Array argument valijkl has wrong length\")\n res = self.__obj.putbarablocktriplet(num_,subi_,subj_,subk_,subl_,valijkl_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putaijlist(self,subi_,subj_,valij_):\n num_ = None\n if num_ is None:\n num_ = len(subi_)\n elif num_ != len(subi_):\n raise IndexError(\"Inconsistent length of array subi\")\n if num_ is None:\n num_ = len(subj_)\n elif num_ != len(subj_):\n raise IndexError(\"Inconsistent length of array subj\")\n if num_ is None:\n num_ = len(valij_)\n elif num_ != len(valij_):\n raise IndexError(\"Inconsistent length of array valij\")\n if subi_ is None:\n raise ValueError(\"Argument subi cannot be None\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n if valij_ is None:\n raise ValueError(\"Argument valij cannot be None\")\n if valij_ is None:\n raise ValueError(\"Argument valij may not be None\")\n if isinstance(valij_, numpy.ndarray) and valij_.dtype is numpy.dtype(numpy.float64) and valij_.flags.contiguous:\n _valij_copyarray = False\n _valij_tmp = ctypes.cast(valij_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif valij_ is not None:\n _valij_copyarray = True\n _valij_np_tmp = numpy.zeros(len(valij_),numpy.dtype(numpy.float64))\n _valij_np_tmp[:] = valij_\n assert _valij_np_tmp.flags.contiguous\n _valij_tmp = ctypes.cast(_valij_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _valij_copyarray = False\n _valij_tmp = None\n \n res = __library__.MSK_XX_putaijlist64(self.__nativep,num_,_subi_tmp,_subj_tmp,_valij_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def appendsparsesymmat(self,dim_,subi_,subj_,valij_):\n nz_ = None\n if nz_ is None:\n nz_ = len(subi_)\n elif nz_ != len(subi_):\n raise IndexError(\"Inconsistent length of array subi\")\n if nz_ is None:\n nz_ = len(subj_)\n elif nz_ != len(subj_):\n raise IndexError(\"Inconsistent length of array subj\")\n if nz_ is None:\n nz_ = len(valij_)\n elif nz_ != len(valij_):\n raise IndexError(\"Inconsistent length of array valij\")\n if subi_ is None:\n raise ValueError(\"Argument subi cannot be None\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n if valij_ is None:\n raise ValueError(\"Argument valij cannot be None\")\n if valij_ is None:\n raise ValueError(\"Argument valij may not be None\")\n if isinstance(valij_, numpy.ndarray) and valij_.dtype is numpy.dtype(numpy.float64) and valij_.flags.contiguous:\n _valij_copyarray = False\n _valij_tmp = ctypes.cast(valij_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif valij_ is not None:\n _valij_copyarray = True\n _valij_np_tmp = numpy.zeros(len(valij_),numpy.dtype(numpy.float64))\n _valij_np_tmp[:] = valij_\n assert _valij_np_tmp.flags.contiguous\n _valij_tmp = ctypes.cast(_valij_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _valij_copyarray = False\n _valij_tmp = None\n \n idx_ = ctypes.c_int64()\n res = __library__.MSK_XX_appendsparsesymmat(self.__nativep,dim_,nz_,_subi_tmp,_subj_tmp,_valij_tmp,ctypes.byref(idx_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n idx_ = idx_.value\n _idx_return_value = idx_\n return (_idx_return_value)", "def putbarablocktriplet(self,num_,subi_,subj_,subk_,subl_,valijkl_):\n _subi_minlength = (num_)\n if (num_) > 0 and subi_ is not None and len(subi_) != (num_):\n raise ValueError(\"Array argument subi is not long enough: Is %d, expected %d\" % (len(subi_),(num_)))\n if subi_ is None:\n raise ValueError(\"Argument subi cannot be None\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n _subj_minlength = (num_)\n if (num_) > 0 and subj_ is not None and len(subj_) != (num_):\n raise ValueError(\"Array argument subj is not long enough: Is %d, expected %d\" % (len(subj_),(num_)))\n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n _subk_minlength = (num_)\n if (num_) > 0 and subk_ is not None and len(subk_) != (num_):\n raise ValueError(\"Array argument subk is not long enough: Is %d, expected %d\" % (len(subk_),(num_)))\n if subk_ is None:\n raise ValueError(\"Argument subk cannot be None\")\n if subk_ is None:\n raise ValueError(\"Argument subk may not be None\")\n if isinstance(subk_, numpy.ndarray) and subk_.dtype is numpy.dtype(numpy.int32) and subk_.flags.contiguous:\n _subk_copyarray = False\n _subk_tmp = ctypes.cast(subk_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subk_ is not None:\n _subk_copyarray = True\n _subk_np_tmp = numpy.zeros(len(subk_),numpy.dtype(numpy.int32))\n _subk_np_tmp[:] = subk_\n assert _subk_np_tmp.flags.contiguous\n _subk_tmp = ctypes.cast(_subk_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subk_copyarray = False\n _subk_tmp = None\n \n _subl_minlength = (num_)\n if (num_) > 0 and subl_ is not None and len(subl_) != (num_):\n raise ValueError(\"Array argument subl is not long enough: Is %d, expected %d\" % (len(subl_),(num_)))\n if subl_ is None:\n raise ValueError(\"Argument subl cannot be None\")\n if subl_ is None:\n raise ValueError(\"Argument subl may not be None\")\n if isinstance(subl_, numpy.ndarray) and subl_.dtype is numpy.dtype(numpy.int32) and subl_.flags.contiguous:\n _subl_copyarray = False\n _subl_tmp = ctypes.cast(subl_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subl_ is not None:\n _subl_copyarray = True\n _subl_np_tmp = numpy.zeros(len(subl_),numpy.dtype(numpy.int32))\n _subl_np_tmp[:] = subl_\n assert _subl_np_tmp.flags.contiguous\n _subl_tmp = ctypes.cast(_subl_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subl_copyarray = False\n _subl_tmp = None\n \n _valijkl_minlength = (num_)\n if (num_) > 0 and valijkl_ is not None and len(valijkl_) != (num_):\n raise ValueError(\"Array argument valijkl is not long enough: Is %d, expected %d\" % (len(valijkl_),(num_)))\n if valijkl_ is None:\n raise ValueError(\"Argument valijkl cannot be None\")\n if valijkl_ is None:\n raise ValueError(\"Argument valijkl may not be None\")\n if isinstance(valijkl_, numpy.ndarray) and valijkl_.dtype is numpy.dtype(numpy.float64) and valijkl_.flags.contiguous:\n _valijkl_copyarray = False\n _valijkl_tmp = ctypes.cast(valijkl_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif valijkl_ is not None:\n _valijkl_copyarray = True\n _valijkl_np_tmp = numpy.zeros(len(valijkl_),numpy.dtype(numpy.float64))\n _valijkl_np_tmp[:] = valijkl_\n assert _valijkl_np_tmp.flags.contiguous\n _valijkl_tmp = ctypes.cast(_valijkl_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _valijkl_copyarray = False\n _valijkl_tmp = None\n \n res = __library__.MSK_XX_putbarablocktriplet(self.__nativep,num_,_subi_tmp,_subj_tmp,_subk_tmp,_subl_tmp,_valijkl_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvartypelist(self,subj_,vartype_):\n num_ = None\n if num_ is None:\n num_ = len(subj_)\n elif num_ != len(subj_):\n raise IndexError(\"Inconsistent length of array subj\")\n if num_ is None:\n num_ = len(vartype_)\n elif num_ != len(vartype_):\n raise IndexError(\"Inconsistent length of array vartype\")\n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n if vartype_ is None:\n raise ValueError(\"Argument vartype cannot be None\")\n if vartype_ is None:\n raise ValueError(\"Argument vartype may not be None\")\n if vartype_ is not None:\n _vartype_tmp = (ctypes.c_int32 * len(vartype_))(*vartype_)\n else:\n _vartype_tmp = None\n res = __library__.MSK_XX_putvartypelist(self.__nativep,num_,_subj_tmp,_vartype_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def add_replica_columns(self):\n\n # Grow from left to right, toward the array\n for bit, port in enumerate(self.left_rbl):\n offset = self.bitcell_offset.scale(-len(self.left_rbl) + bit, -self.rbl[0] - 1) + self.unused_offset\n self.replica_col_insts[bit].place(offset)\n # Grow to the right of the bitcell array, array outward\n for bit, port in enumerate(self.right_rbl):\n offset = self.bitcell_array_inst.lr() + self.bitcell_offset.scale(bit, -self.rbl[0] - 1)\n self.replica_col_insts[self.rbl[0] + bit].place(offset)\n\n # Replica dummy rows\n # Add the dummy rows even if we aren't adding the replica column to this bitcell array\n # These grow up, toward the array\n for bit in range(self.rbl[0]):\n dummy_offset = self.bitcell_offset.scale(0, -self.rbl[0] + bit + (-self.rbl[0] + bit) % 2) + self.unused_offset\n self.dummy_row_replica_insts[bit].place(offset=dummy_offset,\n mirror=\"MX\" if (-self.rbl[0] + bit) % 2 else \"R0\")\n # These grow up, away from the array\n for bit in range(self.rbl[1]):\n dummy_offset = self.bitcell_offset.scale(0, bit + bit % 2) + self.bitcell_array_inst.ul()\n self.dummy_row_replica_insts[self.rbl[0] + bit].place(offset=dummy_offset,\n mirror=\"MX\" if (self.row_size + bit) % 2 else \"R0\")", "def putarowslice(self,first_,last_,ptrb_,ptre_,asub_,aval_):\n _ptrb_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and ptrb_ is not None and len(ptrb_) != ((last_) - (first_)):\n raise ValueError(\"Array argument ptrb is not long enough: Is %d, expected %d\" % (len(ptrb_),((last_) - (first_))))\n if ptrb_ is None:\n raise ValueError(\"Argument ptrb cannot be None\")\n if ptrb_ is None:\n raise ValueError(\"Argument ptrb may not be None\")\n if isinstance(ptrb_, numpy.ndarray) and ptrb_.dtype is numpy.dtype(numpy.int64) and ptrb_.flags.contiguous:\n _ptrb_copyarray = False\n _ptrb_tmp = ctypes.cast(ptrb_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptrb_ is not None:\n _ptrb_copyarray = True\n _ptrb_np_tmp = numpy.zeros(len(ptrb_),numpy.dtype(numpy.int64))\n _ptrb_np_tmp[:] = ptrb_\n assert _ptrb_np_tmp.flags.contiguous\n _ptrb_tmp = ctypes.cast(_ptrb_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptrb_copyarray = False\n _ptrb_tmp = None\n \n _ptre_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and ptre_ is not None and len(ptre_) != ((last_) - (first_)):\n raise ValueError(\"Array argument ptre is not long enough: Is %d, expected %d\" % (len(ptre_),((last_) - (first_))))\n if ptre_ is None:\n raise ValueError(\"Argument ptre cannot be None\")\n if ptre_ is None:\n raise ValueError(\"Argument ptre may not be None\")\n if isinstance(ptre_, numpy.ndarray) and ptre_.dtype is numpy.dtype(numpy.int64) and ptre_.flags.contiguous:\n _ptre_copyarray = False\n _ptre_tmp = ctypes.cast(ptre_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptre_ is not None:\n _ptre_copyarray = True\n _ptre_np_tmp = numpy.zeros(len(ptre_),numpy.dtype(numpy.int64))\n _ptre_np_tmp[:] = ptre_\n assert _ptre_np_tmp.flags.contiguous\n _ptre_tmp = ctypes.cast(_ptre_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptre_copyarray = False\n _ptre_tmp = None\n \n if asub_ is None:\n raise ValueError(\"Argument asub cannot be None\")\n if asub_ is None:\n raise ValueError(\"Argument asub may not be None\")\n if isinstance(asub_, numpy.ndarray) and asub_.dtype is numpy.dtype(numpy.int32) and asub_.flags.contiguous:\n _asub_copyarray = False\n _asub_tmp = ctypes.cast(asub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif asub_ is not None:\n _asub_copyarray = True\n _asub_np_tmp = numpy.zeros(len(asub_),numpy.dtype(numpy.int32))\n _asub_np_tmp[:] = asub_\n assert _asub_np_tmp.flags.contiguous\n _asub_tmp = ctypes.cast(_asub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _asub_copyarray = False\n _asub_tmp = None\n \n if aval_ is None:\n raise ValueError(\"Argument aval cannot be None\")\n if aval_ is None:\n raise ValueError(\"Argument aval may not be None\")\n if isinstance(aval_, numpy.ndarray) and aval_.dtype is numpy.dtype(numpy.float64) and aval_.flags.contiguous:\n _aval_copyarray = False\n _aval_tmp = ctypes.cast(aval_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif aval_ is not None:\n _aval_copyarray = True\n _aval_np_tmp = numpy.zeros(len(aval_),numpy.dtype(numpy.float64))\n _aval_np_tmp[:] = aval_\n assert _aval_np_tmp.flags.contiguous\n _aval_tmp = ctypes.cast(_aval_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _aval_copyarray = False\n _aval_tmp = None\n \n res = __library__.MSK_XX_putarowslice64(self.__nativep,first_,last_,_ptrb_tmp,_ptre_tmp,_asub_tmp,_aval_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getacolslicetrip(self,first_,last_,subi,subj,val): # 3\n maxnumnz_ = self.getaslicenumnz(accmode.var,(first_),(last_))\n _copyback_subi = False\n if subi is None:\n subi_ = None\n else:\n try:\n subi_ = memoryview(subi)\n except TypeError:\n try:\n _tmparr_subi = array.array(\"i\",subi)\n except TypeError:\n raise TypeError(\"Argument subi has wrong type\")\n else:\n subi_ = memoryview(_tmparr_subi)\n _copyback_subi = True\n else:\n if subi_.format != \"i\":\n subi_ = memoryview(array.array(\"i\",subi))\n _copyback_subi = True\n if subi_ is not None and len(subi_) != (maxnumnz_):\n raise ValueError(\"Array argument subi has wrong length\")\n _copyback_subj = False\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n _copyback_subj = True\n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n _copyback_subj = True\n if subj_ is not None and len(subj_) != (maxnumnz_):\n raise ValueError(\"Array argument subj has wrong length\")\n _copyback_val = False\n if val is None:\n val_ = None\n else:\n try:\n val_ = memoryview(val)\n except TypeError:\n try:\n _tmparr_val = array.array(\"d\",val)\n except TypeError:\n raise TypeError(\"Argument val has wrong type\")\n else:\n val_ = memoryview(_tmparr_val)\n _copyback_val = True\n else:\n if val_.format != \"d\":\n val_ = memoryview(array.array(\"d\",val))\n _copyback_val = True\n if val_ is not None and len(val_) != (maxnumnz_):\n raise ValueError(\"Array argument val has wrong length\")\n res = self.__obj.getacolslicetrip(first_,last_,maxnumnz_,len(subi),subi_,subj_,val_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_val:\n val[:] = _tmparr_val\n if _copyback_subj:\n subj[:] = _tmparr_subj\n if _copyback_subi:\n subi[:] = _tmparr_subi" ]

[ "0.74245644", "0.6290077", "0.6092594", "0.60655177", "0.5945023", "0.5859933", "0.5820203", "0.58128494", "0.57564044", "0.56575847", "0.5627294", "0.55868393", "0.5496758", "0.5488544", "0.5481107", "0.5311536", "0.49722016", "0.49675912", "0.4916937", "0.49151236", "0.4907522", "0.489277", "0.48313645", "0.47942927", "0.47884318", "0.47754064", "0.47686186", "0.4745637", "0.47300467", "0.4714142" ]

[ "def putbaraij(self,i_,j_,sub,weights): # 3\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(weights)\n elif num_ != len(weights):\n raise IndexError(\"Inconsistent length of array weights\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"q\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"q\":\n sub_ = memoryview(array.array(\"q\",sub))\n \n if weights is None: raise TypeError(\"Invalid type for argument weights\")\n if weights is None:\n weights_ = None\n else:\n try:\n weights_ = memoryview(weights)\n except TypeError:\n try:\n _tmparr_weights = array.array(\"d\",weights)\n except TypeError:\n raise TypeError(\"Argument weights has wrong type\")\n else:\n weights_ = memoryview(_tmparr_weights)\n \n else:\n if weights_.format != \"d\":\n weights_ = memoryview(array.array(\"d\",weights))\n \n res = self.__obj.putbaraij(i_,j_,num_,sub_,weights_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbarcj(self,j_,sub,weights): # 3\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(weights)\n elif num_ != len(weights):\n raise IndexError(\"Inconsistent length of array weights\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"q\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"q\":\n sub_ = memoryview(array.array(\"q\",sub))\n \n if weights is None: raise TypeError(\"Invalid type for argument weights\")\n if weights is None:\n weights_ = None\n else:\n try:\n weights_ = memoryview(weights)\n except TypeError:\n try:\n _tmparr_weights = array.array(\"d\",weights)\n except TypeError:\n raise TypeError(\"Argument weights has wrong type\")\n else:\n weights_ = memoryview(_tmparr_weights)\n \n else:\n if weights_.format != \"d\":\n weights_ = memoryview(array.array(\"d\",weights))\n \n res = self.__obj.putbarcj(j_,num_,sub_,weights_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbaraijlist(self,subi_,subj_,alphaptrb_,alphaptre_,matidx_,weights_):\n num_ = None\n if num_ is None:\n num_ = len(subi_)\n elif num_ != len(subi_):\n raise IndexError(\"Inconsistent length of array subi\")\n if num_ is None:\n num_ = len(subj_)\n elif num_ != len(subj_):\n raise IndexError(\"Inconsistent length of array subj\")\n if num_ is None:\n num_ = len(alphaptrb_)\n elif num_ != len(alphaptrb_):\n raise IndexError(\"Inconsistent length of array alphaptrb\")\n if num_ is None:\n num_ = len(alphaptre_)\n elif num_ != len(alphaptre_):\n raise IndexError(\"Inconsistent length of array alphaptre\")\n if subi_ is None:\n raise ValueError(\"Argument subi cannot be None\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n if alphaptrb_ is None:\n raise ValueError(\"Argument alphaptrb cannot be None\")\n if alphaptrb_ is None:\n raise ValueError(\"Argument alphaptrb may not be None\")\n if isinstance(alphaptrb_, numpy.ndarray) and alphaptrb_.dtype is numpy.dtype(numpy.int64) and alphaptrb_.flags.contiguous:\n _alphaptrb_copyarray = False\n _alphaptrb_tmp = ctypes.cast(alphaptrb_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif alphaptrb_ is not None:\n _alphaptrb_copyarray = True\n _alphaptrb_np_tmp = numpy.zeros(len(alphaptrb_),numpy.dtype(numpy.int64))\n _alphaptrb_np_tmp[:] = alphaptrb_\n assert _alphaptrb_np_tmp.flags.contiguous\n _alphaptrb_tmp = ctypes.cast(_alphaptrb_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _alphaptrb_copyarray = False\n _alphaptrb_tmp = None\n \n if alphaptre_ is None:\n raise ValueError(\"Argument alphaptre cannot be None\")\n if alphaptre_ is None:\n raise ValueError(\"Argument alphaptre may not be None\")\n if isinstance(alphaptre_, numpy.ndarray) and alphaptre_.dtype is numpy.dtype(numpy.int64) and alphaptre_.flags.contiguous:\n _alphaptre_copyarray = False\n _alphaptre_tmp = ctypes.cast(alphaptre_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif alphaptre_ is not None:\n _alphaptre_copyarray = True\n _alphaptre_np_tmp = numpy.zeros(len(alphaptre_),numpy.dtype(numpy.int64))\n _alphaptre_np_tmp[:] = alphaptre_\n assert _alphaptre_np_tmp.flags.contiguous\n _alphaptre_tmp = ctypes.cast(_alphaptre_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _alphaptre_copyarray = False\n _alphaptre_tmp = None\n \n if matidx_ is None:\n raise ValueError(\"Argument matidx cannot be None\")\n if matidx_ is None:\n raise ValueError(\"Argument matidx may not be None\")\n if isinstance(matidx_, numpy.ndarray) and matidx_.dtype is numpy.dtype(numpy.int64) and matidx_.flags.contiguous:\n _matidx_copyarray = False\n _matidx_tmp = ctypes.cast(matidx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif matidx_ is not None:\n _matidx_copyarray = True\n _matidx_np_tmp = numpy.zeros(len(matidx_),numpy.dtype(numpy.int64))\n _matidx_np_tmp[:] = matidx_\n assert _matidx_np_tmp.flags.contiguous\n _matidx_tmp = ctypes.cast(_matidx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _matidx_copyarray = False\n _matidx_tmp = None\n \n if weights_ is None:\n raise ValueError(\"Argument weights cannot be None\")\n if weights_ is None:\n raise ValueError(\"Argument weights may not be None\")\n if isinstance(weights_, numpy.ndarray) and weights_.dtype is numpy.dtype(numpy.float64) and weights_.flags.contiguous:\n _weights_copyarray = False\n _weights_tmp = ctypes.cast(weights_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif weights_ is not None:\n _weights_copyarray = True\n _weights_np_tmp = numpy.zeros(len(weights_),numpy.dtype(numpy.float64))\n _weights_np_tmp[:] = weights_\n assert _weights_np_tmp.flags.contiguous\n _weights_tmp = ctypes.cast(_weights_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _weights_copyarray = False\n _weights_tmp = None\n \n res = __library__.MSK_XX_putbaraijlist(self.__nativep,num_,_subi_tmp,_subj_tmp,_alphaptrb_tmp,_alphaptre_tmp,_matidx_tmp,_weights_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbarcj(self,j_,sub_,weights_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(weights_)\n elif num_ != len(weights_):\n raise IndexError(\"Inconsistent length of array weights\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int64) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int64))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n if weights_ is None:\n raise ValueError(\"Argument weights cannot be None\")\n if weights_ is None:\n raise ValueError(\"Argument weights may not be None\")\n if isinstance(weights_, numpy.ndarray) and weights_.dtype is numpy.dtype(numpy.float64) and weights_.flags.contiguous:\n _weights_copyarray = False\n _weights_tmp = ctypes.cast(weights_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif weights_ is not None:\n _weights_copyarray = True\n _weights_np_tmp = numpy.zeros(len(weights_),numpy.dtype(numpy.float64))\n _weights_np_tmp[:] = weights_\n assert _weights_np_tmp.flags.contiguous\n _weights_tmp = ctypes.cast(_weights_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _weights_copyarray = False\n _weights_tmp = None\n \n res = __library__.MSK_XX_putbarcj(self.__nativep,j_,num_,_sub_tmp,_weights_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbarxj(self,whichsol_,j_,barxj_):\n _barxj_minlength = self.getlenbarvarj((j_))\n if self.getlenbarvarj((j_)) > 0 and barxj_ is not None and len(barxj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barxj is not long enough: Is %d, expected %d\" % (len(barxj_),self.getlenbarvarj((j_))))\n if barxj_ is None:\n raise ValueError(\"Argument barxj cannot be None\")\n if barxj_ is None:\n raise ValueError(\"Argument barxj may not be None\")\n if isinstance(barxj_, numpy.ndarray) and barxj_.dtype is numpy.dtype(numpy.float64) and barxj_.flags.contiguous:\n _barxj_copyarray = False\n _barxj_tmp = ctypes.cast(barxj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif barxj_ is not None:\n _barxj_copyarray = True\n _barxj_np_tmp = numpy.zeros(len(barxj_),numpy.dtype(numpy.float64))\n _barxj_np_tmp[:] = barxj_\n assert _barxj_np_tmp.flags.contiguous\n _barxj_tmp = ctypes.cast(_barxj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _barxj_copyarray = False\n _barxj_tmp = None\n \n res = __library__.MSK_XX_putbarxj(self.__nativep,whichsol_,j_,_barxj_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbarxj(self,whichsol_,j_,barxj): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if barxj is None: raise TypeError(\"Invalid type for argument barxj\")\n if barxj is None:\n barxj_ = None\n else:\n try:\n barxj_ = memoryview(barxj)\n except TypeError:\n try:\n _tmparr_barxj = array.array(\"d\",barxj)\n except TypeError:\n raise TypeError(\"Argument barxj has wrong type\")\n else:\n barxj_ = memoryview(_tmparr_barxj)\n \n else:\n if barxj_.format != \"d\":\n barxj_ = memoryview(array.array(\"d\",barxj))\n \n if barxj_ is not None and len(barxj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barxj has wrong length\")\n res = self.__obj.putbarxj(whichsol_,j_,barxj_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbarsj(self,whichsol_,j_,barsj_):\n _barsj_minlength = self.getlenbarvarj((j_))\n if self.getlenbarvarj((j_)) > 0 and barsj_ is not None and len(barsj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barsj is not long enough: Is %d, expected %d\" % (len(barsj_),self.getlenbarvarj((j_))))\n if barsj_ is None:\n raise ValueError(\"Argument barsj cannot be None\")\n if barsj_ is None:\n raise ValueError(\"Argument barsj may not be None\")\n if isinstance(barsj_, numpy.ndarray) and barsj_.dtype is numpy.dtype(numpy.float64) and barsj_.flags.contiguous:\n _barsj_copyarray = False\n _barsj_tmp = ctypes.cast(barsj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif barsj_ is not None:\n _barsj_copyarray = True\n _barsj_np_tmp = numpy.zeros(len(barsj_),numpy.dtype(numpy.float64))\n _barsj_np_tmp[:] = barsj_\n assert _barsj_np_tmp.flags.contiguous\n _barsj_tmp = ctypes.cast(_barsj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _barsj_copyarray = False\n _barsj_tmp = None\n \n res = __library__.MSK_XX_putbarsj(self.__nativep,whichsol_,j_,_barsj_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbarsj(self,whichsol_,j_,barsj): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if barsj is None: raise TypeError(\"Invalid type for argument barsj\")\n if barsj is None:\n barsj_ = None\n else:\n try:\n barsj_ = memoryview(barsj)\n except TypeError:\n try:\n _tmparr_barsj = array.array(\"d\",barsj)\n except TypeError:\n raise TypeError(\"Argument barsj has wrong type\")\n else:\n barsj_ = memoryview(_tmparr_barsj)\n \n else:\n if barsj_.format != \"d\":\n barsj_ = memoryview(array.array(\"d\",barsj))\n \n if barsj_ is not None and len(barsj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barsj has wrong length\")\n res = self.__obj.putbarsj(whichsol_,j_,barsj_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getbarcidx(self,idx_,sub_,weights_):\n maxnum_ = self.getbarcidxinfo((idx_))\n j_ = ctypes.c_int32()\n num_ = ctypes.c_int64()\n _sub_minlength = (maxnum_)\n if (maxnum_) > 0 and sub_ is not None and len(sub_) != (maxnum_):\n raise ValueError(\"Array argument sub is not long enough: Is %d, expected %d\" % (len(sub_),(maxnum_)))\n if isinstance(sub_,numpy.ndarray) and not sub_.flags.writeable:\n raise ValueError(\"Argument sub must be writable\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int64) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int64))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _weights_minlength = (maxnum_)\n if (maxnum_) > 0 and weights_ is not None and len(weights_) != (maxnum_):\n raise ValueError(\"Array argument weights is not long enough: Is %d, expected %d\" % (len(weights_),(maxnum_)))\n if isinstance(weights_,numpy.ndarray) and not weights_.flags.writeable:\n raise ValueError(\"Argument weights must be writable\")\n if weights_ is None:\n raise ValueError(\"Argument weights may not be None\")\n if isinstance(weights_, numpy.ndarray) and weights_.dtype is numpy.dtype(numpy.float64) and weights_.flags.contiguous:\n _weights_copyarray = False\n _weights_tmp = ctypes.cast(weights_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif weights_ is not None:\n _weights_copyarray = True\n _weights_np_tmp = numpy.zeros(len(weights_),numpy.dtype(numpy.float64))\n _weights_np_tmp[:] = weights_\n assert _weights_np_tmp.flags.contiguous\n _weights_tmp = ctypes.cast(_weights_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _weights_copyarray = False\n _weights_tmp = None\n \n res = __library__.MSK_XX_getbarcidx(self.__nativep,idx_,maxnum_,ctypes.byref(j_),ctypes.byref(num_),_sub_tmp,_weights_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n j_ = j_.value\n _j_return_value = j_\n num_ = num_.value\n _num_return_value = num_\n if _sub_copyarray:\n sub_[:] = _sub_np_tmp\n if _weights_copyarray:\n weights_[:] = _weights_np_tmp\n return (_j_return_value,_num_return_value)", "def putbararowlist(self,subi_,ptrb_,ptre_,subj_,nummat_,matidx_,weights_):\n num_ = None\n if num_ is None:\n num_ = len(subi_)\n elif num_ != len(subi_):\n raise IndexError(\"Inconsistent length of array subi\")\n if num_ is None:\n num_ = len(ptrb_)\n elif num_ != len(ptrb_):\n raise IndexError(\"Inconsistent length of array ptrb\")\n if num_ is None:\n num_ = len(ptre_)\n elif num_ != len(ptre_):\n raise IndexError(\"Inconsistent length of array ptre\")\n if subi_ is None:\n raise ValueError(\"Argument subi cannot be None\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n if ptrb_ is None:\n raise ValueError(\"Argument ptrb cannot be None\")\n if ptrb_ is None:\n raise ValueError(\"Argument ptrb may not be None\")\n if isinstance(ptrb_, numpy.ndarray) and ptrb_.dtype is numpy.dtype(numpy.int64) and ptrb_.flags.contiguous:\n _ptrb_copyarray = False\n _ptrb_tmp = ctypes.cast(ptrb_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptrb_ is not None:\n _ptrb_copyarray = True\n _ptrb_np_tmp = numpy.zeros(len(ptrb_),numpy.dtype(numpy.int64))\n _ptrb_np_tmp[:] = ptrb_\n assert _ptrb_np_tmp.flags.contiguous\n _ptrb_tmp = ctypes.cast(_ptrb_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptrb_copyarray = False\n _ptrb_tmp = None\n \n if ptre_ is None:\n raise ValueError(\"Argument ptre cannot be None\")\n if ptre_ is None:\n raise ValueError(\"Argument ptre may not be None\")\n if isinstance(ptre_, numpy.ndarray) and ptre_.dtype is numpy.dtype(numpy.int64) and ptre_.flags.contiguous:\n _ptre_copyarray = False\n _ptre_tmp = ctypes.cast(ptre_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptre_ is not None:\n _ptre_copyarray = True\n _ptre_np_tmp = numpy.zeros(len(ptre_),numpy.dtype(numpy.int64))\n _ptre_np_tmp[:] = ptre_\n assert _ptre_np_tmp.flags.contiguous\n _ptre_tmp = ctypes.cast(_ptre_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptre_copyarray = False\n _ptre_tmp = None\n \n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n _nummat_minlength = len((subj_))\n if len((subj_)) > 0 and nummat_ is not None and len(nummat_) != len((subj_)):\n raise ValueError(\"Array argument nummat is not long enough: Is %d, expected %d\" % (len(nummat_),len((subj_))))\n if nummat_ is None:\n raise ValueError(\"Argument nummat cannot be None\")\n if nummat_ is None:\n raise ValueError(\"Argument nummat may not be None\")\n if isinstance(nummat_, numpy.ndarray) and nummat_.dtype is numpy.dtype(numpy.int64) and nummat_.flags.contiguous:\n _nummat_copyarray = False\n _nummat_tmp = ctypes.cast(nummat_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif nummat_ is not None:\n _nummat_copyarray = True\n _nummat_np_tmp = numpy.zeros(len(nummat_),numpy.dtype(numpy.int64))\n _nummat_np_tmp[:] = nummat_\n assert _nummat_np_tmp.flags.contiguous\n _nummat_tmp = ctypes.cast(_nummat_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _nummat_copyarray = False\n _nummat_tmp = None\n \n _matidx_minlength = sum((nummat_))\n if sum((nummat_)) > 0 and matidx_ is not None and len(matidx_) != sum((nummat_)):\n raise ValueError(\"Array argument matidx is not long enough: Is %d, expected %d\" % (len(matidx_),sum((nummat_))))\n if matidx_ is None:\n raise ValueError(\"Argument matidx cannot be None\")\n if matidx_ is None:\n raise ValueError(\"Argument matidx may not be None\")\n if isinstance(matidx_, numpy.ndarray) and matidx_.dtype is numpy.dtype(numpy.int64) and matidx_.flags.contiguous:\n _matidx_copyarray = False\n _matidx_tmp = ctypes.cast(matidx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif matidx_ is not None:\n _matidx_copyarray = True\n _matidx_np_tmp = numpy.zeros(len(matidx_),numpy.dtype(numpy.int64))\n _matidx_np_tmp[:] = matidx_\n assert _matidx_np_tmp.flags.contiguous\n _matidx_tmp = ctypes.cast(_matidx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _matidx_copyarray = False\n _matidx_tmp = None\n \n _weights_minlength = sum((nummat_))\n if sum((nummat_)) > 0 and weights_ is not None and len(weights_) != sum((nummat_)):\n raise ValueError(\"Array argument weights is not long enough: Is %d, expected %d\" % (len(weights_),sum((nummat_))))\n if weights_ is None:\n raise ValueError(\"Argument weights cannot be None\")\n if weights_ is None:\n raise ValueError(\"Argument weights may not be None\")\n if isinstance(weights_, numpy.ndarray) and weights_.dtype is numpy.dtype(numpy.float64) and weights_.flags.contiguous:\n _weights_copyarray = False\n _weights_tmp = ctypes.cast(weights_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif weights_ is not None:\n _weights_copyarray = True\n _weights_np_tmp = numpy.zeros(len(weights_),numpy.dtype(numpy.float64))\n _weights_np_tmp[:] = weights_\n assert _weights_np_tmp.flags.contiguous\n _weights_tmp = ctypes.cast(_weights_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _weights_copyarray = False\n _weights_tmp = None\n \n res = __library__.MSK_XX_putbararowlist(self.__nativep,num_,_subi_tmp,_ptrb_tmp,_ptre_tmp,_subj_tmp,_nummat_tmp,_matidx_tmp,_weights_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getbarcidx(self,idx_,sub,weights): # 3\n maxnum_ = self.getbarcidxinfo((idx_))\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n _copyback_sub = False\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"q\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n _copyback_sub = True\n else:\n if sub_.format != \"q\":\n sub_ = memoryview(array.array(\"q\",sub))\n _copyback_sub = True\n if sub_ is not None and len(sub_) != (maxnum_):\n raise ValueError(\"Array argument sub has wrong length\")\n if weights is None: raise TypeError(\"Invalid type for argument weights\")\n _copyback_weights = False\n if weights is None:\n weights_ = None\n else:\n try:\n weights_ = memoryview(weights)\n except TypeError:\n try:\n _tmparr_weights = array.array(\"d\",weights)\n except TypeError:\n raise TypeError(\"Argument weights has wrong type\")\n else:\n weights_ = memoryview(_tmparr_weights)\n _copyback_weights = True\n else:\n if weights_.format != \"d\":\n weights_ = memoryview(array.array(\"d\",weights))\n _copyback_weights = True\n if weights_ is not None and len(weights_) != (maxnum_):\n raise ValueError(\"Array argument weights has wrong length\")\n res,resargs = self.__obj.getbarcidx(idx_,maxnum_,sub_,weights_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _j_return_value,_num_return_value = resargs\n if _copyback_weights:\n weights[:] = _tmparr_weights\n if _copyback_sub:\n sub[:] = _tmparr_sub\n return _j_return_value,_num_return_value", "def getbarxj(self,whichsol_,j_,barxj_):\n _barxj_minlength = self.getlenbarvarj((j_))\n if self.getlenbarvarj((j_)) > 0 and barxj_ is not None and len(barxj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barxj is not long enough: Is %d, expected %d\" % (len(barxj_),self.getlenbarvarj((j_))))\n if isinstance(barxj_,numpy.ndarray) and not barxj_.flags.writeable:\n raise ValueError(\"Argument barxj must be writable\")\n if barxj_ is None:\n raise ValueError(\"Argument barxj may not be None\")\n if isinstance(barxj_, numpy.ndarray) and barxj_.dtype is numpy.dtype(numpy.float64) and barxj_.flags.contiguous:\n _barxj_copyarray = False\n _barxj_tmp = ctypes.cast(barxj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif barxj_ is not None:\n _barxj_copyarray = True\n _barxj_np_tmp = numpy.zeros(len(barxj_),numpy.dtype(numpy.float64))\n _barxj_np_tmp[:] = barxj_\n assert _barxj_np_tmp.flags.contiguous\n _barxj_tmp = ctypes.cast(_barxj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _barxj_copyarray = False\n _barxj_tmp = None\n \n res = __library__.MSK_XX_getbarxj(self.__nativep,whichsol_,j_,_barxj_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _barxj_copyarray:\n barxj_[:] = _barxj_np_tmp", "def ij(ij, pol, ant) :\n s.ij(pol, ij, ant)", "def getbarasparsity(self,idxij_):\n maxnumnz_ = self.getnumbaranz()\n numnz_ = ctypes.c_int64()\n _idxij_minlength = (maxnumnz_)\n if (maxnumnz_) > 0 and idxij_ is not None and len(idxij_) != (maxnumnz_):\n raise ValueError(\"Array argument idxij is not long enough: Is %d, expected %d\" % (len(idxij_),(maxnumnz_)))\n if isinstance(idxij_,numpy.ndarray) and not idxij_.flags.writeable:\n raise ValueError(\"Argument idxij must be writable\")\n if idxij_ is None:\n raise ValueError(\"Argument idxij may not be None\")\n if isinstance(idxij_, numpy.ndarray) and idxij_.dtype is numpy.dtype(numpy.int64) and idxij_.flags.contiguous:\n _idxij_copyarray = False\n _idxij_tmp = ctypes.cast(idxij_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif idxij_ is not None:\n _idxij_copyarray = True\n _idxij_np_tmp = numpy.zeros(len(idxij_),numpy.dtype(numpy.int64))\n _idxij_np_tmp[:] = idxij_\n assert _idxij_np_tmp.flags.contiguous\n _idxij_tmp = ctypes.cast(_idxij_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _idxij_copyarray = False\n _idxij_tmp = None\n \n res = __library__.MSK_XX_getbarasparsity(self.__nativep,maxnumnz_,ctypes.byref(numnz_),_idxij_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n numnz_ = numnz_.value\n _numnz_return_value = numnz_\n if _idxij_copyarray:\n idxij_[:] = _idxij_np_tmp\n return (_numnz_return_value)", "def putaij(self,i_,j_,aij_): # 3\n res = self.__obj.putaij(i_,j_,aij_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getbarsj(self,whichsol_,j_,barsj_):\n _barsj_minlength = self.getlenbarvarj((j_))\n if self.getlenbarvarj((j_)) > 0 and barsj_ is not None and len(barsj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barsj is not long enough: Is %d, expected %d\" % (len(barsj_),self.getlenbarvarj((j_))))\n if isinstance(barsj_,numpy.ndarray) and not barsj_.flags.writeable:\n raise ValueError(\"Argument barsj must be writable\")\n if barsj_ is None:\n raise ValueError(\"Argument barsj may not be None\")\n if isinstance(barsj_, numpy.ndarray) and barsj_.dtype is numpy.dtype(numpy.float64) and barsj_.flags.contiguous:\n _barsj_copyarray = False\n _barsj_tmp = ctypes.cast(barsj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif barsj_ is not None:\n _barsj_copyarray = True\n _barsj_np_tmp = numpy.zeros(len(barsj_),numpy.dtype(numpy.float64))\n _barsj_np_tmp[:] = barsj_\n assert _barsj_np_tmp.flags.contiguous\n _barsj_tmp = ctypes.cast(_barsj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _barsj_copyarray = False\n _barsj_tmp = None\n \n res = __library__.MSK_XX_getbarsj(self.__nativep,whichsol_,j_,_barsj_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _barsj_copyarray:\n barsj_[:] = _barsj_np_tmp", "def getbaraidx(self,idx_,sub_,weights_):\n maxnum_ = self.getbaraidxinfo((idx_))\n i_ = ctypes.c_int32()\n j_ = ctypes.c_int32()\n num_ = ctypes.c_int64()\n _sub_minlength = (maxnum_)\n if (maxnum_) > 0 and sub_ is not None and len(sub_) != (maxnum_):\n raise ValueError(\"Array argument sub is not long enough: Is %d, expected %d\" % (len(sub_),(maxnum_)))\n if isinstance(sub_,numpy.ndarray) and not sub_.flags.writeable:\n raise ValueError(\"Argument sub must be writable\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int64) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int64))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _weights_minlength = (maxnum_)\n if (maxnum_) > 0 and weights_ is not None and len(weights_) != (maxnum_):\n raise ValueError(\"Array argument weights is not long enough: Is %d, expected %d\" % (len(weights_),(maxnum_)))\n if isinstance(weights_,numpy.ndarray) and not weights_.flags.writeable:\n raise ValueError(\"Argument weights must be writable\")\n if weights_ is None:\n raise ValueError(\"Argument weights may not be None\")\n if isinstance(weights_, numpy.ndarray) and weights_.dtype is numpy.dtype(numpy.float64) and weights_.flags.contiguous:\n _weights_copyarray = False\n _weights_tmp = ctypes.cast(weights_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif weights_ is not None:\n _weights_copyarray = True\n _weights_np_tmp = numpy.zeros(len(weights_),numpy.dtype(numpy.float64))\n _weights_np_tmp[:] = weights_\n assert _weights_np_tmp.flags.contiguous\n _weights_tmp = ctypes.cast(_weights_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _weights_copyarray = False\n _weights_tmp = None\n \n res = __library__.MSK_XX_getbaraidx(self.__nativep,idx_,maxnum_,ctypes.byref(i_),ctypes.byref(j_),ctypes.byref(num_),_sub_tmp,_weights_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n i_ = i_.value\n _i_return_value = i_\n j_ = j_.value\n _j_return_value = j_\n num_ = num_.value\n _num_return_value = num_\n if _sub_copyarray:\n sub_[:] = _sub_np_tmp\n if _weights_copyarray:\n weights_[:] = _weights_np_tmp\n return (_i_return_value,_j_return_value,_num_return_value)", "def putaijlist(self,subi,subj,valij): # 3\n num_ = None\n if num_ is None:\n num_ = len(subi)\n elif num_ != len(subi):\n raise IndexError(\"Inconsistent length of array subi\")\n if num_ is None:\n num_ = len(subj)\n elif num_ != len(subj):\n raise IndexError(\"Inconsistent length of array subj\")\n if num_ is None:\n num_ = len(valij)\n elif num_ != len(valij):\n raise IndexError(\"Inconsistent length of array valij\")\n if num_ is None: num_ = 0\n if subi is None: raise TypeError(\"Invalid type for argument subi\")\n if subi is None:\n subi_ = None\n else:\n try:\n subi_ = memoryview(subi)\n except TypeError:\n try:\n _tmparr_subi = array.array(\"i\",subi)\n except TypeError:\n raise TypeError(\"Argument subi has wrong type\")\n else:\n subi_ = memoryview(_tmparr_subi)\n \n else:\n if subi_.format != \"i\":\n subi_ = memoryview(array.array(\"i\",subi))\n \n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n \n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n \n if valij is None: raise TypeError(\"Invalid type for argument valij\")\n if valij is None:\n valij_ = None\n else:\n try:\n valij_ = memoryview(valij)\n except TypeError:\n try:\n _tmparr_valij = array.array(\"d\",valij)\n except TypeError:\n raise TypeError(\"Argument valij has wrong type\")\n else:\n valij_ = memoryview(_tmparr_valij)\n \n else:\n if valij_.format != \"d\":\n valij_ = memoryview(array.array(\"d\",valij))\n \n res = self.__obj.putaijlist64(num_,subi_,subj_,valij_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getbarxj(self,whichsol_,j_,barxj): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if barxj is None: raise TypeError(\"Invalid type for argument barxj\")\n _copyback_barxj = False\n if barxj is None:\n barxj_ = None\n else:\n try:\n barxj_ = memoryview(barxj)\n except TypeError:\n try:\n _tmparr_barxj = array.array(\"d\",barxj)\n except TypeError:\n raise TypeError(\"Argument barxj has wrong type\")\n else:\n barxj_ = memoryview(_tmparr_barxj)\n _copyback_barxj = True\n else:\n if barxj_.format != \"d\":\n barxj_ = memoryview(array.array(\"d\",barxj))\n _copyback_barxj = True\n if barxj_ is not None and len(barxj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barxj has wrong length\")\n res = self.__obj.getbarxj(whichsol_,j_,barxj_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_barxj:\n barxj[:] = _tmparr_barxj", "def putaijlist(self,subi_,subj_,valij_):\n num_ = None\n if num_ is None:\n num_ = len(subi_)\n elif num_ != len(subi_):\n raise IndexError(\"Inconsistent length of array subi\")\n if num_ is None:\n num_ = len(subj_)\n elif num_ != len(subj_):\n raise IndexError(\"Inconsistent length of array subj\")\n if num_ is None:\n num_ = len(valij_)\n elif num_ != len(valij_):\n raise IndexError(\"Inconsistent length of array valij\")\n if subi_ is None:\n raise ValueError(\"Argument subi cannot be None\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n if valij_ is None:\n raise ValueError(\"Argument valij cannot be None\")\n if valij_ is None:\n raise ValueError(\"Argument valij may not be None\")\n if isinstance(valij_, numpy.ndarray) and valij_.dtype is numpy.dtype(numpy.float64) and valij_.flags.contiguous:\n _valij_copyarray = False\n _valij_tmp = ctypes.cast(valij_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif valij_ is not None:\n _valij_copyarray = True\n _valij_np_tmp = numpy.zeros(len(valij_),numpy.dtype(numpy.float64))\n _valij_np_tmp[:] = valij_\n assert _valij_np_tmp.flags.contiguous\n _valij_tmp = ctypes.cast(_valij_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _valij_copyarray = False\n _valij_tmp = None\n \n res = __library__.MSK_XX_putaijlist64(self.__nativep,num_,_subi_tmp,_subj_tmp,_valij_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getbarsj(self,whichsol_,j_,barsj): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if barsj is None: raise TypeError(\"Invalid type for argument barsj\")\n _copyback_barsj = False\n if barsj is None:\n barsj_ = None\n else:\n try:\n barsj_ = memoryview(barsj)\n except TypeError:\n try:\n _tmparr_barsj = array.array(\"d\",barsj)\n except TypeError:\n raise TypeError(\"Argument barsj has wrong type\")\n else:\n barsj_ = memoryview(_tmparr_barsj)\n _copyback_barsj = True\n else:\n if barsj_.format != \"d\":\n barsj_ = memoryview(array.array(\"d\",barsj))\n _copyback_barsj = True\n if barsj_ is not None and len(barsj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barsj has wrong length\")\n res = self.__obj.getbarsj(whichsol_,j_,barsj_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_barsj:\n barsj[:] = _tmparr_barsj", "def putaij(self,i_,j_,aij_):\n res = __library__.MSK_XX_putaij(self.__nativep,i_,j_,aij_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getbaraidx(self,idx_,sub,weights): # 3\n maxnum_ = self.getbaraidxinfo((idx_))\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n _copyback_sub = False\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"q\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n _copyback_sub = True\n else:\n if sub_.format != \"q\":\n sub_ = memoryview(array.array(\"q\",sub))\n _copyback_sub = True\n if sub_ is not None and len(sub_) != (maxnum_):\n raise ValueError(\"Array argument sub has wrong length\")\n if weights is None: raise TypeError(\"Invalid type for argument weights\")\n _copyback_weights = False\n if weights is None:\n weights_ = None\n else:\n try:\n weights_ = memoryview(weights)\n except TypeError:\n try:\n _tmparr_weights = array.array(\"d\",weights)\n except TypeError:\n raise TypeError(\"Argument weights has wrong type\")\n else:\n weights_ = memoryview(_tmparr_weights)\n _copyback_weights = True\n else:\n if weights_.format != \"d\":\n weights_ = memoryview(array.array(\"d\",weights))\n _copyback_weights = True\n if weights_ is not None and len(weights_) != (maxnum_):\n raise ValueError(\"Array argument weights has wrong length\")\n res,resargs = self.__obj.getbaraidx(idx_,maxnum_,sub_,weights_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _i_return_value,_j_return_value,_num_return_value = resargs\n if _copyback_weights:\n weights[:] = _tmparr_weights\n if _copyback_sub:\n sub[:] = _tmparr_sub\n return _i_return_value,_j_return_value,_num_return_value", "def getbarasparsity(self,idxij): # 3\n maxnumnz_ = self.getnumbaranz()\n if idxij is None: raise TypeError(\"Invalid type for argument idxij\")\n _copyback_idxij = False\n if idxij is None:\n idxij_ = None\n else:\n try:\n idxij_ = memoryview(idxij)\n except TypeError:\n try:\n _tmparr_idxij = array.array(\"q\",idxij)\n except TypeError:\n raise TypeError(\"Argument idxij has wrong type\")\n else:\n idxij_ = memoryview(_tmparr_idxij)\n _copyback_idxij = True\n else:\n if idxij_.format != \"q\":\n idxij_ = memoryview(array.array(\"q\",idxij))\n _copyback_idxij = True\n if idxij_ is not None and len(idxij_) != (maxnumnz_):\n raise ValueError(\"Array argument idxij has wrong length\")\n res,resargs = self.__obj.getbarasparsity(maxnumnz_,idxij_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _numnz_return_value = resargs\n if _copyback_idxij:\n idxij[:] = _tmparr_idxij\n return _numnz_return_value", "def UBM_update_double(self, j_ind, k_ind, alpha_1, alpha_2, beta_1, beta_2, Gamma, Lambda, Omega):\n #set nodeType to \"-1,1\"\n self.nodeType = \"-11\"\n\n lambda_entry = Lambda[0, 1]\n gamma_entry = Gamma[0, 1]\n #two new hidden nodes\n self.n_h += 2\n\n #store old parameters\n old_biases_v = np.copy(self.b_v)\n old_b_h = np.copy(self.b_h)\n\n old_weights_h = np.copy(self.w_hv)\n\n #update visible biases\n self.b_v[j_ind] = alpha_1\n self.b_v[k_ind] = alpha_2\n\n #update hidden biases\n self.b_h = np.zeros(self.n_h, dtype=complex)\n self.b_h[:-2] = old_b_h\n self.b_h[-2] = beta_1 + old_biases_v[j_ind]\n self.b_h[-1] = beta_2 + old_biases_v[k_ind]\n\n #update weight_matrix\n self.w_hv = np.zeros((self.n_h, self.n_v), dtype=complex)\n self.w_hv[:-2, :j_ind] = old_weights_h[:, :j_ind]\n self.w_hv[:-2, j_ind+1:k_ind] = old_weights_h[:, j_ind+1:k_ind]\n self.w_hv[:-2, k_ind+1:] = old_weights_h[:, k_ind+1:]\n self.w_hv[-2, j_ind] = Omega[0, 0]\n self.w_hv[-1, j_ind] = Omega[1, 0]\n self.w_hv[-2, k_ind] = Omega[0, 1]\n self.w_hv[-1, k_ind] = Omega[1, 1]\n\n #introduce X (=h-h matrix)\n self.w_X = np.zeros((self.n_h, self.n_h), dtype=complex)\n self.w_X[-2, :-2] = old_weights_h[:, j_ind].T\n self.w_X[-1, :-2] = old_weights_h[:, k_ind].T\n self.w_X[:-2, -2] = old_weights_h[:, j_ind]\n self.w_X[:-2, -1] = old_weights_h[:, k_ind]\n self.w_X[-1, -2] = gamma_entry\n self.w_X[-2, -1] = gamma_entry\n\n #introduce Y (=v-v matrix)\n self.w_Z = np.zeros((self.n_v, self.n_v), dtype=complex)\n self.w_Z[j_ind, k_ind] = lambda_entry\n self.w_Z[k_ind, j_ind] = lambda_entry", "def UBM_update_double_prime(self, j_ind, k_ind, alpha_1, alpha_2, beta_1, beta_2, Gamma, Lambda, Omega):\n #set nodeType to \"-1,1\"\n self.nodeType = \"-11\"\n\n\n lambda_entry = Lambda[0, 1]\n gamma_entry = Gamma[0, 1]\n #two new hidden nodes\n self.n_h += 2\n\n #store old parameters\n old_b_v = np.copy(self.b_v)\n old_b_h = np.copy(self.b_h)\n\n old_w_hv = np.copy(self.w_hv)\n\n\n #update visible biases\n self.b_v[j_ind] = alpha_1\n self.b_v[k_ind] = alpha_2\n\n #update hidden biases\n self.b_h = np.zeros(self.n_h, dtype=complex)\n self.b_h[:-2] = old_b_h\n self.b_h[-2] = beta_1 + old_b_v[j_ind]\n self.b_h[-1] = beta_2 + old_b_v[k_ind]\n\n #update weight_matrix\n \"here could be the reason why successiive 2-qubit gates don't work! \"\n if hasattr(self, \"updated\"):\n self.w_hv = np.zeros((self.n_h, self.n_v), dtype=complex)\n\n self.w_hv[:-2, :j_ind] = old_w_hv[:, :j_ind]\n self.w_hv[:-2, j_ind+1:k_ind] = old_w_hv[:, j_ind+1:k_ind]\n self.w_hv[:-2, k_ind+1:] = old_w_hv[:, k_ind+1:]\n\n self.w_hv[-2, :] = self.w_Z[j_ind, :]\n self.w_hv[-1, :] = self.w_Z[k_ind, :]\n #replace the Z-entries by unitary parameters\n self.w_hv[-2, j_ind] = Omega[0, 0]\n self.w_hv[-1, j_ind] = Omega[1, 0]\n self.w_hv[-2, k_ind] = Omega[0, 1]\n self.w_hv[-1, k_ind] = Omega[1, 1]\n else:\n self.w_hv = np.zeros((self.n_h, self.n_v), dtype=complex)\n self.w_hv[:-2, :j_ind] = old_w_hv[:, :j_ind]\n self.w_hv[:-2, j_ind+1:k_ind] = old_w_hv[:, j_ind+1:k_ind]\n self.w_hv[:-2, k_ind+1:] = old_w_hv[:, k_ind+1:]\n self.w_hv[-2, j_ind] = Omega[0, 0]\n self.w_hv[-1, j_ind] = Omega[1, 0]\n self.w_hv[-2, k_ind] = Omega[0, 1]\n self.w_hv[-1, k_ind] = Omega[1, 1]\n\n\n\n\n\n if hasattr(self, \"updated\"):\n print(\"already updated\")\n old_w_X = np.copy(self.w_X)\n self.w_X = np.zeros((self.n_h, self.n_h), dtype=complex)\n self.w_X[-2, :-2] = old_w_hv[:, j_ind].T\n self.w_X[-1, :-2] = old_w_hv[:, k_ind].T\n self.w_X[:-2, -2] = old_w_hv[:, j_ind]\n self.w_X[:-2, -1] = old_w_hv[:, k_ind]\n self.w_X[-1, -2] = gamma_entry + self.w_Z[j_ind, k_ind]\n self.w_X[-2, -1] = gamma_entry + self.w_Z[j_ind, k_ind]\n self.w_X[:-2, :-2] = old_w_X\n\n\n self.w_Z[j_ind, k_ind] = lambda_entry\n self.w_Z[k_ind, j_ind] = lambda_entry\n\n\n else:\n print(\"First RBM update \")\n self.w_X = np.zeros((self.n_h, self.n_h), dtype=complex)\n self.w_X[-2, :-2] = old_w_hv[:, j_ind].T\n self.w_X[-1, :-2] = old_w_hv[:, k_ind].T\n self.w_X[:-2, -2] = old_w_hv[:, j_ind]\n self.w_X[:-2, -1] = old_w_hv[:, k_ind]\n self.w_X[-1, -2] = gamma_entry\n self.w_X[-2, -1] = gamma_entry\n\n\n self.w_Z = np.zeros((self.n_v, self.n_v), dtype=complex)\n self.w_Z[j_ind, k_ind] = lambda_entry\n self.w_Z[k_ind, j_ind] = lambda_entry\n\n\n\n\n self.updated = True", "def fixB(self,i,j,value):\n if self.coeffPattern[1] == None:\n m,n=self.m,self.n\n self.coeffPattern = [[None]*n for i in range(m)]\n self.coeffPattern[1][i][j]=value\n self._updateEstimatorSize(i)", "def jacobian_fitznagumo(v, w, a, b, tau, I):\n return np.array([[- 3 * v**2 + 1 , -1],\n [1/tau, -b/tau]])", "def putbarablocktriplet(self,num_,subi,subj,subk,subl,valijkl): # 3\n if subi is None: raise TypeError(\"Invalid type for argument subi\")\n if subi is None:\n subi_ = None\n else:\n try:\n subi_ = memoryview(subi)\n except TypeError:\n try:\n _tmparr_subi = array.array(\"i\",subi)\n except TypeError:\n raise TypeError(\"Argument subi has wrong type\")\n else:\n subi_ = memoryview(_tmparr_subi)\n \n else:\n if subi_.format != \"i\":\n subi_ = memoryview(array.array(\"i\",subi))\n \n if subi_ is not None and len(subi_) != (num_):\n raise ValueError(\"Array argument subi has wrong length\")\n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n \n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n \n if subj_ is not None and len(subj_) != (num_):\n raise ValueError(\"Array argument subj has wrong length\")\n if subk is None: raise TypeError(\"Invalid type for argument subk\")\n if subk is None:\n subk_ = None\n else:\n try:\n subk_ = memoryview(subk)\n except TypeError:\n try:\n _tmparr_subk = array.array(\"i\",subk)\n except TypeError:\n raise TypeError(\"Argument subk has wrong type\")\n else:\n subk_ = memoryview(_tmparr_subk)\n \n else:\n if subk_.format != \"i\":\n subk_ = memoryview(array.array(\"i\",subk))\n \n if subk_ is not None and len(subk_) != (num_):\n raise ValueError(\"Array argument subk has wrong length\")\n if subl is None: raise TypeError(\"Invalid type for argument subl\")\n if subl is None:\n subl_ = None\n else:\n try:\n subl_ = memoryview(subl)\n except TypeError:\n try:\n _tmparr_subl = array.array(\"i\",subl)\n except TypeError:\n raise TypeError(\"Argument subl has wrong type\")\n else:\n subl_ = memoryview(_tmparr_subl)\n \n else:\n if subl_.format != \"i\":\n subl_ = memoryview(array.array(\"i\",subl))\n \n if subl_ is not None and len(subl_) != (num_):\n raise ValueError(\"Array argument subl has wrong length\")\n if valijkl is None: raise TypeError(\"Invalid type for argument valijkl\")\n if valijkl is None:\n valijkl_ = None\n else:\n try:\n valijkl_ = memoryview(valijkl)\n except TypeError:\n try:\n _tmparr_valijkl = array.array(\"d\",valijkl)\n except TypeError:\n raise TypeError(\"Argument valijkl has wrong type\")\n else:\n valijkl_ = memoryview(_tmparr_valijkl)\n \n else:\n if valijkl_.format != \"d\":\n valijkl_ = memoryview(array.array(\"d\",valijkl))\n \n if valijkl_ is not None and len(valijkl_) != (num_):\n raise ValueError(\"Array argument valijkl has wrong length\")\n res = self.__obj.putbarablocktriplet(num_,subi_,subj_,subk_,subl_,valijkl_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbarablocktriplet(self,num_,subi_,subj_,subk_,subl_,valijkl_):\n _subi_minlength = (num_)\n if (num_) > 0 and subi_ is not None and len(subi_) != (num_):\n raise ValueError(\"Array argument subi is not long enough: Is %d, expected %d\" % (len(subi_),(num_)))\n if subi_ is None:\n raise ValueError(\"Argument subi cannot be None\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n _subj_minlength = (num_)\n if (num_) > 0 and subj_ is not None and len(subj_) != (num_):\n raise ValueError(\"Array argument subj is not long enough: Is %d, expected %d\" % (len(subj_),(num_)))\n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n _subk_minlength = (num_)\n if (num_) > 0 and subk_ is not None and len(subk_) != (num_):\n raise ValueError(\"Array argument subk is not long enough: Is %d, expected %d\" % (len(subk_),(num_)))\n if subk_ is None:\n raise ValueError(\"Argument subk cannot be None\")\n if subk_ is None:\n raise ValueError(\"Argument subk may not be None\")\n if isinstance(subk_, numpy.ndarray) and subk_.dtype is numpy.dtype(numpy.int32) and subk_.flags.contiguous:\n _subk_copyarray = False\n _subk_tmp = ctypes.cast(subk_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subk_ is not None:\n _subk_copyarray = True\n _subk_np_tmp = numpy.zeros(len(subk_),numpy.dtype(numpy.int32))\n _subk_np_tmp[:] = subk_\n assert _subk_np_tmp.flags.contiguous\n _subk_tmp = ctypes.cast(_subk_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subk_copyarray = False\n _subk_tmp = None\n \n _subl_minlength = (num_)\n if (num_) > 0 and subl_ is not None and len(subl_) != (num_):\n raise ValueError(\"Array argument subl is not long enough: Is %d, expected %d\" % (len(subl_),(num_)))\n if subl_ is None:\n raise ValueError(\"Argument subl cannot be None\")\n if subl_ is None:\n raise ValueError(\"Argument subl may not be None\")\n if isinstance(subl_, numpy.ndarray) and subl_.dtype is numpy.dtype(numpy.int32) and subl_.flags.contiguous:\n _subl_copyarray = False\n _subl_tmp = ctypes.cast(subl_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subl_ is not None:\n _subl_copyarray = True\n _subl_np_tmp = numpy.zeros(len(subl_),numpy.dtype(numpy.int32))\n _subl_np_tmp[:] = subl_\n assert _subl_np_tmp.flags.contiguous\n _subl_tmp = ctypes.cast(_subl_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subl_copyarray = False\n _subl_tmp = None\n \n _valijkl_minlength = (num_)\n if (num_) > 0 and valijkl_ is not None and len(valijkl_) != (num_):\n raise ValueError(\"Array argument valijkl is not long enough: Is %d, expected %d\" % (len(valijkl_),(num_)))\n if valijkl_ is None:\n raise ValueError(\"Argument valijkl cannot be None\")\n if valijkl_ is None:\n raise ValueError(\"Argument valijkl may not be None\")\n if isinstance(valijkl_, numpy.ndarray) and valijkl_.dtype is numpy.dtype(numpy.float64) and valijkl_.flags.contiguous:\n _valijkl_copyarray = False\n _valijkl_tmp = ctypes.cast(valijkl_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif valijkl_ is not None:\n _valijkl_copyarray = True\n _valijkl_np_tmp = numpy.zeros(len(valijkl_),numpy.dtype(numpy.float64))\n _valijkl_np_tmp[:] = valijkl_\n assert _valijkl_np_tmp.flags.contiguous\n _valijkl_tmp = ctypes.cast(_valijkl_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _valijkl_copyarray = False\n _valijkl_tmp = None\n \n res = __library__.MSK_XX_putbarablocktriplet(self.__nativep,num_,_subi_tmp,_subj_tmp,_subk_tmp,_subl_tmp,_valijkl_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)" ]

[ "0.8622167", "0.7611092", "0.7276272", "0.72428167", "0.6288931", "0.6111654", "0.60395956", "0.5904328", "0.58659524", "0.58246255", "0.57645816", "0.55474997", "0.5455191", "0.54046607", "0.5398408", "0.53886384", "0.52858645", "0.526097", "0.5223889", "0.5210424", "0.5202193", "0.51928556", "0.5186958", "0.5140439", "0.5069461", "0.5064843", "0.5063496", "0.49897984", "0.4938485", "0.48651823" ]

[ "def putbaraij(self,i_,j_,sub,weights): # 3\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(weights)\n elif num_ != len(weights):\n raise IndexError(\"Inconsistent length of array weights\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"q\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"q\":\n sub_ = memoryview(array.array(\"q\",sub))\n \n if weights is None: raise TypeError(\"Invalid type for argument weights\")\n if weights is None:\n weights_ = None\n else:\n try:\n weights_ = memoryview(weights)\n except TypeError:\n try:\n _tmparr_weights = array.array(\"d\",weights)\n except TypeError:\n raise TypeError(\"Argument weights has wrong type\")\n else:\n weights_ = memoryview(_tmparr_weights)\n \n else:\n if weights_.format != \"d\":\n weights_ = memoryview(array.array(\"d\",weights))\n \n res = self.__obj.putbaraij(i_,j_,num_,sub_,weights_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbararowlist(self,subi_,ptrb_,ptre_,subj_,nummat_,matidx_,weights_):\n num_ = None\n if num_ is None:\n num_ = len(subi_)\n elif num_ != len(subi_):\n raise IndexError(\"Inconsistent length of array subi\")\n if num_ is None:\n num_ = len(ptrb_)\n elif num_ != len(ptrb_):\n raise IndexError(\"Inconsistent length of array ptrb\")\n if num_ is None:\n num_ = len(ptre_)\n elif num_ != len(ptre_):\n raise IndexError(\"Inconsistent length of array ptre\")\n if subi_ is None:\n raise ValueError(\"Argument subi cannot be None\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n if ptrb_ is None:\n raise ValueError(\"Argument ptrb cannot be None\")\n if ptrb_ is None:\n raise ValueError(\"Argument ptrb may not be None\")\n if isinstance(ptrb_, numpy.ndarray) and ptrb_.dtype is numpy.dtype(numpy.int64) and ptrb_.flags.contiguous:\n _ptrb_copyarray = False\n _ptrb_tmp = ctypes.cast(ptrb_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptrb_ is not None:\n _ptrb_copyarray = True\n _ptrb_np_tmp = numpy.zeros(len(ptrb_),numpy.dtype(numpy.int64))\n _ptrb_np_tmp[:] = ptrb_\n assert _ptrb_np_tmp.flags.contiguous\n _ptrb_tmp = ctypes.cast(_ptrb_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptrb_copyarray = False\n _ptrb_tmp = None\n \n if ptre_ is None:\n raise ValueError(\"Argument ptre cannot be None\")\n if ptre_ is None:\n raise ValueError(\"Argument ptre may not be None\")\n if isinstance(ptre_, numpy.ndarray) and ptre_.dtype is numpy.dtype(numpy.int64) and ptre_.flags.contiguous:\n _ptre_copyarray = False\n _ptre_tmp = ctypes.cast(ptre_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptre_ is not None:\n _ptre_copyarray = True\n _ptre_np_tmp = numpy.zeros(len(ptre_),numpy.dtype(numpy.int64))\n _ptre_np_tmp[:] = ptre_\n assert _ptre_np_tmp.flags.contiguous\n _ptre_tmp = ctypes.cast(_ptre_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptre_copyarray = False\n _ptre_tmp = None\n \n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n _nummat_minlength = len((subj_))\n if len((subj_)) > 0 and nummat_ is not None and len(nummat_) != len((subj_)):\n raise ValueError(\"Array argument nummat is not long enough: Is %d, expected %d\" % (len(nummat_),len((subj_))))\n if nummat_ is None:\n raise ValueError(\"Argument nummat cannot be None\")\n if nummat_ is None:\n raise ValueError(\"Argument nummat may not be None\")\n if isinstance(nummat_, numpy.ndarray) and nummat_.dtype is numpy.dtype(numpy.int64) and nummat_.flags.contiguous:\n _nummat_copyarray = False\n _nummat_tmp = ctypes.cast(nummat_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif nummat_ is not None:\n _nummat_copyarray = True\n _nummat_np_tmp = numpy.zeros(len(nummat_),numpy.dtype(numpy.int64))\n _nummat_np_tmp[:] = nummat_\n assert _nummat_np_tmp.flags.contiguous\n _nummat_tmp = ctypes.cast(_nummat_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _nummat_copyarray = False\n _nummat_tmp = None\n \n _matidx_minlength = sum((nummat_))\n if sum((nummat_)) > 0 and matidx_ is not None and len(matidx_) != sum((nummat_)):\n raise ValueError(\"Array argument matidx is not long enough: Is %d, expected %d\" % (len(matidx_),sum((nummat_))))\n if matidx_ is None:\n raise ValueError(\"Argument matidx cannot be None\")\n if matidx_ is None:\n raise ValueError(\"Argument matidx may not be None\")\n if isinstance(matidx_, numpy.ndarray) and matidx_.dtype is numpy.dtype(numpy.int64) and matidx_.flags.contiguous:\n _matidx_copyarray = False\n _matidx_tmp = ctypes.cast(matidx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif matidx_ is not None:\n _matidx_copyarray = True\n _matidx_np_tmp = numpy.zeros(len(matidx_),numpy.dtype(numpy.int64))\n _matidx_np_tmp[:] = matidx_\n assert _matidx_np_tmp.flags.contiguous\n _matidx_tmp = ctypes.cast(_matidx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _matidx_copyarray = False\n _matidx_tmp = None\n \n _weights_minlength = sum((nummat_))\n if sum((nummat_)) > 0 and weights_ is not None and len(weights_) != sum((nummat_)):\n raise ValueError(\"Array argument weights is not long enough: Is %d, expected %d\" % (len(weights_),sum((nummat_))))\n if weights_ is None:\n raise ValueError(\"Argument weights cannot be None\")\n if weights_ is None:\n raise ValueError(\"Argument weights may not be None\")\n if isinstance(weights_, numpy.ndarray) and weights_.dtype is numpy.dtype(numpy.float64) and weights_.flags.contiguous:\n _weights_copyarray = False\n _weights_tmp = ctypes.cast(weights_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif weights_ is not None:\n _weights_copyarray = True\n _weights_np_tmp = numpy.zeros(len(weights_),numpy.dtype(numpy.float64))\n _weights_np_tmp[:] = weights_\n assert _weights_np_tmp.flags.contiguous\n _weights_tmp = ctypes.cast(_weights_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _weights_copyarray = False\n _weights_tmp = None\n \n res = __library__.MSK_XX_putbararowlist(self.__nativep,num_,_subi_tmp,_ptrb_tmp,_ptre_tmp,_subj_tmp,_nummat_tmp,_matidx_tmp,_weights_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbaraij(self,i_,j_,sub_,weights_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(weights_)\n elif num_ != len(weights_):\n raise IndexError(\"Inconsistent length of array weights\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int64) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int64))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n if weights_ is None:\n raise ValueError(\"Argument weights cannot be None\")\n if weights_ is None:\n raise ValueError(\"Argument weights may not be None\")\n if isinstance(weights_, numpy.ndarray) and weights_.dtype is numpy.dtype(numpy.float64) and weights_.flags.contiguous:\n _weights_copyarray = False\n _weights_tmp = ctypes.cast(weights_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif weights_ is not None:\n _weights_copyarray = True\n _weights_np_tmp = numpy.zeros(len(weights_),numpy.dtype(numpy.float64))\n _weights_np_tmp[:] = weights_\n assert _weights_np_tmp.flags.contiguous\n _weights_tmp = ctypes.cast(_weights_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _weights_copyarray = False\n _weights_tmp = None\n \n res = __library__.MSK_XX_putbaraij(self.__nativep,i_,j_,num_,_sub_tmp,_weights_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbarcj(self,j_,sub,weights): # 3\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(weights)\n elif num_ != len(weights):\n raise IndexError(\"Inconsistent length of array weights\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"q\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"q\":\n sub_ = memoryview(array.array(\"q\",sub))\n \n if weights is None: raise TypeError(\"Invalid type for argument weights\")\n if weights is None:\n weights_ = None\n else:\n try:\n weights_ = memoryview(weights)\n except TypeError:\n try:\n _tmparr_weights = array.array(\"d\",weights)\n except TypeError:\n raise TypeError(\"Argument weights has wrong type\")\n else:\n weights_ = memoryview(_tmparr_weights)\n \n else:\n if weights_.format != \"d\":\n weights_ = memoryview(array.array(\"d\",weights))\n \n res = self.__obj.putbarcj(j_,num_,sub_,weights_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbarcj(self,j_,sub_,weights_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(weights_)\n elif num_ != len(weights_):\n raise IndexError(\"Inconsistent length of array weights\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int64) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int64))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n if weights_ is None:\n raise ValueError(\"Argument weights cannot be None\")\n if weights_ is None:\n raise ValueError(\"Argument weights may not be None\")\n if isinstance(weights_, numpy.ndarray) and weights_.dtype is numpy.dtype(numpy.float64) and weights_.flags.contiguous:\n _weights_copyarray = False\n _weights_tmp = ctypes.cast(weights_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif weights_ is not None:\n _weights_copyarray = True\n _weights_np_tmp = numpy.zeros(len(weights_),numpy.dtype(numpy.float64))\n _weights_np_tmp[:] = weights_\n assert _weights_np_tmp.flags.contiguous\n _weights_tmp = ctypes.cast(_weights_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _weights_copyarray = False\n _weights_tmp = None\n \n res = __library__.MSK_XX_putbarcj(self.__nativep,j_,num_,_sub_tmp,_weights_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putaijlist(self,subi,subj,valij): # 3\n num_ = None\n if num_ is None:\n num_ = len(subi)\n elif num_ != len(subi):\n raise IndexError(\"Inconsistent length of array subi\")\n if num_ is None:\n num_ = len(subj)\n elif num_ != len(subj):\n raise IndexError(\"Inconsistent length of array subj\")\n if num_ is None:\n num_ = len(valij)\n elif num_ != len(valij):\n raise IndexError(\"Inconsistent length of array valij\")\n if num_ is None: num_ = 0\n if subi is None: raise TypeError(\"Invalid type for argument subi\")\n if subi is None:\n subi_ = None\n else:\n try:\n subi_ = memoryview(subi)\n except TypeError:\n try:\n _tmparr_subi = array.array(\"i\",subi)\n except TypeError:\n raise TypeError(\"Argument subi has wrong type\")\n else:\n subi_ = memoryview(_tmparr_subi)\n \n else:\n if subi_.format != \"i\":\n subi_ = memoryview(array.array(\"i\",subi))\n \n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n \n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n \n if valij is None: raise TypeError(\"Invalid type for argument valij\")\n if valij is None:\n valij_ = None\n else:\n try:\n valij_ = memoryview(valij)\n except TypeError:\n try:\n _tmparr_valij = array.array(\"d\",valij)\n except TypeError:\n raise TypeError(\"Argument valij has wrong type\")\n else:\n valij_ = memoryview(_tmparr_valij)\n \n else:\n if valij_.format != \"d\":\n valij_ = memoryview(array.array(\"d\",valij))\n \n res = self.__obj.putaijlist64(num_,subi_,subj_,valij_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putaijlist(self,subi_,subj_,valij_):\n num_ = None\n if num_ is None:\n num_ = len(subi_)\n elif num_ != len(subi_):\n raise IndexError(\"Inconsistent length of array subi\")\n if num_ is None:\n num_ = len(subj_)\n elif num_ != len(subj_):\n raise IndexError(\"Inconsistent length of array subj\")\n if num_ is None:\n num_ = len(valij_)\n elif num_ != len(valij_):\n raise IndexError(\"Inconsistent length of array valij\")\n if subi_ is None:\n raise ValueError(\"Argument subi cannot be None\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n if valij_ is None:\n raise ValueError(\"Argument valij cannot be None\")\n if valij_ is None:\n raise ValueError(\"Argument valij may not be None\")\n if isinstance(valij_, numpy.ndarray) and valij_.dtype is numpy.dtype(numpy.float64) and valij_.flags.contiguous:\n _valij_copyarray = False\n _valij_tmp = ctypes.cast(valij_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif valij_ is not None:\n _valij_copyarray = True\n _valij_np_tmp = numpy.zeros(len(valij_),numpy.dtype(numpy.float64))\n _valij_np_tmp[:] = valij_\n assert _valij_np_tmp.flags.contiguous\n _valij_tmp = ctypes.cast(_valij_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _valij_copyarray = False\n _valij_tmp = None\n \n res = __library__.MSK_XX_putaijlist64(self.__nativep,num_,_subi_tmp,_subj_tmp,_valij_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putboundlist(self,accmode_,sub,bk,bl,bu): # 3\n if not isinstance(accmode_,accmode): raise TypeError(\"Argument accmode has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(bk)\n elif num_ != len(bk):\n raise IndexError(\"Inconsistent length of array bk\")\n if num_ is None:\n num_ = len(bl)\n elif num_ != len(bl):\n raise IndexError(\"Inconsistent length of array bl\")\n if num_ is None:\n num_ = len(bu)\n elif num_ != len(bu):\n raise IndexError(\"Inconsistent length of array bu\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if bk is None: raise TypeError(\"Invalid type for argument bk\")\n if bk is None:\n bk_ = None\n else:\n try:\n bk_ = memoryview(bk)\n except TypeError:\n try:\n _tmparr_bk = array.array(\"i\",bk)\n except TypeError:\n raise TypeError(\"Argument bk has wrong type\")\n else:\n bk_ = memoryview(_tmparr_bk)\n \n else:\n if bk_.format != \"i\":\n bk_ = memoryview(array.array(\"i\",bk))\n \n if bl is None: raise TypeError(\"Invalid type for argument bl\")\n if bl is None:\n bl_ = None\n else:\n try:\n bl_ = memoryview(bl)\n except TypeError:\n try:\n _tmparr_bl = array.array(\"d\",bl)\n except TypeError:\n raise TypeError(\"Argument bl has wrong type\")\n else:\n bl_ = memoryview(_tmparr_bl)\n \n else:\n if bl_.format != \"d\":\n bl_ = memoryview(array.array(\"d\",bl))\n \n if bu is None: raise TypeError(\"Invalid type for argument bu\")\n if bu is None:\n bu_ = None\n else:\n try:\n bu_ = memoryview(bu)\n except TypeError:\n try:\n _tmparr_bu = array.array(\"d\",bu)\n except TypeError:\n raise TypeError(\"Argument bu has wrong type\")\n else:\n bu_ = memoryview(_tmparr_bu)\n \n else:\n if bu_.format != \"d\":\n bu_ = memoryview(array.array(\"d\",bu))\n \n res = self.__obj.putboundlist(accmode_,num_,sub_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarboundlist(self,sub,bkx,blx,bux): # 3\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(bkx)\n elif num_ != len(bkx):\n raise IndexError(\"Inconsistent length of array bkx\")\n if num_ is None:\n num_ = len(blx)\n elif num_ != len(blx):\n raise IndexError(\"Inconsistent length of array blx\")\n if num_ is None:\n num_ = len(bux)\n elif num_ != len(bux):\n raise IndexError(\"Inconsistent length of array bux\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if bkx is None: raise TypeError(\"Invalid type for argument bkx\")\n if bkx is None:\n bkx_ = None\n else:\n try:\n bkx_ = memoryview(bkx)\n except TypeError:\n try:\n _tmparr_bkx = array.array(\"i\",bkx)\n except TypeError:\n raise TypeError(\"Argument bkx has wrong type\")\n else:\n bkx_ = memoryview(_tmparr_bkx)\n \n else:\n if bkx_.format != \"i\":\n bkx_ = memoryview(array.array(\"i\",bkx))\n \n if blx is None: raise TypeError(\"Invalid type for argument blx\")\n if blx is None:\n blx_ = None\n else:\n try:\n blx_ = memoryview(blx)\n except TypeError:\n try:\n _tmparr_blx = array.array(\"d\",blx)\n except TypeError:\n raise TypeError(\"Argument blx has wrong type\")\n else:\n blx_ = memoryview(_tmparr_blx)\n \n else:\n if blx_.format != \"d\":\n blx_ = memoryview(array.array(\"d\",blx))\n \n if bux is None: raise TypeError(\"Invalid type for argument bux\")\n if bux is None:\n bux_ = None\n else:\n try:\n bux_ = memoryview(bux)\n except TypeError:\n try:\n _tmparr_bux = array.array(\"d\",bux)\n except TypeError:\n raise TypeError(\"Argument bux has wrong type\")\n else:\n bux_ = memoryview(_tmparr_bux)\n \n else:\n if bux_.format != \"d\":\n bux_ = memoryview(array.array(\"d\",bux))\n \n res = self.__obj.putvarboundlist(num_,sub_,bkx_,blx_,bux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbarablocktriplet(self,num_,subi,subj,subk,subl,valijkl): # 3\n if subi is None: raise TypeError(\"Invalid type for argument subi\")\n if subi is None:\n subi_ = None\n else:\n try:\n subi_ = memoryview(subi)\n except TypeError:\n try:\n _tmparr_subi = array.array(\"i\",subi)\n except TypeError:\n raise TypeError(\"Argument subi has wrong type\")\n else:\n subi_ = memoryview(_tmparr_subi)\n \n else:\n if subi_.format != \"i\":\n subi_ = memoryview(array.array(\"i\",subi))\n \n if subi_ is not None and len(subi_) != (num_):\n raise ValueError(\"Array argument subi has wrong length\")\n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n \n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n \n if subj_ is not None and len(subj_) != (num_):\n raise ValueError(\"Array argument subj has wrong length\")\n if subk is None: raise TypeError(\"Invalid type for argument subk\")\n if subk is None:\n subk_ = None\n else:\n try:\n subk_ = memoryview(subk)\n except TypeError:\n try:\n _tmparr_subk = array.array(\"i\",subk)\n except TypeError:\n raise TypeError(\"Argument subk has wrong type\")\n else:\n subk_ = memoryview(_tmparr_subk)\n \n else:\n if subk_.format != \"i\":\n subk_ = memoryview(array.array(\"i\",subk))\n \n if subk_ is not None and len(subk_) != (num_):\n raise ValueError(\"Array argument subk has wrong length\")\n if subl is None: raise TypeError(\"Invalid type for argument subl\")\n if subl is None:\n subl_ = None\n else:\n try:\n subl_ = memoryview(subl)\n except TypeError:\n try:\n _tmparr_subl = array.array(\"i\",subl)\n except TypeError:\n raise TypeError(\"Argument subl has wrong type\")\n else:\n subl_ = memoryview(_tmparr_subl)\n \n else:\n if subl_.format != \"i\":\n subl_ = memoryview(array.array(\"i\",subl))\n \n if subl_ is not None and len(subl_) != (num_):\n raise ValueError(\"Array argument subl has wrong length\")\n if valijkl is None: raise TypeError(\"Invalid type for argument valijkl\")\n if valijkl is None:\n valijkl_ = None\n else:\n try:\n valijkl_ = memoryview(valijkl)\n except TypeError:\n try:\n _tmparr_valijkl = array.array(\"d\",valijkl)\n except TypeError:\n raise TypeError(\"Argument valijkl has wrong type\")\n else:\n valijkl_ = memoryview(_tmparr_valijkl)\n \n else:\n if valijkl_.format != \"d\":\n valijkl_ = memoryview(array.array(\"d\",valijkl))\n \n if valijkl_ is not None and len(valijkl_) != (num_):\n raise ValueError(\"Array argument valijkl has wrong length\")\n res = self.__obj.putbarablocktriplet(num_,subi_,subj_,subk_,subl_,valijkl_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconboundlist(self,sub,bk,bl,bu): # 3\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(bk)\n elif num_ != len(bk):\n raise IndexError(\"Inconsistent length of array bk\")\n if num_ is None:\n num_ = len(bl)\n elif num_ != len(bl):\n raise IndexError(\"Inconsistent length of array bl\")\n if num_ is None:\n num_ = len(bu)\n elif num_ != len(bu):\n raise IndexError(\"Inconsistent length of array bu\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if bk is None: raise TypeError(\"Invalid type for argument bk\")\n if bk is None:\n bk_ = None\n else:\n try:\n bk_ = memoryview(bk)\n except TypeError:\n try:\n _tmparr_bk = array.array(\"i\",bk)\n except TypeError:\n raise TypeError(\"Argument bk has wrong type\")\n else:\n bk_ = memoryview(_tmparr_bk)\n \n else:\n if bk_.format != \"i\":\n bk_ = memoryview(array.array(\"i\",bk))\n \n if bl is None: raise TypeError(\"Invalid type for argument bl\")\n if bl is None:\n bl_ = None\n else:\n try:\n bl_ = memoryview(bl)\n except TypeError:\n try:\n _tmparr_bl = array.array(\"d\",bl)\n except TypeError:\n raise TypeError(\"Argument bl has wrong type\")\n else:\n bl_ = memoryview(_tmparr_bl)\n \n else:\n if bl_.format != \"d\":\n bl_ = memoryview(array.array(\"d\",bl))\n \n if bu is None: raise TypeError(\"Invalid type for argument bu\")\n if bu is None:\n bu_ = None\n else:\n try:\n bu_ = memoryview(bu)\n except TypeError:\n try:\n _tmparr_bu = array.array(\"d\",bu)\n except TypeError:\n raise TypeError(\"Argument bu has wrong type\")\n else:\n bu_ = memoryview(_tmparr_bu)\n \n else:\n if bu_.format != \"d\":\n bu_ = memoryview(array.array(\"d\",bu))\n \n res = self.__obj.putconboundlist(num_,sub_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putarowlist(self,sub,ptrb,ptre,asub,aval): # 3\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(ptrb)\n elif num_ != len(ptrb):\n raise IndexError(\"Inconsistent length of array ptrb\")\n if num_ is None:\n num_ = len(ptre)\n elif num_ != len(ptre):\n raise IndexError(\"Inconsistent length of array ptre\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if ptrb is None: raise TypeError(\"Invalid type for argument ptrb\")\n if ptrb is None:\n ptrb_ = None\n else:\n try:\n ptrb_ = memoryview(ptrb)\n except TypeError:\n try:\n _tmparr_ptrb = array.array(\"q\",ptrb)\n except TypeError:\n raise TypeError(\"Argument ptrb has wrong type\")\n else:\n ptrb_ = memoryview(_tmparr_ptrb)\n \n else:\n if ptrb_.format != \"q\":\n ptrb_ = memoryview(array.array(\"q\",ptrb))\n \n if ptre is None: raise TypeError(\"Invalid type for argument ptre\")\n if ptre is None:\n ptre_ = None\n else:\n try:\n ptre_ = memoryview(ptre)\n except TypeError:\n try:\n _tmparr_ptre = array.array(\"q\",ptre)\n except TypeError:\n raise TypeError(\"Argument ptre has wrong type\")\n else:\n ptre_ = memoryview(_tmparr_ptre)\n \n else:\n if ptre_.format != \"q\":\n ptre_ = memoryview(array.array(\"q\",ptre))\n \n if asub is None: raise TypeError(\"Invalid type for argument asub\")\n if asub is None:\n asub_ = None\n else:\n try:\n asub_ = memoryview(asub)\n except TypeError:\n try:\n _tmparr_asub = array.array(\"i\",asub)\n except TypeError:\n raise TypeError(\"Argument asub has wrong type\")\n else:\n asub_ = memoryview(_tmparr_asub)\n \n else:\n if asub_.format != \"i\":\n asub_ = memoryview(array.array(\"i\",asub))\n \n if aval is None: raise TypeError(\"Invalid type for argument aval\")\n if aval is None:\n aval_ = None\n else:\n try:\n aval_ = memoryview(aval)\n except TypeError:\n try:\n _tmparr_aval = array.array(\"d\",aval)\n except TypeError:\n raise TypeError(\"Argument aval has wrong type\")\n else:\n aval_ = memoryview(_tmparr_aval)\n \n else:\n if aval_.format != \"d\":\n aval_ = memoryview(array.array(\"d\",aval))\n \n res = self.__obj.putarowlist64(num_,sub_,ptrb_,ptre_,asub_,aval_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getbarcidx(self,idx_,sub,weights): # 3\n maxnum_ = self.getbarcidxinfo((idx_))\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n _copyback_sub = False\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"q\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n _copyback_sub = True\n else:\n if sub_.format != \"q\":\n sub_ = memoryview(array.array(\"q\",sub))\n _copyback_sub = True\n if sub_ is not None and len(sub_) != (maxnum_):\n raise ValueError(\"Array argument sub has wrong length\")\n if weights is None: raise TypeError(\"Invalid type for argument weights\")\n _copyback_weights = False\n if weights is None:\n weights_ = None\n else:\n try:\n weights_ = memoryview(weights)\n except TypeError:\n try:\n _tmparr_weights = array.array(\"d\",weights)\n except TypeError:\n raise TypeError(\"Argument weights has wrong type\")\n else:\n weights_ = memoryview(_tmparr_weights)\n _copyback_weights = True\n else:\n if weights_.format != \"d\":\n weights_ = memoryview(array.array(\"d\",weights))\n _copyback_weights = True\n if weights_ is not None and len(weights_) != (maxnum_):\n raise ValueError(\"Array argument weights has wrong length\")\n res,resargs = self.__obj.getbarcidx(idx_,maxnum_,sub_,weights_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _j_return_value,_num_return_value = resargs\n if _copyback_weights:\n weights[:] = _tmparr_weights\n if _copyback_sub:\n sub[:] = _tmparr_sub\n return _j_return_value,_num_return_value", "def getbarcidx(self,idx_,sub_,weights_):\n maxnum_ = self.getbarcidxinfo((idx_))\n j_ = ctypes.c_int32()\n num_ = ctypes.c_int64()\n _sub_minlength = (maxnum_)\n if (maxnum_) > 0 and sub_ is not None and len(sub_) != (maxnum_):\n raise ValueError(\"Array argument sub is not long enough: Is %d, expected %d\" % (len(sub_),(maxnum_)))\n if isinstance(sub_,numpy.ndarray) and not sub_.flags.writeable:\n raise ValueError(\"Argument sub must be writable\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int64) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int64))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _weights_minlength = (maxnum_)\n if (maxnum_) > 0 and weights_ is not None and len(weights_) != (maxnum_):\n raise ValueError(\"Array argument weights is not long enough: Is %d, expected %d\" % (len(weights_),(maxnum_)))\n if isinstance(weights_,numpy.ndarray) and not weights_.flags.writeable:\n raise ValueError(\"Argument weights must be writable\")\n if weights_ is None:\n raise ValueError(\"Argument weights may not be None\")\n if isinstance(weights_, numpy.ndarray) and weights_.dtype is numpy.dtype(numpy.float64) and weights_.flags.contiguous:\n _weights_copyarray = False\n _weights_tmp = ctypes.cast(weights_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif weights_ is not None:\n _weights_copyarray = True\n _weights_np_tmp = numpy.zeros(len(weights_),numpy.dtype(numpy.float64))\n _weights_np_tmp[:] = weights_\n assert _weights_np_tmp.flags.contiguous\n _weights_tmp = ctypes.cast(_weights_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _weights_copyarray = False\n _weights_tmp = None\n \n res = __library__.MSK_XX_getbarcidx(self.__nativep,idx_,maxnum_,ctypes.byref(j_),ctypes.byref(num_),_sub_tmp,_weights_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n j_ = j_.value\n _j_return_value = j_\n num_ = num_.value\n _num_return_value = num_\n if _sub_copyarray:\n sub_[:] = _sub_np_tmp\n if _weights_copyarray:\n weights_[:] = _weights_np_tmp\n return (_j_return_value,_num_return_value)", "def __setitem__(self, key, item):\n assert isinstance(key,list) and isinstance(item,list) and len(key)==2 and len(item)==2\n self._data[self.__ptBin(key[0])][self.__etaBin(key[1])] = item", "def beta_map(self, iorb: int, jorb: int) -> List[Tuple[int, int, int]]:\n return self._core.beta_map(iorb, jorb)", "def putvarboundlist(self,sub_,bkx_,blx_,bux_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(bkx_)\n elif num_ != len(bkx_):\n raise IndexError(\"Inconsistent length of array bkx\")\n if num_ is None:\n num_ = len(blx_)\n elif num_ != len(blx_):\n raise IndexError(\"Inconsistent length of array blx\")\n if num_ is None:\n num_ = len(bux_)\n elif num_ != len(bux_):\n raise IndexError(\"Inconsistent length of array bux\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n if bkx_ is None:\n raise ValueError(\"Argument bkx cannot be None\")\n if bkx_ is None:\n raise ValueError(\"Argument bkx may not be None\")\n if bkx_ is not None:\n _bkx_tmp = (ctypes.c_int32 * len(bkx_))(*bkx_)\n else:\n _bkx_tmp = None\n if blx_ is None:\n raise ValueError(\"Argument blx cannot be None\")\n if blx_ is None:\n raise ValueError(\"Argument blx may not be None\")\n if isinstance(blx_, numpy.ndarray) and blx_.dtype is numpy.dtype(numpy.float64) and blx_.flags.contiguous:\n _blx_copyarray = False\n _blx_tmp = ctypes.cast(blx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif blx_ is not None:\n _blx_copyarray = True\n _blx_np_tmp = numpy.zeros(len(blx_),numpy.dtype(numpy.float64))\n _blx_np_tmp[:] = blx_\n assert _blx_np_tmp.flags.contiguous\n _blx_tmp = ctypes.cast(_blx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _blx_copyarray = False\n _blx_tmp = None\n \n if bux_ is None:\n raise ValueError(\"Argument bux cannot be None\")\n if bux_ is None:\n raise ValueError(\"Argument bux may not be None\")\n if isinstance(bux_, numpy.ndarray) and bux_.dtype is numpy.dtype(numpy.float64) and bux_.flags.contiguous:\n _bux_copyarray = False\n _bux_tmp = ctypes.cast(bux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif bux_ is not None:\n _bux_copyarray = True\n _bux_np_tmp = numpy.zeros(len(bux_),numpy.dtype(numpy.float64))\n _bux_np_tmp[:] = bux_\n assert _bux_np_tmp.flags.contiguous\n _bux_tmp = ctypes.cast(_bux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _bux_copyarray = False\n _bux_tmp = None\n \n res = __library__.MSK_XX_putvarboundlist(self.__nativep,num_,_sub_tmp,_bkx_tmp,_blx_tmp,_bux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getbaraidx(self,idx_,sub,weights): # 3\n maxnum_ = self.getbaraidxinfo((idx_))\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n _copyback_sub = False\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"q\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n _copyback_sub = True\n else:\n if sub_.format != \"q\":\n sub_ = memoryview(array.array(\"q\",sub))\n _copyback_sub = True\n if sub_ is not None and len(sub_) != (maxnum_):\n raise ValueError(\"Array argument sub has wrong length\")\n if weights is None: raise TypeError(\"Invalid type for argument weights\")\n _copyback_weights = False\n if weights is None:\n weights_ = None\n else:\n try:\n weights_ = memoryview(weights)\n except TypeError:\n try:\n _tmparr_weights = array.array(\"d\",weights)\n except TypeError:\n raise TypeError(\"Argument weights has wrong type\")\n else:\n weights_ = memoryview(_tmparr_weights)\n _copyback_weights = True\n else:\n if weights_.format != \"d\":\n weights_ = memoryview(array.array(\"d\",weights))\n _copyback_weights = True\n if weights_ is not None and len(weights_) != (maxnum_):\n raise ValueError(\"Array argument weights has wrong length\")\n res,resargs = self.__obj.getbaraidx(idx_,maxnum_,sub_,weights_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _i_return_value,_j_return_value,_num_return_value = resargs\n if _copyback_weights:\n weights[:] = _tmparr_weights\n if _copyback_sub:\n sub[:] = _tmparr_sub\n return _i_return_value,_j_return_value,_num_return_value", "def putvartypelist(self,subj,vartype): # 3\n num_ = None\n if num_ is None:\n num_ = len(subj)\n elif num_ != len(subj):\n raise IndexError(\"Inconsistent length of array subj\")\n if num_ is None:\n num_ = len(vartype)\n elif num_ != len(vartype):\n raise IndexError(\"Inconsistent length of array vartype\")\n if num_ is None: num_ = 0\n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n \n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n \n if vartype is None: raise TypeError(\"Invalid type for argument vartype\")\n if vartype is None:\n vartype_ = None\n else:\n try:\n vartype_ = memoryview(vartype)\n except TypeError:\n try:\n _tmparr_vartype = array.array(\"i\",vartype)\n except TypeError:\n raise TypeError(\"Argument vartype has wrong type\")\n else:\n vartype_ = memoryview(_tmparr_vartype)\n \n else:\n if vartype_.format != \"i\":\n vartype_ = memoryview(array.array(\"i\",vartype))\n \n res = self.__obj.putvartypelist(num_,subj_,vartype_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbarsj(self,whichsol_,j_,barsj): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if barsj is None: raise TypeError(\"Invalid type for argument barsj\")\n if barsj is None:\n barsj_ = None\n else:\n try:\n barsj_ = memoryview(barsj)\n except TypeError:\n try:\n _tmparr_barsj = array.array(\"d\",barsj)\n except TypeError:\n raise TypeError(\"Argument barsj has wrong type\")\n else:\n barsj_ = memoryview(_tmparr_barsj)\n \n else:\n if barsj_.format != \"d\":\n barsj_ = memoryview(array.array(\"d\",barsj))\n \n if barsj_ is not None and len(barsj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barsj has wrong length\")\n res = self.__obj.putbarsj(whichsol_,j_,barsj_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbarablocktriplet(self,num_,subi_,subj_,subk_,subl_,valijkl_):\n _subi_minlength = (num_)\n if (num_) > 0 and subi_ is not None and len(subi_) != (num_):\n raise ValueError(\"Array argument subi is not long enough: Is %d, expected %d\" % (len(subi_),(num_)))\n if subi_ is None:\n raise ValueError(\"Argument subi cannot be None\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n _subj_minlength = (num_)\n if (num_) > 0 and subj_ is not None and len(subj_) != (num_):\n raise ValueError(\"Array argument subj is not long enough: Is %d, expected %d\" % (len(subj_),(num_)))\n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n _subk_minlength = (num_)\n if (num_) > 0 and subk_ is not None and len(subk_) != (num_):\n raise ValueError(\"Array argument subk is not long enough: Is %d, expected %d\" % (len(subk_),(num_)))\n if subk_ is None:\n raise ValueError(\"Argument subk cannot be None\")\n if subk_ is None:\n raise ValueError(\"Argument subk may not be None\")\n if isinstance(subk_, numpy.ndarray) and subk_.dtype is numpy.dtype(numpy.int32) and subk_.flags.contiguous:\n _subk_copyarray = False\n _subk_tmp = ctypes.cast(subk_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subk_ is not None:\n _subk_copyarray = True\n _subk_np_tmp = numpy.zeros(len(subk_),numpy.dtype(numpy.int32))\n _subk_np_tmp[:] = subk_\n assert _subk_np_tmp.flags.contiguous\n _subk_tmp = ctypes.cast(_subk_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subk_copyarray = False\n _subk_tmp = None\n \n _subl_minlength = (num_)\n if (num_) > 0 and subl_ is not None and len(subl_) != (num_):\n raise ValueError(\"Array argument subl is not long enough: Is %d, expected %d\" % (len(subl_),(num_)))\n if subl_ is None:\n raise ValueError(\"Argument subl cannot be None\")\n if subl_ is None:\n raise ValueError(\"Argument subl may not be None\")\n if isinstance(subl_, numpy.ndarray) and subl_.dtype is numpy.dtype(numpy.int32) and subl_.flags.contiguous:\n _subl_copyarray = False\n _subl_tmp = ctypes.cast(subl_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subl_ is not None:\n _subl_copyarray = True\n _subl_np_tmp = numpy.zeros(len(subl_),numpy.dtype(numpy.int32))\n _subl_np_tmp[:] = subl_\n assert _subl_np_tmp.flags.contiguous\n _subl_tmp = ctypes.cast(_subl_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subl_copyarray = False\n _subl_tmp = None\n \n _valijkl_minlength = (num_)\n if (num_) > 0 and valijkl_ is not None and len(valijkl_) != (num_):\n raise ValueError(\"Array argument valijkl is not long enough: Is %d, expected %d\" % (len(valijkl_),(num_)))\n if valijkl_ is None:\n raise ValueError(\"Argument valijkl cannot be None\")\n if valijkl_ is None:\n raise ValueError(\"Argument valijkl may not be None\")\n if isinstance(valijkl_, numpy.ndarray) and valijkl_.dtype is numpy.dtype(numpy.float64) and valijkl_.flags.contiguous:\n _valijkl_copyarray = False\n _valijkl_tmp = ctypes.cast(valijkl_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif valijkl_ is not None:\n _valijkl_copyarray = True\n _valijkl_np_tmp = numpy.zeros(len(valijkl_),numpy.dtype(numpy.float64))\n _valijkl_np_tmp[:] = valijkl_\n assert _valijkl_np_tmp.flags.contiguous\n _valijkl_tmp = ctypes.cast(_valijkl_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _valijkl_copyarray = False\n _valijkl_tmp = None\n \n res = __library__.MSK_XX_putbarablocktriplet(self.__nativep,num_,_subi_tmp,_subj_tmp,_subk_tmp,_subl_tmp,_valijkl_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbarxj(self,whichsol_,j_,barxj_):\n _barxj_minlength = self.getlenbarvarj((j_))\n if self.getlenbarvarj((j_)) > 0 and barxj_ is not None and len(barxj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barxj is not long enough: Is %d, expected %d\" % (len(barxj_),self.getlenbarvarj((j_))))\n if barxj_ is None:\n raise ValueError(\"Argument barxj cannot be None\")\n if barxj_ is None:\n raise ValueError(\"Argument barxj may not be None\")\n if isinstance(barxj_, numpy.ndarray) and barxj_.dtype is numpy.dtype(numpy.float64) and barxj_.flags.contiguous:\n _barxj_copyarray = False\n _barxj_tmp = ctypes.cast(barxj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif barxj_ is not None:\n _barxj_copyarray = True\n _barxj_np_tmp = numpy.zeros(len(barxj_),numpy.dtype(numpy.float64))\n _barxj_np_tmp[:] = barxj_\n assert _barxj_np_tmp.flags.contiguous\n _barxj_tmp = ctypes.cast(_barxj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _barxj_copyarray = False\n _barxj_tmp = None\n \n res = __library__.MSK_XX_putbarxj(self.__nativep,whichsol_,j_,_barxj_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def _build_B(jacobians, dofs, args, B):\n B.data *= 0.0\n data = [jac(*(arg[dofs_i] for arg in args)).reshape(-1) for jac, dofs_i in zip(jacobians, dofs)]\n if len(data) != 0:\n B.data = np.concatenate(data)\n return B", "def to_abivars(self):", "def putbarsj(self,whichsol_,j_,barsj_):\n _barsj_minlength = self.getlenbarvarj((j_))\n if self.getlenbarvarj((j_)) > 0 and barsj_ is not None and len(barsj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barsj is not long enough: Is %d, expected %d\" % (len(barsj_),self.getlenbarvarj((j_))))\n if barsj_ is None:\n raise ValueError(\"Argument barsj cannot be None\")\n if barsj_ is None:\n raise ValueError(\"Argument barsj may not be None\")\n if isinstance(barsj_, numpy.ndarray) and barsj_.dtype is numpy.dtype(numpy.float64) and barsj_.flags.contiguous:\n _barsj_copyarray = False\n _barsj_tmp = ctypes.cast(barsj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif barsj_ is not None:\n _barsj_copyarray = True\n _barsj_np_tmp = numpy.zeros(len(barsj_),numpy.dtype(numpy.float64))\n _barsj_np_tmp[:] = barsj_\n assert _barsj_np_tmp.flags.contiguous\n _barsj_tmp = ctypes.cast(_barsj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _barsj_copyarray = False\n _barsj_tmp = None\n \n res = __library__.MSK_XX_putbarsj(self.__nativep,whichsol_,j_,_barsj_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvartypelist(self,subj_,vartype_):\n num_ = None\n if num_ is None:\n num_ = len(subj_)\n elif num_ != len(subj_):\n raise IndexError(\"Inconsistent length of array subj\")\n if num_ is None:\n num_ = len(vartype_)\n elif num_ != len(vartype_):\n raise IndexError(\"Inconsistent length of array vartype\")\n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n if vartype_ is None:\n raise ValueError(\"Argument vartype cannot be None\")\n if vartype_ is None:\n raise ValueError(\"Argument vartype may not be None\")\n if vartype_ is not None:\n _vartype_tmp = (ctypes.c_int32 * len(vartype_))(*vartype_)\n else:\n _vartype_tmp = None\n res = __library__.MSK_XX_putvartypelist(self.__nativep,num_,_subj_tmp,_vartype_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putacollist(self,sub,ptrb,ptre,asub,aval): # 3\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(ptrb)\n elif num_ != len(ptrb):\n raise IndexError(\"Inconsistent length of array ptrb\")\n if num_ is None:\n num_ = len(ptre)\n elif num_ != len(ptre):\n raise IndexError(\"Inconsistent length of array ptre\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if ptrb is None: raise TypeError(\"Invalid type for argument ptrb\")\n if ptrb is None:\n ptrb_ = None\n else:\n try:\n ptrb_ = memoryview(ptrb)\n except TypeError:\n try:\n _tmparr_ptrb = array.array(\"q\",ptrb)\n except TypeError:\n raise TypeError(\"Argument ptrb has wrong type\")\n else:\n ptrb_ = memoryview(_tmparr_ptrb)\n \n else:\n if ptrb_.format != \"q\":\n ptrb_ = memoryview(array.array(\"q\",ptrb))\n \n if ptre is None: raise TypeError(\"Invalid type for argument ptre\")\n if ptre is None:\n ptre_ = None\n else:\n try:\n ptre_ = memoryview(ptre)\n except TypeError:\n try:\n _tmparr_ptre = array.array(\"q\",ptre)\n except TypeError:\n raise TypeError(\"Argument ptre has wrong type\")\n else:\n ptre_ = memoryview(_tmparr_ptre)\n \n else:\n if ptre_.format != \"q\":\n ptre_ = memoryview(array.array(\"q\",ptre))\n \n if asub is None: raise TypeError(\"Invalid type for argument asub\")\n if asub is None:\n asub_ = None\n else:\n try:\n asub_ = memoryview(asub)\n except TypeError:\n try:\n _tmparr_asub = array.array(\"i\",asub)\n except TypeError:\n raise TypeError(\"Argument asub has wrong type\")\n else:\n asub_ = memoryview(_tmparr_asub)\n \n else:\n if asub_.format != \"i\":\n asub_ = memoryview(array.array(\"i\",asub))\n \n if aval is None: raise TypeError(\"Invalid type for argument aval\")\n if aval is None:\n aval_ = None\n else:\n try:\n aval_ = memoryview(aval)\n except TypeError:\n try:\n _tmparr_aval = array.array(\"d\",aval)\n except TypeError:\n raise TypeError(\"Argument aval has wrong type\")\n else:\n aval_ = memoryview(_tmparr_aval)\n \n else:\n if aval_.format != \"d\":\n aval_ = memoryview(array.array(\"d\",aval))\n \n res = self.__obj.putacollist64(num_,sub_,ptrb_,ptre_,asub_,aval_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbarcblocktriplet(self,num_,subj,subk,subl,valjkl): # 3\n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n \n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n \n if subj_ is not None and len(subj_) != (num_):\n raise ValueError(\"Array argument subj has wrong length\")\n if subk is None: raise TypeError(\"Invalid type for argument subk\")\n if subk is None:\n subk_ = None\n else:\n try:\n subk_ = memoryview(subk)\n except TypeError:\n try:\n _tmparr_subk = array.array(\"i\",subk)\n except TypeError:\n raise TypeError(\"Argument subk has wrong type\")\n else:\n subk_ = memoryview(_tmparr_subk)\n \n else:\n if subk_.format != \"i\":\n subk_ = memoryview(array.array(\"i\",subk))\n \n if subk_ is not None and len(subk_) != (num_):\n raise ValueError(\"Array argument subk has wrong length\")\n if subl is None: raise TypeError(\"Invalid type for argument subl\")\n if subl is None:\n subl_ = None\n else:\n try:\n subl_ = memoryview(subl)\n except TypeError:\n try:\n _tmparr_subl = array.array(\"i\",subl)\n except TypeError:\n raise TypeError(\"Argument subl has wrong type\")\n else:\n subl_ = memoryview(_tmparr_subl)\n \n else:\n if subl_.format != \"i\":\n subl_ = memoryview(array.array(\"i\",subl))\n \n if subl_ is not None and len(subl_) != (num_):\n raise ValueError(\"Array argument subl has wrong length\")\n if valjkl is None: raise TypeError(\"Invalid type for argument valjkl\")\n if valjkl is None:\n valjkl_ = None\n else:\n try:\n valjkl_ = memoryview(valjkl)\n except TypeError:\n try:\n _tmparr_valjkl = array.array(\"d\",valjkl)\n except TypeError:\n raise TypeError(\"Argument valjkl has wrong type\")\n else:\n valjkl_ = memoryview(_tmparr_valjkl)\n \n else:\n if valjkl_.format != \"d\":\n valjkl_ = memoryview(array.array(\"d\",valjkl))\n \n if valjkl_ is not None and len(valjkl_) != (num_):\n raise ValueError(\"Array argument valjkl has wrong length\")\n res = self.__obj.putbarcblocktriplet(num_,subj_,subk_,subl_,valjkl_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getbaraidx(self,idx_,sub_,weights_):\n maxnum_ = self.getbaraidxinfo((idx_))\n i_ = ctypes.c_int32()\n j_ = ctypes.c_int32()\n num_ = ctypes.c_int64()\n _sub_minlength = (maxnum_)\n if (maxnum_) > 0 and sub_ is not None and len(sub_) != (maxnum_):\n raise ValueError(\"Array argument sub is not long enough: Is %d, expected %d\" % (len(sub_),(maxnum_)))\n if isinstance(sub_,numpy.ndarray) and not sub_.flags.writeable:\n raise ValueError(\"Argument sub must be writable\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int64) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int64))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _weights_minlength = (maxnum_)\n if (maxnum_) > 0 and weights_ is not None and len(weights_) != (maxnum_):\n raise ValueError(\"Array argument weights is not long enough: Is %d, expected %d\" % (len(weights_),(maxnum_)))\n if isinstance(weights_,numpy.ndarray) and not weights_.flags.writeable:\n raise ValueError(\"Argument weights must be writable\")\n if weights_ is None:\n raise ValueError(\"Argument weights may not be None\")\n if isinstance(weights_, numpy.ndarray) and weights_.dtype is numpy.dtype(numpy.float64) and weights_.flags.contiguous:\n _weights_copyarray = False\n _weights_tmp = ctypes.cast(weights_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif weights_ is not None:\n _weights_copyarray = True\n _weights_np_tmp = numpy.zeros(len(weights_),numpy.dtype(numpy.float64))\n _weights_np_tmp[:] = weights_\n assert _weights_np_tmp.flags.contiguous\n _weights_tmp = ctypes.cast(_weights_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _weights_copyarray = False\n _weights_tmp = None\n \n res = __library__.MSK_XX_getbaraidx(self.__nativep,idx_,maxnum_,ctypes.byref(i_),ctypes.byref(j_),ctypes.byref(num_),_sub_tmp,_weights_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n i_ = i_.value\n _i_return_value = i_\n j_ = j_.value\n _j_return_value = j_\n num_ = num_.value\n _num_return_value = num_\n if _sub_copyarray:\n sub_[:] = _sub_np_tmp\n if _weights_copyarray:\n weights_[:] = _weights_np_tmp\n return (_i_return_value,_j_return_value,_num_return_value)", "def getbarablocktriplet(self,subi,subj,subk,subl,valijkl): # 3\n maxnum_ = self.getnumbarablocktriplets()\n if subi is None: raise TypeError(\"Invalid type for argument subi\")\n _copyback_subi = False\n if subi is None:\n subi_ = None\n else:\n try:\n subi_ = memoryview(subi)\n except TypeError:\n try:\n _tmparr_subi = array.array(\"i\",subi)\n except TypeError:\n raise TypeError(\"Argument subi has wrong type\")\n else:\n subi_ = memoryview(_tmparr_subi)\n _copyback_subi = True\n else:\n if subi_.format != \"i\":\n subi_ = memoryview(array.array(\"i\",subi))\n _copyback_subi = True\n if subi_ is not None and len(subi_) != (maxnum_):\n raise ValueError(\"Array argument subi has wrong length\")\n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n _copyback_subj = False\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n _copyback_subj = True\n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n _copyback_subj = True\n if subj_ is not None and len(subj_) != (maxnum_):\n raise ValueError(\"Array argument subj has wrong length\")\n if subk is None: raise TypeError(\"Invalid type for argument subk\")\n _copyback_subk = False\n if subk is None:\n subk_ = None\n else:\n try:\n subk_ = memoryview(subk)\n except TypeError:\n try:\n _tmparr_subk = array.array(\"i\",subk)\n except TypeError:\n raise TypeError(\"Argument subk has wrong type\")\n else:\n subk_ = memoryview(_tmparr_subk)\n _copyback_subk = True\n else:\n if subk_.format != \"i\":\n subk_ = memoryview(array.array(\"i\",subk))\n _copyback_subk = True\n if subk_ is not None and len(subk_) != (maxnum_):\n raise ValueError(\"Array argument subk has wrong length\")\n if subl is None: raise TypeError(\"Invalid type for argument subl\")\n _copyback_subl = False\n if subl is None:\n subl_ = None\n else:\n try:\n subl_ = memoryview(subl)\n except TypeError:\n try:\n _tmparr_subl = array.array(\"i\",subl)\n except TypeError:\n raise TypeError(\"Argument subl has wrong type\")\n else:\n subl_ = memoryview(_tmparr_subl)\n _copyback_subl = True\n else:\n if subl_.format != \"i\":\n subl_ = memoryview(array.array(\"i\",subl))\n _copyback_subl = True\n if subl_ is not None and len(subl_) != (maxnum_):\n raise ValueError(\"Array argument subl has wrong length\")\n if valijkl is None: raise TypeError(\"Invalid type for argument valijkl\")\n _copyback_valijkl = False\n if valijkl is None:\n valijkl_ = None\n else:\n try:\n valijkl_ = memoryview(valijkl)\n except TypeError:\n try:\n _tmparr_valijkl = array.array(\"d\",valijkl)\n except TypeError:\n raise TypeError(\"Argument valijkl has wrong type\")\n else:\n valijkl_ = memoryview(_tmparr_valijkl)\n _copyback_valijkl = True\n else:\n if valijkl_.format != \"d\":\n valijkl_ = memoryview(array.array(\"d\",valijkl))\n _copyback_valijkl = True\n if valijkl_ is not None and len(valijkl_) != (maxnum_):\n raise ValueError(\"Array argument valijkl has wrong length\")\n res,resargs = self.__obj.getbarablocktriplet(maxnum_,subi_,subj_,subk_,subl_,valijkl_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _num_return_value = resargs\n if _copyback_valijkl:\n valijkl[:] = _tmparr_valijkl\n if _copyback_subl:\n subl[:] = _tmparr_subl\n if _copyback_subk:\n subk[:] = _tmparr_subk\n if _copyback_subj:\n subj[:] = _tmparr_subj\n if _copyback_subi:\n subi[:] = _tmparr_subi\n return _num_return_value" ]

[ "0.72721004", "0.6810426", "0.671993", "0.6488707", "0.60943043", "0.5819522", "0.575237", "0.54880625", "0.52580094", "0.51958394", "0.5174712", "0.5102174", "0.50996226", "0.5046311", "0.50254816", "0.49972755", "0.49248773", "0.49245527", "0.48816815", "0.48778692", "0.48777285", "0.48513985", "0.4834014", "0.48304075", "0.48235613", "0.48205426", "0.4806661", "0.48048693", "0.47974983", "0.47958735" ]

[ "def putbaraijlist(self,subi_,subj_,alphaptrb_,alphaptre_,matidx_,weights_):\n num_ = None\n if num_ is None:\n num_ = len(subi_)\n elif num_ != len(subi_):\n raise IndexError(\"Inconsistent length of array subi\")\n if num_ is None:\n num_ = len(subj_)\n elif num_ != len(subj_):\n raise IndexError(\"Inconsistent length of array subj\")\n if num_ is None:\n num_ = len(alphaptrb_)\n elif num_ != len(alphaptrb_):\n raise IndexError(\"Inconsistent length of array alphaptrb\")\n if num_ is None:\n num_ = len(alphaptre_)\n elif num_ != len(alphaptre_):\n raise IndexError(\"Inconsistent length of array alphaptre\")\n if subi_ is None:\n raise ValueError(\"Argument subi cannot be None\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n if alphaptrb_ is None:\n raise ValueError(\"Argument alphaptrb cannot be None\")\n if alphaptrb_ is None:\n raise ValueError(\"Argument alphaptrb may not be None\")\n if isinstance(alphaptrb_, numpy.ndarray) and alphaptrb_.dtype is numpy.dtype(numpy.int64) and alphaptrb_.flags.contiguous:\n _alphaptrb_copyarray = False\n _alphaptrb_tmp = ctypes.cast(alphaptrb_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif alphaptrb_ is not None:\n _alphaptrb_copyarray = True\n _alphaptrb_np_tmp = numpy.zeros(len(alphaptrb_),numpy.dtype(numpy.int64))\n _alphaptrb_np_tmp[:] = alphaptrb_\n assert _alphaptrb_np_tmp.flags.contiguous\n _alphaptrb_tmp = ctypes.cast(_alphaptrb_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _alphaptrb_copyarray = False\n _alphaptrb_tmp = None\n \n if alphaptre_ is None:\n raise ValueError(\"Argument alphaptre cannot be None\")\n if alphaptre_ is None:\n raise ValueError(\"Argument alphaptre may not be None\")\n if isinstance(alphaptre_, numpy.ndarray) and alphaptre_.dtype is numpy.dtype(numpy.int64) and alphaptre_.flags.contiguous:\n _alphaptre_copyarray = False\n _alphaptre_tmp = ctypes.cast(alphaptre_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif alphaptre_ is not None:\n _alphaptre_copyarray = True\n _alphaptre_np_tmp = numpy.zeros(len(alphaptre_),numpy.dtype(numpy.int64))\n _alphaptre_np_tmp[:] = alphaptre_\n assert _alphaptre_np_tmp.flags.contiguous\n _alphaptre_tmp = ctypes.cast(_alphaptre_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _alphaptre_copyarray = False\n _alphaptre_tmp = None\n \n if matidx_ is None:\n raise ValueError(\"Argument matidx cannot be None\")\n if matidx_ is None:\n raise ValueError(\"Argument matidx may not be None\")\n if isinstance(matidx_, numpy.ndarray) and matidx_.dtype is numpy.dtype(numpy.int64) and matidx_.flags.contiguous:\n _matidx_copyarray = False\n _matidx_tmp = ctypes.cast(matidx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif matidx_ is not None:\n _matidx_copyarray = True\n _matidx_np_tmp = numpy.zeros(len(matidx_),numpy.dtype(numpy.int64))\n _matidx_np_tmp[:] = matidx_\n assert _matidx_np_tmp.flags.contiguous\n _matidx_tmp = ctypes.cast(_matidx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _matidx_copyarray = False\n _matidx_tmp = None\n \n if weights_ is None:\n raise ValueError(\"Argument weights cannot be None\")\n if weights_ is None:\n raise ValueError(\"Argument weights may not be None\")\n if isinstance(weights_, numpy.ndarray) and weights_.dtype is numpy.dtype(numpy.float64) and weights_.flags.contiguous:\n _weights_copyarray = False\n _weights_tmp = ctypes.cast(weights_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif weights_ is not None:\n _weights_copyarray = True\n _weights_np_tmp = numpy.zeros(len(weights_),numpy.dtype(numpy.float64))\n _weights_np_tmp[:] = weights_\n assert _weights_np_tmp.flags.contiguous\n _weights_tmp = ctypes.cast(_weights_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _weights_copyarray = False\n _weights_tmp = None\n \n res = __library__.MSK_XX_putbaraijlist(self.__nativep,num_,_subi_tmp,_subj_tmp,_alphaptrb_tmp,_alphaptre_tmp,_matidx_tmp,_weights_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbaraij(self,i_,j_,sub,weights): # 3\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(weights)\n elif num_ != len(weights):\n raise IndexError(\"Inconsistent length of array weights\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"q\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"q\":\n sub_ = memoryview(array.array(\"q\",sub))\n \n if weights is None: raise TypeError(\"Invalid type for argument weights\")\n if weights is None:\n weights_ = None\n else:\n try:\n weights_ = memoryview(weights)\n except TypeError:\n try:\n _tmparr_weights = array.array(\"d\",weights)\n except TypeError:\n raise TypeError(\"Argument weights has wrong type\")\n else:\n weights_ = memoryview(_tmparr_weights)\n \n else:\n if weights_.format != \"d\":\n weights_ = memoryview(array.array(\"d\",weights))\n \n res = self.__obj.putbaraij(i_,j_,num_,sub_,weights_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbaraij(self,i_,j_,sub_,weights_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(weights_)\n elif num_ != len(weights_):\n raise IndexError(\"Inconsistent length of array weights\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int64) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int64))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n if weights_ is None:\n raise ValueError(\"Argument weights cannot be None\")\n if weights_ is None:\n raise ValueError(\"Argument weights may not be None\")\n if isinstance(weights_, numpy.ndarray) and weights_.dtype is numpy.dtype(numpy.float64) and weights_.flags.contiguous:\n _weights_copyarray = False\n _weights_tmp = ctypes.cast(weights_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif weights_ is not None:\n _weights_copyarray = True\n _weights_np_tmp = numpy.zeros(len(weights_),numpy.dtype(numpy.float64))\n _weights_np_tmp[:] = weights_\n assert _weights_np_tmp.flags.contiguous\n _weights_tmp = ctypes.cast(_weights_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _weights_copyarray = False\n _weights_tmp = None\n \n res = __library__.MSK_XX_putbaraij(self.__nativep,i_,j_,num_,_sub_tmp,_weights_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbarcj(self,j_,sub,weights): # 3\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(weights)\n elif num_ != len(weights):\n raise IndexError(\"Inconsistent length of array weights\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"q\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"q\":\n sub_ = memoryview(array.array(\"q\",sub))\n \n if weights is None: raise TypeError(\"Invalid type for argument weights\")\n if weights is None:\n weights_ = None\n else:\n try:\n weights_ = memoryview(weights)\n except TypeError:\n try:\n _tmparr_weights = array.array(\"d\",weights)\n except TypeError:\n raise TypeError(\"Argument weights has wrong type\")\n else:\n weights_ = memoryview(_tmparr_weights)\n \n else:\n if weights_.format != \"d\":\n weights_ = memoryview(array.array(\"d\",weights))\n \n res = self.__obj.putbarcj(j_,num_,sub_,weights_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbarcj(self,j_,sub_,weights_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(weights_)\n elif num_ != len(weights_):\n raise IndexError(\"Inconsistent length of array weights\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int64) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int64))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n if weights_ is None:\n raise ValueError(\"Argument weights cannot be None\")\n if weights_ is None:\n raise ValueError(\"Argument weights may not be None\")\n if isinstance(weights_, numpy.ndarray) and weights_.dtype is numpy.dtype(numpy.float64) and weights_.flags.contiguous:\n _weights_copyarray = False\n _weights_tmp = ctypes.cast(weights_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif weights_ is not None:\n _weights_copyarray = True\n _weights_np_tmp = numpy.zeros(len(weights_),numpy.dtype(numpy.float64))\n _weights_np_tmp[:] = weights_\n assert _weights_np_tmp.flags.contiguous\n _weights_tmp = ctypes.cast(_weights_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _weights_copyarray = False\n _weights_tmp = None\n \n res = __library__.MSK_XX_putbarcj(self.__nativep,j_,num_,_sub_tmp,_weights_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putarowlist(self,sub_,ptrb_,ptre_,asub_,aval_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(ptrb_)\n elif num_ != len(ptrb_):\n raise IndexError(\"Inconsistent length of array ptrb\")\n if num_ is None:\n num_ = len(ptre_)\n elif num_ != len(ptre_):\n raise IndexError(\"Inconsistent length of array ptre\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n if ptrb_ is None:\n raise ValueError(\"Argument ptrb cannot be None\")\n if ptrb_ is None:\n raise ValueError(\"Argument ptrb may not be None\")\n if isinstance(ptrb_, numpy.ndarray) and ptrb_.dtype is numpy.dtype(numpy.int64) and ptrb_.flags.contiguous:\n _ptrb_copyarray = False\n _ptrb_tmp = ctypes.cast(ptrb_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptrb_ is not None:\n _ptrb_copyarray = True\n _ptrb_np_tmp = numpy.zeros(len(ptrb_),numpy.dtype(numpy.int64))\n _ptrb_np_tmp[:] = ptrb_\n assert _ptrb_np_tmp.flags.contiguous\n _ptrb_tmp = ctypes.cast(_ptrb_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptrb_copyarray = False\n _ptrb_tmp = None\n \n if ptre_ is None:\n raise ValueError(\"Argument ptre cannot be None\")\n if ptre_ is None:\n raise ValueError(\"Argument ptre may not be None\")\n if isinstance(ptre_, numpy.ndarray) and ptre_.dtype is numpy.dtype(numpy.int64) and ptre_.flags.contiguous:\n _ptre_copyarray = False\n _ptre_tmp = ctypes.cast(ptre_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptre_ is not None:\n _ptre_copyarray = True\n _ptre_np_tmp = numpy.zeros(len(ptre_),numpy.dtype(numpy.int64))\n _ptre_np_tmp[:] = ptre_\n assert _ptre_np_tmp.flags.contiguous\n _ptre_tmp = ctypes.cast(_ptre_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptre_copyarray = False\n _ptre_tmp = None\n \n if asub_ is None:\n raise ValueError(\"Argument asub cannot be None\")\n if asub_ is None:\n raise ValueError(\"Argument asub may not be None\")\n if isinstance(asub_, numpy.ndarray) and asub_.dtype is numpy.dtype(numpy.int32) and asub_.flags.contiguous:\n _asub_copyarray = False\n _asub_tmp = ctypes.cast(asub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif asub_ is not None:\n _asub_copyarray = True\n _asub_np_tmp = numpy.zeros(len(asub_),numpy.dtype(numpy.int32))\n _asub_np_tmp[:] = asub_\n assert _asub_np_tmp.flags.contiguous\n _asub_tmp = ctypes.cast(_asub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _asub_copyarray = False\n _asub_tmp = None\n \n if aval_ is None:\n raise ValueError(\"Argument aval cannot be None\")\n if aval_ is None:\n raise ValueError(\"Argument aval may not be None\")\n if isinstance(aval_, numpy.ndarray) and aval_.dtype is numpy.dtype(numpy.float64) and aval_.flags.contiguous:\n _aval_copyarray = False\n _aval_tmp = ctypes.cast(aval_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif aval_ is not None:\n _aval_copyarray = True\n _aval_np_tmp = numpy.zeros(len(aval_),numpy.dtype(numpy.float64))\n _aval_np_tmp[:] = aval_\n assert _aval_np_tmp.flags.contiguous\n _aval_tmp = ctypes.cast(_aval_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _aval_copyarray = False\n _aval_tmp = None\n \n res = __library__.MSK_XX_putarowlist64(self.__nativep,num_,_sub_tmp,_ptrb_tmp,_ptre_tmp,_asub_tmp,_aval_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putarowlist(self,sub,ptrb,ptre,asub,aval): # 3\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(ptrb)\n elif num_ != len(ptrb):\n raise IndexError(\"Inconsistent length of array ptrb\")\n if num_ is None:\n num_ = len(ptre)\n elif num_ != len(ptre):\n raise IndexError(\"Inconsistent length of array ptre\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if ptrb is None: raise TypeError(\"Invalid type for argument ptrb\")\n if ptrb is None:\n ptrb_ = None\n else:\n try:\n ptrb_ = memoryview(ptrb)\n except TypeError:\n try:\n _tmparr_ptrb = array.array(\"q\",ptrb)\n except TypeError:\n raise TypeError(\"Argument ptrb has wrong type\")\n else:\n ptrb_ = memoryview(_tmparr_ptrb)\n \n else:\n if ptrb_.format != \"q\":\n ptrb_ = memoryview(array.array(\"q\",ptrb))\n \n if ptre is None: raise TypeError(\"Invalid type for argument ptre\")\n if ptre is None:\n ptre_ = None\n else:\n try:\n ptre_ = memoryview(ptre)\n except TypeError:\n try:\n _tmparr_ptre = array.array(\"q\",ptre)\n except TypeError:\n raise TypeError(\"Argument ptre has wrong type\")\n else:\n ptre_ = memoryview(_tmparr_ptre)\n \n else:\n if ptre_.format != \"q\":\n ptre_ = memoryview(array.array(\"q\",ptre))\n \n if asub is None: raise TypeError(\"Invalid type for argument asub\")\n if asub is None:\n asub_ = None\n else:\n try:\n asub_ = memoryview(asub)\n except TypeError:\n try:\n _tmparr_asub = array.array(\"i\",asub)\n except TypeError:\n raise TypeError(\"Argument asub has wrong type\")\n else:\n asub_ = memoryview(_tmparr_asub)\n \n else:\n if asub_.format != \"i\":\n asub_ = memoryview(array.array(\"i\",asub))\n \n if aval is None: raise TypeError(\"Invalid type for argument aval\")\n if aval is None:\n aval_ = None\n else:\n try:\n aval_ = memoryview(aval)\n except TypeError:\n try:\n _tmparr_aval = array.array(\"d\",aval)\n except TypeError:\n raise TypeError(\"Argument aval has wrong type\")\n else:\n aval_ = memoryview(_tmparr_aval)\n \n else:\n if aval_.format != \"d\":\n aval_ = memoryview(array.array(\"d\",aval))\n \n res = self.__obj.putarowlist64(num_,sub_,ptrb_,ptre_,asub_,aval_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putacollist(self,sub_,ptrb_,ptre_,asub_,aval_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(ptrb_)\n elif num_ != len(ptrb_):\n raise IndexError(\"Inconsistent length of array ptrb\")\n if num_ is None:\n num_ = len(ptre_)\n elif num_ != len(ptre_):\n raise IndexError(\"Inconsistent length of array ptre\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n if ptrb_ is None:\n raise ValueError(\"Argument ptrb cannot be None\")\n if ptrb_ is None:\n raise ValueError(\"Argument ptrb may not be None\")\n if isinstance(ptrb_, numpy.ndarray) and ptrb_.dtype is numpy.dtype(numpy.int64) and ptrb_.flags.contiguous:\n _ptrb_copyarray = False\n _ptrb_tmp = ctypes.cast(ptrb_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptrb_ is not None:\n _ptrb_copyarray = True\n _ptrb_np_tmp = numpy.zeros(len(ptrb_),numpy.dtype(numpy.int64))\n _ptrb_np_tmp[:] = ptrb_\n assert _ptrb_np_tmp.flags.contiguous\n _ptrb_tmp = ctypes.cast(_ptrb_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptrb_copyarray = False\n _ptrb_tmp = None\n \n if ptre_ is None:\n raise ValueError(\"Argument ptre cannot be None\")\n if ptre_ is None:\n raise ValueError(\"Argument ptre may not be None\")\n if isinstance(ptre_, numpy.ndarray) and ptre_.dtype is numpy.dtype(numpy.int64) and ptre_.flags.contiguous:\n _ptre_copyarray = False\n _ptre_tmp = ctypes.cast(ptre_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptre_ is not None:\n _ptre_copyarray = True\n _ptre_np_tmp = numpy.zeros(len(ptre_),numpy.dtype(numpy.int64))\n _ptre_np_tmp[:] = ptre_\n assert _ptre_np_tmp.flags.contiguous\n _ptre_tmp = ctypes.cast(_ptre_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptre_copyarray = False\n _ptre_tmp = None\n \n if asub_ is None:\n raise ValueError(\"Argument asub cannot be None\")\n if asub_ is None:\n raise ValueError(\"Argument asub may not be None\")\n if isinstance(asub_, numpy.ndarray) and asub_.dtype is numpy.dtype(numpy.int32) and asub_.flags.contiguous:\n _asub_copyarray = False\n _asub_tmp = ctypes.cast(asub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif asub_ is not None:\n _asub_copyarray = True\n _asub_np_tmp = numpy.zeros(len(asub_),numpy.dtype(numpy.int32))\n _asub_np_tmp[:] = asub_\n assert _asub_np_tmp.flags.contiguous\n _asub_tmp = ctypes.cast(_asub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _asub_copyarray = False\n _asub_tmp = None\n \n if aval_ is None:\n raise ValueError(\"Argument aval cannot be None\")\n if aval_ is None:\n raise ValueError(\"Argument aval may not be None\")\n if isinstance(aval_, numpy.ndarray) and aval_.dtype is numpy.dtype(numpy.float64) and aval_.flags.contiguous:\n _aval_copyarray = False\n _aval_tmp = ctypes.cast(aval_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif aval_ is not None:\n _aval_copyarray = True\n _aval_np_tmp = numpy.zeros(len(aval_),numpy.dtype(numpy.float64))\n _aval_np_tmp[:] = aval_\n assert _aval_np_tmp.flags.contiguous\n _aval_tmp = ctypes.cast(_aval_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _aval_copyarray = False\n _aval_tmp = None\n \n res = __library__.MSK_XX_putacollist64(self.__nativep,num_,_sub_tmp,_ptrb_tmp,_ptre_tmp,_asub_tmp,_aval_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putacollist(self,sub,ptrb,ptre,asub,aval): # 3\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(ptrb)\n elif num_ != len(ptrb):\n raise IndexError(\"Inconsistent length of array ptrb\")\n if num_ is None:\n num_ = len(ptre)\n elif num_ != len(ptre):\n raise IndexError(\"Inconsistent length of array ptre\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if ptrb is None: raise TypeError(\"Invalid type for argument ptrb\")\n if ptrb is None:\n ptrb_ = None\n else:\n try:\n ptrb_ = memoryview(ptrb)\n except TypeError:\n try:\n _tmparr_ptrb = array.array(\"q\",ptrb)\n except TypeError:\n raise TypeError(\"Argument ptrb has wrong type\")\n else:\n ptrb_ = memoryview(_tmparr_ptrb)\n \n else:\n if ptrb_.format != \"q\":\n ptrb_ = memoryview(array.array(\"q\",ptrb))\n \n if ptre is None: raise TypeError(\"Invalid type for argument ptre\")\n if ptre is None:\n ptre_ = None\n else:\n try:\n ptre_ = memoryview(ptre)\n except TypeError:\n try:\n _tmparr_ptre = array.array(\"q\",ptre)\n except TypeError:\n raise TypeError(\"Argument ptre has wrong type\")\n else:\n ptre_ = memoryview(_tmparr_ptre)\n \n else:\n if ptre_.format != \"q\":\n ptre_ = memoryview(array.array(\"q\",ptre))\n \n if asub is None: raise TypeError(\"Invalid type for argument asub\")\n if asub is None:\n asub_ = None\n else:\n try:\n asub_ = memoryview(asub)\n except TypeError:\n try:\n _tmparr_asub = array.array(\"i\",asub)\n except TypeError:\n raise TypeError(\"Argument asub has wrong type\")\n else:\n asub_ = memoryview(_tmparr_asub)\n \n else:\n if asub_.format != \"i\":\n asub_ = memoryview(array.array(\"i\",asub))\n \n if aval is None: raise TypeError(\"Invalid type for argument aval\")\n if aval is None:\n aval_ = None\n else:\n try:\n aval_ = memoryview(aval)\n except TypeError:\n try:\n _tmparr_aval = array.array(\"d\",aval)\n except TypeError:\n raise TypeError(\"Argument aval has wrong type\")\n else:\n aval_ = memoryview(_tmparr_aval)\n \n else:\n if aval_.format != \"d\":\n aval_ = memoryview(array.array(\"d\",aval))\n \n res = self.__obj.putacollist64(num_,sub_,ptrb_,ptre_,asub_,aval_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putboundlist(self,accmode_,sub,bk,bl,bu): # 3\n if not isinstance(accmode_,accmode): raise TypeError(\"Argument accmode has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(bk)\n elif num_ != len(bk):\n raise IndexError(\"Inconsistent length of array bk\")\n if num_ is None:\n num_ = len(bl)\n elif num_ != len(bl):\n raise IndexError(\"Inconsistent length of array bl\")\n if num_ is None:\n num_ = len(bu)\n elif num_ != len(bu):\n raise IndexError(\"Inconsistent length of array bu\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if bk is None: raise TypeError(\"Invalid type for argument bk\")\n if bk is None:\n bk_ = None\n else:\n try:\n bk_ = memoryview(bk)\n except TypeError:\n try:\n _tmparr_bk = array.array(\"i\",bk)\n except TypeError:\n raise TypeError(\"Argument bk has wrong type\")\n else:\n bk_ = memoryview(_tmparr_bk)\n \n else:\n if bk_.format != \"i\":\n bk_ = memoryview(array.array(\"i\",bk))\n \n if bl is None: raise TypeError(\"Invalid type for argument bl\")\n if bl is None:\n bl_ = None\n else:\n try:\n bl_ = memoryview(bl)\n except TypeError:\n try:\n _tmparr_bl = array.array(\"d\",bl)\n except TypeError:\n raise TypeError(\"Argument bl has wrong type\")\n else:\n bl_ = memoryview(_tmparr_bl)\n \n else:\n if bl_.format != \"d\":\n bl_ = memoryview(array.array(\"d\",bl))\n \n if bu is None: raise TypeError(\"Invalid type for argument bu\")\n if bu is None:\n bu_ = None\n else:\n try:\n bu_ = memoryview(bu)\n except TypeError:\n try:\n _tmparr_bu = array.array(\"d\",bu)\n except TypeError:\n raise TypeError(\"Argument bu has wrong type\")\n else:\n bu_ = memoryview(_tmparr_bu)\n \n else:\n if bu_.format != \"d\":\n bu_ = memoryview(array.array(\"d\",bu))\n \n res = self.__obj.putboundlist(accmode_,num_,sub_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getbarcidx(self,idx_,sub_,weights_):\n maxnum_ = self.getbarcidxinfo((idx_))\n j_ = ctypes.c_int32()\n num_ = ctypes.c_int64()\n _sub_minlength = (maxnum_)\n if (maxnum_) > 0 and sub_ is not None and len(sub_) != (maxnum_):\n raise ValueError(\"Array argument sub is not long enough: Is %d, expected %d\" % (len(sub_),(maxnum_)))\n if isinstance(sub_,numpy.ndarray) and not sub_.flags.writeable:\n raise ValueError(\"Argument sub must be writable\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int64) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int64))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _weights_minlength = (maxnum_)\n if (maxnum_) > 0 and weights_ is not None and len(weights_) != (maxnum_):\n raise ValueError(\"Array argument weights is not long enough: Is %d, expected %d\" % (len(weights_),(maxnum_)))\n if isinstance(weights_,numpy.ndarray) and not weights_.flags.writeable:\n raise ValueError(\"Argument weights must be writable\")\n if weights_ is None:\n raise ValueError(\"Argument weights may not be None\")\n if isinstance(weights_, numpy.ndarray) and weights_.dtype is numpy.dtype(numpy.float64) and weights_.flags.contiguous:\n _weights_copyarray = False\n _weights_tmp = ctypes.cast(weights_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif weights_ is not None:\n _weights_copyarray = True\n _weights_np_tmp = numpy.zeros(len(weights_),numpy.dtype(numpy.float64))\n _weights_np_tmp[:] = weights_\n assert _weights_np_tmp.flags.contiguous\n _weights_tmp = ctypes.cast(_weights_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _weights_copyarray = False\n _weights_tmp = None\n \n res = __library__.MSK_XX_getbarcidx(self.__nativep,idx_,maxnum_,ctypes.byref(j_),ctypes.byref(num_),_sub_tmp,_weights_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n j_ = j_.value\n _j_return_value = j_\n num_ = num_.value\n _num_return_value = num_\n if _sub_copyarray:\n sub_[:] = _sub_np_tmp\n if _weights_copyarray:\n weights_[:] = _weights_np_tmp\n return (_j_return_value,_num_return_value)", "def make_branch_matrix(self):\n self.bm = []\n for pod in self.pods:\n for lb in pod.limbs:\n row = []\n for br in lb.branches:\n row.append(br)\n self.bm.append(row)\n #print \"appended %d-element row %d\" % (len(row),len(self.bm))", "def update_M_B(Bt, M, B):\n n,_ = Bt.shape\n for i in range(n):\n g = np.where(Bt[i,:]==1)[0][0]\n # print(\"g=\", g)\n M.remove(g)\n B[i].add(g)\n return M, B", "def fixB(self,i,j,value):\n if self.coeffPattern[1] == None:\n m,n=self.m,self.n\n self.coeffPattern = [[None]*n for i in range(m)]\n self.coeffPattern[1][i][j]=value\n self._updateEstimatorSize(i)", "def getbarcidx(self,idx_,sub,weights): # 3\n maxnum_ = self.getbarcidxinfo((idx_))\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n _copyback_sub = False\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"q\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n _copyback_sub = True\n else:\n if sub_.format != \"q\":\n sub_ = memoryview(array.array(\"q\",sub))\n _copyback_sub = True\n if sub_ is not None and len(sub_) != (maxnum_):\n raise ValueError(\"Array argument sub has wrong length\")\n if weights is None: raise TypeError(\"Invalid type for argument weights\")\n _copyback_weights = False\n if weights is None:\n weights_ = None\n else:\n try:\n weights_ = memoryview(weights)\n except TypeError:\n try:\n _tmparr_weights = array.array(\"d\",weights)\n except TypeError:\n raise TypeError(\"Argument weights has wrong type\")\n else:\n weights_ = memoryview(_tmparr_weights)\n _copyback_weights = True\n else:\n if weights_.format != \"d\":\n weights_ = memoryview(array.array(\"d\",weights))\n _copyback_weights = True\n if weights_ is not None and len(weights_) != (maxnum_):\n raise ValueError(\"Array argument weights has wrong length\")\n res,resargs = self.__obj.getbarcidx(idx_,maxnum_,sub_,weights_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _j_return_value,_num_return_value = resargs\n if _copyback_weights:\n weights[:] = _tmparr_weights\n if _copyback_sub:\n sub[:] = _tmparr_sub\n return _j_return_value,_num_return_value", "def putvarboundlistconst(self,sub_,bkx_,blx_,bux_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n res = __library__.MSK_XX_putvarboundlistconst(self.__nativep,num_,_sub_tmp,bkx_,blx_,bux_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarboundlist(self,sub_,bkx_,blx_,bux_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(bkx_)\n elif num_ != len(bkx_):\n raise IndexError(\"Inconsistent length of array bkx\")\n if num_ is None:\n num_ = len(blx_)\n elif num_ != len(blx_):\n raise IndexError(\"Inconsistent length of array blx\")\n if num_ is None:\n num_ = len(bux_)\n elif num_ != len(bux_):\n raise IndexError(\"Inconsistent length of array bux\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n if bkx_ is None:\n raise ValueError(\"Argument bkx cannot be None\")\n if bkx_ is None:\n raise ValueError(\"Argument bkx may not be None\")\n if bkx_ is not None:\n _bkx_tmp = (ctypes.c_int32 * len(bkx_))(*bkx_)\n else:\n _bkx_tmp = None\n if blx_ is None:\n raise ValueError(\"Argument blx cannot be None\")\n if blx_ is None:\n raise ValueError(\"Argument blx may not be None\")\n if isinstance(blx_, numpy.ndarray) and blx_.dtype is numpy.dtype(numpy.float64) and blx_.flags.contiguous:\n _blx_copyarray = False\n _blx_tmp = ctypes.cast(blx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif blx_ is not None:\n _blx_copyarray = True\n _blx_np_tmp = numpy.zeros(len(blx_),numpy.dtype(numpy.float64))\n _blx_np_tmp[:] = blx_\n assert _blx_np_tmp.flags.contiguous\n _blx_tmp = ctypes.cast(_blx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _blx_copyarray = False\n _blx_tmp = None\n \n if bux_ is None:\n raise ValueError(\"Argument bux cannot be None\")\n if bux_ is None:\n raise ValueError(\"Argument bux may not be None\")\n if isinstance(bux_, numpy.ndarray) and bux_.dtype is numpy.dtype(numpy.float64) and bux_.flags.contiguous:\n _bux_copyarray = False\n _bux_tmp = ctypes.cast(bux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif bux_ is not None:\n _bux_copyarray = True\n _bux_np_tmp = numpy.zeros(len(bux_),numpy.dtype(numpy.float64))\n _bux_np_tmp[:] = bux_\n assert _bux_np_tmp.flags.contiguous\n _bux_tmp = ctypes.cast(_bux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _bux_copyarray = False\n _bux_tmp = None\n \n res = __library__.MSK_XX_putvarboundlist(self.__nativep,num_,_sub_tmp,_bkx_tmp,_blx_tmp,_bux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def _bd_updateB(A,W):\r\n\r\n \r\n Y = _Y(A, W)\r\n B_new = np.greater_equal(Y, 0.5).T # Update B matrix. \r\n \r\n #### setting all True rows to False ####\r\n # if feature has similar associate to all clusters, is an outlier (see Li and Zhu)\r\n # will have a row of all True by the np.greater_equal() function, reverse to make row of False\r\n \r\n # # TODO: use single outlier function and create a shared utils.py \r\n # def is_outlier(d):\r\n \r\n # if np.array_equal(d, np.array([True]*len(d))):\r\n # return np.array([False]*len(d))\r\n # else:\r\n # return d\r\n \r\n # B_new = np.apply_along_axis(is_outlier, axis = 1, arr = B_new)\r\n\r\n B_new = _is_bd_outlier(B_new)\r\n \r\n return B_new", "def putconboundlist(self,sub,bk,bl,bu): # 3\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(bk)\n elif num_ != len(bk):\n raise IndexError(\"Inconsistent length of array bk\")\n if num_ is None:\n num_ = len(bl)\n elif num_ != len(bl):\n raise IndexError(\"Inconsistent length of array bl\")\n if num_ is None:\n num_ = len(bu)\n elif num_ != len(bu):\n raise IndexError(\"Inconsistent length of array bu\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if bk is None: raise TypeError(\"Invalid type for argument bk\")\n if bk is None:\n bk_ = None\n else:\n try:\n bk_ = memoryview(bk)\n except TypeError:\n try:\n _tmparr_bk = array.array(\"i\",bk)\n except TypeError:\n raise TypeError(\"Argument bk has wrong type\")\n else:\n bk_ = memoryview(_tmparr_bk)\n \n else:\n if bk_.format != \"i\":\n bk_ = memoryview(array.array(\"i\",bk))\n \n if bl is None: raise TypeError(\"Invalid type for argument bl\")\n if bl is None:\n bl_ = None\n else:\n try:\n bl_ = memoryview(bl)\n except TypeError:\n try:\n _tmparr_bl = array.array(\"d\",bl)\n except TypeError:\n raise TypeError(\"Argument bl has wrong type\")\n else:\n bl_ = memoryview(_tmparr_bl)\n \n else:\n if bl_.format != \"d\":\n bl_ = memoryview(array.array(\"d\",bl))\n \n if bu is None: raise TypeError(\"Invalid type for argument bu\")\n if bu is None:\n bu_ = None\n else:\n try:\n bu_ = memoryview(bu)\n except TypeError:\n try:\n _tmparr_bu = array.array(\"d\",bu)\n except TypeError:\n raise TypeError(\"Argument bu has wrong type\")\n else:\n bu_ = memoryview(_tmparr_bu)\n \n else:\n if bu_.format != \"d\":\n bu_ = memoryview(array.array(\"d\",bu))\n \n res = self.__obj.putconboundlist(num_,sub_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarboundlist(self,sub,bkx,blx,bux): # 3\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(bkx)\n elif num_ != len(bkx):\n raise IndexError(\"Inconsistent length of array bkx\")\n if num_ is None:\n num_ = len(blx)\n elif num_ != len(blx):\n raise IndexError(\"Inconsistent length of array blx\")\n if num_ is None:\n num_ = len(bux)\n elif num_ != len(bux):\n raise IndexError(\"Inconsistent length of array bux\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if bkx is None: raise TypeError(\"Invalid type for argument bkx\")\n if bkx is None:\n bkx_ = None\n else:\n try:\n bkx_ = memoryview(bkx)\n except TypeError:\n try:\n _tmparr_bkx = array.array(\"i\",bkx)\n except TypeError:\n raise TypeError(\"Argument bkx has wrong type\")\n else:\n bkx_ = memoryview(_tmparr_bkx)\n \n else:\n if bkx_.format != \"i\":\n bkx_ = memoryview(array.array(\"i\",bkx))\n \n if blx is None: raise TypeError(\"Invalid type for argument blx\")\n if blx is None:\n blx_ = None\n else:\n try:\n blx_ = memoryview(blx)\n except TypeError:\n try:\n _tmparr_blx = array.array(\"d\",blx)\n except TypeError:\n raise TypeError(\"Argument blx has wrong type\")\n else:\n blx_ = memoryview(_tmparr_blx)\n \n else:\n if blx_.format != \"d\":\n blx_ = memoryview(array.array(\"d\",blx))\n \n if bux is None: raise TypeError(\"Invalid type for argument bux\")\n if bux is None:\n bux_ = None\n else:\n try:\n bux_ = memoryview(bux)\n except TypeError:\n try:\n _tmparr_bux = array.array(\"d\",bux)\n except TypeError:\n raise TypeError(\"Argument bux has wrong type\")\n else:\n bux_ = memoryview(_tmparr_bux)\n \n else:\n if bux_.format != \"d\":\n bux_ = memoryview(array.array(\"d\",bux))\n \n res = self.__obj.putvarboundlist(num_,sub_,bkx_,blx_,bux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconboundlist(self,sub_,bkc_,blc_,buc_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(bkc_)\n elif num_ != len(bkc_):\n raise IndexError(\"Inconsistent length of array bkc\")\n if num_ is None:\n num_ = len(blc_)\n elif num_ != len(blc_):\n raise IndexError(\"Inconsistent length of array blc\")\n if num_ is None:\n num_ = len(buc_)\n elif num_ != len(buc_):\n raise IndexError(\"Inconsistent length of array buc\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n if bkc_ is None:\n raise ValueError(\"Argument bkc cannot be None\")\n if bkc_ is None:\n raise ValueError(\"Argument bkc may not be None\")\n if bkc_ is not None:\n _bkc_tmp = (ctypes.c_int32 * len(bkc_))(*bkc_)\n else:\n _bkc_tmp = None\n if blc_ is None:\n raise ValueError(\"Argument blc cannot be None\")\n if blc_ is None:\n raise ValueError(\"Argument blc may not be None\")\n if isinstance(blc_, numpy.ndarray) and blc_.dtype is numpy.dtype(numpy.float64) and blc_.flags.contiguous:\n _blc_copyarray = False\n _blc_tmp = ctypes.cast(blc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif blc_ is not None:\n _blc_copyarray = True\n _blc_np_tmp = numpy.zeros(len(blc_),numpy.dtype(numpy.float64))\n _blc_np_tmp[:] = blc_\n assert _blc_np_tmp.flags.contiguous\n _blc_tmp = ctypes.cast(_blc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _blc_copyarray = False\n _blc_tmp = None\n \n if buc_ is None:\n raise ValueError(\"Argument buc cannot be None\")\n if buc_ is None:\n raise ValueError(\"Argument buc may not be None\")\n if isinstance(buc_, numpy.ndarray) and buc_.dtype is numpy.dtype(numpy.float64) and buc_.flags.contiguous:\n _buc_copyarray = False\n _buc_tmp = ctypes.cast(buc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif buc_ is not None:\n _buc_copyarray = True\n _buc_np_tmp = numpy.zeros(len(buc_),numpy.dtype(numpy.float64))\n _buc_np_tmp[:] = buc_\n assert _buc_np_tmp.flags.contiguous\n _buc_tmp = ctypes.cast(_buc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _buc_copyarray = False\n _buc_tmp = None\n \n res = __library__.MSK_XX_putconboundlist(self.__nativep,num_,_sub_tmp,_bkc_tmp,_blc_tmp,_buc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconboundlistconst(self,sub_,bkc_,blc_,buc_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n res = __library__.MSK_XX_putconboundlistconst(self.__nativep,num_,_sub_tmp,bkc_,blc_,buc_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def set_blists(self, blists):\n self.blists = blists[:]", "def addedrow(self, y, addlist):\n out = self[y]\n for x in xrange(0, len(out)):\n out[x] = out[x]+addlist[x]\n return out", "def __setitem__(self, index, element):\n \"*** YOUR CODE HERE ***\"", "def biplot(score,coeff,pcax,pcay,labels=None,nm=None):\n pca1=pcax-1\n pca2=pcay-1\n xs = score[:,pca1]\n ys = score[:,pca2]\n n=score.shape[1]\n if nm == None:\n nm = n\n #construct scales to constrain data between -1 and 1\n scalex = 1.0/(xs.max()- xs.min())\n scaley = 1.0/(ys.max()- ys.min())\n \n #scatter data points in the new basis span by pca1 and pca2\n plt.scatter(xs*scalex,ys*scaley, marker='.',edgecolor='none')\n vectors = []\n \n #overlay transforms of original features in the new basis\n for i in range(n):\n #calculate length of vectors in new basis\n vectors.append((labels[i],np.sqrt(coeff[i,pca1]**2 + coeff[i,pca2]**2)))\n #plot arrow vectors\n plt.arrow(0, 0, coeff[i,pca1], coeff[i,pca2],color='g',alpha=0.5) \n #add labels\n if labels is None:\n plt.text(coeff[i,pca1]* 1.15, coeff[i,pca2] * 1.15, \"Var\"+str(i+1), color='k', ha='center', va='center')\n else:\n plt.text(coeff[i,pca1]* 1.15, coeff[i,pca2] * 1.15, labels[i], color='k', ha='center', va='center')\n plt.xlim(-1,1)\n plt.ylim(-1,1)\n plt.xlabel(\"PC{}\".format(pcax))\n plt.ylabel(\"PC{}\".format(pcay))\n plt.grid()\n plt.show()\n #print \"Feature import (PCA)\"\n #print \"--------------------\"\n vectors = sorted(vectors,key=lambda x:x[1],reverse=False)\n \n plt.barh(range(len(vectors)),map(lambda x:x[1],vectors),edgecolor='none')\n plt.yticks(np.arange(len(vectors))+0.4,map(lambda x:x[0],vectors))\n plt.xlabel('Feature importance')\n plt.grid()\n plt.show()\n #pprint(vectors)\n return vectors", "def getbaraidx(self,idx_,sub_,weights_):\n maxnum_ = self.getbaraidxinfo((idx_))\n i_ = ctypes.c_int32()\n j_ = ctypes.c_int32()\n num_ = ctypes.c_int64()\n _sub_minlength = (maxnum_)\n if (maxnum_) > 0 and sub_ is not None and len(sub_) != (maxnum_):\n raise ValueError(\"Array argument sub is not long enough: Is %d, expected %d\" % (len(sub_),(maxnum_)))\n if isinstance(sub_,numpy.ndarray) and not sub_.flags.writeable:\n raise ValueError(\"Argument sub must be writable\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int64) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int64))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _weights_minlength = (maxnum_)\n if (maxnum_) > 0 and weights_ is not None and len(weights_) != (maxnum_):\n raise ValueError(\"Array argument weights is not long enough: Is %d, expected %d\" % (len(weights_),(maxnum_)))\n if isinstance(weights_,numpy.ndarray) and not weights_.flags.writeable:\n raise ValueError(\"Argument weights must be writable\")\n if weights_ is None:\n raise ValueError(\"Argument weights may not be None\")\n if isinstance(weights_, numpy.ndarray) and weights_.dtype is numpy.dtype(numpy.float64) and weights_.flags.contiguous:\n _weights_copyarray = False\n _weights_tmp = ctypes.cast(weights_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif weights_ is not None:\n _weights_copyarray = True\n _weights_np_tmp = numpy.zeros(len(weights_),numpy.dtype(numpy.float64))\n _weights_np_tmp[:] = weights_\n assert _weights_np_tmp.flags.contiguous\n _weights_tmp = ctypes.cast(_weights_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _weights_copyarray = False\n _weights_tmp = None\n \n res = __library__.MSK_XX_getbaraidx(self.__nativep,idx_,maxnum_,ctypes.byref(i_),ctypes.byref(j_),ctypes.byref(num_),_sub_tmp,_weights_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n i_ = i_.value\n _i_return_value = i_\n j_ = j_.value\n _j_return_value = j_\n num_ = num_.value\n _num_return_value = num_\n if _sub_copyarray:\n sub_[:] = _sub_np_tmp\n if _weights_copyarray:\n weights_[:] = _weights_np_tmp\n return (_i_return_value,_j_return_value,_num_return_value)", "def _markForBackpatch(self, index, label, bits, relative):\n assert(type(label) == str)\n assert(type(relative) == bool)\n self.backpatchQueue.append((self.codeptr, label, bits, relative))", "def putbarablocktriplet(self,num_,subi_,subj_,subk_,subl_,valijkl_):\n _subi_minlength = (num_)\n if (num_) > 0 and subi_ is not None and len(subi_) != (num_):\n raise ValueError(\"Array argument subi is not long enough: Is %d, expected %d\" % (len(subi_),(num_)))\n if subi_ is None:\n raise ValueError(\"Argument subi cannot be None\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n _subj_minlength = (num_)\n if (num_) > 0 and subj_ is not None and len(subj_) != (num_):\n raise ValueError(\"Array argument subj is not long enough: Is %d, expected %d\" % (len(subj_),(num_)))\n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n _subk_minlength = (num_)\n if (num_) > 0 and subk_ is not None and len(subk_) != (num_):\n raise ValueError(\"Array argument subk is not long enough: Is %d, expected %d\" % (len(subk_),(num_)))\n if subk_ is None:\n raise ValueError(\"Argument subk cannot be None\")\n if subk_ is None:\n raise ValueError(\"Argument subk may not be None\")\n if isinstance(subk_, numpy.ndarray) and subk_.dtype is numpy.dtype(numpy.int32) and subk_.flags.contiguous:\n _subk_copyarray = False\n _subk_tmp = ctypes.cast(subk_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subk_ is not None:\n _subk_copyarray = True\n _subk_np_tmp = numpy.zeros(len(subk_),numpy.dtype(numpy.int32))\n _subk_np_tmp[:] = subk_\n assert _subk_np_tmp.flags.contiguous\n _subk_tmp = ctypes.cast(_subk_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subk_copyarray = False\n _subk_tmp = None\n \n _subl_minlength = (num_)\n if (num_) > 0 and subl_ is not None and len(subl_) != (num_):\n raise ValueError(\"Array argument subl is not long enough: Is %d, expected %d\" % (len(subl_),(num_)))\n if subl_ is None:\n raise ValueError(\"Argument subl cannot be None\")\n if subl_ is None:\n raise ValueError(\"Argument subl may not be None\")\n if isinstance(subl_, numpy.ndarray) and subl_.dtype is numpy.dtype(numpy.int32) and subl_.flags.contiguous:\n _subl_copyarray = False\n _subl_tmp = ctypes.cast(subl_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subl_ is not None:\n _subl_copyarray = True\n _subl_np_tmp = numpy.zeros(len(subl_),numpy.dtype(numpy.int32))\n _subl_np_tmp[:] = subl_\n assert _subl_np_tmp.flags.contiguous\n _subl_tmp = ctypes.cast(_subl_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subl_copyarray = False\n _subl_tmp = None\n \n _valijkl_minlength = (num_)\n if (num_) > 0 and valijkl_ is not None and len(valijkl_) != (num_):\n raise ValueError(\"Array argument valijkl is not long enough: Is %d, expected %d\" % (len(valijkl_),(num_)))\n if valijkl_ is None:\n raise ValueError(\"Argument valijkl cannot be None\")\n if valijkl_ is None:\n raise ValueError(\"Argument valijkl may not be None\")\n if isinstance(valijkl_, numpy.ndarray) and valijkl_.dtype is numpy.dtype(numpy.float64) and valijkl_.flags.contiguous:\n _valijkl_copyarray = False\n _valijkl_tmp = ctypes.cast(valijkl_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif valijkl_ is not None:\n _valijkl_copyarray = True\n _valijkl_np_tmp = numpy.zeros(len(valijkl_),numpy.dtype(numpy.float64))\n _valijkl_np_tmp[:] = valijkl_\n assert _valijkl_np_tmp.flags.contiguous\n _valijkl_tmp = ctypes.cast(_valijkl_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _valijkl_copyarray = False\n _valijkl_tmp = None\n \n res = __library__.MSK_XX_putbarablocktriplet(self.__nativep,num_,_subi_tmp,_subj_tmp,_subk_tmp,_subl_tmp,_valijkl_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def setSubtreeBF(self, index, subtree):\n if index == 0:\n try:\n self[:] = subtree\n except TypeError:\n del self[1:]\n self[0] = subtree\n return\n \n queue = deque(izip(repeat(self, len(self[1:])), count(1)))\n for i in xrange(index):\n elem = queue.popleft()\n parent = elem[0]\n child = elem[1]\n if isinstance(parent[child], Tree):\n tree = parent[child]\n queue.extend(izip(repeat(tree, len(tree[1:])), count(1)))\n parent[child] = subtree" ]

[ "0.69141024", "0.57564807", "0.56130505", "0.55167717", "0.5442003", "0.5344216", "0.5246333", "0.5187387", "0.5142179", "0.49682668", "0.48680598", "0.48350987", "0.4808861", "0.4752955", "0.4751432", "0.47513345", "0.47332814", "0.46975785", "0.467135", "0.4622978", "0.45656618", "0.4554744", "0.45144027", "0.447485", "0.44527838", "0.44329706", "0.4416303", "0.44020942", "0.4401657", "0.4400767" ]

[ "def getnumbarcnz(self): # 3\n res,resargs = self.__obj.getnumbarcnz()\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _nz_return_value = resargs\n return _nz_return_value", "def getnumbaranz(self):\n nz_ = ctypes.c_int64()\n res = __library__.MSK_XX_getnumbaranz(self.__nativep,ctypes.byref(nz_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n nz_ = nz_.value\n _nz_return_value = nz_\n return (_nz_return_value)", "def getnumbaranz(self): # 3\n res,resargs = self.__obj.getnumbaranz()\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _nz_return_value = resargs\n return _nz_return_value", "def nCz(self):\n if self.dim < 3:\n return None\n return int(self._n[2])", "def nnz(self):\n return len(self.value)", "def getnumbarcblocktriplets(self):\n num_ = ctypes.c_int64()\n res = __library__.MSK_XX_getnumbarcblocktriplets(self.__nativep,ctypes.byref(num_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n num_ = num_.value\n _num_return_value = num_\n return (_num_return_value)", "def getnumbarcblocktriplets(self): # 3\n res,resargs = self.__obj.getnumbarcblocktriplets()\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _num_return_value = resargs\n return _num_return_value", "def nnz(self):\n return self.rep.nnz()", "def nnz(self):\n return len(self.data)", "def getnumqconknz(self,k_): # 3\n res,resargs = self.__obj.getnumqconknz64(k_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _numqcnz_return_value = resargs\n return _numqcnz_return_value", "def nNz(self):\n if self.dim < 3:\n return None\n return self.nCz + 1", "def getnumqobjnz(self): # 3\n res,resargs = self.__obj.getnumqobjnz64()\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _numqonz_return_value = resargs\n return _numqonz_return_value", "def nnz(self):", "def nnz(self):\n\t\treturn self.st.size()", "def N_z(self) -> int:\n return self.params.N_z", "def nnz(self):\n return self.to_ddm().nnz()", "def NNZ(self):\n return len(self.__IndList)", "def nnz(self):\n t = self.get_MSC()\n return len(np.unique(t['masks']))", "def getnumbarablocktriplets(self): # 3\n res,resargs = self.__obj.getnumbarablocktriplets()\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _num_return_value = resargs\n return _num_return_value", "def num_cells(self):\n cbi = self.cbi\n if cbi is None:\n return None\n return cbi[-1] # pylint: disable=E1136", "def num_cells(self):\n cbi = self.cbi\n if cbi is None:\n return None\n return cbi[-1] # pylint: disable=E1136", "def num_cells(self):\n cbi = self.cbi\n if cbi is None:\n return None\n return cbi[-1] # pylint: disable=E1136", "def num_cells(self):\n cbi = self.cbi\n if cbi is None:\n return None\n return cbi[-1] # pylint: disable=E1136", "def num_clbits(self):\n return 0", "def n_cs(self):\n return np.size(self._cs, 0)", "def getnumbarvar(self):\n numbarvar_ = ctypes.c_int32()\n res = __library__.MSK_XX_getnumbarvar(self.__nativep,ctypes.byref(numbarvar_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n numbarvar_ = numbarvar_.value\n _numbarvar_return_value = numbarvar_\n return (_numbarvar_return_value)", "def ffb_nc (cls):\r\n b=(bin(c0+jmax_raw)[-(cls)])\r\n return -(2*int(b)-1)", "def getnumbarvar(self): # 3\n res,resargs = self.__obj.getnumbarvar()\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _numbarvar_return_value = resargs\n return _numbarvar_return_value", "def nb_rhinoceros(self):\n return self.__nb_rhinoceros", "def nz(self):\n return self._dim[2]" ]

[ "0.8414863", "0.732054", "0.7181858", "0.6833535", "0.6721521", "0.66638815", "0.65889084", "0.64409876", "0.64379865", "0.64336276", "0.63874006", "0.6374218", "0.6348899", "0.6307783", "0.6306807", "0.62579656", "0.62028146", "0.6169162", "0.61074764", "0.60677207", "0.60677207", "0.60677207", "0.60677207", "0.60638", "0.60458535", "0.60085607", "0.60016555", "0.6000087", "0.59962404", "0.59714174" ]

[ "def getnumbaranz(self): # 3\n res,resargs = self.__obj.getnumbaranz()\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _nz_return_value = resargs\n return _nz_return_value", "def getnumbarcnz(self): # 3\n res,resargs = self.__obj.getnumbarcnz()\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _nz_return_value = resargs\n return _nz_return_value", "def get_nrof_aux(self):\n aux = 0\n for l in self.aux_array:\n if l:\n aux += 1\n return aux", "def nnz(self):\n return len(self.value)", "def getnumbarcnz(self):\n nz_ = ctypes.c_int64()\n res = __library__.MSK_XX_getnumbarcnz(self.__nativep,ctypes.byref(nz_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n nz_ = nz_.value\n _nz_return_value = nz_\n return (_nz_return_value)", "def count_nonzero(a):\n return (np.count_nonzero(a))", "def nobsgauges(self):\n return len(self.obsgauges)", "def num_empty(self):\n count = 0\n for i in self.__buckets:\n if i.size() == 0:\n count += 1\n return count", "def getNumElements(self):\n return 0", "def get_num_nonzero_betas(betas, genesets, threshold=1e-6):\n total_nonzeros = 0\n total_genesets = 0\n for idx, b in enumerate(betas):\n geneset_nonzeros = sum(np.greater(b, threshold))\n total_nonzeros += geneset_nonzeros\n if geneset_nonzeros > 0:\n total_genesets += 1\n print \"geneset found\", genesets[idx], \"nonzeros\", geneset_nonzeros, \"total genes\", b.size\n return total_nonzeros[0,0], total_genesets", "def __len__(self):\n return np.size(self.A,0)", "def nnz(self):\n return self.rep.nnz()", "def getnumbarablocktriplets(self): # 3\n res,resargs = self.__obj.getnumbarablocktriplets()\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _num_return_value = resargs\n return _num_return_value", "def nnz(self):\n return len(self.data)", "def getnumanz(self): # 3\n res,resargs = self.__obj.getnumanz()\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _numanz_return_value = resargs\n return _numanz_return_value", "def nnz(self):", "def nnz(self):\n\t\treturn self.st.size()", "def NNZ(self):\n return len(self.__IndList)", "def get_num_of_barrels(self):\n return self.num_of_barrels", "def test_count_ab(self):\n AB = get_moltype(\"ab\")\n seq = AB.make_array_seq(\"aaba-\", alphabet=AB.alphabet.with_gap_motif())\n c = seq.counts()\n self.assertEqual(c.to_dict(), {\"a\": 3, \"b\": 1})\n c = seq.counts(allow_gap=True)\n self.assertEqual(c.to_dict(), {\"a\": 3, \"b\": 1, \"-\": 1})", "def _N(self):\n return len(self._array)", "def element_count(self):\r\n result = conf.lib.clang_getNumElements(self)\r\n if result < 0:\r\n raise Exception('Type does not have elements.')\r\n\r\n return result", "def get_num_herb_landscape(self):\n return len(self.herb_pop)", "def getnumbarvar(self): # 3\n res,resargs = self.__obj.getnumbarvar()\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _numbarvar_return_value = resargs\n return _numbarvar_return_value", "def get_zeros(self):\n return self.serie.isin([0]).sum()", "def num_annuli(self) -> int:\n return self._num_ann", "def getNumElements(self):\n return 1 + sum(m.getNumElements() for m in self.members)", "def getnumbarcblocktriplets(self): # 3\n res,resargs = self.__obj.getnumbarcblocktriplets()\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _num_return_value = resargs\n return _num_return_value", "def count_reduce_nb(col, a, *args):\n return np.sum(~np.isnan(a))", "def nnz(self):\n t = self.get_MSC()\n return len(np.unique(t['masks']))" ]

[ "0.73079044", "0.695428", "0.6405161", "0.6346526", "0.6294061", "0.62621385", "0.62515223", "0.6134515", "0.6053183", "0.60438895", "0.60046744", "0.5997218", "0.59886605", "0.5983975", "0.59795845", "0.59599566", "0.5944614", "0.59325683", "0.5888442", "0.5874875", "0.5848295", "0.5845179", "0.5815204", "0.5779502", "0.5775466", "0.5760745", "0.57573867", "0.57569534", "0.5748245", "0.5730016" ]

[ "def getbarcsparsity(self,idxj): # 3\n maxnumnz_ = self.getnumbarcnz()\n if idxj is None: raise TypeError(\"Invalid type for argument idxj\")\n _copyback_idxj = False\n if idxj is None:\n idxj_ = None\n else:\n try:\n idxj_ = memoryview(idxj)\n except TypeError:\n try:\n _tmparr_idxj = array.array(\"q\",idxj)\n except TypeError:\n raise TypeError(\"Argument idxj has wrong type\")\n else:\n idxj_ = memoryview(_tmparr_idxj)\n _copyback_idxj = True\n else:\n if idxj_.format != \"q\":\n idxj_ = memoryview(array.array(\"q\",idxj))\n _copyback_idxj = True\n if idxj_ is not None and len(idxj_) != (maxnumnz_):\n raise ValueError(\"Array argument idxj has wrong length\")\n res,resargs = self.__obj.getbarcsparsity(maxnumnz_,idxj_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _numnz_return_value = resargs\n if _copyback_idxj:\n idxj[:] = _tmparr_idxj\n return _numnz_return_value", "def getbarcidxj(self,idx_): # 3\n res,resargs = self.__obj.getbarcidxj(idx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _j_return_value = resargs\n return _j_return_value", "def getbarasparsity(self,idxij_):\n maxnumnz_ = self.getnumbaranz()\n numnz_ = ctypes.c_int64()\n _idxij_minlength = (maxnumnz_)\n if (maxnumnz_) > 0 and idxij_ is not None and len(idxij_) != (maxnumnz_):\n raise ValueError(\"Array argument idxij is not long enough: Is %d, expected %d\" % (len(idxij_),(maxnumnz_)))\n if isinstance(idxij_,numpy.ndarray) and not idxij_.flags.writeable:\n raise ValueError(\"Argument idxij must be writable\")\n if idxij_ is None:\n raise ValueError(\"Argument idxij may not be None\")\n if isinstance(idxij_, numpy.ndarray) and idxij_.dtype is numpy.dtype(numpy.int64) and idxij_.flags.contiguous:\n _idxij_copyarray = False\n _idxij_tmp = ctypes.cast(idxij_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif idxij_ is not None:\n _idxij_copyarray = True\n _idxij_np_tmp = numpy.zeros(len(idxij_),numpy.dtype(numpy.int64))\n _idxij_np_tmp[:] = idxij_\n assert _idxij_np_tmp.flags.contiguous\n _idxij_tmp = ctypes.cast(_idxij_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _idxij_copyarray = False\n _idxij_tmp = None\n \n res = __library__.MSK_XX_getbarasparsity(self.__nativep,maxnumnz_,ctypes.byref(numnz_),_idxij_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n numnz_ = numnz_.value\n _numnz_return_value = numnz_\n if _idxij_copyarray:\n idxij_[:] = _idxij_np_tmp\n return (_numnz_return_value)", "def getbarasparsity(self,idxij): # 3\n maxnumnz_ = self.getnumbaranz()\n if idxij is None: raise TypeError(\"Invalid type for argument idxij\")\n _copyback_idxij = False\n if idxij is None:\n idxij_ = None\n else:\n try:\n idxij_ = memoryview(idxij)\n except TypeError:\n try:\n _tmparr_idxij = array.array(\"q\",idxij)\n except TypeError:\n raise TypeError(\"Argument idxij has wrong type\")\n else:\n idxij_ = memoryview(_tmparr_idxij)\n _copyback_idxij = True\n else:\n if idxij_.format != \"q\":\n idxij_ = memoryview(array.array(\"q\",idxij))\n _copyback_idxij = True\n if idxij_ is not None and len(idxij_) != (maxnumnz_):\n raise ValueError(\"Array argument idxij has wrong length\")\n res,resargs = self.__obj.getbarasparsity(maxnumnz_,idxij_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _numnz_return_value = resargs\n if _copyback_idxij:\n idxij[:] = _tmparr_idxij\n return _numnz_return_value", "def getbarcidxj(self,idx_):\n j_ = ctypes.c_int32()\n res = __library__.MSK_XX_getbarcidxj(self.__nativep,idx_,ctypes.byref(j_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n j_ = j_.value\n _j_return_value = j_\n return (_j_return_value)", "def getbarcidxinfo(self,idx_):\n num_ = ctypes.c_int64()\n res = __library__.MSK_XX_getbarcidxinfo(self.__nativep,idx_,ctypes.byref(num_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n num_ = num_.value\n _num_return_value = num_\n return (_num_return_value)", "def getbarcidxinfo(self,idx_): # 3\n res,resargs = self.__obj.getbarcidxinfo(idx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _num_return_value = resargs\n return _num_return_value", "def getbarsj(self,whichsol_,j_,barsj_):\n _barsj_minlength = self.getlenbarvarj((j_))\n if self.getlenbarvarj((j_)) > 0 and barsj_ is not None and len(barsj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barsj is not long enough: Is %d, expected %d\" % (len(barsj_),self.getlenbarvarj((j_))))\n if isinstance(barsj_,numpy.ndarray) and not barsj_.flags.writeable:\n raise ValueError(\"Argument barsj must be writable\")\n if barsj_ is None:\n raise ValueError(\"Argument barsj may not be None\")\n if isinstance(barsj_, numpy.ndarray) and barsj_.dtype is numpy.dtype(numpy.float64) and barsj_.flags.contiguous:\n _barsj_copyarray = False\n _barsj_tmp = ctypes.cast(barsj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif barsj_ is not None:\n _barsj_copyarray = True\n _barsj_np_tmp = numpy.zeros(len(barsj_),numpy.dtype(numpy.float64))\n _barsj_np_tmp[:] = barsj_\n assert _barsj_np_tmp.flags.contiguous\n _barsj_tmp = ctypes.cast(_barsj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _barsj_copyarray = False\n _barsj_tmp = None\n \n res = __library__.MSK_XX_getbarsj(self.__nativep,whichsol_,j_,_barsj_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _barsj_copyarray:\n barsj_[:] = _barsj_np_tmp", "def getbarsj(self,whichsol_,j_,barsj): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if barsj is None: raise TypeError(\"Invalid type for argument barsj\")\n _copyback_barsj = False\n if barsj is None:\n barsj_ = None\n else:\n try:\n barsj_ = memoryview(barsj)\n except TypeError:\n try:\n _tmparr_barsj = array.array(\"d\",barsj)\n except TypeError:\n raise TypeError(\"Argument barsj has wrong type\")\n else:\n barsj_ = memoryview(_tmparr_barsj)\n _copyback_barsj = True\n else:\n if barsj_.format != \"d\":\n barsj_ = memoryview(array.array(\"d\",barsj))\n _copyback_barsj = True\n if barsj_ is not None and len(barsj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barsj has wrong length\")\n res = self.__obj.getbarsj(whichsol_,j_,barsj_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_barsj:\n barsj[:] = _tmparr_barsj", "def getbarxj(self,whichsol_,j_,barxj_):\n _barxj_minlength = self.getlenbarvarj((j_))\n if self.getlenbarvarj((j_)) > 0 and barxj_ is not None and len(barxj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barxj is not long enough: Is %d, expected %d\" % (len(barxj_),self.getlenbarvarj((j_))))\n if isinstance(barxj_,numpy.ndarray) and not barxj_.flags.writeable:\n raise ValueError(\"Argument barxj must be writable\")\n if barxj_ is None:\n raise ValueError(\"Argument barxj may not be None\")\n if isinstance(barxj_, numpy.ndarray) and barxj_.dtype is numpy.dtype(numpy.float64) and barxj_.flags.contiguous:\n _barxj_copyarray = False\n _barxj_tmp = ctypes.cast(barxj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif barxj_ is not None:\n _barxj_copyarray = True\n _barxj_np_tmp = numpy.zeros(len(barxj_),numpy.dtype(numpy.float64))\n _barxj_np_tmp[:] = barxj_\n assert _barxj_np_tmp.flags.contiguous\n _barxj_tmp = ctypes.cast(_barxj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _barxj_copyarray = False\n _barxj_tmp = None\n \n res = __library__.MSK_XX_getbarxj(self.__nativep,whichsol_,j_,_barxj_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _barxj_copyarray:\n barxj_[:] = _barxj_np_tmp", "def getdimbarvarj(self,j_): # 3\n res,resargs = self.__obj.getdimbarvarj(j_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _dimbarvarj_return_value = resargs\n return _dimbarvarj_return_value", "def getbarxj(self,whichsol_,j_,barxj): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if barxj is None: raise TypeError(\"Invalid type for argument barxj\")\n _copyback_barxj = False\n if barxj is None:\n barxj_ = None\n else:\n try:\n barxj_ = memoryview(barxj)\n except TypeError:\n try:\n _tmparr_barxj = array.array(\"d\",barxj)\n except TypeError:\n raise TypeError(\"Argument barxj has wrong type\")\n else:\n barxj_ = memoryview(_tmparr_barxj)\n _copyback_barxj = True\n else:\n if barxj_.format != \"d\":\n barxj_ = memoryview(array.array(\"d\",barxj))\n _copyback_barxj = True\n if barxj_ is not None and len(barxj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barxj has wrong length\")\n res = self.__obj.getbarxj(whichsol_,j_,barxj_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_barxj:\n barxj[:] = _tmparr_barxj", "def vir_indices(self):\n indices = []\n for index,item in enumerate(self):\n if item==0:\n indices.append(index)\n return indices", "def getdimbarvarj(self,j_):\n dimbarvarj_ = ctypes.c_int32()\n res = __library__.MSK_XX_getdimbarvarj(self.__nativep,j_,ctypes.byref(dimbarvarj_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n dimbarvarj_ = dimbarvarj_.value\n _dimbarvarj_return_value = dimbarvarj_\n return (_dimbarvarj_return_value)", "def nonzero(self):\n\t\t_x = self.__seqvector.vec.nonzero()[1]\n\t\t_x = list(set(_x)) # uniquify them\n\t\t_x.sort() # sort positions\n\t\treturn _x", "def getbarcidx(self,idx_,sub_,weights_):\n maxnum_ = self.getbarcidxinfo((idx_))\n j_ = ctypes.c_int32()\n num_ = ctypes.c_int64()\n _sub_minlength = (maxnum_)\n if (maxnum_) > 0 and sub_ is not None and len(sub_) != (maxnum_):\n raise ValueError(\"Array argument sub is not long enough: Is %d, expected %d\" % (len(sub_),(maxnum_)))\n if isinstance(sub_,numpy.ndarray) and not sub_.flags.writeable:\n raise ValueError(\"Argument sub must be writable\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int64) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int64))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _weights_minlength = (maxnum_)\n if (maxnum_) > 0 and weights_ is not None and len(weights_) != (maxnum_):\n raise ValueError(\"Array argument weights is not long enough: Is %d, expected %d\" % (len(weights_),(maxnum_)))\n if isinstance(weights_,numpy.ndarray) and not weights_.flags.writeable:\n raise ValueError(\"Argument weights must be writable\")\n if weights_ is None:\n raise ValueError(\"Argument weights may not be None\")\n if isinstance(weights_, numpy.ndarray) and weights_.dtype is numpy.dtype(numpy.float64) and weights_.flags.contiguous:\n _weights_copyarray = False\n _weights_tmp = ctypes.cast(weights_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif weights_ is not None:\n _weights_copyarray = True\n _weights_np_tmp = numpy.zeros(len(weights_),numpy.dtype(numpy.float64))\n _weights_np_tmp[:] = weights_\n assert _weights_np_tmp.flags.contiguous\n _weights_tmp = ctypes.cast(_weights_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _weights_copyarray = False\n _weights_tmp = None\n \n res = __library__.MSK_XX_getbarcidx(self.__nativep,idx_,maxnum_,ctypes.byref(j_),ctypes.byref(num_),_sub_tmp,_weights_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n j_ = j_.value\n _j_return_value = j_\n num_ = num_.value\n _num_return_value = num_\n if _sub_copyarray:\n sub_[:] = _sub_np_tmp\n if _weights_copyarray:\n weights_[:] = _weights_np_tmp\n return (_j_return_value,_num_return_value)", "def getnumbarcnz(self): # 3\n res,resargs = self.__obj.getnumbarcnz()\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _nz_return_value = resargs\n return _nz_return_value", "def get_vacancy_indices(array):\t\n\tvacancy_indices = np.argwhere(array == 0)\n\treturn vacancy_indices", "def test00(self):\n a = np.arange(1, 11) > 0\n b = bcolz.carray(a)\n wt = a.nonzero()[0].tolist()\n cwt = [i for i in b.wheretrue()]\n # print \"numpy ->\", a.nonzero()[0].tolist()\n # print \"where ->\", [i for i in b.wheretrue()]\n self.assertTrue(wt == cwt, \"wheretrue() does not work correctly\")", "def getbarcidx(self,idx_,sub,weights): # 3\n maxnum_ = self.getbarcidxinfo((idx_))\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n _copyback_sub = False\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"q\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n _copyback_sub = True\n else:\n if sub_.format != \"q\":\n sub_ = memoryview(array.array(\"q\",sub))\n _copyback_sub = True\n if sub_ is not None and len(sub_) != (maxnum_):\n raise ValueError(\"Array argument sub has wrong length\")\n if weights is None: raise TypeError(\"Invalid type for argument weights\")\n _copyback_weights = False\n if weights is None:\n weights_ = None\n else:\n try:\n weights_ = memoryview(weights)\n except TypeError:\n try:\n _tmparr_weights = array.array(\"d\",weights)\n except TypeError:\n raise TypeError(\"Argument weights has wrong type\")\n else:\n weights_ = memoryview(_tmparr_weights)\n _copyback_weights = True\n else:\n if weights_.format != \"d\":\n weights_ = memoryview(array.array(\"d\",weights))\n _copyback_weights = True\n if weights_ is not None and len(weights_) != (maxnum_):\n raise ValueError(\"Array argument weights has wrong length\")\n res,resargs = self.__obj.getbarcidx(idx_,maxnum_,sub_,weights_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _j_return_value,_num_return_value = resargs\n if _copyback_weights:\n weights[:] = _tmparr_weights\n if _copyback_sub:\n sub[:] = _tmparr_sub\n return _j_return_value,_num_return_value", "def getbaraidxij(self,idx_): # 3\n res,resargs = self.__obj.getbaraidxij(idx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _i_return_value,_j_return_value = resargs\n return _i_return_value,_j_return_value", "def test02(self):\n a = np.arange(1, 1e5) < 0\n b = bcolz.carray(a)\n wt = a.nonzero()[0].tolist()\n cwt = [i for i in b.wheretrue()]\n # print \"numpy ->\", a.nonzero()[0].tolist()\n # print \"where ->\", [i for i in b.wheretrue()]\n self.assertTrue(wt == cwt, \"wheretrue() does not work correctly\")", "def getlenbarvarj(self,j_): # 3\n res,resargs = self.__obj.getlenbarvarj(j_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _lenbarvarj_return_value = resargs\n return _lenbarvarj_return_value", "def remove_zero_bars(dgm):\r\n inds = dgm[:,0] != dgm[:,1]\r\n return dgm[inds,:]", "def putbarxj(self,whichsol_,j_,barxj_):\n _barxj_minlength = self.getlenbarvarj((j_))\n if self.getlenbarvarj((j_)) > 0 and barxj_ is not None and len(barxj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barxj is not long enough: Is %d, expected %d\" % (len(barxj_),self.getlenbarvarj((j_))))\n if barxj_ is None:\n raise ValueError(\"Argument barxj cannot be None\")\n if barxj_ is None:\n raise ValueError(\"Argument barxj may not be None\")\n if isinstance(barxj_, numpy.ndarray) and barxj_.dtype is numpy.dtype(numpy.float64) and barxj_.flags.contiguous:\n _barxj_copyarray = False\n _barxj_tmp = ctypes.cast(barxj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif barxj_ is not None:\n _barxj_copyarray = True\n _barxj_np_tmp = numpy.zeros(len(barxj_),numpy.dtype(numpy.float64))\n _barxj_np_tmp[:] = barxj_\n assert _barxj_np_tmp.flags.contiguous\n _barxj_tmp = ctypes.cast(_barxj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _barxj_copyarray = False\n _barxj_tmp = None\n \n res = __library__.MSK_XX_putbarxj(self.__nativep,whichsol_,j_,_barxj_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getbaraidxij(self,idx_):\n i_ = ctypes.c_int32()\n j_ = ctypes.c_int32()\n res = __library__.MSK_XX_getbaraidxij(self.__nativep,idx_,ctypes.byref(i_),ctypes.byref(j_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n i_ = i_.value\n _i_return_value = i_\n j_ = j_.value\n _j_return_value = j_\n return (_i_return_value,_j_return_value)", "def test01(self):\n a = np.arange(1, 11) < 0\n b = bcolz.carray(a)\n wt = a.nonzero()[0].tolist()\n cwt = [i for i in b.wheretrue()]\n # print \"numpy ->\", a.nonzero()[0].tolist()\n # print \"where ->\", [i for i in b.wheretrue()]\n self.assertTrue(wt == cwt, \"wheretrue() does not work correctly\")", "def _get_scalar_bar_visibility(self) :\n \n return self._scalar_bar_visibility", "def get_con_elem0(self, j0):\n return self.je[ self.ie[j0] : self.ie[j0+1] ]", "def putbarsj(self,whichsol_,j_,barsj_):\n _barsj_minlength = self.getlenbarvarj((j_))\n if self.getlenbarvarj((j_)) > 0 and barsj_ is not None and len(barsj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barsj is not long enough: Is %d, expected %d\" % (len(barsj_),self.getlenbarvarj((j_))))\n if barsj_ is None:\n raise ValueError(\"Argument barsj cannot be None\")\n if barsj_ is None:\n raise ValueError(\"Argument barsj may not be None\")\n if isinstance(barsj_, numpy.ndarray) and barsj_.dtype is numpy.dtype(numpy.float64) and barsj_.flags.contiguous:\n _barsj_copyarray = False\n _barsj_tmp = ctypes.cast(barsj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif barsj_ is not None:\n _barsj_copyarray = True\n _barsj_np_tmp = numpy.zeros(len(barsj_),numpy.dtype(numpy.float64))\n _barsj_np_tmp[:] = barsj_\n assert _barsj_np_tmp.flags.contiguous\n _barsj_tmp = ctypes.cast(_barsj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _barsj_copyarray = False\n _barsj_tmp = None\n \n res = __library__.MSK_XX_putbarsj(self.__nativep,whichsol_,j_,_barsj_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)" ]

[ "0.7913995", "0.7098691", "0.70675564", "0.6986523", "0.6893359", "0.6240509", "0.62401795", "0.5906834", "0.5778606", "0.57324004", "0.5551815", "0.5542871", "0.54500717", "0.52832943", "0.52578807", "0.52447194", "0.5243626", "0.5220802", "0.5206901", "0.51710534", "0.51589215", "0.5158724", "0.51386833", "0.51373905", "0.5109317", "0.50845146", "0.50798714", "0.50570196", "0.5034728", "0.50344276" ]

[ "def getbarasparsity(self,idxij): # 3\n maxnumnz_ = self.getnumbaranz()\n if idxij is None: raise TypeError(\"Invalid type for argument idxij\")\n _copyback_idxij = False\n if idxij is None:\n idxij_ = None\n else:\n try:\n idxij_ = memoryview(idxij)\n except TypeError:\n try:\n _tmparr_idxij = array.array(\"q\",idxij)\n except TypeError:\n raise TypeError(\"Argument idxij has wrong type\")\n else:\n idxij_ = memoryview(_tmparr_idxij)\n _copyback_idxij = True\n else:\n if idxij_.format != \"q\":\n idxij_ = memoryview(array.array(\"q\",idxij))\n _copyback_idxij = True\n if idxij_ is not None and len(idxij_) != (maxnumnz_):\n raise ValueError(\"Array argument idxij has wrong length\")\n res,resargs = self.__obj.getbarasparsity(maxnumnz_,idxij_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _numnz_return_value = resargs\n if _copyback_idxij:\n idxij[:] = _tmparr_idxij\n return _numnz_return_value", "def getbarcsparsity(self,idxj): # 3\n maxnumnz_ = self.getnumbarcnz()\n if idxj is None: raise TypeError(\"Invalid type for argument idxj\")\n _copyback_idxj = False\n if idxj is None:\n idxj_ = None\n else:\n try:\n idxj_ = memoryview(idxj)\n except TypeError:\n try:\n _tmparr_idxj = array.array(\"q\",idxj)\n except TypeError:\n raise TypeError(\"Argument idxj has wrong type\")\n else:\n idxj_ = memoryview(_tmparr_idxj)\n _copyback_idxj = True\n else:\n if idxj_.format != \"q\":\n idxj_ = memoryview(array.array(\"q\",idxj))\n _copyback_idxj = True\n if idxj_ is not None and len(idxj_) != (maxnumnz_):\n raise ValueError(\"Array argument idxj has wrong length\")\n res,resargs = self.__obj.getbarcsparsity(maxnumnz_,idxj_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _numnz_return_value = resargs\n if _copyback_idxj:\n idxj[:] = _tmparr_idxj\n return _numnz_return_value", "def getbarcsparsity(self,idxj_):\n maxnumnz_ = self.getnumbarcnz()\n numnz_ = ctypes.c_int64()\n _idxj_minlength = (maxnumnz_)\n if (maxnumnz_) > 0 and idxj_ is not None and len(idxj_) != (maxnumnz_):\n raise ValueError(\"Array argument idxj is not long enough: Is %d, expected %d\" % (len(idxj_),(maxnumnz_)))\n if isinstance(idxj_,numpy.ndarray) and not idxj_.flags.writeable:\n raise ValueError(\"Argument idxj must be writable\")\n if idxj_ is None:\n raise ValueError(\"Argument idxj may not be None\")\n if isinstance(idxj_, numpy.ndarray) and idxj_.dtype is numpy.dtype(numpy.int64) and idxj_.flags.contiguous:\n _idxj_copyarray = False\n _idxj_tmp = ctypes.cast(idxj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif idxj_ is not None:\n _idxj_copyarray = True\n _idxj_np_tmp = numpy.zeros(len(idxj_),numpy.dtype(numpy.int64))\n _idxj_np_tmp[:] = idxj_\n assert _idxj_np_tmp.flags.contiguous\n _idxj_tmp = ctypes.cast(_idxj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _idxj_copyarray = False\n _idxj_tmp = None\n \n res = __library__.MSK_XX_getbarcsparsity(self.__nativep,maxnumnz_,ctypes.byref(numnz_),_idxj_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n numnz_ = numnz_.value\n _numnz_return_value = numnz_\n if _idxj_copyarray:\n idxj_[:] = _idxj_np_tmp\n return (_numnz_return_value)", "def getbarcidxj(self,idx_): # 3\n res,resargs = self.__obj.getbarcidxj(idx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _j_return_value = resargs\n return _j_return_value", "def getbarcidxj(self,idx_):\n j_ = ctypes.c_int32()\n res = __library__.MSK_XX_getbarcidxj(self.__nativep,idx_,ctypes.byref(j_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n j_ = j_.value\n _j_return_value = j_\n return (_j_return_value)", "def compute_jacobian_sparsity_patt(self):\n\n # Jacobian number of columns\n n_col = self.mapping_function.size_domain()\n\n # Set up of the identity matrix pattern\n pattern_in = cppad_py.sparse_rc()\n pattern_in.resize(n_col, n_col, n_col)\n for i in range(n_col):\n pattern_in.put(i, i, i)\n\n # Sets up of the pattern, just a sparsity\n # pattern that will hold the Jacobian sparsity pattern\n jac_sp_patt = cppad_py.sparse_rc()\n\n # Computation of the jacobian sparsity pattern\n self.mapping_function.for_jac_sparsity(pattern_in, jac_sp_patt)\n\n # Computation of all possibly non-zero entries in Jacobian\n jac_data = cppad_py.sparse_rcv()\n jac_data.pat(jac_sp_patt)\n\n # Work space used to save time for multiple calls\n work = cppad_py.sparse_jac_work()\n\n return jac_sp_patt, jac_data, work", "def getbarsj(self,whichsol_,j_,barsj): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if barsj is None: raise TypeError(\"Invalid type for argument barsj\")\n _copyback_barsj = False\n if barsj is None:\n barsj_ = None\n else:\n try:\n barsj_ = memoryview(barsj)\n except TypeError:\n try:\n _tmparr_barsj = array.array(\"d\",barsj)\n except TypeError:\n raise TypeError(\"Argument barsj has wrong type\")\n else:\n barsj_ = memoryview(_tmparr_barsj)\n _copyback_barsj = True\n else:\n if barsj_.format != \"d\":\n barsj_ = memoryview(array.array(\"d\",barsj))\n _copyback_barsj = True\n if barsj_ is not None and len(barsj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barsj has wrong length\")\n res = self.__obj.getbarsj(whichsol_,j_,barsj_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_barsj:\n barsj[:] = _tmparr_barsj", "def getbarsj(self,whichsol_,j_,barsj_):\n _barsj_minlength = self.getlenbarvarj((j_))\n if self.getlenbarvarj((j_)) > 0 and barsj_ is not None and len(barsj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barsj is not long enough: Is %d, expected %d\" % (len(barsj_),self.getlenbarvarj((j_))))\n if isinstance(barsj_,numpy.ndarray) and not barsj_.flags.writeable:\n raise ValueError(\"Argument barsj must be writable\")\n if barsj_ is None:\n raise ValueError(\"Argument barsj may not be None\")\n if isinstance(barsj_, numpy.ndarray) and barsj_.dtype is numpy.dtype(numpy.float64) and barsj_.flags.contiguous:\n _barsj_copyarray = False\n _barsj_tmp = ctypes.cast(barsj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif barsj_ is not None:\n _barsj_copyarray = True\n _barsj_np_tmp = numpy.zeros(len(barsj_),numpy.dtype(numpy.float64))\n _barsj_np_tmp[:] = barsj_\n assert _barsj_np_tmp.flags.contiguous\n _barsj_tmp = ctypes.cast(_barsj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _barsj_copyarray = False\n _barsj_tmp = None\n \n res = __library__.MSK_XX_getbarsj(self.__nativep,whichsol_,j_,_barsj_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _barsj_copyarray:\n barsj_[:] = _barsj_np_tmp", "def getbarxj(self,whichsol_,j_,barxj_):\n _barxj_minlength = self.getlenbarvarj((j_))\n if self.getlenbarvarj((j_)) > 0 and barxj_ is not None and len(barxj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barxj is not long enough: Is %d, expected %d\" % (len(barxj_),self.getlenbarvarj((j_))))\n if isinstance(barxj_,numpy.ndarray) and not barxj_.flags.writeable:\n raise ValueError(\"Argument barxj must be writable\")\n if barxj_ is None:\n raise ValueError(\"Argument barxj may not be None\")\n if isinstance(barxj_, numpy.ndarray) and barxj_.dtype is numpy.dtype(numpy.float64) and barxj_.flags.contiguous:\n _barxj_copyarray = False\n _barxj_tmp = ctypes.cast(barxj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif barxj_ is not None:\n _barxj_copyarray = True\n _barxj_np_tmp = numpy.zeros(len(barxj_),numpy.dtype(numpy.float64))\n _barxj_np_tmp[:] = barxj_\n assert _barxj_np_tmp.flags.contiguous\n _barxj_tmp = ctypes.cast(_barxj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _barxj_copyarray = False\n _barxj_tmp = None\n \n res = __library__.MSK_XX_getbarxj(self.__nativep,whichsol_,j_,_barxj_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _barxj_copyarray:\n barxj_[:] = _barxj_np_tmp", "def get_sparsity(self, exclude=[]):\n nnz = 0 # number of nonzero elements\n nz = 0 # number of zero elements\n for key in self.variables:\n if key in exclude:\n continue\n nnz += amath.sum(self.variables[key] != 0)\n nz += amath.sum(self.variables[key] == 0)\n sparsity = float(nz) / (nnz + nz)\n return sparsity", "def getbarxj(self,whichsol_,j_,barxj): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if barxj is None: raise TypeError(\"Invalid type for argument barxj\")\n _copyback_barxj = False\n if barxj is None:\n barxj_ = None\n else:\n try:\n barxj_ = memoryview(barxj)\n except TypeError:\n try:\n _tmparr_barxj = array.array(\"d\",barxj)\n except TypeError:\n raise TypeError(\"Argument barxj has wrong type\")\n else:\n barxj_ = memoryview(_tmparr_barxj)\n _copyback_barxj = True\n else:\n if barxj_.format != \"d\":\n barxj_ = memoryview(array.array(\"d\",barxj))\n _copyback_barxj = True\n if barxj_ is not None and len(barxj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barxj has wrong length\")\n res = self.__obj.getbarxj(whichsol_,j_,barxj_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_barxj:\n barxj[:] = _tmparr_barxj", "def test_sparsity(self):\n\n self.validator.adata.X = self.validator.adata.X.toarray()\n self.validator.validate_adata()\n self.assertEqual(\n self.validator.warnings,\n [\n \"WARNING: Sparsity of 'X' is 0.875 which is greater than 0.5, \"\n \"and it is not a 'scipy.sparse.csr_matrix'. It is \"\n \"STRONGLY RECOMMENDED to use this type of matrix for \"\n \"the given sparsity.\"\n ],\n )", "def getbarcidxinfo(self,idx_):\n num_ = ctypes.c_int64()\n res = __library__.MSK_XX_getbarcidxinfo(self.__nativep,idx_,ctypes.byref(num_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n num_ = num_.value\n _num_return_value = num_\n return (_num_return_value)", "def getbarcidxinfo(self,idx_): # 3\n res,resargs = self.__obj.getbarcidxinfo(idx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _num_return_value = resargs\n return _num_return_value", "def mask_sparsity(mask: Mask):\n return 1 - mask_density(mask)", "def model_sparsity(model, param_dims=[2, 4], param_types=['weight', 'bias']):\n sparsity, _, _ = model_params_stats(model, param_dims, param_types)\n return sparsity", "def calc_sparsity (data): \n matrix_size = data.shape[0]*data.shape[1] # Number of possible interactions in the matrix\n num_purchases = len(data.nonzero()[0]) # Number of items interacted with\n sparsity = 100*(1 - (num_purchases/matrix_size))\n print('{:.2f} % of the user interaction matrix is sparse'.format(sparsity,2))", "def sparsity(tensor):\n return 1.0 - density(tensor)", "def jarque_bera(self,alpha=0.05):\n self._finalize()\n JB = self.vcount/6*(self.vskewness**2 + 1/4*((self.vkurtosis-3)**2))\n if chi2 is None:\n p = \"scipy missing\"\n else:\n p = 1 - chi2.cdf(JB,2)\n return JB,p", "def getdimbarvarj(self,j_): # 3\n res,resargs = self.__obj.getdimbarvarj(j_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _dimbarvarj_return_value = resargs\n return _dimbarvarj_return_value", "def beta_star(self):\n return self.reciprocal_lattice_parameters[4]", "def getbaraidxij(self,idx_): # 3\n res,resargs = self.__obj.getbaraidxij(idx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _i_return_value,_j_return_value = resargs\n return _i_return_value,_j_return_value", "def get_stain_matrix(I):", "def putbarxj(self,whichsol_,j_,barxj_):\n _barxj_minlength = self.getlenbarvarj((j_))\n if self.getlenbarvarj((j_)) > 0 and barxj_ is not None and len(barxj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barxj is not long enough: Is %d, expected %d\" % (len(barxj_),self.getlenbarvarj((j_))))\n if barxj_ is None:\n raise ValueError(\"Argument barxj cannot be None\")\n if barxj_ is None:\n raise ValueError(\"Argument barxj may not be None\")\n if isinstance(barxj_, numpy.ndarray) and barxj_.dtype is numpy.dtype(numpy.float64) and barxj_.flags.contiguous:\n _barxj_copyarray = False\n _barxj_tmp = ctypes.cast(barxj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif barxj_ is not None:\n _barxj_copyarray = True\n _barxj_np_tmp = numpy.zeros(len(barxj_),numpy.dtype(numpy.float64))\n _barxj_np_tmp[:] = barxj_\n assert _barxj_np_tmp.flags.contiguous\n _barxj_tmp = ctypes.cast(_barxj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _barxj_copyarray = False\n _barxj_tmp = None\n \n res = __library__.MSK_XX_putbarxj(self.__nativep,whichsol_,j_,_barxj_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def beta(self, index):\n index_change = index.close.pct_change()\n beta = self.pct_change.cov(index_change) / index_change.var()\n return beta", "def sudoku_getregion(A, i):\r\n n = len(A)\r\n j = isqrt(n)\r\n numl = i // j\r\n numc = i % j\r\n B = [[0 for s in range(j)] for p in range(j)]\r\n for k in range(j):\r\n for m in range(j):\r\n B[k][m] = A[k + (numl * j)][m + (numc * j)]\r\n return B", "def getbarcidx(self,idx_,sub,weights): # 3\n maxnum_ = self.getbarcidxinfo((idx_))\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n _copyback_sub = False\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"q\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n _copyback_sub = True\n else:\n if sub_.format != \"q\":\n sub_ = memoryview(array.array(\"q\",sub))\n _copyback_sub = True\n if sub_ is not None and len(sub_) != (maxnum_):\n raise ValueError(\"Array argument sub has wrong length\")\n if weights is None: raise TypeError(\"Invalid type for argument weights\")\n _copyback_weights = False\n if weights is None:\n weights_ = None\n else:\n try:\n weights_ = memoryview(weights)\n except TypeError:\n try:\n _tmparr_weights = array.array(\"d\",weights)\n except TypeError:\n raise TypeError(\"Argument weights has wrong type\")\n else:\n weights_ = memoryview(_tmparr_weights)\n _copyback_weights = True\n else:\n if weights_.format != \"d\":\n weights_ = memoryview(array.array(\"d\",weights))\n _copyback_weights = True\n if weights_ is not None and len(weights_) != (maxnum_):\n raise ValueError(\"Array argument weights has wrong length\")\n res,resargs = self.__obj.getbarcidx(idx_,maxnum_,sub_,weights_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _j_return_value,_num_return_value = resargs\n if _copyback_weights:\n weights[:] = _tmparr_weights\n if _copyback_sub:\n sub[:] = _tmparr_sub\n return _j_return_value,_num_return_value", "def test_sparsity(config):\n total_zeros = 0\n total_nonzeros = 0\n\n print ('<===sparsity type is {}'.format(config.sparsity_type))\n print ('<===layers to be pruned are {}'.format(config._prune_ratios))\n if config.masked_progressive and (config.sparsity_type == 'filter' or config.sparsity_type =='column'or config.sparsity_type == \"bn_filter\" ):\n ### test both column and row sparsity\n print (\"***********checking column sparsity*************\")\n for name,W in config.model.named_parameters():\n if name not in config.prune_ratios:\n continue\n W = W.cpu().detach().numpy()\n shape = W.shape\n W2d = W.reshape(shape[0],-1)\n column_l2_norm = LA.norm(W2d,2,axis=0)\n zero_column = np.sum(column_l2_norm == 0)\n nonzero_column = np.sum(column_l2_norm !=0)\n\n print (\"column sparsity of layer {} is {}\".format(name,zero_column/(zero_column+nonzero_column)))\n print (\"***********checking filter sparsity*************\") \n for name,W in config.model.named_parameters():\n if name not in config.prune_ratios:\n continue\n W = W.cpu().detach().numpy()\n shape = W.shape\n W2d = W.reshape(shape[0],-1)\n row_l2_norm = LA.norm(W2d,2,axis=1)\n zero_row = np.sum(row_l2_norm == 0)\n nonzero_row = np.sum(row_l2_norm !=0)\n print (\"filter sparsity of layer {} is {}\".format(name,zero_row/(zero_row+nonzero_row)))\n print (\"************checking overall sparsity in conv layers*************\")\n for name,W in config.model.named_parameters():\n if name not in config.prune_ratios:\n continue\n W = W.cpu().detach().numpy() \n total_zeros +=np.sum(W==0)\n total_nonzeros +=np.sum(W!=0)\n print ('only consider conv layers, compression rate is {}'.format((total_zeros+total_nonzeros)/total_nonzeros))\n return\n \n if config.sparsity_type == \"irregular\":\n for name,W in config.model.named_parameters():\n if 'bias' in name:\n continue\n W = W.cpu().detach().numpy()\n zeros = np.sum(W==0)\n total_zeros+=zeros\n nonzeros = np.sum(W!=0)\n total_nonzeros+=nonzeros\n print (\"sparsity at layer {} is {}\".format(name,zeros/(zeros+nonzeros)))\n total_weight_number = total_zeros+total_nonzeros\n print ('overal compression rate is {}'.format(total_weight_number/total_nonzeros))\n elif config.sparsity_type == \"column\":\n for name,W in config.model.named_parameters():\n if name not in config.prune_ratios:\n continue\n W = W.cpu().detach().numpy()\n shape = W.shape\n W2d = W.reshape(shape[0],-1)\n column_l2_norm = LA.norm(W2d,2,axis=0)\n zero_column = np.sum(column_l2_norm == 0)\n nonzero_column = np.sum(column_l2_norm !=0)\n total_zeros +=np.sum(W==0)\n total_nonzeros +=np.sum(W!=0)\n print (\"column sparsity of layer {} is {}\".format(name,zero_column/(zero_column+nonzero_column)))\n print ('only consider conv layers, compression rate is {}'.format((total_zeros+total_nonzeros)/total_nonzeros)) \n elif config.sparsity_type == \"filter\":\n print ('inside if')\n print (config.prune_ratios)\n for name,W in config.model.named_parameters():\n if name not in config.prune_ratios:\n continue\n W = W.cpu().detach().numpy()\n shape = W.shape\n W2d = W.reshape(shape[0],-1)\n row_l2_norm = LA.norm(W2d,2,axis=1)\n zero_row = np.sum(row_l2_norm == 0)\n nonzero_row = np.sum(row_l2_norm !=0)\n total_zeros +=np.sum(W==0)\n total_nonzeros +=np.sum(W!=0)\n print (\"filter sparsity of layer {} is {}\".format(name,zero_row/(zero_row+nonzero_row)))\n print ('only consider conv layers, compression rate is {}'.format((total_zeros+total_nonzeros)/total_nonzeros))\n elif config.sparsity_type == \"bn_filter\":\n print ('inside bn_filter')\n print (config.prune_ratios)\n for i,(name,W) in enumerate(config.model.named_parameters()):\n if name not in config.prune_ratios:\n continue\n W = W.cpu().detach().numpy()\n zeros = np.sum(W==0)\n nonzeros = np.sum(W!=0)\n print (\"sparsity at layer {} is {}\".format(name,zeros/(zeros+nonzeros)))", "def fixB(self,i,j,value):\n if self.coeffPattern[1] == None:\n m,n=self.m,self.n\n self.coeffPattern = [[None]*n for i in range(m)]\n self.coeffPattern[1][i][j]=value\n self._updateEstimatorSize(i)", "def P_bol(j,rhoA):\n\n rho_j = rhoA[j]\n return rho_j * c0**2 * np.sqrt( 1 + (rho_j/rho0)**(4/3) )" ]

[ "0.77351505", "0.72915465", "0.72167975", "0.5404141", "0.5340408", "0.5338645", "0.5234122", "0.52128935", "0.5133407", "0.51011145", "0.4957848", "0.49559408", "0.4946568", "0.48629996", "0.48176265", "0.47592816", "0.47335243", "0.47119555", "0.47081134", "0.46808594", "0.467823", "0.46430725", "0.45935416", "0.4583948", "0.45783705", "0.45722273", "0.45629066", "0.4561123", "0.4543762", "0.45344704" ]

[ "def getbarcidxinfo(self,idx_): # 3\n res,resargs = self.__obj.getbarcidxinfo(idx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _num_return_value = resargs\n return _num_return_value", "def getbaraidxinfo(self,idx_):\n num_ = ctypes.c_int64()\n res = __library__.MSK_XX_getbaraidxinfo(self.__nativep,idx_,ctypes.byref(num_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n num_ = num_.value\n _num_return_value = num_\n return (_num_return_value)", "def getbaraidxinfo(self,idx_): # 3\n res,resargs = self.__obj.getbaraidxinfo(idx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _num_return_value = resargs\n return _num_return_value", "def getbarcidxj(self,idx_): # 3\n res,resargs = self.__obj.getbarcidxj(idx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _j_return_value = resargs\n return _j_return_value", "def getbarcidxj(self,idx_):\n j_ = ctypes.c_int32()\n res = __library__.MSK_XX_getbarcidxj(self.__nativep,idx_,ctypes.byref(j_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n j_ = j_.value\n _j_return_value = j_\n return (_j_return_value)", "def get_info(atom):\n return [atom.GetIdx(), atom.GetNeighbors()[0].GetIdx()]", "def getbarcidx(self,idx_,sub,weights): # 3\n maxnum_ = self.getbarcidxinfo((idx_))\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n _copyback_sub = False\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"q\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n _copyback_sub = True\n else:\n if sub_.format != \"q\":\n sub_ = memoryview(array.array(\"q\",sub))\n _copyback_sub = True\n if sub_ is not None and len(sub_) != (maxnum_):\n raise ValueError(\"Array argument sub has wrong length\")\n if weights is None: raise TypeError(\"Invalid type for argument weights\")\n _copyback_weights = False\n if weights is None:\n weights_ = None\n else:\n try:\n weights_ = memoryview(weights)\n except TypeError:\n try:\n _tmparr_weights = array.array(\"d\",weights)\n except TypeError:\n raise TypeError(\"Argument weights has wrong type\")\n else:\n weights_ = memoryview(_tmparr_weights)\n _copyback_weights = True\n else:\n if weights_.format != \"d\":\n weights_ = memoryview(array.array(\"d\",weights))\n _copyback_weights = True\n if weights_ is not None and len(weights_) != (maxnum_):\n raise ValueError(\"Array argument weights has wrong length\")\n res,resargs = self.__obj.getbarcidx(idx_,maxnum_,sub_,weights_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _j_return_value,_num_return_value = resargs\n if _copyback_weights:\n weights[:] = _tmparr_weights\n if _copyback_sub:\n sub[:] = _tmparr_sub\n return _j_return_value,_num_return_value", "def getbarcidx(self,idx_,sub_,weights_):\n maxnum_ = self.getbarcidxinfo((idx_))\n j_ = ctypes.c_int32()\n num_ = ctypes.c_int64()\n _sub_minlength = (maxnum_)\n if (maxnum_) > 0 and sub_ is not None and len(sub_) != (maxnum_):\n raise ValueError(\"Array argument sub is not long enough: Is %d, expected %d\" % (len(sub_),(maxnum_)))\n if isinstance(sub_,numpy.ndarray) and not sub_.flags.writeable:\n raise ValueError(\"Argument sub must be writable\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int64) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int64))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _weights_minlength = (maxnum_)\n if (maxnum_) > 0 and weights_ is not None and len(weights_) != (maxnum_):\n raise ValueError(\"Array argument weights is not long enough: Is %d, expected %d\" % (len(weights_),(maxnum_)))\n if isinstance(weights_,numpy.ndarray) and not weights_.flags.writeable:\n raise ValueError(\"Argument weights must be writable\")\n if weights_ is None:\n raise ValueError(\"Argument weights may not be None\")\n if isinstance(weights_, numpy.ndarray) and weights_.dtype is numpy.dtype(numpy.float64) and weights_.flags.contiguous:\n _weights_copyarray = False\n _weights_tmp = ctypes.cast(weights_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif weights_ is not None:\n _weights_copyarray = True\n _weights_np_tmp = numpy.zeros(len(weights_),numpy.dtype(numpy.float64))\n _weights_np_tmp[:] = weights_\n assert _weights_np_tmp.flags.contiguous\n _weights_tmp = ctypes.cast(_weights_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _weights_copyarray = False\n _weights_tmp = None\n \n res = __library__.MSK_XX_getbarcidx(self.__nativep,idx_,maxnum_,ctypes.byref(j_),ctypes.byref(num_),_sub_tmp,_weights_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n j_ = j_.value\n _j_return_value = j_\n num_ = num_.value\n _num_return_value = num_\n if _sub_copyarray:\n sub_[:] = _sub_np_tmp\n if _weights_copyarray:\n weights_[:] = _weights_np_tmp\n return (_j_return_value,_num_return_value)", "def getbaraidxij(self,idx_):\n i_ = ctypes.c_int32()\n j_ = ctypes.c_int32()\n res = __library__.MSK_XX_getbaraidxij(self.__nativep,idx_,ctypes.byref(i_),ctypes.byref(j_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n i_ = i_.value\n _i_return_value = i_\n j_ = j_.value\n _j_return_value = j_\n return (_i_return_value,_j_return_value)", "def getbaraidxij(self,idx_): # 3\n res,resargs = self.__obj.getbaraidxij(idx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _i_return_value,_j_return_value = resargs\n return _i_return_value,_j_return_value", "def get_ann_info(self, idx):\n\n return self.data_infos[idx][\"ann\"]", "def index2qindexc(self, index):\n r = (index // 0x10)\n c = index % 0x10 + 0x11\n return self.index(r, c)", "def __getitem__(self, index):\n item_info = {\n \"ID\": self.ID[index], \n \"turn_id\": self.turn_id[index], \n \"turn_belief\": self.turn_belief[index], \n \"gating_label\": self.gating_label[index], \n \"context_plain\":self.dialog_history[index].split(), \n \"turn_uttr_plain\": self.turn_uttr[index], \n \"turn_domain\": self.turn_domain[index], \n \"generate_y\": [v.split() for v in self.generate_y[index]],\n \"slot_temp\": self.slot_temp\n }\n return item_info", "def _get_cindex(circ, name, index):\n ret = 0\n for reg in circ.cregs:\n if name != reg.name:\n ret += reg.size\n else:\n return ret + index\n return ret + index", "def info(self) -> list[int]:", "def ccp4i_info(self, i):\n return self.__ccp4i_info[i]", "def __getitem__(self, index):\n return self.cellData[index]", "def get_info_format(self):\n return self.session.api.get_index(self)", "def getbarvarnameindex(self,somename_): # 3\n res,resargs = self.__obj.getbarvarnameindex(somename_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _asgn_return_value,_index_return_value = resargs\n return _asgn_return_value,_index_return_value", "def index2qindexb(self, index):\n r = index // 0x10\n c = index % 0x10\n return self.index(r, c)", "def get_c_idx(self, node_idx):\n idx = (node_idx + 1) * 2 - 1\n return idx", "def get_ibat(self):\n return self.read_register(4097, 1, 3)", "def __getitem__(self, idx):\n # Get the information from the init function\n\n return self.edges_s[idx], self.labels[idx]", "def __getitem__(self, idx):\n record = self.records[idx]\n return np.array(record['feat']), np.array(record['label'], dtype=np.int64)", "def getbarcsparsity(self,idxj): # 3\n maxnumnz_ = self.getnumbarcnz()\n if idxj is None: raise TypeError(\"Invalid type for argument idxj\")\n _copyback_idxj = False\n if idxj is None:\n idxj_ = None\n else:\n try:\n idxj_ = memoryview(idxj)\n except TypeError:\n try:\n _tmparr_idxj = array.array(\"q\",idxj)\n except TypeError:\n raise TypeError(\"Argument idxj has wrong type\")\n else:\n idxj_ = memoryview(_tmparr_idxj)\n _copyback_idxj = True\n else:\n if idxj_.format != \"q\":\n idxj_ = memoryview(array.array(\"q\",idxj))\n _copyback_idxj = True\n if idxj_ is not None and len(idxj_) != (maxnumnz_):\n raise ValueError(\"Array argument idxj has wrong length\")\n res,resargs = self.__obj.getbarcsparsity(maxnumnz_,idxj_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _numnz_return_value = resargs\n if _copyback_idxj:\n idxj[:] = _tmparr_idxj\n return _numnz_return_value", "def bfInfo(self, key):\n\n return self.execute_command(self.BF_INFO, key)", "def get_info(self):\r\n return np.array([self.ypos, self.xpos, self.radius, self.count_sum, self.bg_galaxy, self.no_count])", "def return_index(self, idx):\n return (\n self.timeseries[idx],\n self.ch_amount,\n self.freq[idx],\n self.ch_name[idx],\n self.units[idx],\n )", "def getbarasparsity(self,idxij_):\n maxnumnz_ = self.getnumbaranz()\n numnz_ = ctypes.c_int64()\n _idxij_minlength = (maxnumnz_)\n if (maxnumnz_) > 0 and idxij_ is not None and len(idxij_) != (maxnumnz_):\n raise ValueError(\"Array argument idxij is not long enough: Is %d, expected %d\" % (len(idxij_),(maxnumnz_)))\n if isinstance(idxij_,numpy.ndarray) and not idxij_.flags.writeable:\n raise ValueError(\"Argument idxij must be writable\")\n if idxij_ is None:\n raise ValueError(\"Argument idxij may not be None\")\n if isinstance(idxij_, numpy.ndarray) and idxij_.dtype is numpy.dtype(numpy.int64) and idxij_.flags.contiguous:\n _idxij_copyarray = False\n _idxij_tmp = ctypes.cast(idxij_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif idxij_ is not None:\n _idxij_copyarray = True\n _idxij_np_tmp = numpy.zeros(len(idxij_),numpy.dtype(numpy.int64))\n _idxij_np_tmp[:] = idxij_\n assert _idxij_np_tmp.flags.contiguous\n _idxij_tmp = ctypes.cast(_idxij_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _idxij_copyarray = False\n _idxij_tmp = None\n \n res = __library__.MSK_XX_getbarasparsity(self.__nativep,maxnumnz_,ctypes.byref(numnz_),_idxij_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n numnz_ = numnz_.value\n _numnz_return_value = numnz_\n if _idxij_copyarray:\n idxij_[:] = _idxij_np_tmp\n return (_numnz_return_value)", "def getbarasparsity(self,idxij): # 3\n maxnumnz_ = self.getnumbaranz()\n if idxij is None: raise TypeError(\"Invalid type for argument idxij\")\n _copyback_idxij = False\n if idxij is None:\n idxij_ = None\n else:\n try:\n idxij_ = memoryview(idxij)\n except TypeError:\n try:\n _tmparr_idxij = array.array(\"q\",idxij)\n except TypeError:\n raise TypeError(\"Argument idxij has wrong type\")\n else:\n idxij_ = memoryview(_tmparr_idxij)\n _copyback_idxij = True\n else:\n if idxij_.format != \"q\":\n idxij_ = memoryview(array.array(\"q\",idxij))\n _copyback_idxij = True\n if idxij_ is not None and len(idxij_) != (maxnumnz_):\n raise ValueError(\"Array argument idxij has wrong length\")\n res,resargs = self.__obj.getbarasparsity(maxnumnz_,idxij_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _numnz_return_value = resargs\n if _copyback_idxij:\n idxij[:] = _tmparr_idxij\n return _numnz_return_value" ]

[ "0.86891156", "0.71962595", "0.70044905", "0.69010836", "0.6858001", "0.5903754", "0.5803983", "0.5737491", "0.56529295", "0.56049544", "0.55654025", "0.5553507", "0.54870677", "0.5413116", "0.5405953", "0.53953177", "0.5377202", "0.53466", "0.5336274", "0.53325117", "0.5313147", "0.5303507", "0.5288078", "0.5273776", "0.52642524", "0.5258417", "0.5241521", "0.5240234", "0.5238982", "0.52252144" ]

[ "def getbarcidxj(self,idx_): # 3\n res,resargs = self.__obj.getbarcidxj(idx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _j_return_value = resargs\n return _j_return_value", "def getbaraidxij(self,idx_): # 3\n res,resargs = self.__obj.getbaraidxij(idx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _i_return_value,_j_return_value = resargs\n return _i_return_value,_j_return_value", "def getbaraidxij(self,idx_):\n i_ = ctypes.c_int32()\n j_ = ctypes.c_int32()\n res = __library__.MSK_XX_getbaraidxij(self.__nativep,idx_,ctypes.byref(i_),ctypes.byref(j_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n i_ = i_.value\n _i_return_value = i_\n j_ = j_.value\n _j_return_value = j_\n return (_i_return_value,_j_return_value)", "def getbarcidxinfo(self,idx_):\n num_ = ctypes.c_int64()\n res = __library__.MSK_XX_getbarcidxinfo(self.__nativep,idx_,ctypes.byref(num_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n num_ = num_.value\n _num_return_value = num_\n return (_num_return_value)", "def getbarcidxinfo(self,idx_): # 3\n res,resargs = self.__obj.getbarcidxinfo(idx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _num_return_value = resargs\n return _num_return_value", "def get_c_idx(self, node_idx):\n idx = (node_idx + 1) * 2 - 1\n return idx", "def get_index(self, row, col):\n return (row * self.cols) + col", "def idx(self):\n return self._idx", "def i_index(self, coord):\n return coord + 1 if coord + 1 > self.dimensions - 1 else 0", "def getbarcsparsity(self,idxj_):\n maxnumnz_ = self.getnumbarcnz()\n numnz_ = ctypes.c_int64()\n _idxj_minlength = (maxnumnz_)\n if (maxnumnz_) > 0 and idxj_ is not None and len(idxj_) != (maxnumnz_):\n raise ValueError(\"Array argument idxj is not long enough: Is %d, expected %d\" % (len(idxj_),(maxnumnz_)))\n if isinstance(idxj_,numpy.ndarray) and not idxj_.flags.writeable:\n raise ValueError(\"Argument idxj must be writable\")\n if idxj_ is None:\n raise ValueError(\"Argument idxj may not be None\")\n if isinstance(idxj_, numpy.ndarray) and idxj_.dtype is numpy.dtype(numpy.int64) and idxj_.flags.contiguous:\n _idxj_copyarray = False\n _idxj_tmp = ctypes.cast(idxj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif idxj_ is not None:\n _idxj_copyarray = True\n _idxj_np_tmp = numpy.zeros(len(idxj_),numpy.dtype(numpy.int64))\n _idxj_np_tmp[:] = idxj_\n assert _idxj_np_tmp.flags.contiguous\n _idxj_tmp = ctypes.cast(_idxj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _idxj_copyarray = False\n _idxj_tmp = None\n \n res = __library__.MSK_XX_getbarcsparsity(self.__nativep,maxnumnz_,ctypes.byref(numnz_),_idxj_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n numnz_ = numnz_.value\n _numnz_return_value = numnz_\n if _idxj_copyarray:\n idxj_[:] = _idxj_np_tmp\n return (_numnz_return_value)", "def getbarcidx(self,idx_,sub_,weights_):\n maxnum_ = self.getbarcidxinfo((idx_))\n j_ = ctypes.c_int32()\n num_ = ctypes.c_int64()\n _sub_minlength = (maxnum_)\n if (maxnum_) > 0 and sub_ is not None and len(sub_) != (maxnum_):\n raise ValueError(\"Array argument sub is not long enough: Is %d, expected %d\" % (len(sub_),(maxnum_)))\n if isinstance(sub_,numpy.ndarray) and not sub_.flags.writeable:\n raise ValueError(\"Argument sub must be writable\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int64) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int64))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _weights_minlength = (maxnum_)\n if (maxnum_) > 0 and weights_ is not None and len(weights_) != (maxnum_):\n raise ValueError(\"Array argument weights is not long enough: Is %d, expected %d\" % (len(weights_),(maxnum_)))\n if isinstance(weights_,numpy.ndarray) and not weights_.flags.writeable:\n raise ValueError(\"Argument weights must be writable\")\n if weights_ is None:\n raise ValueError(\"Argument weights may not be None\")\n if isinstance(weights_, numpy.ndarray) and weights_.dtype is numpy.dtype(numpy.float64) and weights_.flags.contiguous:\n _weights_copyarray = False\n _weights_tmp = ctypes.cast(weights_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif weights_ is not None:\n _weights_copyarray = True\n _weights_np_tmp = numpy.zeros(len(weights_),numpy.dtype(numpy.float64))\n _weights_np_tmp[:] = weights_\n assert _weights_np_tmp.flags.contiguous\n _weights_tmp = ctypes.cast(_weights_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _weights_copyarray = False\n _weights_tmp = None\n \n res = __library__.MSK_XX_getbarcidx(self.__nativep,idx_,maxnum_,ctypes.byref(j_),ctypes.byref(num_),_sub_tmp,_weights_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n j_ = j_.value\n _j_return_value = j_\n num_ = num_.value\n _num_return_value = num_\n if _sub_copyarray:\n sub_[:] = _sub_np_tmp\n if _weights_copyarray:\n weights_[:] = _weights_np_tmp\n return (_j_return_value,_num_return_value)", "def getbarcsparsity(self,idxj): # 3\n maxnumnz_ = self.getnumbarcnz()\n if idxj is None: raise TypeError(\"Invalid type for argument idxj\")\n _copyback_idxj = False\n if idxj is None:\n idxj_ = None\n else:\n try:\n idxj_ = memoryview(idxj)\n except TypeError:\n try:\n _tmparr_idxj = array.array(\"q\",idxj)\n except TypeError:\n raise TypeError(\"Argument idxj has wrong type\")\n else:\n idxj_ = memoryview(_tmparr_idxj)\n _copyback_idxj = True\n else:\n if idxj_.format != \"q\":\n idxj_ = memoryview(array.array(\"q\",idxj))\n _copyback_idxj = True\n if idxj_ is not None and len(idxj_) != (maxnumnz_):\n raise ValueError(\"Array argument idxj has wrong length\")\n res,resargs = self.__obj.getbarcsparsity(maxnumnz_,idxj_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _numnz_return_value = resargs\n if _copyback_idxj:\n idxj[:] = _tmparr_idxj\n return _numnz_return_value", "def getbaraidxinfo(self,idx_):\n num_ = ctypes.c_int64()\n res = __library__.MSK_XX_getbaraidxinfo(self.__nativep,idx_,ctypes.byref(num_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n num_ = num_.value\n _num_return_value = num_\n return (_num_return_value)", "def ccIdx(self):\n return self.loc[self.depth]", "def __getitem__ (self, idx):\n return self.row(idx[0])[idx[1]]", "def get_tkinter_index(self,index):\n if isinstance(index,str):\n if index in self.indexname2index:\n i=self.indexname2index[index]\n else:\n # pass through tkinter to get 'end' etc converted to index\n i=self.index(index)\n else:\n i=index\n return i", "def idx(self):\n if self._idx is None:\n self._loads()\n return self._idx", "def cell_index(self, coord):\n\n for x in range(len(self.cell_x)):\n if coord[0] >= self.cell_x[x] and coord[0] <= self.cell_x[x] + self.cell_size:\n i = x\n\n for y in range(len(self.cell_y)):\n if coord[1] >= self.cell_y[y] and coord[1] <= self.cell_y[y] + self.cell_size:\n j = y\n\n return [i, j]", "def idx(self):\n return int(self.__ph.get('idx', 0))", "def __get_cell_index(self, x, y) -> int:\n # \"The map data, in row-major order, starting with (0,0)\"\n return x + y * self.occupancy_map.info.width", "def get_cell_value(self, index):\n x, y = index\n return self.grid[y][x]", "def get_parent_idx(self, view_idx):\n a, b = view_idx\n R, C = self.shape\n i = self.p_rows[a]\n j = self.p_cols[b]\n return (i, j)", "def tree_idx(tree,j1,J1,J2):\n j = j1\n for k in np.arange(J1+1,J2+1,1):\n j = tree[k]['IDX'][j]\n \n j2 = j\n return j2", "def __getitem__(self, rc):\r\n row, col = rc\r\n index = self.row_column_to_index(row, col)\r\n return self.values[index]", "def element_index(self):\n return self._index", "def getbarcidx(self,idx_,sub,weights): # 3\n maxnum_ = self.getbarcidxinfo((idx_))\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n _copyback_sub = False\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"q\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n _copyback_sub = True\n else:\n if sub_.format != \"q\":\n sub_ = memoryview(array.array(\"q\",sub))\n _copyback_sub = True\n if sub_ is not None and len(sub_) != (maxnum_):\n raise ValueError(\"Array argument sub has wrong length\")\n if weights is None: raise TypeError(\"Invalid type for argument weights\")\n _copyback_weights = False\n if weights is None:\n weights_ = None\n else:\n try:\n weights_ = memoryview(weights)\n except TypeError:\n try:\n _tmparr_weights = array.array(\"d\",weights)\n except TypeError:\n raise TypeError(\"Argument weights has wrong type\")\n else:\n weights_ = memoryview(_tmparr_weights)\n _copyback_weights = True\n else:\n if weights_.format != \"d\":\n weights_ = memoryview(array.array(\"d\",weights))\n _copyback_weights = True\n if weights_ is not None and len(weights_) != (maxnum_):\n raise ValueError(\"Array argument weights has wrong length\")\n res,resargs = self.__obj.getbarcidx(idx_,maxnum_,sub_,weights_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _j_return_value,_num_return_value = resargs\n if _copyback_weights:\n weights[:] = _tmparr_weights\n if _copyback_sub:\n sub[:] = _tmparr_sub\n return _j_return_value,_num_return_value", "def get_row_col_index(index):\n row_col = [0, 0]\n while index >= len(INDEXES):\n index -= len(INDEXES)\n row_col[0] += 1\n row_col[1] = index\n\n return row_col", "def get_view_idx(self, parent_idx):\n a = self.p_rows.index(i)\n b = self.p_cols.index(j)\n return (a, b)", "def index(self, row, column, parent = QModelIndex()):\n return self.indexArray[row][column]", "def return_index(self, idx):\n return (\n self.timeseries[:, idx],\n self.ch_amount,\n self.freq,\n self.ch_name[idx],\n self.units[idx],\n self.start_time,\n )" ]

[ "0.8396391", "0.71261173", "0.70907575", "0.67884517", "0.6727334", "0.6509022", "0.6382574", "0.62180233", "0.61967444", "0.6188288", "0.6149179", "0.61295444", "0.6103931", "0.6080982", "0.6072824", "0.60486424", "0.6047505", "0.6035643", "0.6004207", "0.5998882", "0.5949491", "0.592821", "0.59106964", "0.58698404", "0.58661574", "0.5815003", "0.58051103", "0.58039165", "0.57778484", "0.5771138" ]

[ "def getbarcidx(self,idx_,sub,weights): # 3\n maxnum_ = self.getbarcidxinfo((idx_))\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n _copyback_sub = False\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"q\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n _copyback_sub = True\n else:\n if sub_.format != \"q\":\n sub_ = memoryview(array.array(\"q\",sub))\n _copyback_sub = True\n if sub_ is not None and len(sub_) != (maxnum_):\n raise ValueError(\"Array argument sub has wrong length\")\n if weights is None: raise TypeError(\"Invalid type for argument weights\")\n _copyback_weights = False\n if weights is None:\n weights_ = None\n else:\n try:\n weights_ = memoryview(weights)\n except TypeError:\n try:\n _tmparr_weights = array.array(\"d\",weights)\n except TypeError:\n raise TypeError(\"Argument weights has wrong type\")\n else:\n weights_ = memoryview(_tmparr_weights)\n _copyback_weights = True\n else:\n if weights_.format != \"d\":\n weights_ = memoryview(array.array(\"d\",weights))\n _copyback_weights = True\n if weights_ is not None and len(weights_) != (maxnum_):\n raise ValueError(\"Array argument weights has wrong length\")\n res,resargs = self.__obj.getbarcidx(idx_,maxnum_,sub_,weights_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _j_return_value,_num_return_value = resargs\n if _copyback_weights:\n weights[:] = _tmparr_weights\n if _copyback_sub:\n sub[:] = _tmparr_sub\n return _j_return_value,_num_return_value", "def getbarcidxinfo(self,idx_): # 3\n res,resargs = self.__obj.getbarcidxinfo(idx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _num_return_value = resargs\n return _num_return_value", "def getbarcidxinfo(self,idx_):\n num_ = ctypes.c_int64()\n res = __library__.MSK_XX_getbarcidxinfo(self.__nativep,idx_,ctypes.byref(num_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n num_ = num_.value\n _num_return_value = num_\n return (_num_return_value)", "def getbarcidxj(self,idx_): # 3\n res,resargs = self.__obj.getbarcidxj(idx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _j_return_value = resargs\n return _j_return_value", "def getbarcidxj(self,idx_):\n j_ = ctypes.c_int32()\n res = __library__.MSK_XX_getbarcidxj(self.__nativep,idx_,ctypes.byref(j_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n j_ = j_.value\n _j_return_value = j_\n return (_j_return_value)", "def getbaraidx(self,idx_,sub_,weights_):\n maxnum_ = self.getbaraidxinfo((idx_))\n i_ = ctypes.c_int32()\n j_ = ctypes.c_int32()\n num_ = ctypes.c_int64()\n _sub_minlength = (maxnum_)\n if (maxnum_) > 0 and sub_ is not None and len(sub_) != (maxnum_):\n raise ValueError(\"Array argument sub is not long enough: Is %d, expected %d\" % (len(sub_),(maxnum_)))\n if isinstance(sub_,numpy.ndarray) and not sub_.flags.writeable:\n raise ValueError(\"Argument sub must be writable\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int64) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int64))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _weights_minlength = (maxnum_)\n if (maxnum_) > 0 and weights_ is not None and len(weights_) != (maxnum_):\n raise ValueError(\"Array argument weights is not long enough: Is %d, expected %d\" % (len(weights_),(maxnum_)))\n if isinstance(weights_,numpy.ndarray) and not weights_.flags.writeable:\n raise ValueError(\"Argument weights must be writable\")\n if weights_ is None:\n raise ValueError(\"Argument weights may not be None\")\n if isinstance(weights_, numpy.ndarray) and weights_.dtype is numpy.dtype(numpy.float64) and weights_.flags.contiguous:\n _weights_copyarray = False\n _weights_tmp = ctypes.cast(weights_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif weights_ is not None:\n _weights_copyarray = True\n _weights_np_tmp = numpy.zeros(len(weights_),numpy.dtype(numpy.float64))\n _weights_np_tmp[:] = weights_\n assert _weights_np_tmp.flags.contiguous\n _weights_tmp = ctypes.cast(_weights_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _weights_copyarray = False\n _weights_tmp = None\n \n res = __library__.MSK_XX_getbaraidx(self.__nativep,idx_,maxnum_,ctypes.byref(i_),ctypes.byref(j_),ctypes.byref(num_),_sub_tmp,_weights_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n i_ = i_.value\n _i_return_value = i_\n j_ = j_.value\n _j_return_value = j_\n num_ = num_.value\n _num_return_value = num_\n if _sub_copyarray:\n sub_[:] = _sub_np_tmp\n if _weights_copyarray:\n weights_[:] = _weights_np_tmp\n return (_i_return_value,_j_return_value,_num_return_value)", "def getbaraidx(self,idx_,sub,weights): # 3\n maxnum_ = self.getbaraidxinfo((idx_))\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n _copyback_sub = False\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"q\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n _copyback_sub = True\n else:\n if sub_.format != \"q\":\n sub_ = memoryview(array.array(\"q\",sub))\n _copyback_sub = True\n if sub_ is not None and len(sub_) != (maxnum_):\n raise ValueError(\"Array argument sub has wrong length\")\n if weights is None: raise TypeError(\"Invalid type for argument weights\")\n _copyback_weights = False\n if weights is None:\n weights_ = None\n else:\n try:\n weights_ = memoryview(weights)\n except TypeError:\n try:\n _tmparr_weights = array.array(\"d\",weights)\n except TypeError:\n raise TypeError(\"Argument weights has wrong type\")\n else:\n weights_ = memoryview(_tmparr_weights)\n _copyback_weights = True\n else:\n if weights_.format != \"d\":\n weights_ = memoryview(array.array(\"d\",weights))\n _copyback_weights = True\n if weights_ is not None and len(weights_) != (maxnum_):\n raise ValueError(\"Array argument weights has wrong length\")\n res,resargs = self.__obj.getbaraidx(idx_,maxnum_,sub_,weights_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _i_return_value,_j_return_value,_num_return_value = resargs\n if _copyback_weights:\n weights[:] = _tmparr_weights\n if _copyback_sub:\n sub[:] = _tmparr_sub\n return _i_return_value,_j_return_value,_num_return_value", "def getIndexForSubGlyph(self, *args):\n return _libsbml.GeneralGlyph_getIndexForSubGlyph(self, *args)", "def getbaraidxinfo(self,idx_):\n num_ = ctypes.c_int64()\n res = __library__.MSK_XX_getbaraidxinfo(self.__nativep,idx_,ctypes.byref(num_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n num_ = num_.value\n _num_return_value = num_\n return (_num_return_value)", "def get_c_idx(self, node_idx):\n idx = (node_idx + 1) * 2 - 1\n return idx", "def index(self, sub) -> int:\n pass", "def getB(self, idx):\n if isinstance(idx, int):\n return self.dB[[idx]]\n else:\n return self.dB[idx]", "def getbaraidxinfo(self,idx_): # 3\n res,resargs = self.__obj.getbaraidxinfo(idx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _num_return_value = resargs\n return _num_return_value", "def GetSubkeyByIndex(self, index):", "def getbaraidxij(self,idx_):\n i_ = ctypes.c_int32()\n j_ = ctypes.c_int32()\n res = __library__.MSK_XX_getbaraidxij(self.__nativep,idx_,ctypes.byref(i_),ctypes.byref(j_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n i_ = i_.value\n _i_return_value = i_\n j_ = j_.value\n _j_return_value = j_\n return (_i_return_value,_j_return_value)", "def getbaraidxij(self,idx_): # 3\n res,resargs = self.__obj.getbaraidxij(idx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _i_return_value,_j_return_value = resargs\n return _i_return_value,_j_return_value", "def __getitem__(self, idx):\n\n subgraph_ids = torch.LongTensor(\n self.subgraph_list[idx]\n ) # list of node IDs in subgraph\n\n cc_ids = self.cc_ids[idx]\n N_border = self.N_border[idx] if self.N_border is not None else None\n NP_sim = self.NP_sim[idx] if self.NP_sim is not None else None\n I_S_sim = self.I_S_sim[idx] if self.I_S_sim is not None else None\n B_S_sim = self.B_S_sim[idx] if self.B_S_sim is not None else None\n\n if self.multilabel:\n label = torch.LongTensor(\n self.multilabel_binarizer.transform([self.labels[idx]])\n )\n else:\n label = torch.LongTensor([self.labels[idx]])\n idx = torch.LongTensor([idx])\n\n return (subgraph_ids, cc_ids, N_border, NP_sim, I_S_sim, B_S_sim, idx, label)", "def get_index(band_nums,chan_num):\n ch_index=np.searchsorted(band_nums,chan_num)\n return int(ch_index)", "def currentSubIndex(self):\n logger.debug(\"Func: currentSubIndex/getter\")\n return self._currentsDict[\"currentSubIndex\"]", "def _get_cindex(circ, name, index):\n ret = 0\n for reg in circ.cregs:\n if name != reg.name:\n ret += reg.size\n else:\n return ret + index\n return ret + index", "def ccIdx(self):\n return self.loc[self.depth]", "def __get_label_idx__(idx: int) -> int:\n\n label_idx = idx // 100\n label_idx = int(label_idx) if label_idx >= 0 else 0\n\n return label_idx", "def _get_cand_index(signature):\n\n # This map translates between the last \"I<n>\" field value and the\n # actual CAND cell index.\n INDEX_MAP = {\n 10: 0,\n 9: 1,\n 8: 2,\n 7: 3,\n 6: 4,\n }\n\n # Split the signature\n parts = signature.split(\".\")\n\n # Get the last \"I<n>\" field\n for i, word in enumerate(parts):\n if word in [\"I_hilojoint\", \"I_enjoint\"]:\n part = parts[i-1]\n break\n else:\n assert False, signature\n\n # Decode the index\n idx = int(part[1:])\n\n # Remap the index\n assert idx in INDEX_MAP, (signature, idx)\n return INDEX_MAP[idx]", "def __getitem__(self, i):\n # UHI support\n if callable(i):\n i = i(self)\n else:\n if i < 0:\n i += self._ax.size\n if i >= self._ax.size:\n raise IndexError(\n \"Out of range access, {0} is more than {1}\".format(i, self._ax.size)\n )\n return self.bin(i)", "def __getitem__(self, idx):\n record = self.records[idx]\n return np.array(record['feat']), np.array(record['label'], dtype=np.int64)", "def bin(self, index):\n\n return self._ax.bin(index)", "def __getitem__(self, idx):\n # Get the information from the init function\n\n return self.edges_s[idx], self.labels[idx]", "def sub2ind(self, ix, iy):\n idx = np.ravel_multi_index((ix, iy), self.shape)\n return idx", "def __getitem__ (self, idx):\n return self.row(idx[0])[idx[1]]", "def rindex(self, sub) -> int:\n pass" ]

[ "0.81144726", "0.72846395", "0.7217906", "0.665363", "0.6640706", "0.6635058", "0.65106195", "0.63355154", "0.5838797", "0.5818682", "0.5737795", "0.5736788", "0.55965847", "0.553447", "0.5459193", "0.5442391", "0.5383529", "0.5376213", "0.5336467", "0.5267637", "0.5224516", "0.5168994", "0.51664805", "0.51658773", "0.51402557", "0.5136828", "0.5134161", "0.513196", "0.5117353", "0.51037395" ]

[ "def getbaraidxinfo(self,idx_): # 3\n res,resargs = self.__obj.getbaraidxinfo(idx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _num_return_value = resargs\n return _num_return_value", "def getbarcidxinfo(self,idx_): # 3\n res,resargs = self.__obj.getbarcidxinfo(idx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _num_return_value = resargs\n return _num_return_value", "def getbaraidxij(self,idx_): # 3\n res,resargs = self.__obj.getbaraidxij(idx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _i_return_value,_j_return_value = resargs\n return _i_return_value,_j_return_value", "def getbaraidx(self,idx_,sub,weights): # 3\n maxnum_ = self.getbaraidxinfo((idx_))\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n _copyback_sub = False\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"q\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n _copyback_sub = True\n else:\n if sub_.format != \"q\":\n sub_ = memoryview(array.array(\"q\",sub))\n _copyback_sub = True\n if sub_ is not None and len(sub_) != (maxnum_):\n raise ValueError(\"Array argument sub has wrong length\")\n if weights is None: raise TypeError(\"Invalid type for argument weights\")\n _copyback_weights = False\n if weights is None:\n weights_ = None\n else:\n try:\n weights_ = memoryview(weights)\n except TypeError:\n try:\n _tmparr_weights = array.array(\"d\",weights)\n except TypeError:\n raise TypeError(\"Argument weights has wrong type\")\n else:\n weights_ = memoryview(_tmparr_weights)\n _copyback_weights = True\n else:\n if weights_.format != \"d\":\n weights_ = memoryview(array.array(\"d\",weights))\n _copyback_weights = True\n if weights_ is not None and len(weights_) != (maxnum_):\n raise ValueError(\"Array argument weights has wrong length\")\n res,resargs = self.__obj.getbaraidx(idx_,maxnum_,sub_,weights_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _i_return_value,_j_return_value,_num_return_value = resargs\n if _copyback_weights:\n weights[:] = _tmparr_weights\n if _copyback_sub:\n sub[:] = _tmparr_sub\n return _i_return_value,_j_return_value,_num_return_value", "def getbarcidxinfo(self,idx_):\n num_ = ctypes.c_int64()\n res = __library__.MSK_XX_getbarcidxinfo(self.__nativep,idx_,ctypes.byref(num_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n num_ = num_.value\n _num_return_value = num_\n return (_num_return_value)", "def getbaraidxij(self,idx_):\n i_ = ctypes.c_int32()\n j_ = ctypes.c_int32()\n res = __library__.MSK_XX_getbaraidxij(self.__nativep,idx_,ctypes.byref(i_),ctypes.byref(j_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n i_ = i_.value\n _i_return_value = i_\n j_ = j_.value\n _j_return_value = j_\n return (_i_return_value,_j_return_value)", "def marginality(attr_val, attr_idx, dataset, taxonomy):\n marginality = 0\n distances = {}\n for attr_r in dataset[:, attr_idx]:\n if attr_r != attr_val:\n sem_dist = semantic_distance_log(taxonomy.nodes[attr_val], taxonomy.nodes[attr_r])\n distances[attr_r] = sem_dist\n marginality += sem_dist\n return marginality", "def getbaraidx(self,idx_,sub_,weights_):\n maxnum_ = self.getbaraidxinfo((idx_))\n i_ = ctypes.c_int32()\n j_ = ctypes.c_int32()\n num_ = ctypes.c_int64()\n _sub_minlength = (maxnum_)\n if (maxnum_) > 0 and sub_ is not None and len(sub_) != (maxnum_):\n raise ValueError(\"Array argument sub is not long enough: Is %d, expected %d\" % (len(sub_),(maxnum_)))\n if isinstance(sub_,numpy.ndarray) and not sub_.flags.writeable:\n raise ValueError(\"Argument sub must be writable\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int64) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int64))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _weights_minlength = (maxnum_)\n if (maxnum_) > 0 and weights_ is not None and len(weights_) != (maxnum_):\n raise ValueError(\"Array argument weights is not long enough: Is %d, expected %d\" % (len(weights_),(maxnum_)))\n if isinstance(weights_,numpy.ndarray) and not weights_.flags.writeable:\n raise ValueError(\"Argument weights must be writable\")\n if weights_ is None:\n raise ValueError(\"Argument weights may not be None\")\n if isinstance(weights_, numpy.ndarray) and weights_.dtype is numpy.dtype(numpy.float64) and weights_.flags.contiguous:\n _weights_copyarray = False\n _weights_tmp = ctypes.cast(weights_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif weights_ is not None:\n _weights_copyarray = True\n _weights_np_tmp = numpy.zeros(len(weights_),numpy.dtype(numpy.float64))\n _weights_np_tmp[:] = weights_\n assert _weights_np_tmp.flags.contiguous\n _weights_tmp = ctypes.cast(_weights_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _weights_copyarray = False\n _weights_tmp = None\n \n res = __library__.MSK_XX_getbaraidx(self.__nativep,idx_,maxnum_,ctypes.byref(i_),ctypes.byref(j_),ctypes.byref(num_),_sub_tmp,_weights_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n i_ = i_.value\n _i_return_value = i_\n j_ = j_.value\n _j_return_value = j_\n num_ = num_.value\n _num_return_value = num_\n if _sub_copyarray:\n sub_[:] = _sub_np_tmp\n if _weights_copyarray:\n weights_[:] = _weights_np_tmp\n return (_i_return_value,_j_return_value,_num_return_value)", "def marginality_sim(attr_val, attr_idx, dataset, taxonomy):\n marginality = 0\n distances = {}\n for attr_r in dataset[:, attr_idx]:\n if attr_r != attr_val:\n sem_dist = semantic_distance_similarity(taxonomy.nodes[attr_val], taxonomy.nodes[attr_r])\n distances[attr_r] = sem_dist\n marginality += sem_dist\n return marginality", "def _get_node_size(self, index):\n\n pass", "def count_taxa_tree(tree_nxobj):\n\tnode_count = 0 #number of taxa in the tree\n\tfor node in tree_nxobj.preorder_node_iter():\n\t\tnode_count += 1\n\n\treturn node_count", "def compute_index_counts(indexing): \n counts = np.zeros(indexing.shape)\n for index in indexing:\n counts[index] += 1\n return counts", "def get_full_tax(idx):\n logging.info('Compiling the taxonomy for all genomes...')\n tax_idx = collections.defaultdict(dict)\n for cluster_id,v in idx.items():\n for tax,vv in v.items():\n for genome_id,x in vv.items():\n tax_idx[tax][genome_id] = x['genome_len']\n n_genomes = 0\n for tax,v in tax_idx.items():\n n_genomes += len(v.keys())\n logging.info(' Total number of genomes: {}'.format(n_genomes))\n # return\n return tax_idx", "def getCellCount(self, idx = None, cell = 1, verbose = 0):\n\n if idx is None: idx = np.arange(self.atoms.shape[0])\n if isinstance(idx, (int, np.integer)): idx = [idx]\n\n areas = self.getAreas(idx = idx, cell = cell)\n if cell == 1:\n base_area = np.abs(np.linalg.det(self.base_1[:2, :2]))\n elif cell == 2:\n base_area = np.abs(np.linalg.det(self.base_2[:2, :2]))\n\n count = areas / base_area\n\n if verbose > 0:\n string = \"Cell count for cell %i, with %i index, max deviation: %.4E\"\\\n % (cell, len(count), np.max(count - np.round(count, 0)))\n ut.infoPrint(string)\n\n return count", "def index(self) -> int:", "def noOfElem(classObj, index):\r\n return len(classObj.dataSet[:, index])", "def get_attr_number(node):\n score = 0\n for tag in node.iter():\n score += len(tag.attrib)\n return score", "def _get_qindex(circ, name, index):\n ret = 0\n for reg in circ.qregs:\n if name != reg.name:\n ret += reg.size\n else:\n return ret + index\n return ret + index", "def summary(self, index):\r\n return self.arraydata[index.row()][2]", "def weigthIndex(index, nPages): \n weighted_index = defaultdict(list)\n for term, docs in index.items():\n df = len(docs)\n for url, count in docs:\n weight = tf_idf(count, nPages, df)\n weighted_index[term].append((url, weight))\n return weighted_index", "def metadata_summary(idx):\n tax_per_cluster = []\n genomes_per_tax = []\n genes_per_genome = []\n for cluster_id,v in idx.items():\n tax_per_cluster.append(len(v.keys()))\n for tax,vv in v.items():\n genomes_per_tax.append(len(vv.keys()))\n for genomeID,gene_ids in vv.items():\n genes_per_genome.append(len(set(gene_ids)))\n sum_stats(tax_per_cluster, 'Clades per cluster')\n sum_stats(genomes_per_tax, 'Gemomes per clade')\n sum_stats(genes_per_genome, 'Genes per genome')", "def count_tax(self,state):\n\t\tassert len(state) == self._size\n\t\tactives = []\t\t#contains indices of elements\n\t\ttaxes = []\n\t\tfor i in range(self._size):\n\t\t\tif state[i] == 1:\n\t\t\t\tactives.append(i)\n\n\t\tfor i in actives:\n\t\t\ttax = 0\n\t\t\tfor j in actives:\n\t\t\t\tif i == j:\n\t\t\t\t\tcontinue\n\t\t\t\tif self.myWeights[i][j] != 0:\n\t\t\t\t\ttax += 1\n\t\t\tif tax == 0:\n\t\t\t\tcontinue\n\t\t\telse:\n\t\t\t\ttaxes.append(self.count_tax_neuron(tax))\n\t\t\ttax = 0\n\t\treturn sum(taxes)", "def _get_index(self):\n\n return self.index\n\n # to avoid having differences bigger than 2pi", "def getWeightValue(self, index):\r\n\t\treturn None", "def num_of_ele(self, ele):\n return self.ele_freqs[ele]", "def idx(self):\n return int(self.__ph.get('idx', 0))", "def informationGain(data, class_label, attribute, indices=None):\n\tsubset = data[:] if indices == None else data.loc[indices]\n\t\n\tsublist = subset[attribute].tolist()\n\tvalues = list(set(sublist))\n\tinfoGain = entropyOnSubset(subset, class_label)\n\t\n\t#print (sublist)\n\t\n\tfor i in values:\n\t\tindex = list(subset.index[subset[attribute] == i])\n\t\tinfoGain -= sublist.count(i)/len(sublist) * entropyOnSubset(subset, class_label, index)\n\n\t\n\treturn infoGain", "def test_get_tax_return_frequencies_key(self):\n pass", "def get_index_stats(self):\n\n assert self._check_idx, 'No index available'\n idx_stats = []\n for ref in range(self._header.n_refs):\n try:\n mapped = self._index.unmapped[ref].n_mapped\n unmapped = self._index.unmapped[ref].n_unmapped\n idx_stats.append((mapped, unmapped, mapped + unmapped))\n except KeyError:\n idx_stats.append((0, 0, 0))\n return idx_stats", "def get_Ui(bid):\n try:\n return len(trainset.ir[trainset.to_inner_iid(bid)])\n except ValueError:\n return 0" ]

[ "0.7756773", "0.6507387", "0.64196265", "0.6186367", "0.6128352", "0.5972996", "0.5923507", "0.59121716", "0.5646623", "0.5492446", "0.5417949", "0.5402761", "0.53898597", "0.53793544", "0.5307793", "0.5303424", "0.5293265", "0.5285976", "0.5244835", "0.523641", "0.5207586", "0.51980513", "0.5177836", "0.5117958", "0.5085376", "0.5082158", "0.5075759", "0.50723696", "0.50585335", "0.50538576" ]

[ "def getbaraidxij(self,idx_): # 3\n res,resargs = self.__obj.getbaraidxij(idx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _i_return_value,_j_return_value = resargs\n return _i_return_value,_j_return_value", "def getbaraidxinfo(self,idx_): # 3\n res,resargs = self.__obj.getbaraidxinfo(idx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _num_return_value = resargs\n return _num_return_value", "def getbaraidxinfo(self,idx_):\n num_ = ctypes.c_int64()\n res = __library__.MSK_XX_getbaraidxinfo(self.__nativep,idx_,ctypes.byref(num_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n num_ = num_.value\n _num_return_value = num_\n return (_num_return_value)", "def getbarcidxj(self,idx_): # 3\n res,resargs = self.__obj.getbarcidxj(idx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _j_return_value = resargs\n return _j_return_value", "def getbarcidxinfo(self,idx_): # 3\n res,resargs = self.__obj.getbarcidxinfo(idx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _num_return_value = resargs\n return _num_return_value", "def getbarcidxj(self,idx_):\n j_ = ctypes.c_int32()\n res = __library__.MSK_XX_getbarcidxj(self.__nativep,idx_,ctypes.byref(j_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n j_ = j_.value\n _j_return_value = j_\n return (_j_return_value)", "def getbaraidx(self,idx_,sub,weights): # 3\n maxnum_ = self.getbaraidxinfo((idx_))\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n _copyback_sub = False\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"q\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n _copyback_sub = True\n else:\n if sub_.format != \"q\":\n sub_ = memoryview(array.array(\"q\",sub))\n _copyback_sub = True\n if sub_ is not None and len(sub_) != (maxnum_):\n raise ValueError(\"Array argument sub has wrong length\")\n if weights is None: raise TypeError(\"Invalid type for argument weights\")\n _copyback_weights = False\n if weights is None:\n weights_ = None\n else:\n try:\n weights_ = memoryview(weights)\n except TypeError:\n try:\n _tmparr_weights = array.array(\"d\",weights)\n except TypeError:\n raise TypeError(\"Argument weights has wrong type\")\n else:\n weights_ = memoryview(_tmparr_weights)\n _copyback_weights = True\n else:\n if weights_.format != \"d\":\n weights_ = memoryview(array.array(\"d\",weights))\n _copyback_weights = True\n if weights_ is not None and len(weights_) != (maxnum_):\n raise ValueError(\"Array argument weights has wrong length\")\n res,resargs = self.__obj.getbaraidx(idx_,maxnum_,sub_,weights_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _i_return_value,_j_return_value,_num_return_value = resargs\n if _copyback_weights:\n weights[:] = _tmparr_weights\n if _copyback_sub:\n sub[:] = _tmparr_sub\n return _i_return_value,_j_return_value,_num_return_value", "def getbaraidx(self,idx_,sub_,weights_):\n maxnum_ = self.getbaraidxinfo((idx_))\n i_ = ctypes.c_int32()\n j_ = ctypes.c_int32()\n num_ = ctypes.c_int64()\n _sub_minlength = (maxnum_)\n if (maxnum_) > 0 and sub_ is not None and len(sub_) != (maxnum_):\n raise ValueError(\"Array argument sub is not long enough: Is %d, expected %d\" % (len(sub_),(maxnum_)))\n if isinstance(sub_,numpy.ndarray) and not sub_.flags.writeable:\n raise ValueError(\"Argument sub must be writable\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int64) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int64))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _weights_minlength = (maxnum_)\n if (maxnum_) > 0 and weights_ is not None and len(weights_) != (maxnum_):\n raise ValueError(\"Array argument weights is not long enough: Is %d, expected %d\" % (len(weights_),(maxnum_)))\n if isinstance(weights_,numpy.ndarray) and not weights_.flags.writeable:\n raise ValueError(\"Argument weights must be writable\")\n if weights_ is None:\n raise ValueError(\"Argument weights may not be None\")\n if isinstance(weights_, numpy.ndarray) and weights_.dtype is numpy.dtype(numpy.float64) and weights_.flags.contiguous:\n _weights_copyarray = False\n _weights_tmp = ctypes.cast(weights_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif weights_ is not None:\n _weights_copyarray = True\n _weights_np_tmp = numpy.zeros(len(weights_),numpy.dtype(numpy.float64))\n _weights_np_tmp[:] = weights_\n assert _weights_np_tmp.flags.contiguous\n _weights_tmp = ctypes.cast(_weights_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _weights_copyarray = False\n _weights_tmp = None\n \n res = __library__.MSK_XX_getbaraidx(self.__nativep,idx_,maxnum_,ctypes.byref(i_),ctypes.byref(j_),ctypes.byref(num_),_sub_tmp,_weights_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n i_ = i_.value\n _i_return_value = i_\n j_ = j_.value\n _j_return_value = j_\n num_ = num_.value\n _num_return_value = num_\n if _sub_copyarray:\n sub_[:] = _sub_np_tmp\n if _weights_copyarray:\n weights_[:] = _weights_np_tmp\n return (_i_return_value,_j_return_value,_num_return_value)", "def getbarcidxinfo(self,idx_):\n num_ = ctypes.c_int64()\n res = __library__.MSK_XX_getbarcidxinfo(self.__nativep,idx_,ctypes.byref(num_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n num_ = num_.value\n _num_return_value = num_\n return (_num_return_value)", "def getbarasparsity(self,idxij_):\n maxnumnz_ = self.getnumbaranz()\n numnz_ = ctypes.c_int64()\n _idxij_minlength = (maxnumnz_)\n if (maxnumnz_) > 0 and idxij_ is not None and len(idxij_) != (maxnumnz_):\n raise ValueError(\"Array argument idxij is not long enough: Is %d, expected %d\" % (len(idxij_),(maxnumnz_)))\n if isinstance(idxij_,numpy.ndarray) and not idxij_.flags.writeable:\n raise ValueError(\"Argument idxij must be writable\")\n if idxij_ is None:\n raise ValueError(\"Argument idxij may not be None\")\n if isinstance(idxij_, numpy.ndarray) and idxij_.dtype is numpy.dtype(numpy.int64) and idxij_.flags.contiguous:\n _idxij_copyarray = False\n _idxij_tmp = ctypes.cast(idxij_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif idxij_ is not None:\n _idxij_copyarray = True\n _idxij_np_tmp = numpy.zeros(len(idxij_),numpy.dtype(numpy.int64))\n _idxij_np_tmp[:] = idxij_\n assert _idxij_np_tmp.flags.contiguous\n _idxij_tmp = ctypes.cast(_idxij_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _idxij_copyarray = False\n _idxij_tmp = None\n \n res = __library__.MSK_XX_getbarasparsity(self.__nativep,maxnumnz_,ctypes.byref(numnz_),_idxij_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n numnz_ = numnz_.value\n _numnz_return_value = numnz_\n if _idxij_copyarray:\n idxij_[:] = _idxij_np_tmp\n return (_numnz_return_value)", "def getbarasparsity(self,idxij): # 3\n maxnumnz_ = self.getnumbaranz()\n if idxij is None: raise TypeError(\"Invalid type for argument idxij\")\n _copyback_idxij = False\n if idxij is None:\n idxij_ = None\n else:\n try:\n idxij_ = memoryview(idxij)\n except TypeError:\n try:\n _tmparr_idxij = array.array(\"q\",idxij)\n except TypeError:\n raise TypeError(\"Argument idxij has wrong type\")\n else:\n idxij_ = memoryview(_tmparr_idxij)\n _copyback_idxij = True\n else:\n if idxij_.format != \"q\":\n idxij_ = memoryview(array.array(\"q\",idxij))\n _copyback_idxij = True\n if idxij_ is not None and len(idxij_) != (maxnumnz_):\n raise ValueError(\"Array argument idxij has wrong length\")\n res,resargs = self.__obj.getbarasparsity(maxnumnz_,idxij_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _numnz_return_value = resargs\n if _copyback_idxij:\n idxij[:] = _tmparr_idxij\n return _numnz_return_value", "def get_elem (A, i, j):\n\treturn A[j][i]", "def get_element(self, index):\n return self.name[index], self.label[index], self.meta[index]", "def tree_idx(tree,j1,J1,J2):\n j = j1\n for k in np.arange(J1+1,J2+1,1):\n j = tree[k]['IDX'][j]\n \n j2 = j\n return j2", "def get_element(self, index):\n return self.name[index], self.meta[index]", "def getA(self, idx):\n if isinstance(idx, int):\n return self.dA[[idx]]\n else:\n return self.dA[idx]", "def get_index(self, index):\n return self.get_node_from_index(index).data", "def element_index(self):\n return self._index", "def idx(self):\n if self._idx is None:\n self._loads()\n return self._idx", "def idx(self):\n return self._idx", "def get_element(self, index):\n return self.name[index], self.voxels[index], self.vertices[index]", "def i_index(self, coord):\n return coord + 1 if coord + 1 > self.dimensions - 1 else 0", "def __getitem__ (self, idx):\n return self.row(idx[0])[idx[1]]", "def attr(self, index):\n return self.row[0, index]", "def index(self) -> int:", "def getIndex(self, *args):\n return _libsbml.XMLNode_getIndex(self, *args)", "def get_tkinter_index(self,index):\n if isinstance(index,str):\n if index in self.indexname2index:\n i=self.indexname2index[index]\n else:\n # pass through tkinter to get 'end' etc converted to index\n i=self.index(index)\n else:\n i=index\n return i", "def getbarcidx(self,idx_,sub_,weights_):\n maxnum_ = self.getbarcidxinfo((idx_))\n j_ = ctypes.c_int32()\n num_ = ctypes.c_int64()\n _sub_minlength = (maxnum_)\n if (maxnum_) > 0 and sub_ is not None and len(sub_) != (maxnum_):\n raise ValueError(\"Array argument sub is not long enough: Is %d, expected %d\" % (len(sub_),(maxnum_)))\n if isinstance(sub_,numpy.ndarray) and not sub_.flags.writeable:\n raise ValueError(\"Argument sub must be writable\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int64) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int64))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _weights_minlength = (maxnum_)\n if (maxnum_) > 0 and weights_ is not None and len(weights_) != (maxnum_):\n raise ValueError(\"Array argument weights is not long enough: Is %d, expected %d\" % (len(weights_),(maxnum_)))\n if isinstance(weights_,numpy.ndarray) and not weights_.flags.writeable:\n raise ValueError(\"Argument weights must be writable\")\n if weights_ is None:\n raise ValueError(\"Argument weights may not be None\")\n if isinstance(weights_, numpy.ndarray) and weights_.dtype is numpy.dtype(numpy.float64) and weights_.flags.contiguous:\n _weights_copyarray = False\n _weights_tmp = ctypes.cast(weights_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif weights_ is not None:\n _weights_copyarray = True\n _weights_np_tmp = numpy.zeros(len(weights_),numpy.dtype(numpy.float64))\n _weights_np_tmp[:] = weights_\n assert _weights_np_tmp.flags.contiguous\n _weights_tmp = ctypes.cast(_weights_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _weights_copyarray = False\n _weights_tmp = None\n \n res = __library__.MSK_XX_getbarcidx(self.__nativep,idx_,maxnum_,ctypes.byref(j_),ctypes.byref(num_),_sub_tmp,_weights_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n j_ = j_.value\n _j_return_value = j_\n num_ = num_.value\n _num_return_value = num_\n if _sub_copyarray:\n sub_[:] = _sub_np_tmp\n if _weights_copyarray:\n weights_[:] = _weights_np_tmp\n return (_j_return_value,_num_return_value)", "def getIndMatrix(tm, barIx):\n indM = pd.DataFrame(0, index=barIx, columns=range(tm.shape[0]))\n for i, (t0, t1) in enumerate(tm.iteritems()):\n indM.loc[t0:t1, i] = 1.0\n return indM", "def __getitem__(self, index):\n if isinstance(index, (tuple, list)) and len(index) == 2:\n return self.cells[index[1]][index[0]]\n return self.cells[index]" ]

[ "0.8346773", "0.77193934", "0.754142", "0.67876697", "0.6486184", "0.64195204", "0.6404053", "0.640032", "0.6305876", "0.59074754", "0.5890297", "0.58680964", "0.58324194", "0.5825518", "0.5760624", "0.5729917", "0.565855", "0.56582534", "0.56447303", "0.5631596", "0.55810976", "0.55731314", "0.55428255", "0.54978913", "0.54894054", "0.5478932", "0.54713506", "0.5440942", "0.5431604", "0.5415196" ]

[ "def getbaraidx(self,idx_,sub,weights): # 3\n maxnum_ = self.getbaraidxinfo((idx_))\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n _copyback_sub = False\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"q\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n _copyback_sub = True\n else:\n if sub_.format != \"q\":\n sub_ = memoryview(array.array(\"q\",sub))\n _copyback_sub = True\n if sub_ is not None and len(sub_) != (maxnum_):\n raise ValueError(\"Array argument sub has wrong length\")\n if weights is None: raise TypeError(\"Invalid type for argument weights\")\n _copyback_weights = False\n if weights is None:\n weights_ = None\n else:\n try:\n weights_ = memoryview(weights)\n except TypeError:\n try:\n _tmparr_weights = array.array(\"d\",weights)\n except TypeError:\n raise TypeError(\"Argument weights has wrong type\")\n else:\n weights_ = memoryview(_tmparr_weights)\n _copyback_weights = True\n else:\n if weights_.format != \"d\":\n weights_ = memoryview(array.array(\"d\",weights))\n _copyback_weights = True\n if weights_ is not None and len(weights_) != (maxnum_):\n raise ValueError(\"Array argument weights has wrong length\")\n res,resargs = self.__obj.getbaraidx(idx_,maxnum_,sub_,weights_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _i_return_value,_j_return_value,_num_return_value = resargs\n if _copyback_weights:\n weights[:] = _tmparr_weights\n if _copyback_sub:\n sub[:] = _tmparr_sub\n return _i_return_value,_j_return_value,_num_return_value", "def getbaraidxinfo(self,idx_): # 3\n res,resargs = self.__obj.getbaraidxinfo(idx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _num_return_value = resargs\n return _num_return_value", "def getbaraidxij(self,idx_): # 3\n res,resargs = self.__obj.getbaraidxij(idx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _i_return_value,_j_return_value = resargs\n return _i_return_value,_j_return_value", "def getbaraidxinfo(self,idx_):\n num_ = ctypes.c_int64()\n res = __library__.MSK_XX_getbaraidxinfo(self.__nativep,idx_,ctypes.byref(num_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n num_ = num_.value\n _num_return_value = num_\n return (_num_return_value)", "def getbarcidx(self,idx_,sub_,weights_):\n maxnum_ = self.getbarcidxinfo((idx_))\n j_ = ctypes.c_int32()\n num_ = ctypes.c_int64()\n _sub_minlength = (maxnum_)\n if (maxnum_) > 0 and sub_ is not None and len(sub_) != (maxnum_):\n raise ValueError(\"Array argument sub is not long enough: Is %d, expected %d\" % (len(sub_),(maxnum_)))\n if isinstance(sub_,numpy.ndarray) and not sub_.flags.writeable:\n raise ValueError(\"Argument sub must be writable\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int64) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int64))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n _weights_minlength = (maxnum_)\n if (maxnum_) > 0 and weights_ is not None and len(weights_) != (maxnum_):\n raise ValueError(\"Array argument weights is not long enough: Is %d, expected %d\" % (len(weights_),(maxnum_)))\n if isinstance(weights_,numpy.ndarray) and not weights_.flags.writeable:\n raise ValueError(\"Argument weights must be writable\")\n if weights_ is None:\n raise ValueError(\"Argument weights may not be None\")\n if isinstance(weights_, numpy.ndarray) and weights_.dtype is numpy.dtype(numpy.float64) and weights_.flags.contiguous:\n _weights_copyarray = False\n _weights_tmp = ctypes.cast(weights_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif weights_ is not None:\n _weights_copyarray = True\n _weights_np_tmp = numpy.zeros(len(weights_),numpy.dtype(numpy.float64))\n _weights_np_tmp[:] = weights_\n assert _weights_np_tmp.flags.contiguous\n _weights_tmp = ctypes.cast(_weights_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _weights_copyarray = False\n _weights_tmp = None\n \n res = __library__.MSK_XX_getbarcidx(self.__nativep,idx_,maxnum_,ctypes.byref(j_),ctypes.byref(num_),_sub_tmp,_weights_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n j_ = j_.value\n _j_return_value = j_\n num_ = num_.value\n _num_return_value = num_\n if _sub_copyarray:\n sub_[:] = _sub_np_tmp\n if _weights_copyarray:\n weights_[:] = _weights_np_tmp\n return (_j_return_value,_num_return_value)", "def getbarcidx(self,idx_,sub,weights): # 3\n maxnum_ = self.getbarcidxinfo((idx_))\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n _copyback_sub = False\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"q\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n _copyback_sub = True\n else:\n if sub_.format != \"q\":\n sub_ = memoryview(array.array(\"q\",sub))\n _copyback_sub = True\n if sub_ is not None and len(sub_) != (maxnum_):\n raise ValueError(\"Array argument sub has wrong length\")\n if weights is None: raise TypeError(\"Invalid type for argument weights\")\n _copyback_weights = False\n if weights is None:\n weights_ = None\n else:\n try:\n weights_ = memoryview(weights)\n except TypeError:\n try:\n _tmparr_weights = array.array(\"d\",weights)\n except TypeError:\n raise TypeError(\"Argument weights has wrong type\")\n else:\n weights_ = memoryview(_tmparr_weights)\n _copyback_weights = True\n else:\n if weights_.format != \"d\":\n weights_ = memoryview(array.array(\"d\",weights))\n _copyback_weights = True\n if weights_ is not None and len(weights_) != (maxnum_):\n raise ValueError(\"Array argument weights has wrong length\")\n res,resargs = self.__obj.getbarcidx(idx_,maxnum_,sub_,weights_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _j_return_value,_num_return_value = resargs\n if _copyback_weights:\n weights[:] = _tmparr_weights\n if _copyback_sub:\n sub[:] = _tmparr_sub\n return _j_return_value,_num_return_value", "def getbaraidxij(self,idx_):\n i_ = ctypes.c_int32()\n j_ = ctypes.c_int32()\n res = __library__.MSK_XX_getbaraidxij(self.__nativep,idx_,ctypes.byref(i_),ctypes.byref(j_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n i_ = i_.value\n _i_return_value = i_\n j_ = j_.value\n _j_return_value = j_\n return (_i_return_value,_j_return_value)", "def index(self, sub) -> int:\n pass", "def getIndexForSubGlyph(self, *args):\n return _libsbml.GeneralGlyph_getIndexForSubGlyph(self, *args)", "def getbarcidxinfo(self,idx_): # 3\n res,resargs = self.__obj.getbarcidxinfo(idx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _num_return_value = resargs\n return _num_return_value", "def GetSubkeyByIndex(self, index):", "def getbarcidxinfo(self,idx_):\n num_ = ctypes.c_int64()\n res = __library__.MSK_XX_getbarcidxinfo(self.__nativep,idx_,ctypes.byref(num_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n num_ = num_.value\n _num_return_value = num_\n return (_num_return_value)", "def rindex(self, sub) -> int:\n pass", "def getbarcidxj(self,idx_): # 3\n res,resargs = self.__obj.getbarcidxj(idx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _j_return_value = resargs\n return _j_return_value", "def index(self) -> int:", "def __getitem__(self, idx):\n\n subgraph_ids = torch.LongTensor(\n self.subgraph_list[idx]\n ) # list of node IDs in subgraph\n\n cc_ids = self.cc_ids[idx]\n N_border = self.N_border[idx] if self.N_border is not None else None\n NP_sim = self.NP_sim[idx] if self.NP_sim is not None else None\n I_S_sim = self.I_S_sim[idx] if self.I_S_sim is not None else None\n B_S_sim = self.B_S_sim[idx] if self.B_S_sim is not None else None\n\n if self.multilabel:\n label = torch.LongTensor(\n self.multilabel_binarizer.transform([self.labels[idx]])\n )\n else:\n label = torch.LongTensor([self.labels[idx]])\n idx = torch.LongTensor([idx])\n\n return (subgraph_ids, cc_ids, N_border, NP_sim, I_S_sim, B_S_sim, idx, label)", "def get_child_indices(idx: int):\n return 2 * idx + 1, 2 * idx + 2", "def getIndex(self, *args):\n return _libsbml.XMLNode_getIndex(self, *args)", "def getA(self, idx):\n if isinstance(idx, int):\n return self.dA[[idx]]\n else:\n return self.dA[idx]", "def tree_idx(tree,j1,J1,J2):\n j = j1\n for k in np.arange(J1+1,J2+1,1):\n j = tree[k]['IDX'][j]\n \n j2 = j\n return j2", "def getB(self, idx):\n if isinstance(idx, int):\n return self.dB[[idx]]\n else:\n return self.dB[idx]", "def get_index(self, index):\n return self.get_node_from_index(index).data", "def index(self, x) -> int:\n pass", "def __getitem__(self, idx):\n record = self.records[idx]\n return np.array(record['feat']), np.array(record['label'], dtype=np.int64)", "def get_index(a, index):\n if index < 0:\n return []\n element = []\n try:\n element = a[index]\n except:\n pass\n return element", "def get_element(self, index):\n return self.name[index], self.label[index], self.meta[index]", "def __getitem__ (self, idx):\n return self.row(idx[0])[idx[1]]", "def _get_index(self):\n\n return self.index\n\n # to avoid having differences bigger than 2pi", "def getIndex(self, *args):\n return _libsbml.XMLAttributes_getIndex(self, *args)", "def __getitem__(self,index):\n return self._data[index[0]][index[1]]" ]

[ "0.79349804", "0.7220432", "0.6909607", "0.68911463", "0.66678464", "0.66436964", "0.63469344", "0.59986603", "0.59368634", "0.5867839", "0.57814175", "0.56003904", "0.5393162", "0.5353795", "0.53340846", "0.5328281", "0.5303927", "0.53004795", "0.52901924", "0.5209837", "0.51562303", "0.51452285", "0.51394093", "0.5104866", "0.51021194", "0.50909376", "0.508311", "0.5074978", "0.50704175", "0.5070046" ]

[ "def getnumbarcblocktriplets(self): # 3\n res,resargs = self.__obj.getnumbarcblocktriplets()\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _num_return_value = resargs\n return _num_return_value", "def getnumbarablocktriplets(self): # 3\n res,resargs = self.__obj.getnumbarablocktriplets()\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _num_return_value = resargs\n return _num_return_value", "def get_num_of_baskets(self):\n return self.num_of_baskets", "def num_blocks(self): # -> int:\n ...", "def getnumbarablocktriplets(self):\n num_ = ctypes.c_int64()\n res = __library__.MSK_XX_getnumbarablocktriplets(self.__nativep,ctypes.byref(num_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n num_ = num_.value\n _num_return_value = num_\n return (_num_return_value)", "def getNbin(self):\n return self.shape(squeeze=False)[3]", "def nClumps(self):\n \n return len(self)", "def nb_triples(self) -> int:\n return 0", "def nt(self):\n if self.nClumps() > 0:\n \n return len(self[0])\n \n else:\n \n return 0", "def number_of_containing_bags(self) -> int:\n\n bag_count = 0\n for sub_bag_count, sub_bag_color in self.containing_bags:\n bag_count += sub_bag_count\n bag_count += (\n sub_bag_count * bag_registry[sub_bag_color].number_of_containing_bags\n )\n return bag_count", "def getNumTiles(self):\n return len(list(product(list(range(self.width+1))[1:], list(range(self.height+1))[1:])))", "def number_of_beds(self):\n return self._number_of_beds", "def _number_of_intervals(self):\n return self._number_of_levels - 1", "def num_cells(self):\n cbi = self.cbi\n if cbi is None:\n return None\n return cbi[-1] # pylint: disable=E1136", "def num_cells(self):\n cbi = self.cbi\n if cbi is None:\n return None\n return cbi[-1] # pylint: disable=E1136", "def num_cells(self):\n cbi = self.cbi\n if cbi is None:\n return None\n return cbi[-1] # pylint: disable=E1136", "def num_cells(self):\n cbi = self.cbi\n if cbi is None:\n return None\n return cbi[-1] # pylint: disable=E1136", "def nBranches(self):\n\n\t\treturn self._nBranches", "def ncells(self):\n return self.izone.size", "def getblockcount(self):\n return self.proxy.getblockcount()", "def get_num_of_barrels(self):\n return self.num_of_barrels", "def getNumTiles(self):\n return self.height * self.width", "def number_of_new_components(self):\n t_low = self.lower_binary_tree().to_tilting()\n t_up = self.upper_binary_tree().to_tilting()\n return len([p for p in t_low if p in t_up])", "def getNumTiles(self):\n return (self.width) * (self.height)", "def n_components(self):\n return 1", "def GetNumberOfBins(self):\n return _itkStatisticsLabelMapFilterPython.itkStatisticsLabelMapFilterLM3IUS3_GetNumberOfBins(self)", "def voxel_count(self):\n return self.cols * self.rows * self.sections", "def getblockcount(self):\n return len(self.blocks) - 1", "def number_of_bits(self) -> int:\n raise NotImplementedError('To be Overidden by the derived class')", "def num_complementary_regions(self):\n g = self._get_puncturefinder_graph()\n # return g.connected_components_number()\n return nx.number_connected_components(g)" ]

[ "0.85420984", "0.75696456", "0.7015618", "0.6847383", "0.6627744", "0.64907646", "0.6451518", "0.64438766", "0.6355343", "0.63185966", "0.62884474", "0.62712073", "0.62185615", "0.61999696", "0.61999696", "0.61999696", "0.61999696", "0.61817807", "0.61790687", "0.61690867", "0.61506677", "0.61434937", "0.6111415", "0.61064106", "0.6105227", "0.60972106", "0.60955435", "0.60819477", "0.6081078", "0.60750514" ]

[ "def putbarcblocktriplet(self,num_,subj,subk,subl,valjkl): # 3\n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n \n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n \n if subj_ is not None and len(subj_) != (num_):\n raise ValueError(\"Array argument subj has wrong length\")\n if subk is None: raise TypeError(\"Invalid type for argument subk\")\n if subk is None:\n subk_ = None\n else:\n try:\n subk_ = memoryview(subk)\n except TypeError:\n try:\n _tmparr_subk = array.array(\"i\",subk)\n except TypeError:\n raise TypeError(\"Argument subk has wrong type\")\n else:\n subk_ = memoryview(_tmparr_subk)\n \n else:\n if subk_.format != \"i\":\n subk_ = memoryview(array.array(\"i\",subk))\n \n if subk_ is not None and len(subk_) != (num_):\n raise ValueError(\"Array argument subk has wrong length\")\n if subl is None: raise TypeError(\"Invalid type for argument subl\")\n if subl is None:\n subl_ = None\n else:\n try:\n subl_ = memoryview(subl)\n except TypeError:\n try:\n _tmparr_subl = array.array(\"i\",subl)\n except TypeError:\n raise TypeError(\"Argument subl has wrong type\")\n else:\n subl_ = memoryview(_tmparr_subl)\n \n else:\n if subl_.format != \"i\":\n subl_ = memoryview(array.array(\"i\",subl))\n \n if subl_ is not None and len(subl_) != (num_):\n raise ValueError(\"Array argument subl has wrong length\")\n if valjkl is None: raise TypeError(\"Invalid type for argument valjkl\")\n if valjkl is None:\n valjkl_ = None\n else:\n try:\n valjkl_ = memoryview(valjkl)\n except TypeError:\n try:\n _tmparr_valjkl = array.array(\"d\",valjkl)\n except TypeError:\n raise TypeError(\"Argument valjkl has wrong type\")\n else:\n valjkl_ = memoryview(_tmparr_valjkl)\n \n else:\n if valjkl_.format != \"d\":\n valjkl_ = memoryview(array.array(\"d\",valjkl))\n \n if valjkl_ is not None and len(valjkl_) != (num_):\n raise ValueError(\"Array argument valjkl has wrong length\")\n res = self.__obj.putbarcblocktriplet(num_,subj_,subk_,subl_,valjkl_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getbarcblocktriplet(self,subj,subk,subl,valjkl): # 3\n maxnum_ = self.getnumbarcblocktriplets()\n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n _copyback_subj = False\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n _copyback_subj = True\n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n _copyback_subj = True\n if subj_ is not None and len(subj_) != (maxnum_):\n raise ValueError(\"Array argument subj has wrong length\")\n if subk is None: raise TypeError(\"Invalid type for argument subk\")\n _copyback_subk = False\n if subk is None:\n subk_ = None\n else:\n try:\n subk_ = memoryview(subk)\n except TypeError:\n try:\n _tmparr_subk = array.array(\"i\",subk)\n except TypeError:\n raise TypeError(\"Argument subk has wrong type\")\n else:\n subk_ = memoryview(_tmparr_subk)\n _copyback_subk = True\n else:\n if subk_.format != \"i\":\n subk_ = memoryview(array.array(\"i\",subk))\n _copyback_subk = True\n if subk_ is not None and len(subk_) != (maxnum_):\n raise ValueError(\"Array argument subk has wrong length\")\n if subl is None: raise TypeError(\"Invalid type for argument subl\")\n _copyback_subl = False\n if subl is None:\n subl_ = None\n else:\n try:\n subl_ = memoryview(subl)\n except TypeError:\n try:\n _tmparr_subl = array.array(\"i\",subl)\n except TypeError:\n raise TypeError(\"Argument subl has wrong type\")\n else:\n subl_ = memoryview(_tmparr_subl)\n _copyback_subl = True\n else:\n if subl_.format != \"i\":\n subl_ = memoryview(array.array(\"i\",subl))\n _copyback_subl = True\n if subl_ is not None and len(subl_) != (maxnum_):\n raise ValueError(\"Array argument subl has wrong length\")\n if valjkl is None: raise TypeError(\"Invalid type for argument valjkl\")\n _copyback_valjkl = False\n if valjkl is None:\n valjkl_ = None\n else:\n try:\n valjkl_ = memoryview(valjkl)\n except TypeError:\n try:\n _tmparr_valjkl = array.array(\"d\",valjkl)\n except TypeError:\n raise TypeError(\"Argument valjkl has wrong type\")\n else:\n valjkl_ = memoryview(_tmparr_valjkl)\n _copyback_valjkl = True\n else:\n if valjkl_.format != \"d\":\n valjkl_ = memoryview(array.array(\"d\",valjkl))\n _copyback_valjkl = True\n if valjkl_ is not None and len(valjkl_) != (maxnum_):\n raise ValueError(\"Array argument valjkl has wrong length\")\n res,resargs = self.__obj.getbarcblocktriplet(maxnum_,subj_,subk_,subl_,valjkl_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _num_return_value = resargs\n if _copyback_valjkl:\n valjkl[:] = _tmparr_valjkl\n if _copyback_subl:\n subl[:] = _tmparr_subl\n if _copyback_subk:\n subk[:] = _tmparr_subk\n if _copyback_subj:\n subj[:] = _tmparr_subj\n return _num_return_value", "def getbarcblocktriplet(self,subj_,subk_,subl_,valjkl_):\n maxnum_ = self.getnumbarcblocktriplets()\n num_ = ctypes.c_int64()\n _subj_minlength = (maxnum_)\n if (maxnum_) > 0 and subj_ is not None and len(subj_) != (maxnum_):\n raise ValueError(\"Array argument subj is not long enough: Is %d, expected %d\" % (len(subj_),(maxnum_)))\n if isinstance(subj_,numpy.ndarray) and not subj_.flags.writeable:\n raise ValueError(\"Argument subj must be writable\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n _subk_minlength = (maxnum_)\n if (maxnum_) > 0 and subk_ is not None and len(subk_) != (maxnum_):\n raise ValueError(\"Array argument subk is not long enough: Is %d, expected %d\" % (len(subk_),(maxnum_)))\n if isinstance(subk_,numpy.ndarray) and not subk_.flags.writeable:\n raise ValueError(\"Argument subk must be writable\")\n if subk_ is None:\n raise ValueError(\"Argument subk may not be None\")\n if isinstance(subk_, numpy.ndarray) and subk_.dtype is numpy.dtype(numpy.int32) and subk_.flags.contiguous:\n _subk_copyarray = False\n _subk_tmp = ctypes.cast(subk_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subk_ is not None:\n _subk_copyarray = True\n _subk_np_tmp = numpy.zeros(len(subk_),numpy.dtype(numpy.int32))\n _subk_np_tmp[:] = subk_\n assert _subk_np_tmp.flags.contiguous\n _subk_tmp = ctypes.cast(_subk_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subk_copyarray = False\n _subk_tmp = None\n \n _subl_minlength = (maxnum_)\n if (maxnum_) > 0 and subl_ is not None and len(subl_) != (maxnum_):\n raise ValueError(\"Array argument subl is not long enough: Is %d, expected %d\" % (len(subl_),(maxnum_)))\n if isinstance(subl_,numpy.ndarray) and not subl_.flags.writeable:\n raise ValueError(\"Argument subl must be writable\")\n if subl_ is None:\n raise ValueError(\"Argument subl may not be None\")\n if isinstance(subl_, numpy.ndarray) and subl_.dtype is numpy.dtype(numpy.int32) and subl_.flags.contiguous:\n _subl_copyarray = False\n _subl_tmp = ctypes.cast(subl_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subl_ is not None:\n _subl_copyarray = True\n _subl_np_tmp = numpy.zeros(len(subl_),numpy.dtype(numpy.int32))\n _subl_np_tmp[:] = subl_\n assert _subl_np_tmp.flags.contiguous\n _subl_tmp = ctypes.cast(_subl_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subl_copyarray = False\n _subl_tmp = None\n \n _valjkl_minlength = (maxnum_)\n if (maxnum_) > 0 and valjkl_ is not None and len(valjkl_) != (maxnum_):\n raise ValueError(\"Array argument valjkl is not long enough: Is %d, expected %d\" % (len(valjkl_),(maxnum_)))\n if isinstance(valjkl_,numpy.ndarray) and not valjkl_.flags.writeable:\n raise ValueError(\"Argument valjkl must be writable\")\n if valjkl_ is None:\n raise ValueError(\"Argument valjkl may not be None\")\n if isinstance(valjkl_, numpy.ndarray) and valjkl_.dtype is numpy.dtype(numpy.float64) and valjkl_.flags.contiguous:\n _valjkl_copyarray = False\n _valjkl_tmp = ctypes.cast(valjkl_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif valjkl_ is not None:\n _valjkl_copyarray = True\n _valjkl_np_tmp = numpy.zeros(len(valjkl_),numpy.dtype(numpy.float64))\n _valjkl_np_tmp[:] = valjkl_\n assert _valjkl_np_tmp.flags.contiguous\n _valjkl_tmp = ctypes.cast(_valjkl_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _valjkl_copyarray = False\n _valjkl_tmp = None\n \n res = __library__.MSK_XX_getbarcblocktriplet(self.__nativep,maxnum_,ctypes.byref(num_),_subj_tmp,_subk_tmp,_subl_tmp,_valjkl_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n num_ = num_.value\n _num_return_value = num_\n if _subj_copyarray:\n subj_[:] = _subj_np_tmp\n if _subk_copyarray:\n subk_[:] = _subk_np_tmp\n if _subl_copyarray:\n subl_[:] = _subl_np_tmp\n if _valjkl_copyarray:\n valjkl_[:] = _valjkl_np_tmp\n return (_num_return_value)", "def putbarablocktriplet(self,num_,subi,subj,subk,subl,valijkl): # 3\n if subi is None: raise TypeError(\"Invalid type for argument subi\")\n if subi is None:\n subi_ = None\n else:\n try:\n subi_ = memoryview(subi)\n except TypeError:\n try:\n _tmparr_subi = array.array(\"i\",subi)\n except TypeError:\n raise TypeError(\"Argument subi has wrong type\")\n else:\n subi_ = memoryview(_tmparr_subi)\n \n else:\n if subi_.format != \"i\":\n subi_ = memoryview(array.array(\"i\",subi))\n \n if subi_ is not None and len(subi_) != (num_):\n raise ValueError(\"Array argument subi has wrong length\")\n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n \n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n \n if subj_ is not None and len(subj_) != (num_):\n raise ValueError(\"Array argument subj has wrong length\")\n if subk is None: raise TypeError(\"Invalid type for argument subk\")\n if subk is None:\n subk_ = None\n else:\n try:\n subk_ = memoryview(subk)\n except TypeError:\n try:\n _tmparr_subk = array.array(\"i\",subk)\n except TypeError:\n raise TypeError(\"Argument subk has wrong type\")\n else:\n subk_ = memoryview(_tmparr_subk)\n \n else:\n if subk_.format != \"i\":\n subk_ = memoryview(array.array(\"i\",subk))\n \n if subk_ is not None and len(subk_) != (num_):\n raise ValueError(\"Array argument subk has wrong length\")\n if subl is None: raise TypeError(\"Invalid type for argument subl\")\n if subl is None:\n subl_ = None\n else:\n try:\n subl_ = memoryview(subl)\n except TypeError:\n try:\n _tmparr_subl = array.array(\"i\",subl)\n except TypeError:\n raise TypeError(\"Argument subl has wrong type\")\n else:\n subl_ = memoryview(_tmparr_subl)\n \n else:\n if subl_.format != \"i\":\n subl_ = memoryview(array.array(\"i\",subl))\n \n if subl_ is not None and len(subl_) != (num_):\n raise ValueError(\"Array argument subl has wrong length\")\n if valijkl is None: raise TypeError(\"Invalid type for argument valijkl\")\n if valijkl is None:\n valijkl_ = None\n else:\n try:\n valijkl_ = memoryview(valijkl)\n except TypeError:\n try:\n _tmparr_valijkl = array.array(\"d\",valijkl)\n except TypeError:\n raise TypeError(\"Argument valijkl has wrong type\")\n else:\n valijkl_ = memoryview(_tmparr_valijkl)\n \n else:\n if valijkl_.format != \"d\":\n valijkl_ = memoryview(array.array(\"d\",valijkl))\n \n if valijkl_ is not None and len(valijkl_) != (num_):\n raise ValueError(\"Array argument valijkl has wrong length\")\n res = self.__obj.putbarablocktriplet(num_,subi_,subj_,subk_,subl_,valijkl_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbarablocktriplet(self,num_,subi_,subj_,subk_,subl_,valijkl_):\n _subi_minlength = (num_)\n if (num_) > 0 and subi_ is not None and len(subi_) != (num_):\n raise ValueError(\"Array argument subi is not long enough: Is %d, expected %d\" % (len(subi_),(num_)))\n if subi_ is None:\n raise ValueError(\"Argument subi cannot be None\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n _subj_minlength = (num_)\n if (num_) > 0 and subj_ is not None and len(subj_) != (num_):\n raise ValueError(\"Array argument subj is not long enough: Is %d, expected %d\" % (len(subj_),(num_)))\n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n _subk_minlength = (num_)\n if (num_) > 0 and subk_ is not None and len(subk_) != (num_):\n raise ValueError(\"Array argument subk is not long enough: Is %d, expected %d\" % (len(subk_),(num_)))\n if subk_ is None:\n raise ValueError(\"Argument subk cannot be None\")\n if subk_ is None:\n raise ValueError(\"Argument subk may not be None\")\n if isinstance(subk_, numpy.ndarray) and subk_.dtype is numpy.dtype(numpy.int32) and subk_.flags.contiguous:\n _subk_copyarray = False\n _subk_tmp = ctypes.cast(subk_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subk_ is not None:\n _subk_copyarray = True\n _subk_np_tmp = numpy.zeros(len(subk_),numpy.dtype(numpy.int32))\n _subk_np_tmp[:] = subk_\n assert _subk_np_tmp.flags.contiguous\n _subk_tmp = ctypes.cast(_subk_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subk_copyarray = False\n _subk_tmp = None\n \n _subl_minlength = (num_)\n if (num_) > 0 and subl_ is not None and len(subl_) != (num_):\n raise ValueError(\"Array argument subl is not long enough: Is %d, expected %d\" % (len(subl_),(num_)))\n if subl_ is None:\n raise ValueError(\"Argument subl cannot be None\")\n if subl_ is None:\n raise ValueError(\"Argument subl may not be None\")\n if isinstance(subl_, numpy.ndarray) and subl_.dtype is numpy.dtype(numpy.int32) and subl_.flags.contiguous:\n _subl_copyarray = False\n _subl_tmp = ctypes.cast(subl_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subl_ is not None:\n _subl_copyarray = True\n _subl_np_tmp = numpy.zeros(len(subl_),numpy.dtype(numpy.int32))\n _subl_np_tmp[:] = subl_\n assert _subl_np_tmp.flags.contiguous\n _subl_tmp = ctypes.cast(_subl_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subl_copyarray = False\n _subl_tmp = None\n \n _valijkl_minlength = (num_)\n if (num_) > 0 and valijkl_ is not None and len(valijkl_) != (num_):\n raise ValueError(\"Array argument valijkl is not long enough: Is %d, expected %d\" % (len(valijkl_),(num_)))\n if valijkl_ is None:\n raise ValueError(\"Argument valijkl cannot be None\")\n if valijkl_ is None:\n raise ValueError(\"Argument valijkl may not be None\")\n if isinstance(valijkl_, numpy.ndarray) and valijkl_.dtype is numpy.dtype(numpy.float64) and valijkl_.flags.contiguous:\n _valijkl_copyarray = False\n _valijkl_tmp = ctypes.cast(valijkl_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif valijkl_ is not None:\n _valijkl_copyarray = True\n _valijkl_np_tmp = numpy.zeros(len(valijkl_),numpy.dtype(numpy.float64))\n _valijkl_np_tmp[:] = valijkl_\n assert _valijkl_np_tmp.flags.contiguous\n _valijkl_tmp = ctypes.cast(_valijkl_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _valijkl_copyarray = False\n _valijkl_tmp = None\n \n res = __library__.MSK_XX_putbarablocktriplet(self.__nativep,num_,_subi_tmp,_subj_tmp,_subk_tmp,_subl_tmp,_valijkl_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getbarablocktriplet(self,subi,subj,subk,subl,valijkl): # 3\n maxnum_ = self.getnumbarablocktriplets()\n if subi is None: raise TypeError(\"Invalid type for argument subi\")\n _copyback_subi = False\n if subi is None:\n subi_ = None\n else:\n try:\n subi_ = memoryview(subi)\n except TypeError:\n try:\n _tmparr_subi = array.array(\"i\",subi)\n except TypeError:\n raise TypeError(\"Argument subi has wrong type\")\n else:\n subi_ = memoryview(_tmparr_subi)\n _copyback_subi = True\n else:\n if subi_.format != \"i\":\n subi_ = memoryview(array.array(\"i\",subi))\n _copyback_subi = True\n if subi_ is not None and len(subi_) != (maxnum_):\n raise ValueError(\"Array argument subi has wrong length\")\n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n _copyback_subj = False\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n _copyback_subj = True\n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n _copyback_subj = True\n if subj_ is not None and len(subj_) != (maxnum_):\n raise ValueError(\"Array argument subj has wrong length\")\n if subk is None: raise TypeError(\"Invalid type for argument subk\")\n _copyback_subk = False\n if subk is None:\n subk_ = None\n else:\n try:\n subk_ = memoryview(subk)\n except TypeError:\n try:\n _tmparr_subk = array.array(\"i\",subk)\n except TypeError:\n raise TypeError(\"Argument subk has wrong type\")\n else:\n subk_ = memoryview(_tmparr_subk)\n _copyback_subk = True\n else:\n if subk_.format != \"i\":\n subk_ = memoryview(array.array(\"i\",subk))\n _copyback_subk = True\n if subk_ is not None and len(subk_) != (maxnum_):\n raise ValueError(\"Array argument subk has wrong length\")\n if subl is None: raise TypeError(\"Invalid type for argument subl\")\n _copyback_subl = False\n if subl is None:\n subl_ = None\n else:\n try:\n subl_ = memoryview(subl)\n except TypeError:\n try:\n _tmparr_subl = array.array(\"i\",subl)\n except TypeError:\n raise TypeError(\"Argument subl has wrong type\")\n else:\n subl_ = memoryview(_tmparr_subl)\n _copyback_subl = True\n else:\n if subl_.format != \"i\":\n subl_ = memoryview(array.array(\"i\",subl))\n _copyback_subl = True\n if subl_ is not None and len(subl_) != (maxnum_):\n raise ValueError(\"Array argument subl has wrong length\")\n if valijkl is None: raise TypeError(\"Invalid type for argument valijkl\")\n _copyback_valijkl = False\n if valijkl is None:\n valijkl_ = None\n else:\n try:\n valijkl_ = memoryview(valijkl)\n except TypeError:\n try:\n _tmparr_valijkl = array.array(\"d\",valijkl)\n except TypeError:\n raise TypeError(\"Argument valijkl has wrong type\")\n else:\n valijkl_ = memoryview(_tmparr_valijkl)\n _copyback_valijkl = True\n else:\n if valijkl_.format != \"d\":\n valijkl_ = memoryview(array.array(\"d\",valijkl))\n _copyback_valijkl = True\n if valijkl_ is not None and len(valijkl_) != (maxnum_):\n raise ValueError(\"Array argument valijkl has wrong length\")\n res,resargs = self.__obj.getbarablocktriplet(maxnum_,subi_,subj_,subk_,subl_,valijkl_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _num_return_value = resargs\n if _copyback_valijkl:\n valijkl[:] = _tmparr_valijkl\n if _copyback_subl:\n subl[:] = _tmparr_subl\n if _copyback_subk:\n subk[:] = _tmparr_subk\n if _copyback_subj:\n subj[:] = _tmparr_subj\n if _copyback_subi:\n subi[:] = _tmparr_subi\n return _num_return_value", "def getbarablocktriplet(self,subi_,subj_,subk_,subl_,valijkl_):\n maxnum_ = self.getnumbarablocktriplets()\n num_ = ctypes.c_int64()\n _subi_minlength = (maxnum_)\n if (maxnum_) > 0 and subi_ is not None and len(subi_) != (maxnum_):\n raise ValueError(\"Array argument subi is not long enough: Is %d, expected %d\" % (len(subi_),(maxnum_)))\n if isinstance(subi_,numpy.ndarray) and not subi_.flags.writeable:\n raise ValueError(\"Argument subi must be writable\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n _subj_minlength = (maxnum_)\n if (maxnum_) > 0 and subj_ is not None and len(subj_) != (maxnum_):\n raise ValueError(\"Array argument subj is not long enough: Is %d, expected %d\" % (len(subj_),(maxnum_)))\n if isinstance(subj_,numpy.ndarray) and not subj_.flags.writeable:\n raise ValueError(\"Argument subj must be writable\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n _subk_minlength = (maxnum_)\n if (maxnum_) > 0 and subk_ is not None and len(subk_) != (maxnum_):\n raise ValueError(\"Array argument subk is not long enough: Is %d, expected %d\" % (len(subk_),(maxnum_)))\n if isinstance(subk_,numpy.ndarray) and not subk_.flags.writeable:\n raise ValueError(\"Argument subk must be writable\")\n if subk_ is None:\n raise ValueError(\"Argument subk may not be None\")\n if isinstance(subk_, numpy.ndarray) and subk_.dtype is numpy.dtype(numpy.int32) and subk_.flags.contiguous:\n _subk_copyarray = False\n _subk_tmp = ctypes.cast(subk_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subk_ is not None:\n _subk_copyarray = True\n _subk_np_tmp = numpy.zeros(len(subk_),numpy.dtype(numpy.int32))\n _subk_np_tmp[:] = subk_\n assert _subk_np_tmp.flags.contiguous\n _subk_tmp = ctypes.cast(_subk_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subk_copyarray = False\n _subk_tmp = None\n \n _subl_minlength = (maxnum_)\n if (maxnum_) > 0 and subl_ is not None and len(subl_) != (maxnum_):\n raise ValueError(\"Array argument subl is not long enough: Is %d, expected %d\" % (len(subl_),(maxnum_)))\n if isinstance(subl_,numpy.ndarray) and not subl_.flags.writeable:\n raise ValueError(\"Argument subl must be writable\")\n if subl_ is None:\n raise ValueError(\"Argument subl may not be None\")\n if isinstance(subl_, numpy.ndarray) and subl_.dtype is numpy.dtype(numpy.int32) and subl_.flags.contiguous:\n _subl_copyarray = False\n _subl_tmp = ctypes.cast(subl_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subl_ is not None:\n _subl_copyarray = True\n _subl_np_tmp = numpy.zeros(len(subl_),numpy.dtype(numpy.int32))\n _subl_np_tmp[:] = subl_\n assert _subl_np_tmp.flags.contiguous\n _subl_tmp = ctypes.cast(_subl_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subl_copyarray = False\n _subl_tmp = None\n \n _valijkl_minlength = (maxnum_)\n if (maxnum_) > 0 and valijkl_ is not None and len(valijkl_) != (maxnum_):\n raise ValueError(\"Array argument valijkl is not long enough: Is %d, expected %d\" % (len(valijkl_),(maxnum_)))\n if isinstance(valijkl_,numpy.ndarray) and not valijkl_.flags.writeable:\n raise ValueError(\"Argument valijkl must be writable\")\n if valijkl_ is None:\n raise ValueError(\"Argument valijkl may not be None\")\n if isinstance(valijkl_, numpy.ndarray) and valijkl_.dtype is numpy.dtype(numpy.float64) and valijkl_.flags.contiguous:\n _valijkl_copyarray = False\n _valijkl_tmp = ctypes.cast(valijkl_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif valijkl_ is not None:\n _valijkl_copyarray = True\n _valijkl_np_tmp = numpy.zeros(len(valijkl_),numpy.dtype(numpy.float64))\n _valijkl_np_tmp[:] = valijkl_\n assert _valijkl_np_tmp.flags.contiguous\n _valijkl_tmp = ctypes.cast(_valijkl_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _valijkl_copyarray = False\n _valijkl_tmp = None\n \n res = __library__.MSK_XX_getbarablocktriplet(self.__nativep,maxnum_,ctypes.byref(num_),_subi_tmp,_subj_tmp,_subk_tmp,_subl_tmp,_valijkl_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n num_ = num_.value\n _num_return_value = num_\n if _subi_copyarray:\n subi_[:] = _subi_np_tmp\n if _subj_copyarray:\n subj_[:] = _subj_np_tmp\n if _subk_copyarray:\n subk_[:] = _subk_np_tmp\n if _subl_copyarray:\n subl_[:] = _subl_np_tmp\n if _valijkl_copyarray:\n valijkl_[:] = _valijkl_np_tmp\n return (_num_return_value)", "def putbarcj(self,j_,sub,weights): # 3\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(weights)\n elif num_ != len(weights):\n raise IndexError(\"Inconsistent length of array weights\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"q\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"q\":\n sub_ = memoryview(array.array(\"q\",sub))\n \n if weights is None: raise TypeError(\"Invalid type for argument weights\")\n if weights is None:\n weights_ = None\n else:\n try:\n weights_ = memoryview(weights)\n except TypeError:\n try:\n _tmparr_weights = array.array(\"d\",weights)\n except TypeError:\n raise TypeError(\"Argument weights has wrong type\")\n else:\n weights_ = memoryview(_tmparr_weights)\n \n else:\n if weights_.format != \"d\":\n weights_ = memoryview(array.array(\"d\",weights))\n \n res = self.__obj.putbarcj(j_,num_,sub_,weights_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def set_bc(self, problem):\n bcs = problem.bcs\n n_bound = cfg.const['N_GHOST_CELLS']\n # Left X-b.c.\n for i in range(0, self.i_min):\n for j in range(self.j_min, self.j_max):\n for k in range(self.k_min, self.k_max): \n if bcs[0] == 't': \n self.U[i][j][k] = self.U[self.i_min][j][k]\n elif bcs[0] == 'w':\n for num in [0, 2, 3, 4]: # 0 -> 3, 1 -> 2, i_min-1 -> i_min, i_min-2 -> i_min+1\n self.U[i][j][k][num] = self.U[self.i_min + (self.i_min - i - 1)][j][k][num]\n for num in [1]:\n self.U[i][j][k][num] = - self.U[self.i_min + (self.i_min - i - 1)][j][k][num]\n else:\n print(\"Errof field.set_ics(): only wall-type and transmissive boundaries supported! Bye!\")\n # Right X-b.c.\n for i in range(self.i_max, self.i_max+n_bound):\n for j in range(self.j_min, self.j_max):\n for k in range(self.k_min, self.k_max): \n if bcs[1] == 't':\n self.U[i][j][k] = self.U[self.i_max-1][j][k]\n elif bcs[1] == 'w':\n for num in [0, 2, 3, 4]: # i_max -> i_max-1 , i_max+1-> i_max-2\n self.U[i][j][k][num] = self.U[self.i_max - (i - self.i_max + 1)][j][k][num]\n for num in [1]:\n self.U[i][j][k][num] = - self.U[self.i_max - (i - self.i_max + 1)][j][k][num]\n else:\n print(\"Error field.set_ics(): only wall-type and transmissive boundaries supported! Bye!\")\n # Left Y-b.c.\n for i in range(0, self.i_max+n_bound):\n for j in range(0, self.j_min):\n for k in range(self.k_min, self.k_max): \n if bcs[2] == 't':\n self.U[i][j][k] = self.U[i][self.j_min][k]\n elif bcs[2] == 'w':\n for num in [0, 1, 3, 4]:\n self.U[i][j][k][num] = self.U[i][self.j_min + (self.j_min - j - 1)][k][num]\n for num in [2]:\n self.U[i][j][k][num] = - self.U[i][self.j_min + (self.j_min - j - 1)][k][num]\n else:\n print(\"Error field.set_ics(): only wall-type and transmissive boundaries supported! Bye!\")\n # Right Y-b.c.\n for i in range(0, self.i_max+n_bound):\n for j in range(self.j_max, self.j_max+n_bound):\n for k in range(self.k_min, self.k_max): \n if bcs[3] == 't':\n self.U[i][j][k] = self.U[i][self.j_max-1][k]\n elif bcs[3] == 'w':\n for num in [0, 1, 3, 4]:\n self.U[i][j][k][num] = self.U[i][self.j_max - (j - self.j_max + 1)][k][num]\n for num in [2]:\n self.U[i][j][k][num] = -self.U[i][self.j_max - (j - self.j_max + 1)][k][num]\n else:\n print(\"Error field.set_ics(): only wall-type and transmissive boundaries supported! Bye!\")\n # Left Z-b.c.\n for i in range(0, self.i_max+n_bound):\n for j in range(0, self.j_max+n_bound):\n for k in range(0, self.k_min): \n if bcs[4] == 't':\n self.U[i][j][k] = self.U[i][j][self.k_min]\n elif bcs[4] == 'w':\n for num in [0, 1, 2, 4]:\n self.U[i][j][k][num] = self.U[i][j][self.k_min + (self.k_min - k - 1)][num]\n for num in [3]:\n self.U[i][j][k][num] = - self.U[i][j][self.k_min + (self.k_min - k - 1)][num]\n else:\n print(\"Error field.set_ics(): only wall-type and transmissive boundaries supported! Bye!\")\n # Right Z-b.c.\n for i in range(0, self.i_max+n_bound):\n for j in range(0, self.j_max+n_bound):\n for k in range(self.k_max, self.k_max+n_bound):\n if bcs[5] == 't':\n self.U[i][j][k] = self.U[i][j][self.k_max-1]\n elif bcs[5] == 'w':\n for num in [0, 1, 2, 4]:\n self.U[i][j][k][num] = self.U[i][j][self.k_max - (k - self.k_max + 1)][num]\n for num in [3]:\n self.U[i][j][k][num] = - self.U[i][j][self.k_max - (k - self.k_max + 1)][num]\n else:\n print(\"Error field.set_ics(): only wall-type and transmissive boundaries supported! Bye!\")", "def putbarcj(self,j_,sub_,weights_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(weights_)\n elif num_ != len(weights_):\n raise IndexError(\"Inconsistent length of array weights\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int64) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int64))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n if weights_ is None:\n raise ValueError(\"Argument weights cannot be None\")\n if weights_ is None:\n raise ValueError(\"Argument weights may not be None\")\n if isinstance(weights_, numpy.ndarray) and weights_.dtype is numpy.dtype(numpy.float64) and weights_.flags.contiguous:\n _weights_copyarray = False\n _weights_tmp = ctypes.cast(weights_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif weights_ is not None:\n _weights_copyarray = True\n _weights_np_tmp = numpy.zeros(len(weights_),numpy.dtype(numpy.float64))\n _weights_np_tmp[:] = weights_\n assert _weights_np_tmp.flags.contiguous\n _weights_tmp = ctypes.cast(_weights_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _weights_copyarray = False\n _weights_tmp = None\n \n res = __library__.MSK_XX_putbarcj(self.__nativep,j_,num_,_sub_tmp,_weights_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def create(self, transect, units,\r\n cb=False, cb_bt=None, cb_gga=None, cb_vtg=None):\r\n\r\n # Assign and save parameters\r\n self.units = units\r\n self.cb = cb\r\n self.cb_bt = cb_bt\r\n self.cb_gga = cb_gga\r\n self.cb_vtg = cb_vtg\r\n\r\n # Check the checkbox to determine what should be shown in the plot\r\n control = self.checkbox_control(transect)\r\n\r\n # Clear the plot\r\n self.fig.clear()\r\n\r\n # Configure axis\r\n self.fig.ax = self.fig.add_subplot(1, 1, 1)\r\n\r\n # Set margins and padding for figure\r\n self.fig.subplots_adjust(left=0.08, bottom=0.2, right=0.98, top=0.98, wspace=0.1, hspace=0)\r\n self.fig.ax.set_xlabel(self.canvas.tr('Ensembles'))\r\n self.fig.ax.set_ylabel(self.canvas.tr('Boat speed' + units['label_V']))\r\n self.fig.ax.grid()\r\n self.fig.ax.xaxis.label.set_fontsize(12)\r\n self.fig.ax.yaxis.label.set_fontsize(12)\r\n self.fig.ax.tick_params(axis='both', direction='in', bottom=True, top=True, left=True, right=True)\r\n\r\n # Initialize max trackers\r\n max_gga = np.nan\r\n max_vtg = np.nan\r\n\r\n ensembles = np.arange(1, len(transect.boat_vel.bt_vel.u_mps) + 1)\r\n\r\n # Plot bottom track boat speed\r\n speed = np.sqrt(transect.boat_vel.bt_vel.u_processed_mps ** 2 + transect.boat_vel.bt_vel.v_processed_mps ** 2)\r\n self.bt = self.fig.ax.plot(ensembles, speed * units['V'], 'r-')\r\n\r\n # Plot invalid data points using a symbol to represent what caused the data to be invalid\r\n invalid_bt = np.logical_not(transect.boat_vel.bt_vel.valid_data)\r\n if invalid_bt is not None:\r\n speed = np.sqrt(\r\n transect.boat_vel.bt_vel.u_mps ** 2 + transect.boat_vel.bt_vel.v_mps ** 2)\r\n speed[np.isnan(speed)] = 0\r\n self.bt.append(self.fig.ax.plot(ensembles[invalid_bt[1]], speed[invalid_bt[1]] * units['V'],\r\n 'k', linestyle='', marker='$O$')[0])\r\n self.bt.append(self.fig.ax.plot(ensembles[invalid_bt[2]], speed[invalid_bt[2]] * units['V'],\r\n 'k', linestyle='', marker='$E$')[0])\r\n self.bt.append(self.fig.ax.plot(ensembles[invalid_bt[3]], speed[invalid_bt[3]] * units['V'],\r\n 'k', linestyle='', marker='$V$')[0])\r\n self.bt.append(self.fig.ax.plot(ensembles[invalid_bt[4]], speed[invalid_bt[4]] * units['V'],\r\n 'k', linestyle='', marker='$S$')[0])\r\n self.bt.append(self.fig.ax.plot(ensembles[invalid_bt[5]], speed[invalid_bt[5]] * units['V'],\r\n 'k', linestyle='', marker='$B$')[0])\r\n\r\n max_bt = np.nanmax(speed)\r\n\r\n # Based on checkbox control make bt visible or not\r\n if control['bt']:\r\n for item in self.bt:\r\n item.set_visible(True)\r\n else:\r\n for item in self.bt:\r\n item.set_visible(False)\r\n\r\n # Plot VTG boat speed\r\n if transect.boat_vel.vtg_vel is not None:\r\n speed = np.sqrt(\r\n transect.boat_vel.vtg_vel.u_processed_mps ** 2 + transect.boat_vel.vtg_vel.v_processed_mps ** 2)\r\n self.vtg = self.fig.ax.plot(ensembles, speed * units['V'], 'g-')\r\n\r\n # Plot invalid data points using a symbol to represent what caused the data to be invalid\r\n invalid_gps = np.logical_not(transect.boat_vel.vtg_vel.valid_data)\r\n # if invalid_gps is not None:\r\n if 0 < np.sum(invalid_gps[0, :]) < invalid_gps.shape[1]:\r\n speed = np.sqrt(\r\n transect.boat_vel.vtg_vel.u_mps ** 2 + transect.boat_vel.vtg_vel.v_mps ** 2)\r\n speed[np.isnan(speed)] = 0\r\n self.vtg.append(self.fig.ax.plot(ensembles[invalid_gps[1]], speed[invalid_gps[1]] * units['V'],\r\n 'k', linestyle='', marker='$O$')[0])\r\n self.vtg.append(self.fig.ax.plot(ensembles[invalid_gps[5]], speed[invalid_gps[5]] * units['V'],\r\n 'k', linestyle='', marker='$H$')[0])\r\n self.vtg.append(self.fig.ax.plot(ensembles[invalid_gps[4]], speed[invalid_gps[4]] * units['V'],\r\n 'k', linestyle='', marker='$S$')[0])\r\n\r\n max_vtg = np.nanmax(speed)\r\n if control['vtg']:\r\n for item in self.vtg:\r\n item.set_visible(True)\r\n else:\r\n for item in self.vtg:\r\n item.set_visible(False)\r\n\r\n # Plot GGA boat speed\r\n if transect.boat_vel.gga_vel is not None:\r\n speed = np.sqrt(\r\n transect.boat_vel.gga_vel.u_processed_mps ** 2 + transect.boat_vel.gga_vel.v_processed_mps ** 2)\r\n self.gga = self.fig.ax.plot(ensembles, speed * units['V'], 'b-')\r\n\r\n # Plot invalid data points using a symbol to represent what caused the data to be invalid\r\n invalid_gps = np.logical_not(transect.boat_vel.gga_vel.valid_data)\r\n if 0 < np.sum(invalid_gps[0, :]) < invalid_gps.shape[1]:\r\n speed = np.sqrt(\r\n transect.boat_vel.gga_vel.u_mps ** 2 + transect.boat_vel.gga_vel.v_mps ** 2)\r\n speed[np.isnan(speed)] = 0\r\n self.gga.append(self.fig.ax.plot(ensembles[invalid_gps[1]], speed[invalid_gps[1]] * units['V'],\r\n 'k', linestyle='', marker='$O$')[0])\r\n self.gga.append(self.fig.ax.plot(ensembles[invalid_gps[2]], speed[invalid_gps[2]] * units['V'],\r\n 'k', linestyle='', marker='$Q$')[0])\r\n self.gga.append(self.fig.ax.plot(ensembles[invalid_gps[3]], speed[invalid_gps[3]] * units['V'],\r\n 'k', linestyle='', marker='$A$')[0])\r\n self.gga.append(self.fig.ax.plot(ensembles[invalid_gps[5]], speed[invalid_gps[5]] * units['V'],\r\n 'k', linestyle='', marker='$H$')[0])\r\n self.gga.append(self.fig.ax.plot(ensembles[invalid_gps[4]], speed[invalid_gps[4]] * units['V'],\r\n 'k', linestyle='', marker='$S$')[0])\r\n\r\n max_gga = np.nanmax(speed)\r\n if control['gga']:\r\n for item in self.gga:\r\n item.set_visible(True)\r\n else:\r\n for item in self.gga:\r\n item.set_visible(False)\r\n\r\n # Set axis limits\r\n max_y = np.nanmax([max_bt, max_gga, max_vtg]) * 1.1\r\n self.fig.ax.set_ylim(top=np.ceil(max_y * units['L']), bottom=-0.5)\r\n self.fig.ax.set_xlim(left=-1 * ensembles[-1] * 0.02, right=ensembles[-1] * 1.02)\r\n\r\n if transect.start_edge == 'Right':\r\n self.fig.ax.invert_xaxis()\r\n self.fig.ax.set_xlim(right=-1 * ensembles[-1] * 0.02, left=ensembles[-1] * 1.02)\r\n\r\n # Initialize annotation for data cursor\r\n self.annot = self.fig.ax.annotate(\"\", xy=(0, 0), xytext=(-20, 20), textcoords=\"offset points\",\r\n bbox=dict(boxstyle=\"round\", fc=\"w\"),\r\n arrowprops=dict(arrowstyle=\"->\"))\r\n\r\n self.annot.set_visible(False)\r\n\r\n self.canvas.draw()", "def ucell(self, a_scale, c_scale):\n # Set the ideal constants based on a_fcc and a_bcc\n a_0 = self.a_fcc * 2**0.5 / 2\n c_0 = self.a_fcc\n a_1 = c_1 = self.a_bcc\n \n # Compute the bct lattice constants using the scale parameters\n a = a_0 * (1 - a_scale) + a_1 * a_scale\n c = c_0 * (1 - c_scale) + c_1 * c_scale\n \n # Generate box, atoms and system for the bct unit cell\n box = am.Box().tetragonal(a=a, c=c)\n atoms = am.Atoms(pos=[[0.0, 0.0, 0.0], [0.5, 0.5, 0.5]])\n ucell = am.System(atoms=atoms, box=box, symbols=self.symbol, scale=True)\n \n return ucell", "def putbaraij(self,i_,j_,sub,weights): # 3\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(weights)\n elif num_ != len(weights):\n raise IndexError(\"Inconsistent length of array weights\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"q\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"q\":\n sub_ = memoryview(array.array(\"q\",sub))\n \n if weights is None: raise TypeError(\"Invalid type for argument weights\")\n if weights is None:\n weights_ = None\n else:\n try:\n weights_ = memoryview(weights)\n except TypeError:\n try:\n _tmparr_weights = array.array(\"d\",weights)\n except TypeError:\n raise TypeError(\"Argument weights has wrong type\")\n else:\n weights_ = memoryview(_tmparr_weights)\n \n else:\n if weights_.format != \"d\":\n weights_ = memoryview(array.array(\"d\",weights))\n \n res = self.__obj.putbaraij(i_,j_,num_,sub_,weights_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbararowlist(self,subi_,ptrb_,ptre_,subj_,nummat_,matidx_,weights_):\n num_ = None\n if num_ is None:\n num_ = len(subi_)\n elif num_ != len(subi_):\n raise IndexError(\"Inconsistent length of array subi\")\n if num_ is None:\n num_ = len(ptrb_)\n elif num_ != len(ptrb_):\n raise IndexError(\"Inconsistent length of array ptrb\")\n if num_ is None:\n num_ = len(ptre_)\n elif num_ != len(ptre_):\n raise IndexError(\"Inconsistent length of array ptre\")\n if subi_ is None:\n raise ValueError(\"Argument subi cannot be None\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n if ptrb_ is None:\n raise ValueError(\"Argument ptrb cannot be None\")\n if ptrb_ is None:\n raise ValueError(\"Argument ptrb may not be None\")\n if isinstance(ptrb_, numpy.ndarray) and ptrb_.dtype is numpy.dtype(numpy.int64) and ptrb_.flags.contiguous:\n _ptrb_copyarray = False\n _ptrb_tmp = ctypes.cast(ptrb_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptrb_ is not None:\n _ptrb_copyarray = True\n _ptrb_np_tmp = numpy.zeros(len(ptrb_),numpy.dtype(numpy.int64))\n _ptrb_np_tmp[:] = ptrb_\n assert _ptrb_np_tmp.flags.contiguous\n _ptrb_tmp = ctypes.cast(_ptrb_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptrb_copyarray = False\n _ptrb_tmp = None\n \n if ptre_ is None:\n raise ValueError(\"Argument ptre cannot be None\")\n if ptre_ is None:\n raise ValueError(\"Argument ptre may not be None\")\n if isinstance(ptre_, numpy.ndarray) and ptre_.dtype is numpy.dtype(numpy.int64) and ptre_.flags.contiguous:\n _ptre_copyarray = False\n _ptre_tmp = ctypes.cast(ptre_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptre_ is not None:\n _ptre_copyarray = True\n _ptre_np_tmp = numpy.zeros(len(ptre_),numpy.dtype(numpy.int64))\n _ptre_np_tmp[:] = ptre_\n assert _ptre_np_tmp.flags.contiguous\n _ptre_tmp = ctypes.cast(_ptre_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptre_copyarray = False\n _ptre_tmp = None\n \n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n _nummat_minlength = len((subj_))\n if len((subj_)) > 0 and nummat_ is not None and len(nummat_) != len((subj_)):\n raise ValueError(\"Array argument nummat is not long enough: Is %d, expected %d\" % (len(nummat_),len((subj_))))\n if nummat_ is None:\n raise ValueError(\"Argument nummat cannot be None\")\n if nummat_ is None:\n raise ValueError(\"Argument nummat may not be None\")\n if isinstance(nummat_, numpy.ndarray) and nummat_.dtype is numpy.dtype(numpy.int64) and nummat_.flags.contiguous:\n _nummat_copyarray = False\n _nummat_tmp = ctypes.cast(nummat_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif nummat_ is not None:\n _nummat_copyarray = True\n _nummat_np_tmp = numpy.zeros(len(nummat_),numpy.dtype(numpy.int64))\n _nummat_np_tmp[:] = nummat_\n assert _nummat_np_tmp.flags.contiguous\n _nummat_tmp = ctypes.cast(_nummat_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _nummat_copyarray = False\n _nummat_tmp = None\n \n _matidx_minlength = sum((nummat_))\n if sum((nummat_)) > 0 and matidx_ is not None and len(matidx_) != sum((nummat_)):\n raise ValueError(\"Array argument matidx is not long enough: Is %d, expected %d\" % (len(matidx_),sum((nummat_))))\n if matidx_ is None:\n raise ValueError(\"Argument matidx cannot be None\")\n if matidx_ is None:\n raise ValueError(\"Argument matidx may not be None\")\n if isinstance(matidx_, numpy.ndarray) and matidx_.dtype is numpy.dtype(numpy.int64) and matidx_.flags.contiguous:\n _matidx_copyarray = False\n _matidx_tmp = ctypes.cast(matidx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif matidx_ is not None:\n _matidx_copyarray = True\n _matidx_np_tmp = numpy.zeros(len(matidx_),numpy.dtype(numpy.int64))\n _matidx_np_tmp[:] = matidx_\n assert _matidx_np_tmp.flags.contiguous\n _matidx_tmp = ctypes.cast(_matidx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _matidx_copyarray = False\n _matidx_tmp = None\n \n _weights_minlength = sum((nummat_))\n if sum((nummat_)) > 0 and weights_ is not None and len(weights_) != sum((nummat_)):\n raise ValueError(\"Array argument weights is not long enough: Is %d, expected %d\" % (len(weights_),sum((nummat_))))\n if weights_ is None:\n raise ValueError(\"Argument weights cannot be None\")\n if weights_ is None:\n raise ValueError(\"Argument weights may not be None\")\n if isinstance(weights_, numpy.ndarray) and weights_.dtype is numpy.dtype(numpy.float64) and weights_.flags.contiguous:\n _weights_copyarray = False\n _weights_tmp = ctypes.cast(weights_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif weights_ is not None:\n _weights_copyarray = True\n _weights_np_tmp = numpy.zeros(len(weights_),numpy.dtype(numpy.float64))\n _weights_np_tmp[:] = weights_\n assert _weights_np_tmp.flags.contiguous\n _weights_tmp = ctypes.cast(_weights_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _weights_copyarray = False\n _weights_tmp = None\n \n res = __library__.MSK_XX_putbararowlist(self.__nativep,num_,_subi_tmp,_ptrb_tmp,_ptre_tmp,_subj_tmp,_nummat_tmp,_matidx_tmp,_weights_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconboundlist(self,sub_,bkc_,blc_,buc_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(bkc_)\n elif num_ != len(bkc_):\n raise IndexError(\"Inconsistent length of array bkc\")\n if num_ is None:\n num_ = len(blc_)\n elif num_ != len(blc_):\n raise IndexError(\"Inconsistent length of array blc\")\n if num_ is None:\n num_ = len(buc_)\n elif num_ != len(buc_):\n raise IndexError(\"Inconsistent length of array buc\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n if bkc_ is None:\n raise ValueError(\"Argument bkc cannot be None\")\n if bkc_ is None:\n raise ValueError(\"Argument bkc may not be None\")\n if bkc_ is not None:\n _bkc_tmp = (ctypes.c_int32 * len(bkc_))(*bkc_)\n else:\n _bkc_tmp = None\n if blc_ is None:\n raise ValueError(\"Argument blc cannot be None\")\n if blc_ is None:\n raise ValueError(\"Argument blc may not be None\")\n if isinstance(blc_, numpy.ndarray) and blc_.dtype is numpy.dtype(numpy.float64) and blc_.flags.contiguous:\n _blc_copyarray = False\n _blc_tmp = ctypes.cast(blc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif blc_ is not None:\n _blc_copyarray = True\n _blc_np_tmp = numpy.zeros(len(blc_),numpy.dtype(numpy.float64))\n _blc_np_tmp[:] = blc_\n assert _blc_np_tmp.flags.contiguous\n _blc_tmp = ctypes.cast(_blc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _blc_copyarray = False\n _blc_tmp = None\n \n if buc_ is None:\n raise ValueError(\"Argument buc cannot be None\")\n if buc_ is None:\n raise ValueError(\"Argument buc may not be None\")\n if isinstance(buc_, numpy.ndarray) and buc_.dtype is numpy.dtype(numpy.float64) and buc_.flags.contiguous:\n _buc_copyarray = False\n _buc_tmp = ctypes.cast(buc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif buc_ is not None:\n _buc_copyarray = True\n _buc_np_tmp = numpy.zeros(len(buc_),numpy.dtype(numpy.float64))\n _buc_np_tmp[:] = buc_\n assert _buc_np_tmp.flags.contiguous\n _buc_tmp = ctypes.cast(_buc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _buc_copyarray = False\n _buc_tmp = None\n \n res = __library__.MSK_XX_putconboundlist(self.__nativep,num_,_sub_tmp,_bkc_tmp,_blc_tmp,_buc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbaraijlist(self,subi_,subj_,alphaptrb_,alphaptre_,matidx_,weights_):\n num_ = None\n if num_ is None:\n num_ = len(subi_)\n elif num_ != len(subi_):\n raise IndexError(\"Inconsistent length of array subi\")\n if num_ is None:\n num_ = len(subj_)\n elif num_ != len(subj_):\n raise IndexError(\"Inconsistent length of array subj\")\n if num_ is None:\n num_ = len(alphaptrb_)\n elif num_ != len(alphaptrb_):\n raise IndexError(\"Inconsistent length of array alphaptrb\")\n if num_ is None:\n num_ = len(alphaptre_)\n elif num_ != len(alphaptre_):\n raise IndexError(\"Inconsistent length of array alphaptre\")\n if subi_ is None:\n raise ValueError(\"Argument subi cannot be None\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n if alphaptrb_ is None:\n raise ValueError(\"Argument alphaptrb cannot be None\")\n if alphaptrb_ is None:\n raise ValueError(\"Argument alphaptrb may not be None\")\n if isinstance(alphaptrb_, numpy.ndarray) and alphaptrb_.dtype is numpy.dtype(numpy.int64) and alphaptrb_.flags.contiguous:\n _alphaptrb_copyarray = False\n _alphaptrb_tmp = ctypes.cast(alphaptrb_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif alphaptrb_ is not None:\n _alphaptrb_copyarray = True\n _alphaptrb_np_tmp = numpy.zeros(len(alphaptrb_),numpy.dtype(numpy.int64))\n _alphaptrb_np_tmp[:] = alphaptrb_\n assert _alphaptrb_np_tmp.flags.contiguous\n _alphaptrb_tmp = ctypes.cast(_alphaptrb_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _alphaptrb_copyarray = False\n _alphaptrb_tmp = None\n \n if alphaptre_ is None:\n raise ValueError(\"Argument alphaptre cannot be None\")\n if alphaptre_ is None:\n raise ValueError(\"Argument alphaptre may not be None\")\n if isinstance(alphaptre_, numpy.ndarray) and alphaptre_.dtype is numpy.dtype(numpy.int64) and alphaptre_.flags.contiguous:\n _alphaptre_copyarray = False\n _alphaptre_tmp = ctypes.cast(alphaptre_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif alphaptre_ is not None:\n _alphaptre_copyarray = True\n _alphaptre_np_tmp = numpy.zeros(len(alphaptre_),numpy.dtype(numpy.int64))\n _alphaptre_np_tmp[:] = alphaptre_\n assert _alphaptre_np_tmp.flags.contiguous\n _alphaptre_tmp = ctypes.cast(_alphaptre_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _alphaptre_copyarray = False\n _alphaptre_tmp = None\n \n if matidx_ is None:\n raise ValueError(\"Argument matidx cannot be None\")\n if matidx_ is None:\n raise ValueError(\"Argument matidx may not be None\")\n if isinstance(matidx_, numpy.ndarray) and matidx_.dtype is numpy.dtype(numpy.int64) and matidx_.flags.contiguous:\n _matidx_copyarray = False\n _matidx_tmp = ctypes.cast(matidx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif matidx_ is not None:\n _matidx_copyarray = True\n _matidx_np_tmp = numpy.zeros(len(matidx_),numpy.dtype(numpy.int64))\n _matidx_np_tmp[:] = matidx_\n assert _matidx_np_tmp.flags.contiguous\n _matidx_tmp = ctypes.cast(_matidx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _matidx_copyarray = False\n _matidx_tmp = None\n \n if weights_ is None:\n raise ValueError(\"Argument weights cannot be None\")\n if weights_ is None:\n raise ValueError(\"Argument weights may not be None\")\n if isinstance(weights_, numpy.ndarray) and weights_.dtype is numpy.dtype(numpy.float64) and weights_.flags.contiguous:\n _weights_copyarray = False\n _weights_tmp = ctypes.cast(weights_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif weights_ is not None:\n _weights_copyarray = True\n _weights_np_tmp = numpy.zeros(len(weights_),numpy.dtype(numpy.float64))\n _weights_np_tmp[:] = weights_\n assert _weights_np_tmp.flags.contiguous\n _weights_tmp = ctypes.cast(_weights_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _weights_copyarray = False\n _weights_tmp = None\n \n res = __library__.MSK_XX_putbaraijlist(self.__nativep,num_,_subi_tmp,_subj_tmp,_alphaptrb_tmp,_alphaptre_tmp,_matidx_tmp,_weights_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def k_b(self):\n\n b = self.width()/2\n c = self.height()/2\n\n Ex = self.E\n Ey = self.E\n nu_xy = self.nu\n nu_yx = self.nu\n G = self.E/(2*(1 + self.nu))\n t = self.t\n\n # Stiffness matrix for plate bending. This matrix was derived using a jupyter notebook. The\n # notebook can be found in the `Derivations`` folder of this project.\n k = t**3/12*array([[(-Ex*nu_yx*b**2*c**2/4 - Ex*c**4 - Ey*nu_xy*b**2*c**2/4 - Ey*b**4 + 7*G*nu_xy*nu_yx*b**2*c**2/5 - 7*G*b**2*c**2/5)/(b**3*c**3*(nu_xy*nu_yx - 1)), (-Ex*nu_yx*c**2/2 - Ey*b**2 + G*nu_xy*nu_yx*c**2/5 - G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), (Ex*c**2 + Ey*nu_xy*b**2/2 - G*nu_xy*nu_yx*b**2/5 + G*b**2/5)/(b**2*c*(nu_xy*nu_yx - 1)), (5*Ex*nu_yx*b**2*c**2 + 20*Ex*c**4 + 5*Ey*nu_xy*b**2*c**2 - 10*Ey*b**4 - 28*G*nu_xy*nu_yx*b**2*c**2 + 28*G*b**2*c**2)/(20*b**3*c**3*(nu_xy*nu_yx - 1)), (Ex*nu_yx*c**2/2 - Ey*b**2/2 - G*nu_xy*nu_yx*c**2/5 + G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), (5*Ex*c**2 - G*nu_xy*nu_yx*b**2 + G*b**2)/(5*b**2*c*(nu_xy*nu_yx - 1)), (-5*Ex*nu_yx*b**2*c**2 + 10*Ex*c**4 - 5*Ey*nu_xy*b**2*c**2 + 10*Ey*b**4 + 28*G*nu_xy*nu_yx*b**2*c**2 - 28*G*b**2*c**2)/(20*b**3*c**3*(nu_xy*nu_yx - 1)), (-Ey*b**2/2 - G*nu_xy*nu_yx*c**2/5 + G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), (Ex*c**2/2 + G*b**2*(nu_xy*nu_yx - 1)/5)/(b**2*c*(nu_xy*nu_yx - 1)), (5*Ex*nu_yx*b**2*c**2 - 10*Ex*c**4 + 5*Ey*nu_xy*b**2*c**2 + 20*Ey*b**4 - 28*G*nu_xy*nu_yx*b**2*c**2 + 28*G*b**2*c**2)/(20*b**3*c**3*(nu_xy*nu_yx - 1)), (-5*Ey*b**2 + G*nu_xy*nu_yx*c**2 - G*c**2)/(5*b*c**2*(nu_xy*nu_yx - 1)), (Ex*c**2/2 - Ey*nu_xy*b**2/2 + G*b**2*(nu_xy*nu_yx - 1)/5)/(b**2*c*(nu_xy*nu_yx - 1))],\n [(-Ey*nu_xy*c**2/2 - Ey*b**2 + G*nu_xy*nu_yx*c**2/5 - G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), 4*(-5*Ey*b**2 + 2*G*nu_xy*nu_yx*c**2 - 2*G*c**2)/(15*b*c*(nu_xy*nu_yx - 1)), Ey*nu_xy/(nu_xy*nu_yx - 1), (Ey*nu_xy*c**2/2 - Ey*b**2/2 - G*nu_xy*nu_yx*c**2/5 + G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), 2*(-5*Ey*b**2 - 4*G*nu_xy*nu_yx*c**2 + 4*G*c**2)/(15*b*c*(nu_xy*nu_yx - 1)), 0, (Ey*b**2/2 + G*nu_xy*nu_yx*c**2/5 - G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), (-5*Ey*b**2 + 2*G*nu_xy*nu_yx*c**2 - 2*G*c**2)/(15*b*c*(nu_xy*nu_yx - 1)), 0, (5*Ey*b**2 - G*nu_xy*nu_yx*c**2 + G*c**2)/(5*b*c**2*(nu_xy*nu_yx - 1)), 2*(-5*Ey*b**2 - G*nu_xy*nu_yx*c**2 + G*c**2)/(15*b*c*(nu_xy*nu_yx - 1)), 0],\n [(Ex*nu_yx*b**2/2 + Ex*c**2 - G*nu_xy*nu_yx*b**2/5 + G*b**2/5)/(b**2*c*(nu_xy*nu_yx - 1)), Ex*nu_yx/(nu_xy*nu_yx - 1), 4*(-5*Ex*c**2 + 2*G*nu_xy*nu_yx*b**2 - 2*G*b**2)/(15*b*c*(nu_xy*nu_yx - 1)), (-5*Ex*c**2 + G*nu_xy*nu_yx*b**2 - G*b**2)/(5*b**2*c*(nu_xy*nu_yx - 1)), 0, 2*(-5*Ex*c**2 - G*nu_xy*nu_yx*b**2 + G*b**2)/(15*b*c*(nu_xy*nu_yx - 1)), -(Ex*c**2/2 + G*b**2*(nu_xy*nu_yx - 1)/5)/(b**2*c*(nu_xy*nu_yx - 1)), 0, (-5*Ex*c**2 + 2*G*b**2*(nu_xy*nu_yx - 1))/(15*b*c*(nu_xy*nu_yx - 1)), (-Ex*nu_yx*b**2/2 + Ex*c**2/2 + G*nu_xy*nu_yx*b**2/5 - G*b**2/5)/(b**2*c*(nu_xy*nu_yx - 1)), 0, -(10*Ex*c**2 + 8*G*b**2*(nu_xy*nu_yx - 1))/(15*b*c*(nu_xy*nu_yx - 1))],\n [(5*Ex*nu_yx*b**2*c**2 + 20*Ex*c**4 + 5*Ey*nu_xy*b**2*c**2 - 10*Ey*b**4 - 28*G*nu_xy*nu_yx*b**2*c**2 + 28*G*b**2*c**2)/(20*b**3*c**3*(nu_xy*nu_yx - 1)), (Ex*nu_yx*c**2/2 - Ey*b**2/2 - G*nu_xy*nu_yx*c**2/5 + G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), (-5*Ex*c**2 + G*nu_xy*nu_yx*b**2 - G*b**2)/(5*b**2*c*(nu_xy*nu_yx - 1)), (-Ex*nu_yx*b**2*c**2/4 - Ex*c**4 - Ey*nu_xy*b**2*c**2/4 - Ey*b**4 + 7*G*nu_xy*nu_yx*b**2*c**2/5 - 7*G*b**2*c**2/5)/(b**3*c**3*(nu_xy*nu_yx - 1)), (-Ex*nu_yx*c**2/2 - Ey*b**2 + G*nu_xy*nu_yx*c**2/5 - G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), (-Ex*c**2 - Ey*nu_xy*b**2/2 + G*nu_xy*nu_yx*b**2/5 - G*b**2/5)/(b**2*c*(nu_xy*nu_yx - 1)), (5*Ex*nu_yx*b**2*c**2 - 10*Ex*c**4 + 5*Ey*nu_xy*b**2*c**2 + 20*Ey*b**4 - 28*G*nu_xy*nu_yx*b**2*c**2 + 28*G*b**2*c**2)/(20*b**3*c**3*(nu_xy*nu_yx - 1)), (-5*Ey*b**2 + G*nu_xy*nu_yx*c**2 - G*c**2)/(5*b*c**2*(nu_xy*nu_yx - 1)), (-Ex*c**2/2 + Ey*nu_xy*b**2/2 - G*b**2*(nu_xy*nu_yx - 1)/5)/(b**2*c*(nu_xy*nu_yx - 1)), (-5*Ex*nu_yx*b**2*c**2 + 10*Ex*c**4 - 5*Ey*nu_xy*b**2*c**2 + 10*Ey*b**4 + 28*G*nu_xy*nu_yx*b**2*c**2 - 28*G*b**2*c**2)/(20*b**3*c**3*(nu_xy*nu_yx - 1)), (-Ey*b**2/2 - G*nu_xy*nu_yx*c**2/5 + G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), -(Ex*c**2/2 + G*b**2*(nu_xy*nu_yx - 1)/5)/(b**2*c*(nu_xy*nu_yx - 1))],\n [(Ey*nu_xy*c**2/2 - Ey*b**2/2 - G*nu_xy*nu_yx*c**2/5 + G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), 2*(-5*Ey*b**2 - 4*G*nu_xy*nu_yx*c**2 + 4*G*c**2)/(15*b*c*(nu_xy*nu_yx - 1)), 0, (-Ey*nu_xy*c**2/2 - Ey*b**2 + G*nu_xy*nu_yx*c**2/5 - G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), 4*(-5*Ey*b**2 + 2*G*nu_xy*nu_yx*c**2 - 2*G*c**2)/(15*b*c*(nu_xy*nu_yx - 1)), -Ey*nu_xy/(nu_xy*nu_yx - 1), (5*Ey*b**2 - G*nu_xy*nu_yx*c**2 + G*c**2)/(5*b*c**2*(nu_xy*nu_yx - 1)), 2*(-5*Ey*b**2 - G*nu_xy*nu_yx*c**2 + G*c**2)/(15*b*c*(nu_xy*nu_yx - 1)), 0, (Ey*b**2/2 + G*nu_xy*nu_yx*c**2/5 - G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), (-5*Ey*b**2 + 2*G*nu_xy*nu_yx*c**2 - 2*G*c**2)/(15*b*c*(nu_xy*nu_yx - 1)), 0],\n [(5*Ex*c**2 - G*nu_xy*nu_yx*b**2 + G*b**2)/(5*b**2*c*(nu_xy*nu_yx - 1)), 0, 2*(-5*Ex*c**2 - G*nu_xy*nu_yx*b**2 + G*b**2)/(15*b*c*(nu_xy*nu_yx - 1)), (-Ex*nu_yx*b**2/2 - Ex*c**2 + G*nu_xy*nu_yx*b**2/5 - G*b**2/5)/(b**2*c*(nu_xy*nu_yx - 1)), -Ex*nu_yx/(nu_xy*nu_yx - 1), 4*(-5*Ex*c**2 + 2*G*nu_xy*nu_yx*b**2 - 2*G*b**2)/(15*b*c*(nu_xy*nu_yx - 1)), (Ex*nu_yx*b**2/2 - Ex*c**2/2 - G*nu_xy*nu_yx*b**2/5 + G*b**2/5)/(b**2*c*(nu_xy*nu_yx - 1)), 0, -(10*Ex*c**2 + 8*G*b**2*(nu_xy*nu_yx - 1))/(15*b*c*(nu_xy*nu_yx - 1)), (Ex*c**2/2 + G*b**2*(nu_xy*nu_yx - 1)/5)/(b**2*c*(nu_xy*nu_yx - 1)), 0, (-5*Ex*c**2 + 2*G*b**2*(nu_xy*nu_yx - 1))/(15*b*c*(nu_xy*nu_yx - 1))],\n [(-5*Ex*nu_yx*b**2*c**2 + 10*Ex*c**4 - 5*Ey*nu_xy*b**2*c**2 + 10*Ey*b**4 + 28*G*nu_xy*nu_yx*b**2*c**2 - 28*G*b**2*c**2)/(20*b**3*c**3*(nu_xy*nu_yx - 1)), (Ey*b**2/2 + G*nu_xy*nu_yx*c**2/5 - G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), -(Ex*c**2/2 + G*b**2*(nu_xy*nu_yx - 1)/5)/(b**2*c*(nu_xy*nu_yx - 1)), (5*Ex*nu_yx*b**2*c**2 - 10*Ex*c**4 + 5*Ey*nu_xy*b**2*c**2 + 20*Ey*b**4 - 28*G*nu_xy*nu_yx*b**2*c**2 + 28*G*b**2*c**2)/(20*b**3*c**3*(nu_xy*nu_yx - 1)), (5*Ey*b**2 - G*nu_xy*nu_yx*c**2 + G*c**2)/(5*b*c**2*(nu_xy*nu_yx - 1)), (-5*Ex*c**2 - 25*Ey*nu_xy*b**2 + 2*b**2*(15*Ey*nu_xy - G*nu_xy*nu_yx + G))/(10*b**2*c*(nu_xy*nu_yx - 1)), (-Ex*nu_yx*b**2*c**2/4 - Ex*c**4 - Ey*nu_xy*b**2*c**2/4 - Ey*b**4 + 7*G*nu_xy*nu_yx*b**2*c**2/5 - 7*G*b**2*c**2/5)/(b**3*c**3*(nu_xy*nu_yx - 1)), (Ex*nu_yx*c**2/2 + Ey*b**2 - G*nu_xy*nu_yx*c**2/5 + G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), (-Ex*c**2 - Ey*nu_xy*b**2/2 + G*b**2*(nu_xy*nu_yx - 1)/5)/(b**2*c*(nu_xy*nu_yx - 1)), (5*Ex*nu_yx*b**2*c**2 + 20*Ex*c**4 + 5*Ey*nu_xy*b**2*c**2 - 10*Ey*b**4 - 28*G*nu_xy*nu_yx*b**2*c**2 + 28*G*b**2*c**2)/(20*b**3*c**3*(nu_xy*nu_yx - 1)), (-Ex*nu_yx*c**2/2 + Ey*b**2/2 + G*nu_xy*nu_yx*c**2/5 - G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), (-Ex*c**2 + G*b**2*(nu_xy*nu_yx - 1)/5)/(b**2*c*(nu_xy*nu_yx - 1))],\n [(-Ey*b**2/2 - G*nu_xy*nu_yx*c**2/5 + G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), (-5*Ey*b**2 + 2*G*nu_xy*nu_yx*c**2 - 2*G*c**2)/(15*b*c*(nu_xy*nu_yx - 1)), 0, (-5*Ey*b**2 + G*nu_xy*nu_yx*c**2 - G*c**2)/(5*b*c**2*(nu_xy*nu_yx - 1)), 2*(-5*Ey*b**2 - G*nu_xy*nu_yx*c**2 + G*c**2)/(15*b*c*(nu_xy*nu_yx - 1)), 0, (Ey*nu_xy*c**2/2 + Ey*b**2 - G*nu_xy*nu_yx*c**2/5 + G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), 4*(-5*Ey*b**2 + 2*G*nu_xy*nu_yx*c**2 - 2*G*c**2)/(15*b*c*(nu_xy*nu_yx - 1)), Ey*nu_xy/(nu_xy*nu_yx - 1), (-Ey*nu_xy*c**2/2 + Ey*b**2/2 + G*nu_xy*nu_yx*c**2/5 - G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), 2*(-5*Ey*b**2 - 4*G*nu_xy*nu_yx*c**2 + 4*G*c**2)/(15*b*c*(nu_xy*nu_yx - 1)), 0],\n [(Ex*c**2/2 + G*b**2*(nu_xy*nu_yx - 1)/5)/(b**2*c*(nu_xy*nu_yx - 1)), 0, (-5*Ex*c**2 + 2*G*b**2*(nu_xy*nu_yx - 1))/(15*b*c*(nu_xy*nu_yx - 1)), (Ex*nu_yx*b**2/2 - Ex*c**2/2 - G*nu_xy*nu_yx*b**2/5 + G*b**2/5)/(b**2*c*(nu_xy*nu_yx - 1)), 0, -(10*Ex*c**2 + 8*G*b**2*(nu_xy*nu_yx - 1))/(15*b*c*(nu_xy*nu_yx - 1)), (-Ex*nu_yx*b**2/2 - Ex*c**2 + G*nu_xy*nu_yx*b**2/5 - G*b**2/5)/(b**2*c*(nu_xy*nu_yx - 1)), Ex*nu_yx/(nu_xy*nu_yx - 1), 4*(-5*Ex*c**2 + 2*G*b**2*(nu_xy*nu_yx - 1))/(15*b*c*(nu_xy*nu_yx - 1)), (Ex*c**2 - G*b**2*(nu_xy*nu_yx - 1)/5)/(b**2*c*(nu_xy*nu_yx - 1)), 0, -(10*Ex*c**2 + 2*G*b**2*(nu_xy*nu_yx - 1))/(15*b*c*(nu_xy*nu_yx - 1))],\n [(5*Ex*nu_yx*b**2*c**2 - 10*Ex*c**4 + 5*Ey*nu_xy*b**2*c**2 + 20*Ey*b**4 - 28*G*nu_xy*nu_yx*b**2*c**2 + 28*G*b**2*c**2)/(20*b**3*c**3*(nu_xy*nu_yx - 1)), (5*Ey*b**2 - G*nu_xy*nu_yx*c**2 + G*c**2)/(5*b*c**2*(nu_xy*nu_yx - 1)), (5*Ex*c**2 + 25*Ey*nu_xy*b**2 - 2*b**2*(15*Ey*nu_xy - G*nu_xy*nu_yx + G))/(10*b**2*c*(nu_xy*nu_yx - 1)), (-5*Ex*nu_yx*b**2*c**2 + 10*Ex*c**4 - 5*Ey*nu_xy*b**2*c**2 + 10*Ey*b**4 + 28*G*nu_xy*nu_yx*b**2*c**2 - 28*G*b**2*c**2)/(20*b**3*c**3*(nu_xy*nu_yx - 1)), (Ey*b**2/2 + G*nu_xy*nu_yx*c**2/5 - G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), (Ex*c**2/2 + G*b**2*(nu_xy*nu_yx - 1)/5)/(b**2*c*(nu_xy*nu_yx - 1)), (5*Ex*nu_yx*b**2*c**2 + 20*Ex*c**4 + 5*Ey*nu_xy*b**2*c**2 - 10*Ey*b**4 - 28*G*nu_xy*nu_yx*b**2*c**2 + 28*G*b**2*c**2)/(20*b**3*c**3*(nu_xy*nu_yx - 1)), (-Ex*nu_yx*c**2/2 + Ey*b**2/2 + G*nu_xy*nu_yx*c**2/5 - G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), (Ex*c**2 - G*b**2*(nu_xy*nu_yx - 1)/5)/(b**2*c*(nu_xy*nu_yx - 1)), (-Ex*nu_yx*b**2*c**2/4 - Ex*c**4 - Ey*nu_xy*b**2*c**2/4 - Ey*b**4 + 7*G*nu_xy*nu_yx*b**2*c**2/5 - 7*G*b**2*c**2/5)/(b**3*c**3*(nu_xy*nu_yx - 1)), (Ex*nu_yx*c**2/2 + Ey*b**2 - G*nu_xy*nu_yx*c**2/5 + G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), (Ex*c**2 + Ey*nu_xy*b**2/2 - G*b**2*(nu_xy*nu_yx - 1)/5)/(b**2*c*(nu_xy*nu_yx - 1))],\n [(-5*Ey*b**2 + G*nu_xy*nu_yx*c**2 - G*c**2)/(5*b*c**2*(nu_xy*nu_yx - 1)), 2*(-5*Ey*b**2 - G*nu_xy*nu_yx*c**2 + G*c**2)/(15*b*c*(nu_xy*nu_yx - 1)), 0, (-Ey*b**2/2 - G*nu_xy*nu_yx*c**2/5 + G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), (-5*Ey*b**2 + 2*G*nu_xy*nu_yx*c**2 - 2*G*c**2)/(15*b*c*(nu_xy*nu_yx - 1)), 0, (-Ey*nu_xy*c**2/2 + Ey*b**2/2 + G*nu_xy*nu_yx*c**2/5 - G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), 2*(-5*Ey*b**2 - 4*G*nu_xy*nu_yx*c**2 + 4*G*c**2)/(15*b*c*(nu_xy*nu_yx - 1)), 0, (Ey*nu_xy*c**2/2 + Ey*b**2 - G*nu_xy*nu_yx*c**2/5 + G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), 4*(-5*Ey*b**2 + 2*G*nu_xy*nu_yx*c**2 - 2*G*c**2)/(15*b*c*(nu_xy*nu_yx - 1)), -Ey*nu_xy/(nu_xy*nu_yx - 1)],\n [(-Ex*nu_yx*b**2/2 + Ex*c**2/2 + G*nu_xy*nu_yx*b**2/5 - G*b**2/5)/(b**2*c*(nu_xy*nu_yx - 1)), 0, -(10*Ex*c**2 + 8*G*b**2*(nu_xy*nu_yx - 1))/(15*b*c*(nu_xy*nu_yx - 1)), -(Ex*c**2/2 + G*b**2*(nu_xy*nu_yx - 1)/5)/(b**2*c*(nu_xy*nu_yx - 1)), 0, (-5*Ex*c**2 + 2*G*b**2*(nu_xy*nu_yx - 1))/(15*b*c*(nu_xy*nu_yx - 1)), (-Ex*c**2 + G*b**2*(nu_xy*nu_yx - 1)/5)/(b**2*c*(nu_xy*nu_yx - 1)), 0, -(10*Ex*c**2 + 2*G*b**2*(nu_xy*nu_yx - 1))/(15*b*c*(nu_xy*nu_yx - 1)), (Ex*nu_yx*b**2/2 + Ex*c**2 - G*nu_xy*nu_yx*b**2/5 + G*b**2/5)/(b**2*c*(nu_xy*nu_yx - 1)), -Ex*nu_yx/(nu_xy*nu_yx - 1), 4*(-5*Ex*c**2 + 2*G*b**2*(nu_xy*nu_yx - 1))/(15*b*c*(nu_xy*nu_yx - 1))]])\n \n # Calculate the stiffness of a weak spring for the drilling degree of freedom (rotation\n # about local z). We'll set the weak spring to be 1000 times weaker than any of the other\n # rotational stiffnesses in the matrix.\n k_rz = min(abs(k[1, 1]), abs(k[2, 2]), abs(k[4, 4]), abs(k[5, 5]),\n abs(k[7, 7]), abs(k[8, 8]), abs(k[10, 10]), abs(k[11, 11])\n )/1000\n\n # The matrix currently only holds terms related to bending action. We need to expand it to\n # with placeholders for all the degrees of freedom so it can be directly added to the\n # membrane stiffness matrix later on.\n\n # Initialize the expanded stiffness matrix to all zeros\n k_exp = zeros((24, 24))\n\n # Step through each term in the unexpanded stiffness matrix\n\n # i = Unexpanded matrix row\n for i in range(12):\n\n # j = Unexpanded matrix column\n for j in range(12):\n \n # Find the corresponding term in the expanded stiffness\n # matrix\n\n # m = Expanded matrix row\n if i in [0, 3, 6, 9]: # indices associated with deflection in z\n m = 2*i + 2\n if i in [1, 4, 7, 10]: # indices associated with rotation about x\n m = 2*i + 1\n if i in [2, 5, 8, 11]: # indices associated with rotation about y\n m = 2*i\n\n # n = Expanded matrix column\n if j in [0, 3, 6, 9]: # indices associated with deflection in z\n n = 2*j + 2\n if j in [1, 4, 7, 10]: # indices associated with rotation about x\n n = 2*j + 1\n if j in [2, 5, 8, 11]: # indices associated with rotation about y\n n = 2*j\n \n # Ensure the indices are integers rather than floats\n m, n = round(m), round(n)\n\n # Add the term from the unexpanded matrix into the expanded\n # matrix\n k_exp[m, n] = k[i, j]\n \n # Add the drilling degree of freedom's weak spring\n k_exp[5, 5] = k_rz\n k_exp[11, 11] = k_rz\n k_exp[17, 17] = k_rz\n k_exp[23, 23] = k_rz\n \n # Return the local stiffness matrix\n return k_exp", "def TB(t,init,rhoS,deltaSC,rhoC,deltaCB,rhoB):\n\n y=SCB(t,init,rhoS,deltaSC,rhoC,deltaCB,rhoB)\n T=np.sum(y,axis=0)\n Y=np.vstack((T,y[2]))\n return(Y)", "def biz(cps):\n # Head of unit\n mask = cps['tc5_p'] > 0\n cps_valid = cps[mask]\n rand = np.random.uniform(size=len(cps_valid))\n new_vals = np.exp(10.4 + 1. * rand)\n new_vals = np.where(new_vals < 50000., 50000., new_vals)\n cps.loc[mask, 'bilp'] = new_vals\n # spouse of unit\n mask = cps['tc5_s'] > 0\n cps_valid = cps[mask]\n rand = np.random.uniform(size=len(cps_valid))\n new_vals = np.exp(10.4 + 1. * rand)\n new_vals = np.where(new_vals < 50000., 50000., new_vals)\n cps.loc[mask, 'bils'] = new_vals", "def getnumbarcblocktriplets(self):\n num_ = ctypes.c_int64()\n res = __library__.MSK_XX_getnumbarcblocktriplets(self.__nativep,ctypes.byref(num_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n num_ = num_.value\n _num_return_value = num_\n return (_num_return_value)", "def getnumbarcblocktriplets(self): # 3\n res,resargs = self.__obj.getnumbarcblocktriplets()\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _num_return_value = resargs\n return _num_return_value", "def write_bc_vtk(self):\n print \"Creating boundary condition arrays\"\n obst_array = np.zeros(self.nnodes)\n obst_array[list(self.obst_list)] = 100.\n\n #print type(self.inlet_list)\n inlet_array = np.zeros(self.nnodes)\n inlet_array[list(self.inlet_list)] = 200.\n\n outlet_array = np.zeros(self.nnodes)\n outlet_array[list(self.outlet_list)] = 300.\n\n solid_array = np.zeros(self.nnodes)\n solid_array[list(self.solid_list)] = 500.\n \n dims = [int(self.Nx), int(self.Ny), int(self.Nz)]\n origin = [0., 0., 0.]\n dx = self.x[1] - self.x[0]\n spacing = [dx, dx, dx] #uniform lattice\n \n print \"Writing boundary conditions to VTK files\"\n writeVTK(inlet_array,'inlet','inlet.vtk',dims,origin,spacing)\n writeVTK(outlet_array,'outlet','outlet.vtk',dims,origin,spacing)\n writeVTK(obst_array,'obst','obst.vtk',dims,origin,spacing)\n writeVTK(solid_array,'solid','solid.vtk',dims,origin,spacing)", "def write_bc_vtk(self):\n print \"Creating boundary condition arrays\"\n obst_array = np.zeros(self.nnodes)\n obst_array[list(self.obst_list)] = 100.\n\n #print type(self.inlet_list)\n inlet_array = np.zeros(self.nnodes)\n inlet_array[list(self.inlet_list)] = 200.\n\n outlet_array = np.zeros(self.nnodes)\n outlet_array[list(self.outlet_list)] = 300.\n\n solid_array = np.zeros(self.nnodes)\n solid_array[list(self.solid_list)] = 500.\n \n dims = [int(self.Nx), int(self.Ny), int(self.Nz)]\n origin = [0., 0., 0.]\n dx = self.x[1] - self.x[0]\n spacing = [dx, dx, dx] #uniform lattice\n \n print \"Writing boundary conditions to VTK files\"\n writeVTK(inlet_array,'inlet','inlet.vtk',dims,origin,spacing)\n writeVTK(outlet_array,'outlet','outlet.vtk',dims,origin,spacing)\n writeVTK(obst_array,'obst','obst.vtk',dims,origin,spacing)\n writeVTK(solid_array,'solid','solid.vtk',dims,origin,spacing)", "def __init__(self, *args):\n _itkQuadEdgeCellTraitsInfoPython.itkMapContainerULLQEMPF3GQEULLULLBBT_swiginit(self, _itkQuadEdgeCellTraitsInfoPython.new_itkMapContainerULLQEMPF3GQEULLULLBBT(*args))", "def putqconk(self,k_,qcsubi,qcsubj,qcval): # 3\n numqcnz_ = None\n if numqcnz_ is None:\n numqcnz_ = len(qcsubi)\n elif numqcnz_ != len(qcsubi):\n raise IndexError(\"Inconsistent length of array qcsubi\")\n if numqcnz_ is None:\n numqcnz_ = len(qcsubj)\n elif numqcnz_ != len(qcsubj):\n raise IndexError(\"Inconsistent length of array qcsubj\")\n if numqcnz_ is None:\n numqcnz_ = len(qcval)\n elif numqcnz_ != len(qcval):\n raise IndexError(\"Inconsistent length of array qcval\")\n if numqcnz_ is None: numqcnz_ = 0\n if qcsubi is None: raise TypeError(\"Invalid type for argument qcsubi\")\n if qcsubi is None:\n qcsubi_ = None\n else:\n try:\n qcsubi_ = memoryview(qcsubi)\n except TypeError:\n try:\n _tmparr_qcsubi = array.array(\"i\",qcsubi)\n except TypeError:\n raise TypeError(\"Argument qcsubi has wrong type\")\n else:\n qcsubi_ = memoryview(_tmparr_qcsubi)\n \n else:\n if qcsubi_.format != \"i\":\n qcsubi_ = memoryview(array.array(\"i\",qcsubi))\n \n if qcsubj is None: raise TypeError(\"Invalid type for argument qcsubj\")\n if qcsubj is None:\n qcsubj_ = None\n else:\n try:\n qcsubj_ = memoryview(qcsubj)\n except TypeError:\n try:\n _tmparr_qcsubj = array.array(\"i\",qcsubj)\n except TypeError:\n raise TypeError(\"Argument qcsubj has wrong type\")\n else:\n qcsubj_ = memoryview(_tmparr_qcsubj)\n \n else:\n if qcsubj_.format != \"i\":\n qcsubj_ = memoryview(array.array(\"i\",qcsubj))\n \n if qcval is None: raise TypeError(\"Invalid type for argument qcval\")\n if qcval is None:\n qcval_ = None\n else:\n try:\n qcval_ = memoryview(qcval)\n except TypeError:\n try:\n _tmparr_qcval = array.array(\"d\",qcval)\n except TypeError:\n raise TypeError(\"Argument qcval has wrong type\")\n else:\n qcval_ = memoryview(_tmparr_qcval)\n \n else:\n if qcval_.format != \"d\":\n qcval_ = memoryview(array.array(\"d\",qcval))\n \n res = self.__obj.putqconk(k_,numqcnz_,qcsubi_,qcsubj_,qcval_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def write_pwscf_input(runpath, params, struc, kpoints, pseudopots, constraint=None):\n # automatically fill in missing values\n pcont = copy.deepcopy(params.content)\n pcont['SYSTEM']['ntyp'] = struc.n_species\n pcont['SYSTEM']['nat'] = struc.n_atoms\n pcont['SYSTEM']['ibrav'] = 0\n # Write the main input block\n inptxt = ''\n for namelist in ['CONTROL', 'SYSTEM', 'ELECTRONS', 'IONS', 'CELL']:\n inptxt += '&{}\\n'.format(namelist)\n for key, value in pcont[namelist].items():\n inptxt += ' {} = {}\\n'.format(key, qe_value_map(value))\n inptxt += '/ \\n'\n # write the K_POINTS block\n if kpoints.content['option'] == 'automatic':\n inptxt += 'K_POINTS {automatic}\\n'\n inptxt += ' {:d} {:d} {:d}'.format(*kpoints.content['gridsize'])\n if kpoints.content['offset']:\n inptxt += ' 1 1 1\\n'\n else:\n inptxt += ' 0 0 0\\n'\n\n # write the ATOMIC_SPECIES block\n inptxt += 'ATOMIC_SPECIES\\n'\n for elem, spec in struc.species.items():\n inptxt += ' {} {} {}\\n'.format(elem, spec['mass'], pseudopots[elem].content['name'])\n\n # Write the CELL_PARAMETERS block\n inptxt += 'CELL_PARAMETERS {angstrom}\\n'\n for vector in struc.content['cell']:\n inptxt += ' {} {} {}\\n'.format(*vector)\n\n # Write the ATOMIC_POSITIONS in crystal coords\n inptxt += 'ATOMIC_POSITIONS {angstrom}\\n'\n for index, positions in enumerate(struc.content['positions']):\n inptxt += ' {} {:1.5f} {:1.5f} {:1.5f}'.format(positions[0], *positions[1])\n if constraint and constraint.content['atoms'] and str(index) in constraint.content['atoms']:\n inptxt += ' {} {} {} \\n'.format(*constraint.content['atoms'][str(index)])\n else:\n inptxt += '\\n'\n\n infile = TextFile(path=os.path.join(runpath.path, 'pwscf.in'), text=inptxt)\n infile.write()\n return infile", "def bin_cl_template(\n self,\n cls_shape=None,\n map_tag=None,\n transfer_run=False,\n beam_error=False,\n use_precalc=True,\n fg_ell_ind=0,\n ):\n if cls_shape is None:\n cls_shape = self.cls_shape\n\n map_pairs = None\n if map_tag is not None:\n if map_tag in self.map_pairs:\n map_pairs = {map_tag: self.map_pairs[map_tag]}\n map_tags = list(set(self.map_pairs[map_tag]))\n else:\n map_tags = [map_tag]\n else:\n map_tags = self.map_tags\n\n if map_pairs is None:\n map_pairs = pt.tag_pairs(map_tags)\n\n specs = list(self.specs)\n if transfer_run:\n if \"eb\" in specs:\n specs.remove(\"eb\")\n if \"tb\" in specs:\n specs.remove(\"tb\")\n\n lmax = self.lmax\n lmax_kern = lmax # 2 * self.lmax\n\n if getattr(self, \"mll\", None) is None or not use_precalc:\n mll = self.kernel_precalc(map_tag=map_tag, transfer_run=transfer_run)\n if use_precalc:\n self.mll = mll\n else:\n mll = self.mll\n\n if beam_error:\n beam_error = self.get_beam_errors()\n beam_keys = [\"b1\", \"b2\", \"b3\"]\n\n ls = slice(2, lmax + 1)\n lk = slice(0, lmax_kern + 1)\n cbl = OrderedDict()\n\n comps = []\n if \"cmb_tt\" in cls_shape or \"cmb_ee\" in cls_shape:\n comps += [\"cmb\"]\n if \"fg\" in cls_shape and not transfer_run:\n comps += [\"fg\"]\n if self.nbins_res > 0 and not transfer_run:\n comps += [\"res\"]\n cls_noise = self.cls_noise_null if self.null_run else self.cls_noise\n cls_noise0 = self.cls_noise0_null if self.null_run else self.cls_noise0\n cls_noise1 = self.cls_noise1_null if self.null_run else self.cls_noise1\n cls_sxn0 = self.cls_sxn0_null if self.null_run else self.cls_sxn0\n cls_sxn1 = self.cls_sxn1_null if self.null_run else self.cls_sxn1\n cls_nxs0 = self.cls_nxs0_null if self.null_run else self.cls_nxs0\n cls_nxs1 = self.cls_nxs1_null if self.null_run else self.cls_nxs1\n\n ell = np.arange(lmax_kern + 1)\n\n def binup(d, left, right, weights):\n return (d[..., left:right] * weights).sum(axis=-1)\n\n def bin_things(comp, d, md):\n if \"res\" in comp:\n return\n for si, spec in enumerate(specs):\n stag = \"{}_{}\".format(comp, spec)\n cbl.setdefault(stag, OrderedDict())\n mstag = None\n if spec in [\"ee\", \"bb\"]:\n mstag = stag + \"_mix\"\n cbl.setdefault(mstag, OrderedDict())\n bd = self.bin_def[stag]\n bw = self.bin_weights[stag]\n for xi, (xname, (tag1, tag2)) in enumerate(map_pairs.items()):\n if beam_error:\n cbl[stag][xname] = OrderedDict(\n [(k, np.zeros((len(bd), lmax + 1))) for k in beam_keys]\n )\n else:\n cbl[stag][xname] = np.zeros((len(bd), lmax + 1))\n if spec in [\"ee\", \"bb\"]:\n if beam_error:\n cbl[mstag][xname] = OrderedDict(\n [(k, np.zeros((len(bd), lmax + 1))) for k in beam_keys]\n )\n else:\n cbl[mstag][xname] = np.zeros((len(bd), lmax + 1))\n\n # integrate per bin\n for idx, ((left, right), weights) in enumerate(zip(bd, bw)):\n if beam_error:\n for k in beam_keys:\n cbl[stag][xname][k][idx, ls] = binup(\n d[k][si, xi], left, right, weights\n )\n else:\n cbl[stag][xname][idx, ls] = binup(\n d[si, xi], left, right, weights\n )\n if spec in [\"ee\", \"bb\"]:\n if beam_error:\n for k in beam_keys:\n cbl[mstag][xname][k][idx, ls] = binup(\n md[k][si - 1, xi], left, right, weights\n )\n else:\n cbl[mstag][xname][idx, ls] = binup(\n md[si - 1, xi], left, right, weights\n )\n\n for comp in comps:\n # convert to matrices to do multiplication to speed things up,\n # except for res is weird so don't do it for that.\n # need n_xname x n_spec x ell\n nspec = len(specs)\n nxmap = len(map_pairs)\n if comp == \"fg\" and fg_ell_ind != 0:\n s_arr = (ell / 80.0) ** fg_ell_ind\n s_arr[0] = 0\n if not beam_error:\n # don't create a new object in memory each time\n # use last one's space to save runtime\n self.d = np.multiply(self.d_fg, s_arr, out=getattr(self, \"d\", None))\n self.md = np.multiply(\n self.md_fg, s_arr, out=getattr(self, \"md\", None)\n )\n else:\n for k in beam_keys:\n if not hasattr(self, \"d\"):\n self.d = OrderedDict([(k, None) for k in beam_keys])\n self.md = OrderedDict([(k, None) for k in beam_keys])\n self.d[k] = np.multiply(self.d_fg[k], s_arr, out=self.d[k])\n self.md[k] = np.multiply(self.md_fg[k], s_arr, out=self.md[k])\n bin_things(comp, self.d, self.md)\n\n else:\n kshape = [nspec, nxmap, self.lmax - 1, lmax_kern + 1]\n mkshape = [2] + kshape[1:]\n k_arr = np.zeros(kshape)\n mk_arr = np.zeros(mkshape)\n\n shape = [nspec, nxmap, 1, lmax_kern + 1]\n s_arr = np.zeros(shape)\n if beam_error:\n b_arr = {k: np.zeros(shape) for k in beam_keys}\n\n for si, spec in enumerate(specs):\n stag = \"{}_{}\".format(comp, spec)\n mstag = None\n if comp != \"res\" and spec in [\"ee\", \"bb\"]:\n mstag = stag + \"_mix\"\n\n for xi, (xname, (tag1, tag2)) in enumerate(map_pairs.items()):\n if \"res\" in comp:\n s0, s1 = spec\n res_tags = {\n \"s0m0\": \"res_{}_{}\".format(s0 * 2, tag1),\n \"s0m1\": \"res_{}_{}\".format(s0 * 2, tag2),\n \"s1m0\": \"res_{}_{}\".format(s1 * 2, tag1),\n \"s1m1\": \"res_{}_{}\".format(s1 * 2, tag2),\n }\n bd = [[0, lmax + 1]]\n # if any component of XY spec is in residual bin\n # def, use that bin def\n for k, v in res_tags.items():\n spec0 = v.split(\"_\")[1]\n if v not in self.bin_def:\n if spec0 in [\"ee\", \"bb\"]:\n v = v.replace(spec0, \"eebb\")\n if v in self.bin_def:\n bd = self.bin_def[v]\n else:\n bd = self.bin_def[v]\n for comp, cls in [\n (\"res0_nxn\", cls_noise0),\n (\"res1_nxn\", cls_noise1),\n (\"res0_sxn\", cls_sxn0),\n (\"res1_sxn\", cls_sxn1),\n (\"res0_nxs\", cls_nxs0),\n (\"res1_nxs\", cls_nxs1),\n (\"res\", cls_noise),\n ]:\n stag = \"{}_{}\".format(comp, spec)\n cbl.setdefault(stag, OrderedDict())\n cbl[stag][xname] = np.zeros((len(bd), lmax + 1))\n cl1 = cls[spec][xname]\n for idx, (left, right) in enumerate(bd):\n lls = slice(left, right)\n cbl[stag][xname][idx, lls] = np.copy(cl1[lls])\n\n continue\n\n if beam_error:\n b_arr[\"b1\"][si, xi] = beam_error[spec][tag1]\n b_arr[\"b2\"][si, xi] = beam_error[spec][tag2]\n b_arr[\"b3\"][si, xi] = (\n b_arr[\"b1\"][si, xi] * b_arr[\"b2\"][si, xi]\n )\n\n # use correct shape spectrum\n if comp == \"fg\":\n # single foreground spectrum\n s_arr = cls_shape[\"fg\"][lk] * (ell / 80.0) ** fg_ell_ind\n s_arr[0] = 0\n else:\n s_arr[si, xi] = cls_shape[\"cmb_{}\".format(spec)][lk]\n\n # get cross spectrum kernel terms\n k_arr[si, xi] = mll[spec][xname][ls, lk]\n if spec in [\"ee\", \"bb\"]:\n mspec = spec + \"_mix\"\n mk_arr[si - 1, xi] = mll[mspec][xname][ls, lk]\n\n md = None\n if s_arr.ndim == 1:\n s_arr_md = s_arr\n else:\n s_arr_md = s_arr[1:3]\n d = k_arr * s_arr\n if self.pol:\n md = mk_arr * s_arr_md\n if beam_error:\n d = OrderedDict([(k, d * b_arr[k]) for k in beam_keys])\n if self.pol:\n md = OrderedDict([(k, md * b_arr[k]) for k in beam_keys])\n if comp == \"fg\":\n self.d_fg = copy.deepcopy(d)\n self.md_fg = copy.deepcopy(md)\n\n bin_things(comp, d, md)\n\n return cbl", "def t0_BJD(samples, chaintype, labels, Tinitial):\n\n try:\n index = labels.index(\"t0\")\n except:\n index = labels.index(\"t_secondary\")\n\n if chaintype == 'chain':\n samp = np.zeros(samples.shape)\n print \"\\t Changing t0 to BJD for chain...\"\n\n for j in range(samples.shape[0]):\n for i in range(samples.shape[1]):\n samp[j][i] = samples[j][i]\n samp.T[index][i][j] = samples.T[index][i][j] + Tinitial\n\n elif chaintype == 'flatchain':\n samp = np.zeros(samples.shape)\n print \"\\t Changing t0 to BJD for flatchain...\"\n\n for i in range(samples.shape[0]):\n samp[i] = samples[i]\n samp.T[index][i] = samples.T[index][i] + Tinitial\n\n return samp", "def putconboundlist(self,sub,bk,bl,bu): # 3\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(bk)\n elif num_ != len(bk):\n raise IndexError(\"Inconsistent length of array bk\")\n if num_ is None:\n num_ = len(bl)\n elif num_ != len(bl):\n raise IndexError(\"Inconsistent length of array bl\")\n if num_ is None:\n num_ = len(bu)\n elif num_ != len(bu):\n raise IndexError(\"Inconsistent length of array bu\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if bk is None: raise TypeError(\"Invalid type for argument bk\")\n if bk is None:\n bk_ = None\n else:\n try:\n bk_ = memoryview(bk)\n except TypeError:\n try:\n _tmparr_bk = array.array(\"i\",bk)\n except TypeError:\n raise TypeError(\"Argument bk has wrong type\")\n else:\n bk_ = memoryview(_tmparr_bk)\n \n else:\n if bk_.format != \"i\":\n bk_ = memoryview(array.array(\"i\",bk))\n \n if bl is None: raise TypeError(\"Invalid type for argument bl\")\n if bl is None:\n bl_ = None\n else:\n try:\n bl_ = memoryview(bl)\n except TypeError:\n try:\n _tmparr_bl = array.array(\"d\",bl)\n except TypeError:\n raise TypeError(\"Argument bl has wrong type\")\n else:\n bl_ = memoryview(_tmparr_bl)\n \n else:\n if bl_.format != \"d\":\n bl_ = memoryview(array.array(\"d\",bl))\n \n if bu is None: raise TypeError(\"Invalid type for argument bu\")\n if bu is None:\n bu_ = None\n else:\n try:\n bu_ = memoryview(bu)\n except TypeError:\n try:\n _tmparr_bu = array.array(\"d\",bu)\n except TypeError:\n raise TypeError(\"Argument bu has wrong type\")\n else:\n bu_ = memoryview(_tmparr_bu)\n \n else:\n if bu_.format != \"d\":\n bu_ = memoryview(array.array(\"d\",bu))\n \n res = self.__obj.putconboundlist(num_,sub_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def _init_array(self, b, c):\n self._.c = (Integer(0), ) + tuple(c)\n self._.b = tuple(b) + (Integer(0), )" ]

[ "0.7797572", "0.7431309", "0.7382793", "0.67077404", "0.6499392", "0.6443641", "0.6285413", "0.55697286", "0.5277591", "0.49592826", "0.49534807", "0.48163047", "0.48131326", "0.4768959", "0.47384974", "0.47332403", "0.47224998", "0.4697508", "0.46888828", "0.46643606", "0.46319127", "0.4597341", "0.4597341", "0.45956475", "0.4566653", "0.4566016", "0.45654145", "0.45584914", "0.45283628", "0.45215598" ]

[ "def getbarcblocktriplet(self,subj,subk,subl,valjkl): # 3\n maxnum_ = self.getnumbarcblocktriplets()\n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n _copyback_subj = False\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n _copyback_subj = True\n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n _copyback_subj = True\n if subj_ is not None and len(subj_) != (maxnum_):\n raise ValueError(\"Array argument subj has wrong length\")\n if subk is None: raise TypeError(\"Invalid type for argument subk\")\n _copyback_subk = False\n if subk is None:\n subk_ = None\n else:\n try:\n subk_ = memoryview(subk)\n except TypeError:\n try:\n _tmparr_subk = array.array(\"i\",subk)\n except TypeError:\n raise TypeError(\"Argument subk has wrong type\")\n else:\n subk_ = memoryview(_tmparr_subk)\n _copyback_subk = True\n else:\n if subk_.format != \"i\":\n subk_ = memoryview(array.array(\"i\",subk))\n _copyback_subk = True\n if subk_ is not None and len(subk_) != (maxnum_):\n raise ValueError(\"Array argument subk has wrong length\")\n if subl is None: raise TypeError(\"Invalid type for argument subl\")\n _copyback_subl = False\n if subl is None:\n subl_ = None\n else:\n try:\n subl_ = memoryview(subl)\n except TypeError:\n try:\n _tmparr_subl = array.array(\"i\",subl)\n except TypeError:\n raise TypeError(\"Argument subl has wrong type\")\n else:\n subl_ = memoryview(_tmparr_subl)\n _copyback_subl = True\n else:\n if subl_.format != \"i\":\n subl_ = memoryview(array.array(\"i\",subl))\n _copyback_subl = True\n if subl_ is not None and len(subl_) != (maxnum_):\n raise ValueError(\"Array argument subl has wrong length\")\n if valjkl is None: raise TypeError(\"Invalid type for argument valjkl\")\n _copyback_valjkl = False\n if valjkl is None:\n valjkl_ = None\n else:\n try:\n valjkl_ = memoryview(valjkl)\n except TypeError:\n try:\n _tmparr_valjkl = array.array(\"d\",valjkl)\n except TypeError:\n raise TypeError(\"Argument valjkl has wrong type\")\n else:\n valjkl_ = memoryview(_tmparr_valjkl)\n _copyback_valjkl = True\n else:\n if valjkl_.format != \"d\":\n valjkl_ = memoryview(array.array(\"d\",valjkl))\n _copyback_valjkl = True\n if valjkl_ is not None and len(valjkl_) != (maxnum_):\n raise ValueError(\"Array argument valjkl has wrong length\")\n res,resargs = self.__obj.getbarcblocktriplet(maxnum_,subj_,subk_,subl_,valjkl_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _num_return_value = resargs\n if _copyback_valjkl:\n valjkl[:] = _tmparr_valjkl\n if _copyback_subl:\n subl[:] = _tmparr_subl\n if _copyback_subk:\n subk[:] = _tmparr_subk\n if _copyback_subj:\n subj[:] = _tmparr_subj\n return _num_return_value", "def putbarcblocktriplet(self,num_,subj_,subk_,subl_,valjkl_):\n _subj_minlength = (num_)\n if (num_) > 0 and subj_ is not None and len(subj_) != (num_):\n raise ValueError(\"Array argument subj is not long enough: Is %d, expected %d\" % (len(subj_),(num_)))\n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n _subk_minlength = (num_)\n if (num_) > 0 and subk_ is not None and len(subk_) != (num_):\n raise ValueError(\"Array argument subk is not long enough: Is %d, expected %d\" % (len(subk_),(num_)))\n if subk_ is None:\n raise ValueError(\"Argument subk cannot be None\")\n if subk_ is None:\n raise ValueError(\"Argument subk may not be None\")\n if isinstance(subk_, numpy.ndarray) and subk_.dtype is numpy.dtype(numpy.int32) and subk_.flags.contiguous:\n _subk_copyarray = False\n _subk_tmp = ctypes.cast(subk_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subk_ is not None:\n _subk_copyarray = True\n _subk_np_tmp = numpy.zeros(len(subk_),numpy.dtype(numpy.int32))\n _subk_np_tmp[:] = subk_\n assert _subk_np_tmp.flags.contiguous\n _subk_tmp = ctypes.cast(_subk_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subk_copyarray = False\n _subk_tmp = None\n \n _subl_minlength = (num_)\n if (num_) > 0 and subl_ is not None and len(subl_) != (num_):\n raise ValueError(\"Array argument subl is not long enough: Is %d, expected %d\" % (len(subl_),(num_)))\n if subl_ is None:\n raise ValueError(\"Argument subl cannot be None\")\n if subl_ is None:\n raise ValueError(\"Argument subl may not be None\")\n if isinstance(subl_, numpy.ndarray) and subl_.dtype is numpy.dtype(numpy.int32) and subl_.flags.contiguous:\n _subl_copyarray = False\n _subl_tmp = ctypes.cast(subl_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subl_ is not None:\n _subl_copyarray = True\n _subl_np_tmp = numpy.zeros(len(subl_),numpy.dtype(numpy.int32))\n _subl_np_tmp[:] = subl_\n assert _subl_np_tmp.flags.contiguous\n _subl_tmp = ctypes.cast(_subl_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subl_copyarray = False\n _subl_tmp = None\n \n _valjkl_minlength = (num_)\n if (num_) > 0 and valjkl_ is not None and len(valjkl_) != (num_):\n raise ValueError(\"Array argument valjkl is not long enough: Is %d, expected %d\" % (len(valjkl_),(num_)))\n if valjkl_ is None:\n raise ValueError(\"Argument valjkl cannot be None\")\n if valjkl_ is None:\n raise ValueError(\"Argument valjkl may not be None\")\n if isinstance(valjkl_, numpy.ndarray) and valjkl_.dtype is numpy.dtype(numpy.float64) and valjkl_.flags.contiguous:\n _valjkl_copyarray = False\n _valjkl_tmp = ctypes.cast(valjkl_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif valjkl_ is not None:\n _valjkl_copyarray = True\n _valjkl_np_tmp = numpy.zeros(len(valjkl_),numpy.dtype(numpy.float64))\n _valjkl_np_tmp[:] = valjkl_\n assert _valjkl_np_tmp.flags.contiguous\n _valjkl_tmp = ctypes.cast(_valjkl_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _valjkl_copyarray = False\n _valjkl_tmp = None\n \n res = __library__.MSK_XX_putbarcblocktriplet(self.__nativep,num_,_subj_tmp,_subk_tmp,_subl_tmp,_valjkl_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbarcblocktriplet(self,num_,subj,subk,subl,valjkl): # 3\n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n \n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n \n if subj_ is not None and len(subj_) != (num_):\n raise ValueError(\"Array argument subj has wrong length\")\n if subk is None: raise TypeError(\"Invalid type for argument subk\")\n if subk is None:\n subk_ = None\n else:\n try:\n subk_ = memoryview(subk)\n except TypeError:\n try:\n _tmparr_subk = array.array(\"i\",subk)\n except TypeError:\n raise TypeError(\"Argument subk has wrong type\")\n else:\n subk_ = memoryview(_tmparr_subk)\n \n else:\n if subk_.format != \"i\":\n subk_ = memoryview(array.array(\"i\",subk))\n \n if subk_ is not None and len(subk_) != (num_):\n raise ValueError(\"Array argument subk has wrong length\")\n if subl is None: raise TypeError(\"Invalid type for argument subl\")\n if subl is None:\n subl_ = None\n else:\n try:\n subl_ = memoryview(subl)\n except TypeError:\n try:\n _tmparr_subl = array.array(\"i\",subl)\n except TypeError:\n raise TypeError(\"Argument subl has wrong type\")\n else:\n subl_ = memoryview(_tmparr_subl)\n \n else:\n if subl_.format != \"i\":\n subl_ = memoryview(array.array(\"i\",subl))\n \n if subl_ is not None and len(subl_) != (num_):\n raise ValueError(\"Array argument subl has wrong length\")\n if valjkl is None: raise TypeError(\"Invalid type for argument valjkl\")\n if valjkl is None:\n valjkl_ = None\n else:\n try:\n valjkl_ = memoryview(valjkl)\n except TypeError:\n try:\n _tmparr_valjkl = array.array(\"d\",valjkl)\n except TypeError:\n raise TypeError(\"Argument valjkl has wrong type\")\n else:\n valjkl_ = memoryview(_tmparr_valjkl)\n \n else:\n if valjkl_.format != \"d\":\n valjkl_ = memoryview(array.array(\"d\",valjkl))\n \n if valjkl_ is not None and len(valjkl_) != (num_):\n raise ValueError(\"Array argument valjkl has wrong length\")\n res = self.__obj.putbarcblocktriplet(num_,subj_,subk_,subl_,valjkl_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getbarablocktriplet(self,subi,subj,subk,subl,valijkl): # 3\n maxnum_ = self.getnumbarablocktriplets()\n if subi is None: raise TypeError(\"Invalid type for argument subi\")\n _copyback_subi = False\n if subi is None:\n subi_ = None\n else:\n try:\n subi_ = memoryview(subi)\n except TypeError:\n try:\n _tmparr_subi = array.array(\"i\",subi)\n except TypeError:\n raise TypeError(\"Argument subi has wrong type\")\n else:\n subi_ = memoryview(_tmparr_subi)\n _copyback_subi = True\n else:\n if subi_.format != \"i\":\n subi_ = memoryview(array.array(\"i\",subi))\n _copyback_subi = True\n if subi_ is not None and len(subi_) != (maxnum_):\n raise ValueError(\"Array argument subi has wrong length\")\n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n _copyback_subj = False\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n _copyback_subj = True\n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n _copyback_subj = True\n if subj_ is not None and len(subj_) != (maxnum_):\n raise ValueError(\"Array argument subj has wrong length\")\n if subk is None: raise TypeError(\"Invalid type for argument subk\")\n _copyback_subk = False\n if subk is None:\n subk_ = None\n else:\n try:\n subk_ = memoryview(subk)\n except TypeError:\n try:\n _tmparr_subk = array.array(\"i\",subk)\n except TypeError:\n raise TypeError(\"Argument subk has wrong type\")\n else:\n subk_ = memoryview(_tmparr_subk)\n _copyback_subk = True\n else:\n if subk_.format != \"i\":\n subk_ = memoryview(array.array(\"i\",subk))\n _copyback_subk = True\n if subk_ is not None and len(subk_) != (maxnum_):\n raise ValueError(\"Array argument subk has wrong length\")\n if subl is None: raise TypeError(\"Invalid type for argument subl\")\n _copyback_subl = False\n if subl is None:\n subl_ = None\n else:\n try:\n subl_ = memoryview(subl)\n except TypeError:\n try:\n _tmparr_subl = array.array(\"i\",subl)\n except TypeError:\n raise TypeError(\"Argument subl has wrong type\")\n else:\n subl_ = memoryview(_tmparr_subl)\n _copyback_subl = True\n else:\n if subl_.format != \"i\":\n subl_ = memoryview(array.array(\"i\",subl))\n _copyback_subl = True\n if subl_ is not None and len(subl_) != (maxnum_):\n raise ValueError(\"Array argument subl has wrong length\")\n if valijkl is None: raise TypeError(\"Invalid type for argument valijkl\")\n _copyback_valijkl = False\n if valijkl is None:\n valijkl_ = None\n else:\n try:\n valijkl_ = memoryview(valijkl)\n except TypeError:\n try:\n _tmparr_valijkl = array.array(\"d\",valijkl)\n except TypeError:\n raise TypeError(\"Argument valijkl has wrong type\")\n else:\n valijkl_ = memoryview(_tmparr_valijkl)\n _copyback_valijkl = True\n else:\n if valijkl_.format != \"d\":\n valijkl_ = memoryview(array.array(\"d\",valijkl))\n _copyback_valijkl = True\n if valijkl_ is not None and len(valijkl_) != (maxnum_):\n raise ValueError(\"Array argument valijkl has wrong length\")\n res,resargs = self.__obj.getbarablocktriplet(maxnum_,subi_,subj_,subk_,subl_,valijkl_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _num_return_value = resargs\n if _copyback_valijkl:\n valijkl[:] = _tmparr_valijkl\n if _copyback_subl:\n subl[:] = _tmparr_subl\n if _copyback_subk:\n subk[:] = _tmparr_subk\n if _copyback_subj:\n subj[:] = _tmparr_subj\n if _copyback_subi:\n subi[:] = _tmparr_subi\n return _num_return_value", "def getbarablocktriplet(self,subi_,subj_,subk_,subl_,valijkl_):\n maxnum_ = self.getnumbarablocktriplets()\n num_ = ctypes.c_int64()\n _subi_minlength = (maxnum_)\n if (maxnum_) > 0 and subi_ is not None and len(subi_) != (maxnum_):\n raise ValueError(\"Array argument subi is not long enough: Is %d, expected %d\" % (len(subi_),(maxnum_)))\n if isinstance(subi_,numpy.ndarray) and not subi_.flags.writeable:\n raise ValueError(\"Argument subi must be writable\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n _subj_minlength = (maxnum_)\n if (maxnum_) > 0 and subj_ is not None and len(subj_) != (maxnum_):\n raise ValueError(\"Array argument subj is not long enough: Is %d, expected %d\" % (len(subj_),(maxnum_)))\n if isinstance(subj_,numpy.ndarray) and not subj_.flags.writeable:\n raise ValueError(\"Argument subj must be writable\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n _subk_minlength = (maxnum_)\n if (maxnum_) > 0 and subk_ is not None and len(subk_) != (maxnum_):\n raise ValueError(\"Array argument subk is not long enough: Is %d, expected %d\" % (len(subk_),(maxnum_)))\n if isinstance(subk_,numpy.ndarray) and not subk_.flags.writeable:\n raise ValueError(\"Argument subk must be writable\")\n if subk_ is None:\n raise ValueError(\"Argument subk may not be None\")\n if isinstance(subk_, numpy.ndarray) and subk_.dtype is numpy.dtype(numpy.int32) and subk_.flags.contiguous:\n _subk_copyarray = False\n _subk_tmp = ctypes.cast(subk_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subk_ is not None:\n _subk_copyarray = True\n _subk_np_tmp = numpy.zeros(len(subk_),numpy.dtype(numpy.int32))\n _subk_np_tmp[:] = subk_\n assert _subk_np_tmp.flags.contiguous\n _subk_tmp = ctypes.cast(_subk_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subk_copyarray = False\n _subk_tmp = None\n \n _subl_minlength = (maxnum_)\n if (maxnum_) > 0 and subl_ is not None and len(subl_) != (maxnum_):\n raise ValueError(\"Array argument subl is not long enough: Is %d, expected %d\" % (len(subl_),(maxnum_)))\n if isinstance(subl_,numpy.ndarray) and not subl_.flags.writeable:\n raise ValueError(\"Argument subl must be writable\")\n if subl_ is None:\n raise ValueError(\"Argument subl may not be None\")\n if isinstance(subl_, numpy.ndarray) and subl_.dtype is numpy.dtype(numpy.int32) and subl_.flags.contiguous:\n _subl_copyarray = False\n _subl_tmp = ctypes.cast(subl_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subl_ is not None:\n _subl_copyarray = True\n _subl_np_tmp = numpy.zeros(len(subl_),numpy.dtype(numpy.int32))\n _subl_np_tmp[:] = subl_\n assert _subl_np_tmp.flags.contiguous\n _subl_tmp = ctypes.cast(_subl_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subl_copyarray = False\n _subl_tmp = None\n \n _valijkl_minlength = (maxnum_)\n if (maxnum_) > 0 and valijkl_ is not None and len(valijkl_) != (maxnum_):\n raise ValueError(\"Array argument valijkl is not long enough: Is %d, expected %d\" % (len(valijkl_),(maxnum_)))\n if isinstance(valijkl_,numpy.ndarray) and not valijkl_.flags.writeable:\n raise ValueError(\"Argument valijkl must be writable\")\n if valijkl_ is None:\n raise ValueError(\"Argument valijkl may not be None\")\n if isinstance(valijkl_, numpy.ndarray) and valijkl_.dtype is numpy.dtype(numpy.float64) and valijkl_.flags.contiguous:\n _valijkl_copyarray = False\n _valijkl_tmp = ctypes.cast(valijkl_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif valijkl_ is not None:\n _valijkl_copyarray = True\n _valijkl_np_tmp = numpy.zeros(len(valijkl_),numpy.dtype(numpy.float64))\n _valijkl_np_tmp[:] = valijkl_\n assert _valijkl_np_tmp.flags.contiguous\n _valijkl_tmp = ctypes.cast(_valijkl_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _valijkl_copyarray = False\n _valijkl_tmp = None\n \n res = __library__.MSK_XX_getbarablocktriplet(self.__nativep,maxnum_,ctypes.byref(num_),_subi_tmp,_subj_tmp,_subk_tmp,_subl_tmp,_valijkl_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n num_ = num_.value\n _num_return_value = num_\n if _subi_copyarray:\n subi_[:] = _subi_np_tmp\n if _subj_copyarray:\n subj_[:] = _subj_np_tmp\n if _subk_copyarray:\n subk_[:] = _subk_np_tmp\n if _subl_copyarray:\n subl_[:] = _subl_np_tmp\n if _valijkl_copyarray:\n valijkl_[:] = _valijkl_np_tmp\n return (_num_return_value)", "def putbarablocktriplet(self,num_,subi,subj,subk,subl,valijkl): # 3\n if subi is None: raise TypeError(\"Invalid type for argument subi\")\n if subi is None:\n subi_ = None\n else:\n try:\n subi_ = memoryview(subi)\n except TypeError:\n try:\n _tmparr_subi = array.array(\"i\",subi)\n except TypeError:\n raise TypeError(\"Argument subi has wrong type\")\n else:\n subi_ = memoryview(_tmparr_subi)\n \n else:\n if subi_.format != \"i\":\n subi_ = memoryview(array.array(\"i\",subi))\n \n if subi_ is not None and len(subi_) != (num_):\n raise ValueError(\"Array argument subi has wrong length\")\n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n \n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n \n if subj_ is not None and len(subj_) != (num_):\n raise ValueError(\"Array argument subj has wrong length\")\n if subk is None: raise TypeError(\"Invalid type for argument subk\")\n if subk is None:\n subk_ = None\n else:\n try:\n subk_ = memoryview(subk)\n except TypeError:\n try:\n _tmparr_subk = array.array(\"i\",subk)\n except TypeError:\n raise TypeError(\"Argument subk has wrong type\")\n else:\n subk_ = memoryview(_tmparr_subk)\n \n else:\n if subk_.format != \"i\":\n subk_ = memoryview(array.array(\"i\",subk))\n \n if subk_ is not None and len(subk_) != (num_):\n raise ValueError(\"Array argument subk has wrong length\")\n if subl is None: raise TypeError(\"Invalid type for argument subl\")\n if subl is None:\n subl_ = None\n else:\n try:\n subl_ = memoryview(subl)\n except TypeError:\n try:\n _tmparr_subl = array.array(\"i\",subl)\n except TypeError:\n raise TypeError(\"Argument subl has wrong type\")\n else:\n subl_ = memoryview(_tmparr_subl)\n \n else:\n if subl_.format != \"i\":\n subl_ = memoryview(array.array(\"i\",subl))\n \n if subl_ is not None and len(subl_) != (num_):\n raise ValueError(\"Array argument subl has wrong length\")\n if valijkl is None: raise TypeError(\"Invalid type for argument valijkl\")\n if valijkl is None:\n valijkl_ = None\n else:\n try:\n valijkl_ = memoryview(valijkl)\n except TypeError:\n try:\n _tmparr_valijkl = array.array(\"d\",valijkl)\n except TypeError:\n raise TypeError(\"Argument valijkl has wrong type\")\n else:\n valijkl_ = memoryview(_tmparr_valijkl)\n \n else:\n if valijkl_.format != \"d\":\n valijkl_ = memoryview(array.array(\"d\",valijkl))\n \n if valijkl_ is not None and len(valijkl_) != (num_):\n raise ValueError(\"Array argument valijkl has wrong length\")\n res = self.__obj.putbarablocktriplet(num_,subi_,subj_,subk_,subl_,valijkl_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbarablocktriplet(self,num_,subi_,subj_,subk_,subl_,valijkl_):\n _subi_minlength = (num_)\n if (num_) > 0 and subi_ is not None and len(subi_) != (num_):\n raise ValueError(\"Array argument subi is not long enough: Is %d, expected %d\" % (len(subi_),(num_)))\n if subi_ is None:\n raise ValueError(\"Argument subi cannot be None\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n _subj_minlength = (num_)\n if (num_) > 0 and subj_ is not None and len(subj_) != (num_):\n raise ValueError(\"Array argument subj is not long enough: Is %d, expected %d\" % (len(subj_),(num_)))\n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n _subk_minlength = (num_)\n if (num_) > 0 and subk_ is not None and len(subk_) != (num_):\n raise ValueError(\"Array argument subk is not long enough: Is %d, expected %d\" % (len(subk_),(num_)))\n if subk_ is None:\n raise ValueError(\"Argument subk cannot be None\")\n if subk_ is None:\n raise ValueError(\"Argument subk may not be None\")\n if isinstance(subk_, numpy.ndarray) and subk_.dtype is numpy.dtype(numpy.int32) and subk_.flags.contiguous:\n _subk_copyarray = False\n _subk_tmp = ctypes.cast(subk_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subk_ is not None:\n _subk_copyarray = True\n _subk_np_tmp = numpy.zeros(len(subk_),numpy.dtype(numpy.int32))\n _subk_np_tmp[:] = subk_\n assert _subk_np_tmp.flags.contiguous\n _subk_tmp = ctypes.cast(_subk_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subk_copyarray = False\n _subk_tmp = None\n \n _subl_minlength = (num_)\n if (num_) > 0 and subl_ is not None and len(subl_) != (num_):\n raise ValueError(\"Array argument subl is not long enough: Is %d, expected %d\" % (len(subl_),(num_)))\n if subl_ is None:\n raise ValueError(\"Argument subl cannot be None\")\n if subl_ is None:\n raise ValueError(\"Argument subl may not be None\")\n if isinstance(subl_, numpy.ndarray) and subl_.dtype is numpy.dtype(numpy.int32) and subl_.flags.contiguous:\n _subl_copyarray = False\n _subl_tmp = ctypes.cast(subl_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subl_ is not None:\n _subl_copyarray = True\n _subl_np_tmp = numpy.zeros(len(subl_),numpy.dtype(numpy.int32))\n _subl_np_tmp[:] = subl_\n assert _subl_np_tmp.flags.contiguous\n _subl_tmp = ctypes.cast(_subl_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subl_copyarray = False\n _subl_tmp = None\n \n _valijkl_minlength = (num_)\n if (num_) > 0 and valijkl_ is not None and len(valijkl_) != (num_):\n raise ValueError(\"Array argument valijkl is not long enough: Is %d, expected %d\" % (len(valijkl_),(num_)))\n if valijkl_ is None:\n raise ValueError(\"Argument valijkl cannot be None\")\n if valijkl_ is None:\n raise ValueError(\"Argument valijkl may not be None\")\n if isinstance(valijkl_, numpy.ndarray) and valijkl_.dtype is numpy.dtype(numpy.float64) and valijkl_.flags.contiguous:\n _valijkl_copyarray = False\n _valijkl_tmp = ctypes.cast(valijkl_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif valijkl_ is not None:\n _valijkl_copyarray = True\n _valijkl_np_tmp = numpy.zeros(len(valijkl_),numpy.dtype(numpy.float64))\n _valijkl_np_tmp[:] = valijkl_\n assert _valijkl_np_tmp.flags.contiguous\n _valijkl_tmp = ctypes.cast(_valijkl_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _valijkl_copyarray = False\n _valijkl_tmp = None\n \n res = __library__.MSK_XX_putbarablocktriplet(self.__nativep,num_,_subi_tmp,_subj_tmp,_subk_tmp,_subl_tmp,_valijkl_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def cyl2B(self):\n return self.cylsects * self.secbytes", "def getnumbarcblocktriplets(self):\n num_ = ctypes.c_int64()\n res = __library__.MSK_XX_getnumbarcblocktriplets(self.__nativep,ctypes.byref(num_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n num_ = num_.value\n _num_return_value = num_\n return (_num_return_value)", "def get_bb_tpdm(self):\n _, dvecb = self.calculate_dvec_spin()\n beta_opdm = numpy.tensordot(dvecb, self.coeff.conj(), axes=2)\n nik_njl_bb = numpy.transpose(numpy.tensordot(dvecb.conj(),\n dvecb,\n axes=((2, 3), (2, 3))),\n axes=(1, 2, 0, 3))\n for ii in range(nik_njl_bb.shape[1]):\n nik_njl_bb[:, ii, ii, :] -= beta_opdm\n return beta_opdm, -nik_njl_bb", "def TB(t,init,rhoS,deltaSC,rhoC,deltaCB,rhoB):\n\n y=SCB(t,init,rhoS,deltaSC,rhoC,deltaCB,rhoB)\n T=np.sum(y,axis=0)\n Y=np.vstack((T,y[2]))\n return(Y)", "def getComboTerms(tuples):\t\t\t\n\t\t\t#return \"[{0}]\".format('; '.join([\"({0})\".format(','.join([text[indices[0]:indices[1]], str(indices[0])])) for indices in tuples]))\n\t\t\treturn \"{0}\".format('; '.join((\"{0}\".format(text[indices[0]:indices[1]]) for indices in tuples)))", "def k_c(self, tl):\n\t\treturn self.KC0*exp(self.HKC/(R*self.TO)*(1. - self.TO/tl))", "def set_bc(self, problem):\n bcs = problem.bcs\n n_bound = cfg.const['N_GHOST_CELLS']\n # Left X-b.c.\n for i in range(0, self.i_min):\n for j in range(self.j_min, self.j_max):\n for k in range(self.k_min, self.k_max): \n if bcs[0] == 't': \n self.U[i][j][k] = self.U[self.i_min][j][k]\n elif bcs[0] == 'w':\n for num in [0, 2, 3, 4]: # 0 -> 3, 1 -> 2, i_min-1 -> i_min, i_min-2 -> i_min+1\n self.U[i][j][k][num] = self.U[self.i_min + (self.i_min - i - 1)][j][k][num]\n for num in [1]:\n self.U[i][j][k][num] = - self.U[self.i_min + (self.i_min - i - 1)][j][k][num]\n else:\n print(\"Errof field.set_ics(): only wall-type and transmissive boundaries supported! Bye!\")\n # Right X-b.c.\n for i in range(self.i_max, self.i_max+n_bound):\n for j in range(self.j_min, self.j_max):\n for k in range(self.k_min, self.k_max): \n if bcs[1] == 't':\n self.U[i][j][k] = self.U[self.i_max-1][j][k]\n elif bcs[1] == 'w':\n for num in [0, 2, 3, 4]: # i_max -> i_max-1 , i_max+1-> i_max-2\n self.U[i][j][k][num] = self.U[self.i_max - (i - self.i_max + 1)][j][k][num]\n for num in [1]:\n self.U[i][j][k][num] = - self.U[self.i_max - (i - self.i_max + 1)][j][k][num]\n else:\n print(\"Error field.set_ics(): only wall-type and transmissive boundaries supported! Bye!\")\n # Left Y-b.c.\n for i in range(0, self.i_max+n_bound):\n for j in range(0, self.j_min):\n for k in range(self.k_min, self.k_max): \n if bcs[2] == 't':\n self.U[i][j][k] = self.U[i][self.j_min][k]\n elif bcs[2] == 'w':\n for num in [0, 1, 3, 4]:\n self.U[i][j][k][num] = self.U[i][self.j_min + (self.j_min - j - 1)][k][num]\n for num in [2]:\n self.U[i][j][k][num] = - self.U[i][self.j_min + (self.j_min - j - 1)][k][num]\n else:\n print(\"Error field.set_ics(): only wall-type and transmissive boundaries supported! Bye!\")\n # Right Y-b.c.\n for i in range(0, self.i_max+n_bound):\n for j in range(self.j_max, self.j_max+n_bound):\n for k in range(self.k_min, self.k_max): \n if bcs[3] == 't':\n self.U[i][j][k] = self.U[i][self.j_max-1][k]\n elif bcs[3] == 'w':\n for num in [0, 1, 3, 4]:\n self.U[i][j][k][num] = self.U[i][self.j_max - (j - self.j_max + 1)][k][num]\n for num in [2]:\n self.U[i][j][k][num] = -self.U[i][self.j_max - (j - self.j_max + 1)][k][num]\n else:\n print(\"Error field.set_ics(): only wall-type and transmissive boundaries supported! Bye!\")\n # Left Z-b.c.\n for i in range(0, self.i_max+n_bound):\n for j in range(0, self.j_max+n_bound):\n for k in range(0, self.k_min): \n if bcs[4] == 't':\n self.U[i][j][k] = self.U[i][j][self.k_min]\n elif bcs[4] == 'w':\n for num in [0, 1, 2, 4]:\n self.U[i][j][k][num] = self.U[i][j][self.k_min + (self.k_min - k - 1)][num]\n for num in [3]:\n self.U[i][j][k][num] = - self.U[i][j][self.k_min + (self.k_min - k - 1)][num]\n else:\n print(\"Error field.set_ics(): only wall-type and transmissive boundaries supported! Bye!\")\n # Right Z-b.c.\n for i in range(0, self.i_max+n_bound):\n for j in range(0, self.j_max+n_bound):\n for k in range(self.k_max, self.k_max+n_bound):\n if bcs[5] == 't':\n self.U[i][j][k] = self.U[i][j][self.k_max-1]\n elif bcs[5] == 'w':\n for num in [0, 1, 2, 4]:\n self.U[i][j][k][num] = self.U[i][j][self.k_max - (k - self.k_max + 1)][num]\n for num in [3]:\n self.U[i][j][k][num] = - self.U[i][j][self.k_max - (k - self.k_max + 1)][num]\n else:\n print(\"Error field.set_ics(): only wall-type and transmissive boundaries supported! Bye!\")", "def cbar( self , y , t = 0 ):\n r = self.t2r( t )\n u = self.c( y , r , t )\n \n return u", "def getnumbarcblocktriplets(self): # 3\n res,resargs = self.__obj.getnumbarcblocktriplets()\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _num_return_value = resargs\n return _num_return_value", "def k_b(self):\n\n b = self.width()/2\n c = self.height()/2\n\n Ex = self.E\n Ey = self.E\n nu_xy = self.nu\n nu_yx = self.nu\n G = self.E/(2*(1 + self.nu))\n t = self.t\n\n # Stiffness matrix for plate bending. This matrix was derived using a jupyter notebook. The\n # notebook can be found in the `Derivations`` folder of this project.\n k = t**3/12*array([[(-Ex*nu_yx*b**2*c**2/4 - Ex*c**4 - Ey*nu_xy*b**2*c**2/4 - Ey*b**4 + 7*G*nu_xy*nu_yx*b**2*c**2/5 - 7*G*b**2*c**2/5)/(b**3*c**3*(nu_xy*nu_yx - 1)), (-Ex*nu_yx*c**2/2 - Ey*b**2 + G*nu_xy*nu_yx*c**2/5 - G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), (Ex*c**2 + Ey*nu_xy*b**2/2 - G*nu_xy*nu_yx*b**2/5 + G*b**2/5)/(b**2*c*(nu_xy*nu_yx - 1)), (5*Ex*nu_yx*b**2*c**2 + 20*Ex*c**4 + 5*Ey*nu_xy*b**2*c**2 - 10*Ey*b**4 - 28*G*nu_xy*nu_yx*b**2*c**2 + 28*G*b**2*c**2)/(20*b**3*c**3*(nu_xy*nu_yx - 1)), (Ex*nu_yx*c**2/2 - Ey*b**2/2 - G*nu_xy*nu_yx*c**2/5 + G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), (5*Ex*c**2 - G*nu_xy*nu_yx*b**2 + G*b**2)/(5*b**2*c*(nu_xy*nu_yx - 1)), (-5*Ex*nu_yx*b**2*c**2 + 10*Ex*c**4 - 5*Ey*nu_xy*b**2*c**2 + 10*Ey*b**4 + 28*G*nu_xy*nu_yx*b**2*c**2 - 28*G*b**2*c**2)/(20*b**3*c**3*(nu_xy*nu_yx - 1)), (-Ey*b**2/2 - G*nu_xy*nu_yx*c**2/5 + G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), (Ex*c**2/2 + G*b**2*(nu_xy*nu_yx - 1)/5)/(b**2*c*(nu_xy*nu_yx - 1)), (5*Ex*nu_yx*b**2*c**2 - 10*Ex*c**4 + 5*Ey*nu_xy*b**2*c**2 + 20*Ey*b**4 - 28*G*nu_xy*nu_yx*b**2*c**2 + 28*G*b**2*c**2)/(20*b**3*c**3*(nu_xy*nu_yx - 1)), (-5*Ey*b**2 + G*nu_xy*nu_yx*c**2 - G*c**2)/(5*b*c**2*(nu_xy*nu_yx - 1)), (Ex*c**2/2 - Ey*nu_xy*b**2/2 + G*b**2*(nu_xy*nu_yx - 1)/5)/(b**2*c*(nu_xy*nu_yx - 1))],\n [(-Ey*nu_xy*c**2/2 - Ey*b**2 + G*nu_xy*nu_yx*c**2/5 - G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), 4*(-5*Ey*b**2 + 2*G*nu_xy*nu_yx*c**2 - 2*G*c**2)/(15*b*c*(nu_xy*nu_yx - 1)), Ey*nu_xy/(nu_xy*nu_yx - 1), (Ey*nu_xy*c**2/2 - Ey*b**2/2 - G*nu_xy*nu_yx*c**2/5 + G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), 2*(-5*Ey*b**2 - 4*G*nu_xy*nu_yx*c**2 + 4*G*c**2)/(15*b*c*(nu_xy*nu_yx - 1)), 0, (Ey*b**2/2 + G*nu_xy*nu_yx*c**2/5 - G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), (-5*Ey*b**2 + 2*G*nu_xy*nu_yx*c**2 - 2*G*c**2)/(15*b*c*(nu_xy*nu_yx - 1)), 0, (5*Ey*b**2 - G*nu_xy*nu_yx*c**2 + G*c**2)/(5*b*c**2*(nu_xy*nu_yx - 1)), 2*(-5*Ey*b**2 - G*nu_xy*nu_yx*c**2 + G*c**2)/(15*b*c*(nu_xy*nu_yx - 1)), 0],\n [(Ex*nu_yx*b**2/2 + Ex*c**2 - G*nu_xy*nu_yx*b**2/5 + G*b**2/5)/(b**2*c*(nu_xy*nu_yx - 1)), Ex*nu_yx/(nu_xy*nu_yx - 1), 4*(-5*Ex*c**2 + 2*G*nu_xy*nu_yx*b**2 - 2*G*b**2)/(15*b*c*(nu_xy*nu_yx - 1)), (-5*Ex*c**2 + G*nu_xy*nu_yx*b**2 - G*b**2)/(5*b**2*c*(nu_xy*nu_yx - 1)), 0, 2*(-5*Ex*c**2 - G*nu_xy*nu_yx*b**2 + G*b**2)/(15*b*c*(nu_xy*nu_yx - 1)), -(Ex*c**2/2 + G*b**2*(nu_xy*nu_yx - 1)/5)/(b**2*c*(nu_xy*nu_yx - 1)), 0, (-5*Ex*c**2 + 2*G*b**2*(nu_xy*nu_yx - 1))/(15*b*c*(nu_xy*nu_yx - 1)), (-Ex*nu_yx*b**2/2 + Ex*c**2/2 + G*nu_xy*nu_yx*b**2/5 - G*b**2/5)/(b**2*c*(nu_xy*nu_yx - 1)), 0, -(10*Ex*c**2 + 8*G*b**2*(nu_xy*nu_yx - 1))/(15*b*c*(nu_xy*nu_yx - 1))],\n [(5*Ex*nu_yx*b**2*c**2 + 20*Ex*c**4 + 5*Ey*nu_xy*b**2*c**2 - 10*Ey*b**4 - 28*G*nu_xy*nu_yx*b**2*c**2 + 28*G*b**2*c**2)/(20*b**3*c**3*(nu_xy*nu_yx - 1)), (Ex*nu_yx*c**2/2 - Ey*b**2/2 - G*nu_xy*nu_yx*c**2/5 + G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), (-5*Ex*c**2 + G*nu_xy*nu_yx*b**2 - G*b**2)/(5*b**2*c*(nu_xy*nu_yx - 1)), (-Ex*nu_yx*b**2*c**2/4 - Ex*c**4 - Ey*nu_xy*b**2*c**2/4 - Ey*b**4 + 7*G*nu_xy*nu_yx*b**2*c**2/5 - 7*G*b**2*c**2/5)/(b**3*c**3*(nu_xy*nu_yx - 1)), (-Ex*nu_yx*c**2/2 - Ey*b**2 + G*nu_xy*nu_yx*c**2/5 - G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), (-Ex*c**2 - Ey*nu_xy*b**2/2 + G*nu_xy*nu_yx*b**2/5 - G*b**2/5)/(b**2*c*(nu_xy*nu_yx - 1)), (5*Ex*nu_yx*b**2*c**2 - 10*Ex*c**4 + 5*Ey*nu_xy*b**2*c**2 + 20*Ey*b**4 - 28*G*nu_xy*nu_yx*b**2*c**2 + 28*G*b**2*c**2)/(20*b**3*c**3*(nu_xy*nu_yx - 1)), (-5*Ey*b**2 + G*nu_xy*nu_yx*c**2 - G*c**2)/(5*b*c**2*(nu_xy*nu_yx - 1)), (-Ex*c**2/2 + Ey*nu_xy*b**2/2 - G*b**2*(nu_xy*nu_yx - 1)/5)/(b**2*c*(nu_xy*nu_yx - 1)), (-5*Ex*nu_yx*b**2*c**2 + 10*Ex*c**4 - 5*Ey*nu_xy*b**2*c**2 + 10*Ey*b**4 + 28*G*nu_xy*nu_yx*b**2*c**2 - 28*G*b**2*c**2)/(20*b**3*c**3*(nu_xy*nu_yx - 1)), (-Ey*b**2/2 - G*nu_xy*nu_yx*c**2/5 + G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), -(Ex*c**2/2 + G*b**2*(nu_xy*nu_yx - 1)/5)/(b**2*c*(nu_xy*nu_yx - 1))],\n [(Ey*nu_xy*c**2/2 - Ey*b**2/2 - G*nu_xy*nu_yx*c**2/5 + G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), 2*(-5*Ey*b**2 - 4*G*nu_xy*nu_yx*c**2 + 4*G*c**2)/(15*b*c*(nu_xy*nu_yx - 1)), 0, (-Ey*nu_xy*c**2/2 - Ey*b**2 + G*nu_xy*nu_yx*c**2/5 - G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), 4*(-5*Ey*b**2 + 2*G*nu_xy*nu_yx*c**2 - 2*G*c**2)/(15*b*c*(nu_xy*nu_yx - 1)), -Ey*nu_xy/(nu_xy*nu_yx - 1), (5*Ey*b**2 - G*nu_xy*nu_yx*c**2 + G*c**2)/(5*b*c**2*(nu_xy*nu_yx - 1)), 2*(-5*Ey*b**2 - G*nu_xy*nu_yx*c**2 + G*c**2)/(15*b*c*(nu_xy*nu_yx - 1)), 0, (Ey*b**2/2 + G*nu_xy*nu_yx*c**2/5 - G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), (-5*Ey*b**2 + 2*G*nu_xy*nu_yx*c**2 - 2*G*c**2)/(15*b*c*(nu_xy*nu_yx - 1)), 0],\n [(5*Ex*c**2 - G*nu_xy*nu_yx*b**2 + G*b**2)/(5*b**2*c*(nu_xy*nu_yx - 1)), 0, 2*(-5*Ex*c**2 - G*nu_xy*nu_yx*b**2 + G*b**2)/(15*b*c*(nu_xy*nu_yx - 1)), (-Ex*nu_yx*b**2/2 - Ex*c**2 + G*nu_xy*nu_yx*b**2/5 - G*b**2/5)/(b**2*c*(nu_xy*nu_yx - 1)), -Ex*nu_yx/(nu_xy*nu_yx - 1), 4*(-5*Ex*c**2 + 2*G*nu_xy*nu_yx*b**2 - 2*G*b**2)/(15*b*c*(nu_xy*nu_yx - 1)), (Ex*nu_yx*b**2/2 - Ex*c**2/2 - G*nu_xy*nu_yx*b**2/5 + G*b**2/5)/(b**2*c*(nu_xy*nu_yx - 1)), 0, -(10*Ex*c**2 + 8*G*b**2*(nu_xy*nu_yx - 1))/(15*b*c*(nu_xy*nu_yx - 1)), (Ex*c**2/2 + G*b**2*(nu_xy*nu_yx - 1)/5)/(b**2*c*(nu_xy*nu_yx - 1)), 0, (-5*Ex*c**2 + 2*G*b**2*(nu_xy*nu_yx - 1))/(15*b*c*(nu_xy*nu_yx - 1))],\n [(-5*Ex*nu_yx*b**2*c**2 + 10*Ex*c**4 - 5*Ey*nu_xy*b**2*c**2 + 10*Ey*b**4 + 28*G*nu_xy*nu_yx*b**2*c**2 - 28*G*b**2*c**2)/(20*b**3*c**3*(nu_xy*nu_yx - 1)), (Ey*b**2/2 + G*nu_xy*nu_yx*c**2/5 - G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), -(Ex*c**2/2 + G*b**2*(nu_xy*nu_yx - 1)/5)/(b**2*c*(nu_xy*nu_yx - 1)), (5*Ex*nu_yx*b**2*c**2 - 10*Ex*c**4 + 5*Ey*nu_xy*b**2*c**2 + 20*Ey*b**4 - 28*G*nu_xy*nu_yx*b**2*c**2 + 28*G*b**2*c**2)/(20*b**3*c**3*(nu_xy*nu_yx - 1)), (5*Ey*b**2 - G*nu_xy*nu_yx*c**2 + G*c**2)/(5*b*c**2*(nu_xy*nu_yx - 1)), (-5*Ex*c**2 - 25*Ey*nu_xy*b**2 + 2*b**2*(15*Ey*nu_xy - G*nu_xy*nu_yx + G))/(10*b**2*c*(nu_xy*nu_yx - 1)), (-Ex*nu_yx*b**2*c**2/4 - Ex*c**4 - Ey*nu_xy*b**2*c**2/4 - Ey*b**4 + 7*G*nu_xy*nu_yx*b**2*c**2/5 - 7*G*b**2*c**2/5)/(b**3*c**3*(nu_xy*nu_yx - 1)), (Ex*nu_yx*c**2/2 + Ey*b**2 - G*nu_xy*nu_yx*c**2/5 + G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), (-Ex*c**2 - Ey*nu_xy*b**2/2 + G*b**2*(nu_xy*nu_yx - 1)/5)/(b**2*c*(nu_xy*nu_yx - 1)), (5*Ex*nu_yx*b**2*c**2 + 20*Ex*c**4 + 5*Ey*nu_xy*b**2*c**2 - 10*Ey*b**4 - 28*G*nu_xy*nu_yx*b**2*c**2 + 28*G*b**2*c**2)/(20*b**3*c**3*(nu_xy*nu_yx - 1)), (-Ex*nu_yx*c**2/2 + Ey*b**2/2 + G*nu_xy*nu_yx*c**2/5 - G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), (-Ex*c**2 + G*b**2*(nu_xy*nu_yx - 1)/5)/(b**2*c*(nu_xy*nu_yx - 1))],\n [(-Ey*b**2/2 - G*nu_xy*nu_yx*c**2/5 + G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), (-5*Ey*b**2 + 2*G*nu_xy*nu_yx*c**2 - 2*G*c**2)/(15*b*c*(nu_xy*nu_yx - 1)), 0, (-5*Ey*b**2 + G*nu_xy*nu_yx*c**2 - G*c**2)/(5*b*c**2*(nu_xy*nu_yx - 1)), 2*(-5*Ey*b**2 - G*nu_xy*nu_yx*c**2 + G*c**2)/(15*b*c*(nu_xy*nu_yx - 1)), 0, (Ey*nu_xy*c**2/2 + Ey*b**2 - G*nu_xy*nu_yx*c**2/5 + G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), 4*(-5*Ey*b**2 + 2*G*nu_xy*nu_yx*c**2 - 2*G*c**2)/(15*b*c*(nu_xy*nu_yx - 1)), Ey*nu_xy/(nu_xy*nu_yx - 1), (-Ey*nu_xy*c**2/2 + Ey*b**2/2 + G*nu_xy*nu_yx*c**2/5 - G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), 2*(-5*Ey*b**2 - 4*G*nu_xy*nu_yx*c**2 + 4*G*c**2)/(15*b*c*(nu_xy*nu_yx - 1)), 0],\n [(Ex*c**2/2 + G*b**2*(nu_xy*nu_yx - 1)/5)/(b**2*c*(nu_xy*nu_yx - 1)), 0, (-5*Ex*c**2 + 2*G*b**2*(nu_xy*nu_yx - 1))/(15*b*c*(nu_xy*nu_yx - 1)), (Ex*nu_yx*b**2/2 - Ex*c**2/2 - G*nu_xy*nu_yx*b**2/5 + G*b**2/5)/(b**2*c*(nu_xy*nu_yx - 1)), 0, -(10*Ex*c**2 + 8*G*b**2*(nu_xy*nu_yx - 1))/(15*b*c*(nu_xy*nu_yx - 1)), (-Ex*nu_yx*b**2/2 - Ex*c**2 + G*nu_xy*nu_yx*b**2/5 - G*b**2/5)/(b**2*c*(nu_xy*nu_yx - 1)), Ex*nu_yx/(nu_xy*nu_yx - 1), 4*(-5*Ex*c**2 + 2*G*b**2*(nu_xy*nu_yx - 1))/(15*b*c*(nu_xy*nu_yx - 1)), (Ex*c**2 - G*b**2*(nu_xy*nu_yx - 1)/5)/(b**2*c*(nu_xy*nu_yx - 1)), 0, -(10*Ex*c**2 + 2*G*b**2*(nu_xy*nu_yx - 1))/(15*b*c*(nu_xy*nu_yx - 1))],\n [(5*Ex*nu_yx*b**2*c**2 - 10*Ex*c**4 + 5*Ey*nu_xy*b**2*c**2 + 20*Ey*b**4 - 28*G*nu_xy*nu_yx*b**2*c**2 + 28*G*b**2*c**2)/(20*b**3*c**3*(nu_xy*nu_yx - 1)), (5*Ey*b**2 - G*nu_xy*nu_yx*c**2 + G*c**2)/(5*b*c**2*(nu_xy*nu_yx - 1)), (5*Ex*c**2 + 25*Ey*nu_xy*b**2 - 2*b**2*(15*Ey*nu_xy - G*nu_xy*nu_yx + G))/(10*b**2*c*(nu_xy*nu_yx - 1)), (-5*Ex*nu_yx*b**2*c**2 + 10*Ex*c**4 - 5*Ey*nu_xy*b**2*c**2 + 10*Ey*b**4 + 28*G*nu_xy*nu_yx*b**2*c**2 - 28*G*b**2*c**2)/(20*b**3*c**3*(nu_xy*nu_yx - 1)), (Ey*b**2/2 + G*nu_xy*nu_yx*c**2/5 - G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), (Ex*c**2/2 + G*b**2*(nu_xy*nu_yx - 1)/5)/(b**2*c*(nu_xy*nu_yx - 1)), (5*Ex*nu_yx*b**2*c**2 + 20*Ex*c**4 + 5*Ey*nu_xy*b**2*c**2 - 10*Ey*b**4 - 28*G*nu_xy*nu_yx*b**2*c**2 + 28*G*b**2*c**2)/(20*b**3*c**3*(nu_xy*nu_yx - 1)), (-Ex*nu_yx*c**2/2 + Ey*b**2/2 + G*nu_xy*nu_yx*c**2/5 - G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), (Ex*c**2 - G*b**2*(nu_xy*nu_yx - 1)/5)/(b**2*c*(nu_xy*nu_yx - 1)), (-Ex*nu_yx*b**2*c**2/4 - Ex*c**4 - Ey*nu_xy*b**2*c**2/4 - Ey*b**4 + 7*G*nu_xy*nu_yx*b**2*c**2/5 - 7*G*b**2*c**2/5)/(b**3*c**3*(nu_xy*nu_yx - 1)), (Ex*nu_yx*c**2/2 + Ey*b**2 - G*nu_xy*nu_yx*c**2/5 + G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), (Ex*c**2 + Ey*nu_xy*b**2/2 - G*b**2*(nu_xy*nu_yx - 1)/5)/(b**2*c*(nu_xy*nu_yx - 1))],\n [(-5*Ey*b**2 + G*nu_xy*nu_yx*c**2 - G*c**2)/(5*b*c**2*(nu_xy*nu_yx - 1)), 2*(-5*Ey*b**2 - G*nu_xy*nu_yx*c**2 + G*c**2)/(15*b*c*(nu_xy*nu_yx - 1)), 0, (-Ey*b**2/2 - G*nu_xy*nu_yx*c**2/5 + G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), (-5*Ey*b**2 + 2*G*nu_xy*nu_yx*c**2 - 2*G*c**2)/(15*b*c*(nu_xy*nu_yx - 1)), 0, (-Ey*nu_xy*c**2/2 + Ey*b**2/2 + G*nu_xy*nu_yx*c**2/5 - G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), 2*(-5*Ey*b**2 - 4*G*nu_xy*nu_yx*c**2 + 4*G*c**2)/(15*b*c*(nu_xy*nu_yx - 1)), 0, (Ey*nu_xy*c**2/2 + Ey*b**2 - G*nu_xy*nu_yx*c**2/5 + G*c**2/5)/(b*c**2*(nu_xy*nu_yx - 1)), 4*(-5*Ey*b**2 + 2*G*nu_xy*nu_yx*c**2 - 2*G*c**2)/(15*b*c*(nu_xy*nu_yx - 1)), -Ey*nu_xy/(nu_xy*nu_yx - 1)],\n [(-Ex*nu_yx*b**2/2 + Ex*c**2/2 + G*nu_xy*nu_yx*b**2/5 - G*b**2/5)/(b**2*c*(nu_xy*nu_yx - 1)), 0, -(10*Ex*c**2 + 8*G*b**2*(nu_xy*nu_yx - 1))/(15*b*c*(nu_xy*nu_yx - 1)), -(Ex*c**2/2 + G*b**2*(nu_xy*nu_yx - 1)/5)/(b**2*c*(nu_xy*nu_yx - 1)), 0, (-5*Ex*c**2 + 2*G*b**2*(nu_xy*nu_yx - 1))/(15*b*c*(nu_xy*nu_yx - 1)), (-Ex*c**2 + G*b**2*(nu_xy*nu_yx - 1)/5)/(b**2*c*(nu_xy*nu_yx - 1)), 0, -(10*Ex*c**2 + 2*G*b**2*(nu_xy*nu_yx - 1))/(15*b*c*(nu_xy*nu_yx - 1)), (Ex*nu_yx*b**2/2 + Ex*c**2 - G*nu_xy*nu_yx*b**2/5 + G*b**2/5)/(b**2*c*(nu_xy*nu_yx - 1)), -Ex*nu_yx/(nu_xy*nu_yx - 1), 4*(-5*Ex*c**2 + 2*G*b**2*(nu_xy*nu_yx - 1))/(15*b*c*(nu_xy*nu_yx - 1))]])\n \n # Calculate the stiffness of a weak spring for the drilling degree of freedom (rotation\n # about local z). We'll set the weak spring to be 1000 times weaker than any of the other\n # rotational stiffnesses in the matrix.\n k_rz = min(abs(k[1, 1]), abs(k[2, 2]), abs(k[4, 4]), abs(k[5, 5]),\n abs(k[7, 7]), abs(k[8, 8]), abs(k[10, 10]), abs(k[11, 11])\n )/1000\n\n # The matrix currently only holds terms related to bending action. We need to expand it to\n # with placeholders for all the degrees of freedom so it can be directly added to the\n # membrane stiffness matrix later on.\n\n # Initialize the expanded stiffness matrix to all zeros\n k_exp = zeros((24, 24))\n\n # Step through each term in the unexpanded stiffness matrix\n\n # i = Unexpanded matrix row\n for i in range(12):\n\n # j = Unexpanded matrix column\n for j in range(12):\n \n # Find the corresponding term in the expanded stiffness\n # matrix\n\n # m = Expanded matrix row\n if i in [0, 3, 6, 9]: # indices associated with deflection in z\n m = 2*i + 2\n if i in [1, 4, 7, 10]: # indices associated with rotation about x\n m = 2*i + 1\n if i in [2, 5, 8, 11]: # indices associated with rotation about y\n m = 2*i\n\n # n = Expanded matrix column\n if j in [0, 3, 6, 9]: # indices associated with deflection in z\n n = 2*j + 2\n if j in [1, 4, 7, 10]: # indices associated with rotation about x\n n = 2*j + 1\n if j in [2, 5, 8, 11]: # indices associated with rotation about y\n n = 2*j\n \n # Ensure the indices are integers rather than floats\n m, n = round(m), round(n)\n\n # Add the term from the unexpanded matrix into the expanded\n # matrix\n k_exp[m, n] = k[i, j]\n \n # Add the drilling degree of freedom's weak spring\n k_exp[5, 5] = k_rz\n k_exp[11, 11] = k_rz\n k_exp[17, 17] = k_rz\n k_exp[23, 23] = k_rz\n \n # Return the local stiffness matrix\n return k_exp", "def cbar( self , y , t = 0 ):\n \n u = self.c( self.zbar, y , self.rbar , t )\n \n return u", "def _obtain_c_strand(self, template_strand):\r\n input_strand = numpy.transpose(copy.deepcopy(template_strand))\r\n strand = [[], []]\r\n for bases in input_strand:\r\n strand[0].insert(0, c_pairing[numpy.where(t_pairing == bases[0])][0])\r\n if bases[1] != 0:\r\n strand[1].insert(0, c_pairing[numpy.where(t_pairing == bases[1])][0])\r\n else:\r\n strand[1].insert(0, 0)\r\n\r\n return numpy.array(strand)", "def BB ( self ) :\n return self.__bb", "def BB ( self ) :\n return self.__bb", "def getbarcidx(self,idx_,sub,weights): # 3\n maxnum_ = self.getbarcidxinfo((idx_))\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n _copyback_sub = False\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"q\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n _copyback_sub = True\n else:\n if sub_.format != \"q\":\n sub_ = memoryview(array.array(\"q\",sub))\n _copyback_sub = True\n if sub_ is not None and len(sub_) != (maxnum_):\n raise ValueError(\"Array argument sub has wrong length\")\n if weights is None: raise TypeError(\"Invalid type for argument weights\")\n _copyback_weights = False\n if weights is None:\n weights_ = None\n else:\n try:\n weights_ = memoryview(weights)\n except TypeError:\n try:\n _tmparr_weights = array.array(\"d\",weights)\n except TypeError:\n raise TypeError(\"Argument weights has wrong type\")\n else:\n weights_ = memoryview(_tmparr_weights)\n _copyback_weights = True\n else:\n if weights_.format != \"d\":\n weights_ = memoryview(array.array(\"d\",weights))\n _copyback_weights = True\n if weights_ is not None and len(weights_) != (maxnum_):\n raise ValueError(\"Array argument weights has wrong length\")\n res,resargs = self.__obj.getbarcidx(idx_,maxnum_,sub_,weights_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _j_return_value,_num_return_value = resargs\n if _copyback_weights:\n weights[:] = _tmparr_weights\n if _copyback_sub:\n sub[:] = _tmparr_sub\n return _j_return_value,_num_return_value", "def b11(self,k1,k2,c):\n return (k1/k2+k2/k1)*c.pkInterp(k1)*c.pkInterp(k2)", "def b12(self,k1,k2,c):\n return 2.0/3.0*(1-self.mu)*c.pkInterp(k1)*c.pkInterp(k2)", "def get_BS(self):\n label = 'KKR BS calc.'\n BS_dict = self.ctx.BS_params_dict\n key_list = list(BS_dict)\n description = 'User defined BandStructure parameters '\n for key in key_list:\n description += f'{key}= {BS_dict[key]} ,'\n\n code = self.inputs.kkr\n remote = self.inputs.remote_data\n params = self.ctx.BS_kkrparams\n kpoints = self.ctx.BS_kpoints\n options = {\n 'max_wallclock_seconds': self.ctx.max_wallclock_seconds,\n 'resources': self.ctx.resources,\n 'queue_name': self.ctx.queue,\n }\n if self.ctx.custom_scheduler_commands:\n options['custom_scheduler_commands'] = self.ctx.custom_scheduler_commands\n if self.ctx.append_text:\n options['append_text'] = self.ctx.append_text\n if self.ctx.prepend_text:\n options['prepend_text'] = self.ctx.prepend_text\n if self.ctx.additional_retrieve_list:\n options['additional_retrieve_list'] = self.ctx.additional_retrieve_list\n\n # get inputs for band structure calculation\n inputs = get_inputs_kkr(\n code, remote, options, label, description, parameters=params, serial=(not self.ctx.withmpi)\n )\n inputs.kpoints = kpoints\n\n # add nonco angles if found in the parent calculation or in the input\n if 'initial_noco_angles' in self.inputs:\n # overwrite nonco_angles from the input if given\n inputs['initial_noco_angles'] = self.inputs.initial_noco_angles\n self.report('used nonco angles from input to workflow')\n else:\n # extract from the parent calculation\n parent_calc = remote.get_incoming(node_class=KkrCalculation).first().node\n if 'initial_noco_angles' in parent_calc.inputs:\n noco_angles = extract_noco_angles(\n fix_dir_threshold=Float(1e-6), # make small enough\n old_noco_angles=parent_calc.inputs.initial_noco_angles,\n last_retrieved=parent_calc.outputs.retrieved\n )\n # set nonco angles (either from input or from output if it was updated)\n if noco_angles == {}:\n noco_angles = parent_calc.inputs.initial_noco_angles\n self.report(f'extract nonco angles and use from parent ({noco_angles})')\n\n BS_run = self.submit(KkrCalculation, **inputs)\n self.ctx.last_calc = BS_run\n\n return ToContext(BS_run=BS_run)", "def bkg_coeff(self):\n return self._bkg_coeff", "def build_glyCB(self, gCBd: Dihedron): # -> None:\n ...", "def block(cell):\n value=[0,0,cell[2]]\n for i in xrange(2):\n if cell[i] < 3:\n value[i] = 1\n if cell[i] >= 3 and cell[i] < 6:\n value[i] = 2\n if cell[i] >= 6:\n value[i] = 3\n return (\"block\",value[0],value[1],value[2])", "def getbarcidxj(self,idx_): # 3\n res,resargs = self.__obj.getbarcidxj(idx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _j_return_value = resargs\n return _j_return_value", "def __getitem__(self, k):\n try:\n return self.sects.__getitem__(k)\n except KeyError:\n if not isinstance(k, tuple) or not len(k) == len(self.qhape):\n raise KeyError(\"Malformed block key: %s\" % str(k))\n if not self.is_valid_key(k):\n raise KeyError(\n \"Requested a block forbidden by symmetry: %s\" % str(k)\n )\n # Even though the requested block was not found it's a valid\n # block, so we create it.\n try:\n block = self.defblock(k)\n except ValueError:\n msg = \"Requested block has non-existent quantum numbers.\"\n raise KeyError(msg)\n self[k] = block\n return block" ]

[ "0.8242245", "0.73333", "0.71987563", "0.6874446", "0.6724419", "0.57594484", "0.55948", "0.52580005", "0.51605344", "0.5067685", "0.5061451", "0.5032754", "0.50226194", "0.49841416", "0.49765313", "0.4926271", "0.49114424", "0.4871388", "0.48678747", "0.48249632", "0.48249632", "0.47712103", "0.47272202", "0.472086", "0.4692116", "0.4686122", "0.46269444", "0.46164495", "0.4615814", "0.45700318" ]

[ "def getbarablocktriplet(self,subi,subj,subk,subl,valijkl): # 3\n maxnum_ = self.getnumbarablocktriplets()\n if subi is None: raise TypeError(\"Invalid type for argument subi\")\n _copyback_subi = False\n if subi is None:\n subi_ = None\n else:\n try:\n subi_ = memoryview(subi)\n except TypeError:\n try:\n _tmparr_subi = array.array(\"i\",subi)\n except TypeError:\n raise TypeError(\"Argument subi has wrong type\")\n else:\n subi_ = memoryview(_tmparr_subi)\n _copyback_subi = True\n else:\n if subi_.format != \"i\":\n subi_ = memoryview(array.array(\"i\",subi))\n _copyback_subi = True\n if subi_ is not None and len(subi_) != (maxnum_):\n raise ValueError(\"Array argument subi has wrong length\")\n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n _copyback_subj = False\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n _copyback_subj = True\n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n _copyback_subj = True\n if subj_ is not None and len(subj_) != (maxnum_):\n raise ValueError(\"Array argument subj has wrong length\")\n if subk is None: raise TypeError(\"Invalid type for argument subk\")\n _copyback_subk = False\n if subk is None:\n subk_ = None\n else:\n try:\n subk_ = memoryview(subk)\n except TypeError:\n try:\n _tmparr_subk = array.array(\"i\",subk)\n except TypeError:\n raise TypeError(\"Argument subk has wrong type\")\n else:\n subk_ = memoryview(_tmparr_subk)\n _copyback_subk = True\n else:\n if subk_.format != \"i\":\n subk_ = memoryview(array.array(\"i\",subk))\n _copyback_subk = True\n if subk_ is not None and len(subk_) != (maxnum_):\n raise ValueError(\"Array argument subk has wrong length\")\n if subl is None: raise TypeError(\"Invalid type for argument subl\")\n _copyback_subl = False\n if subl is None:\n subl_ = None\n else:\n try:\n subl_ = memoryview(subl)\n except TypeError:\n try:\n _tmparr_subl = array.array(\"i\",subl)\n except TypeError:\n raise TypeError(\"Argument subl has wrong type\")\n else:\n subl_ = memoryview(_tmparr_subl)\n _copyback_subl = True\n else:\n if subl_.format != \"i\":\n subl_ = memoryview(array.array(\"i\",subl))\n _copyback_subl = True\n if subl_ is not None and len(subl_) != (maxnum_):\n raise ValueError(\"Array argument subl has wrong length\")\n if valijkl is None: raise TypeError(\"Invalid type for argument valijkl\")\n _copyback_valijkl = False\n if valijkl is None:\n valijkl_ = None\n else:\n try:\n valijkl_ = memoryview(valijkl)\n except TypeError:\n try:\n _tmparr_valijkl = array.array(\"d\",valijkl)\n except TypeError:\n raise TypeError(\"Argument valijkl has wrong type\")\n else:\n valijkl_ = memoryview(_tmparr_valijkl)\n _copyback_valijkl = True\n else:\n if valijkl_.format != \"d\":\n valijkl_ = memoryview(array.array(\"d\",valijkl))\n _copyback_valijkl = True\n if valijkl_ is not None and len(valijkl_) != (maxnum_):\n raise ValueError(\"Array argument valijkl has wrong length\")\n res,resargs = self.__obj.getbarablocktriplet(maxnum_,subi_,subj_,subk_,subl_,valijkl_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _num_return_value = resargs\n if _copyback_valijkl:\n valijkl[:] = _tmparr_valijkl\n if _copyback_subl:\n subl[:] = _tmparr_subl\n if _copyback_subk:\n subk[:] = _tmparr_subk\n if _copyback_subj:\n subj[:] = _tmparr_subj\n if _copyback_subi:\n subi[:] = _tmparr_subi\n return _num_return_value", "def getbarcblocktriplet(self,subj,subk,subl,valjkl): # 3\n maxnum_ = self.getnumbarcblocktriplets()\n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n _copyback_subj = False\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n _copyback_subj = True\n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n _copyback_subj = True\n if subj_ is not None and len(subj_) != (maxnum_):\n raise ValueError(\"Array argument subj has wrong length\")\n if subk is None: raise TypeError(\"Invalid type for argument subk\")\n _copyback_subk = False\n if subk is None:\n subk_ = None\n else:\n try:\n subk_ = memoryview(subk)\n except TypeError:\n try:\n _tmparr_subk = array.array(\"i\",subk)\n except TypeError:\n raise TypeError(\"Argument subk has wrong type\")\n else:\n subk_ = memoryview(_tmparr_subk)\n _copyback_subk = True\n else:\n if subk_.format != \"i\":\n subk_ = memoryview(array.array(\"i\",subk))\n _copyback_subk = True\n if subk_ is not None and len(subk_) != (maxnum_):\n raise ValueError(\"Array argument subk has wrong length\")\n if subl is None: raise TypeError(\"Invalid type for argument subl\")\n _copyback_subl = False\n if subl is None:\n subl_ = None\n else:\n try:\n subl_ = memoryview(subl)\n except TypeError:\n try:\n _tmparr_subl = array.array(\"i\",subl)\n except TypeError:\n raise TypeError(\"Argument subl has wrong type\")\n else:\n subl_ = memoryview(_tmparr_subl)\n _copyback_subl = True\n else:\n if subl_.format != \"i\":\n subl_ = memoryview(array.array(\"i\",subl))\n _copyback_subl = True\n if subl_ is not None and len(subl_) != (maxnum_):\n raise ValueError(\"Array argument subl has wrong length\")\n if valjkl is None: raise TypeError(\"Invalid type for argument valjkl\")\n _copyback_valjkl = False\n if valjkl is None:\n valjkl_ = None\n else:\n try:\n valjkl_ = memoryview(valjkl)\n except TypeError:\n try:\n _tmparr_valjkl = array.array(\"d\",valjkl)\n except TypeError:\n raise TypeError(\"Argument valjkl has wrong type\")\n else:\n valjkl_ = memoryview(_tmparr_valjkl)\n _copyback_valjkl = True\n else:\n if valjkl_.format != \"d\":\n valjkl_ = memoryview(array.array(\"d\",valjkl))\n _copyback_valjkl = True\n if valjkl_ is not None and len(valjkl_) != (maxnum_):\n raise ValueError(\"Array argument valjkl has wrong length\")\n res,resargs = self.__obj.getbarcblocktriplet(maxnum_,subj_,subk_,subl_,valjkl_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _num_return_value = resargs\n if _copyback_valjkl:\n valjkl[:] = _tmparr_valjkl\n if _copyback_subl:\n subl[:] = _tmparr_subl\n if _copyback_subk:\n subk[:] = _tmparr_subk\n if _copyback_subj:\n subj[:] = _tmparr_subj\n return _num_return_value", "def getbarcblocktriplet(self,subj_,subk_,subl_,valjkl_):\n maxnum_ = self.getnumbarcblocktriplets()\n num_ = ctypes.c_int64()\n _subj_minlength = (maxnum_)\n if (maxnum_) > 0 and subj_ is not None and len(subj_) != (maxnum_):\n raise ValueError(\"Array argument subj is not long enough: Is %d, expected %d\" % (len(subj_),(maxnum_)))\n if isinstance(subj_,numpy.ndarray) and not subj_.flags.writeable:\n raise ValueError(\"Argument subj must be writable\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n _subk_minlength = (maxnum_)\n if (maxnum_) > 0 and subk_ is not None and len(subk_) != (maxnum_):\n raise ValueError(\"Array argument subk is not long enough: Is %d, expected %d\" % (len(subk_),(maxnum_)))\n if isinstance(subk_,numpy.ndarray) and not subk_.flags.writeable:\n raise ValueError(\"Argument subk must be writable\")\n if subk_ is None:\n raise ValueError(\"Argument subk may not be None\")\n if isinstance(subk_, numpy.ndarray) and subk_.dtype is numpy.dtype(numpy.int32) and subk_.flags.contiguous:\n _subk_copyarray = False\n _subk_tmp = ctypes.cast(subk_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subk_ is not None:\n _subk_copyarray = True\n _subk_np_tmp = numpy.zeros(len(subk_),numpy.dtype(numpy.int32))\n _subk_np_tmp[:] = subk_\n assert _subk_np_tmp.flags.contiguous\n _subk_tmp = ctypes.cast(_subk_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subk_copyarray = False\n _subk_tmp = None\n \n _subl_minlength = (maxnum_)\n if (maxnum_) > 0 and subl_ is not None and len(subl_) != (maxnum_):\n raise ValueError(\"Array argument subl is not long enough: Is %d, expected %d\" % (len(subl_),(maxnum_)))\n if isinstance(subl_,numpy.ndarray) and not subl_.flags.writeable:\n raise ValueError(\"Argument subl must be writable\")\n if subl_ is None:\n raise ValueError(\"Argument subl may not be None\")\n if isinstance(subl_, numpy.ndarray) and subl_.dtype is numpy.dtype(numpy.int32) and subl_.flags.contiguous:\n _subl_copyarray = False\n _subl_tmp = ctypes.cast(subl_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subl_ is not None:\n _subl_copyarray = True\n _subl_np_tmp = numpy.zeros(len(subl_),numpy.dtype(numpy.int32))\n _subl_np_tmp[:] = subl_\n assert _subl_np_tmp.flags.contiguous\n _subl_tmp = ctypes.cast(_subl_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subl_copyarray = False\n _subl_tmp = None\n \n _valjkl_minlength = (maxnum_)\n if (maxnum_) > 0 and valjkl_ is not None and len(valjkl_) != (maxnum_):\n raise ValueError(\"Array argument valjkl is not long enough: Is %d, expected %d\" % (len(valjkl_),(maxnum_)))\n if isinstance(valjkl_,numpy.ndarray) and not valjkl_.flags.writeable:\n raise ValueError(\"Argument valjkl must be writable\")\n if valjkl_ is None:\n raise ValueError(\"Argument valjkl may not be None\")\n if isinstance(valjkl_, numpy.ndarray) and valjkl_.dtype is numpy.dtype(numpy.float64) and valjkl_.flags.contiguous:\n _valjkl_copyarray = False\n _valjkl_tmp = ctypes.cast(valjkl_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif valjkl_ is not None:\n _valjkl_copyarray = True\n _valjkl_np_tmp = numpy.zeros(len(valjkl_),numpy.dtype(numpy.float64))\n _valjkl_np_tmp[:] = valjkl_\n assert _valjkl_np_tmp.flags.contiguous\n _valjkl_tmp = ctypes.cast(_valjkl_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _valjkl_copyarray = False\n _valjkl_tmp = None\n \n res = __library__.MSK_XX_getbarcblocktriplet(self.__nativep,maxnum_,ctypes.byref(num_),_subj_tmp,_subk_tmp,_subl_tmp,_valjkl_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n num_ = num_.value\n _num_return_value = num_\n if _subj_copyarray:\n subj_[:] = _subj_np_tmp\n if _subk_copyarray:\n subk_[:] = _subk_np_tmp\n if _subl_copyarray:\n subl_[:] = _subl_np_tmp\n if _valjkl_copyarray:\n valjkl_[:] = _valjkl_np_tmp\n return (_num_return_value)", "def putbarcblocktriplet(self,num_,subj,subk,subl,valjkl): # 3\n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n \n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n \n if subj_ is not None and len(subj_) != (num_):\n raise ValueError(\"Array argument subj has wrong length\")\n if subk is None: raise TypeError(\"Invalid type for argument subk\")\n if subk is None:\n subk_ = None\n else:\n try:\n subk_ = memoryview(subk)\n except TypeError:\n try:\n _tmparr_subk = array.array(\"i\",subk)\n except TypeError:\n raise TypeError(\"Argument subk has wrong type\")\n else:\n subk_ = memoryview(_tmparr_subk)\n \n else:\n if subk_.format != \"i\":\n subk_ = memoryview(array.array(\"i\",subk))\n \n if subk_ is not None and len(subk_) != (num_):\n raise ValueError(\"Array argument subk has wrong length\")\n if subl is None: raise TypeError(\"Invalid type for argument subl\")\n if subl is None:\n subl_ = None\n else:\n try:\n subl_ = memoryview(subl)\n except TypeError:\n try:\n _tmparr_subl = array.array(\"i\",subl)\n except TypeError:\n raise TypeError(\"Argument subl has wrong type\")\n else:\n subl_ = memoryview(_tmparr_subl)\n \n else:\n if subl_.format != \"i\":\n subl_ = memoryview(array.array(\"i\",subl))\n \n if subl_ is not None and len(subl_) != (num_):\n raise ValueError(\"Array argument subl has wrong length\")\n if valjkl is None: raise TypeError(\"Invalid type for argument valjkl\")\n if valjkl is None:\n valjkl_ = None\n else:\n try:\n valjkl_ = memoryview(valjkl)\n except TypeError:\n try:\n _tmparr_valjkl = array.array(\"d\",valjkl)\n except TypeError:\n raise TypeError(\"Argument valjkl has wrong type\")\n else:\n valjkl_ = memoryview(_tmparr_valjkl)\n \n else:\n if valjkl_.format != \"d\":\n valjkl_ = memoryview(array.array(\"d\",valjkl))\n \n if valjkl_ is not None and len(valjkl_) != (num_):\n raise ValueError(\"Array argument valjkl has wrong length\")\n res = self.__obj.putbarcblocktriplet(num_,subj_,subk_,subl_,valjkl_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbarablocktriplet(self,num_,subi,subj,subk,subl,valijkl): # 3\n if subi is None: raise TypeError(\"Invalid type for argument subi\")\n if subi is None:\n subi_ = None\n else:\n try:\n subi_ = memoryview(subi)\n except TypeError:\n try:\n _tmparr_subi = array.array(\"i\",subi)\n except TypeError:\n raise TypeError(\"Argument subi has wrong type\")\n else:\n subi_ = memoryview(_tmparr_subi)\n \n else:\n if subi_.format != \"i\":\n subi_ = memoryview(array.array(\"i\",subi))\n \n if subi_ is not None and len(subi_) != (num_):\n raise ValueError(\"Array argument subi has wrong length\")\n if subj is None: raise TypeError(\"Invalid type for argument subj\")\n if subj is None:\n subj_ = None\n else:\n try:\n subj_ = memoryview(subj)\n except TypeError:\n try:\n _tmparr_subj = array.array(\"i\",subj)\n except TypeError:\n raise TypeError(\"Argument subj has wrong type\")\n else:\n subj_ = memoryview(_tmparr_subj)\n \n else:\n if subj_.format != \"i\":\n subj_ = memoryview(array.array(\"i\",subj))\n \n if subj_ is not None and len(subj_) != (num_):\n raise ValueError(\"Array argument subj has wrong length\")\n if subk is None: raise TypeError(\"Invalid type for argument subk\")\n if subk is None:\n subk_ = None\n else:\n try:\n subk_ = memoryview(subk)\n except TypeError:\n try:\n _tmparr_subk = array.array(\"i\",subk)\n except TypeError:\n raise TypeError(\"Argument subk has wrong type\")\n else:\n subk_ = memoryview(_tmparr_subk)\n \n else:\n if subk_.format != \"i\":\n subk_ = memoryview(array.array(\"i\",subk))\n \n if subk_ is not None and len(subk_) != (num_):\n raise ValueError(\"Array argument subk has wrong length\")\n if subl is None: raise TypeError(\"Invalid type for argument subl\")\n if subl is None:\n subl_ = None\n else:\n try:\n subl_ = memoryview(subl)\n except TypeError:\n try:\n _tmparr_subl = array.array(\"i\",subl)\n except TypeError:\n raise TypeError(\"Argument subl has wrong type\")\n else:\n subl_ = memoryview(_tmparr_subl)\n \n else:\n if subl_.format != \"i\":\n subl_ = memoryview(array.array(\"i\",subl))\n \n if subl_ is not None and len(subl_) != (num_):\n raise ValueError(\"Array argument subl has wrong length\")\n if valijkl is None: raise TypeError(\"Invalid type for argument valijkl\")\n if valijkl is None:\n valijkl_ = None\n else:\n try:\n valijkl_ = memoryview(valijkl)\n except TypeError:\n try:\n _tmparr_valijkl = array.array(\"d\",valijkl)\n except TypeError:\n raise TypeError(\"Argument valijkl has wrong type\")\n else:\n valijkl_ = memoryview(_tmparr_valijkl)\n \n else:\n if valijkl_.format != \"d\":\n valijkl_ = memoryview(array.array(\"d\",valijkl))\n \n if valijkl_ is not None and len(valijkl_) != (num_):\n raise ValueError(\"Array argument valijkl has wrong length\")\n res = self.__obj.putbarablocktriplet(num_,subi_,subj_,subk_,subl_,valijkl_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbarcblocktriplet(self,num_,subj_,subk_,subl_,valjkl_):\n _subj_minlength = (num_)\n if (num_) > 0 and subj_ is not None and len(subj_) != (num_):\n raise ValueError(\"Array argument subj is not long enough: Is %d, expected %d\" % (len(subj_),(num_)))\n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n _subk_minlength = (num_)\n if (num_) > 0 and subk_ is not None and len(subk_) != (num_):\n raise ValueError(\"Array argument subk is not long enough: Is %d, expected %d\" % (len(subk_),(num_)))\n if subk_ is None:\n raise ValueError(\"Argument subk cannot be None\")\n if subk_ is None:\n raise ValueError(\"Argument subk may not be None\")\n if isinstance(subk_, numpy.ndarray) and subk_.dtype is numpy.dtype(numpy.int32) and subk_.flags.contiguous:\n _subk_copyarray = False\n _subk_tmp = ctypes.cast(subk_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subk_ is not None:\n _subk_copyarray = True\n _subk_np_tmp = numpy.zeros(len(subk_),numpy.dtype(numpy.int32))\n _subk_np_tmp[:] = subk_\n assert _subk_np_tmp.flags.contiguous\n _subk_tmp = ctypes.cast(_subk_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subk_copyarray = False\n _subk_tmp = None\n \n _subl_minlength = (num_)\n if (num_) > 0 and subl_ is not None and len(subl_) != (num_):\n raise ValueError(\"Array argument subl is not long enough: Is %d, expected %d\" % (len(subl_),(num_)))\n if subl_ is None:\n raise ValueError(\"Argument subl cannot be None\")\n if subl_ is None:\n raise ValueError(\"Argument subl may not be None\")\n if isinstance(subl_, numpy.ndarray) and subl_.dtype is numpy.dtype(numpy.int32) and subl_.flags.contiguous:\n _subl_copyarray = False\n _subl_tmp = ctypes.cast(subl_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subl_ is not None:\n _subl_copyarray = True\n _subl_np_tmp = numpy.zeros(len(subl_),numpy.dtype(numpy.int32))\n _subl_np_tmp[:] = subl_\n assert _subl_np_tmp.flags.contiguous\n _subl_tmp = ctypes.cast(_subl_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subl_copyarray = False\n _subl_tmp = None\n \n _valjkl_minlength = (num_)\n if (num_) > 0 and valjkl_ is not None and len(valjkl_) != (num_):\n raise ValueError(\"Array argument valjkl is not long enough: Is %d, expected %d\" % (len(valjkl_),(num_)))\n if valjkl_ is None:\n raise ValueError(\"Argument valjkl cannot be None\")\n if valjkl_ is None:\n raise ValueError(\"Argument valjkl may not be None\")\n if isinstance(valjkl_, numpy.ndarray) and valjkl_.dtype is numpy.dtype(numpy.float64) and valjkl_.flags.contiguous:\n _valjkl_copyarray = False\n _valjkl_tmp = ctypes.cast(valjkl_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif valjkl_ is not None:\n _valjkl_copyarray = True\n _valjkl_np_tmp = numpy.zeros(len(valjkl_),numpy.dtype(numpy.float64))\n _valjkl_np_tmp[:] = valjkl_\n assert _valjkl_np_tmp.flags.contiguous\n _valjkl_tmp = ctypes.cast(_valjkl_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _valjkl_copyarray = False\n _valjkl_tmp = None\n \n res = __library__.MSK_XX_putbarcblocktriplet(self.__nativep,num_,_subj_tmp,_subk_tmp,_subl_tmp,_valjkl_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbarablocktriplet(self,num_,subi_,subj_,subk_,subl_,valijkl_):\n _subi_minlength = (num_)\n if (num_) > 0 and subi_ is not None and len(subi_) != (num_):\n raise ValueError(\"Array argument subi is not long enough: Is %d, expected %d\" % (len(subi_),(num_)))\n if subi_ is None:\n raise ValueError(\"Argument subi cannot be None\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n _subj_minlength = (num_)\n if (num_) > 0 and subj_ is not None and len(subj_) != (num_):\n raise ValueError(\"Array argument subj is not long enough: Is %d, expected %d\" % (len(subj_),(num_)))\n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n _subk_minlength = (num_)\n if (num_) > 0 and subk_ is not None and len(subk_) != (num_):\n raise ValueError(\"Array argument subk is not long enough: Is %d, expected %d\" % (len(subk_),(num_)))\n if subk_ is None:\n raise ValueError(\"Argument subk cannot be None\")\n if subk_ is None:\n raise ValueError(\"Argument subk may not be None\")\n if isinstance(subk_, numpy.ndarray) and subk_.dtype is numpy.dtype(numpy.int32) and subk_.flags.contiguous:\n _subk_copyarray = False\n _subk_tmp = ctypes.cast(subk_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subk_ is not None:\n _subk_copyarray = True\n _subk_np_tmp = numpy.zeros(len(subk_),numpy.dtype(numpy.int32))\n _subk_np_tmp[:] = subk_\n assert _subk_np_tmp.flags.contiguous\n _subk_tmp = ctypes.cast(_subk_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subk_copyarray = False\n _subk_tmp = None\n \n _subl_minlength = (num_)\n if (num_) > 0 and subl_ is not None and len(subl_) != (num_):\n raise ValueError(\"Array argument subl is not long enough: Is %d, expected %d\" % (len(subl_),(num_)))\n if subl_ is None:\n raise ValueError(\"Argument subl cannot be None\")\n if subl_ is None:\n raise ValueError(\"Argument subl may not be None\")\n if isinstance(subl_, numpy.ndarray) and subl_.dtype is numpy.dtype(numpy.int32) and subl_.flags.contiguous:\n _subl_copyarray = False\n _subl_tmp = ctypes.cast(subl_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subl_ is not None:\n _subl_copyarray = True\n _subl_np_tmp = numpy.zeros(len(subl_),numpy.dtype(numpy.int32))\n _subl_np_tmp[:] = subl_\n assert _subl_np_tmp.flags.contiguous\n _subl_tmp = ctypes.cast(_subl_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subl_copyarray = False\n _subl_tmp = None\n \n _valijkl_minlength = (num_)\n if (num_) > 0 and valijkl_ is not None and len(valijkl_) != (num_):\n raise ValueError(\"Array argument valijkl is not long enough: Is %d, expected %d\" % (len(valijkl_),(num_)))\n if valijkl_ is None:\n raise ValueError(\"Argument valijkl cannot be None\")\n if valijkl_ is None:\n raise ValueError(\"Argument valijkl may not be None\")\n if isinstance(valijkl_, numpy.ndarray) and valijkl_.dtype is numpy.dtype(numpy.float64) and valijkl_.flags.contiguous:\n _valijkl_copyarray = False\n _valijkl_tmp = ctypes.cast(valijkl_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif valijkl_ is not None:\n _valijkl_copyarray = True\n _valijkl_np_tmp = numpy.zeros(len(valijkl_),numpy.dtype(numpy.float64))\n _valijkl_np_tmp[:] = valijkl_\n assert _valijkl_np_tmp.flags.contiguous\n _valijkl_tmp = ctypes.cast(_valijkl_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _valijkl_copyarray = False\n _valijkl_tmp = None\n \n res = __library__.MSK_XX_putbarablocktriplet(self.__nativep,num_,_subi_tmp,_subj_tmp,_subk_tmp,_subl_tmp,_valijkl_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbaraijlist(self,subi_,subj_,alphaptrb_,alphaptre_,matidx_,weights_):\n num_ = None\n if num_ is None:\n num_ = len(subi_)\n elif num_ != len(subi_):\n raise IndexError(\"Inconsistent length of array subi\")\n if num_ is None:\n num_ = len(subj_)\n elif num_ != len(subj_):\n raise IndexError(\"Inconsistent length of array subj\")\n if num_ is None:\n num_ = len(alphaptrb_)\n elif num_ != len(alphaptrb_):\n raise IndexError(\"Inconsistent length of array alphaptrb\")\n if num_ is None:\n num_ = len(alphaptre_)\n elif num_ != len(alphaptre_):\n raise IndexError(\"Inconsistent length of array alphaptre\")\n if subi_ is None:\n raise ValueError(\"Argument subi cannot be None\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n if alphaptrb_ is None:\n raise ValueError(\"Argument alphaptrb cannot be None\")\n if alphaptrb_ is None:\n raise ValueError(\"Argument alphaptrb may not be None\")\n if isinstance(alphaptrb_, numpy.ndarray) and alphaptrb_.dtype is numpy.dtype(numpy.int64) and alphaptrb_.flags.contiguous:\n _alphaptrb_copyarray = False\n _alphaptrb_tmp = ctypes.cast(alphaptrb_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif alphaptrb_ is not None:\n _alphaptrb_copyarray = True\n _alphaptrb_np_tmp = numpy.zeros(len(alphaptrb_),numpy.dtype(numpy.int64))\n _alphaptrb_np_tmp[:] = alphaptrb_\n assert _alphaptrb_np_tmp.flags.contiguous\n _alphaptrb_tmp = ctypes.cast(_alphaptrb_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _alphaptrb_copyarray = False\n _alphaptrb_tmp = None\n \n if alphaptre_ is None:\n raise ValueError(\"Argument alphaptre cannot be None\")\n if alphaptre_ is None:\n raise ValueError(\"Argument alphaptre may not be None\")\n if isinstance(alphaptre_, numpy.ndarray) and alphaptre_.dtype is numpy.dtype(numpy.int64) and alphaptre_.flags.contiguous:\n _alphaptre_copyarray = False\n _alphaptre_tmp = ctypes.cast(alphaptre_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif alphaptre_ is not None:\n _alphaptre_copyarray = True\n _alphaptre_np_tmp = numpy.zeros(len(alphaptre_),numpy.dtype(numpy.int64))\n _alphaptre_np_tmp[:] = alphaptre_\n assert _alphaptre_np_tmp.flags.contiguous\n _alphaptre_tmp = ctypes.cast(_alphaptre_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _alphaptre_copyarray = False\n _alphaptre_tmp = None\n \n if matidx_ is None:\n raise ValueError(\"Argument matidx cannot be None\")\n if matidx_ is None:\n raise ValueError(\"Argument matidx may not be None\")\n if isinstance(matidx_, numpy.ndarray) and matidx_.dtype is numpy.dtype(numpy.int64) and matidx_.flags.contiguous:\n _matidx_copyarray = False\n _matidx_tmp = ctypes.cast(matidx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif matidx_ is not None:\n _matidx_copyarray = True\n _matidx_np_tmp = numpy.zeros(len(matidx_),numpy.dtype(numpy.int64))\n _matidx_np_tmp[:] = matidx_\n assert _matidx_np_tmp.flags.contiguous\n _matidx_tmp = ctypes.cast(_matidx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _matidx_copyarray = False\n _matidx_tmp = None\n \n if weights_ is None:\n raise ValueError(\"Argument weights cannot be None\")\n if weights_ is None:\n raise ValueError(\"Argument weights may not be None\")\n if isinstance(weights_, numpy.ndarray) and weights_.dtype is numpy.dtype(numpy.float64) and weights_.flags.contiguous:\n _weights_copyarray = False\n _weights_tmp = ctypes.cast(weights_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif weights_ is not None:\n _weights_copyarray = True\n _weights_np_tmp = numpy.zeros(len(weights_),numpy.dtype(numpy.float64))\n _weights_np_tmp[:] = weights_\n assert _weights_np_tmp.flags.contiguous\n _weights_tmp = ctypes.cast(_weights_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _weights_copyarray = False\n _weights_tmp = None\n \n res = __library__.MSK_XX_putbaraijlist(self.__nativep,num_,_subi_tmp,_subj_tmp,_alphaptrb_tmp,_alphaptre_tmp,_matidx_tmp,_weights_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def set_bc(self, problem):\n bcs = problem.bcs\n n_bound = cfg.const['N_GHOST_CELLS']\n # Left X-b.c.\n for i in range(0, self.i_min):\n for j in range(self.j_min, self.j_max):\n for k in range(self.k_min, self.k_max): \n if bcs[0] == 't': \n self.U[i][j][k] = self.U[self.i_min][j][k]\n elif bcs[0] == 'w':\n for num in [0, 2, 3, 4]: # 0 -> 3, 1 -> 2, i_min-1 -> i_min, i_min-2 -> i_min+1\n self.U[i][j][k][num] = self.U[self.i_min + (self.i_min - i - 1)][j][k][num]\n for num in [1]:\n self.U[i][j][k][num] = - self.U[self.i_min + (self.i_min - i - 1)][j][k][num]\n else:\n print(\"Errof field.set_ics(): only wall-type and transmissive boundaries supported! Bye!\")\n # Right X-b.c.\n for i in range(self.i_max, self.i_max+n_bound):\n for j in range(self.j_min, self.j_max):\n for k in range(self.k_min, self.k_max): \n if bcs[1] == 't':\n self.U[i][j][k] = self.U[self.i_max-1][j][k]\n elif bcs[1] == 'w':\n for num in [0, 2, 3, 4]: # i_max -> i_max-1 , i_max+1-> i_max-2\n self.U[i][j][k][num] = self.U[self.i_max - (i - self.i_max + 1)][j][k][num]\n for num in [1]:\n self.U[i][j][k][num] = - self.U[self.i_max - (i - self.i_max + 1)][j][k][num]\n else:\n print(\"Error field.set_ics(): only wall-type and transmissive boundaries supported! Bye!\")\n # Left Y-b.c.\n for i in range(0, self.i_max+n_bound):\n for j in range(0, self.j_min):\n for k in range(self.k_min, self.k_max): \n if bcs[2] == 't':\n self.U[i][j][k] = self.U[i][self.j_min][k]\n elif bcs[2] == 'w':\n for num in [0, 1, 3, 4]:\n self.U[i][j][k][num] = self.U[i][self.j_min + (self.j_min - j - 1)][k][num]\n for num in [2]:\n self.U[i][j][k][num] = - self.U[i][self.j_min + (self.j_min - j - 1)][k][num]\n else:\n print(\"Error field.set_ics(): only wall-type and transmissive boundaries supported! Bye!\")\n # Right Y-b.c.\n for i in range(0, self.i_max+n_bound):\n for j in range(self.j_max, self.j_max+n_bound):\n for k in range(self.k_min, self.k_max): \n if bcs[3] == 't':\n self.U[i][j][k] = self.U[i][self.j_max-1][k]\n elif bcs[3] == 'w':\n for num in [0, 1, 3, 4]:\n self.U[i][j][k][num] = self.U[i][self.j_max - (j - self.j_max + 1)][k][num]\n for num in [2]:\n self.U[i][j][k][num] = -self.U[i][self.j_max - (j - self.j_max + 1)][k][num]\n else:\n print(\"Error field.set_ics(): only wall-type and transmissive boundaries supported! Bye!\")\n # Left Z-b.c.\n for i in range(0, self.i_max+n_bound):\n for j in range(0, self.j_max+n_bound):\n for k in range(0, self.k_min): \n if bcs[4] == 't':\n self.U[i][j][k] = self.U[i][j][self.k_min]\n elif bcs[4] == 'w':\n for num in [0, 1, 2, 4]:\n self.U[i][j][k][num] = self.U[i][j][self.k_min + (self.k_min - k - 1)][num]\n for num in [3]:\n self.U[i][j][k][num] = - self.U[i][j][self.k_min + (self.k_min - k - 1)][num]\n else:\n print(\"Error field.set_ics(): only wall-type and transmissive boundaries supported! Bye!\")\n # Right Z-b.c.\n for i in range(0, self.i_max+n_bound):\n for j in range(0, self.j_max+n_bound):\n for k in range(self.k_max, self.k_max+n_bound):\n if bcs[5] == 't':\n self.U[i][j][k] = self.U[i][j][self.k_max-1]\n elif bcs[5] == 'w':\n for num in [0, 1, 2, 4]:\n self.U[i][j][k][num] = self.U[i][j][self.k_max - (k - self.k_max + 1)][num]\n for num in [3]:\n self.U[i][j][k][num] = - self.U[i][j][self.k_max - (k - self.k_max + 1)][num]\n else:\n print(\"Error field.set_ics(): only wall-type and transmissive boundaries supported! Bye!\")", "def b(self, (k,t), (J,q), **params):\n b = np.asarray([])\n return b", "def Bimat(self):\n a, b, c, alpha, beta, gamma = self.lattice_parameters\n alpha = alpha * radians\n beta = beta * radians\n gamma = gamma * radians\n B23 = c*(np.cos(alpha)-np.cos(beta)*np.cos(gamma))/np.sin(gamma)\n B33 = np.sqrt(c**2-(c*np.cos(beta))**2-B23**2)\n return np.matrix(((a, b*np.cos(gamma), c*np.cos(beta)),\n (0, b*np.sin(gamma), B23),\n (0, 0, B33)))", "def putbarcj(self,j_,sub,weights): # 3\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(weights)\n elif num_ != len(weights):\n raise IndexError(\"Inconsistent length of array weights\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"q\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"q\":\n sub_ = memoryview(array.array(\"q\",sub))\n \n if weights is None: raise TypeError(\"Invalid type for argument weights\")\n if weights is None:\n weights_ = None\n else:\n try:\n weights_ = memoryview(weights)\n except TypeError:\n try:\n _tmparr_weights = array.array(\"d\",weights)\n except TypeError:\n raise TypeError(\"Argument weights has wrong type\")\n else:\n weights_ = memoryview(_tmparr_weights)\n \n else:\n if weights_.format != \"d\":\n weights_ = memoryview(array.array(\"d\",weights))\n \n res = self.__obj.putbarcj(j_,num_,sub_,weights_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def bs(a, b):\n if b - a == 1:\n # Directly compute P(a,a+1), Q(a,a+1) and T(a,a+1)\n if a == 0:\n Pab = Qab = mpz(1)\n else:\n Pab = mpz((6*a-5)*(2*a-1)*(6*a-1))\n Qab = mpz(a*a*a*C3_OVER_24)\n Tab = Pab * (13591409 + 545140134*a) # a(a) * p(a)\n if a & 1:\n Tab = -Tab\n else:\n # Recursively compute P(a,b), Q(a,b) and T(a,b)\n # m is the midpoint of a and b\n m = (a + b) // 2\n # Recursively calculate P(a,m), Q(a,m) and T(a,m)\n Pam, Qam, Tam = bs(a, m)\n # Recursively calculate P(m,b), Q(m,b) and T(m,b)\n Pmb, Qmb, Tmb = bs(m, b)\n # Now combine\n Pab = Pam * Pmb\n Qab = Qam * Qmb\n Tab = Qmb * Tam + Pam * Tmb\n return Pab, Qab, Tab", "def get_bb_tpdm(self):\n _, dvecb = self.calculate_dvec_spin()\n beta_opdm = numpy.tensordot(dvecb, self.coeff.conj(), axes=2)\n nik_njl_bb = numpy.transpose(numpy.tensordot(dvecb.conj(),\n dvecb,\n axes=((2, 3), (2, 3))),\n axes=(1, 2, 0, 3))\n for ii in range(nik_njl_bb.shape[1]):\n nik_njl_bb[:, ii, ii, :] -= beta_opdm\n return beta_opdm, -nik_njl_bb", "def getbarcidx(self,idx_,sub,weights): # 3\n maxnum_ = self.getbarcidxinfo((idx_))\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n _copyback_sub = False\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"q\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n _copyback_sub = True\n else:\n if sub_.format != \"q\":\n sub_ = memoryview(array.array(\"q\",sub))\n _copyback_sub = True\n if sub_ is not None and len(sub_) != (maxnum_):\n raise ValueError(\"Array argument sub has wrong length\")\n if weights is None: raise TypeError(\"Invalid type for argument weights\")\n _copyback_weights = False\n if weights is None:\n weights_ = None\n else:\n try:\n weights_ = memoryview(weights)\n except TypeError:\n try:\n _tmparr_weights = array.array(\"d\",weights)\n except TypeError:\n raise TypeError(\"Argument weights has wrong type\")\n else:\n weights_ = memoryview(_tmparr_weights)\n _copyback_weights = True\n else:\n if weights_.format != \"d\":\n weights_ = memoryview(array.array(\"d\",weights))\n _copyback_weights = True\n if weights_ is not None and len(weights_) != (maxnum_):\n raise ValueError(\"Array argument weights has wrong length\")\n res,resargs = self.__obj.getbarcidx(idx_,maxnum_,sub_,weights_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _j_return_value,_num_return_value = resargs\n if _copyback_weights:\n weights[:] = _tmparr_weights\n if _copyback_sub:\n sub[:] = _tmparr_sub\n return _j_return_value,_num_return_value", "def putbarcj(self,j_,sub_,weights_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(weights_)\n elif num_ != len(weights_):\n raise IndexError(\"Inconsistent length of array weights\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int64) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int64))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n if weights_ is None:\n raise ValueError(\"Argument weights cannot be None\")\n if weights_ is None:\n raise ValueError(\"Argument weights may not be None\")\n if isinstance(weights_, numpy.ndarray) and weights_.dtype is numpy.dtype(numpy.float64) and weights_.flags.contiguous:\n _weights_copyarray = False\n _weights_tmp = ctypes.cast(weights_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif weights_ is not None:\n _weights_copyarray = True\n _weights_np_tmp = numpy.zeros(len(weights_),numpy.dtype(numpy.float64))\n _weights_np_tmp[:] = weights_\n assert _weights_np_tmp.flags.contiguous\n _weights_tmp = ctypes.cast(_weights_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _weights_copyarray = False\n _weights_tmp = None\n \n res = __library__.MSK_XX_putbarcj(self.__nativep,j_,num_,_sub_tmp,_weights_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbararowlist(self,subi_,ptrb_,ptre_,subj_,nummat_,matidx_,weights_):\n num_ = None\n if num_ is None:\n num_ = len(subi_)\n elif num_ != len(subi_):\n raise IndexError(\"Inconsistent length of array subi\")\n if num_ is None:\n num_ = len(ptrb_)\n elif num_ != len(ptrb_):\n raise IndexError(\"Inconsistent length of array ptrb\")\n if num_ is None:\n num_ = len(ptre_)\n elif num_ != len(ptre_):\n raise IndexError(\"Inconsistent length of array ptre\")\n if subi_ is None:\n raise ValueError(\"Argument subi cannot be None\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n if ptrb_ is None:\n raise ValueError(\"Argument ptrb cannot be None\")\n if ptrb_ is None:\n raise ValueError(\"Argument ptrb may not be None\")\n if isinstance(ptrb_, numpy.ndarray) and ptrb_.dtype is numpy.dtype(numpy.int64) and ptrb_.flags.contiguous:\n _ptrb_copyarray = False\n _ptrb_tmp = ctypes.cast(ptrb_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptrb_ is not None:\n _ptrb_copyarray = True\n _ptrb_np_tmp = numpy.zeros(len(ptrb_),numpy.dtype(numpy.int64))\n _ptrb_np_tmp[:] = ptrb_\n assert _ptrb_np_tmp.flags.contiguous\n _ptrb_tmp = ctypes.cast(_ptrb_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptrb_copyarray = False\n _ptrb_tmp = None\n \n if ptre_ is None:\n raise ValueError(\"Argument ptre cannot be None\")\n if ptre_ is None:\n raise ValueError(\"Argument ptre may not be None\")\n if isinstance(ptre_, numpy.ndarray) and ptre_.dtype is numpy.dtype(numpy.int64) and ptre_.flags.contiguous:\n _ptre_copyarray = False\n _ptre_tmp = ctypes.cast(ptre_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptre_ is not None:\n _ptre_copyarray = True\n _ptre_np_tmp = numpy.zeros(len(ptre_),numpy.dtype(numpy.int64))\n _ptre_np_tmp[:] = ptre_\n assert _ptre_np_tmp.flags.contiguous\n _ptre_tmp = ctypes.cast(_ptre_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptre_copyarray = False\n _ptre_tmp = None\n \n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n _nummat_minlength = len((subj_))\n if len((subj_)) > 0 and nummat_ is not None and len(nummat_) != len((subj_)):\n raise ValueError(\"Array argument nummat is not long enough: Is %d, expected %d\" % (len(nummat_),len((subj_))))\n if nummat_ is None:\n raise ValueError(\"Argument nummat cannot be None\")\n if nummat_ is None:\n raise ValueError(\"Argument nummat may not be None\")\n if isinstance(nummat_, numpy.ndarray) and nummat_.dtype is numpy.dtype(numpy.int64) and nummat_.flags.contiguous:\n _nummat_copyarray = False\n _nummat_tmp = ctypes.cast(nummat_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif nummat_ is not None:\n _nummat_copyarray = True\n _nummat_np_tmp = numpy.zeros(len(nummat_),numpy.dtype(numpy.int64))\n _nummat_np_tmp[:] = nummat_\n assert _nummat_np_tmp.flags.contiguous\n _nummat_tmp = ctypes.cast(_nummat_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _nummat_copyarray = False\n _nummat_tmp = None\n \n _matidx_minlength = sum((nummat_))\n if sum((nummat_)) > 0 and matidx_ is not None and len(matidx_) != sum((nummat_)):\n raise ValueError(\"Array argument matidx is not long enough: Is %d, expected %d\" % (len(matidx_),sum((nummat_))))\n if matidx_ is None:\n raise ValueError(\"Argument matidx cannot be None\")\n if matidx_ is None:\n raise ValueError(\"Argument matidx may not be None\")\n if isinstance(matidx_, numpy.ndarray) and matidx_.dtype is numpy.dtype(numpy.int64) and matidx_.flags.contiguous:\n _matidx_copyarray = False\n _matidx_tmp = ctypes.cast(matidx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif matidx_ is not None:\n _matidx_copyarray = True\n _matidx_np_tmp = numpy.zeros(len(matidx_),numpy.dtype(numpy.int64))\n _matidx_np_tmp[:] = matidx_\n assert _matidx_np_tmp.flags.contiguous\n _matidx_tmp = ctypes.cast(_matidx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _matidx_copyarray = False\n _matidx_tmp = None\n \n _weights_minlength = sum((nummat_))\n if sum((nummat_)) > 0 and weights_ is not None and len(weights_) != sum((nummat_)):\n raise ValueError(\"Array argument weights is not long enough: Is %d, expected %d\" % (len(weights_),sum((nummat_))))\n if weights_ is None:\n raise ValueError(\"Argument weights cannot be None\")\n if weights_ is None:\n raise ValueError(\"Argument weights may not be None\")\n if isinstance(weights_, numpy.ndarray) and weights_.dtype is numpy.dtype(numpy.float64) and weights_.flags.contiguous:\n _weights_copyarray = False\n _weights_tmp = ctypes.cast(weights_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif weights_ is not None:\n _weights_copyarray = True\n _weights_np_tmp = numpy.zeros(len(weights_),numpy.dtype(numpy.float64))\n _weights_np_tmp[:] = weights_\n assert _weights_np_tmp.flags.contiguous\n _weights_tmp = ctypes.cast(_weights_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _weights_copyarray = False\n _weights_tmp = None\n \n res = __library__.MSK_XX_putbararowlist(self.__nativep,num_,_subi_tmp,_ptrb_tmp,_ptre_tmp,_subj_tmp,_nummat_tmp,_matidx_tmp,_weights_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def bs(a, b):\n if b - a == 1:\n # Directly compute P(a,a+1), Q(a,a+1) and T(a,a+1)\n if a == 0:\n Pab = Qab = mpz(1)\n else:\n Pab = mpz((6*a-5)*(2*a-1)*(6*a-1))\n Qab = mpz(a*a*a*C3_OVER_24)\n Tab = Pab * (13591409 + 545140134*a) # a(a) * p(a)\n if a & 1:\n Tab = -Tab\n else:\n # Recursively compute P(a,b), Q(a,b) and T(a,b)\n # m is the midpoint of a and b\n m = (a + b) // 2\n # Recursively calculate P(a,m), Q(a,m) and T(a,m)\n Pam, Qam, Tam = bs(a, m)\n # Recursively calculate P(m,b), Q(m,b) and T(m,b)\n Pmb, Qmb, Tmb = bs(m, b)\n # Now combine\n Pab = Pam * Pmb\n Qab = Qam * Qmb\n Tab = Qmb * Tam + Pam * Tmb\n return Pab, Qab, Tab", "def putbaraij(self,i_,j_,sub,weights): # 3\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(weights)\n elif num_ != len(weights):\n raise IndexError(\"Inconsistent length of array weights\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"q\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"q\":\n sub_ = memoryview(array.array(\"q\",sub))\n \n if weights is None: raise TypeError(\"Invalid type for argument weights\")\n if weights is None:\n weights_ = None\n else:\n try:\n weights_ = memoryview(weights)\n except TypeError:\n try:\n _tmparr_weights = array.array(\"d\",weights)\n except TypeError:\n raise TypeError(\"Argument weights has wrong type\")\n else:\n weights_ = memoryview(_tmparr_weights)\n \n else:\n if weights_.format != \"d\":\n weights_ = memoryview(array.array(\"d\",weights))\n \n res = self.__obj.putbaraij(i_,j_,num_,sub_,weights_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def u_bar(ntab, return_multi_indices_matrix=False, triangles_partitions=False):\n\n# observe that it is always possible to halve the next quantity, \n# since if `ntab` is odd then `ntab+1` is even, and if `ntab` \n# is even then `ntab+2` is even too, hence both are divisible by 2.\n multi_indeces = int((ntab+1)*(ntab+2)/2) \n\n U = np.empty((3, multi_indeces))\n tri = np.empty((ntab**2, 3))\n\n count = 0\n for kt in range(ntab + 1):\n _np = ntab - kt + 1\n U[:, count:count+_np] = np.array(\n [list(range(_np))[::-1],\n list(range(_np)),\n (kt * np.ones(_np)).tolist()])\n count += _np\n\n multi_indices_matrix = np.copy(U) # just have a copy of multi indices\n U /= ntab # make the matrix represent baricentric coordinates\n\n # the following dictionary saves triangles partitions\n partitioned_triangles = {\n 'upside':[],\n 'upside_down':[],\n 'on_left_inv_diagonal':[],\n 'on_right_diagonal':[],\n 'on_bottom_diagonal':[]\n }\n\n def update_tri_matrix(a, b, c):\n update_tri_matrix.count += 1\n tri[update_tri_matrix.count,:] = np.array([a, b, c])\n\n update_tri_matrix.count = -1\n\n for kt in range(ntab-1):\n\n nk = ntab+2-kt\n sm = sum(range(nk,ntab+2))\n end = sm + (ntab-kt-1)\n\n for i, ind in enumerate(range(sm, end)):\n\n upside_triangle = (ind, ind+1, ind+nk-1)\n upside_down_triangle = (ind+1, ind+nk-1, ind+nk)\n\n update_tri_matrix(*upside_triangle)\n update_tri_matrix(*upside_down_triangle)\n \n partitioned_triangles['upside'].append(upside_triangle) \n partitioned_triangles['upside_down'].append(upside_down_triangle) \n\n# using `i` from the enumeration allow us to look for the very first\n# triangle without comparing against `sm`, the start value of `range`\n if i is 0: partitioned_triangles['on_right_diagonal'].append(upside_triangle) \n\n last_triangle = (end, end+1, end+nk-1)\n update_tri_matrix(*last_triangle)\n partitioned_triangles['upside'].append(last_triangle) \n partitioned_triangles['on_bottom_diagonal'].append(last_triangle) \n\n rightmost_bottom_triangle = (multi_indeces-3, multi_indeces-2, multi_indeces-1)\n update_tri_matrix(*rightmost_bottom_triangle)\n partitioned_triangles['upside'].append(rightmost_bottom_triangle) \n partitioned_triangles['on_right_diagonal'].append(rightmost_bottom_triangle) \n partitioned_triangles['on_bottom_diagonal'].append(rightmost_bottom_triangle) \n\n partitioned_triangles['on_left_inv_diagonal'] = partitioned_triangles['upside'][:ntab]\n\n assert update_tri_matrix.count == (ntab**2 - 1)\n\n assert (len(partitioned_triangles['on_left_inv_diagonal']) ==\n len(partitioned_triangles['on_right_diagonal']) ==\n len(partitioned_triangles['on_bottom_diagonal']) == \n ntab)\n\n result = (tri, U)\n if return_multi_indices_matrix: result += (multi_indices_matrix,)\n if triangles_partitions: result += (partitioned_triangles,)\n \n return result", "def get_basis(self, t_index):\n return self._Phi[:, t_index], self._PhiD[:, t_index]", "def getComboTerms(tuples):\t\t\t\n\t\t\t#return \"[{0}]\".format('; '.join([\"({0})\".format(','.join([text[indices[0]:indices[1]], str(indices[0])])) for indices in tuples]))\n\t\t\treturn \"{0}\".format('; '.join((\"{0}\".format(text[indices[0]:indices[1]]) for indices in tuples)))", "def __getitem__(self, key: Tuple[int, int]) -> complex:\n return self.coeff[self._core.index_alpha(key[0]),\n self._core.index_beta(key[1])]", "def jarque_bera(self,alpha=0.05):\n self._finalize()\n JB = self.vcount/6*(self.vskewness**2 + 1/4*((self.vkurtosis-3)**2))\n if chi2 is None:\n p = \"scipy missing\"\n else:\n p = 1 - chi2.cdf(JB,2)\n return JB,p", "def BB ( self ) :\n return self.__bb", "def BB ( self ) :\n return self.__bb", "def beta(self):\n return self[1::2]", "def TB(t,init,rhoS,deltaSC,rhoC,deltaCB,rhoB):\n\n y=SCB(t,init,rhoS,deltaSC,rhoC,deltaCB,rhoB)\n T=np.sum(y,axis=0)\n Y=np.vstack((T,y[2]))\n return(Y)", "def make_bprod(self):\n rhs1 = random.choice(self.nonterminals)\n rhs2 = random.choice(self.nonterminals)\n lhs = random.choice(self.nonterminals)\n return (lhs, (rhs1, rhs2))", "def test_weyl_specialize_fsim_abb(self, aaa=0.456, bbb=0.132):\n a, b, c = aaa, bbb, bbb\n for da, db, dc in DELTAS:\n for k1l, k1r, k2l, k2r in K1K2SB:\n k1 = np.kron(k1l.data, k1r.data)\n k2 = np.kron(k2l.data, k2r.data)\n self.check_two_qubit_weyl_specialization(\n k1 @ Ud(a + da, b + db, c + dc) @ k2,\n 0.999,\n TwoQubitWeylfSimabbEquiv,\n {\"rx\": 7, \"ry\": 4, \"rxx\": 1, \"ryy\": 1, \"rzz\": 1},\n )" ]

[ "0.80541843", "0.7718639", "0.7490929", "0.70500946", "0.69929564", "0.692479", "0.68191475", "0.5320601", "0.5103941", "0.5083685", "0.505206", "0.5037894", "0.49752373", "0.49659145", "0.49474913", "0.48905304", "0.48676184", "0.4846214", "0.48412463", "0.4812279", "0.47859994", "0.4770081", "0.47562847", "0.4740204", "0.4729336", "0.4729336", "0.47244674", "0.47226825", "0.47043744", "0.47026813" ]

[ "def putconbound(self,i_,bk_,bl_,bu_): # 3\n if not isinstance(bk_,boundkey): raise TypeError(\"Argument bk has wrong type\")\n res = self.__obj.putconbound(i_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbound(self,accmode_,i_,bk_,bl_,bu_): # 3\n if not isinstance(accmode_,accmode): raise TypeError(\"Argument accmode has wrong type\")\n if not isinstance(bk_,boundkey): raise TypeError(\"Argument bk has wrong type\")\n res = self.__obj.putbound(accmode_,i_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def chgconbound(self,i_,lower_,finite_,value_): # 3\n res = self.__obj.chgconbound(i_,lower_,finite_,value_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def chgconbound(self,i_,lower_,finite_,value_):\n res = __library__.MSK_XX_chgconbound(self.__nativep,i_,lower_,finite_,value_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconboundlistconst(self,sub_,bkc_,blc_,buc_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n res = __library__.MSK_XX_putconboundlistconst(self.__nativep,num_,_sub_tmp,bkc_,blc_,buc_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconboundsliceconst(self,first_,last_,bkc_,blc_,buc_):\n res = __library__.MSK_XX_putconboundsliceconst(self.__nativep,first_,last_,bkc_,blc_,buc_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarbound(self,j_,bk_,bl_,bu_): # 3\n if not isinstance(bk_,boundkey): raise TypeError(\"Argument bk has wrong type\")\n res = self.__obj.putvarbound(j_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def SetPRBinCatConstraint( self, model ) :\n tot = np.dot( self.wish.T, self.dispo )\n for val in tot :\n if not val : continue\n if self.bound>0 : model += val <= self.valBound\n elif self.bound<0 : model += val >= self.valBound", "def putvarbound(self,j_,bkx_,blx_,bux_):\n res = __library__.MSK_XX_putvarbound(self.__nativep,j_,bkx_,blx_,bux_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def constraint(self, c):\n self.add_constraint(c)", "def SetPRBinConstraint(self, model ) :\n tot = np.multiply(self.wish, self.dispo)\n for val in tot :\n if not val : continue\n if self.bound>0 : model += val <= self.valBound\n elif self.bound<0 : model += val >= self.valBound", "def getconbound(self,i_): # 3\n res,resargs = self.__obj.getconbound(i_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _bk_return_value,_bl_return_value,_bu_return_value = resargs\n _bk_return_value = boundkey(_bk_return_value)\n return _bk_return_value,_bl_return_value,_bu_return_value", "def getconbound(self,i_):\n bk_ = ctypes.c_int32()\n bl_ = ctypes.c_double()\n bu_ = ctypes.c_double()\n res = __library__.MSK_XX_getconbound(self.__nativep,i_,ctypes.byref(bk_),ctypes.byref(bl_),ctypes.byref(bu_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _bk_return_value = boundkey(bk_.value)\n bl_ = bl_.value\n _bl_return_value = bl_\n bu_ = bu_.value\n _bu_return_value = bu_\n return (_bk_return_value,_bl_return_value,_bu_return_value)", "def chgbound(self,accmode_,i_,lower_,finite_,value_): # 3\n if not isinstance(accmode_,accmode): raise TypeError(\"Argument accmode has wrong type\")\n res = self.__obj.chgbound(accmode_,i_,lower_,finite_,value_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconboundlist(self,sub_,bkc_,blc_,buc_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(bkc_)\n elif num_ != len(bkc_):\n raise IndexError(\"Inconsistent length of array bkc\")\n if num_ is None:\n num_ = len(blc_)\n elif num_ != len(blc_):\n raise IndexError(\"Inconsistent length of array blc\")\n if num_ is None:\n num_ = len(buc_)\n elif num_ != len(buc_):\n raise IndexError(\"Inconsistent length of array buc\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n if bkc_ is None:\n raise ValueError(\"Argument bkc cannot be None\")\n if bkc_ is None:\n raise ValueError(\"Argument bkc may not be None\")\n if bkc_ is not None:\n _bkc_tmp = (ctypes.c_int32 * len(bkc_))(*bkc_)\n else:\n _bkc_tmp = None\n if blc_ is None:\n raise ValueError(\"Argument blc cannot be None\")\n if blc_ is None:\n raise ValueError(\"Argument blc may not be None\")\n if isinstance(blc_, numpy.ndarray) and blc_.dtype is numpy.dtype(numpy.float64) and blc_.flags.contiguous:\n _blc_copyarray = False\n _blc_tmp = ctypes.cast(blc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif blc_ is not None:\n _blc_copyarray = True\n _blc_np_tmp = numpy.zeros(len(blc_),numpy.dtype(numpy.float64))\n _blc_np_tmp[:] = blc_\n assert _blc_np_tmp.flags.contiguous\n _blc_tmp = ctypes.cast(_blc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _blc_copyarray = False\n _blc_tmp = None\n \n if buc_ is None:\n raise ValueError(\"Argument buc cannot be None\")\n if buc_ is None:\n raise ValueError(\"Argument buc may not be None\")\n if isinstance(buc_, numpy.ndarray) and buc_.dtype is numpy.dtype(numpy.float64) and buc_.flags.contiguous:\n _buc_copyarray = False\n _buc_tmp = ctypes.cast(buc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif buc_ is not None:\n _buc_copyarray = True\n _buc_np_tmp = numpy.zeros(len(buc_),numpy.dtype(numpy.float64))\n _buc_np_tmp[:] = buc_\n assert _buc_np_tmp.flags.contiguous\n _buc_tmp = ctypes.cast(_buc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _buc_copyarray = False\n _buc_tmp = None\n \n res = __library__.MSK_XX_putconboundlist(self.__nativep,num_,_sub_tmp,_bkc_tmp,_blc_tmp,_buc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def _set_constraint(self):\n pass", "def putvarboundlistconst(self,sub_,bkx_,blx_,bux_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n res = __library__.MSK_XX_putvarboundlistconst(self.__nativep,num_,_sub_tmp,bkx_,blx_,bux_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarboundsliceconst(self,first_,last_,bkx_,blx_,bux_):\n res = __library__.MSK_XX_putvarboundsliceconst(self.__nativep,first_,last_,bkx_,blx_,bux_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconboundslice(self,first_,last_,bkc_,blc_,buc_):\n _bkc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and bkc_ is not None and len(bkc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bkc is not long enough: Is %d, expected %d\" % (len(bkc_),((last_) - (first_))))\n if bkc_ is None:\n raise ValueError(\"Argument bkc cannot be None\")\n if bkc_ is None:\n raise ValueError(\"Argument bkc may not be None\")\n if bkc_ is not None:\n _bkc_tmp = (ctypes.c_int32 * len(bkc_))(*bkc_)\n else:\n _bkc_tmp = None\n _blc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and blc_ is not None and len(blc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument blc is not long enough: Is %d, expected %d\" % (len(blc_),((last_) - (first_))))\n if blc_ is None:\n raise ValueError(\"Argument blc cannot be None\")\n if blc_ is None:\n raise ValueError(\"Argument blc may not be None\")\n if isinstance(blc_, numpy.ndarray) and blc_.dtype is numpy.dtype(numpy.float64) and blc_.flags.contiguous:\n _blc_copyarray = False\n _blc_tmp = ctypes.cast(blc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif blc_ is not None:\n _blc_copyarray = True\n _blc_np_tmp = numpy.zeros(len(blc_),numpy.dtype(numpy.float64))\n _blc_np_tmp[:] = blc_\n assert _blc_np_tmp.flags.contiguous\n _blc_tmp = ctypes.cast(_blc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _blc_copyarray = False\n _blc_tmp = None\n \n _buc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and buc_ is not None and len(buc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument buc is not long enough: Is %d, expected %d\" % (len(buc_),((last_) - (first_))))\n if buc_ is None:\n raise ValueError(\"Argument buc cannot be None\")\n if buc_ is None:\n raise ValueError(\"Argument buc may not be None\")\n if isinstance(buc_, numpy.ndarray) and buc_.dtype is numpy.dtype(numpy.float64) and buc_.flags.contiguous:\n _buc_copyarray = False\n _buc_tmp = ctypes.cast(buc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif buc_ is not None:\n _buc_copyarray = True\n _buc_np_tmp = numpy.zeros(len(buc_),numpy.dtype(numpy.float64))\n _buc_np_tmp[:] = buc_\n assert _buc_np_tmp.flags.contiguous\n _buc_tmp = ctypes.cast(_buc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _buc_copyarray = False\n _buc_tmp = None\n \n res = __library__.MSK_XX_putconboundslice(self.__nativep,first_,last_,_bkc_tmp,_blc_tmp,_buc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def set_bc(self, problem):\n bcs = problem.bcs\n n_bound = cfg.const['N_GHOST_CELLS']\n # Left X-b.c.\n for i in range(0, self.i_min):\n for j in range(self.j_min, self.j_max):\n for k in range(self.k_min, self.k_max): \n if bcs[0] == 't': \n self.U[i][j][k] = self.U[self.i_min][j][k]\n elif bcs[0] == 'w':\n for num in [0, 2, 3, 4]: # 0 -> 3, 1 -> 2, i_min-1 -> i_min, i_min-2 -> i_min+1\n self.U[i][j][k][num] = self.U[self.i_min + (self.i_min - i - 1)][j][k][num]\n for num in [1]:\n self.U[i][j][k][num] = - self.U[self.i_min + (self.i_min - i - 1)][j][k][num]\n else:\n print(\"Errof field.set_ics(): only wall-type and transmissive boundaries supported! Bye!\")\n # Right X-b.c.\n for i in range(self.i_max, self.i_max+n_bound):\n for j in range(self.j_min, self.j_max):\n for k in range(self.k_min, self.k_max): \n if bcs[1] == 't':\n self.U[i][j][k] = self.U[self.i_max-1][j][k]\n elif bcs[1] == 'w':\n for num in [0, 2, 3, 4]: # i_max -> i_max-1 , i_max+1-> i_max-2\n self.U[i][j][k][num] = self.U[self.i_max - (i - self.i_max + 1)][j][k][num]\n for num in [1]:\n self.U[i][j][k][num] = - self.U[self.i_max - (i - self.i_max + 1)][j][k][num]\n else:\n print(\"Error field.set_ics(): only wall-type and transmissive boundaries supported! Bye!\")\n # Left Y-b.c.\n for i in range(0, self.i_max+n_bound):\n for j in range(0, self.j_min):\n for k in range(self.k_min, self.k_max): \n if bcs[2] == 't':\n self.U[i][j][k] = self.U[i][self.j_min][k]\n elif bcs[2] == 'w':\n for num in [0, 1, 3, 4]:\n self.U[i][j][k][num] = self.U[i][self.j_min + (self.j_min - j - 1)][k][num]\n for num in [2]:\n self.U[i][j][k][num] = - self.U[i][self.j_min + (self.j_min - j - 1)][k][num]\n else:\n print(\"Error field.set_ics(): only wall-type and transmissive boundaries supported! Bye!\")\n # Right Y-b.c.\n for i in range(0, self.i_max+n_bound):\n for j in range(self.j_max, self.j_max+n_bound):\n for k in range(self.k_min, self.k_max): \n if bcs[3] == 't':\n self.U[i][j][k] = self.U[i][self.j_max-1][k]\n elif bcs[3] == 'w':\n for num in [0, 1, 3, 4]:\n self.U[i][j][k][num] = self.U[i][self.j_max - (j - self.j_max + 1)][k][num]\n for num in [2]:\n self.U[i][j][k][num] = -self.U[i][self.j_max - (j - self.j_max + 1)][k][num]\n else:\n print(\"Error field.set_ics(): only wall-type and transmissive boundaries supported! Bye!\")\n # Left Z-b.c.\n for i in range(0, self.i_max+n_bound):\n for j in range(0, self.j_max+n_bound):\n for k in range(0, self.k_min): \n if bcs[4] == 't':\n self.U[i][j][k] = self.U[i][j][self.k_min]\n elif bcs[4] == 'w':\n for num in [0, 1, 2, 4]:\n self.U[i][j][k][num] = self.U[i][j][self.k_min + (self.k_min - k - 1)][num]\n for num in [3]:\n self.U[i][j][k][num] = - self.U[i][j][self.k_min + (self.k_min - k - 1)][num]\n else:\n print(\"Error field.set_ics(): only wall-type and transmissive boundaries supported! Bye!\")\n # Right Z-b.c.\n for i in range(0, self.i_max+n_bound):\n for j in range(0, self.j_max+n_bound):\n for k in range(self.k_max, self.k_max+n_bound):\n if bcs[5] == 't':\n self.U[i][j][k] = self.U[i][j][self.k_max-1]\n elif bcs[5] == 'w':\n for num in [0, 1, 2, 4]:\n self.U[i][j][k][num] = self.U[i][j][self.k_max - (k - self.k_max + 1)][num]\n for num in [3]:\n self.U[i][j][k][num] = - self.U[i][j][self.k_max - (k - self.k_max + 1)][num]\n else:\n print(\"Error field.set_ics(): only wall-type and transmissive boundaries supported! Bye!\")", "def SetPRCatConstraint(self, model ) :\n tot = np.multiply(self.wish, self.dispo)\n for line in tot :\n for val in line :\n if not val : continue\n if self.bound>0 : model += val <= self.valBound\n elif self.bound<0 : model += val >= self.valBound", "def _initialize_bounds(problem, bounds, get_bound, set_bound):\n for constraint in problem.constraints:\n root_expr = constraint.root_expr\n expr_bounds = Interval(constraint.lower_bound, constraint.upper_bound)\n if root_expr not in bounds:\n set_bound(root_expr, expr_bounds)\n else:\n existing_bounds = get_bound(root_expr)\n new_bounds = existing_bounds.intersect(expr_bounds)\n set_bound(root_expr, new_bounds)", "def add_constraint(self, constraint):\n self._ckey += 1\n self.constraints[self._ckey] = constraint", "def putconboundslice(self,first_,last_,bk,bl,bu): # 3\n if bk is None: raise TypeError(\"Invalid type for argument bk\")\n if bk is None:\n bk_ = None\n else:\n try:\n bk_ = memoryview(bk)\n except TypeError:\n try:\n _tmparr_bk = array.array(\"i\",bk)\n except TypeError:\n raise TypeError(\"Argument bk has wrong type\")\n else:\n bk_ = memoryview(_tmparr_bk)\n \n else:\n if bk_.format != \"i\":\n bk_ = memoryview(array.array(\"i\",bk))\n \n if bk_ is not None and len(bk_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bk has wrong length\")\n if bl is None: raise TypeError(\"Invalid type for argument bl\")\n if bl is None:\n bl_ = None\n else:\n try:\n bl_ = memoryview(bl)\n except TypeError:\n try:\n _tmparr_bl = array.array(\"d\",bl)\n except TypeError:\n raise TypeError(\"Argument bl has wrong type\")\n else:\n bl_ = memoryview(_tmparr_bl)\n \n else:\n if bl_.format != \"d\":\n bl_ = memoryview(array.array(\"d\",bl))\n \n if bl_ is not None and len(bl_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bl has wrong length\")\n if bu is None: raise TypeError(\"Invalid type for argument bu\")\n if bu is None:\n bu_ = None\n else:\n try:\n bu_ = memoryview(bu)\n except TypeError:\n try:\n _tmparr_bu = array.array(\"d\",bu)\n except TypeError:\n raise TypeError(\"Argument bu has wrong type\")\n else:\n bu_ = memoryview(_tmparr_bu)\n \n else:\n if bu_.format != \"d\":\n bu_ = memoryview(array.array(\"d\",bu))\n \n if bu_ is not None and len(bu_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bu has wrong length\")\n res = self.__obj.putconboundslice(first_,last_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def chgvarbound(self,j_,lower_,finite_,value_): # 3\n res = self.__obj.chgvarbound(j_,lower_,finite_,value_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def chgvarbound(self,j_,lower_,finite_,value_):\n res = __library__.MSK_XX_chgvarbound(self.__nativep,j_,lower_,finite_,value_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def RestrictionRangeBound(self, compsIdList, lowerBound, upperBound):\n for i in range(len(compsIdList)): compsIdList[i] -= 1\n if self.solverTypeOptimize:\n self.solver.add(sum([self.a[compId * self.nrVM + j] for compId in compsIdList for j in range(self.nrVM)]) >= lowerBound)\n else:\n self.solver.assert_and_track(\n PbGe(sum([self.a[compId * self.nrVM + j] for compId in compsIdList for j in range(self.nrVM)]),\n lowerBound), \"LabelRangeBound: \" + str(self.labelIdx))\n self.labelIdx += 1\n if self.solverTypeOptimize:\n PbLe(self.solver.add(sum([self.a[compId * self.nrVM + j] for compId in compsIdList for j in range(self.nrVM)]),\n upperBound))\n else:\n self.solver.assert_and_track(\n sum([self.a[compId * self.nrVM + j] for compId in compsIdList for j in range(self.nrVM)]) <= upperBound, \"LabelRangeBound: \" + str(self.labelIdx))\n self.labelIdx += 1", "def constraint(self, constraint):\n\n self._constraint = constraint", "def SetConstraint(self, model) :\n if 'pp' in self.__type : self.SetPPConstraint( model )\n elif self.__type == 'prBin' and self.bound!=0 : self.SetPRBinConstraint( model )\n elif self.__type == 'prCat' and self.bound != 0 : self.SetPRCatConstraint(model)\n elif self.__type == 'prBinCat' and self.bound != 0 : self.SetPRBinCatConstraint(model)\n elif self.bound == 0 : return\n else : raise RuntimeError( 'SetConstraint : Unknown type for Constraint : ', self.__type )", "def putboundslice(self,con_,first_,last_,bk,bl,bu): # 3\n if not isinstance(con_,accmode): raise TypeError(\"Argument con has wrong type\")\n if bk is None: raise TypeError(\"Invalid type for argument bk\")\n if bk is None:\n bk_ = None\n else:\n try:\n bk_ = memoryview(bk)\n except TypeError:\n try:\n _tmparr_bk = array.array(\"i\",bk)\n except TypeError:\n raise TypeError(\"Argument bk has wrong type\")\n else:\n bk_ = memoryview(_tmparr_bk)\n \n else:\n if bk_.format != \"i\":\n bk_ = memoryview(array.array(\"i\",bk))\n \n if bk_ is not None and len(bk_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bk has wrong length\")\n if bl is None: raise TypeError(\"Invalid type for argument bl\")\n if bl is None:\n bl_ = None\n else:\n try:\n bl_ = memoryview(bl)\n except TypeError:\n try:\n _tmparr_bl = array.array(\"d\",bl)\n except TypeError:\n raise TypeError(\"Argument bl has wrong type\")\n else:\n bl_ = memoryview(_tmparr_bl)\n \n else:\n if bl_.format != \"d\":\n bl_ = memoryview(array.array(\"d\",bl))\n \n if bl_ is not None and len(bl_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bl has wrong length\")\n if bu is None: raise TypeError(\"Invalid type for argument bu\")\n if bu is None:\n bu_ = None\n else:\n try:\n bu_ = memoryview(bu)\n except TypeError:\n try:\n _tmparr_bu = array.array(\"d\",bu)\n except TypeError:\n raise TypeError(\"Argument bu has wrong type\")\n else:\n bu_ = memoryview(_tmparr_bu)\n \n else:\n if bu_.format != \"d\":\n bu_ = memoryview(array.array(\"d\",bu))\n \n if bu_ is not None and len(bu_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bu has wrong length\")\n res = self.__obj.putboundslice(con_,first_,last_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)" ]

[ "0.8431577", "0.74671066", "0.7019133", "0.69383395", "0.67582726", "0.6713032", "0.6695471", "0.6479412", "0.6461108", "0.6328686", "0.62583214", "0.62065446", "0.6160253", "0.607104", "0.60688263", "0.6038663", "0.6010842", "0.5968073", "0.59461397", "0.59395623", "0.58756113", "0.58551043", "0.5836918", "0.5817325", "0.58059466", "0.5762416", "0.5747407", "0.57213134", "0.56836504", "0.5678753" ]

[ "def putconboundlistconst(self,sub_,bkc_,blc_,buc_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n res = __library__.MSK_XX_putconboundlistconst(self.__nativep,num_,_sub_tmp,bkc_,blc_,buc_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarboundlistconst(self,sub_,bkx_,blx_,bux_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n res = __library__.MSK_XX_putvarboundlistconst(self.__nativep,num_,_sub_tmp,bkx_,blx_,bux_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconboundlist(self,sub,bk,bl,bu): # 3\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(bk)\n elif num_ != len(bk):\n raise IndexError(\"Inconsistent length of array bk\")\n if num_ is None:\n num_ = len(bl)\n elif num_ != len(bl):\n raise IndexError(\"Inconsistent length of array bl\")\n if num_ is None:\n num_ = len(bu)\n elif num_ != len(bu):\n raise IndexError(\"Inconsistent length of array bu\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if bk is None: raise TypeError(\"Invalid type for argument bk\")\n if bk is None:\n bk_ = None\n else:\n try:\n bk_ = memoryview(bk)\n except TypeError:\n try:\n _tmparr_bk = array.array(\"i\",bk)\n except TypeError:\n raise TypeError(\"Argument bk has wrong type\")\n else:\n bk_ = memoryview(_tmparr_bk)\n \n else:\n if bk_.format != \"i\":\n bk_ = memoryview(array.array(\"i\",bk))\n \n if bl is None: raise TypeError(\"Invalid type for argument bl\")\n if bl is None:\n bl_ = None\n else:\n try:\n bl_ = memoryview(bl)\n except TypeError:\n try:\n _tmparr_bl = array.array(\"d\",bl)\n except TypeError:\n raise TypeError(\"Argument bl has wrong type\")\n else:\n bl_ = memoryview(_tmparr_bl)\n \n else:\n if bl_.format != \"d\":\n bl_ = memoryview(array.array(\"d\",bl))\n \n if bu is None: raise TypeError(\"Invalid type for argument bu\")\n if bu is None:\n bu_ = None\n else:\n try:\n bu_ = memoryview(bu)\n except TypeError:\n try:\n _tmparr_bu = array.array(\"d\",bu)\n except TypeError:\n raise TypeError(\"Argument bu has wrong type\")\n else:\n bu_ = memoryview(_tmparr_bu)\n \n else:\n if bu_.format != \"d\":\n bu_ = memoryview(array.array(\"d\",bu))\n \n res = self.__obj.putconboundlist(num_,sub_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarboundlist(self,sub_,bkx_,blx_,bux_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(bkx_)\n elif num_ != len(bkx_):\n raise IndexError(\"Inconsistent length of array bkx\")\n if num_ is None:\n num_ = len(blx_)\n elif num_ != len(blx_):\n raise IndexError(\"Inconsistent length of array blx\")\n if num_ is None:\n num_ = len(bux_)\n elif num_ != len(bux_):\n raise IndexError(\"Inconsistent length of array bux\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n if bkx_ is None:\n raise ValueError(\"Argument bkx cannot be None\")\n if bkx_ is None:\n raise ValueError(\"Argument bkx may not be None\")\n if bkx_ is not None:\n _bkx_tmp = (ctypes.c_int32 * len(bkx_))(*bkx_)\n else:\n _bkx_tmp = None\n if blx_ is None:\n raise ValueError(\"Argument blx cannot be None\")\n if blx_ is None:\n raise ValueError(\"Argument blx may not be None\")\n if isinstance(blx_, numpy.ndarray) and blx_.dtype is numpy.dtype(numpy.float64) and blx_.flags.contiguous:\n _blx_copyarray = False\n _blx_tmp = ctypes.cast(blx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif blx_ is not None:\n _blx_copyarray = True\n _blx_np_tmp = numpy.zeros(len(blx_),numpy.dtype(numpy.float64))\n _blx_np_tmp[:] = blx_\n assert _blx_np_tmp.flags.contiguous\n _blx_tmp = ctypes.cast(_blx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _blx_copyarray = False\n _blx_tmp = None\n \n if bux_ is None:\n raise ValueError(\"Argument bux cannot be None\")\n if bux_ is None:\n raise ValueError(\"Argument bux may not be None\")\n if isinstance(bux_, numpy.ndarray) and bux_.dtype is numpy.dtype(numpy.float64) and bux_.flags.contiguous:\n _bux_copyarray = False\n _bux_tmp = ctypes.cast(bux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif bux_ is not None:\n _bux_copyarray = True\n _bux_np_tmp = numpy.zeros(len(bux_),numpy.dtype(numpy.float64))\n _bux_np_tmp[:] = bux_\n assert _bux_np_tmp.flags.contiguous\n _bux_tmp = ctypes.cast(_bux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _bux_copyarray = False\n _bux_tmp = None\n \n res = __library__.MSK_XX_putvarboundlist(self.__nativep,num_,_sub_tmp,_bkx_tmp,_blx_tmp,_bux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putboundlist(self,accmode_,sub,bk,bl,bu): # 3\n if not isinstance(accmode_,accmode): raise TypeError(\"Argument accmode has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(bk)\n elif num_ != len(bk):\n raise IndexError(\"Inconsistent length of array bk\")\n if num_ is None:\n num_ = len(bl)\n elif num_ != len(bl):\n raise IndexError(\"Inconsistent length of array bl\")\n if num_ is None:\n num_ = len(bu)\n elif num_ != len(bu):\n raise IndexError(\"Inconsistent length of array bu\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if bk is None: raise TypeError(\"Invalid type for argument bk\")\n if bk is None:\n bk_ = None\n else:\n try:\n bk_ = memoryview(bk)\n except TypeError:\n try:\n _tmparr_bk = array.array(\"i\",bk)\n except TypeError:\n raise TypeError(\"Argument bk has wrong type\")\n else:\n bk_ = memoryview(_tmparr_bk)\n \n else:\n if bk_.format != \"i\":\n bk_ = memoryview(array.array(\"i\",bk))\n \n if bl is None: raise TypeError(\"Invalid type for argument bl\")\n if bl is None:\n bl_ = None\n else:\n try:\n bl_ = memoryview(bl)\n except TypeError:\n try:\n _tmparr_bl = array.array(\"d\",bl)\n except TypeError:\n raise TypeError(\"Argument bl has wrong type\")\n else:\n bl_ = memoryview(_tmparr_bl)\n \n else:\n if bl_.format != \"d\":\n bl_ = memoryview(array.array(\"d\",bl))\n \n if bu is None: raise TypeError(\"Invalid type for argument bu\")\n if bu is None:\n bu_ = None\n else:\n try:\n bu_ = memoryview(bu)\n except TypeError:\n try:\n _tmparr_bu = array.array(\"d\",bu)\n except TypeError:\n raise TypeError(\"Argument bu has wrong type\")\n else:\n bu_ = memoryview(_tmparr_bu)\n \n else:\n if bu_.format != \"d\":\n bu_ = memoryview(array.array(\"d\",bu))\n \n res = self.__obj.putboundlist(accmode_,num_,sub_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarboundlist(self,sub,bkx,blx,bux): # 3\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(bkx)\n elif num_ != len(bkx):\n raise IndexError(\"Inconsistent length of array bkx\")\n if num_ is None:\n num_ = len(blx)\n elif num_ != len(blx):\n raise IndexError(\"Inconsistent length of array blx\")\n if num_ is None:\n num_ = len(bux)\n elif num_ != len(bux):\n raise IndexError(\"Inconsistent length of array bux\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if bkx is None: raise TypeError(\"Invalid type for argument bkx\")\n if bkx is None:\n bkx_ = None\n else:\n try:\n bkx_ = memoryview(bkx)\n except TypeError:\n try:\n _tmparr_bkx = array.array(\"i\",bkx)\n except TypeError:\n raise TypeError(\"Argument bkx has wrong type\")\n else:\n bkx_ = memoryview(_tmparr_bkx)\n \n else:\n if bkx_.format != \"i\":\n bkx_ = memoryview(array.array(\"i\",bkx))\n \n if blx is None: raise TypeError(\"Invalid type for argument blx\")\n if blx is None:\n blx_ = None\n else:\n try:\n blx_ = memoryview(blx)\n except TypeError:\n try:\n _tmparr_blx = array.array(\"d\",blx)\n except TypeError:\n raise TypeError(\"Argument blx has wrong type\")\n else:\n blx_ = memoryview(_tmparr_blx)\n \n else:\n if blx_.format != \"d\":\n blx_ = memoryview(array.array(\"d\",blx))\n \n if bux is None: raise TypeError(\"Invalid type for argument bux\")\n if bux is None:\n bux_ = None\n else:\n try:\n bux_ = memoryview(bux)\n except TypeError:\n try:\n _tmparr_bux = array.array(\"d\",bux)\n except TypeError:\n raise TypeError(\"Argument bux has wrong type\")\n else:\n bux_ = memoryview(_tmparr_bux)\n \n else:\n if bux_.format != \"d\":\n bux_ = memoryview(array.array(\"d\",bux))\n \n res = self.__obj.putvarboundlist(num_,sub_,bkx_,blx_,bux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconboundsliceconst(self,first_,last_,bkc_,blc_,buc_):\n res = __library__.MSK_XX_putconboundsliceconst(self.__nativep,first_,last_,bkc_,blc_,buc_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconbound(self,i_,bk_,bl_,bu_): # 3\n if not isinstance(bk_,boundkey): raise TypeError(\"Argument bk has wrong type\")\n res = self.__obj.putconbound(i_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconbound(self,i_,bkc_,blc_,buc_):\n res = __library__.MSK_XX_putconbound(self.__nativep,i_,bkc_,blc_,buc_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconboundslice(self,first_,last_,bkc_,blc_,buc_):\n _bkc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and bkc_ is not None and len(bkc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bkc is not long enough: Is %d, expected %d\" % (len(bkc_),((last_) - (first_))))\n if bkc_ is None:\n raise ValueError(\"Argument bkc cannot be None\")\n if bkc_ is None:\n raise ValueError(\"Argument bkc may not be None\")\n if bkc_ is not None:\n _bkc_tmp = (ctypes.c_int32 * len(bkc_))(*bkc_)\n else:\n _bkc_tmp = None\n _blc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and blc_ is not None and len(blc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument blc is not long enough: Is %d, expected %d\" % (len(blc_),((last_) - (first_))))\n if blc_ is None:\n raise ValueError(\"Argument blc cannot be None\")\n if blc_ is None:\n raise ValueError(\"Argument blc may not be None\")\n if isinstance(blc_, numpy.ndarray) and blc_.dtype is numpy.dtype(numpy.float64) and blc_.flags.contiguous:\n _blc_copyarray = False\n _blc_tmp = ctypes.cast(blc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif blc_ is not None:\n _blc_copyarray = True\n _blc_np_tmp = numpy.zeros(len(blc_),numpy.dtype(numpy.float64))\n _blc_np_tmp[:] = blc_\n assert _blc_np_tmp.flags.contiguous\n _blc_tmp = ctypes.cast(_blc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _blc_copyarray = False\n _blc_tmp = None\n \n _buc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and buc_ is not None and len(buc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument buc is not long enough: Is %d, expected %d\" % (len(buc_),((last_) - (first_))))\n if buc_ is None:\n raise ValueError(\"Argument buc cannot be None\")\n if buc_ is None:\n raise ValueError(\"Argument buc may not be None\")\n if isinstance(buc_, numpy.ndarray) and buc_.dtype is numpy.dtype(numpy.float64) and buc_.flags.contiguous:\n _buc_copyarray = False\n _buc_tmp = ctypes.cast(buc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif buc_ is not None:\n _buc_copyarray = True\n _buc_np_tmp = numpy.zeros(len(buc_),numpy.dtype(numpy.float64))\n _buc_np_tmp[:] = buc_\n assert _buc_np_tmp.flags.contiguous\n _buc_tmp = ctypes.cast(_buc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _buc_copyarray = False\n _buc_tmp = None\n \n res = __library__.MSK_XX_putconboundslice(self.__nativep,first_,last_,_bkc_tmp,_blc_tmp,_buc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconboundslice(self,first_,last_,bk,bl,bu): # 3\n if bk is None: raise TypeError(\"Invalid type for argument bk\")\n if bk is None:\n bk_ = None\n else:\n try:\n bk_ = memoryview(bk)\n except TypeError:\n try:\n _tmparr_bk = array.array(\"i\",bk)\n except TypeError:\n raise TypeError(\"Argument bk has wrong type\")\n else:\n bk_ = memoryview(_tmparr_bk)\n \n else:\n if bk_.format != \"i\":\n bk_ = memoryview(array.array(\"i\",bk))\n \n if bk_ is not None and len(bk_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bk has wrong length\")\n if bl is None: raise TypeError(\"Invalid type for argument bl\")\n if bl is None:\n bl_ = None\n else:\n try:\n bl_ = memoryview(bl)\n except TypeError:\n try:\n _tmparr_bl = array.array(\"d\",bl)\n except TypeError:\n raise TypeError(\"Argument bl has wrong type\")\n else:\n bl_ = memoryview(_tmparr_bl)\n \n else:\n if bl_.format != \"d\":\n bl_ = memoryview(array.array(\"d\",bl))\n \n if bl_ is not None and len(bl_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bl has wrong length\")\n if bu is None: raise TypeError(\"Invalid type for argument bu\")\n if bu is None:\n bu_ = None\n else:\n try:\n bu_ = memoryview(bu)\n except TypeError:\n try:\n _tmparr_bu = array.array(\"d\",bu)\n except TypeError:\n raise TypeError(\"Argument bu has wrong type\")\n else:\n bu_ = memoryview(_tmparr_bu)\n \n else:\n if bu_.format != \"d\":\n bu_ = memoryview(array.array(\"d\",bu))\n \n if bu_ is not None and len(bu_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bu has wrong length\")\n res = self.__obj.putconboundslice(first_,last_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def _initialize_bounds(problem, bounds, get_bound, set_bound):\n for constraint in problem.constraints:\n root_expr = constraint.root_expr\n expr_bounds = Interval(constraint.lower_bound, constraint.upper_bound)\n if root_expr not in bounds:\n set_bound(root_expr, expr_bounds)\n else:\n existing_bounds = get_bound(root_expr)\n new_bounds = existing_bounds.intersect(expr_bounds)\n set_bound(root_expr, new_bounds)", "def RestrictionRangeBound(self, compsIdList, lowerBound, upperBound):\n for i in range(len(compsIdList)): compsIdList[i] -= 1\n if self.solverTypeOptimize:\n self.solver.add(sum([self.a[compId * self.nrVM + j] for compId in compsIdList for j in range(self.nrVM)]) >= lowerBound)\n else:\n self.solver.assert_and_track(\n PbGe(sum([self.a[compId * self.nrVM + j] for compId in compsIdList for j in range(self.nrVM)]),\n lowerBound), \"LabelRangeBound: \" + str(self.labelIdx))\n self.labelIdx += 1\n if self.solverTypeOptimize:\n PbLe(self.solver.add(sum([self.a[compId * self.nrVM + j] for compId in compsIdList for j in range(self.nrVM)]),\n upperBound))\n else:\n self.solver.assert_and_track(\n sum([self.a[compId * self.nrVM + j] for compId in compsIdList for j in range(self.nrVM)]) <= upperBound, \"LabelRangeBound: \" + str(self.labelIdx))\n self.labelIdx += 1", "def putvarboundsliceconst(self,first_,last_,bkx_,blx_,bux_):\n res = __library__.MSK_XX_putvarboundsliceconst(self.__nativep,first_,last_,bkx_,blx_,bux_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putboundslice(self,con_,first_,last_,bk,bl,bu): # 3\n if not isinstance(con_,accmode): raise TypeError(\"Argument con has wrong type\")\n if bk is None: raise TypeError(\"Invalid type for argument bk\")\n if bk is None:\n bk_ = None\n else:\n try:\n bk_ = memoryview(bk)\n except TypeError:\n try:\n _tmparr_bk = array.array(\"i\",bk)\n except TypeError:\n raise TypeError(\"Argument bk has wrong type\")\n else:\n bk_ = memoryview(_tmparr_bk)\n \n else:\n if bk_.format != \"i\":\n bk_ = memoryview(array.array(\"i\",bk))\n \n if bk_ is not None and len(bk_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bk has wrong length\")\n if bl is None: raise TypeError(\"Invalid type for argument bl\")\n if bl is None:\n bl_ = None\n else:\n try:\n bl_ = memoryview(bl)\n except TypeError:\n try:\n _tmparr_bl = array.array(\"d\",bl)\n except TypeError:\n raise TypeError(\"Argument bl has wrong type\")\n else:\n bl_ = memoryview(_tmparr_bl)\n \n else:\n if bl_.format != \"d\":\n bl_ = memoryview(array.array(\"d\",bl))\n \n if bl_ is not None and len(bl_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bl has wrong length\")\n if bu is None: raise TypeError(\"Invalid type for argument bu\")\n if bu is None:\n bu_ = None\n else:\n try:\n bu_ = memoryview(bu)\n except TypeError:\n try:\n _tmparr_bu = array.array(\"d\",bu)\n except TypeError:\n raise TypeError(\"Argument bu has wrong type\")\n else:\n bu_ = memoryview(_tmparr_bu)\n \n else:\n if bu_.format != \"d\":\n bu_ = memoryview(array.array(\"d\",bu))\n \n if bu_ is not None and len(bu_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bu has wrong length\")\n res = self.__obj.putboundslice(con_,first_,last_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def simple_bounds(child, lb, ub):\n assert len(lb) == len(ub), 'Lower and upper bounds have different #s of design variables in simple_bounds function.'\n assert len(lb) == len(child), 'Bounds and child have different #s of design variables in simple_bounds function.'\n for i in range(0, len(child), 1):\n if child[i] < lb[i]:\n child[i] = lb[i]\n\n for i in range(0, len(child), 1):\n if child[i] > ub[i]:\n child[i] = ub[i]\n\n return child", "def putbound(self,accmode_,i_,bk_,bl_,bu_): # 3\n if not isinstance(accmode_,accmode): raise TypeError(\"Argument accmode has wrong type\")\n if not isinstance(bk_,boundkey): raise TypeError(\"Argument bk has wrong type\")\n res = self.__obj.putbound(accmode_,i_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def SetPRBinCatConstraint( self, model ) :\n tot = np.dot( self.wish.T, self.dispo )\n for val in tot :\n if not val : continue\n if self.bound>0 : model += val <= self.valBound\n elif self.bound<0 : model += val >= self.valBound", "def putvarbound(self,j_,bk_,bl_,bu_): # 3\n if not isinstance(bk_,boundkey): raise TypeError(\"Argument bk has wrong type\")\n res = self.__obj.putvarbound(j_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def _add_bound_configs(CONFIG):\n CONFIG.declare(\n 'obj_bound',\n ConfigValue(\n default=1e15,\n domain=PositiveFloat,\n description='Bound applied to the linearization of the objective function if main MIP is unbounded.',\n ),\n )\n CONFIG.declare(\n 'continuous_var_bound',\n ConfigValue(\n default=1e10,\n description='Default bound added to unbounded continuous variables in nonlinear constraint if single tree is activated.',\n domain=PositiveFloat,\n ),\n )\n CONFIG.declare(\n 'integer_var_bound',\n ConfigValue(\n default=1e9,\n description='Default bound added to unbounded integral variables in nonlinear constraint if single tree is activated.',\n domain=PositiveFloat,\n ),\n )\n CONFIG.declare(\n 'initial_bound_coef',\n ConfigValue(\n default=1e-1,\n domain=PositiveFloat,\n description='The coefficient used to approximate the initial primal/dual bound.',\n ),\n )", "def getconboundslice(self,first_,last_,bk_,bl_,bu_):\n _bk_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and bk_ is not None and len(bk_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bk is not long enough: Is %d, expected %d\" % (len(bk_),((last_) - (first_))))\n if isinstance(bk_,numpy.ndarray) and not bk_.flags.writeable:\n raise ValueError(\"Argument bk must be writable\")\n if bk_ is not None:\n _bk_tmp = (ctypes.c_int32 * len(bk_))()\n else:\n _bk_tmp = None\n _bl_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and bl_ is not None and len(bl_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bl is not long enough: Is %d, expected %d\" % (len(bl_),((last_) - (first_))))\n if isinstance(bl_,numpy.ndarray) and not bl_.flags.writeable:\n raise ValueError(\"Argument bl must be writable\")\n if isinstance(bl_, numpy.ndarray) and bl_.dtype is numpy.dtype(numpy.float64) and bl_.flags.contiguous:\n _bl_copyarray = False\n _bl_tmp = ctypes.cast(bl_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif bl_ is not None:\n _bl_copyarray = True\n _bl_np_tmp = numpy.zeros(len(bl_),numpy.dtype(numpy.float64))\n _bl_np_tmp[:] = bl_\n assert _bl_np_tmp.flags.contiguous\n _bl_tmp = ctypes.cast(_bl_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _bl_copyarray = False\n _bl_tmp = None\n \n _bu_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and bu_ is not None and len(bu_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bu is not long enough: Is %d, expected %d\" % (len(bu_),((last_) - (first_))))\n if isinstance(bu_,numpy.ndarray) and not bu_.flags.writeable:\n raise ValueError(\"Argument bu must be writable\")\n if isinstance(bu_, numpy.ndarray) and bu_.dtype is numpy.dtype(numpy.float64) and bu_.flags.contiguous:\n _bu_copyarray = False\n _bu_tmp = ctypes.cast(bu_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif bu_ is not None:\n _bu_copyarray = True\n _bu_np_tmp = numpy.zeros(len(bu_),numpy.dtype(numpy.float64))\n _bu_np_tmp[:] = bu_\n assert _bu_np_tmp.flags.contiguous\n _bu_tmp = ctypes.cast(_bu_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _bu_copyarray = False\n _bu_tmp = None\n \n res = __library__.MSK_XX_getconboundslice(self.__nativep,first_,last_,_bk_tmp,_bl_tmp,_bu_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if bk_ is not None: bk_[:] = [ boundkey(v) for v in _bk_tmp[0:len(bk_)] ]\n if _bl_copyarray:\n bl_[:] = _bl_np_tmp\n if _bu_copyarray:\n bu_[:] = _bu_np_tmp", "def bounds(self, new_bounds: devices.PrimaryBounds) -> None:\n self._assert_bounds_are_valid(new_bounds)\n self._bounds = list(new_bounds)", "def putbararowlist(self,subi_,ptrb_,ptre_,subj_,nummat_,matidx_,weights_):\n num_ = None\n if num_ is None:\n num_ = len(subi_)\n elif num_ != len(subi_):\n raise IndexError(\"Inconsistent length of array subi\")\n if num_ is None:\n num_ = len(ptrb_)\n elif num_ != len(ptrb_):\n raise IndexError(\"Inconsistent length of array ptrb\")\n if num_ is None:\n num_ = len(ptre_)\n elif num_ != len(ptre_):\n raise IndexError(\"Inconsistent length of array ptre\")\n if subi_ is None:\n raise ValueError(\"Argument subi cannot be None\")\n if subi_ is None:\n raise ValueError(\"Argument subi may not be None\")\n if isinstance(subi_, numpy.ndarray) and subi_.dtype is numpy.dtype(numpy.int32) and subi_.flags.contiguous:\n _subi_copyarray = False\n _subi_tmp = ctypes.cast(subi_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subi_ is not None:\n _subi_copyarray = True\n _subi_np_tmp = numpy.zeros(len(subi_),numpy.dtype(numpy.int32))\n _subi_np_tmp[:] = subi_\n assert _subi_np_tmp.flags.contiguous\n _subi_tmp = ctypes.cast(_subi_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subi_copyarray = False\n _subi_tmp = None\n \n if ptrb_ is None:\n raise ValueError(\"Argument ptrb cannot be None\")\n if ptrb_ is None:\n raise ValueError(\"Argument ptrb may not be None\")\n if isinstance(ptrb_, numpy.ndarray) and ptrb_.dtype is numpy.dtype(numpy.int64) and ptrb_.flags.contiguous:\n _ptrb_copyarray = False\n _ptrb_tmp = ctypes.cast(ptrb_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptrb_ is not None:\n _ptrb_copyarray = True\n _ptrb_np_tmp = numpy.zeros(len(ptrb_),numpy.dtype(numpy.int64))\n _ptrb_np_tmp[:] = ptrb_\n assert _ptrb_np_tmp.flags.contiguous\n _ptrb_tmp = ctypes.cast(_ptrb_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptrb_copyarray = False\n _ptrb_tmp = None\n \n if ptre_ is None:\n raise ValueError(\"Argument ptre cannot be None\")\n if ptre_ is None:\n raise ValueError(\"Argument ptre may not be None\")\n if isinstance(ptre_, numpy.ndarray) and ptre_.dtype is numpy.dtype(numpy.int64) and ptre_.flags.contiguous:\n _ptre_copyarray = False\n _ptre_tmp = ctypes.cast(ptre_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptre_ is not None:\n _ptre_copyarray = True\n _ptre_np_tmp = numpy.zeros(len(ptre_),numpy.dtype(numpy.int64))\n _ptre_np_tmp[:] = ptre_\n assert _ptre_np_tmp.flags.contiguous\n _ptre_tmp = ctypes.cast(_ptre_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptre_copyarray = False\n _ptre_tmp = None\n \n if subj_ is None:\n raise ValueError(\"Argument subj cannot be None\")\n if subj_ is None:\n raise ValueError(\"Argument subj may not be None\")\n if isinstance(subj_, numpy.ndarray) and subj_.dtype is numpy.dtype(numpy.int32) and subj_.flags.contiguous:\n _subj_copyarray = False\n _subj_tmp = ctypes.cast(subj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif subj_ is not None:\n _subj_copyarray = True\n _subj_np_tmp = numpy.zeros(len(subj_),numpy.dtype(numpy.int32))\n _subj_np_tmp[:] = subj_\n assert _subj_np_tmp.flags.contiguous\n _subj_tmp = ctypes.cast(_subj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _subj_copyarray = False\n _subj_tmp = None\n \n _nummat_minlength = len((subj_))\n if len((subj_)) > 0 and nummat_ is not None and len(nummat_) != len((subj_)):\n raise ValueError(\"Array argument nummat is not long enough: Is %d, expected %d\" % (len(nummat_),len((subj_))))\n if nummat_ is None:\n raise ValueError(\"Argument nummat cannot be None\")\n if nummat_ is None:\n raise ValueError(\"Argument nummat may not be None\")\n if isinstance(nummat_, numpy.ndarray) and nummat_.dtype is numpy.dtype(numpy.int64) and nummat_.flags.contiguous:\n _nummat_copyarray = False\n _nummat_tmp = ctypes.cast(nummat_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif nummat_ is not None:\n _nummat_copyarray = True\n _nummat_np_tmp = numpy.zeros(len(nummat_),numpy.dtype(numpy.int64))\n _nummat_np_tmp[:] = nummat_\n assert _nummat_np_tmp.flags.contiguous\n _nummat_tmp = ctypes.cast(_nummat_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _nummat_copyarray = False\n _nummat_tmp = None\n \n _matidx_minlength = sum((nummat_))\n if sum((nummat_)) > 0 and matidx_ is not None and len(matidx_) != sum((nummat_)):\n raise ValueError(\"Array argument matidx is not long enough: Is %d, expected %d\" % (len(matidx_),sum((nummat_))))\n if matidx_ is None:\n raise ValueError(\"Argument matidx cannot be None\")\n if matidx_ is None:\n raise ValueError(\"Argument matidx may not be None\")\n if isinstance(matidx_, numpy.ndarray) and matidx_.dtype is numpy.dtype(numpy.int64) and matidx_.flags.contiguous:\n _matidx_copyarray = False\n _matidx_tmp = ctypes.cast(matidx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif matidx_ is not None:\n _matidx_copyarray = True\n _matidx_np_tmp = numpy.zeros(len(matidx_),numpy.dtype(numpy.int64))\n _matidx_np_tmp[:] = matidx_\n assert _matidx_np_tmp.flags.contiguous\n _matidx_tmp = ctypes.cast(_matidx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _matidx_copyarray = False\n _matidx_tmp = None\n \n _weights_minlength = sum((nummat_))\n if sum((nummat_)) > 0 and weights_ is not None and len(weights_) != sum((nummat_)):\n raise ValueError(\"Array argument weights is not long enough: Is %d, expected %d\" % (len(weights_),sum((nummat_))))\n if weights_ is None:\n raise ValueError(\"Argument weights cannot be None\")\n if weights_ is None:\n raise ValueError(\"Argument weights may not be None\")\n if isinstance(weights_, numpy.ndarray) and weights_.dtype is numpy.dtype(numpy.float64) and weights_.flags.contiguous:\n _weights_copyarray = False\n _weights_tmp = ctypes.cast(weights_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif weights_ is not None:\n _weights_copyarray = True\n _weights_np_tmp = numpy.zeros(len(weights_),numpy.dtype(numpy.float64))\n _weights_np_tmp[:] = weights_\n assert _weights_np_tmp.flags.contiguous\n _weights_tmp = ctypes.cast(_weights_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _weights_copyarray = False\n _weights_tmp = None\n \n res = __library__.MSK_XX_putbararowlist(self.__nativep,num_,_subi_tmp,_ptrb_tmp,_ptre_tmp,_subj_tmp,_nummat_tmp,_matidx_tmp,_weights_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarboundslice(self,first_,last_,bkx_,blx_,bux_):\n _bkx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and bkx_ is not None and len(bkx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bkx is not long enough: Is %d, expected %d\" % (len(bkx_),((last_) - (first_))))\n if bkx_ is None:\n raise ValueError(\"Argument bkx cannot be None\")\n if bkx_ is None:\n raise ValueError(\"Argument bkx may not be None\")\n if bkx_ is not None:\n _bkx_tmp = (ctypes.c_int32 * len(bkx_))(*bkx_)\n else:\n _bkx_tmp = None\n _blx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and blx_ is not None and len(blx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument blx is not long enough: Is %d, expected %d\" % (len(blx_),((last_) - (first_))))\n if blx_ is None:\n raise ValueError(\"Argument blx cannot be None\")\n if blx_ is None:\n raise ValueError(\"Argument blx may not be None\")\n if isinstance(blx_, numpy.ndarray) and blx_.dtype is numpy.dtype(numpy.float64) and blx_.flags.contiguous:\n _blx_copyarray = False\n _blx_tmp = ctypes.cast(blx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif blx_ is not None:\n _blx_copyarray = True\n _blx_np_tmp = numpy.zeros(len(blx_),numpy.dtype(numpy.float64))\n _blx_np_tmp[:] = blx_\n assert _blx_np_tmp.flags.contiguous\n _blx_tmp = ctypes.cast(_blx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _blx_copyarray = False\n _blx_tmp = None\n \n _bux_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and bux_ is not None and len(bux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bux is not long enough: Is %d, expected %d\" % (len(bux_),((last_) - (first_))))\n if bux_ is None:\n raise ValueError(\"Argument bux cannot be None\")\n if bux_ is None:\n raise ValueError(\"Argument bux may not be None\")\n if isinstance(bux_, numpy.ndarray) and bux_.dtype is numpy.dtype(numpy.float64) and bux_.flags.contiguous:\n _bux_copyarray = False\n _bux_tmp = ctypes.cast(bux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif bux_ is not None:\n _bux_copyarray = True\n _bux_np_tmp = numpy.zeros(len(bux_),numpy.dtype(numpy.float64))\n _bux_np_tmp[:] = bux_\n assert _bux_np_tmp.flags.contiguous\n _bux_tmp = ctypes.cast(_bux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _bux_copyarray = False\n _bux_tmp = None\n \n res = __library__.MSK_XX_putvarboundslice(self.__nativep,first_,last_,_bkx_tmp,_blx_tmp,_bux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarbound(self,j_,bkx_,blx_,bux_):\n res = __library__.MSK_XX_putvarbound(self.__nativep,j_,bkx_,blx_,bux_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putacollist(self,sub_,ptrb_,ptre_,asub_,aval_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(ptrb_)\n elif num_ != len(ptrb_):\n raise IndexError(\"Inconsistent length of array ptrb\")\n if num_ is None:\n num_ = len(ptre_)\n elif num_ != len(ptre_):\n raise IndexError(\"Inconsistent length of array ptre\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n if ptrb_ is None:\n raise ValueError(\"Argument ptrb cannot be None\")\n if ptrb_ is None:\n raise ValueError(\"Argument ptrb may not be None\")\n if isinstance(ptrb_, numpy.ndarray) and ptrb_.dtype is numpy.dtype(numpy.int64) and ptrb_.flags.contiguous:\n _ptrb_copyarray = False\n _ptrb_tmp = ctypes.cast(ptrb_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptrb_ is not None:\n _ptrb_copyarray = True\n _ptrb_np_tmp = numpy.zeros(len(ptrb_),numpy.dtype(numpy.int64))\n _ptrb_np_tmp[:] = ptrb_\n assert _ptrb_np_tmp.flags.contiguous\n _ptrb_tmp = ctypes.cast(_ptrb_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptrb_copyarray = False\n _ptrb_tmp = None\n \n if ptre_ is None:\n raise ValueError(\"Argument ptre cannot be None\")\n if ptre_ is None:\n raise ValueError(\"Argument ptre may not be None\")\n if isinstance(ptre_, numpy.ndarray) and ptre_.dtype is numpy.dtype(numpy.int64) and ptre_.flags.contiguous:\n _ptre_copyarray = False\n _ptre_tmp = ctypes.cast(ptre_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n elif ptre_ is not None:\n _ptre_copyarray = True\n _ptre_np_tmp = numpy.zeros(len(ptre_),numpy.dtype(numpy.int64))\n _ptre_np_tmp[:] = ptre_\n assert _ptre_np_tmp.flags.contiguous\n _ptre_tmp = ctypes.cast(_ptre_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int64))\n else:\n _ptre_copyarray = False\n _ptre_tmp = None\n \n if asub_ is None:\n raise ValueError(\"Argument asub cannot be None\")\n if asub_ is None:\n raise ValueError(\"Argument asub may not be None\")\n if isinstance(asub_, numpy.ndarray) and asub_.dtype is numpy.dtype(numpy.int32) and asub_.flags.contiguous:\n _asub_copyarray = False\n _asub_tmp = ctypes.cast(asub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif asub_ is not None:\n _asub_copyarray = True\n _asub_np_tmp = numpy.zeros(len(asub_),numpy.dtype(numpy.int32))\n _asub_np_tmp[:] = asub_\n assert _asub_np_tmp.flags.contiguous\n _asub_tmp = ctypes.cast(_asub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _asub_copyarray = False\n _asub_tmp = None\n \n if aval_ is None:\n raise ValueError(\"Argument aval cannot be None\")\n if aval_ is None:\n raise ValueError(\"Argument aval may not be None\")\n if isinstance(aval_, numpy.ndarray) and aval_.dtype is numpy.dtype(numpy.float64) and aval_.flags.contiguous:\n _aval_copyarray = False\n _aval_tmp = ctypes.cast(aval_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif aval_ is not None:\n _aval_copyarray = True\n _aval_np_tmp = numpy.zeros(len(aval_),numpy.dtype(numpy.float64))\n _aval_np_tmp[:] = aval_\n assert _aval_np_tmp.flags.contiguous\n _aval_tmp = ctypes.cast(_aval_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _aval_copyarray = False\n _aval_tmp = None\n \n res = __library__.MSK_XX_putacollist64(self.__nativep,num_,_sub_tmp,_ptrb_tmp,_ptre_tmp,_asub_tmp,_aval_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def create_from_bounds(self, lbs, ubs):\n self.base_vertices = (np.array([lbs])+np.array([ubs])).T/2\n self.base_vectors = np.diag((np.array(ubs)-np.array(lbs))/2)", "def putvarboundslice(self,first_,last_,bk,bl,bu): # 3\n if bk is None: raise TypeError(\"Invalid type for argument bk\")\n if bk is None:\n bk_ = None\n else:\n try:\n bk_ = memoryview(bk)\n except TypeError:\n try:\n _tmparr_bk = array.array(\"i\",bk)\n except TypeError:\n raise TypeError(\"Argument bk has wrong type\")\n else:\n bk_ = memoryview(_tmparr_bk)\n \n else:\n if bk_.format != \"i\":\n bk_ = memoryview(array.array(\"i\",bk))\n \n if bk_ is not None and len(bk_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bk has wrong length\")\n if bl is None: raise TypeError(\"Invalid type for argument bl\")\n if bl is None:\n bl_ = None\n else:\n try:\n bl_ = memoryview(bl)\n except TypeError:\n try:\n _tmparr_bl = array.array(\"d\",bl)\n except TypeError:\n raise TypeError(\"Argument bl has wrong type\")\n else:\n bl_ = memoryview(_tmparr_bl)\n \n else:\n if bl_.format != \"d\":\n bl_ = memoryview(array.array(\"d\",bl))\n \n if bl_ is not None and len(bl_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bl has wrong length\")\n if bu is None: raise TypeError(\"Invalid type for argument bu\")\n if bu is None:\n bu_ = None\n else:\n try:\n bu_ = memoryview(bu)\n except TypeError:\n try:\n _tmparr_bu = array.array(\"d\",bu)\n except TypeError:\n raise TypeError(\"Argument bu has wrong type\")\n else:\n bu_ = memoryview(_tmparr_bu)\n \n else:\n if bu_.format != \"d\":\n bu_ = memoryview(array.array(\"d\",bu))\n \n if bu_ is not None and len(bu_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bu has wrong length\")\n res = self.__obj.putvarboundslice(first_,last_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def set_concentration_boundaries(self, boundary_marker, concentration_function):\n self.concentration_boundaries[boundary_marker] = concentration_function", "def chgconbound(self,i_,lower_,finite_,value_): # 3\n res = self.__obj.chgconbound(i_,lower_,finite_,value_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)" ]

[ "0.84011555", "0.76973206", "0.73664284", "0.71282125", "0.6763163", "0.65985745", "0.65650123", "0.65250516", "0.6457567", "0.6309675", "0.6039203", "0.59684473", "0.59512186", "0.582025", "0.5767994", "0.5653089", "0.56379414", "0.5575884", "0.55110615", "0.54968846", "0.54966897", "0.54108137", "0.53813225", "0.5375062", "0.5373745", "0.53731024", "0.5349139", "0.5264748", "0.52322155", "0.5229087" ]

[ "def putconboundlist(self,sub_,bkc_,blc_,buc_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(bkc_)\n elif num_ != len(bkc_):\n raise IndexError(\"Inconsistent length of array bkc\")\n if num_ is None:\n num_ = len(blc_)\n elif num_ != len(blc_):\n raise IndexError(\"Inconsistent length of array blc\")\n if num_ is None:\n num_ = len(buc_)\n elif num_ != len(buc_):\n raise IndexError(\"Inconsistent length of array buc\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n if bkc_ is None:\n raise ValueError(\"Argument bkc cannot be None\")\n if bkc_ is None:\n raise ValueError(\"Argument bkc may not be None\")\n if bkc_ is not None:\n _bkc_tmp = (ctypes.c_int32 * len(bkc_))(*bkc_)\n else:\n _bkc_tmp = None\n if blc_ is None:\n raise ValueError(\"Argument blc cannot be None\")\n if blc_ is None:\n raise ValueError(\"Argument blc may not be None\")\n if isinstance(blc_, numpy.ndarray) and blc_.dtype is numpy.dtype(numpy.float64) and blc_.flags.contiguous:\n _blc_copyarray = False\n _blc_tmp = ctypes.cast(blc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif blc_ is not None:\n _blc_copyarray = True\n _blc_np_tmp = numpy.zeros(len(blc_),numpy.dtype(numpy.float64))\n _blc_np_tmp[:] = blc_\n assert _blc_np_tmp.flags.contiguous\n _blc_tmp = ctypes.cast(_blc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _blc_copyarray = False\n _blc_tmp = None\n \n if buc_ is None:\n raise ValueError(\"Argument buc cannot be None\")\n if buc_ is None:\n raise ValueError(\"Argument buc may not be None\")\n if isinstance(buc_, numpy.ndarray) and buc_.dtype is numpy.dtype(numpy.float64) and buc_.flags.contiguous:\n _buc_copyarray = False\n _buc_tmp = ctypes.cast(buc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif buc_ is not None:\n _buc_copyarray = True\n _buc_np_tmp = numpy.zeros(len(buc_),numpy.dtype(numpy.float64))\n _buc_np_tmp[:] = buc_\n assert _buc_np_tmp.flags.contiguous\n _buc_tmp = ctypes.cast(_buc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _buc_copyarray = False\n _buc_tmp = None\n \n res = __library__.MSK_XX_putconboundlist(self.__nativep,num_,_sub_tmp,_bkc_tmp,_blc_tmp,_buc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarboundlistconst(self,sub_,bkx_,blx_,bux_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n res = __library__.MSK_XX_putvarboundlistconst(self.__nativep,num_,_sub_tmp,bkx_,blx_,bux_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconboundsliceconst(self,first_,last_,bkc_,blc_,buc_):\n res = __library__.MSK_XX_putconboundsliceconst(self.__nativep,first_,last_,bkc_,blc_,buc_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconboundlist(self,sub,bk,bl,bu): # 3\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(bk)\n elif num_ != len(bk):\n raise IndexError(\"Inconsistent length of array bk\")\n if num_ is None:\n num_ = len(bl)\n elif num_ != len(bl):\n raise IndexError(\"Inconsistent length of array bl\")\n if num_ is None:\n num_ = len(bu)\n elif num_ != len(bu):\n raise IndexError(\"Inconsistent length of array bu\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if bk is None: raise TypeError(\"Invalid type for argument bk\")\n if bk is None:\n bk_ = None\n else:\n try:\n bk_ = memoryview(bk)\n except TypeError:\n try:\n _tmparr_bk = array.array(\"i\",bk)\n except TypeError:\n raise TypeError(\"Argument bk has wrong type\")\n else:\n bk_ = memoryview(_tmparr_bk)\n \n else:\n if bk_.format != \"i\":\n bk_ = memoryview(array.array(\"i\",bk))\n \n if bl is None: raise TypeError(\"Invalid type for argument bl\")\n if bl is None:\n bl_ = None\n else:\n try:\n bl_ = memoryview(bl)\n except TypeError:\n try:\n _tmparr_bl = array.array(\"d\",bl)\n except TypeError:\n raise TypeError(\"Argument bl has wrong type\")\n else:\n bl_ = memoryview(_tmparr_bl)\n \n else:\n if bl_.format != \"d\":\n bl_ = memoryview(array.array(\"d\",bl))\n \n if bu is None: raise TypeError(\"Invalid type for argument bu\")\n if bu is None:\n bu_ = None\n else:\n try:\n bu_ = memoryview(bu)\n except TypeError:\n try:\n _tmparr_bu = array.array(\"d\",bu)\n except TypeError:\n raise TypeError(\"Argument bu has wrong type\")\n else:\n bu_ = memoryview(_tmparr_bu)\n \n else:\n if bu_.format != \"d\":\n bu_ = memoryview(array.array(\"d\",bu))\n \n res = self.__obj.putconboundlist(num_,sub_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarboundlist(self,sub_,bkx_,blx_,bux_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(bkx_)\n elif num_ != len(bkx_):\n raise IndexError(\"Inconsistent length of array bkx\")\n if num_ is None:\n num_ = len(blx_)\n elif num_ != len(blx_):\n raise IndexError(\"Inconsistent length of array blx\")\n if num_ is None:\n num_ = len(bux_)\n elif num_ != len(bux_):\n raise IndexError(\"Inconsistent length of array bux\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n if bkx_ is None:\n raise ValueError(\"Argument bkx cannot be None\")\n if bkx_ is None:\n raise ValueError(\"Argument bkx may not be None\")\n if bkx_ is not None:\n _bkx_tmp = (ctypes.c_int32 * len(bkx_))(*bkx_)\n else:\n _bkx_tmp = None\n if blx_ is None:\n raise ValueError(\"Argument blx cannot be None\")\n if blx_ is None:\n raise ValueError(\"Argument blx may not be None\")\n if isinstance(blx_, numpy.ndarray) and blx_.dtype is numpy.dtype(numpy.float64) and blx_.flags.contiguous:\n _blx_copyarray = False\n _blx_tmp = ctypes.cast(blx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif blx_ is not None:\n _blx_copyarray = True\n _blx_np_tmp = numpy.zeros(len(blx_),numpy.dtype(numpy.float64))\n _blx_np_tmp[:] = blx_\n assert _blx_np_tmp.flags.contiguous\n _blx_tmp = ctypes.cast(_blx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _blx_copyarray = False\n _blx_tmp = None\n \n if bux_ is None:\n raise ValueError(\"Argument bux cannot be None\")\n if bux_ is None:\n raise ValueError(\"Argument bux may not be None\")\n if isinstance(bux_, numpy.ndarray) and bux_.dtype is numpy.dtype(numpy.float64) and bux_.flags.contiguous:\n _bux_copyarray = False\n _bux_tmp = ctypes.cast(bux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif bux_ is not None:\n _bux_copyarray = True\n _bux_np_tmp = numpy.zeros(len(bux_),numpy.dtype(numpy.float64))\n _bux_np_tmp[:] = bux_\n assert _bux_np_tmp.flags.contiguous\n _bux_tmp = ctypes.cast(_bux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _bux_copyarray = False\n _bux_tmp = None\n \n res = __library__.MSK_XX_putvarboundlist(self.__nativep,num_,_sub_tmp,_bkx_tmp,_blx_tmp,_bux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconbound(self,i_,bkc_,blc_,buc_):\n res = __library__.MSK_XX_putconbound(self.__nativep,i_,bkc_,blc_,buc_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconboundslice(self,first_,last_,bkc_,blc_,buc_):\n _bkc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and bkc_ is not None and len(bkc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bkc is not long enough: Is %d, expected %d\" % (len(bkc_),((last_) - (first_))))\n if bkc_ is None:\n raise ValueError(\"Argument bkc cannot be None\")\n if bkc_ is None:\n raise ValueError(\"Argument bkc may not be None\")\n if bkc_ is not None:\n _bkc_tmp = (ctypes.c_int32 * len(bkc_))(*bkc_)\n else:\n _bkc_tmp = None\n _blc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and blc_ is not None and len(blc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument blc is not long enough: Is %d, expected %d\" % (len(blc_),((last_) - (first_))))\n if blc_ is None:\n raise ValueError(\"Argument blc cannot be None\")\n if blc_ is None:\n raise ValueError(\"Argument blc may not be None\")\n if isinstance(blc_, numpy.ndarray) and blc_.dtype is numpy.dtype(numpy.float64) and blc_.flags.contiguous:\n _blc_copyarray = False\n _blc_tmp = ctypes.cast(blc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif blc_ is not None:\n _blc_copyarray = True\n _blc_np_tmp = numpy.zeros(len(blc_),numpy.dtype(numpy.float64))\n _blc_np_tmp[:] = blc_\n assert _blc_np_tmp.flags.contiguous\n _blc_tmp = ctypes.cast(_blc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _blc_copyarray = False\n _blc_tmp = None\n \n _buc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and buc_ is not None and len(buc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument buc is not long enough: Is %d, expected %d\" % (len(buc_),((last_) - (first_))))\n if buc_ is None:\n raise ValueError(\"Argument buc cannot be None\")\n if buc_ is None:\n raise ValueError(\"Argument buc may not be None\")\n if isinstance(buc_, numpy.ndarray) and buc_.dtype is numpy.dtype(numpy.float64) and buc_.flags.contiguous:\n _buc_copyarray = False\n _buc_tmp = ctypes.cast(buc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif buc_ is not None:\n _buc_copyarray = True\n _buc_np_tmp = numpy.zeros(len(buc_),numpy.dtype(numpy.float64))\n _buc_np_tmp[:] = buc_\n assert _buc_np_tmp.flags.contiguous\n _buc_tmp = ctypes.cast(_buc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _buc_copyarray = False\n _buc_tmp = None\n \n res = __library__.MSK_XX_putconboundslice(self.__nativep,first_,last_,_bkc_tmp,_blc_tmp,_buc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconbound(self,i_,bk_,bl_,bu_): # 3\n if not isinstance(bk_,boundkey): raise TypeError(\"Argument bk has wrong type\")\n res = self.__obj.putconbound(i_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarboundsliceconst(self,first_,last_,bkx_,blx_,bux_):\n res = __library__.MSK_XX_putvarboundsliceconst(self.__nativep,first_,last_,bkx_,blx_,bux_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putboundlist(self,accmode_,sub,bk,bl,bu): # 3\n if not isinstance(accmode_,accmode): raise TypeError(\"Argument accmode has wrong type\")\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(bk)\n elif num_ != len(bk):\n raise IndexError(\"Inconsistent length of array bk\")\n if num_ is None:\n num_ = len(bl)\n elif num_ != len(bl):\n raise IndexError(\"Inconsistent length of array bl\")\n if num_ is None:\n num_ = len(bu)\n elif num_ != len(bu):\n raise IndexError(\"Inconsistent length of array bu\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if bk is None: raise TypeError(\"Invalid type for argument bk\")\n if bk is None:\n bk_ = None\n else:\n try:\n bk_ = memoryview(bk)\n except TypeError:\n try:\n _tmparr_bk = array.array(\"i\",bk)\n except TypeError:\n raise TypeError(\"Argument bk has wrong type\")\n else:\n bk_ = memoryview(_tmparr_bk)\n \n else:\n if bk_.format != \"i\":\n bk_ = memoryview(array.array(\"i\",bk))\n \n if bl is None: raise TypeError(\"Invalid type for argument bl\")\n if bl is None:\n bl_ = None\n else:\n try:\n bl_ = memoryview(bl)\n except TypeError:\n try:\n _tmparr_bl = array.array(\"d\",bl)\n except TypeError:\n raise TypeError(\"Argument bl has wrong type\")\n else:\n bl_ = memoryview(_tmparr_bl)\n \n else:\n if bl_.format != \"d\":\n bl_ = memoryview(array.array(\"d\",bl))\n \n if bu is None: raise TypeError(\"Invalid type for argument bu\")\n if bu is None:\n bu_ = None\n else:\n try:\n bu_ = memoryview(bu)\n except TypeError:\n try:\n _tmparr_bu = array.array(\"d\",bu)\n except TypeError:\n raise TypeError(\"Argument bu has wrong type\")\n else:\n bu_ = memoryview(_tmparr_bu)\n \n else:\n if bu_.format != \"d\":\n bu_ = memoryview(array.array(\"d\",bu))\n \n res = self.__obj.putboundlist(accmode_,num_,sub_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarboundlist(self,sub,bkx,blx,bux): # 3\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(bkx)\n elif num_ != len(bkx):\n raise IndexError(\"Inconsistent length of array bkx\")\n if num_ is None:\n num_ = len(blx)\n elif num_ != len(blx):\n raise IndexError(\"Inconsistent length of array blx\")\n if num_ is None:\n num_ = len(bux)\n elif num_ != len(bux):\n raise IndexError(\"Inconsistent length of array bux\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if bkx is None: raise TypeError(\"Invalid type for argument bkx\")\n if bkx is None:\n bkx_ = None\n else:\n try:\n bkx_ = memoryview(bkx)\n except TypeError:\n try:\n _tmparr_bkx = array.array(\"i\",bkx)\n except TypeError:\n raise TypeError(\"Argument bkx has wrong type\")\n else:\n bkx_ = memoryview(_tmparr_bkx)\n \n else:\n if bkx_.format != \"i\":\n bkx_ = memoryview(array.array(\"i\",bkx))\n \n if blx is None: raise TypeError(\"Invalid type for argument blx\")\n if blx is None:\n blx_ = None\n else:\n try:\n blx_ = memoryview(blx)\n except TypeError:\n try:\n _tmparr_blx = array.array(\"d\",blx)\n except TypeError:\n raise TypeError(\"Argument blx has wrong type\")\n else:\n blx_ = memoryview(_tmparr_blx)\n \n else:\n if blx_.format != \"d\":\n blx_ = memoryview(array.array(\"d\",blx))\n \n if bux is None: raise TypeError(\"Invalid type for argument bux\")\n if bux is None:\n bux_ = None\n else:\n try:\n bux_ = memoryview(bux)\n except TypeError:\n try:\n _tmparr_bux = array.array(\"d\",bux)\n except TypeError:\n raise TypeError(\"Argument bux has wrong type\")\n else:\n bux_ = memoryview(_tmparr_bux)\n \n else:\n if bux_.format != \"d\":\n bux_ = memoryview(array.array(\"d\",bux))\n \n res = self.__obj.putvarboundlist(num_,sub_,bkx_,blx_,bux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def RestrictionRangeBound(self, compsIdList, lowerBound, upperBound):\n for i in range(len(compsIdList)): compsIdList[i] -= 1\n if self.solverTypeOptimize:\n self.solver.add(sum([self.a[compId * self.nrVM + j] for compId in compsIdList for j in range(self.nrVM)]) >= lowerBound)\n else:\n self.solver.assert_and_track(\n PbGe(sum([self.a[compId * self.nrVM + j] for compId in compsIdList for j in range(self.nrVM)]),\n lowerBound), \"LabelRangeBound: \" + str(self.labelIdx))\n self.labelIdx += 1\n if self.solverTypeOptimize:\n PbLe(self.solver.add(sum([self.a[compId * self.nrVM + j] for compId in compsIdList for j in range(self.nrVM)]),\n upperBound))\n else:\n self.solver.assert_and_track(\n sum([self.a[compId * self.nrVM + j] for compId in compsIdList for j in range(self.nrVM)]) <= upperBound, \"LabelRangeBound: \" + str(self.labelIdx))\n self.labelIdx += 1", "def putconboundslice(self,first_,last_,bk,bl,bu): # 3\n if bk is None: raise TypeError(\"Invalid type for argument bk\")\n if bk is None:\n bk_ = None\n else:\n try:\n bk_ = memoryview(bk)\n except TypeError:\n try:\n _tmparr_bk = array.array(\"i\",bk)\n except TypeError:\n raise TypeError(\"Argument bk has wrong type\")\n else:\n bk_ = memoryview(_tmparr_bk)\n \n else:\n if bk_.format != \"i\":\n bk_ = memoryview(array.array(\"i\",bk))\n \n if bk_ is not None and len(bk_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bk has wrong length\")\n if bl is None: raise TypeError(\"Invalid type for argument bl\")\n if bl is None:\n bl_ = None\n else:\n try:\n bl_ = memoryview(bl)\n except TypeError:\n try:\n _tmparr_bl = array.array(\"d\",bl)\n except TypeError:\n raise TypeError(\"Argument bl has wrong type\")\n else:\n bl_ = memoryview(_tmparr_bl)\n \n else:\n if bl_.format != \"d\":\n bl_ = memoryview(array.array(\"d\",bl))\n \n if bl_ is not None and len(bl_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bl has wrong length\")\n if bu is None: raise TypeError(\"Invalid type for argument bu\")\n if bu is None:\n bu_ = None\n else:\n try:\n bu_ = memoryview(bu)\n except TypeError:\n try:\n _tmparr_bu = array.array(\"d\",bu)\n except TypeError:\n raise TypeError(\"Argument bu has wrong type\")\n else:\n bu_ = memoryview(_tmparr_bu)\n \n else:\n if bu_.format != \"d\":\n bu_ = memoryview(array.array(\"d\",bu))\n \n if bu_ is not None and len(bu_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bu has wrong length\")\n res = self.__obj.putconboundslice(first_,last_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def _initialize_bounds(problem, bounds, get_bound, set_bound):\n for constraint in problem.constraints:\n root_expr = constraint.root_expr\n expr_bounds = Interval(constraint.lower_bound, constraint.upper_bound)\n if root_expr not in bounds:\n set_bound(root_expr, expr_bounds)\n else:\n existing_bounds = get_bound(root_expr)\n new_bounds = existing_bounds.intersect(expr_bounds)\n set_bound(root_expr, new_bounds)", "def _update_block_const(self,name,G1,remove_nodes,new_inst, const_list):\n\n def _list_replace(lst, old_value, new_value):\n for i, value in enumerate(lst):\n if value == old_value:\n lst[i] = new_value\n\n logger.debug(f\"update constraints with block in them for hierarchy {name} {remove_nodes}\")\n if self._if_const(name):\n for const in const_list:\n if hasattr(const, 'instances'):\n logger.debug(f\"checking instances in the constraint:{const.instances} {set(remove_nodes)}\")\n if set(const.instances) & set(remove_nodes):\n replace = True\n for block in remove_nodes:\n if replace:\n _list_replace(const.instances, block, new_inst)\n replace = False\n elif block in const.instances:\n const.instances.remove(block)\n logger.debug(f\"updated instances in the constraint:{const}\")", "def SetPRBinCatConstraint( self, model ) :\n tot = np.dot( self.wish.T, self.dispo )\n for val in tot :\n if not val : continue\n if self.bound>0 : model += val <= self.valBound\n elif self.bound<0 : model += val >= self.valBound", "def simple_bounds(child, lb, ub):\n assert len(lb) == len(ub), 'Lower and upper bounds have different #s of design variables in simple_bounds function.'\n assert len(lb) == len(child), 'Bounds and child have different #s of design variables in simple_bounds function.'\n for i in range(0, len(child), 1):\n if child[i] < lb[i]:\n child[i] = lb[i]\n\n for i in range(0, len(child), 1):\n if child[i] > ub[i]:\n child[i] = ub[i]\n\n return child", "def chgconbound(self,i_,lower_,finite_,value_): # 3\n res = self.__obj.chgconbound(i_,lower_,finite_,value_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getconboundslice(self,first_,last_,bk_,bl_,bu_):\n _bk_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and bk_ is not None and len(bk_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bk is not long enough: Is %d, expected %d\" % (len(bk_),((last_) - (first_))))\n if isinstance(bk_,numpy.ndarray) and not bk_.flags.writeable:\n raise ValueError(\"Argument bk must be writable\")\n if bk_ is not None:\n _bk_tmp = (ctypes.c_int32 * len(bk_))()\n else:\n _bk_tmp = None\n _bl_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and bl_ is not None and len(bl_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bl is not long enough: Is %d, expected %d\" % (len(bl_),((last_) - (first_))))\n if isinstance(bl_,numpy.ndarray) and not bl_.flags.writeable:\n raise ValueError(\"Argument bl must be writable\")\n if isinstance(bl_, numpy.ndarray) and bl_.dtype is numpy.dtype(numpy.float64) and bl_.flags.contiguous:\n _bl_copyarray = False\n _bl_tmp = ctypes.cast(bl_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif bl_ is not None:\n _bl_copyarray = True\n _bl_np_tmp = numpy.zeros(len(bl_),numpy.dtype(numpy.float64))\n _bl_np_tmp[:] = bl_\n assert _bl_np_tmp.flags.contiguous\n _bl_tmp = ctypes.cast(_bl_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _bl_copyarray = False\n _bl_tmp = None\n \n _bu_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and bu_ is not None and len(bu_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bu is not long enough: Is %d, expected %d\" % (len(bu_),((last_) - (first_))))\n if isinstance(bu_,numpy.ndarray) and not bu_.flags.writeable:\n raise ValueError(\"Argument bu must be writable\")\n if isinstance(bu_, numpy.ndarray) and bu_.dtype is numpy.dtype(numpy.float64) and bu_.flags.contiguous:\n _bu_copyarray = False\n _bu_tmp = ctypes.cast(bu_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif bu_ is not None:\n _bu_copyarray = True\n _bu_np_tmp = numpy.zeros(len(bu_),numpy.dtype(numpy.float64))\n _bu_np_tmp[:] = bu_\n assert _bu_np_tmp.flags.contiguous\n _bu_tmp = ctypes.cast(_bu_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _bu_copyarray = False\n _bu_tmp = None\n \n res = __library__.MSK_XX_getconboundslice(self.__nativep,first_,last_,_bk_tmp,_bl_tmp,_bu_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if bk_ is not None: bk_[:] = [ boundkey(v) for v in _bk_tmp[0:len(bk_)] ]\n if _bl_copyarray:\n bl_[:] = _bl_np_tmp\n if _bu_copyarray:\n bu_[:] = _bu_np_tmp", "def set_concentration_boundaries(self, boundary_marker, concentration_function):\n self.concentration_boundaries[boundary_marker] = concentration_function", "def chgconbound(self,i_,lower_,finite_,value_):\n res = __library__.MSK_XX_chgconbound(self.__nativep,i_,lower_,finite_,value_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putboundslice(self,con_,first_,last_,bk,bl,bu): # 3\n if not isinstance(con_,accmode): raise TypeError(\"Argument con has wrong type\")\n if bk is None: raise TypeError(\"Invalid type for argument bk\")\n if bk is None:\n bk_ = None\n else:\n try:\n bk_ = memoryview(bk)\n except TypeError:\n try:\n _tmparr_bk = array.array(\"i\",bk)\n except TypeError:\n raise TypeError(\"Argument bk has wrong type\")\n else:\n bk_ = memoryview(_tmparr_bk)\n \n else:\n if bk_.format != \"i\":\n bk_ = memoryview(array.array(\"i\",bk))\n \n if bk_ is not None and len(bk_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bk has wrong length\")\n if bl is None: raise TypeError(\"Invalid type for argument bl\")\n if bl is None:\n bl_ = None\n else:\n try:\n bl_ = memoryview(bl)\n except TypeError:\n try:\n _tmparr_bl = array.array(\"d\",bl)\n except TypeError:\n raise TypeError(\"Argument bl has wrong type\")\n else:\n bl_ = memoryview(_tmparr_bl)\n \n else:\n if bl_.format != \"d\":\n bl_ = memoryview(array.array(\"d\",bl))\n \n if bl_ is not None and len(bl_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bl has wrong length\")\n if bu is None: raise TypeError(\"Invalid type for argument bu\")\n if bu is None:\n bu_ = None\n else:\n try:\n bu_ = memoryview(bu)\n except TypeError:\n try:\n _tmparr_bu = array.array(\"d\",bu)\n except TypeError:\n raise TypeError(\"Argument bu has wrong type\")\n else:\n bu_ = memoryview(_tmparr_bu)\n \n else:\n if bu_.format != \"d\":\n bu_ = memoryview(array.array(\"d\",bu))\n \n if bu_ is not None and len(bu_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bu has wrong length\")\n res = self.__obj.putboundslice(con_,first_,last_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def split_constr(self, constr_map):\n return (constr_map[s.EQ], constr_map[s.LEQ], [])", "def _top_to_bottom_translation(self, name, G1, Gsub, new_inst, sub_hierarchy_name, const_list):\n\n logger.debug(f\"transfering constraints from top {name} to bottom {sub_hierarchy_name} \")\n\n if self._if_const(name):\n if sub_hierarchy_name in self.hier_graph_dict and 'constraints' in self.hier_graph_dict[sub_hierarchy_name]:\n sub_const = self.hier_graph_dict[sub_hierarchy_name]['constraints']\n else:\n sub_const = []\n for const in list(const_list):\n if any(isinstance(const, x) for x in [constraint.HorizontalDistance,constraint.VerticalDistance,constraint.BlockDistance]):\n sub_const.append(const)\n logger.debug(f\"transferring global const {const}\")\n elif hasattr(const, \"instances\"):\n logger.debug(f\"checking if sub hierarchy instances are in const defined {Gsub} {new_inst} {const} \")\n sconst = {x:\n [Gsub[block] for block in const.instances if block in Gsub.keys()]\n if x == 'instances'\n else getattr(const, x)\n for x in const.__fields_set__}\n assert 'constraint' in sconst\n logger.debug(f\"transferred constraint instances {Gsub} from {const} to {sconst}\")\n sub_const.append(sconst)\n else:\n sub_const = []\n return sub_const", "def RestrictionUpperLowerEqualBound(self, compsIdList, bound, operator):\n\n self.problem.logger.debug(\"RestrictionUpperLowerEqualBound: {} {} {} \".format(compsIdList, operator, bound))\n\n if operator == \"<=\":\n if self.solverTypeOptimize:\n bvars = [self.a[compId * self.nrVM + j] for compId in compsIdList for j in range(self.nrVM)]\n self.solver.add(PbLe([(x, 1) for x in bvars], bound))\n else:\n self.__constMap[str(\"LabelUpperLowerEqualBound\" + str(self.labelIdx))] = sum([self.a[compId * self.nrVM + j] for compId in compsIdList for j in range(self.nrVM)]) <= bound\n self.solver.assert_and_track(PbLe([(x, 1) for x in bvars], bound), \"LabelUpperLowerEqualBound\" + str(self.labelIdx))\n self.labelIdx += 1\n elif operator == \">=\":\n if self.solverTypeOptimize:\n bvars = [self.a[compId * self.nrVM + j] for compId in compsIdList for j in range(self.nrVM)]\n self.solver.add(PbGe([(x, 1) for x in bvars], bound))\n else:\n self.__constMap[str(\"LabelUpperLowerEqualBound\" + str(self.labelIdx))] = sum([self.a[compId * self.nrVM + j] for compId in compsIdList for j in range(self.nrVM)]) >= bound\n self.solver.assert_and_track(\n sum([If(self.a[compId * self.nrVM + j], 1, 0) for compId in compsIdList for j in range(self.nrVM)]) >= bound, \"LabelUpperLowerEqualBound\" + str(self.labelIdx))\n self.labelIdx += 1\n elif operator == \"=\":\n if self.solverTypeOptimize:\n bvars = [self.a[compId * self.nrVM + j] for compId in compsIdList for j in range(self.nrVM)]\n self.solver.add(PbEq([(x, 1) for x in bvars], bound))\n else:\n self.__constMap[str(\"LabelUpperLowerEqualBound\" + str(self.labelIdx))] = sum([self.a[compId * self.nrVM + j] for compId in compsIdList for j in range(self.nrVM)]) == bound\n\n self.solver.assert_and_track(\n sum([self.a[compId * self.nrVM + j] for compId in compsIdList for j in range(self.nrVM)]) == bound, \"LabelUpperLowerEqualBound\" + str(self.labelIdx))\n self.labelIdx += 1\n else:\n self.problem.logger.info(\"Unknown operator\")", "def _add_bound_configs(CONFIG):\n CONFIG.declare(\n 'obj_bound',\n ConfigValue(\n default=1e15,\n domain=PositiveFloat,\n description='Bound applied to the linearization of the objective function if main MIP is unbounded.',\n ),\n )\n CONFIG.declare(\n 'continuous_var_bound',\n ConfigValue(\n default=1e10,\n description='Default bound added to unbounded continuous variables in nonlinear constraint if single tree is activated.',\n domain=PositiveFloat,\n ),\n )\n CONFIG.declare(\n 'integer_var_bound',\n ConfigValue(\n default=1e9,\n description='Default bound added to unbounded integral variables in nonlinear constraint if single tree is activated.',\n domain=PositiveFloat,\n ),\n )\n CONFIG.declare(\n 'initial_bound_coef',\n ConfigValue(\n default=1e-1,\n domain=PositiveFloat,\n description='The coefficient used to approximate the initial primal/dual bound.',\n ),\n )", "def putbound(self,accmode_,i_,bk_,bl_,bu_): # 3\n if not isinstance(accmode_,accmode): raise TypeError(\"Argument accmode has wrong type\")\n if not isinstance(bk_,boundkey): raise TypeError(\"Argument bk has wrong type\")\n res = self.__obj.putbound(accmode_,i_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def make_boundary_conditions(constraints, states, costates, parameters, coparameters, cost, derivative_fn, location):\n prefix_map = (('initial', (r'([\\w\\d\\_]+)_0', r\"_x0['\\1']\", sympify('-1'))),\n ('terminal', (r'([\\w\\d\\_]+)_f', r\"_xf['\\1']\", sympify('1'))))\n prefix_map = dict(prefix_map)\n bc_list = []\n for x in constraints[location]:\n bc = sanitize_constraint_expr(x, states, location, prefix_map)\n bc_list.append(bc)\n\n *_, sign = dict(prefix_map)[location]\n cost_expr = sign * cost\n bc_list += [costate - derivative_fn(cost_expr, state) for state, costate in zip(states, costates)]\n bc_list += [coparameter - derivative_fn(cost_expr, parameter)\n for parameter, coparameter in zip(parameters, coparameters)]\n\n return bc_list", "def bounds(self, new_bounds: devices.PrimaryBounds) -> None:\n self._assert_bounds_are_valid(new_bounds)\n self._bounds = list(new_bounds)", "def SetPRCatConstraint(self, model ) :\n tot = np.multiply(self.wish, self.dispo)\n for line in tot :\n for val in line :\n if not val : continue\n if self.bound>0 : model += val <= self.valBound\n elif self.bound<0 : model += val >= self.valBound" ]

[ "0.78857696", "0.78076875", "0.7175673", "0.7004306", "0.67201793", "0.6420127", "0.6372808", "0.63401717", "0.623137", "0.620073", "0.60859454", "0.59860647", "0.58440953", "0.58174753", "0.5684682", "0.56770265", "0.56493884", "0.56027967", "0.5551834", "0.551165", "0.5504868", "0.5441902", "0.5385173", "0.5346557", "0.533427", "0.5319782", "0.52894884", "0.52832854", "0.5254641", "0.5221194" ]

[ "def putconboundsliceconst(self,first_,last_,bkc_,blc_,buc_):\n res = __library__.MSK_XX_putconboundsliceconst(self.__nativep,first_,last_,bkc_,blc_,buc_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconboundslice(self,first_,last_,bk,bl,bu): # 3\n if bk is None: raise TypeError(\"Invalid type for argument bk\")\n if bk is None:\n bk_ = None\n else:\n try:\n bk_ = memoryview(bk)\n except TypeError:\n try:\n _tmparr_bk = array.array(\"i\",bk)\n except TypeError:\n raise TypeError(\"Argument bk has wrong type\")\n else:\n bk_ = memoryview(_tmparr_bk)\n \n else:\n if bk_.format != \"i\":\n bk_ = memoryview(array.array(\"i\",bk))\n \n if bk_ is not None and len(bk_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bk has wrong length\")\n if bl is None: raise TypeError(\"Invalid type for argument bl\")\n if bl is None:\n bl_ = None\n else:\n try:\n bl_ = memoryview(bl)\n except TypeError:\n try:\n _tmparr_bl = array.array(\"d\",bl)\n except TypeError:\n raise TypeError(\"Argument bl has wrong type\")\n else:\n bl_ = memoryview(_tmparr_bl)\n \n else:\n if bl_.format != \"d\":\n bl_ = memoryview(array.array(\"d\",bl))\n \n if bl_ is not None and len(bl_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bl has wrong length\")\n if bu is None: raise TypeError(\"Invalid type for argument bu\")\n if bu is None:\n bu_ = None\n else:\n try:\n bu_ = memoryview(bu)\n except TypeError:\n try:\n _tmparr_bu = array.array(\"d\",bu)\n except TypeError:\n raise TypeError(\"Argument bu has wrong type\")\n else:\n bu_ = memoryview(_tmparr_bu)\n \n else:\n if bu_.format != \"d\":\n bu_ = memoryview(array.array(\"d\",bu))\n \n if bu_ is not None and len(bu_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bu has wrong length\")\n res = self.__obj.putconboundslice(first_,last_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putboundslice(self,con_,first_,last_,bk,bl,bu): # 3\n if not isinstance(con_,accmode): raise TypeError(\"Argument con has wrong type\")\n if bk is None: raise TypeError(\"Invalid type for argument bk\")\n if bk is None:\n bk_ = None\n else:\n try:\n bk_ = memoryview(bk)\n except TypeError:\n try:\n _tmparr_bk = array.array(\"i\",bk)\n except TypeError:\n raise TypeError(\"Argument bk has wrong type\")\n else:\n bk_ = memoryview(_tmparr_bk)\n \n else:\n if bk_.format != \"i\":\n bk_ = memoryview(array.array(\"i\",bk))\n \n if bk_ is not None and len(bk_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bk has wrong length\")\n if bl is None: raise TypeError(\"Invalid type for argument bl\")\n if bl is None:\n bl_ = None\n else:\n try:\n bl_ = memoryview(bl)\n except TypeError:\n try:\n _tmparr_bl = array.array(\"d\",bl)\n except TypeError:\n raise TypeError(\"Argument bl has wrong type\")\n else:\n bl_ = memoryview(_tmparr_bl)\n \n else:\n if bl_.format != \"d\":\n bl_ = memoryview(array.array(\"d\",bl))\n \n if bl_ is not None and len(bl_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bl has wrong length\")\n if bu is None: raise TypeError(\"Invalid type for argument bu\")\n if bu is None:\n bu_ = None\n else:\n try:\n bu_ = memoryview(bu)\n except TypeError:\n try:\n _tmparr_bu = array.array(\"d\",bu)\n except TypeError:\n raise TypeError(\"Argument bu has wrong type\")\n else:\n bu_ = memoryview(_tmparr_bu)\n \n else:\n if bu_.format != \"d\":\n bu_ = memoryview(array.array(\"d\",bu))\n \n if bu_ is not None and len(bu_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bu has wrong length\")\n res = self.__obj.putboundslice(con_,first_,last_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarboundsliceconst(self,first_,last_,bkx_,blx_,bux_):\n res = __library__.MSK_XX_putvarboundsliceconst(self.__nativep,first_,last_,bkx_,blx_,bux_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getconboundslice(self,first_,last_,bk,bl,bu): # 3\n _copyback_bk = False\n if bk is None:\n bk_ = None\n else:\n try:\n bk_ = memoryview(bk)\n except TypeError:\n try:\n _tmparr_bk = array.array(\"i\",bk)\n except TypeError:\n raise TypeError(\"Argument bk has wrong type\")\n else:\n bk_ = memoryview(_tmparr_bk)\n _copyback_bk = True\n else:\n if bk_.format != \"i\":\n bk_ = memoryview(array.array(\"i\",bk))\n _copyback_bk = True\n if bk_ is not None and len(bk_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bk has wrong length\")\n _copyback_bl = False\n if bl is None:\n bl_ = None\n else:\n try:\n bl_ = memoryview(bl)\n except TypeError:\n try:\n _tmparr_bl = array.array(\"d\",bl)\n except TypeError:\n raise TypeError(\"Argument bl has wrong type\")\n else:\n bl_ = memoryview(_tmparr_bl)\n _copyback_bl = True\n else:\n if bl_.format != \"d\":\n bl_ = memoryview(array.array(\"d\",bl))\n _copyback_bl = True\n if bl_ is not None and len(bl_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bl has wrong length\")\n _copyback_bu = False\n if bu is None:\n bu_ = None\n else:\n try:\n bu_ = memoryview(bu)\n except TypeError:\n try:\n _tmparr_bu = array.array(\"d\",bu)\n except TypeError:\n raise TypeError(\"Argument bu has wrong type\")\n else:\n bu_ = memoryview(_tmparr_bu)\n _copyback_bu = True\n else:\n if bu_.format != \"d\":\n bu_ = memoryview(array.array(\"d\",bu))\n _copyback_bu = True\n if bu_ is not None and len(bu_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bu has wrong length\")\n res = self.__obj.getconboundslice(first_,last_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_bu:\n bu[:] = _tmparr_bu\n if _copyback_bl:\n bl[:] = _tmparr_bl\n if _copyback_bk:\n for __tmp_var_0 in range(len(bk_)): bk[__tmp_var_0] = boundkey(_tmparr_bk[__tmp_var_0])", "def getconboundslice(self,first_,last_,bk_,bl_,bu_):\n _bk_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and bk_ is not None and len(bk_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bk is not long enough: Is %d, expected %d\" % (len(bk_),((last_) - (first_))))\n if isinstance(bk_,numpy.ndarray) and not bk_.flags.writeable:\n raise ValueError(\"Argument bk must be writable\")\n if bk_ is not None:\n _bk_tmp = (ctypes.c_int32 * len(bk_))()\n else:\n _bk_tmp = None\n _bl_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and bl_ is not None and len(bl_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bl is not long enough: Is %d, expected %d\" % (len(bl_),((last_) - (first_))))\n if isinstance(bl_,numpy.ndarray) and not bl_.flags.writeable:\n raise ValueError(\"Argument bl must be writable\")\n if isinstance(bl_, numpy.ndarray) and bl_.dtype is numpy.dtype(numpy.float64) and bl_.flags.contiguous:\n _bl_copyarray = False\n _bl_tmp = ctypes.cast(bl_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif bl_ is not None:\n _bl_copyarray = True\n _bl_np_tmp = numpy.zeros(len(bl_),numpy.dtype(numpy.float64))\n _bl_np_tmp[:] = bl_\n assert _bl_np_tmp.flags.contiguous\n _bl_tmp = ctypes.cast(_bl_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _bl_copyarray = False\n _bl_tmp = None\n \n _bu_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and bu_ is not None and len(bu_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bu is not long enough: Is %d, expected %d\" % (len(bu_),((last_) - (first_))))\n if isinstance(bu_,numpy.ndarray) and not bu_.flags.writeable:\n raise ValueError(\"Argument bu must be writable\")\n if isinstance(bu_, numpy.ndarray) and bu_.dtype is numpy.dtype(numpy.float64) and bu_.flags.contiguous:\n _bu_copyarray = False\n _bu_tmp = ctypes.cast(bu_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif bu_ is not None:\n _bu_copyarray = True\n _bu_np_tmp = numpy.zeros(len(bu_),numpy.dtype(numpy.float64))\n _bu_np_tmp[:] = bu_\n assert _bu_np_tmp.flags.contiguous\n _bu_tmp = ctypes.cast(_bu_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _bu_copyarray = False\n _bu_tmp = None\n \n res = __library__.MSK_XX_getconboundslice(self.__nativep,first_,last_,_bk_tmp,_bl_tmp,_bu_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if bk_ is not None: bk_[:] = [ boundkey(v) for v in _bk_tmp[0:len(bk_)] ]\n if _bl_copyarray:\n bl_[:] = _bl_np_tmp\n if _bu_copyarray:\n bu_[:] = _bu_np_tmp", "def putvarboundslice(self,first_,last_,bk,bl,bu): # 3\n if bk is None: raise TypeError(\"Invalid type for argument bk\")\n if bk is None:\n bk_ = None\n else:\n try:\n bk_ = memoryview(bk)\n except TypeError:\n try:\n _tmparr_bk = array.array(\"i\",bk)\n except TypeError:\n raise TypeError(\"Argument bk has wrong type\")\n else:\n bk_ = memoryview(_tmparr_bk)\n \n else:\n if bk_.format != \"i\":\n bk_ = memoryview(array.array(\"i\",bk))\n \n if bk_ is not None and len(bk_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bk has wrong length\")\n if bl is None: raise TypeError(\"Invalid type for argument bl\")\n if bl is None:\n bl_ = None\n else:\n try:\n bl_ = memoryview(bl)\n except TypeError:\n try:\n _tmparr_bl = array.array(\"d\",bl)\n except TypeError:\n raise TypeError(\"Argument bl has wrong type\")\n else:\n bl_ = memoryview(_tmparr_bl)\n \n else:\n if bl_.format != \"d\":\n bl_ = memoryview(array.array(\"d\",bl))\n \n if bl_ is not None and len(bl_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bl has wrong length\")\n if bu is None: raise TypeError(\"Invalid type for argument bu\")\n if bu is None:\n bu_ = None\n else:\n try:\n bu_ = memoryview(bu)\n except TypeError:\n try:\n _tmparr_bu = array.array(\"d\",bu)\n except TypeError:\n raise TypeError(\"Argument bu has wrong type\")\n else:\n bu_ = memoryview(_tmparr_bu)\n \n else:\n if bu_.format != \"d\":\n bu_ = memoryview(array.array(\"d\",bu))\n \n if bu_ is not None and len(bu_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bu has wrong length\")\n res = self.__obj.putvarboundslice(first_,last_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarboundslice(self,first_,last_,bkx_,blx_,bux_):\n _bkx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and bkx_ is not None and len(bkx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bkx is not long enough: Is %d, expected %d\" % (len(bkx_),((last_) - (first_))))\n if bkx_ is None:\n raise ValueError(\"Argument bkx cannot be None\")\n if bkx_ is None:\n raise ValueError(\"Argument bkx may not be None\")\n if bkx_ is not None:\n _bkx_tmp = (ctypes.c_int32 * len(bkx_))(*bkx_)\n else:\n _bkx_tmp = None\n _blx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and blx_ is not None and len(blx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument blx is not long enough: Is %d, expected %d\" % (len(blx_),((last_) - (first_))))\n if blx_ is None:\n raise ValueError(\"Argument blx cannot be None\")\n if blx_ is None:\n raise ValueError(\"Argument blx may not be None\")\n if isinstance(blx_, numpy.ndarray) and blx_.dtype is numpy.dtype(numpy.float64) and blx_.flags.contiguous:\n _blx_copyarray = False\n _blx_tmp = ctypes.cast(blx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif blx_ is not None:\n _blx_copyarray = True\n _blx_np_tmp = numpy.zeros(len(blx_),numpy.dtype(numpy.float64))\n _blx_np_tmp[:] = blx_\n assert _blx_np_tmp.flags.contiguous\n _blx_tmp = ctypes.cast(_blx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _blx_copyarray = False\n _blx_tmp = None\n \n _bux_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and bux_ is not None and len(bux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bux is not long enough: Is %d, expected %d\" % (len(bux_),((last_) - (first_))))\n if bux_ is None:\n raise ValueError(\"Argument bux cannot be None\")\n if bux_ is None:\n raise ValueError(\"Argument bux may not be None\")\n if isinstance(bux_, numpy.ndarray) and bux_.dtype is numpy.dtype(numpy.float64) and bux_.flags.contiguous:\n _bux_copyarray = False\n _bux_tmp = ctypes.cast(bux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif bux_ is not None:\n _bux_copyarray = True\n _bux_np_tmp = numpy.zeros(len(bux_),numpy.dtype(numpy.float64))\n _bux_np_tmp[:] = bux_\n assert _bux_np_tmp.flags.contiguous\n _bux_tmp = ctypes.cast(_bux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _bux_copyarray = False\n _bux_tmp = None\n \n res = __library__.MSK_XX_putvarboundslice(self.__nativep,first_,last_,_bkx_tmp,_blx_tmp,_bux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getvarboundslice(self,first_,last_,bk_,bl_,bu_):\n _bk_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and bk_ is not None and len(bk_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bk is not long enough: Is %d, expected %d\" % (len(bk_),((last_) - (first_))))\n if isinstance(bk_,numpy.ndarray) and not bk_.flags.writeable:\n raise ValueError(\"Argument bk must be writable\")\n if bk_ is not None:\n _bk_tmp = (ctypes.c_int32 * len(bk_))()\n else:\n _bk_tmp = None\n _bl_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and bl_ is not None and len(bl_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bl is not long enough: Is %d, expected %d\" % (len(bl_),((last_) - (first_))))\n if isinstance(bl_,numpy.ndarray) and not bl_.flags.writeable:\n raise ValueError(\"Argument bl must be writable\")\n if isinstance(bl_, numpy.ndarray) and bl_.dtype is numpy.dtype(numpy.float64) and bl_.flags.contiguous:\n _bl_copyarray = False\n _bl_tmp = ctypes.cast(bl_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif bl_ is not None:\n _bl_copyarray = True\n _bl_np_tmp = numpy.zeros(len(bl_),numpy.dtype(numpy.float64))\n _bl_np_tmp[:] = bl_\n assert _bl_np_tmp.flags.contiguous\n _bl_tmp = ctypes.cast(_bl_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _bl_copyarray = False\n _bl_tmp = None\n \n _bu_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and bu_ is not None and len(bu_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bu is not long enough: Is %d, expected %d\" % (len(bu_),((last_) - (first_))))\n if isinstance(bu_,numpy.ndarray) and not bu_.flags.writeable:\n raise ValueError(\"Argument bu must be writable\")\n if isinstance(bu_, numpy.ndarray) and bu_.dtype is numpy.dtype(numpy.float64) and bu_.flags.contiguous:\n _bu_copyarray = False\n _bu_tmp = ctypes.cast(bu_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif bu_ is not None:\n _bu_copyarray = True\n _bu_np_tmp = numpy.zeros(len(bu_),numpy.dtype(numpy.float64))\n _bu_np_tmp[:] = bu_\n assert _bu_np_tmp.flags.contiguous\n _bu_tmp = ctypes.cast(_bu_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _bu_copyarray = False\n _bu_tmp = None\n \n res = __library__.MSK_XX_getvarboundslice(self.__nativep,first_,last_,_bk_tmp,_bl_tmp,_bu_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if bk_ is not None: bk_[:] = [ boundkey(v) for v in _bk_tmp[0:len(bk_)] ]\n if _bl_copyarray:\n bl_[:] = _bl_np_tmp\n if _bu_copyarray:\n bu_[:] = _bu_np_tmp", "def putconboundlistconst(self,sub_,bkc_,blc_,buc_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n res = __library__.MSK_XX_putconboundlistconst(self.__nativep,num_,_sub_tmp,bkc_,blc_,buc_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getboundslice(self,accmode_,first_,last_,bk,bl,bu): # 3\n if not isinstance(accmode_,accmode): raise TypeError(\"Argument accmode has wrong type\")\n _copyback_bk = False\n if bk is None:\n bk_ = None\n else:\n try:\n bk_ = memoryview(bk)\n except TypeError:\n try:\n _tmparr_bk = array.array(\"i\",bk)\n except TypeError:\n raise TypeError(\"Argument bk has wrong type\")\n else:\n bk_ = memoryview(_tmparr_bk)\n _copyback_bk = True\n else:\n if bk_.format != \"i\":\n bk_ = memoryview(array.array(\"i\",bk))\n _copyback_bk = True\n if bk_ is not None and len(bk_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bk has wrong length\")\n _copyback_bl = False\n if bl is None:\n bl_ = None\n else:\n try:\n bl_ = memoryview(bl)\n except TypeError:\n try:\n _tmparr_bl = array.array(\"d\",bl)\n except TypeError:\n raise TypeError(\"Argument bl has wrong type\")\n else:\n bl_ = memoryview(_tmparr_bl)\n _copyback_bl = True\n else:\n if bl_.format != \"d\":\n bl_ = memoryview(array.array(\"d\",bl))\n _copyback_bl = True\n if bl_ is not None and len(bl_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bl has wrong length\")\n _copyback_bu = False\n if bu is None:\n bu_ = None\n else:\n try:\n bu_ = memoryview(bu)\n except TypeError:\n try:\n _tmparr_bu = array.array(\"d\",bu)\n except TypeError:\n raise TypeError(\"Argument bu has wrong type\")\n else:\n bu_ = memoryview(_tmparr_bu)\n _copyback_bu = True\n else:\n if bu_.format != \"d\":\n bu_ = memoryview(array.array(\"d\",bu))\n _copyback_bu = True\n if bu_ is not None and len(bu_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bu has wrong length\")\n res = self.__obj.getboundslice(accmode_,first_,last_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_bu:\n bu[:] = _tmparr_bu\n if _copyback_bl:\n bl[:] = _tmparr_bl\n if _copyback_bk:\n for __tmp_var_0 in range(len(bk_)): bk[__tmp_var_0] = boundkey(_tmparr_bk[__tmp_var_0])", "def getvarboundslice(self,first_,last_,bk,bl,bu): # 3\n _copyback_bk = False\n if bk is None:\n bk_ = None\n else:\n try:\n bk_ = memoryview(bk)\n except TypeError:\n try:\n _tmparr_bk = array.array(\"i\",bk)\n except TypeError:\n raise TypeError(\"Argument bk has wrong type\")\n else:\n bk_ = memoryview(_tmparr_bk)\n _copyback_bk = True\n else:\n if bk_.format != \"i\":\n bk_ = memoryview(array.array(\"i\",bk))\n _copyback_bk = True\n if bk_ is not None and len(bk_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bk has wrong length\")\n _copyback_bl = False\n if bl is None:\n bl_ = None\n else:\n try:\n bl_ = memoryview(bl)\n except TypeError:\n try:\n _tmparr_bl = array.array(\"d\",bl)\n except TypeError:\n raise TypeError(\"Argument bl has wrong type\")\n else:\n bl_ = memoryview(_tmparr_bl)\n _copyback_bl = True\n else:\n if bl_.format != \"d\":\n bl_ = memoryview(array.array(\"d\",bl))\n _copyback_bl = True\n if bl_ is not None and len(bl_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bl has wrong length\")\n _copyback_bu = False\n if bu is None:\n bu_ = None\n else:\n try:\n bu_ = memoryview(bu)\n except TypeError:\n try:\n _tmparr_bu = array.array(\"d\",bu)\n except TypeError:\n raise TypeError(\"Argument bu has wrong type\")\n else:\n bu_ = memoryview(_tmparr_bu)\n _copyback_bu = True\n else:\n if bu_.format != \"d\":\n bu_ = memoryview(array.array(\"d\",bu))\n _copyback_bu = True\n if bu_ is not None and len(bu_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bu has wrong length\")\n res = self.__obj.getvarboundslice(first_,last_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_bu:\n bu[:] = _tmparr_bu\n if _copyback_bl:\n bl[:] = _tmparr_bl\n if _copyback_bk:\n for __tmp_var_0 in range(len(bk_)): bk[__tmp_var_0] = boundkey(_tmparr_bk[__tmp_var_0])", "def putcslice(self,first_,last_,slice_):\n _slice_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slice_ is not None and len(slice_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slice is not long enough: Is %d, expected %d\" % (len(slice_),((last_) - (first_))))\n if slice_ is None:\n raise ValueError(\"Argument slice cannot be None\")\n if slice_ is None:\n raise ValueError(\"Argument slice may not be None\")\n if isinstance(slice_, numpy.ndarray) and slice_.dtype is numpy.dtype(numpy.float64) and slice_.flags.contiguous:\n _slice_copyarray = False\n _slice_tmp = ctypes.cast(slice_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slice_ is not None:\n _slice_copyarray = True\n _slice_np_tmp = numpy.zeros(len(slice_),numpy.dtype(numpy.float64))\n _slice_np_tmp[:] = slice_\n assert _slice_np_tmp.flags.contiguous\n _slice_tmp = ctypes.cast(_slice_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slice_copyarray = False\n _slice_tmp = None\n \n res = __library__.MSK_XX_putcslice(self.__nativep,first_,last_,_slice_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconboundlist(self,sub_,bkc_,blc_,buc_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(bkc_)\n elif num_ != len(bkc_):\n raise IndexError(\"Inconsistent length of array bkc\")\n if num_ is None:\n num_ = len(blc_)\n elif num_ != len(blc_):\n raise IndexError(\"Inconsistent length of array blc\")\n if num_ is None:\n num_ = len(buc_)\n elif num_ != len(buc_):\n raise IndexError(\"Inconsistent length of array buc\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n if bkc_ is None:\n raise ValueError(\"Argument bkc cannot be None\")\n if bkc_ is None:\n raise ValueError(\"Argument bkc may not be None\")\n if bkc_ is not None:\n _bkc_tmp = (ctypes.c_int32 * len(bkc_))(*bkc_)\n else:\n _bkc_tmp = None\n if blc_ is None:\n raise ValueError(\"Argument blc cannot be None\")\n if blc_ is None:\n raise ValueError(\"Argument blc may not be None\")\n if isinstance(blc_, numpy.ndarray) and blc_.dtype is numpy.dtype(numpy.float64) and blc_.flags.contiguous:\n _blc_copyarray = False\n _blc_tmp = ctypes.cast(blc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif blc_ is not None:\n _blc_copyarray = True\n _blc_np_tmp = numpy.zeros(len(blc_),numpy.dtype(numpy.float64))\n _blc_np_tmp[:] = blc_\n assert _blc_np_tmp.flags.contiguous\n _blc_tmp = ctypes.cast(_blc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _blc_copyarray = False\n _blc_tmp = None\n \n if buc_ is None:\n raise ValueError(\"Argument buc cannot be None\")\n if buc_ is None:\n raise ValueError(\"Argument buc may not be None\")\n if isinstance(buc_, numpy.ndarray) and buc_.dtype is numpy.dtype(numpy.float64) and buc_.flags.contiguous:\n _buc_copyarray = False\n _buc_tmp = ctypes.cast(buc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif buc_ is not None:\n _buc_copyarray = True\n _buc_np_tmp = numpy.zeros(len(buc_),numpy.dtype(numpy.float64))\n _buc_np_tmp[:] = buc_\n assert _buc_np_tmp.flags.contiguous\n _buc_tmp = ctypes.cast(_buc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _buc_copyarray = False\n _buc_tmp = None\n \n res = __library__.MSK_XX_putconboundlist(self.__nativep,num_,_sub_tmp,_bkc_tmp,_blc_tmp,_buc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putcslice(self,first_,last_,slice): # 3\n if slice is None: raise TypeError(\"Invalid type for argument slice\")\n if slice is None:\n slice_ = None\n else:\n try:\n slice_ = memoryview(slice)\n except TypeError:\n try:\n _tmparr_slice = array.array(\"d\",slice)\n except TypeError:\n raise TypeError(\"Argument slice has wrong type\")\n else:\n slice_ = memoryview(_tmparr_slice)\n \n else:\n if slice_.format != \"d\":\n slice_ = memoryview(array.array(\"d\",slice))\n \n if slice_ is not None and len(slice_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slice has wrong length\")\n res = self.__obj.putcslice(first_,last_,slice_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconbound(self,i_,bkc_,blc_,buc_):\n res = __library__.MSK_XX_putconbound(self.__nativep,i_,bkc_,blc_,buc_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def _initialize_bounds(problem, bounds, get_bound, set_bound):\n for constraint in problem.constraints:\n root_expr = constraint.root_expr\n expr_bounds = Interval(constraint.lower_bound, constraint.upper_bound)\n if root_expr not in bounds:\n set_bound(root_expr, expr_bounds)\n else:\n existing_bounds = get_bound(root_expr)\n new_bounds = existing_bounds.intersect(expr_bounds)\n set_bound(root_expr, new_bounds)", "def putconbound(self,i_,bk_,bl_,bu_): # 3\n if not isinstance(bk_,boundkey): raise TypeError(\"Argument bk has wrong type\")\n res = self.__obj.putconbound(i_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarboundlistconst(self,sub_,bkx_,blx_,bux_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n res = __library__.MSK_XX_putvarboundlistconst(self.__nativep,num_,_sub_tmp,bkx_,blx_,bux_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconboundlist(self,sub,bk,bl,bu): # 3\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(bk)\n elif num_ != len(bk):\n raise IndexError(\"Inconsistent length of array bk\")\n if num_ is None:\n num_ = len(bl)\n elif num_ != len(bl):\n raise IndexError(\"Inconsistent length of array bl\")\n if num_ is None:\n num_ = len(bu)\n elif num_ != len(bu):\n raise IndexError(\"Inconsistent length of array bu\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if bk is None: raise TypeError(\"Invalid type for argument bk\")\n if bk is None:\n bk_ = None\n else:\n try:\n bk_ = memoryview(bk)\n except TypeError:\n try:\n _tmparr_bk = array.array(\"i\",bk)\n except TypeError:\n raise TypeError(\"Argument bk has wrong type\")\n else:\n bk_ = memoryview(_tmparr_bk)\n \n else:\n if bk_.format != \"i\":\n bk_ = memoryview(array.array(\"i\",bk))\n \n if bl is None: raise TypeError(\"Invalid type for argument bl\")\n if bl is None:\n bl_ = None\n else:\n try:\n bl_ = memoryview(bl)\n except TypeError:\n try:\n _tmparr_bl = array.array(\"d\",bl)\n except TypeError:\n raise TypeError(\"Argument bl has wrong type\")\n else:\n bl_ = memoryview(_tmparr_bl)\n \n else:\n if bl_.format != \"d\":\n bl_ = memoryview(array.array(\"d\",bl))\n \n if bu is None: raise TypeError(\"Invalid type for argument bu\")\n if bu is None:\n bu_ = None\n else:\n try:\n bu_ = memoryview(bu)\n except TypeError:\n try:\n _tmparr_bu = array.array(\"d\",bu)\n except TypeError:\n raise TypeError(\"Argument bu has wrong type\")\n else:\n bu_ = memoryview(_tmparr_bu)\n \n else:\n if bu_.format != \"d\":\n bu_ = memoryview(array.array(\"d\",bu))\n \n res = self.__obj.putconboundlist(num_,sub_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskcslice(self,whichsol_,first_,last_,skc_):\n _skc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),((last_) - (first_))))\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))(*skc_)\n else:\n _skc_tmp = None\n res = __library__.MSK_XX_putskcslice(self.__nativep,whichsol_,first_,last_,_skc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def bounds(self, new_bounds: devices.PrimaryBounds) -> None:\n self._assert_bounds_are_valid(new_bounds)\n self._bounds = list(new_bounds)", "def putxcslice(self,whichsol_,first_,last_,xc_):\n _xc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),((last_) - (first_))))\n if xc_ is None:\n raise ValueError(\"Argument xc cannot be None\")\n if xc_ is None:\n raise ValueError(\"Argument xc may not be None\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n res = __library__.MSK_XX_putxcslice(self.__nativep,whichsol_,first_,last_,_xc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskcslice(self,whichsol_,first_,last_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n \n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n \n if skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.putskcslice(whichsol_,first_,last_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def set_bounds(self, new_bounds):\n\n # Update the internal object stored dict\n self.pbounds.update(new_bounds)\n\n # Loop through the all bounds and reset the min-max bound matrix\n for row, key in enumerate(self.pbounds.keys()):\n\n # Reset all entries, even if the same.\n self.bounds[row] = self.pbounds[key]", "def putxxslice(self,whichsol_,first_,last_,xx_):\n _xx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx is not long enough: Is %d, expected %d\" % (len(xx_),((last_) - (first_))))\n if xx_ is None:\n raise ValueError(\"Argument xx cannot be None\")\n if xx_ is None:\n raise ValueError(\"Argument xx may not be None\")\n if isinstance(xx_, numpy.ndarray) and xx_.dtype is numpy.dtype(numpy.float64) and xx_.flags.contiguous:\n _xx_copyarray = False\n _xx_tmp = ctypes.cast(xx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xx_ is not None:\n _xx_copyarray = True\n _xx_np_tmp = numpy.zeros(len(xx_),numpy.dtype(numpy.float64))\n _xx_np_tmp[:] = xx_\n assert _xx_np_tmp.flags.contiguous\n _xx_tmp = ctypes.cast(_xx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xx_copyarray = False\n _xx_tmp = None\n \n res = __library__.MSK_XX_putxxslice(self.__nativep,whichsol_,first_,last_,_xx_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getcslice(self,first_,last_,c): # 3\n _copyback_c = False\n if c is None:\n c_ = None\n else:\n try:\n c_ = memoryview(c)\n except TypeError:\n try:\n _tmparr_c = array.array(\"d\",c)\n except TypeError:\n raise TypeError(\"Argument c has wrong type\")\n else:\n c_ = memoryview(_tmparr_c)\n _copyback_c = True\n else:\n if c_.format != \"d\":\n c_ = memoryview(array.array(\"d\",c))\n _copyback_c = True\n if c_ is not None and len(c_) != ((last_) - (first_)):\n raise ValueError(\"Array argument c has wrong length\")\n res = self.__obj.getcslice(first_,last_,c_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_c:\n c[:] = _tmparr_c", "def putxxslice(self,whichsol_,first_,last_,xx): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xx is None: raise TypeError(\"Invalid type for argument xx\")\n if xx is None:\n xx_ = None\n else:\n try:\n xx_ = memoryview(xx)\n except TypeError:\n try:\n _tmparr_xx = array.array(\"d\",xx)\n except TypeError:\n raise TypeError(\"Argument xx has wrong type\")\n else:\n xx_ = memoryview(_tmparr_xx)\n \n else:\n if xx_.format != \"d\":\n xx_ = memoryview(array.array(\"d\",xx))\n \n if xx_ is not None and len(xx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xx has wrong length\")\n res = self.__obj.putxxslice(whichsol_,first_,last_,xx_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putxcslice(self,whichsol_,first_,last_,xc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xc is None: raise TypeError(\"Invalid type for argument xc\")\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n \n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n \n if xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc has wrong length\")\n res = self.__obj.putxcslice(whichsol_,first_,last_,xc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getcslice(self,first_,last_,c_):\n _c_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and c_ is not None and len(c_) != ((last_) - (first_)):\n raise ValueError(\"Array argument c is not long enough: Is %d, expected %d\" % (len(c_),((last_) - (first_))))\n if isinstance(c_,numpy.ndarray) and not c_.flags.writeable:\n raise ValueError(\"Argument c must be writable\")\n if isinstance(c_, numpy.ndarray) and c_.dtype is numpy.dtype(numpy.float64) and c_.flags.contiguous:\n _c_copyarray = False\n _c_tmp = ctypes.cast(c_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif c_ is not None:\n _c_copyarray = True\n _c_np_tmp = numpy.zeros(len(c_),numpy.dtype(numpy.float64))\n _c_np_tmp[:] = c_\n assert _c_np_tmp.flags.contiguous\n _c_tmp = ctypes.cast(_c_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _c_copyarray = False\n _c_tmp = None\n \n res = __library__.MSK_XX_getcslice(self.__nativep,first_,last_,_c_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _c_copyarray:\n c_[:] = _c_np_tmp" ]

[ "0.8424689", "0.7909946", "0.77987653", "0.7661096", "0.7383701", "0.72629064", "0.71362746", "0.69376904", "0.6732253", "0.6692375", "0.6643416", "0.6629445", "0.655081", "0.652846", "0.64281434", "0.6054415", "0.6003487", "0.58678806", "0.5852181", "0.5829782", "0.582154", "0.5815099", "0.57620513", "0.5697917", "0.5688631", "0.56750464", "0.5658888", "0.5645001", "0.5642001", "0.5574499" ]

[ "def putvarboundsliceconst(self,first_,last_,bkx_,blx_,bux_):\n res = __library__.MSK_XX_putvarboundsliceconst(self.__nativep,first_,last_,bkx_,blx_,bux_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconboundslice(self,first_,last_,bkc_,blc_,buc_):\n _bkc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and bkc_ is not None and len(bkc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bkc is not long enough: Is %d, expected %d\" % (len(bkc_),((last_) - (first_))))\n if bkc_ is None:\n raise ValueError(\"Argument bkc cannot be None\")\n if bkc_ is None:\n raise ValueError(\"Argument bkc may not be None\")\n if bkc_ is not None:\n _bkc_tmp = (ctypes.c_int32 * len(bkc_))(*bkc_)\n else:\n _bkc_tmp = None\n _blc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and blc_ is not None and len(blc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument blc is not long enough: Is %d, expected %d\" % (len(blc_),((last_) - (first_))))\n if blc_ is None:\n raise ValueError(\"Argument blc cannot be None\")\n if blc_ is None:\n raise ValueError(\"Argument blc may not be None\")\n if isinstance(blc_, numpy.ndarray) and blc_.dtype is numpy.dtype(numpy.float64) and blc_.flags.contiguous:\n _blc_copyarray = False\n _blc_tmp = ctypes.cast(blc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif blc_ is not None:\n _blc_copyarray = True\n _blc_np_tmp = numpy.zeros(len(blc_),numpy.dtype(numpy.float64))\n _blc_np_tmp[:] = blc_\n assert _blc_np_tmp.flags.contiguous\n _blc_tmp = ctypes.cast(_blc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _blc_copyarray = False\n _blc_tmp = None\n \n _buc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and buc_ is not None and len(buc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument buc is not long enough: Is %d, expected %d\" % (len(buc_),((last_) - (first_))))\n if buc_ is None:\n raise ValueError(\"Argument buc cannot be None\")\n if buc_ is None:\n raise ValueError(\"Argument buc may not be None\")\n if isinstance(buc_, numpy.ndarray) and buc_.dtype is numpy.dtype(numpy.float64) and buc_.flags.contiguous:\n _buc_copyarray = False\n _buc_tmp = ctypes.cast(buc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif buc_ is not None:\n _buc_copyarray = True\n _buc_np_tmp = numpy.zeros(len(buc_),numpy.dtype(numpy.float64))\n _buc_np_tmp[:] = buc_\n assert _buc_np_tmp.flags.contiguous\n _buc_tmp = ctypes.cast(_buc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _buc_copyarray = False\n _buc_tmp = None\n \n res = __library__.MSK_XX_putconboundslice(self.__nativep,first_,last_,_bkc_tmp,_blc_tmp,_buc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconboundslice(self,first_,last_,bk,bl,bu): # 3\n if bk is None: raise TypeError(\"Invalid type for argument bk\")\n if bk is None:\n bk_ = None\n else:\n try:\n bk_ = memoryview(bk)\n except TypeError:\n try:\n _tmparr_bk = array.array(\"i\",bk)\n except TypeError:\n raise TypeError(\"Argument bk has wrong type\")\n else:\n bk_ = memoryview(_tmparr_bk)\n \n else:\n if bk_.format != \"i\":\n bk_ = memoryview(array.array(\"i\",bk))\n \n if bk_ is not None and len(bk_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bk has wrong length\")\n if bl is None: raise TypeError(\"Invalid type for argument bl\")\n if bl is None:\n bl_ = None\n else:\n try:\n bl_ = memoryview(bl)\n except TypeError:\n try:\n _tmparr_bl = array.array(\"d\",bl)\n except TypeError:\n raise TypeError(\"Argument bl has wrong type\")\n else:\n bl_ = memoryview(_tmparr_bl)\n \n else:\n if bl_.format != \"d\":\n bl_ = memoryview(array.array(\"d\",bl))\n \n if bl_ is not None and len(bl_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bl has wrong length\")\n if bu is None: raise TypeError(\"Invalid type for argument bu\")\n if bu is None:\n bu_ = None\n else:\n try:\n bu_ = memoryview(bu)\n except TypeError:\n try:\n _tmparr_bu = array.array(\"d\",bu)\n except TypeError:\n raise TypeError(\"Argument bu has wrong type\")\n else:\n bu_ = memoryview(_tmparr_bu)\n \n else:\n if bu_.format != \"d\":\n bu_ = memoryview(array.array(\"d\",bu))\n \n if bu_ is not None and len(bu_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bu has wrong length\")\n res = self.__obj.putconboundslice(first_,last_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putboundslice(self,con_,first_,last_,bk,bl,bu): # 3\n if not isinstance(con_,accmode): raise TypeError(\"Argument con has wrong type\")\n if bk is None: raise TypeError(\"Invalid type for argument bk\")\n if bk is None:\n bk_ = None\n else:\n try:\n bk_ = memoryview(bk)\n except TypeError:\n try:\n _tmparr_bk = array.array(\"i\",bk)\n except TypeError:\n raise TypeError(\"Argument bk has wrong type\")\n else:\n bk_ = memoryview(_tmparr_bk)\n \n else:\n if bk_.format != \"i\":\n bk_ = memoryview(array.array(\"i\",bk))\n \n if bk_ is not None and len(bk_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bk has wrong length\")\n if bl is None: raise TypeError(\"Invalid type for argument bl\")\n if bl is None:\n bl_ = None\n else:\n try:\n bl_ = memoryview(bl)\n except TypeError:\n try:\n _tmparr_bl = array.array(\"d\",bl)\n except TypeError:\n raise TypeError(\"Argument bl has wrong type\")\n else:\n bl_ = memoryview(_tmparr_bl)\n \n else:\n if bl_.format != \"d\":\n bl_ = memoryview(array.array(\"d\",bl))\n \n if bl_ is not None and len(bl_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bl has wrong length\")\n if bu is None: raise TypeError(\"Invalid type for argument bu\")\n if bu is None:\n bu_ = None\n else:\n try:\n bu_ = memoryview(bu)\n except TypeError:\n try:\n _tmparr_bu = array.array(\"d\",bu)\n except TypeError:\n raise TypeError(\"Argument bu has wrong type\")\n else:\n bu_ = memoryview(_tmparr_bu)\n \n else:\n if bu_.format != \"d\":\n bu_ = memoryview(array.array(\"d\",bu))\n \n if bu_ is not None and len(bu_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bu has wrong length\")\n res = self.__obj.putboundslice(con_,first_,last_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getconboundslice(self,first_,last_,bk,bl,bu): # 3\n _copyback_bk = False\n if bk is None:\n bk_ = None\n else:\n try:\n bk_ = memoryview(bk)\n except TypeError:\n try:\n _tmparr_bk = array.array(\"i\",bk)\n except TypeError:\n raise TypeError(\"Argument bk has wrong type\")\n else:\n bk_ = memoryview(_tmparr_bk)\n _copyback_bk = True\n else:\n if bk_.format != \"i\":\n bk_ = memoryview(array.array(\"i\",bk))\n _copyback_bk = True\n if bk_ is not None and len(bk_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bk has wrong length\")\n _copyback_bl = False\n if bl is None:\n bl_ = None\n else:\n try:\n bl_ = memoryview(bl)\n except TypeError:\n try:\n _tmparr_bl = array.array(\"d\",bl)\n except TypeError:\n raise TypeError(\"Argument bl has wrong type\")\n else:\n bl_ = memoryview(_tmparr_bl)\n _copyback_bl = True\n else:\n if bl_.format != \"d\":\n bl_ = memoryview(array.array(\"d\",bl))\n _copyback_bl = True\n if bl_ is not None and len(bl_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bl has wrong length\")\n _copyback_bu = False\n if bu is None:\n bu_ = None\n else:\n try:\n bu_ = memoryview(bu)\n except TypeError:\n try:\n _tmparr_bu = array.array(\"d\",bu)\n except TypeError:\n raise TypeError(\"Argument bu has wrong type\")\n else:\n bu_ = memoryview(_tmparr_bu)\n _copyback_bu = True\n else:\n if bu_.format != \"d\":\n bu_ = memoryview(array.array(\"d\",bu))\n _copyback_bu = True\n if bu_ is not None and len(bu_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bu has wrong length\")\n res = self.__obj.getconboundslice(first_,last_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_bu:\n bu[:] = _tmparr_bu\n if _copyback_bl:\n bl[:] = _tmparr_bl\n if _copyback_bk:\n for __tmp_var_0 in range(len(bk_)): bk[__tmp_var_0] = boundkey(_tmparr_bk[__tmp_var_0])", "def getconboundslice(self,first_,last_,bk_,bl_,bu_):\n _bk_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and bk_ is not None and len(bk_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bk is not long enough: Is %d, expected %d\" % (len(bk_),((last_) - (first_))))\n if isinstance(bk_,numpy.ndarray) and not bk_.flags.writeable:\n raise ValueError(\"Argument bk must be writable\")\n if bk_ is not None:\n _bk_tmp = (ctypes.c_int32 * len(bk_))()\n else:\n _bk_tmp = None\n _bl_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and bl_ is not None and len(bl_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bl is not long enough: Is %d, expected %d\" % (len(bl_),((last_) - (first_))))\n if isinstance(bl_,numpy.ndarray) and not bl_.flags.writeable:\n raise ValueError(\"Argument bl must be writable\")\n if isinstance(bl_, numpy.ndarray) and bl_.dtype is numpy.dtype(numpy.float64) and bl_.flags.contiguous:\n _bl_copyarray = False\n _bl_tmp = ctypes.cast(bl_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif bl_ is not None:\n _bl_copyarray = True\n _bl_np_tmp = numpy.zeros(len(bl_),numpy.dtype(numpy.float64))\n _bl_np_tmp[:] = bl_\n assert _bl_np_tmp.flags.contiguous\n _bl_tmp = ctypes.cast(_bl_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _bl_copyarray = False\n _bl_tmp = None\n \n _bu_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and bu_ is not None and len(bu_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bu is not long enough: Is %d, expected %d\" % (len(bu_),((last_) - (first_))))\n if isinstance(bu_,numpy.ndarray) and not bu_.flags.writeable:\n raise ValueError(\"Argument bu must be writable\")\n if isinstance(bu_, numpy.ndarray) and bu_.dtype is numpy.dtype(numpy.float64) and bu_.flags.contiguous:\n _bu_copyarray = False\n _bu_tmp = ctypes.cast(bu_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif bu_ is not None:\n _bu_copyarray = True\n _bu_np_tmp = numpy.zeros(len(bu_),numpy.dtype(numpy.float64))\n _bu_np_tmp[:] = bu_\n assert _bu_np_tmp.flags.contiguous\n _bu_tmp = ctypes.cast(_bu_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _bu_copyarray = False\n _bu_tmp = None\n \n res = __library__.MSK_XX_getconboundslice(self.__nativep,first_,last_,_bk_tmp,_bl_tmp,_bu_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if bk_ is not None: bk_[:] = [ boundkey(v) for v in _bk_tmp[0:len(bk_)] ]\n if _bl_copyarray:\n bl_[:] = _bl_np_tmp\n if _bu_copyarray:\n bu_[:] = _bu_np_tmp", "def putconboundlistconst(self,sub_,bkc_,blc_,buc_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n res = __library__.MSK_XX_putconboundlistconst(self.__nativep,num_,_sub_tmp,bkc_,blc_,buc_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarboundslice(self,first_,last_,bk,bl,bu): # 3\n if bk is None: raise TypeError(\"Invalid type for argument bk\")\n if bk is None:\n bk_ = None\n else:\n try:\n bk_ = memoryview(bk)\n except TypeError:\n try:\n _tmparr_bk = array.array(\"i\",bk)\n except TypeError:\n raise TypeError(\"Argument bk has wrong type\")\n else:\n bk_ = memoryview(_tmparr_bk)\n \n else:\n if bk_.format != \"i\":\n bk_ = memoryview(array.array(\"i\",bk))\n \n if bk_ is not None and len(bk_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bk has wrong length\")\n if bl is None: raise TypeError(\"Invalid type for argument bl\")\n if bl is None:\n bl_ = None\n else:\n try:\n bl_ = memoryview(bl)\n except TypeError:\n try:\n _tmparr_bl = array.array(\"d\",bl)\n except TypeError:\n raise TypeError(\"Argument bl has wrong type\")\n else:\n bl_ = memoryview(_tmparr_bl)\n \n else:\n if bl_.format != \"d\":\n bl_ = memoryview(array.array(\"d\",bl))\n \n if bl_ is not None and len(bl_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bl has wrong length\")\n if bu is None: raise TypeError(\"Invalid type for argument bu\")\n if bu is None:\n bu_ = None\n else:\n try:\n bu_ = memoryview(bu)\n except TypeError:\n try:\n _tmparr_bu = array.array(\"d\",bu)\n except TypeError:\n raise TypeError(\"Argument bu has wrong type\")\n else:\n bu_ = memoryview(_tmparr_bu)\n \n else:\n if bu_.format != \"d\":\n bu_ = memoryview(array.array(\"d\",bu))\n \n if bu_ is not None and len(bu_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bu has wrong length\")\n res = self.__obj.putvarboundslice(first_,last_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarboundslice(self,first_,last_,bkx_,blx_,bux_):\n _bkx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and bkx_ is not None and len(bkx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bkx is not long enough: Is %d, expected %d\" % (len(bkx_),((last_) - (first_))))\n if bkx_ is None:\n raise ValueError(\"Argument bkx cannot be None\")\n if bkx_ is None:\n raise ValueError(\"Argument bkx may not be None\")\n if bkx_ is not None:\n _bkx_tmp = (ctypes.c_int32 * len(bkx_))(*bkx_)\n else:\n _bkx_tmp = None\n _blx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and blx_ is not None and len(blx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument blx is not long enough: Is %d, expected %d\" % (len(blx_),((last_) - (first_))))\n if blx_ is None:\n raise ValueError(\"Argument blx cannot be None\")\n if blx_ is None:\n raise ValueError(\"Argument blx may not be None\")\n if isinstance(blx_, numpy.ndarray) and blx_.dtype is numpy.dtype(numpy.float64) and blx_.flags.contiguous:\n _blx_copyarray = False\n _blx_tmp = ctypes.cast(blx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif blx_ is not None:\n _blx_copyarray = True\n _blx_np_tmp = numpy.zeros(len(blx_),numpy.dtype(numpy.float64))\n _blx_np_tmp[:] = blx_\n assert _blx_np_tmp.flags.contiguous\n _blx_tmp = ctypes.cast(_blx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _blx_copyarray = False\n _blx_tmp = None\n \n _bux_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and bux_ is not None and len(bux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bux is not long enough: Is %d, expected %d\" % (len(bux_),((last_) - (first_))))\n if bux_ is None:\n raise ValueError(\"Argument bux cannot be None\")\n if bux_ is None:\n raise ValueError(\"Argument bux may not be None\")\n if isinstance(bux_, numpy.ndarray) and bux_.dtype is numpy.dtype(numpy.float64) and bux_.flags.contiguous:\n _bux_copyarray = False\n _bux_tmp = ctypes.cast(bux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif bux_ is not None:\n _bux_copyarray = True\n _bux_np_tmp = numpy.zeros(len(bux_),numpy.dtype(numpy.float64))\n _bux_np_tmp[:] = bux_\n assert _bux_np_tmp.flags.contiguous\n _bux_tmp = ctypes.cast(_bux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _bux_copyarray = False\n _bux_tmp = None\n \n res = __library__.MSK_XX_putvarboundslice(self.__nativep,first_,last_,_bkx_tmp,_blx_tmp,_bux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putcslice(self,first_,last_,slice_):\n _slice_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slice_ is not None and len(slice_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slice is not long enough: Is %d, expected %d\" % (len(slice_),((last_) - (first_))))\n if slice_ is None:\n raise ValueError(\"Argument slice cannot be None\")\n if slice_ is None:\n raise ValueError(\"Argument slice may not be None\")\n if isinstance(slice_, numpy.ndarray) and slice_.dtype is numpy.dtype(numpy.float64) and slice_.flags.contiguous:\n _slice_copyarray = False\n _slice_tmp = ctypes.cast(slice_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slice_ is not None:\n _slice_copyarray = True\n _slice_np_tmp = numpy.zeros(len(slice_),numpy.dtype(numpy.float64))\n _slice_np_tmp[:] = slice_\n assert _slice_np_tmp.flags.contiguous\n _slice_tmp = ctypes.cast(_slice_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slice_copyarray = False\n _slice_tmp = None\n \n res = __library__.MSK_XX_putcslice(self.__nativep,first_,last_,_slice_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getvarboundslice(self,first_,last_,bk_,bl_,bu_):\n _bk_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and bk_ is not None and len(bk_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bk is not long enough: Is %d, expected %d\" % (len(bk_),((last_) - (first_))))\n if isinstance(bk_,numpy.ndarray) and not bk_.flags.writeable:\n raise ValueError(\"Argument bk must be writable\")\n if bk_ is not None:\n _bk_tmp = (ctypes.c_int32 * len(bk_))()\n else:\n _bk_tmp = None\n _bl_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and bl_ is not None and len(bl_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bl is not long enough: Is %d, expected %d\" % (len(bl_),((last_) - (first_))))\n if isinstance(bl_,numpy.ndarray) and not bl_.flags.writeable:\n raise ValueError(\"Argument bl must be writable\")\n if isinstance(bl_, numpy.ndarray) and bl_.dtype is numpy.dtype(numpy.float64) and bl_.flags.contiguous:\n _bl_copyarray = False\n _bl_tmp = ctypes.cast(bl_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif bl_ is not None:\n _bl_copyarray = True\n _bl_np_tmp = numpy.zeros(len(bl_),numpy.dtype(numpy.float64))\n _bl_np_tmp[:] = bl_\n assert _bl_np_tmp.flags.contiguous\n _bl_tmp = ctypes.cast(_bl_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _bl_copyarray = False\n _bl_tmp = None\n \n _bu_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and bu_ is not None and len(bu_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bu is not long enough: Is %d, expected %d\" % (len(bu_),((last_) - (first_))))\n if isinstance(bu_,numpy.ndarray) and not bu_.flags.writeable:\n raise ValueError(\"Argument bu must be writable\")\n if isinstance(bu_, numpy.ndarray) and bu_.dtype is numpy.dtype(numpy.float64) and bu_.flags.contiguous:\n _bu_copyarray = False\n _bu_tmp = ctypes.cast(bu_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif bu_ is not None:\n _bu_copyarray = True\n _bu_np_tmp = numpy.zeros(len(bu_),numpy.dtype(numpy.float64))\n _bu_np_tmp[:] = bu_\n assert _bu_np_tmp.flags.contiguous\n _bu_tmp = ctypes.cast(_bu_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _bu_copyarray = False\n _bu_tmp = None\n \n res = __library__.MSK_XX_getvarboundslice(self.__nativep,first_,last_,_bk_tmp,_bl_tmp,_bu_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if bk_ is not None: bk_[:] = [ boundkey(v) for v in _bk_tmp[0:len(bk_)] ]\n if _bl_copyarray:\n bl_[:] = _bl_np_tmp\n if _bu_copyarray:\n bu_[:] = _bu_np_tmp", "def putconboundlist(self,sub_,bkc_,blc_,buc_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(bkc_)\n elif num_ != len(bkc_):\n raise IndexError(\"Inconsistent length of array bkc\")\n if num_ is None:\n num_ = len(blc_)\n elif num_ != len(blc_):\n raise IndexError(\"Inconsistent length of array blc\")\n if num_ is None:\n num_ = len(buc_)\n elif num_ != len(buc_):\n raise IndexError(\"Inconsistent length of array buc\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n if bkc_ is None:\n raise ValueError(\"Argument bkc cannot be None\")\n if bkc_ is None:\n raise ValueError(\"Argument bkc may not be None\")\n if bkc_ is not None:\n _bkc_tmp = (ctypes.c_int32 * len(bkc_))(*bkc_)\n else:\n _bkc_tmp = None\n if blc_ is None:\n raise ValueError(\"Argument blc cannot be None\")\n if blc_ is None:\n raise ValueError(\"Argument blc may not be None\")\n if isinstance(blc_, numpy.ndarray) and blc_.dtype is numpy.dtype(numpy.float64) and blc_.flags.contiguous:\n _blc_copyarray = False\n _blc_tmp = ctypes.cast(blc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif blc_ is not None:\n _blc_copyarray = True\n _blc_np_tmp = numpy.zeros(len(blc_),numpy.dtype(numpy.float64))\n _blc_np_tmp[:] = blc_\n assert _blc_np_tmp.flags.contiguous\n _blc_tmp = ctypes.cast(_blc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _blc_copyarray = False\n _blc_tmp = None\n \n if buc_ is None:\n raise ValueError(\"Argument buc cannot be None\")\n if buc_ is None:\n raise ValueError(\"Argument buc may not be None\")\n if isinstance(buc_, numpy.ndarray) and buc_.dtype is numpy.dtype(numpy.float64) and buc_.flags.contiguous:\n _buc_copyarray = False\n _buc_tmp = ctypes.cast(buc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif buc_ is not None:\n _buc_copyarray = True\n _buc_np_tmp = numpy.zeros(len(buc_),numpy.dtype(numpy.float64))\n _buc_np_tmp[:] = buc_\n assert _buc_np_tmp.flags.contiguous\n _buc_tmp = ctypes.cast(_buc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _buc_copyarray = False\n _buc_tmp = None\n \n res = __library__.MSK_XX_putconboundlist(self.__nativep,num_,_sub_tmp,_bkc_tmp,_blc_tmp,_buc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putcslice(self,first_,last_,slice): # 3\n if slice is None: raise TypeError(\"Invalid type for argument slice\")\n if slice is None:\n slice_ = None\n else:\n try:\n slice_ = memoryview(slice)\n except TypeError:\n try:\n _tmparr_slice = array.array(\"d\",slice)\n except TypeError:\n raise TypeError(\"Argument slice has wrong type\")\n else:\n slice_ = memoryview(_tmparr_slice)\n \n else:\n if slice_.format != \"d\":\n slice_ = memoryview(array.array(\"d\",slice))\n \n if slice_ is not None and len(slice_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slice has wrong length\")\n res = self.__obj.putcslice(first_,last_,slice_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getvarboundslice(self,first_,last_,bk,bl,bu): # 3\n _copyback_bk = False\n if bk is None:\n bk_ = None\n else:\n try:\n bk_ = memoryview(bk)\n except TypeError:\n try:\n _tmparr_bk = array.array(\"i\",bk)\n except TypeError:\n raise TypeError(\"Argument bk has wrong type\")\n else:\n bk_ = memoryview(_tmparr_bk)\n _copyback_bk = True\n else:\n if bk_.format != \"i\":\n bk_ = memoryview(array.array(\"i\",bk))\n _copyback_bk = True\n if bk_ is not None and len(bk_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bk has wrong length\")\n _copyback_bl = False\n if bl is None:\n bl_ = None\n else:\n try:\n bl_ = memoryview(bl)\n except TypeError:\n try:\n _tmparr_bl = array.array(\"d\",bl)\n except TypeError:\n raise TypeError(\"Argument bl has wrong type\")\n else:\n bl_ = memoryview(_tmparr_bl)\n _copyback_bl = True\n else:\n if bl_.format != \"d\":\n bl_ = memoryview(array.array(\"d\",bl))\n _copyback_bl = True\n if bl_ is not None and len(bl_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bl has wrong length\")\n _copyback_bu = False\n if bu is None:\n bu_ = None\n else:\n try:\n bu_ = memoryview(bu)\n except TypeError:\n try:\n _tmparr_bu = array.array(\"d\",bu)\n except TypeError:\n raise TypeError(\"Argument bu has wrong type\")\n else:\n bu_ = memoryview(_tmparr_bu)\n _copyback_bu = True\n else:\n if bu_.format != \"d\":\n bu_ = memoryview(array.array(\"d\",bu))\n _copyback_bu = True\n if bu_ is not None and len(bu_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bu has wrong length\")\n res = self.__obj.getvarboundslice(first_,last_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_bu:\n bu[:] = _tmparr_bu\n if _copyback_bl:\n bl[:] = _tmparr_bl\n if _copyback_bk:\n for __tmp_var_0 in range(len(bk_)): bk[__tmp_var_0] = boundkey(_tmparr_bk[__tmp_var_0])", "def getboundslice(self,accmode_,first_,last_,bk,bl,bu): # 3\n if not isinstance(accmode_,accmode): raise TypeError(\"Argument accmode has wrong type\")\n _copyback_bk = False\n if bk is None:\n bk_ = None\n else:\n try:\n bk_ = memoryview(bk)\n except TypeError:\n try:\n _tmparr_bk = array.array(\"i\",bk)\n except TypeError:\n raise TypeError(\"Argument bk has wrong type\")\n else:\n bk_ = memoryview(_tmparr_bk)\n _copyback_bk = True\n else:\n if bk_.format != \"i\":\n bk_ = memoryview(array.array(\"i\",bk))\n _copyback_bk = True\n if bk_ is not None and len(bk_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bk has wrong length\")\n _copyback_bl = False\n if bl is None:\n bl_ = None\n else:\n try:\n bl_ = memoryview(bl)\n except TypeError:\n try:\n _tmparr_bl = array.array(\"d\",bl)\n except TypeError:\n raise TypeError(\"Argument bl has wrong type\")\n else:\n bl_ = memoryview(_tmparr_bl)\n _copyback_bl = True\n else:\n if bl_.format != \"d\":\n bl_ = memoryview(array.array(\"d\",bl))\n _copyback_bl = True\n if bl_ is not None and len(bl_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bl has wrong length\")\n _copyback_bu = False\n if bu is None:\n bu_ = None\n else:\n try:\n bu_ = memoryview(bu)\n except TypeError:\n try:\n _tmparr_bu = array.array(\"d\",bu)\n except TypeError:\n raise TypeError(\"Argument bu has wrong type\")\n else:\n bu_ = memoryview(_tmparr_bu)\n _copyback_bu = True\n else:\n if bu_.format != \"d\":\n bu_ = memoryview(array.array(\"d\",bu))\n _copyback_bu = True\n if bu_ is not None and len(bu_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bu has wrong length\")\n res = self.__obj.getboundslice(accmode_,first_,last_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_bu:\n bu[:] = _tmparr_bu\n if _copyback_bl:\n bl[:] = _tmparr_bl\n if _copyback_bk:\n for __tmp_var_0 in range(len(bk_)): bk[__tmp_var_0] = boundkey(_tmparr_bk[__tmp_var_0])", "def putvarboundlistconst(self,sub_,bkx_,blx_,bux_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n res = __library__.MSK_XX_putvarboundlistconst(self.__nativep,num_,_sub_tmp,bkx_,blx_,bux_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconbound(self,i_,bkc_,blc_,buc_):\n res = __library__.MSK_XX_putconbound(self.__nativep,i_,bkc_,blc_,buc_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def getcslice(self,first_,last_,c): # 3\n _copyback_c = False\n if c is None:\n c_ = None\n else:\n try:\n c_ = memoryview(c)\n except TypeError:\n try:\n _tmparr_c = array.array(\"d\",c)\n except TypeError:\n raise TypeError(\"Argument c has wrong type\")\n else:\n c_ = memoryview(_tmparr_c)\n _copyback_c = True\n else:\n if c_.format != \"d\":\n c_ = memoryview(array.array(\"d\",c))\n _copyback_c = True\n if c_ is not None and len(c_) != ((last_) - (first_)):\n raise ValueError(\"Array argument c has wrong length\")\n res = self.__obj.getcslice(first_,last_,c_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _copyback_c:\n c[:] = _tmparr_c", "def putskcslice(self,whichsol_,first_,last_,skc_):\n _skc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc is not long enough: Is %d, expected %d\" % (len(skc_),((last_) - (first_))))\n if skc_ is not None:\n _skc_tmp = (ctypes.c_int32 * len(skc_))(*skc_)\n else:\n _skc_tmp = None\n res = __library__.MSK_XX_putskcslice(self.__nativep,whichsol_,first_,last_,_skc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def _initialize_bounds(problem, bounds, get_bound, set_bound):\n for constraint in problem.constraints:\n root_expr = constraint.root_expr\n expr_bounds = Interval(constraint.lower_bound, constraint.upper_bound)\n if root_expr not in bounds:\n set_bound(root_expr, expr_bounds)\n else:\n existing_bounds = get_bound(root_expr)\n new_bounds = existing_bounds.intersect(expr_bounds)\n set_bound(root_expr, new_bounds)", "def getcslice(self,first_,last_,c_):\n _c_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and c_ is not None and len(c_) != ((last_) - (first_)):\n raise ValueError(\"Array argument c is not long enough: Is %d, expected %d\" % (len(c_),((last_) - (first_))))\n if isinstance(c_,numpy.ndarray) and not c_.flags.writeable:\n raise ValueError(\"Argument c must be writable\")\n if isinstance(c_, numpy.ndarray) and c_.dtype is numpy.dtype(numpy.float64) and c_.flags.contiguous:\n _c_copyarray = False\n _c_tmp = ctypes.cast(c_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif c_ is not None:\n _c_copyarray = True\n _c_np_tmp = numpy.zeros(len(c_),numpy.dtype(numpy.float64))\n _c_np_tmp[:] = c_\n assert _c_np_tmp.flags.contiguous\n _c_tmp = ctypes.cast(_c_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _c_copyarray = False\n _c_tmp = None\n \n res = __library__.MSK_XX_getcslice(self.__nativep,first_,last_,_c_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n if _c_copyarray:\n c_[:] = _c_np_tmp", "def putxcslice(self,whichsol_,first_,last_,xc_):\n _xc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc is not long enough: Is %d, expected %d\" % (len(xc_),((last_) - (first_))))\n if xc_ is None:\n raise ValueError(\"Argument xc cannot be None\")\n if xc_ is None:\n raise ValueError(\"Argument xc may not be None\")\n if isinstance(xc_, numpy.ndarray) and xc_.dtype is numpy.dtype(numpy.float64) and xc_.flags.contiguous:\n _xc_copyarray = False\n _xc_tmp = ctypes.cast(xc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif xc_ is not None:\n _xc_copyarray = True\n _xc_np_tmp = numpy.zeros(len(xc_),numpy.dtype(numpy.float64))\n _xc_np_tmp[:] = xc_\n assert _xc_np_tmp.flags.contiguous\n _xc_tmp = ctypes.cast(_xc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _xc_copyarray = False\n _xc_tmp = None\n \n res = __library__.MSK_XX_putxcslice(self.__nativep,whichsol_,first_,last_,_xc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putskcslice(self,whichsol_,first_,last_,skc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if skc is None:\n skc_ = None\n else:\n try:\n skc_ = memoryview(skc)\n except TypeError:\n try:\n _tmparr_skc = array.array(\"i\",skc)\n except TypeError:\n raise TypeError(\"Argument skc has wrong type\")\n else:\n skc_ = memoryview(_tmparr_skc)\n \n else:\n if skc_.format != \"i\":\n skc_ = memoryview(array.array(\"i\",skc))\n \n if skc_ is not None and len(skc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument skc has wrong length\")\n res = self.__obj.putskcslice(whichsol_,first_,last_,skc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconbound(self,i_,bk_,bl_,bu_): # 3\n if not isinstance(bk_,boundkey): raise TypeError(\"Argument bk has wrong type\")\n res = self.__obj.putconbound(i_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def chgconbound(self,i_,lower_,finite_,value_): # 3\n res = self.__obj.chgconbound(i_,lower_,finite_,value_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconboundlist(self,sub,bk,bl,bu): # 3\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(bk)\n elif num_ != len(bk):\n raise IndexError(\"Inconsistent length of array bk\")\n if num_ is None:\n num_ = len(bl)\n elif num_ != len(bl):\n raise IndexError(\"Inconsistent length of array bl\")\n if num_ is None:\n num_ = len(bu)\n elif num_ != len(bu):\n raise IndexError(\"Inconsistent length of array bu\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if bk is None: raise TypeError(\"Invalid type for argument bk\")\n if bk is None:\n bk_ = None\n else:\n try:\n bk_ = memoryview(bk)\n except TypeError:\n try:\n _tmparr_bk = array.array(\"i\",bk)\n except TypeError:\n raise TypeError(\"Argument bk has wrong type\")\n else:\n bk_ = memoryview(_tmparr_bk)\n \n else:\n if bk_.format != \"i\":\n bk_ = memoryview(array.array(\"i\",bk))\n \n if bl is None: raise TypeError(\"Invalid type for argument bl\")\n if bl is None:\n bl_ = None\n else:\n try:\n bl_ = memoryview(bl)\n except TypeError:\n try:\n _tmparr_bl = array.array(\"d\",bl)\n except TypeError:\n raise TypeError(\"Argument bl has wrong type\")\n else:\n bl_ = memoryview(_tmparr_bl)\n \n else:\n if bl_.format != \"d\":\n bl_ = memoryview(array.array(\"d\",bl))\n \n if bu is None: raise TypeError(\"Invalid type for argument bu\")\n if bu is None:\n bu_ = None\n else:\n try:\n bu_ = memoryview(bu)\n except TypeError:\n try:\n _tmparr_bu = array.array(\"d\",bu)\n except TypeError:\n raise TypeError(\"Argument bu has wrong type\")\n else:\n bu_ = memoryview(_tmparr_bu)\n \n else:\n if bu_.format != \"d\":\n bu_ = memoryview(array.array(\"d\",bu))\n \n res = self.__obj.putconboundlist(num_,sub_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putslcslice(self,whichsol_,first_,last_,slc_):\n _slc_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and slc_ is not None and len(slc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument slc is not long enough: Is %d, expected %d\" % (len(slc_),((last_) - (first_))))\n if slc_ is None:\n raise ValueError(\"Argument slc cannot be None\")\n if slc_ is None:\n raise ValueError(\"Argument slc may not be None\")\n if isinstance(slc_, numpy.ndarray) and slc_.dtype is numpy.dtype(numpy.float64) and slc_.flags.contiguous:\n _slc_copyarray = False\n _slc_tmp = ctypes.cast(slc_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif slc_ is not None:\n _slc_copyarray = True\n _slc_np_tmp = numpy.zeros(len(slc_),numpy.dtype(numpy.float64))\n _slc_np_tmp[:] = slc_\n assert _slc_np_tmp.flags.contiguous\n _slc_tmp = ctypes.cast(_slc_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _slc_copyarray = False\n _slc_tmp = None\n \n res = __library__.MSK_XX_putslcslice(self.__nativep,whichsol_,first_,last_,_slc_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putxcslice(self,whichsol_,first_,last_,xc): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if xc is None: raise TypeError(\"Invalid type for argument xc\")\n if xc is None:\n xc_ = None\n else:\n try:\n xc_ = memoryview(xc)\n except TypeError:\n try:\n _tmparr_xc = array.array(\"d\",xc)\n except TypeError:\n raise TypeError(\"Argument xc has wrong type\")\n else:\n xc_ = memoryview(_tmparr_xc)\n \n else:\n if xc_.format != \"d\":\n xc_ = memoryview(array.array(\"d\",xc))\n \n if xc_ is not None and len(xc_) != ((last_) - (first_)):\n raise ValueError(\"Array argument xc has wrong length\")\n res = self.__obj.putxcslice(whichsol_,first_,last_,xc_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def bounds(self, new_bounds: devices.PrimaryBounds) -> None:\n self._assert_bounds_are_valid(new_bounds)\n self._bounds = list(new_bounds)", "def RestrictionRangeBound(self, compsIdList, lowerBound, upperBound):\n for i in range(len(compsIdList)): compsIdList[i] -= 1\n if self.solverTypeOptimize:\n self.solver.add(sum([self.a[compId * self.nrVM + j] for compId in compsIdList for j in range(self.nrVM)]) >= lowerBound)\n else:\n self.solver.assert_and_track(\n PbGe(sum([self.a[compId * self.nrVM + j] for compId in compsIdList for j in range(self.nrVM)]),\n lowerBound), \"LabelRangeBound: \" + str(self.labelIdx))\n self.labelIdx += 1\n if self.solverTypeOptimize:\n PbLe(self.solver.add(sum([self.a[compId * self.nrVM + j] for compId in compsIdList for j in range(self.nrVM)]),\n upperBound))\n else:\n self.solver.assert_and_track(\n sum([self.a[compId * self.nrVM + j] for compId in compsIdList for j in range(self.nrVM)]) <= upperBound, \"LabelRangeBound: \" + str(self.labelIdx))\n self.labelIdx += 1" ]

[ "0.7940694", "0.7843107", "0.7633073", "0.7385376", "0.7198701", "0.7138386", "0.7068631", "0.6802846", "0.6657966", "0.6564169", "0.65478146", "0.65182567", "0.64068395", "0.63733363", "0.62952274", "0.61070985", "0.60120577", "0.58785725", "0.58716613", "0.578715", "0.5770359", "0.57695514", "0.5753683", "0.5738376", "0.5724118", "0.5674998", "0.567084", "0.5601475", "0.5553699", "0.5553409" ]

[ "def putvarbound(self,j_,bk_,bl_,bu_): # 3\n if not isinstance(bk_,boundkey): raise TypeError(\"Argument bk has wrong type\")\n res = self.__obj.putvarbound(j_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def chgvarbound(self,j_,lower_,finite_,value_): # 3\n res = self.__obj.chgvarbound(j_,lower_,finite_,value_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def chgvarbound(self,j_,lower_,finite_,value_):\n res = __library__.MSK_XX_chgvarbound(self.__nativep,j_,lower_,finite_,value_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarboundsliceconst(self,first_,last_,bkx_,blx_,bux_):\n res = __library__.MSK_XX_putvarboundsliceconst(self.__nativep,first_,last_,bkx_,blx_,bux_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarboundlistconst(self,sub_,bkx_,blx_,bux_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n res = __library__.MSK_XX_putvarboundlistconst(self.__nativep,num_,_sub_tmp,bkx_,blx_,bux_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarboundlist(self,sub,bkx,blx,bux): # 3\n num_ = None\n if num_ is None:\n num_ = len(sub)\n elif num_ != len(sub):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(bkx)\n elif num_ != len(bkx):\n raise IndexError(\"Inconsistent length of array bkx\")\n if num_ is None:\n num_ = len(blx)\n elif num_ != len(blx):\n raise IndexError(\"Inconsistent length of array blx\")\n if num_ is None:\n num_ = len(bux)\n elif num_ != len(bux):\n raise IndexError(\"Inconsistent length of array bux\")\n if num_ is None: num_ = 0\n if sub is None: raise TypeError(\"Invalid type for argument sub\")\n if sub is None:\n sub_ = None\n else:\n try:\n sub_ = memoryview(sub)\n except TypeError:\n try:\n _tmparr_sub = array.array(\"i\",sub)\n except TypeError:\n raise TypeError(\"Argument sub has wrong type\")\n else:\n sub_ = memoryview(_tmparr_sub)\n \n else:\n if sub_.format != \"i\":\n sub_ = memoryview(array.array(\"i\",sub))\n \n if bkx is None: raise TypeError(\"Invalid type for argument bkx\")\n if bkx is None:\n bkx_ = None\n else:\n try:\n bkx_ = memoryview(bkx)\n except TypeError:\n try:\n _tmparr_bkx = array.array(\"i\",bkx)\n except TypeError:\n raise TypeError(\"Argument bkx has wrong type\")\n else:\n bkx_ = memoryview(_tmparr_bkx)\n \n else:\n if bkx_.format != \"i\":\n bkx_ = memoryview(array.array(\"i\",bkx))\n \n if blx is None: raise TypeError(\"Invalid type for argument blx\")\n if blx is None:\n blx_ = None\n else:\n try:\n blx_ = memoryview(blx)\n except TypeError:\n try:\n _tmparr_blx = array.array(\"d\",blx)\n except TypeError:\n raise TypeError(\"Argument blx has wrong type\")\n else:\n blx_ = memoryview(_tmparr_blx)\n \n else:\n if blx_.format != \"d\":\n blx_ = memoryview(array.array(\"d\",blx))\n \n if bux is None: raise TypeError(\"Invalid type for argument bux\")\n if bux is None:\n bux_ = None\n else:\n try:\n bux_ = memoryview(bux)\n except TypeError:\n try:\n _tmparr_bux = array.array(\"d\",bux)\n except TypeError:\n raise TypeError(\"Argument bux has wrong type\")\n else:\n bux_ = memoryview(_tmparr_bux)\n \n else:\n if bux_.format != \"d\":\n bux_ = memoryview(array.array(\"d\",bux))\n \n res = self.__obj.putvarboundlist(num_,sub_,bkx_,blx_,bux_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarboundlist(self,sub_,bkx_,blx_,bux_):\n num_ = None\n if num_ is None:\n num_ = len(sub_)\n elif num_ != len(sub_):\n raise IndexError(\"Inconsistent length of array sub\")\n if num_ is None:\n num_ = len(bkx_)\n elif num_ != len(bkx_):\n raise IndexError(\"Inconsistent length of array bkx\")\n if num_ is None:\n num_ = len(blx_)\n elif num_ != len(blx_):\n raise IndexError(\"Inconsistent length of array blx\")\n if num_ is None:\n num_ = len(bux_)\n elif num_ != len(bux_):\n raise IndexError(\"Inconsistent length of array bux\")\n if sub_ is None:\n raise ValueError(\"Argument sub cannot be None\")\n if sub_ is None:\n raise ValueError(\"Argument sub may not be None\")\n if isinstance(sub_, numpy.ndarray) and sub_.dtype is numpy.dtype(numpy.int32) and sub_.flags.contiguous:\n _sub_copyarray = False\n _sub_tmp = ctypes.cast(sub_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n elif sub_ is not None:\n _sub_copyarray = True\n _sub_np_tmp = numpy.zeros(len(sub_),numpy.dtype(numpy.int32))\n _sub_np_tmp[:] = sub_\n assert _sub_np_tmp.flags.contiguous\n _sub_tmp = ctypes.cast(_sub_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_int32))\n else:\n _sub_copyarray = False\n _sub_tmp = None\n \n if bkx_ is None:\n raise ValueError(\"Argument bkx cannot be None\")\n if bkx_ is None:\n raise ValueError(\"Argument bkx may not be None\")\n if bkx_ is not None:\n _bkx_tmp = (ctypes.c_int32 * len(bkx_))(*bkx_)\n else:\n _bkx_tmp = None\n if blx_ is None:\n raise ValueError(\"Argument blx cannot be None\")\n if blx_ is None:\n raise ValueError(\"Argument blx may not be None\")\n if isinstance(blx_, numpy.ndarray) and blx_.dtype is numpy.dtype(numpy.float64) and blx_.flags.contiguous:\n _blx_copyarray = False\n _blx_tmp = ctypes.cast(blx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif blx_ is not None:\n _blx_copyarray = True\n _blx_np_tmp = numpy.zeros(len(blx_),numpy.dtype(numpy.float64))\n _blx_np_tmp[:] = blx_\n assert _blx_np_tmp.flags.contiguous\n _blx_tmp = ctypes.cast(_blx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _blx_copyarray = False\n _blx_tmp = None\n \n if bux_ is None:\n raise ValueError(\"Argument bux cannot be None\")\n if bux_ is None:\n raise ValueError(\"Argument bux may not be None\")\n if isinstance(bux_, numpy.ndarray) and bux_.dtype is numpy.dtype(numpy.float64) and bux_.flags.contiguous:\n _bux_copyarray = False\n _bux_tmp = ctypes.cast(bux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif bux_ is not None:\n _bux_copyarray = True\n _bux_np_tmp = numpy.zeros(len(bux_),numpy.dtype(numpy.float64))\n _bux_np_tmp[:] = bux_\n assert _bux_np_tmp.flags.contiguous\n _bux_tmp = ctypes.cast(_bux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _bux_copyarray = False\n _bux_tmp = None\n \n res = __library__.MSK_XX_putvarboundlist(self.__nativep,num_,_sub_tmp,_bkx_tmp,_blx_tmp,_bux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarboundslice(self,first_,last_,bkx_,blx_,bux_):\n _bkx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and bkx_ is not None and len(bkx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bkx is not long enough: Is %d, expected %d\" % (len(bkx_),((last_) - (first_))))\n if bkx_ is None:\n raise ValueError(\"Argument bkx cannot be None\")\n if bkx_ is None:\n raise ValueError(\"Argument bkx may not be None\")\n if bkx_ is not None:\n _bkx_tmp = (ctypes.c_int32 * len(bkx_))(*bkx_)\n else:\n _bkx_tmp = None\n _blx_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and blx_ is not None and len(blx_) != ((last_) - (first_)):\n raise ValueError(\"Array argument blx is not long enough: Is %d, expected %d\" % (len(blx_),((last_) - (first_))))\n if blx_ is None:\n raise ValueError(\"Argument blx cannot be None\")\n if blx_ is None:\n raise ValueError(\"Argument blx may not be None\")\n if isinstance(blx_, numpy.ndarray) and blx_.dtype is numpy.dtype(numpy.float64) and blx_.flags.contiguous:\n _blx_copyarray = False\n _blx_tmp = ctypes.cast(blx_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif blx_ is not None:\n _blx_copyarray = True\n _blx_np_tmp = numpy.zeros(len(blx_),numpy.dtype(numpy.float64))\n _blx_np_tmp[:] = blx_\n assert _blx_np_tmp.flags.contiguous\n _blx_tmp = ctypes.cast(_blx_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _blx_copyarray = False\n _blx_tmp = None\n \n _bux_minlength = ((last_) - (first_))\n if ((last_) - (first_)) > 0 and bux_ is not None and len(bux_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bux is not long enough: Is %d, expected %d\" % (len(bux_),((last_) - (first_))))\n if bux_ is None:\n raise ValueError(\"Argument bux cannot be None\")\n if bux_ is None:\n raise ValueError(\"Argument bux may not be None\")\n if isinstance(bux_, numpy.ndarray) and bux_.dtype is numpy.dtype(numpy.float64) and bux_.flags.contiguous:\n _bux_copyarray = False\n _bux_tmp = ctypes.cast(bux_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif bux_ is not None:\n _bux_copyarray = True\n _bux_np_tmp = numpy.zeros(len(bux_),numpy.dtype(numpy.float64))\n _bux_np_tmp[:] = bux_\n assert _bux_np_tmp.flags.contiguous\n _bux_tmp = ctypes.cast(_bux_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _bux_copyarray = False\n _bux_tmp = None\n \n res = __library__.MSK_XX_putvarboundslice(self.__nativep,first_,last_,_bkx_tmp,_blx_tmp,_bux_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconbound(self,i_,bk_,bl_,bu_): # 3\n if not isinstance(bk_,boundkey): raise TypeError(\"Argument bk has wrong type\")\n res = self.__obj.putconbound(i_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putvarboundslice(self,first_,last_,bk,bl,bu): # 3\n if bk is None: raise TypeError(\"Invalid type for argument bk\")\n if bk is None:\n bk_ = None\n else:\n try:\n bk_ = memoryview(bk)\n except TypeError:\n try:\n _tmparr_bk = array.array(\"i\",bk)\n except TypeError:\n raise TypeError(\"Argument bk has wrong type\")\n else:\n bk_ = memoryview(_tmparr_bk)\n \n else:\n if bk_.format != \"i\":\n bk_ = memoryview(array.array(\"i\",bk))\n \n if bk_ is not None and len(bk_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bk has wrong length\")\n if bl is None: raise TypeError(\"Invalid type for argument bl\")\n if bl is None:\n bl_ = None\n else:\n try:\n bl_ = memoryview(bl)\n except TypeError:\n try:\n _tmparr_bl = array.array(\"d\",bl)\n except TypeError:\n raise TypeError(\"Argument bl has wrong type\")\n else:\n bl_ = memoryview(_tmparr_bl)\n \n else:\n if bl_.format != \"d\":\n bl_ = memoryview(array.array(\"d\",bl))\n \n if bl_ is not None and len(bl_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bl has wrong length\")\n if bu is None: raise TypeError(\"Invalid type for argument bu\")\n if bu is None:\n bu_ = None\n else:\n try:\n bu_ = memoryview(bu)\n except TypeError:\n try:\n _tmparr_bu = array.array(\"d\",bu)\n except TypeError:\n raise TypeError(\"Argument bu has wrong type\")\n else:\n bu_ = memoryview(_tmparr_bu)\n \n else:\n if bu_.format != \"d\":\n bu_ = memoryview(array.array(\"d\",bu))\n \n if bu_ is not None and len(bu_) != ((last_) - (first_)):\n raise ValueError(\"Array argument bu has wrong length\")\n res = self.__obj.putvarboundslice(first_,last_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def apply_bound(x, var_min, var_max):\n x.position = np.maximum(x.position, var_min)\n x.position = np.minimum(x.position, var_max)", "def getvarbound(self,i_):\n bk_ = ctypes.c_int32()\n bl_ = ctypes.c_double()\n bu_ = ctypes.c_double()\n res = __library__.MSK_XX_getvarbound(self.__nativep,i_,ctypes.byref(bk_),ctypes.byref(bl_),ctypes.byref(bu_))\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _bk_return_value = boundkey(bk_.value)\n bl_ = bl_.value\n _bl_return_value = bl_\n bu_ = bu_.value\n _bu_return_value = bu_\n return (_bk_return_value,_bl_return_value,_bu_return_value)", "def getvarbound(self,i_): # 3\n res,resargs = self.__obj.getvarbound(i_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)\n _bk_return_value,_bl_return_value,_bu_return_value = resargs\n _bk_return_value = boundkey(_bk_return_value)\n return _bk_return_value,_bl_return_value,_bu_return_value", "def putbarxj(self,whichsol_,j_,barxj_):\n _barxj_minlength = self.getlenbarvarj((j_))\n if self.getlenbarvarj((j_)) > 0 and barxj_ is not None and len(barxj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barxj is not long enough: Is %d, expected %d\" % (len(barxj_),self.getlenbarvarj((j_))))\n if barxj_ is None:\n raise ValueError(\"Argument barxj cannot be None\")\n if barxj_ is None:\n raise ValueError(\"Argument barxj may not be None\")\n if isinstance(barxj_, numpy.ndarray) and barxj_.dtype is numpy.dtype(numpy.float64) and barxj_.flags.contiguous:\n _barxj_copyarray = False\n _barxj_tmp = ctypes.cast(barxj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif barxj_ is not None:\n _barxj_copyarray = True\n _barxj_np_tmp = numpy.zeros(len(barxj_),numpy.dtype(numpy.float64))\n _barxj_np_tmp[:] = barxj_\n assert _barxj_np_tmp.flags.contiguous\n _barxj_tmp = ctypes.cast(_barxj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _barxj_copyarray = False\n _barxj_tmp = None\n \n res = __library__.MSK_XX_putbarxj(self.__nativep,whichsol_,j_,_barxj_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbound(self,accmode_,i_,bk_,bl_,bu_): # 3\n if not isinstance(accmode_,accmode): raise TypeError(\"Argument accmode has wrong type\")\n if not isinstance(bk_,boundkey): raise TypeError(\"Argument bk has wrong type\")\n res = self.__obj.putbound(accmode_,i_,bk_,bl_,bu_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def set_bounds_atom(self,bounds):\n assert bounds.shape == (2,self.Phi.d)\n self.bounds = bounds # data bounds\n self.bounds_atom = bounds.T.tolist()\n for i in range(self.Phi.d): # bounds for the variance in each dimension\n max_variance_this_dimension = (bounds[1][i]-bounds[0][i])**2\n self.bounds_atom.append([self.variance_relative_lowerbound*max_variance_this_dimension,\n self.variance_relative_upperbound*max_variance_this_dimension])", "def _manage_infinity_bounds(problem, _bounds, get_bound, set_bound):\n for variable in problem.variables:\n expr_bounds = get_bound(variable)\n lower_bound = expr_bounds.lower_bound\n upper_bound = expr_bounds.upper_bound\n\n if is_inf(lower_bound):\n new_lower_bound = None\n else:\n new_lower_bound = lower_bound\n\n if is_inf(upper_bound):\n new_upper_bound = None\n else:\n new_upper_bound = upper_bound\n\n set_bound(variable, Interval(new_lower_bound, new_upper_bound))", "def bounds(self, pos):", "def putbarxj(self,whichsol_,j_,barxj): # 3\n if not isinstance(whichsol_,soltype): raise TypeError(\"Argument whichsol has wrong type\")\n if barxj is None: raise TypeError(\"Invalid type for argument barxj\")\n if barxj is None:\n barxj_ = None\n else:\n try:\n barxj_ = memoryview(barxj)\n except TypeError:\n try:\n _tmparr_barxj = array.array(\"d\",barxj)\n except TypeError:\n raise TypeError(\"Argument barxj has wrong type\")\n else:\n barxj_ = memoryview(_tmparr_barxj)\n \n else:\n if barxj_.format != \"d\":\n barxj_ = memoryview(array.array(\"d\",barxj))\n \n if barxj_ is not None and len(barxj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barxj has wrong length\")\n res = self.__obj.putbarxj(whichsol_,j_,barxj_)\n if res != 0:\n result,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def set_bounds(self, new_bounds):\n\n # Update the internal object stored dict\n self.pbounds.update(new_bounds)\n\n # Loop through the all bounds and reset the min-max bound matrix\n for row, key in enumerate(self.pbounds.keys()):\n\n # Reset all entries, even if the same.\n self.bounds[row] = self.pbounds[key]", "def incBound(self):\n # increment the bound for the local variables.\n self.incVariableList()\n super().incBound()\n\n # get the last variable.\n idx = len(self.stateNormalPath) - 1\n assert(idx > 0)\n\n # we add the constraints that specify the id of the transition\n self.addConstraintOnIdTransition(idx)", "def putvarsolutionj(self,j_,whichsol_,sk_,x_,sl_,su_,sn_):\n res = __library__.MSK_XX_putvarsolutionj(self.__nativep,j_,whichsol_,sk_,x_,sl_,su_,sn_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putconbound(self,i_,bkc_,blc_,buc_):\n res = __library__.MSK_XX_putconbound(self.__nativep,i_,bkc_,blc_,buc_)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def putbarsj(self,whichsol_,j_,barsj_):\n _barsj_minlength = self.getlenbarvarj((j_))\n if self.getlenbarvarj((j_)) > 0 and barsj_ is not None and len(barsj_) != self.getlenbarvarj((j_)):\n raise ValueError(\"Array argument barsj is not long enough: Is %d, expected %d\" % (len(barsj_),self.getlenbarvarj((j_))))\n if barsj_ is None:\n raise ValueError(\"Argument barsj cannot be None\")\n if barsj_ is None:\n raise ValueError(\"Argument barsj may not be None\")\n if isinstance(barsj_, numpy.ndarray) and barsj_.dtype is numpy.dtype(numpy.float64) and barsj_.flags.contiguous:\n _barsj_copyarray = False\n _barsj_tmp = ctypes.cast(barsj_.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n elif barsj_ is not None:\n _barsj_copyarray = True\n _barsj_np_tmp = numpy.zeros(len(barsj_),numpy.dtype(numpy.float64))\n _barsj_np_tmp[:] = barsj_\n assert _barsj_np_tmp.flags.contiguous\n _barsj_tmp = ctypes.cast(_barsj_np_tmp.ctypes._as_parameter_,ctypes.POINTER(ctypes.c_double))\n else:\n _barsj_copyarray = False\n _barsj_tmp = None\n \n res = __library__.MSK_XX_putbarsj(self.__nativep,whichsol_,j_,_barsj_tmp)\n if res != 0:\n _,msg = self.__getlasterror(res)\n raise Error(rescode(res),msg)", "def set_bounds_atom(self,bounds):\n assert bounds.shape == (2,self.Phi.d)\n self.bounds = bounds # data bounds\n self.bounds_atom = bounds.T.tolist()", "def set_bounds_atom(self,bounds):\n self.bounds = bounds # data bounds\n raise NotImplementedError\n self.bounds_atom = None\n return None", "def extend_bounds(problem):\n\n num_vars = problem[\"num_vars\"]\n num_ff_vars = 2 ** find_smallest(num_vars)\n num_dummy_variables = num_ff_vars - num_vars\n\n bounds = list(problem[\"bounds\"])\n names = problem[\"names\"]\n if num_dummy_variables > 0:\n bounds.extend([[0, 1] for x in range(num_dummy_variables)])\n names.extend([\"dummy_\" + str(var) for var in range(num_dummy_variables)])\n problem[\"bounds\"] = bounds\n problem[\"names\"] = names\n problem[\"num_vars\"] = num_ff_vars\n\n return problem", "def _initialize_bounds(problem, bounds, get_bound, set_bound):\n for constraint in problem.constraints:\n root_expr = constraint.root_expr\n expr_bounds = Interval(constraint.lower_bound, constraint.upper_bound)\n if root_expr not in bounds:\n set_bound(root_expr, expr_bounds)\n else:\n existing_bounds = get_bound(root_expr)\n new_bounds = existing_bounds.intersect(expr_bounds)\n set_bound(root_expr, new_bounds)", "def set_bc(self, problem):\n bcs = problem.bcs\n n_bound = cfg.const['N_GHOST_CELLS']\n # Left X-b.c.\n for i in range(0, self.i_min):\n for j in range(self.j_min, self.j_max):\n for k in range(self.k_min, self.k_max): \n if bcs[0] == 't': \n self.U[i][j][k] = self.U[self.i_min][j][k]\n elif bcs[0] == 'w':\n for num in [0, 2, 3, 4]: # 0 -> 3, 1 -> 2, i_min-1 -> i_min, i_min-2 -> i_min+1\n self.U[i][j][k][num] = self.U[self.i_min + (self.i_min - i - 1)][j][k][num]\n for num in [1]:\n self.U[i][j][k][num] = - self.U[self.i_min + (self.i_min - i - 1)][j][k][num]\n else:\n print(\"Errof field.set_ics(): only wall-type and transmissive boundaries supported! Bye!\")\n # Right X-b.c.\n for i in range(self.i_max, self.i_max+n_bound):\n for j in range(self.j_min, self.j_max):\n for k in range(self.k_min, self.k_max): \n if bcs[1] == 't':\n self.U[i][j][k] = self.U[self.i_max-1][j][k]\n elif bcs[1] == 'w':\n for num in [0, 2, 3, 4]: # i_max -> i_max-1 , i_max+1-> i_max-2\n self.U[i][j][k][num] = self.U[self.i_max - (i - self.i_max + 1)][j][k][num]\n for num in [1]:\n self.U[i][j][k][num] = - self.U[self.i_max - (i - self.i_max + 1)][j][k][num]\n else:\n print(\"Error field.set_ics(): only wall-type and transmissive boundaries supported! Bye!\")\n # Left Y-b.c.\n for i in range(0, self.i_max+n_bound):\n for j in range(0, self.j_min):\n for k in range(self.k_min, self.k_max): \n if bcs[2] == 't':\n self.U[i][j][k] = self.U[i][self.j_min][k]\n elif bcs[2] == 'w':\n for num in [0, 1, 3, 4]:\n self.U[i][j][k][num] = self.U[i][self.j_min + (self.j_min - j - 1)][k][num]\n for num in [2]:\n self.U[i][j][k][num] = - self.U[i][self.j_min + (self.j_min - j - 1)][k][num]\n else:\n print(\"Error field.set_ics(): only wall-type and transmissive boundaries supported! Bye!\")\n # Right Y-b.c.\n for i in range(0, self.i_max+n_bound):\n for j in range(self.j_max, self.j_max+n_bound):\n for k in range(self.k_min, self.k_max): \n if bcs[3] == 't':\n self.U[i][j][k] = self.U[i][self.j_max-1][k]\n elif bcs[3] == 'w':\n for num in [0, 1, 3, 4]:\n self.U[i][j][k][num] = self.U[i][self.j_max - (j - self.j_max + 1)][k][num]\n for num in [2]:\n self.U[i][j][k][num] = -self.U[i][self.j_max - (j - self.j_max + 1)][k][num]\n else:\n print(\"Error field.set_ics(): only wall-type and transmissive boundaries supported! Bye!\")\n # Left Z-b.c.\n for i in range(0, self.i_max+n_bound):\n for j in range(0, self.j_max+n_bound):\n for k in range(0, self.k_min): \n if bcs[4] == 't':\n self.U[i][j][k] = self.U[i][j][self.k_min]\n elif bcs[4] == 'w':\n for num in [0, 1, 2, 4]:\n self.U[i][j][k][num] = self.U[i][j][self.k_min + (self.k_min - k - 1)][num]\n for num in [3]:\n self.U[i][j][k][num] = - self.U[i][j][self.k_min + (self.k_min - k - 1)][num]\n else:\n print(\"Error field.set_ics(): only wall-type and transmissive boundaries supported! Bye!\")\n # Right Z-b.c.\n for i in range(0, self.i_max+n_bound):\n for j in range(0, self.j_max+n_bound):\n for k in range(self.k_max, self.k_max+n_bound):\n if bcs[5] == 't':\n self.U[i][j][k] = self.U[i][j][self.k_max-1]\n elif bcs[5] == 'w':\n for num in [0, 1, 2, 4]:\n self.U[i][j][k][num] = self.U[i][j][self.k_max - (k - self.k_max + 1)][num]\n for num in [3]:\n self.U[i][j][k][num] = - self.U[i][j][self.k_max - (k - self.k_max + 1)][num]\n else:\n print(\"Error field.set_ics(): only wall-type and transmissive boundaries supported! Bye!\")", "def cb_bounds(self, variable, results_dict, keys, fixed_bounds):\n tas_bound, pr_bound = fixed_bounds\n if variable == \"tas\":\n if tas_bound:\n bound_limit = tas_bound\n else:\n bound_limit = self.find_abs_bound_range(results_dict, keys)\n cmap = plt.cm.RdBu_r\n else:\n if pr_bound:\n bound_limit = pr_bound\n else:\n bound_limit = self.find_abs_bound_range(results_dict,\n keys,\n avg_over=25)\n cmap = plt.cm.BrBG\n bounds = np.linspace(-1 * bound_limit, bound_limit, 11)\n return [bounds, cmap]" ]

[ "0.83352685", "0.77197856", "0.7631901", "0.69681317", "0.6884526", "0.660315", "0.65222496", "0.6383775", "0.63717395", "0.62624204", "0.62609136", "0.62328184", "0.6203693", "0.6166688", "0.6145063", "0.5939188", "0.5806258", "0.57605875", "0.57412565", "0.5724231", "0.568421", "0.56697506", "0.56635755", "0.5646899", "0.5644192", "0.5642002", "0.55735904", "0.5531189", "0.5519568", "0.55047727" ]