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"""
Rules for building C/API module with f2py2e.
Copyright 1999 -- 2011 Pearu Peterson all rights reserved.
Copyright 2011 -- present NumPy Developers.
Permission to use, modify, and distribute this software is given under the
terms of the NumPy License.
NO WARRANTY IS EXPRESSED OR IMPLIED. USE AT YOUR OWN RISK.
"""
import copy
from .auxfuncs import (
getfortranname, isexternal, isfunction, isfunction_wrap, isintent_in,
isintent_out, islogicalfunction, ismoduleroutine, isscalar,
issubroutine, issubroutine_wrap, outmess, show
)
from ._isocbind import isoc_kindmap
def var2fixfortran(vars, a, fa=None, f90mode=None):
if fa is None:
fa = a
if a not in vars:
show(vars)
outmess('var2fixfortran: No definition for argument "%s".\n' % a)
return ''
if 'typespec' not in vars[a]:
show(vars[a])
outmess('var2fixfortran: No typespec for argument "%s".\n' % a)
return ''
vardef = vars[a]['typespec']
if vardef == 'type' and 'typename' in vars[a]:
vardef = '%s(%s)' % (vardef, vars[a]['typename'])
selector = {}
lk = ''
if 'kindselector' in vars[a]:
selector = vars[a]['kindselector']
lk = 'kind'
elif 'charselector' in vars[a]:
selector = vars[a]['charselector']
lk = 'len'
if '*' in selector:
if f90mode:
if selector['*'] in ['*', ':', '(*)']:
vardef = '%s(len=*)' % (vardef)
else:
vardef = '%s(%s=%s)' % (vardef, lk, selector['*'])
else:
if selector['*'] in ['*', ':']:
vardef = '%s*(%s)' % (vardef, selector['*'])
else:
vardef = '%s*%s' % (vardef, selector['*'])
else:
if 'len' in selector:
vardef = '%s(len=%s' % (vardef, selector['len'])
if 'kind' in selector:
vardef = '%s,kind=%s)' % (vardef, selector['kind'])
else:
vardef = '%s)' % (vardef)
elif 'kind' in selector:
vardef = '%s(kind=%s)' % (vardef, selector['kind'])
vardef = '%s %s' % (vardef, fa)
if 'dimension' in vars[a]:
vardef = '%s(%s)' % (vardef, ','.join(vars[a]['dimension']))
return vardef
def useiso_c_binding(rout):
useisoc = False
for key, value in rout['vars'].items():
kind_value = value.get('kindselector', {}).get('kind')
if kind_value in isoc_kindmap:
return True
return useisoc
def createfuncwrapper(rout, signature=0):
assert isfunction(rout)
extra_args = []
vars = rout['vars']
for a in rout['args']:
v = rout['vars'][a]
for i, d in enumerate(v.get('dimension', [])):
if d == ':':
dn = 'f2py_%s_d%s' % (a, i)
dv = dict(typespec='integer', intent=['hide'])
dv['='] = 'shape(%s, %s)' % (a, i)
extra_args.append(dn)
vars[dn] = dv
v['dimension'][i] = dn
rout['args'].extend(extra_args)
need_interface = bool(extra_args)
ret = ['']
def add(line, ret=ret):
ret[0] = '%s\n %s' % (ret[0], line)
name = rout['name']
fortranname = getfortranname(rout)
f90mode = ismoduleroutine(rout)
newname = '%sf2pywrap' % (name)
if newname not in vars:
vars[newname] = vars[name]
args = [newname] + rout['args'][1:]
else:
args = [newname] + rout['args']
l_tmpl = var2fixfortran(vars, name, '@@@NAME@@@', f90mode)
if l_tmpl[:13] == 'character*(*)':
if f90mode:
l_tmpl = 'character(len=10)' + l_tmpl[13:]
else:
l_tmpl = 'character*10' + l_tmpl[13:]
charselect = vars[name]['charselector']
if charselect.get('*', '') == '(*)':
charselect['*'] = '10'
l1 = l_tmpl.replace('@@@NAME@@@', newname)
rl = None
useisoc = useiso_c_binding(rout)
sargs = ', '.join(args)
if f90mode:
# gh-23598 fix warning
# Essentially, this gets called again with modules where the name of the
# function is added to the arguments, which is not required, and removed
sargs = sargs.replace(f"{name}, ", '')
args = [arg for arg in args if arg != name]
rout['args'] = args
add('subroutine f2pywrap_%s_%s (%s)' %
(rout['modulename'], name, sargs))
if not signature:
add('use %s, only : %s' % (rout['modulename'], fortranname))
if useisoc:
add('use iso_c_binding')
else:
add('subroutine f2pywrap%s (%s)' % (name, sargs))
if useisoc:
add('use iso_c_binding')
if not need_interface:
add('external %s' % (fortranname))
rl = l_tmpl.replace('@@@NAME@@@', '') + ' ' + fortranname
if need_interface:
for line in rout['saved_interface'].split('\n'):
if line.lstrip().startswith('use ') and '__user__' not in line:
add(line)
args = args[1:]
dumped_args = []
for a in args:
if isexternal(vars[a]):
add('external %s' % (a))
dumped_args.append(a)
for a in args:
if a in dumped_args:
continue
if isscalar(vars[a]):
add(var2fixfortran(vars, a, f90mode=f90mode))
dumped_args.append(a)
for a in args:
if a in dumped_args:
continue
if isintent_in(vars[a]):
add(var2fixfortran(vars, a, f90mode=f90mode))
dumped_args.append(a)
for a in args:
if a in dumped_args:
continue
add(var2fixfortran(vars, a, f90mode=f90mode))
add(l1)
if rl is not None:
add(rl)
if need_interface:
if f90mode:
# f90 module already defines needed interface
pass
else:
add('interface')
add(rout['saved_interface'].lstrip())
add('end interface')
sargs = ', '.join([a for a in args if a not in extra_args])
if not signature:
if islogicalfunction(rout):
add('%s = .not.(.not.%s(%s))' % (newname, fortranname, sargs))
else:
add('%s = %s(%s)' % (newname, fortranname, sargs))
if f90mode:
add('end subroutine f2pywrap_%s_%s' % (rout['modulename'], name))
else:
add('end')
return ret[0]
def createsubrwrapper(rout, signature=0):
assert issubroutine(rout)
extra_args = []
vars = rout['vars']
for a in rout['args']:
v = rout['vars'][a]
for i, d in enumerate(v.get('dimension', [])):
if d == ':':
dn = 'f2py_%s_d%s' % (a, i)
dv = dict(typespec='integer', intent=['hide'])
dv['='] = 'shape(%s, %s)' % (a, i)
extra_args.append(dn)
vars[dn] = dv
v['dimension'][i] = dn
rout['args'].extend(extra_args)
need_interface = bool(extra_args)
ret = ['']
def add(line, ret=ret):
ret[0] = '%s\n %s' % (ret[0], line)
name = rout['name']
fortranname = getfortranname(rout)
f90mode = ismoduleroutine(rout)
args = rout['args']
useisoc = useiso_c_binding(rout)
sargs = ', '.join(args)
if f90mode:
add('subroutine f2pywrap_%s_%s (%s)' %
(rout['modulename'], name, sargs))
if useisoc:
add('use iso_c_binding')
if not signature:
add('use %s, only : %s' % (rout['modulename'], fortranname))
else:
add('subroutine f2pywrap%s (%s)' % (name, sargs))
if useisoc:
add('use iso_c_binding')
if not need_interface:
add('external %s' % (fortranname))
if need_interface:
for line in rout['saved_interface'].split('\n'):
if line.lstrip().startswith('use ') and '__user__' not in line:
add(line)
dumped_args = []
for a in args:
if isexternal(vars[a]):
add('external %s' % (a))
dumped_args.append(a)
for a in args:
if a in dumped_args:
continue
if isscalar(vars[a]):
add(var2fixfortran(vars, a, f90mode=f90mode))
dumped_args.append(a)
for a in args:
if a in dumped_args:
continue
add(var2fixfortran(vars, a, f90mode=f90mode))
if need_interface:
if f90mode:
# f90 module already defines needed interface
pass
else:
add('interface')
for line in rout['saved_interface'].split('\n'):
if line.lstrip().startswith('use ') and '__user__' in line:
continue
add(line)
add('end interface')
sargs = ', '.join([a for a in args if a not in extra_args])
if not signature:
add('call %s(%s)' % (fortranname, sargs))
if f90mode:
add('end subroutine f2pywrap_%s_%s' % (rout['modulename'], name))
else:
add('end')
return ret[0]
def assubr(rout):
if isfunction_wrap(rout):
fortranname = getfortranname(rout)
name = rout['name']
outmess('\t\tCreating wrapper for Fortran function "%s"("%s")...\n' % (
name, fortranname))
rout = copy.copy(rout)
fname = name
rname = fname
if 'result' in rout:
rname = rout['result']
rout['vars'][fname] = rout['vars'][rname]
fvar = rout['vars'][fname]
if not isintent_out(fvar):
if 'intent' not in fvar:
fvar['intent'] = []
fvar['intent'].append('out')
flag = 1
for i in fvar['intent']:
if i.startswith('out='):
flag = 0
break
if flag:
fvar['intent'].append('out=%s' % (rname))
rout['args'][:] = [fname] + rout['args']
return rout, createfuncwrapper(rout)
if issubroutine_wrap(rout):
fortranname = getfortranname(rout)
name = rout['name']
outmess('\t\tCreating wrapper for Fortran subroutine "%s"("%s")...\n'
% (name, fortranname))
rout = copy.copy(rout)
return rout, createsubrwrapper(rout)
return rout, ''
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