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Implementing get all rows of specific column from vendor price lists grid functionality | def get_all_rows_of_specific_column_from_vendor_price_lists_grid(self, column_name):
self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.view_price_list_div_id, column_name, self.get_grid_row_count(self.price_lists_grid_row_count_span_locator, 7))
return self.all_row_data | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def get_all_rows_of_specific_column_from_vendor_price_list_detail_grid(self, column_name):\n self.wait_for_ajax_spinner_load(300)\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.vendor_price_list_detail_rates_grid_div_id, column_name)\n return self.all_row_data",
"def get_all_rows_of_rate_column_from_vendor_price_list_detail_grid(self, column_name):\n self.wait_for_ajax_spinner_load()\n self.all_row_data = self.get_all_rows_of_specific_column_only_from_vendor_price_list_detail_grid(self.vendor_price_list_detail_rates_grid_div_id, column_name)\n return self.all_row_data",
"def get_all_rows_of_specific_column_from_vendor_price_list_detail_dial_digits_grid(self, column_name):\n self.wait_for_ajax_spinner_load(300)\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.vendor_price_list_detail_dial_digits_grid_div_id, column_name)\n return self.all_row_data",
"def get_all_rows_of_rate_increase_violation_column_from_vendor_price_list_detail_grid(self, column_name):\n self.all_row_data = []\n self.wait_for_ajax_spinner_load()\n row_count = len(self.wait().until(EC.presence_of_all_elements_located(self.vendor_price_list_detail_row_locator), 'vendor price list details row element locator not found before specified time'))\n next_page = False\n column_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::th[@data-title='%s']\" % (self.vendor_price_list_detail_rates_grid_div_id, column_name))\n column_element = self.wait().until(EC.presence_of_element_located(column_locator), 'column locator not found before specified time out')\n column_index = int(column_element.get_attribute(\"data-index\")) + 1\n row = 1\n try:\n while row < row_count + 1:\n column_value_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::div[@class='k-grid-content']/descendant::tbody[@role='rowgroup']/tr[%s]/td[%s]\" % (self.vendor_price_list_detail_rates_grid_div_id, row, str(column_index)))\n column_value_element = self.wait(10).until(EC.presence_of_element_located(column_value_locator), 'column value locator not found before specified time out')\n column_value = str(column_value_element.get_attribute(\"innerHTML\"))\n if column_value not in self.all_row_data:\n self.all_row_data.append(column_value)\n else:\n row_count += 1\n if row % 50 == 0:\n next_page = True\n next_page_button_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-arrow-e']\" % self.vendor_price_list_detail_rates_grid_div_id)\n self.click_element(next_page_button_locator, True)\n row = 0\n row_count -= 50\n row += 1\n except WebDriverException:\n pass\n if next_page is True:\n first_page_button_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-seek-w']\" % self.vendor_price_list_detail_rates_grid_div_id)\n self.click_element(first_page_button_locator, True)\n return self.all_row_data",
"def get_all_rows_of_specific_column_only_from_vendor_price_list_detail_grid(self, div_id, column_name):\n row_count = len(self.wait().until(EC.presence_of_all_elements_located(self.vendor_price_list_detail_row_locator), 'vendor price list details row element locator not found before specified time'))\n all_row_data = []\n next_page = False\n column_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::th[@data-title='%s']\" % (div_id, column_name))\n column_element = self.wait().until(EC.presence_of_element_located(column_locator), 'column locator not found before specified time out')\n column_index = int(column_element.get_attribute(\"data-index\")) + 1\n row = 1\n try:\n while row < row_count+1:\n column_value_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::div[@class='k-grid-content']/descendant::tbody[@role='rowgroup']/tr[%s]/td[%s]/descendant::td\" % (div_id, row, str(column_index)))\n column_value_element = self.wait(10).until(EC.presence_of_element_located(column_value_locator), 'column value locator not found before specified time out')\n column_value = str(column_value_element.get_attribute(\"innerHTML\"))\n if column_value not in all_row_data:\n all_row_data.append(column_value)\n else:\n row_count += 1\n if row % 50 == 0:\n next_page = True\n next_page_button_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-arrow-e']\" % div_id)\n self.click_element(next_page_button_locator, True)\n row = 0\n row_count -= 50\n row += 1\n except WebDriverException:\n pass\n if next_page is True:\n first_page_button_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-seek-w']\" % div_id)\n self.click_element(first_page_button_locator, True)\n return all_row_data",
"def get_all_rows_of_specific_column_from_vendor_price_list_detail_reference_rates_grid(self, column_name):\n self.wait_for_ajax_spinner_load(300)\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.vendor_price_list_detail_reference_rates_grid_div_id, column_name)\n return self.all_row_data",
"def get_vendor_price_list_detail_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_rates_grid_div_id)\n return self.column_name_list",
"def get_vendor_price_list_detail_dial_digits_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_dial_digits_grid_div_id)\n return self.column_name_list",
"def get_first_row_item_from_price_lists_grid(self, column_name):\n column_locator = (By.XPATH, \"//div[@id='%s']/descendant::th[@data-title='%s']\" % (self.vendor_price_list_grid_div_id, column_name))\n column_element = self.wait().until(EC.presence_of_element_located(column_locator), 'column locator not found before specified time out')\n column_index = int(column_element.get_attribute(\"data-index\")) + 1\n column_value_locator = (By.XPATH, \"//div[@id='%s']/descendant::tbody/descendant::tr[1]/td[%s]/span\" % (self.vendor_price_list_grid_div_id, str(column_index)))\n column_value_element = self.wait().until(EC.presence_of_element_located(column_value_locator), 'column value locator not found before specified time out')\n return column_value_element.text",
"def get_vendor_price_lists_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.view_price_list_div_id)\n return self.column_name_list",
"def get_vendor_price_list_detail_reference_rates_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_reference_rates_grid_div_id)\n return self.column_name_list",
"def get_last_price_list_from_vendors_grid(self):\n return self.get_specific_column_value_from_grid(self.vendors_div_id, self.vendors_grid_row_count, self.last_price_list_column_name, self.vendors_data_grid_name)",
"def get_all_rows_of_specific_column_from_vendors_grid(self, column_name):\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.vendors_div_id, column_name, self.get_grid_row_count(self.vendors_grid_row_count_span_locator, 5))\n return self.all_row_data",
"def get_vendor_price_lists_details(self):\n try:\n self.vendor_price_lists_dict = self.get_grid_row_details(self.customer_price_list_grid_div_id, self.vendor_price_lists_dict)\n return True\n except:\n return False",
"def get_all_rows_of_specific_column_from_buy_and_sell_management_grid(self, column_name):\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.buy_and_sell_management_grid_div_id, column_name, self.get_grid_row_count(self.buy_and_sell_management_grid_count_span_locator, 2))\n return self.all_row_data",
"def select_vendor_price_list_grid_row_checkbox(self):\n for row in range(0,2):\n column_locator = (By.XPATH, \"//div[@id='%s']/descendant::th[@data-title='%s']\" % (self.vendor_price_list_grid_div_id, self.price_list_column_name))\n column_element = self.wait().until(EC.presence_of_element_located(column_locator), 'column locator not found before specified time out')\n column_index = int(column_element.get_attribute(\"data-index\")) + 1\n column_value_locator = (By.XPATH, \"//div[@id='%s']/descendant::tbody/descendant::tr[%s]/td[%s]/span\" % (self.vendor_price_list_grid_div_id, (row + 1), str(column_index)))\n column_value_element = self.wait().until(EC.presence_of_element_located(column_value_locator), 'column value locator not found before specified time out')\n price_list_item = column_value_element.text\n self.compare_price_lists_list.append(price_list_item)\n self.select_grid_row_checkbox(self.customer_price_list_grid_div_id, price_list_item, self.select_grid_row_checkbox_column_number)",
"def get_vendor_price_lists_number_of_rows_from_grid(self):\n self.number_of_rows = int(self.get_number_of_rows_from_grid(self.vendors_price_lists_grid_div_bar_id))",
"def get_product_list_grid(self):\n product_list = WebDriverWait(self.driver, self.search_module_wait_time).until(EC.visibility_of_element_located(self.PRODUCT_LIST_GRID))\n return product_list",
"def get_all_rows_of_specific_column_from_rates_grid(self, column_name):\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.rates_grid_div_id, column_name, self.get_grid_row_count(self.rates_grid_row_count_span_locator, 1))\n return self.all_row_data",
"def rosterRowData(self):",
"def get_list_columns(self):\n columns = super(InventoryTransactionAdmin, self).get_list_columns()\n cols = ['total_amount']\n columns = security_util.filter_columns_by_role(\n columns, cols, 'purchase_price_view'\n )\n return columns",
"def _select_data(\n self, db: str, table: str, column_filters: Dict[str, str]\n ) -> List[List]:\n pass",
"def return_items(self):\n cur = self.cursor\n cur.execute(f\"SELECT * FROM {self.product_name}\")\n products = cur.fetchall()\n return products",
"def click_vendor_price_list_grid_first_row_inline_action_button(self):\n self.click_inline_action_button(self.vendor_price_list_grid_div_id, None, self.view_price_list_column_number, True)",
"def get_price_list_date_column_value(self):\n self.price_lists_grid_row_count = int(self.get_grid_row_count(self.price_lists_grid_row_count_span_locator, 7))\n return self.get_specific_column_value_from_grid(self.vendor_price_list_grid_div_id, self.price_lists_grid_row_count, self.price_list_date_column_name)",
"def _get_rows(self):\n rows = []\n for row in self.plate_meta['rows']:\n rows.append(row['name'])\n self.rows = rows",
"def row(self, row: int) -> list:\n index_start = row * 9\n return self.grid[index_start:index_start+9]",
"def drag_vendor_price_lists_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.view_price_list_div_id, source_column, destination_column)",
"def get_rows(self):\n raise NotImplementedError('Subclass this to make the rows')",
"def rows(self) -> java.util.Collection:\n ..."
] | [
"0.7216544",
"0.7032862",
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"0.6907922",
"0.6892691",
"0.66821855",
"0.65655655",
"0.65174514",
"0.63832736",
"0.6351889",
"0.62843597",
"0.6260957",
"0.62045294",
"0.61592877",
"0.61406446",
"0.6106914",
"0.6007138",
"0.58296263",
"0.579189",
"0.5570609",
"0.55536133",
"0.55010766",
"0.54987854",
"0.5493185",
"0.54710984",
"0.5458681",
"0.5423831",
"0.54051083",
"0.5374984",
"0.5373538"
] | 0.7539829 | 0 |
Implementing drag vendor price lists grid column functionality | def drag_vendor_price_lists_grid_column(self, source_column, destination_column):
self.drag_grid_column(self.view_price_list_div_id, source_column, destination_column) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def drag_vendor_price_list_detail_grid_column(self, source_column, destination_column):\n self.wait_for_ajax_spinner_load(300)\n self.drag_grid_column(self.vendor_price_list_detail_rates_grid_div_id, source_column, destination_column)",
"def drag_vendor_price_list_detail_dial_digits_grid_column(self, source_column, destination_column):\n self.wait_for_ajax_spinner_load(300)\n self.drag_grid_column(self.vendor_price_list_detail_dial_digits_grid_div_id, source_column, destination_column)",
"def drag_vendor_price_list_detail_reference_rates_grid_column(self, source_column, destination_column):\n self.wait_for_ajax_spinner_load(300)\n self.drag_grid_column(self.vendor_price_list_detail_reference_rates_grid_div_id, source_column, destination_column)",
"def drag_vendors_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.vendors_div_id, source_column, destination_column)",
"def drag_buy_and_sell_management_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.buy_and_sell_management_grid_div_id, source_column, destination_column)",
"def drag_rates_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.rates_grid_div_id, source_column, destination_column)",
"def _drag_col(self, event):\n x = self._dx + event.x # get dragged column new left x coordinate\n self._visual_drag.place_configure(x=x) # update column preview position\n # if one border of the dragged column is beyon the middle of the\n # neighboring column, swap them\n if (self._dragged_col_neighbor_widths[0] is not None and\n x < self._dragged_col_x - self._dragged_col_neighbor_widths[0] / 2):\n self._swap_columns('left')\n elif (self._dragged_col_neighbor_widths[1] is not None and\n x > self._dragged_col_x + self._dragged_col_neighbor_widths[1] / 2):\n self._swap_columns('right')\n # horizontal scrolling if the cursor reaches the side of the table\n if x < 0 and self.xview()[0] > 0:\n # scroll left and update dragged column x coordinate\n self.xview_scroll(-10, 'units')\n self._dragged_col_x += 10\n elif x + self._dragged_col_width / 2 > self.winfo_width() and self.xview()[1] < 1:\n # scroll right and update dragged column x coordinate\n self.xview_scroll(10, 'units')\n self._dragged_col_x -= 10",
"def sort_vendor_price_lists_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.view_price_list_div_id, column_name, descending_order)",
"def _start_drag_col(self, event):\n # identify dragged column\n col = self.identify_column(event.x)\n self._dragged_col = ttk.Treeview.column(self, col, 'id')\n # get column width\n self._dragged_col_width = w = ttk.Treeview.column(self, col, 'width')\n # get x coordinate of the left side of the column\n x = event.x\n while self.identify_region(x, event.y) == 'heading':\n # decrease x until reaching the separator\n x -= 1\n x_sep = x\n w_sep = 0\n # determine separator width\n while self.identify_region(x_sep, event.y) == 'separator':\n w_sep += 1\n x_sep -= 1\n if event.x - x <= self._im_drag.width():\n # start dragging if mouse click was on dragging icon\n x = x - w_sep // 2 - 1\n self._dragged_col_x = x\n # get neighboring column widths\n displayed_cols = self._displayed_cols\n self._dragged_col_index = i1 = displayed_cols.index(self._dragged_col)\n if i1 > 0:\n left = ttk.Treeview.column(self, displayed_cols[i1 - 1], 'width')\n else:\n left = None\n if i1 < len(displayed_cols) - 1:\n right = ttk.Treeview.column(self, displayed_cols[i1 + 1], 'width')\n else:\n right = None\n self._dragged_col_neighbor_widths = (left, right)\n self._dx = x - event.x # distance between cursor and column left border\n # configure dragged column preview\n self._visual_drag.column(self._dragged_col, width=w)\n self._visual_drag.configure(displaycolumns=[self._dragged_col])\n if 'headings' in tuple(str(p) for p in self['show']):\n self._visual_drag.configure(show='headings')\n else:\n self._visual_drag.configure(show='')\n self._visual_drag.place(in_=self, x=x, y=0, anchor='nw',\n width=w + 2, relheight=1)\n self._visual_drag.state(('active',))\n self._visual_drag.update_idletasks()\n self._visual_drag.yview_moveto(self.yview()[0])\n else:\n self._dragged_col = None",
"def drag_dialed_digits_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.dialed_digits_grid_div_id, source_column, destination_column)",
"def OnMouse(self, event):\r\n\r\n # we want to work with logical coords\r\n x, dummy = self._owner.CalcUnscrolledPosition(event.GetX(), 0)\r\n y = event.GetY()\r\n\r\n if event.Moving():\r\n \r\n col = self.XToCol(x)\r\n if col != self._hotTrackCol:\r\n \r\n # Refresh the col header so it will be painted with hot tracking\r\n # (if supported by the native renderer.)\r\n self.RefreshColLabel(col)\r\n\r\n # Also refresh the old hot header\r\n if self._hotTrackCol >= 0:\r\n self.RefreshColLabel(self._hotTrackCol)\r\n\r\n self._hotTrackCol = col\r\n \r\n if event.Leaving() and self._hotTrackCol >= 0:\r\n \r\n # Leaving the window so clear any hot tracking indicator that may be present\r\n self.RefreshColLabel(self._hotTrackCol)\r\n self._hotTrackCol = -1\r\n \r\n if self._isDragging:\r\n\r\n self.SendListEvent(wx.wxEVT_COMMAND_LIST_COL_DRAGGING, event.GetPosition())\r\n\r\n # we don't draw the line beyond our window, but we allow dragging it\r\n # there\r\n w, dummy = self.GetClientSize()\r\n w, dummy = self._owner.CalcUnscrolledPosition(w, 0)\r\n w -= 6\r\n\r\n # erase the line if it was drawn\r\n if self._currentX < w:\r\n self.DrawCurrent()\r\n\r\n if event.ButtonUp():\r\n self._isDragging = False\r\n if self.HasCapture():\r\n self.ReleaseMouse()\r\n self._dirty = True\r\n self.SetColumnWidth(self._column, self._currentX - self._minX)\r\n self.Refresh()\r\n self.SendListEvent(wx.wxEVT_COMMAND_LIST_COL_END_DRAG, event.GetPosition())\r\n else:\r\n self._currentX = max(self._minX + 7, x)\r\n\r\n # draw in the new location\r\n if self._currentX < w:\r\n self.DrawCurrent()\r\n \r\n else: # not dragging\r\n\r\n self._minX = 0\r\n hit_border = False\r\n\r\n # end of the current column\r\n xpos = 0\r\n\r\n # find the column where this event occured\r\n countCol = self.GetColumnCount()\r\n\r\n for column in xrange(countCol):\r\n\r\n if not self.IsColumnShown(column):\r\n continue # do next if not shown\r\n\r\n xpos += self.GetColumnWidth(column)\r\n self._column = column\r\n if abs (x-xpos) < 3 and y < 22:\r\n # near the column border\r\n hit_border = True\r\n break\r\n \r\n if x < xpos:\r\n # inside the column\r\n break\r\n \r\n self._minX = xpos\r\n \r\n if event.LeftDown() or event.RightUp():\r\n if hit_border and event.LeftDown():\r\n self._isDragging = True\r\n self.CaptureMouse()\r\n self._currentX = x\r\n self.DrawCurrent()\r\n self.SendListEvent(wx.wxEVT_COMMAND_LIST_COL_BEGIN_DRAG, event.GetPosition())\r\n else: # click on a column\r\n evt = (event.LeftDown() and [wx.wxEVT_COMMAND_LIST_COL_CLICK] or [wx.wxEVT_COMMAND_LIST_COL_RIGHT_CLICK])[0]\r\n self.SendListEvent(evt, event.GetPosition())\r\n \r\n elif event.LeftDClick() and hit_border:\r\n self.SetColumnWidth(self._column, self._owner.GetBestColumnWidth(self._column))\r\n self.Refresh()\r\n\r\n elif event.Moving():\r\n \r\n if hit_border:\r\n setCursor = self._currentCursor == wx.STANDARD_CURSOR\r\n self._currentCursor = self._resizeCursor\r\n else:\r\n setCursor = self._currentCursor != wx.STANDARD_CURSOR\r\n self._currentCursor = wx.STANDARD_CURSOR\r\n \r\n if setCursor:\r\n self.SetCursor(self._currentCursor)",
"def get_vendor_price_lists_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.view_price_list_div_id)\n return self.column_name_list",
"def drag_country_groups_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.country_groups_grid_div_id, source_column, destination_column)",
"def sort_vendor_price_list_detail_grid_column(self, column_name, descending_order):\n self.wait_for_ajax_spinner_load(300)\n self.sort_grid_column(self.vendor_price_list_detail_rates_grid_div_id, column_name, descending_order)",
"def _drag_row(self, event):\n y = self._dy + event.y # get dragged row new upper y coordinate\n self._visual_drag.place_configure(y=y) # update row preview position\n\n if y > self._dragged_row_y:\n # moving downward\n item = self.identify_row(y + self._dragged_row_height)\n if item != '':\n bbox = self.bbox(item)\n if not bbox:\n # the item is not visible so make it visible\n self.see(item)\n self.update_idletasks()\n bbox = self.bbox(item)\n if y > self._dragged_row_y + bbox[3] / 2:\n # the row is beyond half of item, so insert it below\n self._move_dragged_row(item)\n elif item != self.next(self._dragged_row):\n # item is not the lower neighbor of the dragged row so insert the row above\n self._move_dragged_row(self.prev(item))\n elif y < self._dragged_row_y:\n # moving upward\n item = self.identify_row(y)\n if item != '':\n bbox = self.bbox(item)\n if not bbox:\n # the item is not visible so make it visible\n self.see(item)\n self.update_idletasks()\n bbox = self.bbox(item)\n if y < self._dragged_row_y - bbox[3] / 2:\n # the row is beyond half of item, so insert it above\n self._move_dragged_row(item)\n elif item != self.prev(self._dragged_row):\n # item is not the upper neighbor of the dragged row so insert the row below\n self._move_dragged_row(self.next(item))\n self.selection_remove(self._dragged_row)",
"def drag_destinations_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.destinations_grid_div_id, source_column, destination_column)",
"def slider_dragged(self):\n pass",
"def dropEvent(self, e: QtGui.QDropEvent):\n src = e.source()\n if src is not self:\n for item in src.selectedItems():\n clone = item.clone()\n clone.setFlags(clone.flags() | Qt.ItemIsEditable)\n self.addTopLevelItem(clone)\n super().dropEvent(e) # Call the original function",
"def set_vendor_price_lists_grid_settings(self, grid_settings):\n self.set_grid_settings(self.view_price_list_div_id, grid_settings)",
"def get_vendor_price_list_detail_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_rates_grid_div_id)\n return self.column_name_list",
"def get_vendor_price_list_detail_dial_digits_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_dial_digits_grid_div_id)\n return self.column_name_list",
"def drag_re_analysis_detail_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.re_analysis_detail_grid_div_id, source_column, destination_column)",
"def sort_vendor_price_list_detail_dial_digits_grid_column(self, column_name, descending_order):\n self.wait_for_ajax_spinner_load(300)\n self.sort_grid_column(self.vendor_price_list_detail_dial_digits_grid_div_id, column_name, descending_order)",
"def get_vendor_price_lists_details(self):\n try:\n self.vendor_price_lists_dict = self.get_grid_row_details(self.customer_price_list_grid_div_id, self.vendor_price_lists_dict)\n return True\n except:\n return False",
"def click_vendor_price_list_detail_dial_digits_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_dial_digits_grid_div_id)",
"def OnColumnClick(self, event):\r\n columns = self.data.getParam('columns')\r\n self.SortItems(columns[event.GetColumn()],'INVERT')",
"def dragEnterEvent(self, event):",
"def dropEvent(self, QDropEvent):\n srcItems = self.selectedItems()\n dstInd = (self.indexAt(QDropEvent.pos()).row() + 1)\n kbMod = QDropEvent.keyboardModifiers()\n #-- Create New Items --#\n for n, srcItem in enumerate(srcItems):\n itemDict = self.treeParent.getItemDict(srcItem)\n newItem = self.treeParent.on_addVar(index=(dstInd + n))\n self.treeParent.setItem(newItem, **itemDict)\n #-- Remove Items --#\n if not kbMod == QtCore.Qt.ControlModifier:\n for srcItem in srcItems:\n self.takeTopLevelItem(self.indexOfTopLevelItem(srcItem))\n self.treeParent.reindexVar()",
"def get_vendor_price_list_detail_reference_rates_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_reference_rates_grid_div_id)\n return self.column_name_list",
"def change_entries(self, grid_sizer, options, border):\n\n if (self.diag_type is None): return grid_sizer # no data selected, don't change anything\n\n # setup the grid of possible values\n header0 = wx.StaticText(self, -1, \"Add/Remove\")\n header1 = wx.StaticText(self, -1, \"Quantity Code\")\n header2 = wx.StaticText(self, -1, \"Name\")\n header3 = wx.StaticText(self, -1, \"LaTeX Formula\")\n grid_sizer.Add(header0, pos=(0,0), flag=options, border=border)\n grid_sizer.Add(header1, pos=(0,1), flag=options, border=border)\n grid_sizer.Add(header2, pos=(0,2), flag=options, border=border)\n grid_sizer.Add(header3, pos=(0,3), flag=options, border=border)\n grid_sizer.Add(wx.StaticLine(self), pos=(1,0), span=(1,4),\n flag=wx.ALL|wx.EXPAND|wx.GROW, border=border)\n\n self.selected_values = [] # keep track of selected quantities\n\n quantities = self.output_quantities.diagnostic_types[self.diag_type]\n\n # choose a good height/width for formulas\n if (self.diag_type in [\"Linear_Forces\", \"Angular_Momentum\", \"Energy_Flux\",\n \"Induction\", \"Inertial_Forces\", \"Lorentz_Forces\",\n \"Poynting_Flux\", \"TurbKE_Budget\"]):\n width = 100\n elif (self.diag_type == \"Thermal_Equation\"):\n width = 150\n else:\n width = 30\n height = 20\n\n row = 2\n iquant = 0\n for Q in quantities:\n but = wx.ToggleButton(self, Q.code, \"Add\") # build button and place it in second column\n but.Bind(wx.EVT_TOGGLEBUTTON, self.OnToggle)\n grid_sizer.Add(but, pos=(row,0), flag=options, border=border)\n\n q_code = wx.StaticText(self, -1, str(Q.code)) # build other column entries\n q_name = wx.StaticText(self, -1, Q.name) # name\n\n formula = self.RenderTeX(Q, size=(width,height))\n\n # place column entries\n grid_sizer.Add(q_code, pos=(row,1), flag=options, border=border)\n grid_sizer.Add(q_name, pos=(row,2), flag=options, border=border)\n grid_sizer.Add(formula, pos=(row,3), flag=options, border=border)\n\n iquant += 1\n\n # add horizontal line every 5 quantities\n if (iquant % 5 == 0):\n grid_sizer.Add(wx.StaticLine(self), pos=(row+1,0), span=(1,4),\n flag=wx.ALL|wx.EXPAND|wx.GROW, border=border)\n row_inc = 2\n else:\n row_inc = 1\n\n row += row_inc\n\n grid_sizer.AddGrowableCol(2,1) # make the name/formula columns \"1\" growable, i.e., grows as necessary\n grid_sizer.AddGrowableCol(3,1)\n\n return grid_sizer"
] | [
"0.72901696",
"0.68808323",
"0.6696053",
"0.66910315",
"0.6393439",
"0.63142496",
"0.615247",
"0.60421556",
"0.5967681",
"0.57406235",
"0.5543769",
"0.5534697",
"0.54658645",
"0.544163",
"0.5378236",
"0.53530645",
"0.53332144",
"0.53294164",
"0.5327329",
"0.53007996",
"0.52851546",
"0.5208671",
"0.5195382",
"0.5107585",
"0.50990283",
"0.50950813",
"0.5057853",
"0.50265086",
"0.5015519",
"0.50127673"
] | 0.80158716 | 0 |
Implementing get vendor price lists grid column names by order functionality | def get_vendor_price_lists_grid_column_names_by_order(self):
self.column_name_list = self.get_grid_column_names_by_order(self.view_price_list_div_id)
return self.column_name_list | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def get_vendor_price_list_detail_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_rates_grid_div_id)\n return self.column_name_list",
"def get_vendor_price_list_detail_dial_digits_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_dial_digits_grid_div_id)\n return self.column_name_list",
"def get_vendor_price_list_detail_reference_rates_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_reference_rates_grid_div_id)\n return self.column_name_list",
"def sort_vendor_price_lists_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.view_price_list_div_id, column_name, descending_order)",
"def get_vendors_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.vendors_div_id)\n return self.column_name_list",
"def get_buy_and_sell_management_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.buy_and_sell_management_grid_div_id)\n return self.column_name_list",
"def get_rates_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.rates_grid_div_id)\n return self.column_name_list",
"def sort_vendor_price_list_detail_grid_column(self, column_name, descending_order):\n self.wait_for_ajax_spinner_load(300)\n self.sort_grid_column(self.vendor_price_list_detail_rates_grid_div_id, column_name, descending_order)",
"def sort_vendor_price_list_detail_dial_digits_grid_column(self, column_name, descending_order):\n self.wait_for_ajax_spinner_load(300)\n self.sort_grid_column(self.vendor_price_list_detail_dial_digits_grid_div_id, column_name, descending_order)",
"def sort_vendors_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.vendors_div_id, column_name, descending_order)",
"def get_dialed_digits_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.dialed_digits_grid_div_id)\n return self.column_name_list",
"def get_re_analysis_detail_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.re_analysis_detail_grid_div_id)\n return self.column_name_list",
"def get_country_groups_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.country_groups_grid_div_id)\n return self.column_name_list",
"def get_sort_columns_raw(self):\n col_sort_orders = self.gridpreference_sort.all().select_related()\n \n return [x.sort_display for x in col_sort_orders]",
"def get_vendor_price_lists_details(self):\n try:\n self.vendor_price_lists_dict = self.get_grid_row_details(self.customer_price_list_grid_div_id, self.vendor_price_lists_dict)\n return True\n except:\n return False",
"def sort_vendor_price_list_detail_reference_rates_grid_column(self, column_name, descending_order):\n self.wait_for_ajax_spinner_load(300)\n self.sort_grid_column(self.vendor_price_list_detail_reference_rates_grid_div_id, column_name, descending_order)",
"def get_all_rows_of_specific_column_from_vendor_price_lists_grid(self, column_name):\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.view_price_list_div_id, column_name, self.get_grid_row_count(self.price_lists_grid_row_count_span_locator, 7))\n return self.all_row_data",
"def columnTitles(self):\n \n pass",
"def columnTitles(self):\n \n pass",
"def show_korpus(korpus, start=0, size=4, vstart=0, vsize=20, sortby = ''):\n if sortby != '':\n val = sortby\n else:\n val = korpus.columns[start]\n return korpus[korpus.columns[start:start+size]].sort_values(by=val, ascending=False)[vstart:vstart + vsize]",
"def get_re_analysis_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.re_analysis_grid_div_id)\n return self.column_name_list",
"def get_destinations_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.destinations_grid_div_id)\n return self.column_name_list",
"def execQ14():\n frame = pan.DataFrame(data, columns=['Price'])\n kiwi = frame[(dFrame.Series_title_1 == \"Kiwifruit, 1kg\")].sort_values(by='Price', ascending=False)\n return kiwi",
"def get_display_columns(self): \n if not hasattr(self, '_display_columns'):\n self._display_columns = self.gridpreference_displayorder.all().select_related()\n return self._display_columns",
"def get_list_columns(self):\n columns = super(InventoryTransactionAdmin, self).get_list_columns()\n cols = ['total_amount']\n columns = security_util.filter_columns_by_role(\n columns, cols, 'purchase_price_view'\n )\n return columns",
"def get_last_price_list_from_vendors_grid(self):\n return self.get_specific_column_value_from_grid(self.vendors_div_id, self.vendors_grid_row_count, self.last_price_list_column_name, self.vendors_data_grid_name)",
"def _generate_column_names(self):\n names = []\n # Assuming same number of compounds for every reaction!\n\n names = ['compound_{}'.format(i) for i in range(self.total_compounds)]\n names += ['compound_{}_amount'.format(i)\n for i in range(self.total_compounds)]\n for grid_param in self.params_grid_data.keys():\n names.append(grid_param)\n\n return names",
"def sort_buy_and_sell_management_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.buy_and_sell_management_grid_div_id, column_name, descending_order)",
"def get_vendors_grid_cost_currency_format(self):\n self.vendors_grid_row_count = self.get_grid_row_count(self.vendors_grid_row_count_span_locator, 5)\n return self.get_specific_column_value_from_grid(self.vendors_div_id, self.vendors_grid_row_count, self.cost_column_name, self.vendors_data_grid_name)",
"def get_sort_columns(self):\n col_sort_orders = self.gridpreference_sort.all().values_list('column__id', flat=True)\n return GridColumn.objects.select_related().all().filter(id__in=col_sort_orders)"
] | [
"0.795462",
"0.7702815",
"0.75639373",
"0.694032",
"0.68364435",
"0.6797478",
"0.65106916",
"0.6414322",
"0.60641503",
"0.5877595",
"0.5861417",
"0.5861091",
"0.5843625",
"0.58226156",
"0.5782356",
"0.57596487",
"0.5733113",
"0.56322753",
"0.56322753",
"0.5559507",
"0.5558017",
"0.5549997",
"0.55178815",
"0.54924697",
"0.5473605",
"0.54613703",
"0.54521805",
"0.5450995",
"0.5429647",
"0.54292935"
] | 0.81808203 | 0 |
Implementing sort rates grid column functionality | def sort_rates_grid_column(self, column_name, descending_order):
self.sort_grid_column(self.rates_grid_div_id, column_name, descending_order) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def sort_vendor_price_list_detail_reference_rates_grid_column(self, column_name, descending_order):\n self.wait_for_ajax_spinner_load(300)\n self.sort_grid_column(self.vendor_price_list_detail_reference_rates_grid_div_id, column_name, descending_order)",
"def sort_vendor_price_list_detail_grid_column(self, column_name, descending_order):\n self.wait_for_ajax_spinner_load(300)\n self.sort_grid_column(self.vendor_price_list_detail_rates_grid_div_id, column_name, descending_order)",
"def OnColumnClick(self, event):\r\n columns = self.data.getParam('columns')\r\n self.SortItems(columns[event.GetColumn()],'INVERT')",
"def sortby(self):\n ...",
"def sort_vendor_price_list_detail_dial_digits_grid_column(self, column_name, descending_order):\n self.wait_for_ajax_spinner_load(300)\n self.sort_grid_column(self.vendor_price_list_detail_dial_digits_grid_div_id, column_name, descending_order)",
"def sort_column(self, column):\n if column == 1: # type\n self.sorted_keys = sorted(self.data_dict.keys(),\n key=lambda x: (self.data_dict[x]['type']),\n reverse=self.sorted_type_top)\n # Invert sorting method\n self.sorted_type_top = not self.sorted_type_top\n\n elif column == 2: # Score\n self.sorted_keys = sorted(self.data_dict.keys(),\n key=lambda x: (float(self.data_dict[x]['score'])),\n reverse=self.sorted_score_top)\n # Invert sorting method\n self.sorted_score_top = not self.sorted_score_top\n\n elif column == 4: # Duration\n d = dict()\n for k in self.sorted_keys:\n duration_string = self.data_dict[k]['duration']\n\n # Get amount of episodes\n if 'episode' in duration_string:\n if 'Some' in duration_string:\n episodes = 0\n else:\n episodes = int(duration_string.split(' episodes')[0])\n else:\n episodes = 1\n\n # Get the duration in minutes\n minutes = 0\n if 'min' in duration_string:\n minutes = int(re.findall('([0-9]+)min', duration_string)[0])\n if 'h' in duration_string:\n minutes += int(re.findall('([0-9]+)h', duration_string)[0]) * 60\n\n # Get total duration of the whole show\n minutes *= episodes\n\n # Store it for sorting\n d[k] = minutes\n\n # Sort titles based on duration\n self.sorted_keys = sorted(d.keys(),\n key=lambda x: d[x],\n reverse=self.sorted_duration_top)\n # Invert sorting method\n self.sorted_duration_top = not self.sorted_duration_top\n\n elif column == 5: # release year\n self.sorted_keys = sorted(self.data_dict.keys(),\n key=lambda x: (float(self.data_dict[x]['released'])),\n reverse=self.sorted_year_top)\n # Invert sorting method\n self.sorted_year_top = not self.sorted_year_top\n\n if column != 2:\n # Make sure next time we click to sort by score,\n # the highest score is on top\n self.sorted_score_top = True\n\n # Redraw the table\n self.setup_tableview()",
"def sort_vendor_price_lists_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.view_price_list_div_id, column_name, descending_order)",
"def _custom_sorter(self, key1, key2):\n\n col = self._col\n ascending = self._colSortFlag[col]\n real = self.get_real_col(col)\n item1 = self.itemDataMap[key1][real]\n item2 = self.itemDataMap[key2][real]\n\n # Internationalization of string sorting with locale module\n if isinstance(item1, str) and isinstance(item2, str):\n cmpVal = locale.strcoll(item1, item2)\n elif isinstance(item1, bytes) or isinstance(item2, bytes):\n cmpVal = locale.strcoll(str(item1), str(item2))\n else:\n cmpVal = cmp(item1, item2)\n\n # If the items are equal, then pick something else to make the sort value unique\n if cmpVal == 0:\n cmpVal = cmp(*self.GetSecondarySortValues(col, key1, key2))\n\n if ascending:\n return cmpVal\n else:\n return -cmpVal",
"def sort_dialed_digits_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.dialed_digits_grid_div_id, column_name, descending_order)",
"def __handle_sorts(self, df):\n for sort in self.sorts:\n ascending = True if sort.order == SortOrder.ASCENDING else False\n if sort.sortType == SortType.ABSOLUTE_VALUE:\n df = df.reindex(df[sort.columnName].abs().sort_values(ascending=ascending, na_position='last').index)\n else:\n df = df.sort_values(by=sort.columnName, ascending=ascending, na_position='last')\n return df",
"def get_sort_columns_raw(self):\n col_sort_orders = self.gridpreference_sort.all().select_related()\n \n return [x.sort_display for x in col_sort_orders]",
"def click_on_sort(self):\r\n self.driver.find_element_by_xpath('//*[@id=\"dataTable\"]/thead/tr[3]/th[4]').click()",
"def populate_buttons(self):\n\n # Figure out which index we'll sort on\n if self.sort_group.checkedButton() == self.button_mtime:\n to_sort = self.sort_mtime_idx\n reverse = True\n else:\n to_sort = self.sort_alpha_idx\n reverse = False\n\n # Now add things. This'll automatically shuffle stuff around without\n # us having to worry about removing things first.\n for row, (_, _, button) in enumerate(\n sorted(self.buttons, reverse=reverse, key=lambda i: i[to_sort])\n ):\n self.grid.addWidget(button, row, 0)",
"def OnReorder( self, event ):\n column = self.columns[event.GetColumn()]\n if column.sortOn:\n # multiple sorts for the click...\n columns = [ self.columnByAttribute( attr ) for attr in column.sortOn ]\n diff = [ (a,b) for a,b in zip( self.sortOrder, columns ) if b is not a[1]]\n if not diff:\n self.sortOrder[0] = (not self.sortOrder[0][0], column)\n else:\n self.sortOrder = [\n (c.defaultOrder,c) for c in columns \n ] + [ (a,b) for (a,b) in self.sortOrder if b not in columns]\n else:\n if column is self.sortOrder[0][1]:\n # reverse current major order\n self.sortOrder[0] = (not self.sortOrder[0][0], column)\n else:\n self.sortOrder = [(column.defaultOrder,column)] + [\n (a,b) \n for (a,b) in self.sortOrder if b is not column \n ]\n # TODO: store current selection and re-select after sorting...\n self.reorder()\n self.Refresh()",
"def _sort(self):\n self.rows.sort(key=lambda x: (x['PERC1'], x['EQ'], x['PASS'], x['W2']),\n reverse=True)\n\n rank = 0\n prev_perc = 0\n prev_rank = 0\n for row in self.rows:\n if row[\"NR\"] == 0:\n # Something has already populated NR as 0 - so we set rank as\n # 0 too\n row['_RANK'] = 0\n row['_NR'] = 0\n continue\n\n # Increment our count\n rank += 1\n if row['PERC1'] == prev_perc:\n row['NR'] = \"\"\n row['_NR'] = prev_rank # I.e. joint 6th will be 6 here\n row['_RANK'] = rank # I.e. joint 6th could be 7, or 8 etc. here\n else:\n row['NR'] = rank\n row['_NR'] = rank\n row['_RANK'] = rank\n prev_perc = row['PERC1']\n prev_rank = rank",
"def _sort_dataframe(self, dataframe):\r\n print('Not allowed')",
"def sort(self, Ncol, order):\n self.emit(SIGNAL(\"layoutAboutToBeChanged()\"))\n self.arraydata = sorted(self.arraydata, key=operator.itemgetter(Ncol)) \n if order == Qt.DescendingOrder:\n self.arraydata.reverse()\n self.emit(SIGNAL(\"layoutChanged()\"))",
"def get_rates_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.rates_grid_div_id)\n return self.column_name_list",
"def sort_re_analysis_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.re_analysis_grid_div_id, column_name, descending_order)",
"def get_vendor_price_list_detail_reference_rates_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_reference_rates_grid_div_id)\n return self.column_name_list",
"def on_combo_sort_col_names_currentIndexChanged(self, index):\n if self.ui.sort_radio_asc.isChecked():\n self.model.setSort(index, Qt.AscendingOrder)\n else:\n self.model.setSort(index, Qt.DescendingOrder)\n self.model.select()",
"def sort(self, Ncol, order):\n self.emit(SIGNAL(\"layoutAboutToBeChanged()\"))\n self.arraydata = sorted(self.arraydata, key=operator.itemgetter(Ncol)) \n if order != Qt.DescendingOrder:\n self.arraydata.reverse()\n self.emit(SIGNAL(\"layoutChanged()\"))",
"def _finalize_cells(self):\n # Order by time (as path) and then drilldown dimension value (group)\n # The key[0] is a list of paths: time, another_drilldown\n\n order = lambda left, right: cmp(left[0], right[0])\n cells = self.time_cells.items()\n cells.sort(order)\n\n # compute the current datetime, convert to path\n current_time_path = time_to_path(\n pytz.timezone('UTC').localize(datetime.utcnow()).astimezone(self.browser.timezone).strftime(\"%Y-%m-%d %H:00:00\"), \n self.last_time_level, \n self.time_hierarchy)\n\n self.cells = []\n for key, cell in cells:\n # If we are aggregating at finer granularity than \"all\":\n time_key = key[0]\n if time_key:\n # if time_key ahead of current time path, discard\n if time_key > current_time_path:\n continue\n cell.update(zip(self.time_levels, time_key))\n\n # append the drilldown_on attribute ref\n if self.drilldown_on:\n cell[self.drilldown_on] = self.drilldown_on_value_func(key[1])\n\n self.cells.append(cell)",
"def sort_re_analysis_detail_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.re_analysis_detail_grid_div_id, column_name, descending_order)",
"def sort_table(table, sats_table):",
"def sort(self, col, order):\r\n self.emit(SIGNAL(\"layoutAboutToBeChanged()\"))\r\n self.mylist = sorted(self.mylist,\r\n key=operator.itemgetter(col))\r\n if order == QtCore.Qt.DescendingOrder:\r\n self.mylist.reverse()\r\n self.emit(SIGNAL(\"layoutChanged()\"))",
"def sort(self, col, order):\n self.layoutAboutToBeChanged.emit()\n self.mylist = sorted(self.mylist,\n key=operator.itemgetter(col))\n if order == Qt.DescendingOrder:\n self.mylist.reverse()\n self.layoutChanged.emit()",
"def sort_buy_and_sell_management_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.buy_and_sell_management_grid_div_id, column_name, descending_order)",
"def sort(self, col, order):\r\n self.emit(SIGNAL(\"layoutAboutToBeChanged()\"))\r\n self.mylist = sorted(self.mylist,\r\n key=operator.itemgetter(col))\r\n if order == Qt.DescendingOrder:\r\n self.mylist.reverse()\r\n self.emit(SIGNAL(\"layoutChanged()\"))",
"def sort_key(self):\n ..."
] | [
"0.63980967",
"0.63576436",
"0.62181383",
"0.6186693",
"0.60406005",
"0.5939348",
"0.5889908",
"0.58134836",
"0.58046883",
"0.5695681",
"0.5662438",
"0.56494015",
"0.564061",
"0.56395304",
"0.55751204",
"0.55721533",
"0.55710375",
"0.5543256",
"0.55429614",
"0.5537806",
"0.55347466",
"0.5533916",
"0.55276555",
"0.550345",
"0.5495822",
"0.5489364",
"0.54842323",
"0.5478357",
"0.54695725",
"0.5438536"
] | 0.67208064 | 0 |
Implementing get all rows of specific column from rates grid functionality | def get_all_rows_of_specific_column_from_rates_grid(self, column_name):
self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.rates_grid_div_id, column_name, self.get_grid_row_count(self.rates_grid_row_count_span_locator, 1))
return self.all_row_data | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def get_all_rows_of_rate_column_from_vendor_price_list_detail_grid(self, column_name):\n self.wait_for_ajax_spinner_load()\n self.all_row_data = self.get_all_rows_of_specific_column_only_from_vendor_price_list_detail_grid(self.vendor_price_list_detail_rates_grid_div_id, column_name)\n return self.all_row_data",
"def get_all_rows_of_specific_column_from_vendor_price_list_detail_reference_rates_grid(self, column_name):\n self.wait_for_ajax_spinner_load(300)\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.vendor_price_list_detail_reference_rates_grid_div_id, column_name)\n return self.all_row_data",
"def get_all_rows_of_rate_increase_violation_column_from_vendor_price_list_detail_grid(self, column_name):\n self.all_row_data = []\n self.wait_for_ajax_spinner_load()\n row_count = len(self.wait().until(EC.presence_of_all_elements_located(self.vendor_price_list_detail_row_locator), 'vendor price list details row element locator not found before specified time'))\n next_page = False\n column_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::th[@data-title='%s']\" % (self.vendor_price_list_detail_rates_grid_div_id, column_name))\n column_element = self.wait().until(EC.presence_of_element_located(column_locator), 'column locator not found before specified time out')\n column_index = int(column_element.get_attribute(\"data-index\")) + 1\n row = 1\n try:\n while row < row_count + 1:\n column_value_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::div[@class='k-grid-content']/descendant::tbody[@role='rowgroup']/tr[%s]/td[%s]\" % (self.vendor_price_list_detail_rates_grid_div_id, row, str(column_index)))\n column_value_element = self.wait(10).until(EC.presence_of_element_located(column_value_locator), 'column value locator not found before specified time out')\n column_value = str(column_value_element.get_attribute(\"innerHTML\"))\n if column_value not in self.all_row_data:\n self.all_row_data.append(column_value)\n else:\n row_count += 1\n if row % 50 == 0:\n next_page = True\n next_page_button_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-arrow-e']\" % self.vendor_price_list_detail_rates_grid_div_id)\n self.click_element(next_page_button_locator, True)\n row = 0\n row_count -= 50\n row += 1\n except WebDriverException:\n pass\n if next_page is True:\n first_page_button_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-seek-w']\" % self.vendor_price_list_detail_rates_grid_div_id)\n self.click_element(first_page_button_locator, True)\n return self.all_row_data",
"def get_all_rows_of_specific_column_from_vendor_price_list_detail_grid(self, column_name):\n self.wait_for_ajax_spinner_load(300)\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.vendor_price_list_detail_rates_grid_div_id, column_name)\n return self.all_row_data",
"def rosterRowData(self):",
"def get_all_rows_of_specific_column_from_vendor_price_list_detail_dial_digits_grid(self, column_name):\n self.wait_for_ajax_spinner_load(300)\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.vendor_price_list_detail_dial_digits_grid_div_id, column_name)\n return self.all_row_data",
"def _config_column(self):\n return self.rates_column",
"def get_all_rows_of_specific_column_from_vendor_price_lists_grid(self, column_name):\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.view_price_list_div_id, column_name, self.get_grid_row_count(self.price_lists_grid_row_count_span_locator, 7))\n return self.all_row_data",
"def get_all_rows_of_specific_column_from_dialed_digits_grid(self, column_name):\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.dialed_digits_grid_div_id, column_name, self.get_grid_row_count(self.dialed_digits_grid_row_count_span_locator, 1))\n return self.all_row_data",
"def get_all_rows_of_specific_column_from_re_analysis_detail_grid(self, column_name):\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.re_analysis_detail_grid_div_id, column_name)\n return self.all_row_data",
"def columns(self):\n \n pass",
"def get_all_rows_of_specific_column_from_re_analysis_grid(self, column_name):\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.re_analysis_grid_div_id, column_name, self.get_grid_row_count(self.re_analysis_grid_row_count_span_locator, 2))\n return self.all_row_data",
"def rows(self):\r\n raise NotImplementedError",
"def get_all_rows_of_specific_column_only_from_vendor_price_list_detail_grid(self, div_id, column_name):\n row_count = len(self.wait().until(EC.presence_of_all_elements_located(self.vendor_price_list_detail_row_locator), 'vendor price list details row element locator not found before specified time'))\n all_row_data = []\n next_page = False\n column_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::th[@data-title='%s']\" % (div_id, column_name))\n column_element = self.wait().until(EC.presence_of_element_located(column_locator), 'column locator not found before specified time out')\n column_index = int(column_element.get_attribute(\"data-index\")) + 1\n row = 1\n try:\n while row < row_count+1:\n column_value_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::div[@class='k-grid-content']/descendant::tbody[@role='rowgroup']/tr[%s]/td[%s]/descendant::td\" % (div_id, row, str(column_index)))\n column_value_element = self.wait(10).until(EC.presence_of_element_located(column_value_locator), 'column value locator not found before specified time out')\n column_value = str(column_value_element.get_attribute(\"innerHTML\"))\n if column_value not in all_row_data:\n all_row_data.append(column_value)\n else:\n row_count += 1\n if row % 50 == 0:\n next_page = True\n next_page_button_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-arrow-e']\" % div_id)\n self.click_element(next_page_button_locator, True)\n row = 0\n row_count -= 50\n row += 1\n except WebDriverException:\n pass\n if next_page is True:\n first_page_button_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-seek-w']\" % div_id)\n self.click_element(first_page_button_locator, True)\n return all_row_data",
"def get_rows(self):\n raise NotImplementedError('Subclass this to make the rows')",
"def get_vendor_price_list_detail_reference_rates_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_reference_rates_grid_div_id)\n return self.column_name_list",
"def get_received_charges_grid_row_details(self):\n self.grid_row_details_dictionary.clear()\n self.grid_row_details_dictionary.update({\"Tariff Type\": \"\", \"Line Item Type\": \"\", \"Service Group\": \"\", \"Product\": \"\", \"Time Band\": \"\", \"Begin Date\": \"\", \"End Date\": \"\", \"Rating Unit\": \"\", \"Minutes/Quantity\": \"\", \"Rate\": \"\"})\n return self.get_grid_row_details(self.received_charges_grid_div_id, self.grid_row_details_dictionary, self.received_charges_data_grid_name)",
"def rows(self):\r\n raise NotImplementedError()",
"def get_all_rows_of_specific_column_from_buy_and_sell_management_grid(self, column_name):\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.buy_and_sell_management_grid_div_id, column_name, self.get_grid_row_count(self.buy_and_sell_management_grid_count_span_locator, 2))\n return self.all_row_data",
"def row(self, row: int) -> list:\n index_start = row * 9\n return self.grid[index_start:index_start+9]",
"def rows(self) -> java.util.Collection:\n ...",
"def retrieve_grid_basic_format(self):\n raise NotImplementedError(\"Retrieve method not implemented in Base Class\")",
"def get_rates_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.rates_grid_div_id)\n return self.column_name_list",
"def value(self, grid):\n pass",
"def get_charges_grid_row_details(self):\n self.grid_row_details_dictionary.clear()\n self.grid_row_details_dictionary.update({\"Charge Begin Date\": \"\", \"Charge End Date\": \"\", \"Statement Number\": \"\", \"Rate Type\": \"\", \"Rating Quantity\": \"\", \"Adjustment Statement\": \"\"})\n return self.get_grid_row_details(self.charges_grid_div_id, self.grid_row_details_dictionary, self.charges_grid_data_grid_name)",
"def get_all_rows_of_specific_column_from_country_groups_grid(self, column_name):\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.country_groups_grid_div_id, column_name, self.get_grid_row_count(self.country_groups_grid_row_count_span_locator, 2))\n return self.all_row_data",
"def col(self, col: tuple) -> list:\n return self.grid[col::9]",
"def rows(self):\n return self.row",
"def get_cells(self):\n raise NotImplementedError",
"def get_vendor_price_list_detail_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_rates_grid_div_id)\n return self.column_name_list"
] | [
"0.7190064",
"0.68712497",
"0.68185884",
"0.6600947",
"0.63653994",
"0.6275579",
"0.6041932",
"0.60357165",
"0.5902399",
"0.58833236",
"0.58261555",
"0.5810265",
"0.5810062",
"0.579051",
"0.5761392",
"0.5744036",
"0.56978387",
"0.5676361",
"0.5675245",
"0.5663784",
"0.56010234",
"0.5533362",
"0.55098736",
"0.5500289",
"0.54962534",
"0.54616845",
"0.5449248",
"0.5439473",
"0.54358625",
"0.5401718"
] | 0.72493005 | 0 |
Implementing drag rates grid column functionality | def drag_rates_grid_column(self, source_column, destination_column):
self.drag_grid_column(self.rates_grid_div_id, source_column, destination_column) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def _drag_col(self, event):\n x = self._dx + event.x # get dragged column new left x coordinate\n self._visual_drag.place_configure(x=x) # update column preview position\n # if one border of the dragged column is beyon the middle of the\n # neighboring column, swap them\n if (self._dragged_col_neighbor_widths[0] is not None and\n x < self._dragged_col_x - self._dragged_col_neighbor_widths[0] / 2):\n self._swap_columns('left')\n elif (self._dragged_col_neighbor_widths[1] is not None and\n x > self._dragged_col_x + self._dragged_col_neighbor_widths[1] / 2):\n self._swap_columns('right')\n # horizontal scrolling if the cursor reaches the side of the table\n if x < 0 and self.xview()[0] > 0:\n # scroll left and update dragged column x coordinate\n self.xview_scroll(-10, 'units')\n self._dragged_col_x += 10\n elif x + self._dragged_col_width / 2 > self.winfo_width() and self.xview()[1] < 1:\n # scroll right and update dragged column x coordinate\n self.xview_scroll(10, 'units')\n self._dragged_col_x -= 10",
"def _start_drag_col(self, event):\n # identify dragged column\n col = self.identify_column(event.x)\n self._dragged_col = ttk.Treeview.column(self, col, 'id')\n # get column width\n self._dragged_col_width = w = ttk.Treeview.column(self, col, 'width')\n # get x coordinate of the left side of the column\n x = event.x\n while self.identify_region(x, event.y) == 'heading':\n # decrease x until reaching the separator\n x -= 1\n x_sep = x\n w_sep = 0\n # determine separator width\n while self.identify_region(x_sep, event.y) == 'separator':\n w_sep += 1\n x_sep -= 1\n if event.x - x <= self._im_drag.width():\n # start dragging if mouse click was on dragging icon\n x = x - w_sep // 2 - 1\n self._dragged_col_x = x\n # get neighboring column widths\n displayed_cols = self._displayed_cols\n self._dragged_col_index = i1 = displayed_cols.index(self._dragged_col)\n if i1 > 0:\n left = ttk.Treeview.column(self, displayed_cols[i1 - 1], 'width')\n else:\n left = None\n if i1 < len(displayed_cols) - 1:\n right = ttk.Treeview.column(self, displayed_cols[i1 + 1], 'width')\n else:\n right = None\n self._dragged_col_neighbor_widths = (left, right)\n self._dx = x - event.x # distance between cursor and column left border\n # configure dragged column preview\n self._visual_drag.column(self._dragged_col, width=w)\n self._visual_drag.configure(displaycolumns=[self._dragged_col])\n if 'headings' in tuple(str(p) for p in self['show']):\n self._visual_drag.configure(show='headings')\n else:\n self._visual_drag.configure(show='')\n self._visual_drag.place(in_=self, x=x, y=0, anchor='nw',\n width=w + 2, relheight=1)\n self._visual_drag.state(('active',))\n self._visual_drag.update_idletasks()\n self._visual_drag.yview_moveto(self.yview()[0])\n else:\n self._dragged_col = None",
"def drag_dialed_digits_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.dialed_digits_grid_div_id, source_column, destination_column)",
"def drag_vendor_price_list_detail_reference_rates_grid_column(self, source_column, destination_column):\n self.wait_for_ajax_spinner_load(300)\n self.drag_grid_column(self.vendor_price_list_detail_reference_rates_grid_div_id, source_column, destination_column)",
"def drag_vendor_price_list_detail_grid_column(self, source_column, destination_column):\n self.wait_for_ajax_spinner_load(300)\n self.drag_grid_column(self.vendor_price_list_detail_rates_grid_div_id, source_column, destination_column)",
"def drag_vendor_price_lists_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.view_price_list_div_id, source_column, destination_column)",
"def drag_re_analysis_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.re_analysis_grid_div_id, source_column, destination_column)",
"def drag_vendor_price_list_detail_dial_digits_grid_column(self, source_column, destination_column):\n self.wait_for_ajax_spinner_load(300)\n self.drag_grid_column(self.vendor_price_list_detail_dial_digits_grid_div_id, source_column, destination_column)",
"def drag_re_analysis_detail_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.re_analysis_detail_grid_div_id, source_column, destination_column)",
"def drag_vendors_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.vendors_div_id, source_column, destination_column)",
"def drag_buy_and_sell_management_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.buy_and_sell_management_grid_div_id, source_column, destination_column)",
"def drag_destinations_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.destinations_grid_div_id, source_column, destination_column)",
"def drag_country_groups_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.country_groups_grid_div_id, source_column, destination_column)",
"def slider_dragged(self):\n pass",
"def _drag_row(self, event):\n y = self._dy + event.y # get dragged row new upper y coordinate\n self._visual_drag.place_configure(y=y) # update row preview position\n\n if y > self._dragged_row_y:\n # moving downward\n item = self.identify_row(y + self._dragged_row_height)\n if item != '':\n bbox = self.bbox(item)\n if not bbox:\n # the item is not visible so make it visible\n self.see(item)\n self.update_idletasks()\n bbox = self.bbox(item)\n if y > self._dragged_row_y + bbox[3] / 2:\n # the row is beyond half of item, so insert it below\n self._move_dragged_row(item)\n elif item != self.next(self._dragged_row):\n # item is not the lower neighbor of the dragged row so insert the row above\n self._move_dragged_row(self.prev(item))\n elif y < self._dragged_row_y:\n # moving upward\n item = self.identify_row(y)\n if item != '':\n bbox = self.bbox(item)\n if not bbox:\n # the item is not visible so make it visible\n self.see(item)\n self.update_idletasks()\n bbox = self.bbox(item)\n if y < self._dragged_row_y - bbox[3] / 2:\n # the row is beyond half of item, so insert it above\n self._move_dragged_row(item)\n elif item != self.prev(self._dragged_row):\n # item is not the upper neighbor of the dragged row so insert the row below\n self._move_dragged_row(self.next(item))\n self.selection_remove(self._dragged_row)",
"def OnReorderableGridMotion(self, evt):\n\t\tif not self._potentialRearrange:\n\t\t\tevt.Skip()\n\t\t\treturn\n\n\t\tif not self._enableReorderRows:\n\t\t\tself._potentialRearrange = False\n\t\t\tevt.Skip()\n\t\t\treturn\n\t\t\t\n\t\tx, y = evt.GetX(), evt.GetY()\n\t\trow, col = self.ReorderableGridRowXYToCell(x,y, colheight=0)\n\t\tif row == self._lastRow:\n\t\t\treturn\n\t\t\t\n\t\tself.DeselectRow( self._lastRow )\n\t\t\n\t\tlastRowSave = [self.GetCellValue(self._lastRow, c) for c in range(self.GetNumberCols())]\n\t\tlastRowBackgroundColourSave = [self.GetCellBackgroundColour(self._lastRow, c) for c in range(self.GetNumberCols())]\n\t\tdirection = 1 if row > self._lastRow else -1 if row < self._lastRow else 0\n\t\tfor r in range(self._lastRow, row, direction ):\n\t\t\tself.copyRow( r + direction, r )\n\t\tfor c in range(self.GetNumberCols()):\n\t\t\tself.SetCellValue( row, c, lastRowSave[c] )\n\t\t\tself.SetCellBackgroundColour( row, c, lastRowBackgroundColourSave[c] )\n\t\t\n\t\tself.SelectRow( row, False )\n\t\tself._lastRow = row",
"def _config_drag_cols(self, drag_cols):\n self._drag_cols = drag_cols\n # remove/display drag icon\n if self._drag_cols:\n self._im_drag.paste(self._im_draggable)\n else:\n self._im_drag.paste(self._im_not_draggable)\n self.focus_set()\n self.update_idletasks()",
"def __init__(self, grid, column_id, column_span=1):\n super(GraphVisualizerConnectedcolumn, self).__init__(\n grid, column_id, column_span\n )\n\n for i in range(column_span):\n self._grid.setColumnStretch(self._column_id + i, 1)",
"def _swap_columns(self, side):\n displayed_cols = self._displayed_cols\n i1 = self._dragged_col_index\n i2 = i1 + 1 if side == 'right' else i1 - 1\n if 0 <= i2 < len(displayed_cols):\n # there is a neighbor, swap columns:\n displayed_cols[i1] = displayed_cols[i2]\n displayed_cols[i2] = self._dragged_col\n self[\"displaycolumns\"] = displayed_cols\n if side == 'left':\n right = self._dragged_col_neighbor_widths[0]\n self._dragged_col_x -= right # update dragged column x coordinate\n # set new left neighbor width\n if i2 > 0:\n left = ttk.Treeview.column(self, displayed_cols[i2 - 1], 'width')\n else:\n left = None\n else:\n left = self._dragged_col_neighbor_widths[1]\n self._dragged_col_x += left # update x coordinate of dragged column\n # set new right neighbor width\n if i2 < len(displayed_cols) - 1:\n right = ttk.Treeview.column(self, displayed_cols[i2 + 1], 'width')\n else:\n right = None\n self._dragged_col_index = i2 # update dragged column index\n self._dragged_col_neighbor_widths = (left, right)",
"def __init__(self, grid, column_id, column_span=1):\n super(GraphVisualizerTimeline, self).__init__(\n grid, column_id, column_span)\n for i in range(column_span):\n self._grid.setColumnStretch(self._column_id + i, 0)",
"def OnMouse(self, event):\r\n\r\n # we want to work with logical coords\r\n x, dummy = self._owner.CalcUnscrolledPosition(event.GetX(), 0)\r\n y = event.GetY()\r\n\r\n if event.Moving():\r\n \r\n col = self.XToCol(x)\r\n if col != self._hotTrackCol:\r\n \r\n # Refresh the col header so it will be painted with hot tracking\r\n # (if supported by the native renderer.)\r\n self.RefreshColLabel(col)\r\n\r\n # Also refresh the old hot header\r\n if self._hotTrackCol >= 0:\r\n self.RefreshColLabel(self._hotTrackCol)\r\n\r\n self._hotTrackCol = col\r\n \r\n if event.Leaving() and self._hotTrackCol >= 0:\r\n \r\n # Leaving the window so clear any hot tracking indicator that may be present\r\n self.RefreshColLabel(self._hotTrackCol)\r\n self._hotTrackCol = -1\r\n \r\n if self._isDragging:\r\n\r\n self.SendListEvent(wx.wxEVT_COMMAND_LIST_COL_DRAGGING, event.GetPosition())\r\n\r\n # we don't draw the line beyond our window, but we allow dragging it\r\n # there\r\n w, dummy = self.GetClientSize()\r\n w, dummy = self._owner.CalcUnscrolledPosition(w, 0)\r\n w -= 6\r\n\r\n # erase the line if it was drawn\r\n if self._currentX < w:\r\n self.DrawCurrent()\r\n\r\n if event.ButtonUp():\r\n self._isDragging = False\r\n if self.HasCapture():\r\n self.ReleaseMouse()\r\n self._dirty = True\r\n self.SetColumnWidth(self._column, self._currentX - self._minX)\r\n self.Refresh()\r\n self.SendListEvent(wx.wxEVT_COMMAND_LIST_COL_END_DRAG, event.GetPosition())\r\n else:\r\n self._currentX = max(self._minX + 7, x)\r\n\r\n # draw in the new location\r\n if self._currentX < w:\r\n self.DrawCurrent()\r\n \r\n else: # not dragging\r\n\r\n self._minX = 0\r\n hit_border = False\r\n\r\n # end of the current column\r\n xpos = 0\r\n\r\n # find the column where this event occured\r\n countCol = self.GetColumnCount()\r\n\r\n for column in xrange(countCol):\r\n\r\n if not self.IsColumnShown(column):\r\n continue # do next if not shown\r\n\r\n xpos += self.GetColumnWidth(column)\r\n self._column = column\r\n if abs (x-xpos) < 3 and y < 22:\r\n # near the column border\r\n hit_border = True\r\n break\r\n \r\n if x < xpos:\r\n # inside the column\r\n break\r\n \r\n self._minX = xpos\r\n \r\n if event.LeftDown() or event.RightUp():\r\n if hit_border and event.LeftDown():\r\n self._isDragging = True\r\n self.CaptureMouse()\r\n self._currentX = x\r\n self.DrawCurrent()\r\n self.SendListEvent(wx.wxEVT_COMMAND_LIST_COL_BEGIN_DRAG, event.GetPosition())\r\n else: # click on a column\r\n evt = (event.LeftDown() and [wx.wxEVT_COMMAND_LIST_COL_CLICK] or [wx.wxEVT_COMMAND_LIST_COL_RIGHT_CLICK])[0]\r\n self.SendListEvent(evt, event.GetPosition())\r\n \r\n elif event.LeftDClick() and hit_border:\r\n self.SetColumnWidth(self._column, self._owner.GetBestColumnWidth(self._column))\r\n self.Refresh()\r\n\r\n elif event.Moving():\r\n \r\n if hit_border:\r\n setCursor = self._currentCursor == wx.STANDARD_CURSOR\r\n self._currentCursor = self._resizeCursor\r\n else:\r\n setCursor = self._currentCursor != wx.STANDARD_CURSOR\r\n self._currentCursor = wx.STANDARD_CURSOR\r\n \r\n if setCursor:\r\n self.SetCursor(self._currentCursor)",
"def floatSliderGrp(*args, adjustableColumn: int=0, adjustableColumn2: int=0, adjustableColumn3:\n int=0, adjustableColumn4: int=0, adjustableColumn5: int=0,\n adjustableColumn6: int=0, annotation: Union[AnyStr, bool]=\"\",\n backgroundColor: Union[List[float, float, float], bool]=None, changeCommand:\n Script=None, columnAlign: Union[List[int, AnyStr], List[List[int,\n AnyStr]]]=None, columnAlign2: List[AnyStr, AnyStr]=None, columnAlign3:\n List[AnyStr, AnyStr, AnyStr]=None, columnAlign4: List[AnyStr, AnyStr, AnyStr,\n AnyStr]=None, columnAlign5: List[AnyStr, AnyStr, AnyStr, AnyStr,\n AnyStr]=None, columnAlign6: List[AnyStr, AnyStr, AnyStr, AnyStr, AnyStr,\n AnyStr]=None, columnAttach: Union[List[int, AnyStr, int], List[List[int,\n AnyStr, int]]]=None, columnAttach2: List[AnyStr, AnyStr]=None,\n columnAttach3: List[AnyStr, AnyStr, AnyStr]=None, columnAttach4: List[AnyStr,\n AnyStr, AnyStr, AnyStr]=None, columnAttach5: List[AnyStr, AnyStr, AnyStr,\n AnyStr, AnyStr]=None, columnAttach6: List[AnyStr, AnyStr, AnyStr, AnyStr,\n AnyStr, AnyStr]=None, columnOffset2: List[int, int]=None, columnOffset3:\n List[int, int, int]=None, columnOffset4: List[int, int, int, int]=None,\n columnOffset5: List[int, int, int, int, int]=None, columnOffset6: List[int,\n int, int, int, int, int]=None, columnWidth: Union[List[int, int],\n List[List[int, int]]]=None, columnWidth1: int=0, columnWidth2: List[int,\n int]=None, columnWidth3: List[int, int, int]=None, columnWidth4: List[int,\n int, int, int]=None, columnWidth5: List[int, int, int, int, int]=None,\n columnWidth6: List[int, int, int, int, int, int]=None, defineTemplate:\n AnyStr=\"\", docTag: Union[AnyStr, bool]=\"\", dragCallback: Script=None,\n dragCommand: Script=None, dropCallback: Script=None, enable: bool=True,\n enableBackground: bool=True, enableKeyboardFocus: bool=True, exists:\n bool=True, extraLabel: Union[AnyStr, bool]=\"\", field: bool=True,\n fieldMaxValue: Union[float, bool]=0.0, fieldMinValue: Union[float, bool]=0.0,\n fieldStep: Union[float, bool]=0.0, fullPathName: bool=True, height:\n Union[int, bool]=0, highlightColor: Union[List[float, float, float],\n bool]=None, isObscured: bool=True, label: Union[AnyStr, bool]=\"\", manage:\n bool=True, maxValue: Union[float, bool]=0.0, minValue: Union[float,\n bool]=0.0, noBackground: bool=True, numberOfPopupMenus: bool=True, parent:\n Union[AnyStr, bool]=\"\", popupMenuArray: bool=True, precision: int=0,\n preventOverride: bool=True, rowAttach: Union[List[int, AnyStr, int],\n List[List[int, AnyStr, int]]]=None, sliderStep: Union[float, bool]=0.0,\n statusBarMessage: AnyStr=\"\", step: Union[float, bool]=0.0, useTemplate:\n AnyStr=\"\", value: Union[float, bool]=0.0, visible: bool=True,\n visibleChangeCommand: Union[Script, bool]=None, width: Union[int, bool]=0,\n q=True, query=True, e=True, edit=True, **kwargs)->Union[AnyStr, Any]:\n pass",
"def swipeBase (self) :\n grid = self.grid\n\n #we start by putting every tile up\n for columnNbr in range(4) :\n nbrZeros = 4 - np.count_nonzero(grid[:,columnNbr])\n\n for lineNbr in range(4) :\n counter = 0\n while (grid[lineNbr, columnNbr] == 0) and (counter < 4):\n counter += 1\n if np.count_nonzero(grid[lineNbr:4, columnNbr]) != 0 :\n for remainingLine in range (lineNbr, 3) :\n grid[remainingLine, columnNbr] = grid[remainingLine+1, columnNbr]\n grid[3, columnNbr] = 0\n\n #now we do the additions\n for lineNbr in range(3) :\n if grid[lineNbr, columnNbr] == grid[lineNbr+1, columnNbr] :\n grid[lineNbr, columnNbr] *= 2\n for remainingLine in range (lineNbr+1, 3) :\n grid[remainingLine, columnNbr] = grid[remainingLine+1, columnNbr]\n grid[3, columnNbr] = 0\n\n return (grid)",
"def _start_drag_row(self, event):\n self._dragged_row = self.identify_row(event.y) # identify dragged row\n bbox = self.bbox(self._dragged_row)\n self._dy = bbox[1] - event.y # distance between cursor and row upper border\n self._dragged_row_y = bbox[1] # y coordinate of dragged row upper border\n self._dragged_row_height = bbox[3]\n # configure dragged row preview\n self._visual_drag.configure(displaycolumns=self['displaycolumns'],\n height=1)\n for col in self['columns']:\n self._visual_drag.column(col, width=self.column(col, 'width'))\n if 'tree' in tuple(str(p) for p in self['show']):\n self._visual_drag.configure(show='tree')\n else:\n self._visual_drag.configure(show='')\n self._visual_drag.place(in_=self, x=0, y=bbox[1],\n height=self._visual_drag.winfo_reqheight() + 2,\n anchor='nw', relwidth=1)\n self._visual_drag.selection_add(self._dragged_row)\n self.selection_remove(self._dragged_row)\n self._visual_drag.update_idletasks()\n self._visual_drag.see(self._dragged_row)\n self._visual_drag.update_idletasks()\n self._visual_drag.xview_moveto(self.xview()[0])",
"def _on_motion(self, event):\n if not self._visual_drag.winfo_ismapped():\n return\n\n if self._drag_cols and self._dragged_col is not None:\n self._drag_col(event)\n elif self._drag_rows and self._dragged_row is not None:\n self._drag_row(event)",
"def columns(self):\n \n pass",
"def _on_press(self, event):\n if tk.DISABLED in self.state():\n return\n\n region = self.identify_region(event.x, event.y)\n\n if self._drag_cols and region == 'heading':\n self._start_drag_col(event)\n elif self._drag_rows and region == 'cell':\n self._start_drag_row(event)",
"def add_grid_slider(self, w):\n self.event_emitters[(w.__class__.__name__, w.type)].append(w)\n self.grid[(w.x, w.y)] = w\n self.control_sliders[w.control] = w",
"def _move_dragged_row(self, item):\n self.move(self._dragged_row, '', self.index(item))\n self.see(self._dragged_row)\n bbox = self.bbox(self._dragged_row)\n self._dragged_row_y = bbox[1]\n self._dragged_row_height = bbox[3]\n self._visual_drag.see(self._dragged_row)",
"def _prepare_grid(self):\n raise NotImplementedError"
] | [
"0.72298163",
"0.6867313",
"0.67598635",
"0.65528786",
"0.65269214",
"0.6425002",
"0.64241725",
"0.62536997",
"0.62526435",
"0.6155063",
"0.6091349",
"0.60516745",
"0.6024483",
"0.5974276",
"0.5934982",
"0.58499086",
"0.5724998",
"0.56862056",
"0.5634961",
"0.5627925",
"0.5627096",
"0.56264484",
"0.5488176",
"0.54773843",
"0.54086435",
"0.53823155",
"0.5314339",
"0.52762604",
"0.5250225",
"0.5247737"
] | 0.75709534 | 0 |
Implementing get rates grid column names by order functionality | def get_rates_grid_column_names_by_order(self):
self.column_name_list = self.get_grid_column_names_by_order(self.rates_grid_div_id)
return self.column_name_list | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def get_vendor_price_list_detail_reference_rates_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_reference_rates_grid_div_id)\n return self.column_name_list",
"def get_vendor_price_list_detail_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_rates_grid_div_id)\n return self.column_name_list",
"def get_vendor_price_list_detail_dial_digits_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_dial_digits_grid_div_id)\n return self.column_name_list",
"def get_vendor_price_lists_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.view_price_list_div_id)\n return self.column_name_list",
"def get_re_analysis_detail_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.re_analysis_detail_grid_div_id)\n return self.column_name_list",
"def sort_rates_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.rates_grid_div_id, column_name, descending_order)",
"def get_re_analysis_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.re_analysis_grid_div_id)\n return self.column_name_list",
"def get_dialed_digits_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.dialed_digits_grid_div_id)\n return self.column_name_list",
"def get_buy_and_sell_management_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.buy_and_sell_management_grid_div_id)\n return self.column_name_list",
"def _generate_column_names(self):\n names = []\n # Assuming same number of compounds for every reaction!\n\n names = ['compound_{}'.format(i) for i in range(self.total_compounds)]\n names += ['compound_{}_amount'.format(i)\n for i in range(self.total_compounds)]\n for grid_param in self.params_grid_data.keys():\n names.append(grid_param)\n\n return names",
"def get_country_groups_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.country_groups_grid_div_id)\n return self.column_name_list",
"def get_vendors_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.vendors_div_id)\n return self.column_name_list",
"def sort_vendor_price_list_detail_reference_rates_grid_column(self, column_name, descending_order):\n self.wait_for_ajax_spinner_load(300)\n self.sort_grid_column(self.vendor_price_list_detail_reference_rates_grid_div_id, column_name, descending_order)",
"def columnTitles(self):\n \n pass",
"def columnTitles(self):\n \n pass",
"def get_sort_columns_raw(self):\n col_sort_orders = self.gridpreference_sort.all().select_related()\n \n return [x.sort_display for x in col_sort_orders]",
"def get_destinations_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.destinations_grid_div_id)\n return self.column_name_list",
"def sort_vendor_price_list_detail_grid_column(self, column_name, descending_order):\n self.wait_for_ajax_spinner_load(300)\n self.sort_grid_column(self.vendor_price_list_detail_rates_grid_div_id, column_name, descending_order)",
"def _config_column(self):\n return self.rates_column",
"def get_sort_columns(self):\n col_sort_orders = self.gridpreference_sort.all().values_list('column__id', flat=True)\n return GridColumn.objects.select_related().all().filter(id__in=col_sort_orders)",
"def get_display_columns(self): \n if not hasattr(self, '_display_columns'):\n self._display_columns = self.gridpreference_displayorder.all().select_related()\n return self._display_columns",
"def getViewNames(self) -> list[float]:\n ...",
"def columns(self):\n \n pass",
"def sort_vendor_price_list_detail_dial_digits_grid_column(self, column_name, descending_order):\n self.wait_for_ajax_spinner_load(300)\n self.sort_grid_column(self.vendor_price_list_detail_dial_digits_grid_div_id, column_name, descending_order)",
"def get_order_columns(self):\n return self.order_columns",
"def sort_vendor_price_lists_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.view_price_list_div_id, column_name, descending_order)",
"def get_columns(self, *args, **kw):\n\n v = self.namespace[self._name]\n while True:\n if callable(v):\n if isinstance(v, (Term, Formula)):\n v = copy.copy(v)\n v.namespace = self.namespace\n v = v(*args, **kw)\n else: break\n\n n = len(v)\n\n if self.ordinal:\n col = [float(self.keys.index(v[i])) for i in range(n)]\n return np.array(col)\n\n else:\n value = []\n for key in self.keys:\n col = [float((v[i] == key)) for i in range(n)]\n value.append(col)\n return np.array(value)",
"def sort_dialed_digits_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.dialed_digits_grid_div_id, column_name, descending_order)",
"def get_all_rows_of_rate_column_from_vendor_price_list_detail_grid(self, column_name):\n self.wait_for_ajax_spinner_load()\n self.all_row_data = self.get_all_rows_of_specific_column_only_from_vendor_price_list_detail_grid(self.vendor_price_list_detail_rates_grid_div_id, column_name)\n return self.all_row_data",
"def init_column_headers(self):\r\n col_headers = {1: \"bid\", 2: \"tricks\", 3: \"score\"}\r\n for player in range(1, 5):\r\n ent_player_name = tk.Entry(self.master, font='courier 10 bold', fg='blue',\r\n borderwidth=2, relief=\"groove\")\r\n ent_player_name.grid(row=0, column=(player - 1) * 3 + 1, columnspan=3,\r\n sticky=tk.W + tk.E, pady=5)\r\n ent_player_name.insert(0, \"Player\" + str(player))\r\n self.ent_player_names.append(ent_player_name)\r\n for key in col_headers:\r\n lbl_column_header = tk.Label(self.master, text=col_headers[key],\r\n font='courier 10 bold', fg='blue',\r\n borderwidth=2, relief=\"groove\")\r\n lbl_column_header.grid(row=1, column=(player - 1) * 3 + key,\r\n sticky=tk.W + tk.E, pady=2)"
] | [
"0.762414",
"0.7377176",
"0.7018306",
"0.6986911",
"0.6648909",
"0.65690273",
"0.6558376",
"0.65087485",
"0.6439504",
"0.6301668",
"0.62900615",
"0.6160898",
"0.6073755",
"0.6051446",
"0.6051446",
"0.6031917",
"0.595619",
"0.5952867",
"0.57386166",
"0.5731742",
"0.56856835",
"0.5611921",
"0.55851513",
"0.55785835",
"0.55397695",
"0.55127156",
"0.545763",
"0.544203",
"0.54242784",
"0.54046416"
] | 0.7917425 | 0 |
Implementing sort destinations grid column functionality | def sort_destinations_grid_column(self, column_name, descending_order):
self.sort_grid_column(self.destinations_grid_div_id, column_name, descending_order) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def OnColumnClick(self, event):\r\n columns = self.data.getParam('columns')\r\n self.SortItems(columns[event.GetColumn()],'INVERT')",
"def sort_vendor_price_lists_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.view_price_list_div_id, column_name, descending_order)",
"def sort_vendor_price_list_detail_grid_column(self, column_name, descending_order):\n self.wait_for_ajax_spinner_load(300)\n self.sort_grid_column(self.vendor_price_list_detail_rates_grid_div_id, column_name, descending_order)",
"def get_destinations_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.destinations_grid_div_id)\n return self.column_name_list",
"def sortby(self):\n ...",
"def sort_vendors_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.vendors_div_id, column_name, descending_order)",
"def sort_vendor_price_list_detail_reference_rates_grid_column(self, column_name, descending_order):\n self.wait_for_ajax_spinner_load(300)\n self.sort_grid_column(self.vendor_price_list_detail_reference_rates_grid_div_id, column_name, descending_order)",
"def sort_country_groups_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.country_groups_grid_div_id, column_name, descending_order)",
"def sort_rates_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.rates_grid_div_id, column_name, descending_order)",
"def OnReorder( self, event ):\n column = self.columns[event.GetColumn()]\n if column.sortOn:\n # multiple sorts for the click...\n columns = [ self.columnByAttribute( attr ) for attr in column.sortOn ]\n diff = [ (a,b) for a,b in zip( self.sortOrder, columns ) if b is not a[1]]\n if not diff:\n self.sortOrder[0] = (not self.sortOrder[0][0], column)\n else:\n self.sortOrder = [\n (c.defaultOrder,c) for c in columns \n ] + [ (a,b) for (a,b) in self.sortOrder if b not in columns]\n else:\n if column is self.sortOrder[0][1]:\n # reverse current major order\n self.sortOrder[0] = (not self.sortOrder[0][0], column)\n else:\n self.sortOrder = [(column.defaultOrder,column)] + [\n (a,b) \n for (a,b) in self.sortOrder if b is not column \n ]\n # TODO: store current selection and re-select after sorting...\n self.reorder()\n self.Refresh()",
"def sort(self, col, order):\r\n self.emit(SIGNAL(\"layoutAboutToBeChanged()\"))\r\n self.mylist = sorted(self.mylist,\r\n key=operator.itemgetter(col))\r\n if order == Qt.DescendingOrder:\r\n self.mylist.reverse()\r\n self.emit(SIGNAL(\"layoutChanged()\"))",
"def sort(self, col, order):\r\n self.emit(SIGNAL(\"layoutAboutToBeChanged()\"))\r\n self.mylist = sorted(self.mylist,\r\n key=operator.itemgetter(col))\r\n if order == QtCore.Qt.DescendingOrder:\r\n self.mylist.reverse()\r\n self.emit(SIGNAL(\"layoutChanged()\"))",
"def sort_vendor_price_list_detail_dial_digits_grid_column(self, column_name, descending_order):\n self.wait_for_ajax_spinner_load(300)\n self.sort_grid_column(self.vendor_price_list_detail_dial_digits_grid_div_id, column_name, descending_order)",
"def sort_re_analysis_detail_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.re_analysis_detail_grid_div_id, column_name, descending_order)",
"def sort_re_analysis_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.re_analysis_grid_div_id, column_name, descending_order)",
"def sort(self, col, order):\n self.layoutAboutToBeChanged.emit()\n self.mylist = sorted(self.mylist,\n key=operator.itemgetter(col))\n if order == Qt.DescendingOrder:\n self.mylist.reverse()\n self.layoutChanged.emit()",
"def sort(self):\r\n return self.sort_targets([self])",
"def sort_buy_and_sell_management_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.buy_and_sell_management_grid_div_id, column_name, descending_order)",
"def sort_dialed_digits_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.dialed_digits_grid_div_id, column_name, descending_order)",
"def _config_sortable(self, sortable):\n for col in self[\"columns\"]:\n command = (lambda c=col: self._sort_column(c, True)) if sortable else \"\"\n self.heading(col, command=command)\n self._sortable = sortable",
"def sort(self, Ncol, order):\n self.emit(SIGNAL(\"layoutAboutToBeChanged()\"))\n self.arraydata = sorted(self.arraydata, key=operator.itemgetter(Ncol)) \n if order == Qt.DescendingOrder:\n self.arraydata.reverse()\n self.emit(SIGNAL(\"layoutChanged()\"))",
"def get_sort_columns(self):\n col_sort_orders = self.gridpreference_sort.all().values_list('column__id', flat=True)\n return GridColumn.objects.select_related().all().filter(id__in=col_sort_orders)",
"def _add_column_and_sort_table(sources, pointing_position):\n sources = sources.copy()\n source_pos = SkyCoord(sources[\"RA\"], sources[\"DEC\"], unit=\"deg\")\n sources[\"separation\"] = pointing_position.separation(source_pos)\n sources[\"phi\"] = pointing_position.position_angle(source_pos)\n sources.sort(\"separation\")\n return sources",
"def sort(self, Ncol, order):\n self.emit(SIGNAL(\"layoutAboutToBeChanged()\"))\n self.arraydata = sorted(self.arraydata, key=operator.itemgetter(Ncol)) \n if order != Qt.DescendingOrder:\n self.arraydata.reverse()\n self.emit(SIGNAL(\"layoutChanged()\"))",
"def drag_destinations_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.destinations_grid_div_id, source_column, destination_column)",
"def sort(self, trans, query, ascending, column_name=None):\n return grids.GridColumn.sort(self, trans, query, ascending, column_name=\"history_id\")",
"def _swap_columns(self, side):\n displayed_cols = self._displayed_cols\n i1 = self._dragged_col_index\n i2 = i1 + 1 if side == 'right' else i1 - 1\n if 0 <= i2 < len(displayed_cols):\n # there is a neighbor, swap columns:\n displayed_cols[i1] = displayed_cols[i2]\n displayed_cols[i2] = self._dragged_col\n self[\"displaycolumns\"] = displayed_cols\n if side == 'left':\n right = self._dragged_col_neighbor_widths[0]\n self._dragged_col_x -= right # update dragged column x coordinate\n # set new left neighbor width\n if i2 > 0:\n left = ttk.Treeview.column(self, displayed_cols[i2 - 1], 'width')\n else:\n left = None\n else:\n left = self._dragged_col_neighbor_widths[1]\n self._dragged_col_x += left # update x coordinate of dragged column\n # set new right neighbor width\n if i2 < len(displayed_cols) - 1:\n right = ttk.Treeview.column(self, displayed_cols[i2 + 1], 'width')\n else:\n right = None\n self._dragged_col_index = i2 # update dragged column index\n self._dragged_col_neighbor_widths = (left, right)",
"def drag_vendor_price_lists_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.view_price_list_div_id, source_column, destination_column)",
"def click_on_sort(self):\r\n self.driver.find_element_by_xpath('//*[@id=\"dataTable\"]/thead/tr[3]/th[4]').click()",
"def reversesort(self):\n ..."
] | [
"0.6748325",
"0.6233389",
"0.6176203",
"0.6165395",
"0.61402655",
"0.6138533",
"0.61011356",
"0.60406655",
"0.60027915",
"0.59636444",
"0.59400725",
"0.5939008",
"0.59384114",
"0.5935448",
"0.5922772",
"0.59178513",
"0.5914183",
"0.5831863",
"0.5779388",
"0.5765998",
"0.57573885",
"0.57484955",
"0.5733222",
"0.5731685",
"0.57043755",
"0.56873375",
"0.5674892",
"0.5648936",
"0.564543",
"0.56356704"
] | 0.72503424 | 0 |
Implementing get all rows of specific column from destinations grid functionality | def get_all_rows_of_specific_column_from_destinations_grid(self, column_name):
self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.destinations_grid_div_id, column_name, self.get_grid_row_count(self.destinations_grid_row_count_span_locator, 1))
return self.all_row_data | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def get_all_rows_of_specific_column_from_vendor_price_list_detail_reference_rates_grid(self, column_name):\n self.wait_for_ajax_spinner_load(300)\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.vendor_price_list_detail_reference_rates_grid_div_id, column_name)\n return self.all_row_data",
"def get_all_rows_of_specific_column_from_vendor_price_list_detail_grid(self, column_name):\n self.wait_for_ajax_spinner_load(300)\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.vendor_price_list_detail_rates_grid_div_id, column_name)\n return self.all_row_data",
"def get_all_rows_of_specific_column_only_from_vendor_price_list_detail_grid(self, div_id, column_name):\n row_count = len(self.wait().until(EC.presence_of_all_elements_located(self.vendor_price_list_detail_row_locator), 'vendor price list details row element locator not found before specified time'))\n all_row_data = []\n next_page = False\n column_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::th[@data-title='%s']\" % (div_id, column_name))\n column_element = self.wait().until(EC.presence_of_element_located(column_locator), 'column locator not found before specified time out')\n column_index = int(column_element.get_attribute(\"data-index\")) + 1\n row = 1\n try:\n while row < row_count+1:\n column_value_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::div[@class='k-grid-content']/descendant::tbody[@role='rowgroup']/tr[%s]/td[%s]/descendant::td\" % (div_id, row, str(column_index)))\n column_value_element = self.wait(10).until(EC.presence_of_element_located(column_value_locator), 'column value locator not found before specified time out')\n column_value = str(column_value_element.get_attribute(\"innerHTML\"))\n if column_value not in all_row_data:\n all_row_data.append(column_value)\n else:\n row_count += 1\n if row % 50 == 0:\n next_page = True\n next_page_button_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-arrow-e']\" % div_id)\n self.click_element(next_page_button_locator, True)\n row = 0\n row_count -= 50\n row += 1\n except WebDriverException:\n pass\n if next_page is True:\n first_page_button_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-seek-w']\" % div_id)\n self.click_element(first_page_button_locator, True)\n return all_row_data",
"def get_all_rows_of_specific_column_from_re_analysis_detail_grid(self, column_name):\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.re_analysis_detail_grid_div_id, column_name)\n return self.all_row_data",
"def rosterRowData(self):",
"def get_all_rows_of_specific_column_from_vendor_price_lists_grid(self, column_name):\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.view_price_list_div_id, column_name, self.get_grid_row_count(self.price_lists_grid_row_count_span_locator, 7))\n return self.all_row_data",
"def get_all_rows_of_specific_column_from_rates_grid(self, column_name):\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.rates_grid_div_id, column_name, self.get_grid_row_count(self.rates_grid_row_count_span_locator, 1))\n return self.all_row_data",
"def get_all_rows_of_specific_column_from_vendor_price_list_detail_dial_digits_grid(self, column_name):\n self.wait_for_ajax_spinner_load(300)\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.vendor_price_list_detail_dial_digits_grid_div_id, column_name)\n return self.all_row_data",
"def get_column(grid, column_index):\n\treturn [row[column_index] for row in grid]",
"def col(self, col: tuple) -> list:\n return self.grid[col::9]",
"def get_column(grid, column_index):\n return [row[column_index] for row in grid]",
"def get_all_rows_of_specific_column_from_country_groups_grid(self, column_name):\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.country_groups_grid_div_id, column_name, self.get_grid_row_count(self.country_groups_grid_row_count_span_locator, 2))\n return self.all_row_data",
"def get_grid(self):\n self.fullws = []\n for row in self.word_search_grid:\n rowdata = []\n for column in row:\n rowdata += [column.entry.get()]\n self.fullws += [rowdata]\n self.logic.set_grid(self.fullws)",
"def row(self, row: int) -> list:\n index_start = row * 9\n return self.grid[index_start:index_start+9]",
"def get_all_rows_of_specific_column_from_re_analysis_grid(self, column_name):\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.re_analysis_grid_div_id, column_name, self.get_grid_row_count(self.re_analysis_grid_row_count_span_locator, 2))\n return self.all_row_data",
"def get_all_rows_of_rate_column_from_vendor_price_list_detail_grid(self, column_name):\n self.wait_for_ajax_spinner_load()\n self.all_row_data = self.get_all_rows_of_specific_column_only_from_vendor_price_list_detail_grid(self.vendor_price_list_detail_rates_grid_div_id, column_name)\n return self.all_row_data",
"def get_all_rows_of_specific_column_from_vendors_grid(self, column_name):\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.vendors_div_id, column_name, self.get_grid_row_count(self.vendors_grid_row_count_span_locator, 5))\n return self.all_row_data",
"def get_all_rows_of_specific_column_from_buy_and_sell_management_grid(self, column_name):\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.buy_and_sell_management_grid_div_id, column_name, self.get_grid_row_count(self.buy_and_sell_management_grid_count_span_locator, 2))\n return self.all_row_data",
"def get_all_rows_of_rate_increase_violation_column_from_vendor_price_list_detail_grid(self, column_name):\n self.all_row_data = []\n self.wait_for_ajax_spinner_load()\n row_count = len(self.wait().until(EC.presence_of_all_elements_located(self.vendor_price_list_detail_row_locator), 'vendor price list details row element locator not found before specified time'))\n next_page = False\n column_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::th[@data-title='%s']\" % (self.vendor_price_list_detail_rates_grid_div_id, column_name))\n column_element = self.wait().until(EC.presence_of_element_located(column_locator), 'column locator not found before specified time out')\n column_index = int(column_element.get_attribute(\"data-index\")) + 1\n row = 1\n try:\n while row < row_count + 1:\n column_value_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::div[@class='k-grid-content']/descendant::tbody[@role='rowgroup']/tr[%s]/td[%s]\" % (self.vendor_price_list_detail_rates_grid_div_id, row, str(column_index)))\n column_value_element = self.wait(10).until(EC.presence_of_element_located(column_value_locator), 'column value locator not found before specified time out')\n column_value = str(column_value_element.get_attribute(\"innerHTML\"))\n if column_value not in self.all_row_data:\n self.all_row_data.append(column_value)\n else:\n row_count += 1\n if row % 50 == 0:\n next_page = True\n next_page_button_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-arrow-e']\" % self.vendor_price_list_detail_rates_grid_div_id)\n self.click_element(next_page_button_locator, True)\n row = 0\n row_count -= 50\n row += 1\n except WebDriverException:\n pass\n if next_page is True:\n first_page_button_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-seek-w']\" % self.vendor_price_list_detail_rates_grid_div_id)\n self.click_element(first_page_button_locator, True)\n return self.all_row_data",
"def get_col(grid, n):\n\t\n if grid == []:\n return grid\n \n return [grid[0][n]] + get_col(grid[1:],n)",
"def get_all_rows_of_specific_column_from_dialed_digits_grid(self, column_name):\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.dialed_digits_grid_div_id, column_name, self.get_grid_row_count(self.dialed_digits_grid_row_count_span_locator, 1))\n return self.all_row_data",
"def get_tile(self, row, col):\r\n # replace with your code\r\n return self.grid[row][col]",
"def get_destinations_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.destinations_grid_div_id)\n return self.column_name_list",
"def grid(self, (z, x, y)):\n # sources.py -> MapnikRenderer -> grid\n content = self.reader.grid(z, x, y, self.grid_fields, self.grid_layer)\n return content",
"def get_tile(self, row, col):\n # replace with your code\n return self.grid[row][col]",
"def columns(self):\n \n pass",
"def last_col_filtered(self):\n data = []\n for row in range(self.proxyModel3.rowCount()):\n data.append([])\n for column in range(self.proxyModel3.columnCount()):\n index = self.proxyModel3.index(row, column)\n data[row].append(str(self.proxyModel3.data(index)))\n data2 = [col[6] for col in data]\n # print(data)\n # print(data2)\n return data2",
"def get_tile(self, row, col):\n # replace with your code\n return self._grid[row][col]",
"def get_tile(self, row, col):\n # replace with your code\n return self._grid[row][col]",
"def get_tile(self, row, col):\n # replace with your code\n return self._grid[row][col]"
] | [
"0.6303741",
"0.62930655",
"0.6254943",
"0.6227934",
"0.61512834",
"0.6140547",
"0.60945916",
"0.6090242",
"0.60741615",
"0.60611176",
"0.6047539",
"0.6027426",
"0.5987689",
"0.59718055",
"0.5955576",
"0.5941083",
"0.5929818",
"0.5929561",
"0.5907124",
"0.5904686",
"0.5822505",
"0.57550776",
"0.57025653",
"0.5699204",
"0.56950885",
"0.56696415",
"0.56694883",
"0.5571735",
"0.5571735",
"0.5571735"
] | 0.7332637 | 0 |
Implementing drag destinations grid column functionality | def drag_destinations_grid_column(self, source_column, destination_column):
self.drag_grid_column(self.destinations_grid_div_id, source_column, destination_column) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def drag_vendors_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.vendors_div_id, source_column, destination_column)",
"def _drag_col(self, event):\n x = self._dx + event.x # get dragged column new left x coordinate\n self._visual_drag.place_configure(x=x) # update column preview position\n # if one border of the dragged column is beyon the middle of the\n # neighboring column, swap them\n if (self._dragged_col_neighbor_widths[0] is not None and\n x < self._dragged_col_x - self._dragged_col_neighbor_widths[0] / 2):\n self._swap_columns('left')\n elif (self._dragged_col_neighbor_widths[1] is not None and\n x > self._dragged_col_x + self._dragged_col_neighbor_widths[1] / 2):\n self._swap_columns('right')\n # horizontal scrolling if the cursor reaches the side of the table\n if x < 0 and self.xview()[0] > 0:\n # scroll left and update dragged column x coordinate\n self.xview_scroll(-10, 'units')\n self._dragged_col_x += 10\n elif x + self._dragged_col_width / 2 > self.winfo_width() and self.xview()[1] < 1:\n # scroll right and update dragged column x coordinate\n self.xview_scroll(10, 'units')\n self._dragged_col_x -= 10",
"def drag_rates_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.rates_grid_div_id, source_column, destination_column)",
"def drag_country_groups_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.country_groups_grid_div_id, source_column, destination_column)",
"def drag_vendor_price_lists_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.view_price_list_div_id, source_column, destination_column)",
"def drag_re_analysis_detail_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.re_analysis_detail_grid_div_id, source_column, destination_column)",
"def drag_dialed_digits_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.dialed_digits_grid_div_id, source_column, destination_column)",
"def drag_re_analysis_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.re_analysis_grid_div_id, source_column, destination_column)",
"def _start_drag_col(self, event):\n # identify dragged column\n col = self.identify_column(event.x)\n self._dragged_col = ttk.Treeview.column(self, col, 'id')\n # get column width\n self._dragged_col_width = w = ttk.Treeview.column(self, col, 'width')\n # get x coordinate of the left side of the column\n x = event.x\n while self.identify_region(x, event.y) == 'heading':\n # decrease x until reaching the separator\n x -= 1\n x_sep = x\n w_sep = 0\n # determine separator width\n while self.identify_region(x_sep, event.y) == 'separator':\n w_sep += 1\n x_sep -= 1\n if event.x - x <= self._im_drag.width():\n # start dragging if mouse click was on dragging icon\n x = x - w_sep // 2 - 1\n self._dragged_col_x = x\n # get neighboring column widths\n displayed_cols = self._displayed_cols\n self._dragged_col_index = i1 = displayed_cols.index(self._dragged_col)\n if i1 > 0:\n left = ttk.Treeview.column(self, displayed_cols[i1 - 1], 'width')\n else:\n left = None\n if i1 < len(displayed_cols) - 1:\n right = ttk.Treeview.column(self, displayed_cols[i1 + 1], 'width')\n else:\n right = None\n self._dragged_col_neighbor_widths = (left, right)\n self._dx = x - event.x # distance between cursor and column left border\n # configure dragged column preview\n self._visual_drag.column(self._dragged_col, width=w)\n self._visual_drag.configure(displaycolumns=[self._dragged_col])\n if 'headings' in tuple(str(p) for p in self['show']):\n self._visual_drag.configure(show='headings')\n else:\n self._visual_drag.configure(show='')\n self._visual_drag.place(in_=self, x=x, y=0, anchor='nw',\n width=w + 2, relheight=1)\n self._visual_drag.state(('active',))\n self._visual_drag.update_idletasks()\n self._visual_drag.yview_moveto(self.yview()[0])\n else:\n self._dragged_col = None",
"def drag_buy_and_sell_management_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.buy_and_sell_management_grid_div_id, source_column, destination_column)",
"def drag_vendor_price_list_detail_grid_column(self, source_column, destination_column):\n self.wait_for_ajax_spinner_load(300)\n self.drag_grid_column(self.vendor_price_list_detail_rates_grid_div_id, source_column, destination_column)",
"def drag_vendor_price_list_detail_reference_rates_grid_column(self, source_column, destination_column):\n self.wait_for_ajax_spinner_load(300)\n self.drag_grid_column(self.vendor_price_list_detail_reference_rates_grid_div_id, source_column, destination_column)",
"def drag_vendor_price_list_detail_dial_digits_grid_column(self, source_column, destination_column):\n self.wait_for_ajax_spinner_load(300)\n self.drag_grid_column(self.vendor_price_list_detail_dial_digits_grid_div_id, source_column, destination_column)",
"def sort_destinations_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.destinations_grid_div_id, column_name, descending_order)",
"def _config_drag_cols(self, drag_cols):\n self._drag_cols = drag_cols\n # remove/display drag icon\n if self._drag_cols:\n self._im_drag.paste(self._im_draggable)\n else:\n self._im_drag.paste(self._im_not_draggable)\n self.focus_set()\n self.update_idletasks()",
"def _swap_columns(self, side):\n displayed_cols = self._displayed_cols\n i1 = self._dragged_col_index\n i2 = i1 + 1 if side == 'right' else i1 - 1\n if 0 <= i2 < len(displayed_cols):\n # there is a neighbor, swap columns:\n displayed_cols[i1] = displayed_cols[i2]\n displayed_cols[i2] = self._dragged_col\n self[\"displaycolumns\"] = displayed_cols\n if side == 'left':\n right = self._dragged_col_neighbor_widths[0]\n self._dragged_col_x -= right # update dragged column x coordinate\n # set new left neighbor width\n if i2 > 0:\n left = ttk.Treeview.column(self, displayed_cols[i2 - 1], 'width')\n else:\n left = None\n else:\n left = self._dragged_col_neighbor_widths[1]\n self._dragged_col_x += left # update x coordinate of dragged column\n # set new right neighbor width\n if i2 < len(displayed_cols) - 1:\n right = ttk.Treeview.column(self, displayed_cols[i2 + 1], 'width')\n else:\n right = None\n self._dragged_col_index = i2 # update dragged column index\n self._dragged_col_neighbor_widths = (left, right)",
"def _drag_row(self, event):\n y = self._dy + event.y # get dragged row new upper y coordinate\n self._visual_drag.place_configure(y=y) # update row preview position\n\n if y > self._dragged_row_y:\n # moving downward\n item = self.identify_row(y + self._dragged_row_height)\n if item != '':\n bbox = self.bbox(item)\n if not bbox:\n # the item is not visible so make it visible\n self.see(item)\n self.update_idletasks()\n bbox = self.bbox(item)\n if y > self._dragged_row_y + bbox[3] / 2:\n # the row is beyond half of item, so insert it below\n self._move_dragged_row(item)\n elif item != self.next(self._dragged_row):\n # item is not the lower neighbor of the dragged row so insert the row above\n self._move_dragged_row(self.prev(item))\n elif y < self._dragged_row_y:\n # moving upward\n item = self.identify_row(y)\n if item != '':\n bbox = self.bbox(item)\n if not bbox:\n # the item is not visible so make it visible\n self.see(item)\n self.update_idletasks()\n bbox = self.bbox(item)\n if y < self._dragged_row_y - bbox[3] / 2:\n # the row is beyond half of item, so insert it above\n self._move_dragged_row(item)\n elif item != self.prev(self._dragged_row):\n # item is not the upper neighbor of the dragged row so insert the row below\n self._move_dragged_row(self.next(item))\n self.selection_remove(self._dragged_row)",
"def move(self, direction):\r\n # replace with your code\r\n initial_tile = self.__direct_top[direction]\r\n offset = OFFSETS[direction]\r\n direct_range = self.__direct_range[direction] \r\n backup_list = [[0 for dummy_col in range(self.grid_width)] for dummy_row in range(self.grid_height)]\r\n \r\n for initial_count, tile_cursor in enumerate(initial_tile):\r\n tem_list = []\r\n grid_cursor = tile_cursor\r\n for dummy_cursor in range(direct_range):\r\n \r\n tem_list.append(self.grid[grid_cursor[0]][grid_cursor[1]])\r\n grid_cursor = tuple(x + y for x,y in zip(grid_cursor,offset))\r\n \r\n new_list = merge(tem_list)\r\n if self.update_dict[direction] == 0:\r\n for col_cursor in range(direct_range):\r\n backup_list[col_cursor][initial_count] = new_list[col_cursor]\r\n elif self.update_dict[direction] == 1: \r\n for col_cursor in range(direct_range):\r\n backup_list[self.grid_height -1 - col_cursor][initial_count] = new_list[col_cursor]\r\n elif self.update_dict[direction] ==3:\r\n backup_list[initial_count] = new_list\r\n else:\r\n for col_cursor in range(direct_range):\r\n backup_list[initial_count][self.grid_width -1 - col_cursor] = new_list[col_cursor]\r\n \r\n flag = (self.grid == backup_list)\r\n self.grid = backup_list\r\n if not flag:\r\n self.new_tile()",
"def drag(self, is_root, is_goal):\n\n cell = self.return_cell()\n\n if is_root:\n self.root_set.add(cell)\n if len(self.root_set) > 2:\n print(\"More than 2 \", len(self.root_set))\n if len(self.root_set) > 1:\n for root_cell in self.root_set:\n if root_cell is not cell:\n root_cell.root = False\n self.root_set.remove(root_cell)\n break\n\n cell.root = True\n self.root = cell\n\n elif is_goal:\n self.goal_set.add(cell)\n\n if len(self.goal_set) > 1:\n for goal_cell in self.goal_set:\n if goal_cell is not cell:\n goal_cell.goal = False\n self.goal_set.remove(goal_cell)\n break\n\n cell.goal = True\n self.goal = cell",
"def click_vendor_grid_add_destination_button(self):\n self.click_element(self.vendor_grid_add_destination_locator)",
"def slider_dragged(self):\n pass",
"def onMoveDown(self):\n self.mainGrid.moveDown()",
"def click_customer_grid_add_destination_button(self):\n self.click_element(self.customer_grid_add_destination_locator)",
"def compare_grid_column_position_after_altering(self, source_column, destination_column, previous_column_name_list):\n destination_column_position = 0\n for i in range(len(previous_column_name_list)):\n if previous_column_name_list[i] == destination_column:\n destination_column_position = i\n break\n if self.column_name_list[destination_column_position] == source_column:\n return True\n else:\n return False",
"def OnReorderableGridMotion(self, evt):\n\t\tif not self._potentialRearrange:\n\t\t\tevt.Skip()\n\t\t\treturn\n\n\t\tif not self._enableReorderRows:\n\t\t\tself._potentialRearrange = False\n\t\t\tevt.Skip()\n\t\t\treturn\n\t\t\t\n\t\tx, y = evt.GetX(), evt.GetY()\n\t\trow, col = self.ReorderableGridRowXYToCell(x,y, colheight=0)\n\t\tif row == self._lastRow:\n\t\t\treturn\n\t\t\t\n\t\tself.DeselectRow( self._lastRow )\n\t\t\n\t\tlastRowSave = [self.GetCellValue(self._lastRow, c) for c in range(self.GetNumberCols())]\n\t\tlastRowBackgroundColourSave = [self.GetCellBackgroundColour(self._lastRow, c) for c in range(self.GetNumberCols())]\n\t\tdirection = 1 if row > self._lastRow else -1 if row < self._lastRow else 0\n\t\tfor r in range(self._lastRow, row, direction ):\n\t\t\tself.copyRow( r + direction, r )\n\t\tfor c in range(self.GetNumberCols()):\n\t\t\tself.SetCellValue( row, c, lastRowSave[c] )\n\t\t\tself.SetCellBackgroundColour( row, c, lastRowBackgroundColourSave[c] )\n\t\t\n\t\tself.SelectRow( row, False )\n\t\tself._lastRow = row",
"def get_destinations_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.destinations_grid_div_id)\n return self.column_name_list",
"def drag_coordinates(self, client, *args):\r\n x_coord1, y_coord1, x_coord2, y_coord2, sec = args\r\n client.dragCoordinates2(x_coord1, y_coord1, x_coord2, y_coord2, sec)",
"def move(self, direction):\n new_grid = []\n # get the indices of specific direction\n new_indices = self._grid_indices[direction]\n for cell in new_indices:\n lst = self.traversed_list(cell, direction)\n merged_list = merge(lst)\n new_grid.append(merged_list)\n \n adjusted_grid = adjust_grid(new_grid,direction)\n if self.is_changed(adjusted_grid):\n self.update_grid(adjusted_grid)\n self.new_tile()",
"def push_down (grid):\r\n \r\n for row in range (4):\r\n section = []\r\n for col in range (4):\r\n section.append(grid[3-col][row])\r\n add(section)\r\n for i in range (4):\r\n grid[i][row] = section[3-i]",
"def createMappedTableColumn(self, destinationColumn: docking.widgets.table.DynamicTableColumn) -> docking.widgets.table.DynamicTableColumn:\n ..."
] | [
"0.72382396",
"0.71842337",
"0.7061494",
"0.7009651",
"0.69909126",
"0.69721526",
"0.69421995",
"0.69150656",
"0.682482",
"0.6799496",
"0.6465314",
"0.6315481",
"0.6183234",
"0.6104745",
"0.5916967",
"0.58398587",
"0.5799842",
"0.5799038",
"0.57160217",
"0.5708412",
"0.56216437",
"0.5609949",
"0.55990773",
"0.55625516",
"0.5545206",
"0.55269563",
"0.5470006",
"0.54373586",
"0.5432993",
"0.5412041"
] | 0.7849693 | 0 |
Implementing get destinations grid column names by order functionality | def get_destinations_grid_column_names_by_order(self):
self.column_name_list = self.get_grid_column_names_by_order(self.destinations_grid_div_id)
return self.column_name_list | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def get_rates_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.rates_grid_div_id)\n return self.column_name_list",
"def get_vendor_price_list_detail_reference_rates_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_reference_rates_grid_div_id)\n return self.column_name_list",
"def get_vendor_price_list_detail_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_rates_grid_div_id)\n return self.column_name_list",
"def get_vendor_price_lists_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.view_price_list_div_id)\n return self.column_name_list",
"def get_vendors_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.vendors_div_id)\n return self.column_name_list",
"def get_re_analysis_detail_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.re_analysis_detail_grid_div_id)\n return self.column_name_list",
"def get_country_groups_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.country_groups_grid_div_id)\n return self.column_name_list",
"def get_re_analysis_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.re_analysis_grid_div_id)\n return self.column_name_list",
"def get_vendor_price_list_detail_dial_digits_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_dial_digits_grid_div_id)\n return self.column_name_list",
"def get_buy_and_sell_management_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.buy_and_sell_management_grid_div_id)\n return self.column_name_list",
"def get_dialed_digits_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.dialed_digits_grid_div_id)\n return self.column_name_list",
"def get_sort_columns(self):\n col_sort_orders = self.gridpreference_sort.all().values_list('column__id', flat=True)\n return GridColumn.objects.select_related().all().filter(id__in=col_sort_orders)",
"def sort_destinations_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.destinations_grid_div_id, column_name, descending_order)",
"def get_sort_columns_raw(self):\n col_sort_orders = self.gridpreference_sort.all().select_related()\n \n return [x.sort_display for x in col_sort_orders]",
"def get_display_columns(self): \n if not hasattr(self, '_display_columns'):\n self._display_columns = self.gridpreference_displayorder.all().select_related()\n return self._display_columns",
"def columnTitles(self):\n \n pass",
"def columnTitles(self):\n \n pass",
"def get_order_columns(self):\n return self.order_columns",
"def _generate_column_names(self):\n names = []\n # Assuming same number of compounds for every reaction!\n\n names = ['compound_{}'.format(i) for i in range(self.total_compounds)]\n names += ['compound_{}_amount'.format(i)\n for i in range(self.total_compounds)]\n for grid_param in self.params_grid_data.keys():\n names.append(grid_param)\n\n return names",
"def sort_vendors_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.vendors_div_id, column_name, descending_order)",
"def sort_country_groups_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.country_groups_grid_div_id, column_name, descending_order)",
"def output_columns(self) -> List[str]:",
"def get_loci_colnames(df):\n if 'node1_locus' in df.columns:\n return 'node1_locus', 'node2_locus'\n elif 'gene A' in df.columns:\n return 'gene A', 'gene B'",
"def header(self, cols, parent_row):\n out = []\n for col in cols:\n if col == 'gau_id':\n out.append(self.name_for('Geographies', parent_row['geography_id']))\n elif col == 'oth_1_id':\n out.append(self.name_for('OtherIndexes', parent_row['other_index_1_id']))\n elif col == 'oth_2_id':\n out.append(self.name_for('OtherIndexes', parent_row['other_index_2_id']))\n else:\n out.append(col)\n return out",
"def getGridNames(self):\n return list(self.gridName.values())",
"def sort_vendor_price_lists_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.view_price_list_div_id, column_name, descending_order)",
"def get_colnames(self):\n\n cd = self.conn.execute('select * from atom')\n print('Possible column names are:')\n names = list(map(lambda x: x[0], cd.description))\n print('\\trowID')\n for n in names:\n print('\\t'+n)",
"def dest_columns(self):\n return self.intersection + self.dest_renames",
"def _add_column_and_sort_table(sources, pointing_position):\n sources = sources.copy()\n source_pos = SkyCoord(sources[\"RA\"], sources[\"DEC\"], unit=\"deg\")\n sources[\"separation\"] = pointing_position.separation(source_pos)\n sources[\"phi\"] = pointing_position.position_angle(source_pos)\n sources.sort(\"separation\")\n return sources",
"def get_column_dict(self) -> HeaderToWells:\n return self._grid.columns"
] | [
"0.72622323",
"0.7218417",
"0.7215878",
"0.72019285",
"0.71896446",
"0.7139068",
"0.7017154",
"0.6964337",
"0.69463485",
"0.69126475",
"0.6650734",
"0.6562746",
"0.63312244",
"0.6132682",
"0.61307395",
"0.6114618",
"0.6114618",
"0.594471",
"0.5813018",
"0.56707597",
"0.5611834",
"0.5606005",
"0.5598519",
"0.5597623",
"0.55946785",
"0.5563386",
"0.5539734",
"0.55274737",
"0.5517174",
"0.5503976"
] | 0.80835813 | 0 |
Implementing sort dialed digits grid column functionality | def sort_dialed_digits_grid_column(self, column_name, descending_order):
self.sort_grid_column(self.dialed_digits_grid_div_id, column_name, descending_order) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def sortby_num(tree, col, descending): # 重新排序 <-- 數字版\n # grab values to sort\n data = [(tree.set(child, col), child) \\\n for child in tree.get_children('')]\n\n # if the data to be sorted is numeric change to float\n #data = change_numeric(data)\n # now sort the data in place\n #data.sort(reverse=descending)\n # 數字的排法(但文字部分就無法排序)\n data.sort(key=lambda data: int(data[0]), reverse=descending)\n\n for ix, item in enumerate(data):\n tree.move(item[1], '', ix)\n\n # switch the heading so it will sort in the opposite direction\n tree.heading(col, command=lambda col=col: sortby_num(tree, col, \\\n int(not descending)))",
"def sort_vendor_price_list_detail_dial_digits_grid_column(self, column_name, descending_order):\n self.wait_for_ajax_spinner_load(300)\n self.sort_grid_column(self.vendor_price_list_detail_dial_digits_grid_div_id, column_name, descending_order)",
"def sort_nicely(col):\n convert = lambda text: int(text) if text.isdigit() else text\n alphanum_key = lambda key: [convert(c) for c in re.split('([0-9]+)', key[col])]\n return alphanum_key",
"def sort_digits(digits, key):\r\n\r\n if not digits:\r\n return []\r\n\r\n # sort according to x-coordinate of bounding rectangle\r\n digits = sorted(digits, key=key)\r\n\r\n return digits",
"def sortby(tree, col, descending): # 重新排序 <-- 文字版\n # grab values to sort\n data = [(tree.set(child, col), child) \\\n for child in tree.get_children('')]\n\n # if the data to be sorted is numeric change to float\n #data = change_numeric(data)\n # now sort the data in place\n data.sort(reverse=descending)\n # 數字的排法(但文字部分就無法排序)\n #data.sort(key=lambda data: int(data[0]), reverse=descending)\n\n for ix, item in enumerate(data):\n tree.move(item[1], '', ix)\n\n # switch the heading so it will sort in the opposite direction\n tree.heading(col, command=lambda col=col: sortby(tree, col, \\\n int(not descending)))",
"def nat_sort(x, df):\n unordered = df.swing_drop.tolist()\n reordered = natsorted(unordered, alg=ns.IGNORECASE)\n return reordered.index(x)",
"def get_dialed_digits_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.dialed_digits_grid_div_id)\n return self.column_name_list",
"def sortColors(self, nums: List[int]) -> None:\n\n def quick_sort(ary, gte_idx, lte_idx) -> None:\n\n # 재귀 탈출조건\n if lte_idx - gte_idx < 1:\n return\n\n # 임의의 위치를 pivot으로 지정 (여기선 가운데 값)\n init_pivot_idx = (gte_idx + lte_idx) // 2\n\n # print(\"test:\", [str(p) if gte_idx <= p_idx <= lte_idx else \"_\" for p_idx, p in enumerate(ary)])\n # pivot 값을 맨 앞의 값과 swap한다 (순차적으로 읽으면서 pivot과 비교할거니까)\n ary[gte_idx], ary[init_pivot_idx] = ary[init_pivot_idx], ary[gte_idx]\n\n # gte_idx+1부터 차례로 읽으면서 pivot보다 작은 값이 있으면\n # 읽은 범위 내의 pivot보다 큰 값 중 맨 앞의 것과 swap해준다\n bigger_idx = gte_idx + 1\n for i in range(gte_idx + 1, lte_idx + 1):\n # 맨 앞의 pivot과 비교\n if ary[i] < ary[gte_idx]:\n ary[i], ary[bigger_idx] = ary[bigger_idx], ary[i]\n bigger_idx += 1\n # print(\"test:\", [str(p) if gte_idx <= p_idx <= lte_idx else \"_\" for p_idx, p in enumerate(ary)])\n\n # 맨 앞에 있던 pivot을 pivot보다 큰 범위의 바로 앞의 값과 swap\n ary[gte_idx], ary[bigger_idx - 1] = ary[bigger_idx - 1], ary[gte_idx]\n # print(\"test:\", [str(p) if gte_idx <= p_idx <= lte_idx else \"_\" for p_idx, p in enumerate(ary)])\n\n # recursion으로 좌우 분할정복\n pivot_idx = bigger_idx - 1\n quick_sort(ary, gte_idx, pivot_idx - 1)\n quick_sort(ary, pivot_idx + 1, lte_idx)\n\n quick_sort(nums, 0, len(nums) - 1)",
"def OnColumnClick(self, event):\r\n columns = self.data.getParam('columns')\r\n self.SortItems(columns[event.GetColumn()],'INVERT')",
"def sort(self, Ncol, order):\n self.emit(SIGNAL(\"layoutAboutToBeChanged()\"))\n self.arraydata = sorted(self.arraydata, key=operator.itemgetter(Ncol)) \n if order == Qt.DescendingOrder:\n self.arraydata.reverse()\n self.emit(SIGNAL(\"layoutChanged()\"))",
"def sort(self, Ncol, order):\n self.emit(SIGNAL(\"layoutAboutToBeChanged()\"))\n self.arraydata = sorted(self.arraydata, key=operator.itemgetter(Ncol)) \n if order != Qt.DescendingOrder:\n self.arraydata.reverse()\n self.emit(SIGNAL(\"layoutChanged()\"))",
"def renumber_cells_ordering(self):\n Nactive = sum(~self.cells['deleted'])\n return np.argsort( self.cells['deleted'],kind='mergesort')[:Nactive]",
"def sort_table(table, sats_table):",
"def sort(self, label, descending=True):\n new_label = []\n new_rows1 = []\n for x in self.column_labels:\n new_label.append(x)\n \n # self.column_labels.index(label)\n for x in self.rows:\n new_row = []\n new_row += x\n new_rows1.append(new_row)\n \n \n \n \n new_rows = sorted(new_rows1, key=lambda s: s[self.column_labels.index(label)], reverse = descending)\n \n new_Table = T88ble(new_rows, new_label)\n\n return new_Table",
"def sort(self):\n for i in range(self.num):\n for j in range(i,0,-1):\n if self.genepool[0][j] < self.genepool[0][j-1]:\n self.genepool[0][j], self.genepool[0][j-1] = self.genepool[0][j-1], self.genepool[0][j]\n else:\n break\n for i in range(self.num):\n for j in range(i,0,-1):\n if self.genepool[1][j] < self.genepool[1][j-1]:\n self.genepool[1][j], self.genepool[1][j-1] = self.genepool[1][j-1], self.genepool[1][j]\n else:\n break",
"def reversesort(self):\n ...",
"def sortColors(self, nums: List[int]) -> None:\n left = -1\n right = len(nums)\n index = 0\n # since it is only 0,1,2, make 0 to the very left side, 2 to the very right side\n # will solve the problem\n while index < right:\n if nums[index] == 0:\n left += 1\n temp = nums[left]\n nums[left] = 0\n nums[index] = temp\n if left == index: index += 1\n elif nums[index] == 2:\n right -= 1\n temp = nums[right]\n nums[right] = 2\n nums[index] = temp\n else:\n index += 1",
"def sortColors(self, nums) -> None:\n my_list = [0, 0, 0]\n for digit in nums:\n my_list[digit] += 1\n k = 0 # k指向第一个不为0的数\n while k < 3 and my_list[k] == 0:\n k += 1\n for i in range(len(nums)):\n nums[i] = k\n my_list[k] -= 1\n while k < 3 and my_list[k] == 0:\n k += 1",
"def sort_re_analysis_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.re_analysis_grid_div_id, column_name, descending_order)",
"def _sort(self):\n self.rows.sort(key=lambda x: (x['PERC1'], x['EQ'], x['PASS'], x['W2']),\n reverse=True)\n\n rank = 0\n prev_perc = 0\n prev_rank = 0\n for row in self.rows:\n if row[\"NR\"] == 0:\n # Something has already populated NR as 0 - so we set rank as\n # 0 too\n row['_RANK'] = 0\n row['_NR'] = 0\n continue\n\n # Increment our count\n rank += 1\n if row['PERC1'] == prev_perc:\n row['NR'] = \"\"\n row['_NR'] = prev_rank # I.e. joint 6th will be 6 here\n row['_RANK'] = rank # I.e. joint 6th could be 7, or 8 etc. here\n else:\n row['NR'] = rank\n row['_NR'] = rank\n row['_RANK'] = rank\n prev_perc = row['PERC1']\n prev_rank = rank",
"def sortColors(nums: [int]) -> None:\n # 简单版快排,使用了额外的空间,不符合题意,做升级版\n # if not nums or len(nums) < 2: return nums\n # pivot_index = 0\n # pivot = nums[pivot_index]\n # left = [i for i in nums[pivot_index+1:] if i <= pivot]\n # right = [i for i in nums[pivot_index+1:] if i > pivot]\n # return sortColors(left) + [pivot] + sortColors(right)\n\n\n # 升级版,原地快排\n l, cur, r = 0, 0, len(nums) - 1\n while l <= r:\n if nums[l] == 0: # 当左指针为0,把先前的1换掉\n nums[l], nums[cur] = nums[cur], nums[l]\n cur += 1\n l += 1\n elif nums[l] == 2: # 当左指针为2时,放到最右边去,然后右指针往左走\n nums[l], nums[r] = nums[r], nums[l]\n r -= 1\n else:\n l += 1",
"def sortColors(self, nums: List[int]):\n nums = []\n nus0 = nums.count(0)\n nus1 = nums.count(1)\n nus2 = nums.count(2)\n for i in range(nus0):\n nums.insert(i,0)\n for j in range(nus1):\n nums.insert(nus0+j,1)\n for z in range(nus2):\n nums.insert(nus0+nus1+z,2)",
"def sort_rates_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.rates_grid_div_id, column_name, descending_order)",
"def sortby(self):\n ...",
"def rearrange_digits(input_list):\n x = 0\n y = 0\n \n sorted_item = merge_sort(input_list)[::-1]\n \n for i in range(0, len(sorted_item), 2):\n x = x * 10 + sorted_item[i]\n \n for j in range(1, len(sorted_item), 2):\n y = y * 10 + sorted_item[j]\n \n return [x, y]",
"def sortColors(self, nums: List[int]) -> None:\n # initialize several pointers\n l = 0\n r = len(nums) - 1\n cur = 0\n \n # use two pointers on the two ends\n while (cur <= r):\n # if number is 0, swap with l (to stay on the left)\n if nums[cur] == 0:\n nums[l], nums[cur] = nums[cur], nums[l]\n l += 1\n cur += 1\n # if number is 2, swap with r (to stay on the right)\n elif nums[cur] == 2:\n nums[r], nums[cur] = nums[cur], nums[r]\n r -= 1\n else: \n cur += 1",
"def sortColors(self, nums: List[int]) -> None:\n # 将0不断交换到左边,将2不断交换到右边\n left,right=0,len(nums)-1\n index=0\n while index<=right:\n if nums[index]==0:\n nums[index],nums[left]=nums[left],nums[index]\n left+=1\n if nums[index]==2:\n nums[index],nums[right]=nums[right],nums[index]\n right-=1\n if nums[index]!=1: #因为index是往右走的,上面那个如果出现换完以后nums[index]=0的话,无所谓,index继续走就好了,因为0就是要在index左边的\n index-=1 # 但是如果换完是2的话,还需要继续判断这个值。所以让index原地不动\n index+=1",
"def sortColors(self, nums: List[int]) -> None:\n tp=[1 for i in nums]\n start=0\n end=len(tp)-1\n for i in nums:\n if i==0:\n tp[start]=i\n start+=1\n elif i==2:\n tp[end]=i\n end-=1\n for index,i in enumerate(tp):\n nums[index]=i",
"def sortColors(self, nums: 'List[int]') -> None:\n for i in range(len(nums)):\n for j in range(len(nums)-1-i):\n if nums[j] > nums[j+1]:\n temp = nums[j]\n nums[j] = nums[j+1]\n nums[j+1] = temp",
"def sortColors(self, nums: List[int]) -> None:\n\n right = 0\n left = len(nums) - 1\n i = 0\n while i <= left:\n if nums[i] == 0:\n temp = nums[i]\n nums[i] = nums[right]\n nums[right] = temp\n right += 1\n i += 1\n elif nums[i] == 2:\n temp = nums[i]\n nums[i] = nums[left]\n nums[left] = temp\n left -= 1\n else:\n i += 1"
] | [
"0.65432256",
"0.6308431",
"0.6299951",
"0.60852534",
"0.6031628",
"0.5974308",
"0.5959477",
"0.59105223",
"0.59074795",
"0.5895751",
"0.58831185",
"0.58499944",
"0.5799898",
"0.5791985",
"0.57489526",
"0.5747146",
"0.57328117",
"0.5689941",
"0.5684453",
"0.56545144",
"0.5654241",
"0.56434166",
"0.5628128",
"0.56230414",
"0.5618321",
"0.5603467",
"0.560189",
"0.5597637",
"0.55862",
"0.5581407"
] | 0.735716 | 0 |
Implementing get all rows of specific column from dialed digits grid functionality | def get_all_rows_of_specific_column_from_dialed_digits_grid(self, column_name):
self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.dialed_digits_grid_div_id, column_name, self.get_grid_row_count(self.dialed_digits_grid_row_count_span_locator, 1))
return self.all_row_data | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def inner_grid(height, width, digit):\n grid = create_grid(height, width)\n for r in range(1, height - 1):\n for c in range(1, width - 1):\n grid[r][c] = digit\n return grid",
"def row(self, row: int) -> list:\n index_start = row * 9\n return self.grid[index_start:index_start+9]",
"def col(self, col: tuple) -> list:\n return self.grid[col::9]",
"def get_col(grid, n):\n\t\n if grid == []:\n return grid\n \n return [grid[0][n]] + get_col(grid[1:],n)",
"def collect_rows():\n return ((x, y) for x in range(80) for y in range(x + 1, 9 + (x//9)*9))",
"def get_visible_cells(self):\r\n ux, uy = self.GetScrollPixelsPerUnit()\r\n sx, sy = self.GetViewStart()\r\n w, h = self.GetGridWindow().GetClientSize().Get()\r\n sx *= ux\r\n sy *= uy\r\n start_col = self.XToCol(sx)\r\n start_row = self.YToRow(sy)\r\n end_col = self.XToCol(sx + w, True)\r\n end_row = self.YToRow(sy + h, True)\r\n return start_row, end_row, start_col, end_col",
"def __ret_cell(self, cell):\n # try:\n # assert cell < self.length\n # except AssertionError:\n # print(\"ERROR: Cell value '%d' is larger than total size '%d'.\" % (cell, self.length-1))\n # sys.exit()\n # Next value is every self.row * N. Work backwards with int division.\n # a = cell // self.row % self.row\n # a = cell // self.row\n a = cell // self.col % self.row\n # Values are consequtive and wrap at self.col.\n b = cell % self.col\n return [a, b]",
"def render_text(grid):\r\n X = len(grid[0])\r\n Y = len(grid)\r\n#top row:\r\n for j in range(Y):\r\n for sub_j in range(3): #3 rows \r\n ROW = []\r\n for i in range(X):\r\n ROW += grid[j][i].arr[sub_j]\r\n print(ROW)",
"def get_all_numbered_cells(self):\r\n num_rows = len(self.mine_field)\r\n num_cols = len(self.mine_field[0])\r\n numbered_cells = [(row, col)\r\n for row in range(num_rows)\r\n for col in range(num_cols)\r\n if self.mine_field[row][col] != '?' and \\\r\n self.mine_field[row][col] != 'x']\r\n return numbered_cells",
"def get_cells(self, row, col):\r\n surrounding_cells = self.get_surrounding_cells(row, col)\r\n closed_cells = self.filter_cells(surrounding_cells, '?')\r\n mine_cells = self.filter_cells(surrounding_cells, 'x')\r\n numbered_cells = list(set(surrounding_cells).difference(closed_cells))\r\n numbered_cells = list(set(numbered_cells).difference(mine_cells))\r\n return surrounding_cells, closed_cells, mine_cells, numbered_cells",
"def get_tile(self, row, col):\r\n # replace with your code\r\n return self.grid[row][col]",
"def grid(digit):\n try:\n return DIGIT_TO_GLYPH[int(digit)]\n except IndexError:\n raise ValueError(\"Unknown digit\")",
"def get_grid(self):\n self.fullws = []\n for row in self.word_search_grid:\n rowdata = []\n for column in row:\n rowdata += [column.entry.get()]\n self.fullws += [rowdata]\n self.logic.set_grid(self.fullws)",
"def visualize(grid, board_size=16):\n visual_grid = []\n for i in range(board_size):\n row = []\n for j in range(board_size):\n row.append(grid[(j, i)])\n visual_grid.append(row)\n print(visual_grid)",
"def collect_columns():\n return ((x, y) for x in range(72) for y in range(x + 9, 81, 9))",
"def regex_grid(n):\n cx = 2 ** (n - 1)\n cy = 2 ** (n - 1)\n grid = [[grid_numbering(n, i , j, cx, cy) for i in range(2 ** n)] for j in range(2 ** n)]\n \n return grid",
"def get_tile(self, row, col):\n # replace with your code\n return self.grid[row][col]",
"def getRowColumn(N):\n N += 1\n y = int((np.sqrt(1 + 8 * N) - 1) / 2)\n b = int(N - (y**2 + y) / 2)\n if b == 0:\n return (y - 1, y - 1)\n else:\n return (y, b - 1)",
"def get_number(self, row, col):\r\n return self._grid[row][col]",
"def get_number(self, row, col):\r\n return self._grid[row][col]",
"def get_number(self, row, col):\r\n return self._grid[row][col]",
"def get_tile(self, row, col):\n # replace with your code\n return self._grid[row][col]",
"def get_tile(self, row, col):\n # replace with your code\n return self._grid[row][col]",
"def get_tile(self, row, col):\n # replace with your code\n return self._grid[row][col]",
"def GLDAS025Cellgrid():\n return GLDAS025Grids(only_land=False)",
"def _possible_grids(self, num_windows):\n if num_windows < 2:\n end = 2\n else:\n end = num_windows // 2 + 1\n for rows in range(1, end):\n cols = int(math.ceil(num_windows / rows))\n yield (rows, cols, ROWCOL)\n if rows != cols:\n # also want the reverse test\n yield (cols, rows, COLROW)",
"def _get_cells(\n self, console: \"Console\", column_index: int, column: Column\n ) -> Iterable[_Cell]:\n\n collapse_padding = self.collapse_padding\n pad_edge = self.pad_edge\n padding = self.padding\n any_padding = any(padding)\n\n first_column = column_index == 0\n last_column = column_index == len(self.columns) - 1\n\n _padding_cache: Dict[Tuple[bool, bool], Tuple[int, int, int, int]] = {}\n\n def get_padding(first_row: bool, last_row: bool) -> Tuple[int, int, int, int]:\n cached = _padding_cache.get((first_row, last_row))\n if cached:\n return cached\n top, right, bottom, left = padding\n\n if collapse_padding:\n if not first_column:\n left = max(0, left - right)\n if not last_row:\n bottom = max(0, top - bottom)\n\n if not pad_edge:\n if first_column:\n left = 0\n if last_column:\n right = 0\n if first_row:\n top = 0\n if last_row:\n bottom = 0\n _padding = (top, right, bottom, left)\n _padding_cache[(first_row, last_row)] = _padding\n return _padding\n\n raw_cells: List[Tuple[StyleType, \"RenderableType\"]] = []\n _append = raw_cells.append\n get_style = console.get_style\n if self.show_header:\n header_style = get_style(self.header_style or \"\") + get_style(\n column.header_style\n )\n _append((header_style, column.header))\n cell_style = get_style(column.style or \"\")\n for cell in column.cells:\n _append((cell_style, cell))\n if self.show_footer:\n footer_style = get_style(self.footer_style or \"\") + get_style(\n column.footer_style\n )\n _append((footer_style, column.footer))\n\n if any_padding:\n _Padding = Padding\n for first, last, (style, renderable) in loop_first_last(raw_cells):\n yield _Cell(\n style,\n _Padding(renderable, get_padding(first, last)),\n getattr(renderable, \"vertical\", None) or column.vertical,\n )\n else:\n for (style, renderable) in raw_cells:\n yield _Cell(\n style,\n renderable,\n getattr(renderable, \"vertical\", None) or column.vertical,\n )",
"def stripToGrid(pixelCount, columnCount):\n rowCount = int(pixelCount/columnCount)\n grid = [[0 for x in range(rowCount)] for y in range(columnCount)]\n\n pixel = 0\n for y in range(rowCount):\n for x in range(columnCount): \n column = x if y%2 == 0 else columnCount-1-x\n grid[column][y] = pixel \n pixel += 1 \n\n return grid",
"def fetch_gridcell(x, y, z, vtk_volume):\n s = (vtk_volume.GetScalarComponentAsFloat(x, y, z, 0),\n vtk_volume.GetScalarComponentAsFloat(x+1, y, z, 0),\n vtk_volume.GetScalarComponentAsFloat(x, y+1, z, 0),\n vtk_volume.GetScalarComponentAsFloat(x+1, y+1, z, 0),\n vtk_volume.GetScalarComponentAsFloat(x, y, z+1, 0),\n vtk_volume.GetScalarComponentAsFloat(x+1, y, z+1, 0),\n vtk_volume.GetScalarComponentAsFloat(x, y+1, z+1, 0),\n vtk_volume.GetScalarComponentAsFloat(x+1, y+1, z+1, 0))\n return s",
"def columns(self):\n \n pass"
] | [
"0.6554836",
"0.64810157",
"0.6343464",
"0.6312469",
"0.6301635",
"0.6269364",
"0.62511766",
"0.62419856",
"0.6240083",
"0.6206509",
"0.61028075",
"0.6097708",
"0.6042134",
"0.60250413",
"0.60197484",
"0.6012927",
"0.6010351",
"0.59270597",
"0.59131396",
"0.59131396",
"0.59131396",
"0.58808535",
"0.58808535",
"0.58808535",
"0.5840175",
"0.58180594",
"0.5817879",
"0.58156246",
"0.57979685",
"0.5789627"
] | 0.69036615 | 0 |
Implementing drag dialed digits grid column functionality | def drag_dialed_digits_grid_column(self, source_column, destination_column):
self.drag_grid_column(self.dialed_digits_grid_div_id, source_column, destination_column) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def _start_drag_col(self, event):\n # identify dragged column\n col = self.identify_column(event.x)\n self._dragged_col = ttk.Treeview.column(self, col, 'id')\n # get column width\n self._dragged_col_width = w = ttk.Treeview.column(self, col, 'width')\n # get x coordinate of the left side of the column\n x = event.x\n while self.identify_region(x, event.y) == 'heading':\n # decrease x until reaching the separator\n x -= 1\n x_sep = x\n w_sep = 0\n # determine separator width\n while self.identify_region(x_sep, event.y) == 'separator':\n w_sep += 1\n x_sep -= 1\n if event.x - x <= self._im_drag.width():\n # start dragging if mouse click was on dragging icon\n x = x - w_sep // 2 - 1\n self._dragged_col_x = x\n # get neighboring column widths\n displayed_cols = self._displayed_cols\n self._dragged_col_index = i1 = displayed_cols.index(self._dragged_col)\n if i1 > 0:\n left = ttk.Treeview.column(self, displayed_cols[i1 - 1], 'width')\n else:\n left = None\n if i1 < len(displayed_cols) - 1:\n right = ttk.Treeview.column(self, displayed_cols[i1 + 1], 'width')\n else:\n right = None\n self._dragged_col_neighbor_widths = (left, right)\n self._dx = x - event.x # distance between cursor and column left border\n # configure dragged column preview\n self._visual_drag.column(self._dragged_col, width=w)\n self._visual_drag.configure(displaycolumns=[self._dragged_col])\n if 'headings' in tuple(str(p) for p in self['show']):\n self._visual_drag.configure(show='headings')\n else:\n self._visual_drag.configure(show='')\n self._visual_drag.place(in_=self, x=x, y=0, anchor='nw',\n width=w + 2, relheight=1)\n self._visual_drag.state(('active',))\n self._visual_drag.update_idletasks()\n self._visual_drag.yview_moveto(self.yview()[0])\n else:\n self._dragged_col = None",
"def _drag_col(self, event):\n x = self._dx + event.x # get dragged column new left x coordinate\n self._visual_drag.place_configure(x=x) # update column preview position\n # if one border of the dragged column is beyon the middle of the\n # neighboring column, swap them\n if (self._dragged_col_neighbor_widths[0] is not None and\n x < self._dragged_col_x - self._dragged_col_neighbor_widths[0] / 2):\n self._swap_columns('left')\n elif (self._dragged_col_neighbor_widths[1] is not None and\n x > self._dragged_col_x + self._dragged_col_neighbor_widths[1] / 2):\n self._swap_columns('right')\n # horizontal scrolling if the cursor reaches the side of the table\n if x < 0 and self.xview()[0] > 0:\n # scroll left and update dragged column x coordinate\n self.xview_scroll(-10, 'units')\n self._dragged_col_x += 10\n elif x + self._dragged_col_width / 2 > self.winfo_width() and self.xview()[1] < 1:\n # scroll right and update dragged column x coordinate\n self.xview_scroll(10, 'units')\n self._dragged_col_x -= 10",
"def drag_vendor_price_list_detail_dial_digits_grid_column(self, source_column, destination_column):\n self.wait_for_ajax_spinner_load(300)\n self.drag_grid_column(self.vendor_price_list_detail_dial_digits_grid_div_id, source_column, destination_column)",
"def _on_press(self, event):\n if tk.DISABLED in self.state():\n return\n\n region = self.identify_region(event.x, event.y)\n\n if self._drag_cols and region == 'heading':\n self._start_drag_col(event)\n elif self._drag_rows and region == 'cell':\n self._start_drag_row(event)",
"def drag_rates_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.rates_grid_div_id, source_column, destination_column)",
"def drag_re_analysis_detail_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.re_analysis_detail_grid_div_id, source_column, destination_column)",
"def drag_re_analysis_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.re_analysis_grid_div_id, source_column, destination_column)",
"def swipeBase (self) :\n grid = self.grid\n\n #we start by putting every tile up\n for columnNbr in range(4) :\n nbrZeros = 4 - np.count_nonzero(grid[:,columnNbr])\n\n for lineNbr in range(4) :\n counter = 0\n while (grid[lineNbr, columnNbr] == 0) and (counter < 4):\n counter += 1\n if np.count_nonzero(grid[lineNbr:4, columnNbr]) != 0 :\n for remainingLine in range (lineNbr, 3) :\n grid[remainingLine, columnNbr] = grid[remainingLine+1, columnNbr]\n grid[3, columnNbr] = 0\n\n #now we do the additions\n for lineNbr in range(3) :\n if grid[lineNbr, columnNbr] == grid[lineNbr+1, columnNbr] :\n grid[lineNbr, columnNbr] *= 2\n for remainingLine in range (lineNbr+1, 3) :\n grid[remainingLine, columnNbr] = grid[remainingLine+1, columnNbr]\n grid[3, columnNbr] = 0\n\n return (grid)",
"def _drag_row(self, event):\n y = self._dy + event.y # get dragged row new upper y coordinate\n self._visual_drag.place_configure(y=y) # update row preview position\n\n if y > self._dragged_row_y:\n # moving downward\n item = self.identify_row(y + self._dragged_row_height)\n if item != '':\n bbox = self.bbox(item)\n if not bbox:\n # the item is not visible so make it visible\n self.see(item)\n self.update_idletasks()\n bbox = self.bbox(item)\n if y > self._dragged_row_y + bbox[3] / 2:\n # the row is beyond half of item, so insert it below\n self._move_dragged_row(item)\n elif item != self.next(self._dragged_row):\n # item is not the lower neighbor of the dragged row so insert the row above\n self._move_dragged_row(self.prev(item))\n elif y < self._dragged_row_y:\n # moving upward\n item = self.identify_row(y)\n if item != '':\n bbox = self.bbox(item)\n if not bbox:\n # the item is not visible so make it visible\n self.see(item)\n self.update_idletasks()\n bbox = self.bbox(item)\n if y < self._dragged_row_y - bbox[3] / 2:\n # the row is beyond half of item, so insert it above\n self._move_dragged_row(item)\n elif item != self.prev(self._dragged_row):\n # item is not the upper neighbor of the dragged row so insert the row below\n self._move_dragged_row(self.next(item))\n self.selection_remove(self._dragged_row)",
"def _config_drag_cols(self, drag_cols):\n self._drag_cols = drag_cols\n # remove/display drag icon\n if self._drag_cols:\n self._im_drag.paste(self._im_draggable)\n else:\n self._im_drag.paste(self._im_not_draggable)\n self.focus_set()\n self.update_idletasks()",
"def drag_country_groups_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.country_groups_grid_div_id, source_column, destination_column)",
"def sort_dialed_digits_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.dialed_digits_grid_div_id, column_name, descending_order)",
"def slider_dragged(self):\n pass",
"def _start_drag_row(self, event):\n self._dragged_row = self.identify_row(event.y) # identify dragged row\n bbox = self.bbox(self._dragged_row)\n self._dy = bbox[1] - event.y # distance between cursor and row upper border\n self._dragged_row_y = bbox[1] # y coordinate of dragged row upper border\n self._dragged_row_height = bbox[3]\n # configure dragged row preview\n self._visual_drag.configure(displaycolumns=self['displaycolumns'],\n height=1)\n for col in self['columns']:\n self._visual_drag.column(col, width=self.column(col, 'width'))\n if 'tree' in tuple(str(p) for p in self['show']):\n self._visual_drag.configure(show='tree')\n else:\n self._visual_drag.configure(show='')\n self._visual_drag.place(in_=self, x=0, y=bbox[1],\n height=self._visual_drag.winfo_reqheight() + 2,\n anchor='nw', relwidth=1)\n self._visual_drag.selection_add(self._dragged_row)\n self.selection_remove(self._dragged_row)\n self._visual_drag.update_idletasks()\n self._visual_drag.see(self._dragged_row)\n self._visual_drag.update_idletasks()\n self._visual_drag.xview_moveto(self.xview()[0])",
"def _swap_columns(self, side):\n displayed_cols = self._displayed_cols\n i1 = self._dragged_col_index\n i2 = i1 + 1 if side == 'right' else i1 - 1\n if 0 <= i2 < len(displayed_cols):\n # there is a neighbor, swap columns:\n displayed_cols[i1] = displayed_cols[i2]\n displayed_cols[i2] = self._dragged_col\n self[\"displaycolumns\"] = displayed_cols\n if side == 'left':\n right = self._dragged_col_neighbor_widths[0]\n self._dragged_col_x -= right # update dragged column x coordinate\n # set new left neighbor width\n if i2 > 0:\n left = ttk.Treeview.column(self, displayed_cols[i2 - 1], 'width')\n else:\n left = None\n else:\n left = self._dragged_col_neighbor_widths[1]\n self._dragged_col_x += left # update x coordinate of dragged column\n # set new right neighbor width\n if i2 < len(displayed_cols) - 1:\n right = ttk.Treeview.column(self, displayed_cols[i2 + 1], 'width')\n else:\n right = None\n self._dragged_col_index = i2 # update dragged column index\n self._dragged_col_neighbor_widths = (left, right)",
"def swipeDown (self) :\n rotated = Grid(np.rot90(np.rot90(self.grid)))\n self.grid = np.rot90(np.rot90(rotated.swipeBase()))",
"def drag_vendors_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.vendors_div_id, source_column, destination_column)",
"def onMoveDown(self):\n self.mainGrid.moveDown()",
"def OnMouse(self, event):\r\n\r\n # we want to work with logical coords\r\n x, dummy = self._owner.CalcUnscrolledPosition(event.GetX(), 0)\r\n y = event.GetY()\r\n\r\n if event.Moving():\r\n \r\n col = self.XToCol(x)\r\n if col != self._hotTrackCol:\r\n \r\n # Refresh the col header so it will be painted with hot tracking\r\n # (if supported by the native renderer.)\r\n self.RefreshColLabel(col)\r\n\r\n # Also refresh the old hot header\r\n if self._hotTrackCol >= 0:\r\n self.RefreshColLabel(self._hotTrackCol)\r\n\r\n self._hotTrackCol = col\r\n \r\n if event.Leaving() and self._hotTrackCol >= 0:\r\n \r\n # Leaving the window so clear any hot tracking indicator that may be present\r\n self.RefreshColLabel(self._hotTrackCol)\r\n self._hotTrackCol = -1\r\n \r\n if self._isDragging:\r\n\r\n self.SendListEvent(wx.wxEVT_COMMAND_LIST_COL_DRAGGING, event.GetPosition())\r\n\r\n # we don't draw the line beyond our window, but we allow dragging it\r\n # there\r\n w, dummy = self.GetClientSize()\r\n w, dummy = self._owner.CalcUnscrolledPosition(w, 0)\r\n w -= 6\r\n\r\n # erase the line if it was drawn\r\n if self._currentX < w:\r\n self.DrawCurrent()\r\n\r\n if event.ButtonUp():\r\n self._isDragging = False\r\n if self.HasCapture():\r\n self.ReleaseMouse()\r\n self._dirty = True\r\n self.SetColumnWidth(self._column, self._currentX - self._minX)\r\n self.Refresh()\r\n self.SendListEvent(wx.wxEVT_COMMAND_LIST_COL_END_DRAG, event.GetPosition())\r\n else:\r\n self._currentX = max(self._minX + 7, x)\r\n\r\n # draw in the new location\r\n if self._currentX < w:\r\n self.DrawCurrent()\r\n \r\n else: # not dragging\r\n\r\n self._minX = 0\r\n hit_border = False\r\n\r\n # end of the current column\r\n xpos = 0\r\n\r\n # find the column where this event occured\r\n countCol = self.GetColumnCount()\r\n\r\n for column in xrange(countCol):\r\n\r\n if not self.IsColumnShown(column):\r\n continue # do next if not shown\r\n\r\n xpos += self.GetColumnWidth(column)\r\n self._column = column\r\n if abs (x-xpos) < 3 and y < 22:\r\n # near the column border\r\n hit_border = True\r\n break\r\n \r\n if x < xpos:\r\n # inside the column\r\n break\r\n \r\n self._minX = xpos\r\n \r\n if event.LeftDown() or event.RightUp():\r\n if hit_border and event.LeftDown():\r\n self._isDragging = True\r\n self.CaptureMouse()\r\n self._currentX = x\r\n self.DrawCurrent()\r\n self.SendListEvent(wx.wxEVT_COMMAND_LIST_COL_BEGIN_DRAG, event.GetPosition())\r\n else: # click on a column\r\n evt = (event.LeftDown() and [wx.wxEVT_COMMAND_LIST_COL_CLICK] or [wx.wxEVT_COMMAND_LIST_COL_RIGHT_CLICK])[0]\r\n self.SendListEvent(evt, event.GetPosition())\r\n \r\n elif event.LeftDClick() and hit_border:\r\n self.SetColumnWidth(self._column, self._owner.GetBestColumnWidth(self._column))\r\n self.Refresh()\r\n\r\n elif event.Moving():\r\n \r\n if hit_border:\r\n setCursor = self._currentCursor == wx.STANDARD_CURSOR\r\n self._currentCursor = self._resizeCursor\r\n else:\r\n setCursor = self._currentCursor != wx.STANDARD_CURSOR\r\n self._currentCursor = wx.STANDARD_CURSOR\r\n \r\n if setCursor:\r\n self.SetCursor(self._currentCursor)",
"def drag_vendor_price_lists_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.view_price_list_div_id, source_column, destination_column)",
"def __init__(self, grid, column_id, column_span=1):\n super(GraphVisualizerConnectedcolumn, self).__init__(\n grid, column_id, column_span\n )\n\n for i in range(column_span):\n self._grid.setColumnStretch(self._column_id + i, 1)",
"def draw_next_column(self):\n self.xPos += self.XCOLUMNSKIP + self.XCOLUMNSEP\n self.yPos = self.YORIGIN + Blender.Window.GetAreaSize()[1]",
"def draw_draughts():\n global red_draughts\n global white_draughts\n global board_array\n if(red_draughts == []):\n red_draughts = [board.create_oval(0,0,board_divisions,board_divisions,fill=\"red\") for i in xrange(0,15)]\n white_draughts = [board.create_oval(0,0,board_divisions,board_divisions,fill=\"white\")for i in xrange(0,15)]\n #And create event handlers for dragging these\n for draught in red_draughts:\n board.tag_bind(draught, \"<Button-1>\", move_draught_begin)\n board.tag_bind(draught, \"<B1-Motion>\", move_draught)\n board.tag_bind(draught, \"<ButtonRelease-1>\", move_draught_end)\n for draught in white_draughts:\n board.tag_bind(draught, \"<Button-1>\", move_draught_begin)\n board.tag_bind(draught, \"<B1-Motion>\", move_draught)\n board.tag_bind(draught, \"<ButtonRelease-1>\", move_draught_end)\n\n unmoved_red = list(red_draughts)\n unmoved_white = list(white_draughts)\n red_draughts = []\n white_draughts = []\n print board_array\n for i in xrange(1,len(board_array)-1): #Handle Points, ends and bar handled as special cases\n #Calculate where left side of draughts should be, and whether on top or bottom\n if i <= 6:\n left_side = board_divisions*(8+(6-i))\n bottom = True\n elif i <= 12:\n left_side = board_divisions*(1+(12-i))\n bottom = True\n elif i <= 18:\n bottom = False\n left_side = board_divisions*(1+(i-13))\n else: \n bottom = False\n left_side = board_divisions*(8+(i-19))\n #Move red draughts to right places\n for j in xrange(board_array[i][0]):\n temp = unmoved_red.pop()\n if(bottom == True):\n board.coords(temp,left_side+board_divisions//10*(j//5),board_divisions*(9-(j%5)),left_side+board_divisions+board_divisions//10*(j//5),board_divisions*(10-(j%5)))\n else:\n board.coords(temp,left_side+board_divisions//10*(j//5),board_divisions*(j%5),left_side+board_divisions+board_divisions//10*(j//5),board_divisions*((j%5)+1))\n red_draughts.append(temp)\n #Now white\n for j in xrange(board_array[i][1]):\n temp = unmoved_white.pop()\n if(bottom == True):\n board.coords(temp,left_side+board_divisions//10*(j//5),board_divisions*(9-(j%5)),left_side+board_divisions+board_divisions//10*(j//5),board_divisions*(10-(j%5)))\n else:\n board.coords(temp,left_side+board_divisions//10*(j//5),board_divisions*(j%5),left_side+board_divisions+board_divisions//10*(j//5),board_divisions*((j%5)+1))\n white_draughts.append(temp)\n #Handle white end, red bar\n #Move red draughts to right places on bar\n for j in xrange(board_array[0][0]):\n temp = unmoved_red.pop()\n board.coords(temp,7*board_divisions+board_divisions//10*(j//4),board_divisions*(9-(j%4)),7*board_divisions+board_divisions+board_divisions//10*(j//4),board_divisions*(10-(j%4)))\n red_draughts.append(temp)\n\n #Now white to places in goal\n for j in xrange(board_array[0][1]):\n temp = unmoved_white.pop()\n board.coords(temp,14*board_divisions+board_divisions//10*(j//4),board_divisions*(9-(j%4)),14*board_divisions+board_divisions+board_divisions//10*(j//4),board_divisions*(10-(j%4)))\n white_draughts.append(temp)\n #Handle red end, white\n #Move white draughts to right places on bar\n\n for j in xrange(board_array[25][1]):\n temp = unmoved_white.pop()\n board.coords(temp,7*board_divisions+board_divisions//10*(j//4),board_divisions*(j%4),7*board_divisions+board_divisions+board_divisions//10*(j//4),board_divisions*((j%4)+1))\n white_draughts.append(temp)\n\n #Now red to places in goal\n for j in xrange(board_array[25][0]):\n temp = unmoved_red.pop()\n board.coords(temp,14*board_divisions,board_divisions*j,15*board_divisions,board_divisions*(j+1))\n board.coords(temp,14*board_divisions+board_divisions//10*(j//4),board_divisions*(j%4),14*board_divisions+board_divisions+board_divisions//10*(j//4),board_divisions*((j%4)+1))\n red_draughts.append(temp)\n if(board_array[25][0] == 15):\n print \"You win!\"",
"def cut(self,cell):\r\n self.grid[cell[0]][cell[1]] = 1",
"def drag_destinations_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.destinations_grid_div_id, source_column, destination_column)",
"def OnReorderableGridMotion(self, evt):\n\t\tif not self._potentialRearrange:\n\t\t\tevt.Skip()\n\t\t\treturn\n\n\t\tif not self._enableReorderRows:\n\t\t\tself._potentialRearrange = False\n\t\t\tevt.Skip()\n\t\t\treturn\n\t\t\t\n\t\tx, y = evt.GetX(), evt.GetY()\n\t\trow, col = self.ReorderableGridRowXYToCell(x,y, colheight=0)\n\t\tif row == self._lastRow:\n\t\t\treturn\n\t\t\t\n\t\tself.DeselectRow( self._lastRow )\n\t\t\n\t\tlastRowSave = [self.GetCellValue(self._lastRow, c) for c in range(self.GetNumberCols())]\n\t\tlastRowBackgroundColourSave = [self.GetCellBackgroundColour(self._lastRow, c) for c in range(self.GetNumberCols())]\n\t\tdirection = 1 if row > self._lastRow else -1 if row < self._lastRow else 0\n\t\tfor r in range(self._lastRow, row, direction ):\n\t\t\tself.copyRow( r + direction, r )\n\t\tfor c in range(self.GetNumberCols()):\n\t\t\tself.SetCellValue( row, c, lastRowSave[c] )\n\t\t\tself.SetCellBackgroundColour( row, c, lastRowBackgroundColourSave[c] )\n\t\t\n\t\tself.SelectRow( row, False )\n\t\tself._lastRow = row",
"def draw_numbers(self):\n for i in range(9):\n for j in range(9):\n pos = self.get_pos_in_grid(i, j)\n text = self.grid[i][j]\n text = '' if text == 0 else str(text)\n self.text_to_screen(text, pos)",
"def push_down (grid):\r\n \r\n for row in range (4):\r\n section = []\r\n for col in range (4):\r\n section.append(grid[3-col][row])\r\n add(section)\r\n for i in range (4):\r\n grid[i][row] = section[3-i]",
"def intSliderGrp(*args, adjustableColumn: int=0, adjustableColumn2: int=0, adjustableColumn3:\n int=0, adjustableColumn4: int=0, adjustableColumn5: int=0, adjustableColumn6:\n int=0, annotation: Union[AnyStr, bool]=\"\", backgroundColor: Union[List[float,\n float, float], bool]=None, changeCommand: Script=None, columnAlign:\n Union[List[int, AnyStr], List[List[int, AnyStr]]]=None, columnAlign2:\n List[AnyStr, AnyStr]=None, columnAlign3: List[AnyStr, AnyStr, AnyStr]=None,\n columnAlign4: List[AnyStr, AnyStr, AnyStr, AnyStr]=None, columnAlign5:\n List[AnyStr, AnyStr, AnyStr, AnyStr, AnyStr]=None, columnAlign6: List[AnyStr,\n AnyStr, AnyStr, AnyStr, AnyStr, AnyStr]=None, columnAttach: Union[List[int,\n AnyStr, int], List[List[int, AnyStr, int]]]=None, columnAttach2: List[AnyStr,\n AnyStr]=None, columnAttach3: List[AnyStr, AnyStr, AnyStr]=None, columnAttach4:\n List[AnyStr, AnyStr, AnyStr, AnyStr]=None, columnAttach5: List[AnyStr, AnyStr,\n AnyStr, AnyStr, AnyStr]=None, columnAttach6: List[AnyStr, AnyStr, AnyStr,\n AnyStr, AnyStr, AnyStr]=None, columnOffset2: List[int, int]=None,\n columnOffset3: List[int, int, int]=None, columnOffset4: List[int, int, int,\n int]=None, columnOffset5: List[int, int, int, int, int]=None, columnOffset6:\n List[int, int, int, int, int, int]=None, columnWidth: Union[List[int, int],\n List[List[int, int]]]=None, columnWidth1: int=0, columnWidth2: List[int,\n int]=None, columnWidth3: List[int, int, int]=None, columnWidth4: List[int, int,\n int, int]=None, columnWidth5: List[int, int, int, int, int]=None,\n columnWidth6: List[int, int, int, int, int, int]=None, defineTemplate:\n AnyStr=\"\", docTag: Union[AnyStr, bool]=\"\", dragCallback: Script=None,\n dragCommand: Script=None, dropCallback: Script=None, enable: bool=True,\n enableBackground: bool=True, enableKeyboardFocus: bool=True, exists: bool=True,\n extraLabel: Union[AnyStr, bool]=\"\", field: bool=True, fieldMaxValue: Union[int,\n bool]=0, fieldMinValue: Union[int, bool]=0, fieldStep: Union[int, bool]=0,\n fullPathName: bool=True, height: Union[int, bool]=0, highlightColor:\n Union[List[float, float, float], bool]=None, isObscured: bool=True, label:\n Union[AnyStr, bool]=\"\", manage: bool=True, maxValue: Union[int, bool]=0,\n minValue: Union[int, bool]=0, noBackground: bool=True, numberOfPopupMenus:\n bool=True, parent: Union[AnyStr, bool]=\"\", popupMenuArray: bool=True,\n preventOverride: bool=True, rowAttach: Union[List[int, AnyStr, int],\n List[List[int, AnyStr, int]]]=None, sliderStep: Union[int, bool]=0,\n statusBarMessage: AnyStr=\"\", step: Union[int, bool]=0, useTemplate: AnyStr=\"\",\n value: Union[int, bool]=0, visible: bool=True, visibleChangeCommand:\n Union[Script, bool]=None, width: Union[int, bool]=0, q=True, query=True,\n e=True, edit=True, **kwargs)->Union[AnyStr, Any]:\n pass",
"def clickPiece(self, event):\n r = event.widget.grid_info()['row']\n c = event.widget.grid_info()['column']\n er, ec = self.emptyPiece\n \n #print('clicked: %i, %i' %(r, c))\n \n if r==er: # pieces are on same row as empty\n if c < ec: # columns slide right\n numToSlide = ec-c\n for i in range(0,numToSlide):\n piece = self.findPieceByRC(r, ec-1-i)\n piece.grid(row=r,column=ec-i)\n \n elif c > ec: # slide left\n numToSlide = c-ec\n for i in range(0,numToSlide):\n piece = self.findPieceByRC(r, ec+1+i)\n piece.grid(row=r,column=ec+i)\n self.emptyPiece = (r, c)\n self.moveCount += 1\n #self.moveVar.set(self.moveCount)\n elif c==ec: # pieces on same column\n if r < er: # slide down\n numToSlide = er-r\n for i in range(0,numToSlide):\n piece = self.findPieceByRC(er-1-i, c)\n piece.grid(row=er-i,column=c)\n if r > er:\n numToSlide = r-er\n for i in range(0,numToSlide):\n piece = self.findPieceByRC(er+1+i, c)\n piece.grid(row=er+i,column=c)\n self.emptyPiece = (r, c)\n self.moveCount += 1\n #self.moveVar.set(self.moveCount)"
] | [
"0.7212716",
"0.69431436",
"0.62177426",
"0.6065443",
"0.59255123",
"0.5825183",
"0.5788822",
"0.5751962",
"0.5661148",
"0.5652499",
"0.5650812",
"0.5589316",
"0.5572257",
"0.5544007",
"0.54728323",
"0.5459006",
"0.54425853",
"0.5416628",
"0.53930205",
"0.53640044",
"0.5354955",
"0.53525484",
"0.53238046",
"0.5322986",
"0.5307691",
"0.5282421",
"0.52602404",
"0.5243744",
"0.5229348",
"0.5203098"
] | 0.7784256 | 0 |
Implementing get dialed digits grid column names by order functionality | def get_dialed_digits_grid_column_names_by_order(self):
self.column_name_list = self.get_grid_column_names_by_order(self.dialed_digits_grid_div_id)
return self.column_name_list | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def get_vendor_price_list_detail_dial_digits_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_dial_digits_grid_div_id)\n return self.column_name_list",
"def sort_dialed_digits_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.dialed_digits_grid_div_id, column_name, descending_order)",
"def get_rates_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.rates_grid_div_id)\n return self.column_name_list",
"def get_re_analysis_detail_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.re_analysis_detail_grid_div_id)\n return self.column_name_list",
"def get_re_analysis_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.re_analysis_grid_div_id)\n return self.column_name_list",
"def get_country_groups_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.country_groups_grid_div_id)\n return self.column_name_list",
"def get_vendor_price_lists_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.view_price_list_div_id)\n return self.column_name_list",
"def get_vendors_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.vendors_div_id)\n return self.column_name_list",
"def get_vendor_price_list_detail_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_rates_grid_div_id)\n return self.column_name_list",
"def get_vendor_price_list_detail_reference_rates_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_reference_rates_grid_div_id)\n return self.column_name_list",
"def get_buy_and_sell_management_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.buy_and_sell_management_grid_div_id)\n return self.column_name_list",
"def _generate_column_names(self):\n names = []\n # Assuming same number of compounds for every reaction!\n\n names = ['compound_{}'.format(i) for i in range(self.total_compounds)]\n names += ['compound_{}_amount'.format(i)\n for i in range(self.total_compounds)]\n for grid_param in self.params_grid_data.keys():\n names.append(grid_param)\n\n return names",
"def get_destinations_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.destinations_grid_div_id)\n return self.column_name_list",
"def columns(self):\n \n pass",
"def columnTitles(self):\n \n pass",
"def columnTitles(self):\n \n pass",
"def generate_colnames(df, labelnum=0): # need to be adjusted for GC content\n colnames = []\n for field in range(len(df.columns) - labelnum):\n colnames.append(BEDCOLS[field])\n for label in range(labelnum):\n colnames.append(f\"label_{label+1}\")\n return colnames",
"def sort_vendor_price_list_detail_dial_digits_grid_column(self, column_name, descending_order):\n self.wait_for_ajax_spinner_load(300)\n self.sort_grid_column(self.vendor_price_list_detail_dial_digits_grid_div_id, column_name, descending_order)",
"def get_cols(self):\n collist = []\n if self.direction == \"vertical\":\n if len(self.position[0]) == 4:\n print('TODO')\n elif len(self.position[0]) == 5:\n print('TODO')\n else:\n collist.append(int(self.position[0][2]))\n return collist\n else:\n # check for 3 or 4 length string\n if len(self.position[0]) == 4: # 11.1 or 1.11 ?\n if self.position[0][1] == '.': #1.11\n newstr = self.position[0][2] + self.position[0][3]\n collist.append(int(newstr))\n else: \n collist.append(int(self.position[0][3]))\n print(self.position)\n print(self.position[0])\n elif len(self.position[0]) == 5:\n newstr1 = self.position[0][3] + self.position[0][4]\n collist.append(int(newstr1))\n newstr2 = self.position[1][3] + self.position[1][4]\n collist.append(int(newstr2))\n else:\n collist.append(int(self.position[0][2]))\n collist.append(int(self.position[1][2]))\n if self.size == 3:\n if len(self.position[0]) == 4:\n if self.position[0][1] == '.': #1.11\n print(\"hia\")\n collist.append(int(self.position[2][3]))\n elif len(self.position[0]) == 5:\n newstr = self.position[2][3] + self.position[2][4]\n collist.append(int(newstr))\n else:\n collist.append(int(self.position[2][2]))\n return collist",
"def get_columns(self) -> int:\r\n return 1 + self.display.get_columns() + 1",
"def get_sort_columns_raw(self):\n col_sort_orders = self.gridpreference_sort.all().select_related()\n \n return [x.sort_display for x in col_sort_orders]",
"def _generate_expanded_column_names(self):\n\n names = []\n # Get names of the descriptors\n des_names = [column for column in self.descriptor_dataframe][1:]\n\n # Generate expanded descriptor names for each compound\n for i in range(self.total_compounds):\n for des_name in des_names:\n name = 'compund_{}_{}'.format(i, des_name)\n names.append(name)\n\n return names",
"def get_formatted_text(self, n_cols):",
"def column_order(self):\n return ((1, 2), (1, 0), (1, 1))",
"def init_column_headers(self):\r\n col_headers = {1: \"bid\", 2: \"tricks\", 3: \"score\"}\r\n for player in range(1, 5):\r\n ent_player_name = tk.Entry(self.master, font='courier 10 bold', fg='blue',\r\n borderwidth=2, relief=\"groove\")\r\n ent_player_name.grid(row=0, column=(player - 1) * 3 + 1, columnspan=3,\r\n sticky=tk.W + tk.E, pady=5)\r\n ent_player_name.insert(0, \"Player\" + str(player))\r\n self.ent_player_names.append(ent_player_name)\r\n for key in col_headers:\r\n lbl_column_header = tk.Label(self.master, text=col_headers[key],\r\n font='courier 10 bold', fg='blue',\r\n borderwidth=2, relief=\"groove\")\r\n lbl_column_header.grid(row=1, column=(player - 1) * 3 + key,\r\n sticky=tk.W + tk.E, pady=2)",
"def _get_labels_from_m_columns(\n self,\n m,\n byRow=0,\n usingCellValue=0,\n descending=True,\n file_name=None,\n client_name=None):\n\n # note usingCellValue is not implemented as it wasnt working as\n # expected in this line:\n\n #settings = FormatSettings(label_format=\"{0[usingCellValue].Value} \\\n #{0.SideMember.Label}\")\n\n from transformations.labels.format_labels import FormatSettings\n settings = FormatSettings(\n label_format=\"{0[0].Value} {0.TopMember.Label}\")\n\n if file_name is not None:\n _keep_at_end = self._get_keep_at_end(file_name)\n\n _labels_tmp = [settings.label_format(c) if m[\n byRow].Count > 0 and not c.TopMember.Label in \\\n _keep_at_end else \"\" for c in m[byRow]]\n\n elif client_name is not None:\n _labels_tmp = [settings.label_format(c) if m[byRow].Count > 0 and \\\n c.TopMember.Label != client_name else \"\" \n for c in m[byRow]]\n\n else:\n _labels_tmp = [settings.label_format(\n c) if m[byRow].Count > 0 else \"\" for c in m[byRow]]\n\n if descending:\n return self._rank_position(\n reversed(self._sorted_nicely(_labels_tmp)))\n\n else:\n return self._rank_position(self._sorted_nicely(_labels_tmp))",
"def translate_to_grid(location):\n\n columns = 'abcdefghi'\n return [int(columns.index(location[0].lower())), int(location[1:])-1]",
"def get_cols_dummy():",
"def print_grid(gr):\n for i in range(0,9):\n if((i % 3) == 0):\n print('- - - - - - - - - - - - - - - -')\n for j in range(0,9):\n if((j % 3) == 0):\n print('|', end='')\n \n val = str(gr[i][j])\n if(val == '0'):\n val = ' '\n \n print(' ' + val + ' ', end = '')\n print('|')\n print('- - - - - - - - - - - - - - - -')",
"def _get_grid_representations(self):\n\n representation = '-----------Loading Sequence----------------------------------------------------------------\\n'\n for row in self.grid:\n for col in row:\n if col == -1:\n representation += 'X\\t'\n elif col == 0:\n representation += '-\\t'\n else:\n representation += str(int(col)) + '\\t'\n representation += '\\n\\n'\n\n representation += '-----------VehicleType--------------------------------------------------------------------\\n'\n for row in self.grid_vehicle_type:\n for col in row:\n if col == -2:\n representation += 'X\\t'\n elif col == -1:\n representation += '-\\t'\n else:\n representation += str(int(col)) + '\\t'\n representation += '\\n\\n'\n\n representation += '-----------Destination--------------------------------------------------------------------\\n'\n for row in self.grid_destination:\n for col in row:\n if col == -1:\n representation += 'X\\t'\n elif col == 0:\n representation += '-\\t'\n else:\n representation += str(int(col)) + '\\t'\n representation += '\\n\\n'\n\n return representation"
] | [
"0.69887185",
"0.6779159",
"0.67648315",
"0.6579323",
"0.6563282",
"0.64408743",
"0.6397651",
"0.6286281",
"0.62545884",
"0.62081325",
"0.60578865",
"0.60434365",
"0.60292464",
"0.59779614",
"0.59534293",
"0.59534293",
"0.5917946",
"0.5864879",
"0.586143",
"0.583537",
"0.58231837",
"0.5787724",
"0.57502264",
"0.57374114",
"0.56982076",
"0.5692868",
"0.56765205",
"0.5674259",
"0.56613606",
"0.5635134"
] | 0.7920796 | 0 |
Implementing set vendor price list detail grid settings functionality | def set_vendor_price_list_detail_grid_settings(self, grid_settings):
self.wait_for_ajax_spinner_load(300)
self.set_grid_settings(self.vendor_price_list_detail_rates_grid_div_id, grid_settings) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def set_vendor_price_lists_grid_settings(self, grid_settings):\n self.set_grid_settings(self.view_price_list_div_id, grid_settings)",
"def set_vendor_price_list_detail_dial_digits_grid_settings(self, grid_settings):\n self.wait_for_ajax_spinner_load(300)\n self.set_grid_settings(self.vendor_price_list_detail_dial_digits_grid_div_id, grid_settings)",
"def set_vendor_price_list_detail_reference_rates_grid_settings(self, grid_settings):\n self.wait_for_ajax_spinner_load(300)\n self.set_grid_settings(self.vendor_price_list_detail_reference_rates_grid_div_id, grid_settings)",
"def set_vendor_grid_settings(self, grid_settings):\n self.set_grid_settings(self.vendors_div_id, grid_settings)",
"def get_vendor_price_lists_details(self):\n try:\n self.vendor_price_lists_dict = self.get_grid_row_details(self.customer_price_list_grid_div_id, self.vendor_price_lists_dict)\n return True\n except:\n return False",
"def set_vendor(self, vendor_list):\n self.multiple_items_selection_from_kendo_dropdown(self.vendor_dropdown_locator, vendor_list)\n self.wait_for_ajax_spinner_load()",
"def set_buy_and_sell_management_grid_settings(self, grid_settings):\n self.set_grid_settings(self.buy_and_sell_management_grid_div_id, grid_settings)",
"def set_vendor_price_list_status(self, status_items):\n self.multiple_items_selection_from_kendo_dropdown(self.vendor_price_list_status_kendo_dropdown_locator, status_items)\n self.wait_for_ajax_spinner_load()",
"def change_entries(self, grid_sizer, options, border):\n\n if (self.diag_type is None): return grid_sizer # no data selected, don't change anything\n\n # setup the grid of possible values\n header0 = wx.StaticText(self, -1, \"Add/Remove\")\n header1 = wx.StaticText(self, -1, \"Quantity Code\")\n header2 = wx.StaticText(self, -1, \"Name\")\n header3 = wx.StaticText(self, -1, \"LaTeX Formula\")\n grid_sizer.Add(header0, pos=(0,0), flag=options, border=border)\n grid_sizer.Add(header1, pos=(0,1), flag=options, border=border)\n grid_sizer.Add(header2, pos=(0,2), flag=options, border=border)\n grid_sizer.Add(header3, pos=(0,3), flag=options, border=border)\n grid_sizer.Add(wx.StaticLine(self), pos=(1,0), span=(1,4),\n flag=wx.ALL|wx.EXPAND|wx.GROW, border=border)\n\n self.selected_values = [] # keep track of selected quantities\n\n quantities = self.output_quantities.diagnostic_types[self.diag_type]\n\n # choose a good height/width for formulas\n if (self.diag_type in [\"Linear_Forces\", \"Angular_Momentum\", \"Energy_Flux\",\n \"Induction\", \"Inertial_Forces\", \"Lorentz_Forces\",\n \"Poynting_Flux\", \"TurbKE_Budget\"]):\n width = 100\n elif (self.diag_type == \"Thermal_Equation\"):\n width = 150\n else:\n width = 30\n height = 20\n\n row = 2\n iquant = 0\n for Q in quantities:\n but = wx.ToggleButton(self, Q.code, \"Add\") # build button and place it in second column\n but.Bind(wx.EVT_TOGGLEBUTTON, self.OnToggle)\n grid_sizer.Add(but, pos=(row,0), flag=options, border=border)\n\n q_code = wx.StaticText(self, -1, str(Q.code)) # build other column entries\n q_name = wx.StaticText(self, -1, Q.name) # name\n\n formula = self.RenderTeX(Q, size=(width,height))\n\n # place column entries\n grid_sizer.Add(q_code, pos=(row,1), flag=options, border=border)\n grid_sizer.Add(q_name, pos=(row,2), flag=options, border=border)\n grid_sizer.Add(formula, pos=(row,3), flag=options, border=border)\n\n iquant += 1\n\n # add horizontal line every 5 quantities\n if (iquant % 5 == 0):\n grid_sizer.Add(wx.StaticLine(self), pos=(row+1,0), span=(1,4),\n flag=wx.ALL|wx.EXPAND|wx.GROW, border=border)\n row_inc = 2\n else:\n row_inc = 1\n\n row += row_inc\n\n grid_sizer.AddGrowableCol(2,1) # make the name/formula columns \"1\" growable, i.e., grows as necessary\n grid_sizer.AddGrowableCol(3,1)\n\n return grid_sizer",
"def click_vendor_price_list_detail_rates_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_rates_grid_div_id)",
"def _configure(self):\n Values._configure(self)\n self.values = [self.inventory.one, self.inventory.two]\n return",
"def select_vendor_price_list_detail_dial_digits_tab(self):\n self.click_element(self.vendor_price_list_details_dial_digits_tab_locator, True)",
"def set_vendors(self, vendors_list):\n self.multiple_items_selection_from_kendo_dropdown(self.vendors_kendo_dropdown_locator, vendors_list)\n self.wait_for_ajax_spinner_load()",
"def click_vendor_price_list_detail_dial_digits_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_dial_digits_grid_div_id)",
"def updateControl(self, event):\r\n print(\"updating...\")\r\n product_dict = [\r\n {\"title\":\"Core Python Programming\", \"author\":\"Wesley Chun\",\r\n \"isbn\":\"0132269937\", \"mfg\":\"Prentice Hall\"},\r\n {\"title\":\"Python Programming for the Absolute Beginner\",\r\n \"author\":\"Michael Dawson\", \"isbn\":\"1598631128\",\r\n \"mfg\":\"Course Technology\"},\r\n {\"title\":\"Learning Python\", \"author\":\"Mark Lutz\",\r\n \"isbn\":\"0596513984\", \"mfg\":\"O'Reilly\"}\r\n ]\r\n data = self.products + product_dict\r\n self.dataOlv.SetObjects(data)",
"def handle_view(self, controller):\n \n order = controller.customer.my_order ## make a reference to the order of customer\n \n for i in range(len(order.items)):\n if not order.items[i]:\n continue\n \n label0 = Label(self, text=order.items[i])\n label0.grid(row=i+2, column=0, columnspan=2, padx=10)\n \n label1 = Label(self, text=\"QTY:\")\n label1.grid(row=i+2, column=2)\n \n qty = order.items[i].quantity\n var = IntVar()\n self.vars[i] = var\n self.vars[i].set(qty)\n combobox0 = ttk.Combobox(self, textvariable=self.vars[i], state=\"readonly\", values=[j+1 for j in range(self.max_range)], width='3')\n combobox0.bind(\"<<ComboboxSelected>>\", lambda event, c=controller.customer, p=i:self.onChange(c, p)) ## change pizza quantity\n combobox0.focus_set()\n combobox0.grid(row=i+2, column=3)\n\n button3 = Button(self, text=\"Remove\", command=lambda p=i:self.onRemove(controller, p))\n button3.grid(row=i+2, column=4)\n\n button4 = Button(self, text=\"CHECKOUT\", command=lambda:self.onCheckout(controller))\n button4.grid(row=1, column=4, columnspan=2, sticky='e')\n \n self.showOrderPrice(order)",
"def select_vendor_price_list_detail_reference_rates_tab(self):\n self.click_element(self.vendor_price_list_details_reference_rates_tab_locator, True)",
"def get_vendor_price_lists_number_of_rows_from_grid(self):\n self.number_of_rows = int(self.get_number_of_rows_from_grid(self.vendors_price_lists_grid_div_bar_id))",
"def change_price(self, value): \n value = self.price",
"def set_price(self, request, pk):\n return Response('20$')",
"def set_price(self, request, pk):\n return Response('20$')",
"def prepare_product_variant_dict(self, instance, template, data, basic_detail, update_price,\n update_image, common_log_id, model_id):\n common_log_line_obj = self.env['common.log.lines.ept']\n wc_api = instance.woo_connect()\n variants_to_create = []\n flag = True\n for variant in template.woo_product_ids:\n price = 0.0\n if variant.variant_id:\n info = {'id': variant.variant_id, 'menu_order': variant.sequence}\n # Below are used to set the color in the metadata field.\n product_template_attribute_value = variant.product_id.product_template_attribute_value_ids.filtered(\n lambda attribute: attribute.display_type == 'color') or False\n if product_template_attribute_value and product_template_attribute_value.product_attribute_value_id.html_color:\n meta_data = []\n meta_data.append({'key': 'markersnpens-color-picker',\n 'value': product_template_attribute_value.product_attribute_value_id.html_color})\n info.update({'meta_data': meta_data})\n\n if basic_detail:\n weight = self.convert_weight_by_uom(variant.product_id.weight, instance)\n info.update({'sku': variant.default_code, 'weight': str(weight),\n \"manage_stock\": variant.woo_is_manage_stock})\n else:\n attributes = self.get_product_attribute(template.product_tmpl_id, instance, common_log_id, model_id)[0]\n info = self.get_variant_data(variant, instance, False)\n\n if update_image:\n info.update(self.get_variant_image(instance, variant))\n\n if update_price:\n price = instance.woo_pricelist_id.get_product_price(variant.product_id, 1.0, partner=False,\n uom_id=variant.product_id.uom_id.id)\n info.update({'regular_price': str(price), 'sale_price': str(price)})\n\n if template.woo_tmpl_id != variant.variant_id:\n if variant.variant_id:\n data.get('variations').append(info)\n else:\n variants_to_create.append(info)\n flag = True\n elif template.woo_tmpl_id == variant.variant_id:\n del data['variations']\n if basic_detail:\n data.update({'sku': variant.default_code, \"manage_stock\": variant.woo_is_manage_stock})\n if update_price:\n data.update({'regular_price': str(price), 'sale_price': str(price)})\n flag = True\n\n if data.get('variations'):\n variant_batches = self.prepare_batches(data.get('variations'))\n for woo_variants in variant_batches:\n _logger.info('variations batch processing')\n res = wc_api.post('products/%s/variations/batch' % (data.get('id')), {'update': woo_variants})\n _logger.info('variations batch process completed [status: %s]', res.status_code)\n if res.status_code in [200, 201]:\n del data['variations']\n if res.status_code not in [200, 201]:\n message = \"Update Product Variations\\n%s\" % res.content\n common_log_line_obj.woo_product_export_log_line(message, model_id, common_log_id, False)\n if variants_to_create:\n \"\"\"Needed to update the attributes of template for adding new variant, while update\n process.\"\"\"\n _logger.info(\"Updating attributes of %s in Woo..\" % template.name)\n if data.get(\"variations\"):\n del data['variations']\n data.update({\"attributes\": attributes})\n res = wc_api.put(\"products/%s\" % (data.get(\"id\")), data)\n\n _logger.info(\"Creating variants in Woo..\")\n res = wc_api.post('products/%s/variations/batch' % (data.get('id')), {'create': variants_to_create})\n try:\n response = res.json()\n except Exception as error:\n message = \"Json Error : While update products to WooCommerce for instance %s. \\n%s\" % (\n instance.name, error)\n common_log_line_obj.woo_product_export_log_line(message, model_id, common_log_id, False)\n return data, flag\n for product in response.get(\"create\"):\n if product.get(\"error\"):\n message = \"Update Product \\n%s\" % (product.get(\"error\").get('message'))\n common_log_line_obj.woo_product_export_log_line(message, model_id, common_log_id, False)\n else:\n variant_id = product.get(\"id\")\n variant = template.woo_product_ids.filtered(lambda x: x.default_code == product.get(\"sku\"))\n if variant:\n variant.write({\"variant_id\": variant_id, \"exported_in_woo\": True})\n\n self.sync_woo_attribute_term(instance, common_log_id)\n\n return data, flag",
"def _onchange_price(self):\n self.price_subtotal = self.price",
"def drag_vendor_price_lists_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.view_price_list_div_id, source_column, destination_column)",
"def click_vendor_price_list_detail_reference_rates_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_reference_rates_grid_div_id)",
"def customise_grid(self):\n\n # Agent colours, agent tooltips and grid initialisation\n mapper = linear_cmap(field_name='category',\n palette=['blue', 'red', 'green', 'orange', 'purple'] ,\n low=0,\n high=4)\n TOOLTIPS = [(\"Residential utility\", \"@res_utility\"),\n ('Local composition', '@local_comp'),\n ('Neighbourhood composition', '@n_comp'),\n (\"School utility\", \"@school_utility\"),\n ('Distance', '@dist_school'),\n ('School composition', '@s_comp'),\n ('School composition utility', '@school_comp_utility')]\n hover = HoverTool(names=[\"households\", \"schools\"], tooltips=TOOLTIPS)\n self.grid = figure(x_range=(self.model.grid.x_min - 1,\n self.model.grid.x_max),\n y_range=(self.model.grid.y_min - 1,\n self.model.grid.y_max),\n tools=[hover, 'tap', 'pan',\n WheelZoomTool()],\n tooltips=TOOLTIPS, output_backend=\"webgl\")\n\n # Set WheelZoomTool active by default if not lattice\n if self.params['case'].lower() != 'lattice':\n self.grid.toolbar.active_scroll = self.grid.select_one(\n WheelZoomTool)\n\n # Add a background map using OpenStreetMap (Google Maps is too\n # computationally expensive and cannot zoom properly)\n self.grid.add_tile(get_provider('OSM'))\n\n self.grid.axis.visible = False\n self.grid.grid.visible = False\n # Function to highlight all households that are currently enrolled in\n # the same school.\n self.source.selected.on_change(\"indices\", self.select_households)\n\n # Plot households\n self.grid.circle(x=\"x\",\n y=\"y\",\n size=5,\n view=self.household_view,\n source=self.source,\n fill_color=mapper,\n line_color='black',\n alpha=0.8,\n nonselection_fill_alpha=0.2,\n selection_fill_alpha=1,\n name='households')\n\n # Plot schools\n self.grid.circle(x=\"x\",\n y=\"y\",\n size=7,\n source=self.source,\n view=self.school_view,\n fill_color='yellow',\n line_color='black',\n name='schools')\n\n # Plot neighbourhoods\n self.grid.patches('x',\n 'y',\n source=self.source,\n view=self.neighbourhood_view,\n fill_color=None,\n line_color=\"black\",\n line_width=2,\n hover_alpha=0,\n hover_line_color=None,\n name='neighbourhoods',\n selection_fill_alpha=0)",
"async def set_price(\n self,\n costPerKWh: float,\n vat: float = None,\n currency: str = None,\n costPerKwhExcludeVat: float = None,\n ):\n\n json = {\"costPerKWh\": costPerKWh}\n\n if vat is None:\n vat = self.get(\"vat\")\n\n if currency is None:\n currency = self.get(\"currencyId\")\n\n if costPerKwhExcludeVat is None:\n costPerKwhExcludeVat = costPerKWh / (100.0 + vat) * 100.0\n\n json = {\n \"currencyId\": currency,\n \"costPerKWh\": costPerKWh,\n \"vat\": vat,\n \"costPerKwhExcludeVat\": costPerKwhExcludeVat,\n }\n\n return await self.easee.post(f\"/api/sites/{self.id}/price\", json=json)",
"def verify_vendor_price_lists_details(self, row_data):\n return self.verify_grid_row_details(self.customer_price_list_grid_div_id, row_data)",
"def setPrice(self, val):\n self.price = val",
"def drag_vendor_price_list_detail_grid_column(self, source_column, destination_column):\n self.wait_for_ajax_spinner_load(300)\n self.drag_grid_column(self.vendor_price_list_detail_rates_grid_div_id, source_column, destination_column)"
] | [
"0.77079743",
"0.68698335",
"0.66079444",
"0.62743175",
"0.61391824",
"0.58130604",
"0.5678278",
"0.5415286",
"0.5406315",
"0.52782065",
"0.52499175",
"0.52450347",
"0.5245008",
"0.5205424",
"0.51688457",
"0.5167661",
"0.50984377",
"0.50653815",
"0.5056066",
"0.5037856",
"0.5037856",
"0.5027945",
"0.49937528",
"0.49844658",
"0.49663368",
"0.49356544",
"0.49316582",
"0.48885846",
"0.4887018",
"0.48852748"
] | 0.7649835 | 1 |
Implementing sort vendor price list detail grid column functionality | def sort_vendor_price_list_detail_grid_column(self, column_name, descending_order):
self.wait_for_ajax_spinner_load(300)
self.sort_grid_column(self.vendor_price_list_detail_rates_grid_div_id, column_name, descending_order) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def sort_vendor_price_lists_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.view_price_list_div_id, column_name, descending_order)",
"def sort_vendor_price_list_detail_dial_digits_grid_column(self, column_name, descending_order):\n self.wait_for_ajax_spinner_load(300)\n self.sort_grid_column(self.vendor_price_list_detail_dial_digits_grid_div_id, column_name, descending_order)",
"def get_vendor_price_list_detail_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_rates_grid_div_id)\n return self.column_name_list",
"def sort_vendor_price_list_detail_reference_rates_grid_column(self, column_name, descending_order):\n self.wait_for_ajax_spinner_load(300)\n self.sort_grid_column(self.vendor_price_list_detail_reference_rates_grid_div_id, column_name, descending_order)",
"def get_vendor_price_lists_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.view_price_list_div_id)\n return self.column_name_list",
"def get_vendor_price_list_detail_dial_digits_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_dial_digits_grid_div_id)\n return self.column_name_list",
"def sort_vendors_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.vendors_div_id, column_name, descending_order)",
"def OnColumnClick(self, event):\r\n columns = self.data.getParam('columns')\r\n self.SortItems(columns[event.GetColumn()],'INVERT')",
"def get_vendor_price_list_detail_reference_rates_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_reference_rates_grid_div_id)\n return self.column_name_list",
"def select_sort_by_price_ascendant(self):\n msg = \"The new order of the items is by ascendant price\"\n with self.allure.step(msg):\n self.__product_sort.select_by_text('Price (low to high)')\n self.allure.attach_image(self.driver, msg)",
"def drag_vendor_price_lists_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.view_price_list_div_id, source_column, destination_column)",
"def sort_buy_and_sell_management_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.buy_and_sell_management_grid_div_id, column_name, descending_order)",
"def sortby(self):\n ...",
"def drag_vendor_price_list_detail_grid_column(self, source_column, destination_column):\n self.wait_for_ajax_spinner_load(300)\n self.drag_grid_column(self.vendor_price_list_detail_rates_grid_div_id, source_column, destination_column)",
"def products_view(request):\n from_database = Product.objects.all()\n\n sort_type = request.POST.get('sort-selector')\n print(sort_type)\n if sort_type is None:\n from_database = from_database.order_by('title')\n my_context = {\n 'from_database': from_database,\n 'sort_type': sort_type,\n }\n return render(request, \"products.html\", my_context)\n if sort_type == 'name_asc':\n from_database = from_database.order_by('title')\n my_context = {\n 'from_database': from_database,\n 'sort_type': sort_type,\n }\n return render(request, \"products.html\", my_context)\n if sort_type == 'name_desc':\n from_database = from_database.order_by('-title')\n my_context = {\n 'from_database': from_database,\n 'sort_type': sort_type,\n }\n return render(request, \"products.html\", my_context)\n if sort_type == 'price_asc':\n from_database = from_database.order_by('price')\n my_context = {\n 'from_database': from_database,\n 'sort_type': sort_type,\n }\n return render(request, \"products.html\", my_context)\n if sort_type == 'price_desc':\n from_database = from_database.order_by('-price')\n my_context = {\n 'from_database': from_database,\n 'sort_type': sort_type,\n }\n return render(request, \"products.html\", my_context)",
"def click_on_sort(self):\r\n self.driver.find_element_by_xpath('//*[@id=\"dataTable\"]/thead/tr[3]/th[4]').click()",
"def get_sort_columns_raw(self):\n col_sort_orders = self.gridpreference_sort.all().select_related()\n \n return [x.sort_display for x in col_sort_orders]",
"def select_sort_by_price_descendant(self):\n msg = \"The new order of the items is by descendant price\"\n with self.allure.step(msg):\n self.__product_sort.select_by_text('Price (high to low)')\n self.allure.attach_image(self.driver, msg)",
"def OnReorder( self, event ):\n column = self.columns[event.GetColumn()]\n if column.sortOn:\n # multiple sorts for the click...\n columns = [ self.columnByAttribute( attr ) for attr in column.sortOn ]\n diff = [ (a,b) for a,b in zip( self.sortOrder, columns ) if b is not a[1]]\n if not diff:\n self.sortOrder[0] = (not self.sortOrder[0][0], column)\n else:\n self.sortOrder = [\n (c.defaultOrder,c) for c in columns \n ] + [ (a,b) for (a,b) in self.sortOrder if b not in columns]\n else:\n if column is self.sortOrder[0][1]:\n # reverse current major order\n self.sortOrder[0] = (not self.sortOrder[0][0], column)\n else:\n self.sortOrder = [(column.defaultOrder,column)] + [\n (a,b) \n for (a,b) in self.sortOrder if b is not column \n ]\n # TODO: store current selection and re-select after sorting...\n self.reorder()\n self.Refresh()",
"def sort_rates_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.rates_grid_div_id, column_name, descending_order)",
"def testSortNoDbAscending(self):\n self.request.GET['sort'] = \"custom\"\n self.datagrid.load_state()\n self.assertEqual(self.datagrid.sort_list, [\"custom\"])\n self.assertEqual(len(self.datagrid.rows), self.datagrid.paginate_by)\n self.assertEqual(self.datagrid.rows[0]['object'].name, \"Group 04\")\n self.assertEqual(self.datagrid.rows[1]['object'].name, \"Group 08\")\n self.assertEqual(self.datagrid.rows[2]['object'].name, \"Group 12\")\n\n # Exercise the code paths when rendering\n self.datagrid.render_listview()",
"def generateModelSort(data):\n\n model = data[\"model\"]\n cont = data[\"container\"]\n code = data[\"code\"]\n global h_model\n h_model.append(\"\")\n h_model.append(\"\\t// Sort support:\")\n h_model.append(\"\\tvirtual void sort(int column, Qt::SortOrder order=Qt::AscendingOrder);\")\n\n global c_model\n\n # First the static sort functions\n for field in data[\"fields\"]:\n if not field.has_key(\"head\"):\n continue\n c_model.append(\"static bool sort%s%s(const %s &one, const %s two)\" % (\n model[\"name\"], field[\"name\"].capitalize(),\n name, name))\n c_model.append(\"{\")\n order = get(field, \"sort_order\", \"ascending\")\n if order == \"ascending\":\n order = \"Qt::AscendingOrder\"\n elif order == \"descending\":\n order = \"Qt::DescendingOrder\";\n s1 = \"one.%s\" % field[\"name\"]\n s2 = \"two.%s\" % field[\"name\"]\n if field.has_key(\"sort_code\"):\n s1 = \"s1\"\n s2 = \"s2\"\n appendCode(c_model, \"\\t\", code[field[\"sort_code\"]])\n c_model.append(\"\\tif (sortOrder == %s)\" % order)\n c_model.append(\"\\t\\treturn %s < %s;\" % (s1, s2))\n c_model.append(\"\\telse\")\n c_model.append(\"\\t\\treturn %s > %s;\" % (s1, s2))\n c_model.append(\"}\\n\")\n\n # and then the class member:\n c_model.append(\"void %s::sort(int column, Qt::SortOrder order)\" % model[\"name\"])\n c_model.append(\"{\")\n c_model.append(\"\\tsortOrder = order;\")\n c_model.append(\"\")\n c_model.append(\"\\tswitch (column) {\")\n for field in data[\"fields\"]:\n if not field.has_key(\"head\"):\n continue\n c_model.append(\"\\tcase %s_%s:\" % (col_prefix, field[\"name\"].upper()) )\n c_model.append(\"\\t\\tqStableSort(%s.begin(), %s.end(), sort%s%s);\" % (\n cont[\"name\"], cont[\"name\"],\n model[\"name\"], field[\"name\"].capitalize(),\n ))\n c_model.append(\"\\t\\tbreak;\")\n c_model.append(\"\\tdefault:\")\n c_model.append(\"\\t\\treturn;\")\n c_model.append(\"\\t}\")\n c_model.append(\"\\temit dataChanged(index(0, 0), index(chars.count(), %s_LAST));\" % col_prefix)\n c_model.append(\"}\\n\")",
"def click_vendor_price_list_detail_rates_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_rates_grid_div_id)",
"def testSortAscending(self):\n self.request.GET['sort'] = \"name,objid\"\n self.datagrid.load_state()\n\n self.assertEqual(self.datagrid.sort_list, [\"name\", \"objid\"])\n self.assertEqual(len(self.datagrid.rows), self.datagrid.paginate_by)\n self.assertEqual(self.datagrid.rows[0]['object'].name, \"Group 01\")\n self.assertEqual(self.datagrid.rows[1]['object'].name, \"Group 02\")\n self.assertEqual(self.datagrid.rows[2]['object'].name, \"Group 03\")\n\n # Exercise the code paths when rendering\n self.datagrid.render_listview()",
"def get_sort_field(self, kind, order, is_number):\n pass",
"def _custom_sorter(self, key1, key2):\n\n col = self._col\n ascending = self._colSortFlag[col]\n real = self.get_real_col(col)\n item1 = self.itemDataMap[key1][real]\n item2 = self.itemDataMap[key2][real]\n\n # Internationalization of string sorting with locale module\n if isinstance(item1, str) and isinstance(item2, str):\n cmpVal = locale.strcoll(item1, item2)\n elif isinstance(item1, bytes) or isinstance(item2, bytes):\n cmpVal = locale.strcoll(str(item1), str(item2))\n else:\n cmpVal = cmp(item1, item2)\n\n # If the items are equal, then pick something else to make the sort value unique\n if cmpVal == 0:\n cmpVal = cmp(*self.GetSecondarySortValues(col, key1, key2))\n\n if ascending:\n return cmpVal\n else:\n return -cmpVal",
"def sort(request):\n stars = Product.objects.annotate(\n avg_review=Avg('productreview__rating'),\n )\n select = request.GET['sort']\n if select == 'LtoH':\n results = Product.objects.order_by('price')\n return render(request, \"products.html\",\n {\"products\": results, 'stars': stars})\n elif select == 'HtoL':\n results = Product.objects.order_by('-price')\n return render(request, \"products.html\",\n {\"products\": results, 'stars': stars})\n elif select == 'AtoZ':\n results = Product.objects.order_by('name')\n return render(request, \"products.html\",\n {\"products\": results, 'stars': stars})\n elif select == 'ZtoA':\n results = Product.objects.order_by('-name')\n return render(request, \"products.html\",\n {\"products\": results, 'stars': stars})",
"def set_vendor_price_lists_grid_settings(self, grid_settings):\n self.set_grid_settings(self.view_price_list_div_id, grid_settings)",
"def get_vendor_price_lists_details(self):\n try:\n self.vendor_price_lists_dict = self.get_grid_row_details(self.customer_price_list_grid_div_id, self.vendor_price_lists_dict)\n return True\n except:\n return False",
"def __sort_orders_by_price(self):\n self.orders = sorted(self.orders, key=lambda o: o.price, reverse=True)"
] | [
"0.74822134",
"0.68887746",
"0.66721636",
"0.6617431",
"0.6519862",
"0.63714236",
"0.6330213",
"0.6274593",
"0.622523",
"0.62194127",
"0.6012575",
"0.5967118",
"0.59660566",
"0.59004784",
"0.5681472",
"0.5654682",
"0.563437",
"0.5630613",
"0.5628606",
"0.55819374",
"0.5519507",
"0.55097044",
"0.54719734",
"0.5465123",
"0.54452914",
"0.54356986",
"0.54256034",
"0.5418515",
"0.53936094",
"0.53928775"
] | 0.7361995 | 1 |
Implementing get all rows of specific column from vendor price list detail grid functionality | def get_all_rows_of_specific_column_from_vendor_price_list_detail_grid(self, column_name):
self.wait_for_ajax_spinner_load(300)
self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.vendor_price_list_detail_rates_grid_div_id, column_name)
return self.all_row_data | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def get_all_rows_of_specific_column_from_vendor_price_lists_grid(self, column_name):\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.view_price_list_div_id, column_name, self.get_grid_row_count(self.price_lists_grid_row_count_span_locator, 7))\n return self.all_row_data",
"def get_all_rows_of_rate_column_from_vendor_price_list_detail_grid(self, column_name):\n self.wait_for_ajax_spinner_load()\n self.all_row_data = self.get_all_rows_of_specific_column_only_from_vendor_price_list_detail_grid(self.vendor_price_list_detail_rates_grid_div_id, column_name)\n return self.all_row_data",
"def get_all_rows_of_specific_column_from_vendor_price_list_detail_dial_digits_grid(self, column_name):\n self.wait_for_ajax_spinner_load(300)\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.vendor_price_list_detail_dial_digits_grid_div_id, column_name)\n return self.all_row_data",
"def get_all_rows_of_specific_column_only_from_vendor_price_list_detail_grid(self, div_id, column_name):\n row_count = len(self.wait().until(EC.presence_of_all_elements_located(self.vendor_price_list_detail_row_locator), 'vendor price list details row element locator not found before specified time'))\n all_row_data = []\n next_page = False\n column_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::th[@data-title='%s']\" % (div_id, column_name))\n column_element = self.wait().until(EC.presence_of_element_located(column_locator), 'column locator not found before specified time out')\n column_index = int(column_element.get_attribute(\"data-index\")) + 1\n row = 1\n try:\n while row < row_count+1:\n column_value_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::div[@class='k-grid-content']/descendant::tbody[@role='rowgroup']/tr[%s]/td[%s]/descendant::td\" % (div_id, row, str(column_index)))\n column_value_element = self.wait(10).until(EC.presence_of_element_located(column_value_locator), 'column value locator not found before specified time out')\n column_value = str(column_value_element.get_attribute(\"innerHTML\"))\n if column_value not in all_row_data:\n all_row_data.append(column_value)\n else:\n row_count += 1\n if row % 50 == 0:\n next_page = True\n next_page_button_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-arrow-e']\" % div_id)\n self.click_element(next_page_button_locator, True)\n row = 0\n row_count -= 50\n row += 1\n except WebDriverException:\n pass\n if next_page is True:\n first_page_button_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-seek-w']\" % div_id)\n self.click_element(first_page_button_locator, True)\n return all_row_data",
"def get_all_rows_of_rate_increase_violation_column_from_vendor_price_list_detail_grid(self, column_name):\n self.all_row_data = []\n self.wait_for_ajax_spinner_load()\n row_count = len(self.wait().until(EC.presence_of_all_elements_located(self.vendor_price_list_detail_row_locator), 'vendor price list details row element locator not found before specified time'))\n next_page = False\n column_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::th[@data-title='%s']\" % (self.vendor_price_list_detail_rates_grid_div_id, column_name))\n column_element = self.wait().until(EC.presence_of_element_located(column_locator), 'column locator not found before specified time out')\n column_index = int(column_element.get_attribute(\"data-index\")) + 1\n row = 1\n try:\n while row < row_count + 1:\n column_value_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::div[@class='k-grid-content']/descendant::tbody[@role='rowgroup']/tr[%s]/td[%s]\" % (self.vendor_price_list_detail_rates_grid_div_id, row, str(column_index)))\n column_value_element = self.wait(10).until(EC.presence_of_element_located(column_value_locator), 'column value locator not found before specified time out')\n column_value = str(column_value_element.get_attribute(\"innerHTML\"))\n if column_value not in self.all_row_data:\n self.all_row_data.append(column_value)\n else:\n row_count += 1\n if row % 50 == 0:\n next_page = True\n next_page_button_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-arrow-e']\" % self.vendor_price_list_detail_rates_grid_div_id)\n self.click_element(next_page_button_locator, True)\n row = 0\n row_count -= 50\n row += 1\n except WebDriverException:\n pass\n if next_page is True:\n first_page_button_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-seek-w']\" % self.vendor_price_list_detail_rates_grid_div_id)\n self.click_element(first_page_button_locator, True)\n return self.all_row_data",
"def get_all_rows_of_specific_column_from_vendor_price_list_detail_reference_rates_grid(self, column_name):\n self.wait_for_ajax_spinner_load(300)\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.vendor_price_list_detail_reference_rates_grid_div_id, column_name)\n return self.all_row_data",
"def get_vendor_price_list_detail_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_rates_grid_div_id)\n return self.column_name_list",
"def get_vendor_price_list_detail_dial_digits_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_dial_digits_grid_div_id)\n return self.column_name_list",
"def get_vendor_price_list_detail_reference_rates_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_reference_rates_grid_div_id)\n return self.column_name_list",
"def get_vendor_price_lists_details(self):\n try:\n self.vendor_price_lists_dict = self.get_grid_row_details(self.customer_price_list_grid_div_id, self.vendor_price_lists_dict)\n return True\n except:\n return False",
"def get_first_row_item_from_price_lists_grid(self, column_name):\n column_locator = (By.XPATH, \"//div[@id='%s']/descendant::th[@data-title='%s']\" % (self.vendor_price_list_grid_div_id, column_name))\n column_element = self.wait().until(EC.presence_of_element_located(column_locator), 'column locator not found before specified time out')\n column_index = int(column_element.get_attribute(\"data-index\")) + 1\n column_value_locator = (By.XPATH, \"//div[@id='%s']/descendant::tbody/descendant::tr[1]/td[%s]/span\" % (self.vendor_price_list_grid_div_id, str(column_index)))\n column_value_element = self.wait().until(EC.presence_of_element_located(column_value_locator), 'column value locator not found before specified time out')\n return column_value_element.text",
"def get_vendor_price_lists_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.view_price_list_div_id)\n return self.column_name_list",
"def get_all_rows_of_specific_column_from_vendors_grid(self, column_name):\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.vendors_div_id, column_name, self.get_grid_row_count(self.vendors_grid_row_count_span_locator, 5))\n return self.all_row_data",
"def get_last_price_list_from_vendors_grid(self):\n return self.get_specific_column_value_from_grid(self.vendors_div_id, self.vendors_grid_row_count, self.last_price_list_column_name, self.vendors_data_grid_name)",
"def get_all_rows_of_specific_column_from_buy_and_sell_management_grid(self, column_name):\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.buy_and_sell_management_grid_div_id, column_name, self.get_grid_row_count(self.buy_and_sell_management_grid_count_span_locator, 2))\n return self.all_row_data",
"def rosterRowData(self):",
"def select_vendor_price_list_grid_row_checkbox(self):\n for row in range(0,2):\n column_locator = (By.XPATH, \"//div[@id='%s']/descendant::th[@data-title='%s']\" % (self.vendor_price_list_grid_div_id, self.price_list_column_name))\n column_element = self.wait().until(EC.presence_of_element_located(column_locator), 'column locator not found before specified time out')\n column_index = int(column_element.get_attribute(\"data-index\")) + 1\n column_value_locator = (By.XPATH, \"//div[@id='%s']/descendant::tbody/descendant::tr[%s]/td[%s]/span\" % (self.vendor_price_list_grid_div_id, (row + 1), str(column_index)))\n column_value_element = self.wait().until(EC.presence_of_element_located(column_value_locator), 'column value locator not found before specified time out')\n price_list_item = column_value_element.text\n self.compare_price_lists_list.append(price_list_item)\n self.select_grid_row_checkbox(self.customer_price_list_grid_div_id, price_list_item, self.select_grid_row_checkbox_column_number)",
"def get_vendor_price_lists_number_of_rows_from_grid(self):\n self.number_of_rows = int(self.get_number_of_rows_from_grid(self.vendors_price_lists_grid_div_bar_id))",
"def get_list_columns(self):\n columns = super(InventoryTransactionAdmin, self).get_list_columns()\n cols = ['total_amount']\n columns = security_util.filter_columns_by_role(\n columns, cols, 'purchase_price_view'\n )\n return columns",
"def click_vendor_price_list_detail_rates_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_rates_grid_div_id)",
"def click_vendor_price_list_grid_first_row_inline_action_button(self):\n self.click_inline_action_button(self.vendor_price_list_grid_div_id, None, self.view_price_list_column_number, True)",
"def get_product_list_grid(self):\n product_list = WebDriverWait(self.driver, self.search_module_wait_time).until(EC.visibility_of_element_located(self.PRODUCT_LIST_GRID))\n return product_list",
"def _select_data(\n self, db: str, table: str, column_filters: Dict[str, str]\n ) -> List[List]:\n pass",
"def drag_vendor_price_list_detail_grid_column(self, source_column, destination_column):\n self.wait_for_ajax_spinner_load(300)\n self.drag_grid_column(self.vendor_price_list_detail_rates_grid_div_id, source_column, destination_column)",
"def get_all_rows_of_specific_column_from_rates_grid(self, column_name):\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.rates_grid_div_id, column_name, self.get_grid_row_count(self.rates_grid_row_count_span_locator, 1))\n return self.all_row_data",
"def click_vendor_price_list_detail_dial_digits_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_dial_digits_grid_div_id)",
"def _get_rows(self):\n rows = []\n for row in self.plate_meta['rows']:\n rows.append(row['name'])\n self.rows = rows",
"def get_target_buy_policy_grid_row_details(self):\n self.grid_row_data.clear()\n self.grid_row_data = {\"Status\":\"\", \"Target Buy Policy Type\":\"\", \"Call Type\":\"\", \"Route Class\":\"\"}\n return self.get_grid_row_details(self.target_buy_policies_grid_div_id, self.grid_row_data, data_grid_name=self.target_buy_policy_data_grid_name)",
"def return_items(self):\n cur = self.cursor\n cur.execute(f\"SELECT * FROM {self.product_name}\")\n products = cur.fetchall()\n return products",
"def get_price_list_date_column_value(self):\n self.price_lists_grid_row_count = int(self.get_grid_row_count(self.price_lists_grid_row_count_span_locator, 7))\n return self.get_specific_column_value_from_grid(self.vendor_price_list_grid_div_id, self.price_lists_grid_row_count, self.price_list_date_column_name)"
] | [
"0.7229906",
"0.71597815",
"0.7008449",
"0.69923234",
"0.69755775",
"0.67840624",
"0.6711064",
"0.65049857",
"0.6361114",
"0.6336397",
"0.6124876",
"0.6111745",
"0.6047696",
"0.6006084",
"0.590384",
"0.57422656",
"0.57186294",
"0.5609229",
"0.55957127",
"0.55321234",
"0.55009675",
"0.54985845",
"0.5494874",
"0.54553086",
"0.5452624",
"0.5423368",
"0.5406905",
"0.54007006",
"0.53717077",
"0.5357544"
] | 0.73750657 | 0 |
Implementing drag vendor price list detail grid column functionality | def drag_vendor_price_list_detail_grid_column(self, source_column, destination_column):
self.wait_for_ajax_spinner_load(300)
self.drag_grid_column(self.vendor_price_list_detail_rates_grid_div_id, source_column, destination_column) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def drag_vendor_price_lists_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.view_price_list_div_id, source_column, destination_column)",
"def drag_vendor_price_list_detail_dial_digits_grid_column(self, source_column, destination_column):\n self.wait_for_ajax_spinner_load(300)\n self.drag_grid_column(self.vendor_price_list_detail_dial_digits_grid_div_id, source_column, destination_column)",
"def drag_vendor_price_list_detail_reference_rates_grid_column(self, source_column, destination_column):\n self.wait_for_ajax_spinner_load(300)\n self.drag_grid_column(self.vendor_price_list_detail_reference_rates_grid_div_id, source_column, destination_column)",
"def drag_vendors_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.vendors_div_id, source_column, destination_column)",
"def drag_buy_and_sell_management_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.buy_and_sell_management_grid_div_id, source_column, destination_column)",
"def drag_rates_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.rates_grid_div_id, source_column, destination_column)",
"def _drag_col(self, event):\n x = self._dx + event.x # get dragged column new left x coordinate\n self._visual_drag.place_configure(x=x) # update column preview position\n # if one border of the dragged column is beyon the middle of the\n # neighboring column, swap them\n if (self._dragged_col_neighbor_widths[0] is not None and\n x < self._dragged_col_x - self._dragged_col_neighbor_widths[0] / 2):\n self._swap_columns('left')\n elif (self._dragged_col_neighbor_widths[1] is not None and\n x > self._dragged_col_x + self._dragged_col_neighbor_widths[1] / 2):\n self._swap_columns('right')\n # horizontal scrolling if the cursor reaches the side of the table\n if x < 0 and self.xview()[0] > 0:\n # scroll left and update dragged column x coordinate\n self.xview_scroll(-10, 'units')\n self._dragged_col_x += 10\n elif x + self._dragged_col_width / 2 > self.winfo_width() and self.xview()[1] < 1:\n # scroll right and update dragged column x coordinate\n self.xview_scroll(10, 'units')\n self._dragged_col_x -= 10",
"def sort_vendor_price_lists_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.view_price_list_div_id, column_name, descending_order)",
"def _start_drag_col(self, event):\n # identify dragged column\n col = self.identify_column(event.x)\n self._dragged_col = ttk.Treeview.column(self, col, 'id')\n # get column width\n self._dragged_col_width = w = ttk.Treeview.column(self, col, 'width')\n # get x coordinate of the left side of the column\n x = event.x\n while self.identify_region(x, event.y) == 'heading':\n # decrease x until reaching the separator\n x -= 1\n x_sep = x\n w_sep = 0\n # determine separator width\n while self.identify_region(x_sep, event.y) == 'separator':\n w_sep += 1\n x_sep -= 1\n if event.x - x <= self._im_drag.width():\n # start dragging if mouse click was on dragging icon\n x = x - w_sep // 2 - 1\n self._dragged_col_x = x\n # get neighboring column widths\n displayed_cols = self._displayed_cols\n self._dragged_col_index = i1 = displayed_cols.index(self._dragged_col)\n if i1 > 0:\n left = ttk.Treeview.column(self, displayed_cols[i1 - 1], 'width')\n else:\n left = None\n if i1 < len(displayed_cols) - 1:\n right = ttk.Treeview.column(self, displayed_cols[i1 + 1], 'width')\n else:\n right = None\n self._dragged_col_neighbor_widths = (left, right)\n self._dx = x - event.x # distance between cursor and column left border\n # configure dragged column preview\n self._visual_drag.column(self._dragged_col, width=w)\n self._visual_drag.configure(displaycolumns=[self._dragged_col])\n if 'headings' in tuple(str(p) for p in self['show']):\n self._visual_drag.configure(show='headings')\n else:\n self._visual_drag.configure(show='')\n self._visual_drag.place(in_=self, x=x, y=0, anchor='nw',\n width=w + 2, relheight=1)\n self._visual_drag.state(('active',))\n self._visual_drag.update_idletasks()\n self._visual_drag.yview_moveto(self.yview()[0])\n else:\n self._dragged_col = None",
"def drag_re_analysis_detail_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.re_analysis_detail_grid_div_id, source_column, destination_column)",
"def sort_vendor_price_list_detail_grid_column(self, column_name, descending_order):\n self.wait_for_ajax_spinner_load(300)\n self.sort_grid_column(self.vendor_price_list_detail_rates_grid_div_id, column_name, descending_order)",
"def drag_dialed_digits_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.dialed_digits_grid_div_id, source_column, destination_column)",
"def get_vendor_price_lists_details(self):\n try:\n self.vendor_price_lists_dict = self.get_grid_row_details(self.customer_price_list_grid_div_id, self.vendor_price_lists_dict)\n return True\n except:\n return False",
"def OnMouse(self, event):\r\n\r\n # we want to work with logical coords\r\n x, dummy = self._owner.CalcUnscrolledPosition(event.GetX(), 0)\r\n y = event.GetY()\r\n\r\n if event.Moving():\r\n \r\n col = self.XToCol(x)\r\n if col != self._hotTrackCol:\r\n \r\n # Refresh the col header so it will be painted with hot tracking\r\n # (if supported by the native renderer.)\r\n self.RefreshColLabel(col)\r\n\r\n # Also refresh the old hot header\r\n if self._hotTrackCol >= 0:\r\n self.RefreshColLabel(self._hotTrackCol)\r\n\r\n self._hotTrackCol = col\r\n \r\n if event.Leaving() and self._hotTrackCol >= 0:\r\n \r\n # Leaving the window so clear any hot tracking indicator that may be present\r\n self.RefreshColLabel(self._hotTrackCol)\r\n self._hotTrackCol = -1\r\n \r\n if self._isDragging:\r\n\r\n self.SendListEvent(wx.wxEVT_COMMAND_LIST_COL_DRAGGING, event.GetPosition())\r\n\r\n # we don't draw the line beyond our window, but we allow dragging it\r\n # there\r\n w, dummy = self.GetClientSize()\r\n w, dummy = self._owner.CalcUnscrolledPosition(w, 0)\r\n w -= 6\r\n\r\n # erase the line if it was drawn\r\n if self._currentX < w:\r\n self.DrawCurrent()\r\n\r\n if event.ButtonUp():\r\n self._isDragging = False\r\n if self.HasCapture():\r\n self.ReleaseMouse()\r\n self._dirty = True\r\n self.SetColumnWidth(self._column, self._currentX - self._minX)\r\n self.Refresh()\r\n self.SendListEvent(wx.wxEVT_COMMAND_LIST_COL_END_DRAG, event.GetPosition())\r\n else:\r\n self._currentX = max(self._minX + 7, x)\r\n\r\n # draw in the new location\r\n if self._currentX < w:\r\n self.DrawCurrent()\r\n \r\n else: # not dragging\r\n\r\n self._minX = 0\r\n hit_border = False\r\n\r\n # end of the current column\r\n xpos = 0\r\n\r\n # find the column where this event occured\r\n countCol = self.GetColumnCount()\r\n\r\n for column in xrange(countCol):\r\n\r\n if not self.IsColumnShown(column):\r\n continue # do next if not shown\r\n\r\n xpos += self.GetColumnWidth(column)\r\n self._column = column\r\n if abs (x-xpos) < 3 and y < 22:\r\n # near the column border\r\n hit_border = True\r\n break\r\n \r\n if x < xpos:\r\n # inside the column\r\n break\r\n \r\n self._minX = xpos\r\n \r\n if event.LeftDown() or event.RightUp():\r\n if hit_border and event.LeftDown():\r\n self._isDragging = True\r\n self.CaptureMouse()\r\n self._currentX = x\r\n self.DrawCurrent()\r\n self.SendListEvent(wx.wxEVT_COMMAND_LIST_COL_BEGIN_DRAG, event.GetPosition())\r\n else: # click on a column\r\n evt = (event.LeftDown() and [wx.wxEVT_COMMAND_LIST_COL_CLICK] or [wx.wxEVT_COMMAND_LIST_COL_RIGHT_CLICK])[0]\r\n self.SendListEvent(evt, event.GetPosition())\r\n \r\n elif event.LeftDClick() and hit_border:\r\n self.SetColumnWidth(self._column, self._owner.GetBestColumnWidth(self._column))\r\n self.Refresh()\r\n\r\n elif event.Moving():\r\n \r\n if hit_border:\r\n setCursor = self._currentCursor == wx.STANDARD_CURSOR\r\n self._currentCursor = self._resizeCursor\r\n else:\r\n setCursor = self._currentCursor != wx.STANDARD_CURSOR\r\n self._currentCursor = wx.STANDARD_CURSOR\r\n \r\n if setCursor:\r\n self.SetCursor(self._currentCursor)",
"def click_vendor_price_list_detail_dial_digits_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_dial_digits_grid_div_id)",
"def get_vendor_price_list_detail_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_rates_grid_div_id)\n return self.column_name_list",
"def get_vendor_price_lists_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.view_price_list_div_id)\n return self.column_name_list",
"def get_vendor_price_list_detail_dial_digits_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_dial_digits_grid_div_id)\n return self.column_name_list",
"def sort_vendor_price_list_detail_dial_digits_grid_column(self, column_name, descending_order):\n self.wait_for_ajax_spinner_load(300)\n self.sort_grid_column(self.vendor_price_list_detail_dial_digits_grid_div_id, column_name, descending_order)",
"def _drag_row(self, event):\n y = self._dy + event.y # get dragged row new upper y coordinate\n self._visual_drag.place_configure(y=y) # update row preview position\n\n if y > self._dragged_row_y:\n # moving downward\n item = self.identify_row(y + self._dragged_row_height)\n if item != '':\n bbox = self.bbox(item)\n if not bbox:\n # the item is not visible so make it visible\n self.see(item)\n self.update_idletasks()\n bbox = self.bbox(item)\n if y > self._dragged_row_y + bbox[3] / 2:\n # the row is beyond half of item, so insert it below\n self._move_dragged_row(item)\n elif item != self.next(self._dragged_row):\n # item is not the lower neighbor of the dragged row so insert the row above\n self._move_dragged_row(self.prev(item))\n elif y < self._dragged_row_y:\n # moving upward\n item = self.identify_row(y)\n if item != '':\n bbox = self.bbox(item)\n if not bbox:\n # the item is not visible so make it visible\n self.see(item)\n self.update_idletasks()\n bbox = self.bbox(item)\n if y < self._dragged_row_y - bbox[3] / 2:\n # the row is beyond half of item, so insert it above\n self._move_dragged_row(item)\n elif item != self.prev(self._dragged_row):\n # item is not the upper neighbor of the dragged row so insert the row below\n self._move_dragged_row(self.next(item))\n self.selection_remove(self._dragged_row)",
"def slider_dragged(self):\n pass",
"def drag_destinations_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.destinations_grid_div_id, source_column, destination_column)",
"def drag_country_groups_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.country_groups_grid_div_id, source_column, destination_column)",
"def click_vendor_price_list_detail_rates_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_rates_grid_div_id)",
"def dropEvent(self, e: QtGui.QDropEvent):\n src = e.source()\n if src is not self:\n for item in src.selectedItems():\n clone = item.clone()\n clone.setFlags(clone.flags() | Qt.ItemIsEditable)\n self.addTopLevelItem(clone)\n super().dropEvent(e) # Call the original function",
"def dragEnterEvent(self, event):",
"def set_vendor_price_lists_grid_settings(self, grid_settings):\n self.set_grid_settings(self.view_price_list_div_id, grid_settings)",
"def get_vendor_price_list_detail_reference_rates_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_reference_rates_grid_div_id)\n return self.column_name_list",
"def get_price_list_date_column_value(self):\n self.price_lists_grid_row_count = int(self.get_grid_row_count(self.price_lists_grid_row_count_span_locator, 7))\n return self.get_specific_column_value_from_grid(self.vendor_price_list_grid_div_id, self.price_lists_grid_row_count, self.price_list_date_column_name)",
"def get_all_rows_of_rate_increase_violation_column_from_vendor_price_list_detail_grid(self, column_name):\n self.all_row_data = []\n self.wait_for_ajax_spinner_load()\n row_count = len(self.wait().until(EC.presence_of_all_elements_located(self.vendor_price_list_detail_row_locator), 'vendor price list details row element locator not found before specified time'))\n next_page = False\n column_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::th[@data-title='%s']\" % (self.vendor_price_list_detail_rates_grid_div_id, column_name))\n column_element = self.wait().until(EC.presence_of_element_located(column_locator), 'column locator not found before specified time out')\n column_index = int(column_element.get_attribute(\"data-index\")) + 1\n row = 1\n try:\n while row < row_count + 1:\n column_value_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::div[@class='k-grid-content']/descendant::tbody[@role='rowgroup']/tr[%s]/td[%s]\" % (self.vendor_price_list_detail_rates_grid_div_id, row, str(column_index)))\n column_value_element = self.wait(10).until(EC.presence_of_element_located(column_value_locator), 'column value locator not found before specified time out')\n column_value = str(column_value_element.get_attribute(\"innerHTML\"))\n if column_value not in self.all_row_data:\n self.all_row_data.append(column_value)\n else:\n row_count += 1\n if row % 50 == 0:\n next_page = True\n next_page_button_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-arrow-e']\" % self.vendor_price_list_detail_rates_grid_div_id)\n self.click_element(next_page_button_locator, True)\n row = 0\n row_count -= 50\n row += 1\n except WebDriverException:\n pass\n if next_page is True:\n first_page_button_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-seek-w']\" % self.vendor_price_list_detail_rates_grid_div_id)\n self.click_element(first_page_button_locator, True)\n return self.all_row_data"
] | [
"0.7819186",
"0.7056737",
"0.689024",
"0.6611399",
"0.6169793",
"0.59901214",
"0.58574265",
"0.5843966",
"0.56956685",
"0.5646599",
"0.56247485",
"0.55201536",
"0.5437543",
"0.5427011",
"0.5413967",
"0.53968126",
"0.5271638",
"0.5261675",
"0.5233908",
"0.52090025",
"0.5202128",
"0.517512",
"0.5146173",
"0.5136092",
"0.5120291",
"0.51121163",
"0.50995",
"0.50496185",
"0.49936095",
"0.49918672"
] | 0.7582997 | 1 |
Implementing get vendor price list detail grid column names by order functionality | def get_vendor_price_list_detail_grid_column_names_by_order(self):
self.wait_for_ajax_spinner_load(300)
self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_rates_grid_div_id)
return self.column_name_list | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def get_vendor_price_lists_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.view_price_list_div_id)\n return self.column_name_list",
"def get_vendor_price_list_detail_dial_digits_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_dial_digits_grid_div_id)\n return self.column_name_list",
"def get_vendor_price_list_detail_reference_rates_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_reference_rates_grid_div_id)\n return self.column_name_list",
"def sort_vendor_price_lists_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.view_price_list_div_id, column_name, descending_order)",
"def get_vendors_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.vendors_div_id)\n return self.column_name_list",
"def sort_vendor_price_list_detail_grid_column(self, column_name, descending_order):\n self.wait_for_ajax_spinner_load(300)\n self.sort_grid_column(self.vendor_price_list_detail_rates_grid_div_id, column_name, descending_order)",
"def get_buy_and_sell_management_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.buy_and_sell_management_grid_div_id)\n return self.column_name_list",
"def get_rates_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.rates_grid_div_id)\n return self.column_name_list",
"def sort_vendor_price_list_detail_dial_digits_grid_column(self, column_name, descending_order):\n self.wait_for_ajax_spinner_load(300)\n self.sort_grid_column(self.vendor_price_list_detail_dial_digits_grid_div_id, column_name, descending_order)",
"def get_re_analysis_detail_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.re_analysis_detail_grid_div_id)\n return self.column_name_list",
"def get_vendor_price_lists_details(self):\n try:\n self.vendor_price_lists_dict = self.get_grid_row_details(self.customer_price_list_grid_div_id, self.vendor_price_lists_dict)\n return True\n except:\n return False",
"def get_sort_columns_raw(self):\n col_sort_orders = self.gridpreference_sort.all().select_related()\n \n return [x.sort_display for x in col_sort_orders]",
"def sort_vendor_price_list_detail_reference_rates_grid_column(self, column_name, descending_order):\n self.wait_for_ajax_spinner_load(300)\n self.sort_grid_column(self.vendor_price_list_detail_reference_rates_grid_div_id, column_name, descending_order)",
"def sort_vendors_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.vendors_div_id, column_name, descending_order)",
"def columnTitles(self):\n \n pass",
"def columnTitles(self):\n \n pass",
"def show_orders():\n return 'hehe'",
"def order_report():",
"def get_dialed_digits_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.dialed_digits_grid_div_id)\n return self.column_name_list",
"def get_country_groups_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.country_groups_grid_div_id)\n return self.column_name_list",
"def get_display_columns(self): \n if not hasattr(self, '_display_columns'):\n self._display_columns = self.gridpreference_displayorder.all().select_related()\n return self._display_columns",
"def show_korpus(korpus, start=0, size=4, vstart=0, vsize=20, sortby = ''):\n if sortby != '':\n val = sortby\n else:\n val = korpus.columns[start]\n return korpus[korpus.columns[start:start+size]].sort_values(by=val, ascending=False)[vstart:vstart + vsize]",
"def get_list_columns(self):\n columns = super(InventoryTransactionAdmin, self).get_list_columns()\n cols = ['total_amount']\n columns = security_util.filter_columns_by_role(\n columns, cols, 'purchase_price_view'\n )\n return columns",
"def get_all_rows_of_specific_column_from_vendor_price_list_detail_grid(self, column_name):\n self.wait_for_ajax_spinner_load(300)\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.vendor_price_list_detail_rates_grid_div_id, column_name)\n return self.all_row_data",
"def get_destinations_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.destinations_grid_div_id)\n return self.column_name_list",
"def get_sort_columns(self):\n col_sort_orders = self.gridpreference_sort.all().values_list('column__id', flat=True)\n return GridColumn.objects.select_related().all().filter(id__in=col_sort_orders)",
"def get_all_rows_of_specific_column_from_vendor_price_lists_grid(self, column_name):\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.view_price_list_div_id, column_name, self.get_grid_row_count(self.price_lists_grid_row_count_span_locator, 7))\n return self.all_row_data",
"def order_products(self, obj):\n table = \"\"\"<table id=\"result_list\">\n <thead>\n <tr>\n <th scope=\"col\">\n <div class=\"text\"><span>Product ID</span></div>\n <div class=\"clear\"></div>\n </th>\n <th scope=\"col\">\n <div class=\"text\"><span>Product Name</span></div>\n <div class=\"clear\"></div>\n </th>\n <th scope=\"col\">\n <div class=\"text\"><span>Quantity</span></div>\n <div class=\"clear\"></div>\n </th>\n <th scope=\"col\">\n <div class=\"text\"><span>Price</span></div>\n <div class=\"clear\"></div>\n </th>\n </tr>\n </thead>\n <tbody>\"\"\"\n for order_item in obj.order_items.all():\n table += f\"\"\"<tr>\n <td class=\"field-id\">{order_item.product.id}</td>\n <td class=\"field-name\">{order_item.product.name}</td>\n <td class=\"field-quantity\">{order_item.quantity}</td>\n <td class=\"field-price\">{order_item.price}</td>\n </tr>\"\"\"\n table += \"</tbody></table>\"\n return format_html(table)",
"def get_vendors_grid_cost_currency_format(self):\n self.vendors_grid_row_count = self.get_grid_row_count(self.vendors_grid_row_count_span_locator, 5)\n return self.get_specific_column_value_from_grid(self.vendors_div_id, self.vendors_grid_row_count, self.cost_column_name, self.vendors_data_grid_name)",
"def execQ14():\n frame = pan.DataFrame(data, columns=['Price'])\n kiwi = frame[(dFrame.Series_title_1 == \"Kiwifruit, 1kg\")].sort_values(by='Price', ascending=False)\n return kiwi"
] | [
"0.784609",
"0.7598629",
"0.75088555",
"0.6676493",
"0.6577703",
"0.65299934",
"0.6464062",
"0.61554086",
"0.6066655",
"0.5974687",
"0.5902088",
"0.58104134",
"0.57896066",
"0.5721775",
"0.56588066",
"0.56588066",
"0.5566375",
"0.5513445",
"0.55072594",
"0.54893017",
"0.54866123",
"0.54743636",
"0.5456944",
"0.5391439",
"0.53450036",
"0.5336664",
"0.53340816",
"0.5334058",
"0.53121734",
"0.5307917"
] | 0.795806 | 0 |
Implementing compare digits tab name functionality | def compare_digits_tab_name(self, expected_tab_name):
digits_tab_element = self.wait().until(EC.presence_of_element_located(self.vendor_price_list_details_dial_digits_tab_locator), 'vendor price list detail dial digits tab locator not found before specified time out')
actual_tab_name = digits_tab_element.text
if actual_tab_name == expected_tab_name:
return True
else:
return False | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def catch_tabs(self):\n lnum = 1\n for line in self.text:\n cnum = line.find(\"\\t\")\n if 0 <= cnum:\n self.errmsg(\"TAB detected in input. Please use spaces.\",\n pos=(lnum,cnum))\n lnum += 1",
"def _extract_ks_tab(name):\n sp = name.split(\".\")\n if len(sp) == 2:\n ksp = sp[0]\n table = sp[1]\n else:\n ksp = config.execution_name\n table = name\n return ksp.lower().encode('UTF8'), table.lower().encode('UTF8')",
"def test_format_simple_tabs(self) -> None:\n assert self._file_read(\"expect.css\") == CSSFormatter._format_str(\n self._file_read(\"input.css\")\n )",
"def tests_with_multiple_tabs(self):\n\n for domain in self.domains:\n expected = domain\n\n data = f\"0.0.0.0\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t{domain}\"\n actual = File(data).get_converted()\n\n self.assertEqual(expected, actual)\n\n for domain in self.domains:\n expected = domain\n\n data = f\"127.0.0.1\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t{domain}\"\n actual = File(data).get_converted()\n\n self.assertEqual(expected, actual)",
"def tab_id(self) -> str:",
"def check_file_for_tabs(filename, verbose=True):\n file_contains_tabs = False\n with open(filename) as f:\n lines = f.read().splitlines()\n\n line_no = 1\n for line in lines:\n if \"\\t\" in line:\n file_contains_tabs = True\n location = [\n i for i in range(len(line)) if line.startswith('\\t', i)]\n if verbose:\n Console.error(\"Tab found in line {} and column(s) {}\"\n .format(line_no,\n str(location).replace(\"[\", \"\").replace(\n \"]\", \"\")),\n traceflag=False)\n line_no += 1\n return file_contains_tabs",
"def test_tabify(self):\n before_b = \"\"\"\\\n first line\n line 1\n line a\n line b\n line c\n last line\n \"\"\"\n after_b = \"\"\"\\\n first line\n line 1\n \tline a\n \t\tline b\n line c\n last line\n \"\"\"\n self.run_test(\n before_b=before_b,\n after_b=after_b,\n before_sel=(\"1.0\", \"7.0\"),\n after_sel=(\"7.0\", \"7.0\"),\n command_name=\"tabify\",\n )",
"def _check_wrong_tabs_instead_of_spaces(self):\n self.msg_args = []\n for type_file in self.config.extfiles_to_lint:\n for ext_file_rel in self.filter_files_ext(type_file, relpath=True):\n ext_file = os.path.join(self.module_path, ext_file_rel)\n countline = 0\n with open(ext_file, 'rb') as fp:\n for line in fp:\n countline += 1\n line_space_trip = line.lstrip(b' ')\n if line_space_trip != line_space_trip.lstrip(b'\\t'):\n self.msg_args.append(\n (\"%s:%d\" % (ext_file_rel, countline)))\n if self.msg_args:\n return False\n return True",
"def tests_with_tabs(self):\n\n for domain in self.domains:\n expected = domain\n\n data = f\"0.0.0.0\\t{domain}\"\n actual = File(data).get_converted()\n\n self.assertEqual(expected, actual)\n\n for domain in self.domains:\n expected = domain\n\n data = f\"127.0.0.1\\t{domain}\"\n actual = File(data).get_converted()\n\n self.assertEqual(expected, actual)",
"def _tab_order_sorter(app1, app2):\n app1_order = int(app1[\"taborder\"]) if \"taborder\" in app1 else sys.maxsize\n app2_order = int(app2[\"taborder\"]) if \"taborder\" in app2 else sys.maxsize\n return app1_order - app2_order",
"def compute_nbtab(line):\n nb = 0\n for l in line:\n if l == '\\t':\n nb = nb + 1\n else:\n break\n return nb",
"def _tab_names(self):\r\n def _check_func():\r\n tab_names = self.q(css='ol.course-tabs li a').text\r\n return (len(tab_names) > 0, tab_names)\r\n\r\n return Promise(_check_func, \"Get all tab names\").fulfill()",
"def extract_ks_tab(name):\n if not name:\n return None, None\n\n sp = name.split(\".\")\n if len(sp) == 2:\n ksp = sp[0]\n table = sp[1]\n else:\n ksp = config.execution_name\n table = name\n return ksp.lower(), table.lower()",
"def tab_printer(args):\n args = vars(args)\n keys = sorted(args.keys())\n t = Texttable() \n t.add_rows([[\"Parameter\", \"Value\"]] + [[k.replace(\"_\",\" \").capitalize(),args[k]] for k in keys])\n print(t.draw())",
"def tab_printer(args):\n args = vars(args)\n keys = sorted(args.keys())\n t = Texttable() \n t.add_rows([[\"Parameter\", \"Value\"]] + [[k.replace(\"_\",\" \").capitalize(),args[k]] for k in keys])\n print(t.draw())",
"def test_fast_tab_with_names(parallel, read_tab):\n content = \"\"\"#\n\\tdecDeg\\tRate_pn_offAxis\\tRate_mos2_offAxis\\tObsID\\tSourceID\\tRADeg\\tversion\\tCounts_pn\\tRate_pn\\trun\\tRate_mos1\\tRate_mos2\\tInserted_pn\\tInserted_mos2\\tbeta\\tRate_mos1_offAxis\\trcArcsec\\tname\\tInserted\\tCounts_mos1\\tInserted_mos1\\tCounts_mos2\\ty\\tx\\tCounts\\toffAxis\\tRot\n-3.007559\\t0.0000\\t0.0010\\t0013140201\\t0\\t213.462574\\t0\\t2\\t0.0002\\t0\\t0.0001\\t0.0001\\t0\\t1\\t0.66\\t0.0217\\t3.0\\tfakeXMMXCS J1413.8-0300\\t3\\t1\\t2\\t1\\t398.000\\t127.000\\t5\\t13.9\\t72.3\\t\"\"\"\n head = [f\"A{i}\" for i in range(28)]\n read_tab(content, data_start=1, parallel=parallel, names=head)",
"def tab_printer(args):\n args = vars(args)\n keys = sorted(args.keys())\n t = Texttable() \n t.add_rows([[\"Parameter\", \"Value\"]] + [[k.replace(\"_\", \" \").capitalize(), args[k]] for k in keys])\n print(t.draw())",
"def tabExists(self, name):\n numTabs = self.count() \n for i in range(numTabs):\n if (name == self.tabText(i)):\n return True\n return False",
"def test_tabs():\n for _, modname, ispkg in walk_packages(mne.__path__, prefix=\"mne.\"):\n # because we don't import e.g. mne.tests w/mne\n if not ispkg and modname not in tab_ignores:\n try:\n mod = importlib.import_module(modname)\n except Exception: # e.g., mne.export not having pybv\n continue\n source = inspect.getsource(mod)\n assert \"\\t\" not in source, (\n '\"%s\" has tabs, please remove them '\n \"or add it to the ignore list\" % modname\n )",
"def add_tab(self):\n if(self.tab):\n return '\\t'\n return ''",
"def tab_printer(args):\n args = vars(args)\n keys = sorted(args.keys())\n t = Texttable() \n t.add_rows([[\"Parameter\", \"Value\"]] + [[k.replace(\"_\",\" \").capitalize(), args[k]] for k in keys])\n print(t.draw())",
"def tab_printer(args):\n args = vars(args)\n keys = sorted(args.keys())\n tab = Texttable()\n tab.add_rows([[\"Parameter\", \"Value\"]])\n tab.add_rows([[k.replace(\"_\", \" \").capitalize(), args[k]] for k in keys])\n print(tab.draw())",
"def mult_tab(self):\n raise NotImplementedError",
"def testMclAccNameSearch(self):\n driver = self.driver\n #finds the Acc Name field and enter a name, tabs out of the field then clicks the Search button\n driver.find_element(By.ID, \"accName-0\").send_keys('E209G12')\n time.sleep(2)\n actions = ActionChains(driver) \n actions.send_keys(Keys.TAB)\n actions.perform()\n time.sleep(2)\n driver.find_element(By.ID, 'searchButton').click()\n time.sleep(2)\n #find the search results table\n results_table = self.driver.find_element(By.ID, \"resultsTable\")\n table = Table(results_table)\n #Iterate and print the search results headers\n cell1 = table.get_row_cells(0)\n symbol1 = iterate.getTextAsList(cell1)\n print(symbol1)\n #Assert the correct mutant cell line is returned\n self.assertEqual(symbol1, ['E209G12'])",
"def get_tabs(n) -> str:\n res = ''\n for i in range(n):\n res += '\\t'\n return res",
"def clean_tabs(self, text):\n\n if text:\n # lines = text.split('\\n')\n lines = text.splitlines()\n lines = [l for l in lines if l]\n\n # if not lines[0]:\n # lines = lines[1:]\n\n # if not lines[0].startswith(' ') and not lines[0].startswith('\\t') and len(lines) > 1:\n # q = self.indent_width(lines[1])\n # lines[0] = ('\\t' * q) + lines[0]\n # print(q, 523523)\n\n # if not lines[0]:\n # if len(lines[0]) < 2:\n # lines = lines[1:]\n # y = lines[0] if len(lines) < 2 else lines[1]\n y = lines[0]\n # print(lines[0].count('\\t'))\n tabs = self.indent_width(y)\n return '\\n'.join([l[tabs:] for l in lines])\n else:\n return ''",
"def _detab(self, text):\r\n if '\\t' not in text:\r\n return text\r\n return self._detab_re.subn(self._detab_sub, text)[0]",
"def soft_assert_tab_with_number_exists(info_page, soft_assert, tab_name, num):\n soft_assert.expect(\n str_formats.TAB_WITH_NUM.format(tab_name=tab_name, num=num)\n in info_page.top_tabs.tab_names,\n messages.AssertionMessages.TAB_WITH_NUM_SHOULD_EXIST.format(\n tab_name=tab_name, num=num))",
"def get_tab_name(index):\r\n course = self.store.get_course(SlashSeparatedCourseKey('edX', 'toy', '2012_Fall'))\r\n return course.tabs[index]['name']",
"def test_diff_with_tabs_after_filename(self):\n diff = (\n b'diff --git a/README b/README\\n'\n b'index 712544e4343bf04967eb5ea80257f6c64d6f42c7..'\n b'f88b7f15c03d141d0bb38c8e49bb6c411ebfe1f1 100644\\n'\n b'--- a/README\\t\\n'\n b'+++ b/README\\t\\n'\n b'@ -1,1 +1,1 @@\\n'\n b'-blah blah\\n'\n b'+blah\\n'\n b'-\\n'\n b'1.7.1\\n'\n )\n\n parsed_files = self.tool.get_parser(diff).parse()\n self.assertEqual(len(parsed_files), 1)\n\n self.assert_parsed_diff_file(\n parsed_files[0],\n orig_filename=b'README',\n orig_file_details=b'712544e4343bf04967eb5ea80257f6c64d6f42c7',\n modified_filename=b'README',\n modified_file_details=b'f88b7f15c03d141d0bb38c8e49bb6c411ebfe1f1',\n old_unix_mode='100644',\n new_unix_mode='100644',\n insert_count=1,\n delete_count=2,\n data=diff)"
] | [
"0.6217406",
"0.5792136",
"0.5729902",
"0.5718278",
"0.566196",
"0.5616072",
"0.55936736",
"0.5580268",
"0.5545545",
"0.5519032",
"0.5405987",
"0.54056746",
"0.53743166",
"0.5367936",
"0.5367936",
"0.5367224",
"0.53615284",
"0.5358701",
"0.535323",
"0.5343655",
"0.5336445",
"0.5319641",
"0.5287528",
"0.5261249",
"0.52152747",
"0.5196474",
"0.5177045",
"0.5174218",
"0.51741433",
"0.51477534"
] | 0.7055403 | 0 |
Implementing select vendor price list detail dial digits tab functionality | def select_vendor_price_list_detail_dial_digits_tab(self):
self.click_element(self.vendor_price_list_details_dial_digits_tab_locator, True) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def select_vendor_price_list_detail_reference_rates_tab(self):\n self.click_element(self.vendor_price_list_details_reference_rates_tab_locator, True)",
"def select_dial_digits_tab(self):\n self.click_element(self.dial_digits_tab_locator, True, True)",
"def click_vendor_price_list_detail_dial_digits_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_dial_digits_grid_div_id)",
"def set_vendor_price_list_detail_dial_digits_grid_settings(self, grid_settings):\n self.wait_for_ajax_spinner_load(300)\n self.set_grid_settings(self.vendor_price_list_detail_dial_digits_grid_div_id, grid_settings)",
"def handle_selection_cust(self):\n choice = self.get_input()\n if choice == '1':\n self.display_cust_unlock()\n elif choice == '2':\n self.display_return_car()\n elif choice == '3':\n self.display_main()",
"def select_tab_of_view_price_list_detail_page(self, tab_name):\n self.wait_for_ajax_spinner_load(300)\n view_price_list_detail_page_tab_locator = (By.XPATH, self.vendor_profile_page_tab_locator_string + \"[text()='%s']\" % tab_name)\n self.select_static_tab(view_price_list_detail_page_tab_locator, 'tab locator not found')",
"def click_on_vendor_price_lists(self):\n vendor_price_lists_element = self.wait().until(EC.element_to_be_clickable(self.vendor_price_lists_locator), 'vendor price lists locator not found before specified time')\n self.script_executor_click(vendor_price_lists_element)\n self.wait_for_ajax_spinner_load()",
"def callback_func(event): # this function get selected item from the combo box and load into oid i/p box\n choice = quality_combo.get()\n choice = int((choice.strip())[0])\n\n # put the data choose into oid input field\n oid.insert(0, choice)",
"def set_vendor(self, vendor_list):\n self.multiple_items_selection_from_kendo_dropdown(self.vendor_dropdown_locator, vendor_list)\n self.wait_for_ajax_spinner_load()",
"def OnMidClick(self, event):\n\n # note bdaqmid is a string so we need to convert to int here\n bdaqmid = int(event.GetEventObject().GetURL())\n\n bdaqname = self.mstore.get_name_from_BDAQmid(bdaqmid)\n\n # show the price panel for the market selected\n self.app.frame.GoToPricePanel(bdaqname, bdaqmid)",
"def select_vendors_tab(self):\n self.select_static_tab(self.vendors_tab_locator, 'vendors tab not found before specified time')",
"def select_rates_tab(self):\n self.select_static_tab(self.rates_tab_locator, True)",
"def handle_view(self, controller):\n \n order = controller.customer.my_order ## make a reference to the order of customer\n \n for i in range(len(order.items)):\n if not order.items[i]:\n continue\n \n label0 = Label(self, text=order.items[i])\n label0.grid(row=i+2, column=0, columnspan=2, padx=10)\n \n label1 = Label(self, text=\"QTY:\")\n label1.grid(row=i+2, column=2)\n \n qty = order.items[i].quantity\n var = IntVar()\n self.vars[i] = var\n self.vars[i].set(qty)\n combobox0 = ttk.Combobox(self, textvariable=self.vars[i], state=\"readonly\", values=[j+1 for j in range(self.max_range)], width='3')\n combobox0.bind(\"<<ComboboxSelected>>\", lambda event, c=controller.customer, p=i:self.onChange(c, p)) ## change pizza quantity\n combobox0.focus_set()\n combobox0.grid(row=i+2, column=3)\n\n button3 = Button(self, text=\"Remove\", command=lambda p=i:self.onRemove(controller, p))\n button3.grid(row=i+2, column=4)\n\n button4 = Button(self, text=\"CHECKOUT\", command=lambda:self.onCheckout(controller))\n button4.grid(row=1, column=4, columnspan=2, sticky='e')\n \n self.showOrderPrice(order)",
"def handle_selection_main(self):\n choice = self.get_input()\n if choice == '1':\n self.display_cust()\n elif choice == '2':\n self.is_user = False\n self.display_eng()",
"async def on_select_trade(self, payload):\n\n self.source._to_trade = self.current_page\n await self.show_page(self.current_page)",
"def select_adjustments_tab(self):\n self.click_element(self.adjustments_tab_locator)",
"def openproducts(self):\n\n print \"Open products\"\n self.combo_product_list.setEnabled(True)\n frame=self.combo_area_list.currentText()\n self.combo_product_list.clear()\n self.combo_dataset_list.clear()\n self.combo_variable_list.clear()\n print str(frame)\n list_glo=[]\n if str(frame) == \"GLOBAL\":\n for key in self.dict_prod.keys():\n if str(frame) in key :\n list_glo.append(str(key))\n ind=0\n #print \"Frame %s \" %(frame)\n for key in self.dict_prod.keys():\n if str(frame) == \"BAL\":\n frame1=\"_BAL_\"\n frame2=\"-BAL-\"\n if frame1 in key or frame2 in key :\n self.combo_product_list.addItem(str(key))\n elif str(frame) == \"NWS\":\n frame1=\"NORTHWESTSHELF_\"\n frame2=\"NWS\"\n if frame1 in key or frame2 in key :\n self.combo_product_list.addItem(str(key))\n elif str(frame) == \"GLOBAL\":\n if str(frame) in key :\n if ind == 0 :\n self.combo_product_list.addItem(list_glo[5])\n elif ind == 5 : \n self.combo_product_list.addItem(list_glo[0])\n else : \n self.combo_product_list.addItem(list_glo[ind])\n ind+=1\n else :\n if str(frame) in key :\n self.combo_product_list.addItem(str(key))\n self.combo_dataset_list.setEnabled(True)",
"def get_vendor_price_lists_details(self):\n try:\n self.vendor_price_lists_dict = self.get_grid_row_details(self.customer_price_list_grid_div_id, self.vendor_price_lists_dict)\n return True\n except:\n return False",
"def select_qos_tab(self):\n self.click_element(self.qos_tab_locator, True)",
"def verify_price_list_item(self, price_list_item):\n self.single_selection_from_kendo_dropdown(self.price_list_kendo_dropdown_locator, price_list_item)",
"def show_vendor_product():\n vendor = input(\"Enter the Vendor: \")\n product = input(\"Enter the product: \")\n filter_string = input(\"Enter Optional Search string (i.e. HTTP): \")\n logger.debug(\"Searching: {} from {} -- Filter = {}\".format(product, vendor, filter_string))\n search_url = \"http://cve.circl.lu/api/search/{}/{}\".format(vendor, product)\n req = call_api(search_url)\n if not req:\n logger.debug(\"something no workie with the vendor product call\")\n else:\n print(\"Searching: {} from {} -- Filter = {}\".format(product, vendor, filter_string))\n for item in req:\n if filter_string != '' or not filter_string:\n if filter_string in item['summary']:\n print(\"\\nSummary: \" + item['summary'])\n print(\"CVE: \" + item['id'])\n print(\"CVSS: \" + str(item['cvss']))\n else:\n print(\"\\nSummary: \" + item['summary'])\n print(\"CVE: \" + item['id'])\n print(\"CVSS: \" + str(item['cvss']))\n menu()",
"def select_dialed_digits_tab(self):\n self.select_static_tab(self.dialed_digits_tab_locator, True)",
"def update_plot_det_items(self,param):\n items=param.value()['selected']\n self.settings.child('scan_options', 'plot_from').setOpts(limits=items)",
"def set_target_buy_list_number_plan(self, item_name, is_first_item):\n if is_first_item is True:\n self.single_selection_from_static_kendo_dropdown(self.target_buy_list_number_plan_kendo_dropdown_arrow_locator, first_item=True)\n else:\n self.single_selection_from_static_kendo_dropdown(self.target_buy_list_number_plan_kendo_dropdown_arrow_locator, item_name)",
"def edit_tools(self, e):\n #GETTING SELECTION\n\n self.selected_item = self.user_inventory.selection()\n self.select_name = self.user_inventory.item([i for i in self.selected_item], \"values\")[0]\n self.select_entdate = self.user_inventory.item([i for i in self.selected_item], \"values\")[3]\n\n self.df_same_name = self.df_user.query(\"title == @self.select_name\")\n #this is the selected one for sure\n self.df_the_selected_item = self.df_same_name.loc[self.df_same_name[\"entry date\"] == self.select_entdate]\n\n #GETTING THE INDEX NUMBER OF THE SELECTION IN .CSV FILE\n self.index_select = self.df_the_selected_item.index\n self.index_select_number = self.index_select.tolist()\n\n #bottom buttons appear:\n self.changing_item_label.config(text=\"Now editing \"+self.select_name+\" that added on \"+self.select_entdate+\":\")\n\n self.delete_but = Button (self.bottom_frame, text=\"DELETE\", command=self.delete_button)\n self.delete_but.place(relx=0.1, rely=0.7, relwidth=0.28, anchor=\"w\")\n\n self.servings_list = [1, 2, 3, 4, 5, 6, 7, 8, 9, 10]\n self.serv_drop = Combobox(self.bottom_frame, value=self.servings_list, state=\"readonly\")\n self.serv_drop.place(relx=0.5, rely=0.7, relwidth=0.2, anchor=CENTER)\n\n \n self.serv_but = Button(self.bottom_frame, text=\"CHANGE AMOUNT\", command=self.change_amount_button, state=\"disabled\")\n self.serv_but.place(relx=0.9, rely=0.7, relwidth=0.28, anchor=\"e\")\n\n self.serv_drop.bind(\"<<ComboboxSelected>>\", self.activate_button)",
"def tabSelected(self):",
"def tabSelected(self):",
"def select_buy_dashboard_tab(self):\n self.select_static_tab(self.buy_dashboard_tab_locator, True)",
"def _onchange_price(self):\n self.price_subtotal = self.price",
"def set_vendor_price_list_detail_grid_settings(self, grid_settings):\n self.wait_for_ajax_spinner_load(300)\n self.set_grid_settings(self.vendor_price_list_detail_rates_grid_div_id, grid_settings)"
] | [
"0.72233987",
"0.60972106",
"0.58003265",
"0.5724084",
"0.570462",
"0.5444368",
"0.5378199",
"0.5371656",
"0.5312888",
"0.52988786",
"0.5254788",
"0.5238497",
"0.5229335",
"0.5200283",
"0.51645255",
"0.515865",
"0.51402265",
"0.51138073",
"0.51114845",
"0.5109527",
"0.5103178",
"0.5101418",
"0.50854045",
"0.5041863",
"0.5020998",
"0.50046414",
"0.50046414",
"0.49794915",
"0.49671316",
"0.49572378"
] | 0.835204 | 0 |
Implementing select vendor price list detail reference rates tab functionality | def select_vendor_price_list_detail_reference_rates_tab(self):
self.click_element(self.vendor_price_list_details_reference_rates_tab_locator, True) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def select_vendor_price_list_detail_dial_digits_tab(self):\n self.click_element(self.vendor_price_list_details_dial_digits_tab_locator, True)",
"def select_reference_rates_tab(self):\n self.select_static_tab(self.reference_rates_tab_locator, True)",
"def select_rates_tab(self):\n self.select_static_tab(self.rates_tab_locator, True)",
"def set_vendor_price_list_detail_reference_rates_grid_settings(self, grid_settings):\n self.wait_for_ajax_spinner_load(300)\n self.set_grid_settings(self.vendor_price_list_detail_reference_rates_grid_div_id, grid_settings)",
"def set_vendor_price_list_detail_grid_settings(self, grid_settings):\n self.wait_for_ajax_spinner_load(300)\n self.set_grid_settings(self.vendor_price_list_detail_rates_grid_div_id, grid_settings)",
"def set_rate_plan(self, item_name):\n self.single_selection_from_kendo_dropdown(self.rate_plan_kendo_dropdown_locator, item_name)",
"def click_vendor_price_list_detail_reference_rates_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_reference_rates_grid_div_id)",
"def set_rate_catalog(self, rate_catalog):\n self.single_selection_from_kendo_dropdown(self.rate_catalog_kendo_dropdown_locator, rate_catalog)",
"def getActiveCurrency():",
"def getActiveCurrencies():",
"def RateSelect(self):\n\t\treturn self._get_attribute('rateSelect')",
"def test_get_rate_plan_by_product(self):\n pass",
"def click_vendor_price_list_detail_rates_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_rates_grid_div_id)",
"def _onchange_price(self):\n self.price_subtotal = self.price",
"def select_tab_of_view_price_list_detail_page(self, tab_name):\n self.wait_for_ajax_spinner_load(300)\n view_price_list_detail_page_tab_locator = (By.XPATH, self.vendor_profile_page_tab_locator_string + \"[text()='%s']\" % tab_name)\n self.select_static_tab(view_price_list_detail_page_tab_locator, 'tab locator not found')",
"def on_chosen_currency(self):\n main_currency_title = self.choose_currency.currentText()\n # the string needs to be modified to be compatible with the database values\n main_currency = main_currency_title.replace(\" \", \"_\").lower()\n relation_currency = self.choose_relation_currency.currentText().replace(\" \", \"_\").lower()\n # graph\n if len(load_all(main_currency)) < 2:\n gui_warnings.on_loading_values()\n else:\n try:\n canvas = Canvas(relation_currency, self)\n canvas.plot(main_currency)\n except ValueError:\n pass # plots empty graph if main_currency = relation_currency\n self.clear_graph_layout(self.graph_layout)\n self.graph_layout.addWidget(canvas)\n # title\n self.gui_title.setText(main_currency_title)\n # table\n self.currency_table.setRowCount(0)\n currency_list = [\n \"Brazilian Real\",\n \"American Dollar\",\n \"European Euro\",\n \"British Pound\",\n \"Japanese Yen\",\n \"Swiss Frank\",\n \"Canadian Dollar\",\n \"Australian Dollar\"\n ]\n for currency in currency_list:\n temp = currency_list[currency_list.index(currency)]\n currency_list[currency_list.index(currency)] = currency_list[0]\n currency_list[0] = temp\n if main_currency_title == currency:\n self.currency_table.setHorizontalHeaderLabels((*currency_list[1:], \"Date\"))\n # from https://www.youtube.com/watch?v=l2OoXj1Z2hM&t=411s\n records = enumerate(load_all(main_currency))\n for row_num, row_data in records:\n self.currency_table.insertRow(row_num)\n for column_num, data in enumerate(row_data):\n self.currency_table.setItem(\n row_num, column_num, QTableWidgetItem(str(data))\n )",
"def compare_vendor_price_list_detail_rates_grid_rate(self):\n self.buy_page_excel_data_dictionary = self.get_excel_data_dictionary()\n is_compared = False\n rates_grid_rate_column_element = self.wait().until(EC.presence_of_element_located(self.rates_grid_rate_column_locator))\n if self.buy_page_excel_data_dictionary[\"Rate1\"] == (rates_grid_rate_column_element.text).strip():\n is_compared = True\n return is_compared",
"def _fill_rateform(rf, value):\n fill(rf.rate_loc, value[0])\n fill(rf.unit_select_loc, sel.ByValue(value[1]))",
"def pricing_view(request, simulation):\n return TollListView.as_view()(request, simulation=simulation, )",
"def test_get_rate_plan_by_product_and_rate_plan(self):\n pass",
"def set_vendor_price_list_detail_dial_digits_grid_settings(self, grid_settings):\n self.wait_for_ajax_spinner_load(300)\n self.set_grid_settings(self.vendor_price_list_detail_dial_digits_grid_div_id, grid_settings)",
"def test_get_product_rate_plan_by_id(self):\n pass",
"def handle_view(self, controller):\n \n order = controller.customer.my_order ## make a reference to the order of customer\n \n for i in range(len(order.items)):\n if not order.items[i]:\n continue\n \n label0 = Label(self, text=order.items[i])\n label0.grid(row=i+2, column=0, columnspan=2, padx=10)\n \n label1 = Label(self, text=\"QTY:\")\n label1.grid(row=i+2, column=2)\n \n qty = order.items[i].quantity\n var = IntVar()\n self.vars[i] = var\n self.vars[i].set(qty)\n combobox0 = ttk.Combobox(self, textvariable=self.vars[i], state=\"readonly\", values=[j+1 for j in range(self.max_range)], width='3')\n combobox0.bind(\"<<ComboboxSelected>>\", lambda event, c=controller.customer, p=i:self.onChange(c, p)) ## change pizza quantity\n combobox0.focus_set()\n combobox0.grid(row=i+2, column=3)\n\n button3 = Button(self, text=\"Remove\", command=lambda p=i:self.onRemove(controller, p))\n button3.grid(row=i+2, column=4)\n\n button4 = Button(self, text=\"CHECKOUT\", command=lambda:self.onCheckout(controller))\n button4.grid(row=1, column=4, columnspan=2, sticky='e')\n \n self.showOrderPrice(order)",
"def click_reference_rates_show_search_form_link(self):\n self.click_element(self.reference_rates_show_search_form_link_locator)",
"def set_vendor(self, vendor_list):\n self.multiple_items_selection_from_kendo_dropdown(self.vendor_dropdown_locator, vendor_list)\n self.wait_for_ajax_spinner_load()",
"def sub_tax_cost_transfer_pricing_eur(manager, df_fields, seq_recs, seq_reservas):\n # df_hotel = manager.get_dataframe(tables[\"dwc_bok_t_canco_hotel\"])\n # df_circuit = manager.get_dataframe(tables[\"dwc_bok_t_canco_hotel_circuit\"])\n # df_other = manager.get_dataframe(tables[\"dwc_bok_t_canco_other\"])\n # df_transfer = manager.get_dataframe(tables[\"dwc_bok_t_canco_transfer\"])\n # df_endow = manager.get_dataframe(tables[\"dwc_bok_t_canco_endowments\"])\n # df_extra = manager.get_dataframe(tables[\"dwc_bok_t_canco_extra\"])\n\n df_aux = df_fields.select(\"operative_incoming\", \"booking_id\", \"invoicing_company\", \"creation_date\",\n \"booking_currency\")\n\n df_hotel = sub_tax_transfer_pricing_eur_aux(manager, df_hotelt, seq_recs, seq_reservas, df_aux)\n df_circuit = sub_tax_transfer_pricing_eur_aux(manager, df_circuitt, seq_recs, seq_reservas, df_aux)\n df_other = sub_tax_transfer_pricing_eur_aux(manager, df_othert, seq_recs, seq_reservas, df_aux)\n df_transfer = sub_tax_transfer_pricing_eur_aux(manager, df_transfert, seq_recs, seq_reservas, df_aux)\n df_endow = sub_tax_transfer_pricing_eur_aux(manager, df_endowt, seq_recs, seq_reservas, df_aux)\n df_extra = sub_tax_transfer_pricing_eur_aux_extra(manager, df_extrat, seq_recs, seq_reservas, df_aux)\n\n df_impuesto_canco = df_hotel.union(df_circuit).union(df_other).union(df_transfer).union(df_endow).union(\n df_extra)\n\n df_impuesto_canco = df_impuesto_canco.groupBy(\"operative_incoming\", \"booking_id\") \\\n .agg({'impuesto_canco': 'sum'}).withColumnRenamed(\"SUM(impuesto_canco)\", \"impuesto_canco\")\n\n df_impuesto_canco = df_impuesto_canco.withColumnRenamed(\"operative_incoming\", \"seq_rec\") \\\n .withColumnRenamed(\"booking_id\", \"seq_res\")\n\n df_fields = df_fields.join(df_impuesto_canco, [df_fields.operative_incoming == df_impuesto_canco.seq_rec,\n df_fields.booking_id == df_impuesto_canco.seq_res],\n 'left_outer').drop(\"seq_rec\", \"seq_res\")\n\n df_addcanco = sub_transfer_pricing_aux_add_canco(manager, df_fields, seq_recs, seq_reservas, EUR)\n\n df_addcanco = df_addcanco.withColumnRenamed(\"operative_incoming\", \"seq_rec\") \\\n .withColumnRenamed(\"booking_id\", \"seq_res\")\n\n # add add_impuesto_canco\n df_fields = df_fields.join(df_addcanco, [df_fields.operative_incoming == df_addcanco.seq_rec,\n df_fields.booking_id == df_addcanco.seq_res],\n \"left_outer\").drop(df_addcanco.seq_rec).drop(df_addcanco.seq_res)\n\n df_fields = df_fields.na.fill({'impuesto_canco': 0, 'add_impuesto_canco': 0})\n\n df_fields = df_fields.withColumn(\"Tax_Cost_Transfer_pricing_EUR\",\n df_fields.impuesto_canco + df_fields.add_impuesto_canco) \\\n .drop(\"impuesto_canco\", \"add_impuesto_canco\")\n\n del df_hotel, df_circuit, df_other, df_transfer, df_endow, df_extra, df_impuesto_canco, df_addcanco\n\n return df_fields",
"def get_prices(self):\n pass",
"def sub_tax_transfer_pricing_eur(manager, df_fields, seq_recs, seq_reservas):\n # df_hotel = manager.get_dataframe(tables[\"dwc_bok_t_canco_hotel\"])\n # df_circuit = manager.get_dataframe(tables[\"dwc_bok_t_canco_hotel_circuit\"])\n # df_other = manager.get_dataframe(tables[\"dwc_bok_t_canco_other\"])\n # df_transfer = manager.get_dataframe(tables[\"dwc_bok_t_canco_transfer\"])\n # df_endow = manager.get_dataframe(tables[\"dwc_bok_t_canco_endowments\"])\n # df_extra = manager.get_dataframe(tables[\"dwc_bok_t_canco_extra\"])\n\n df_aux = df_fields.select(\"operative_incoming\", \"booking_id\", \"invoicing_company\", \"creation_date\",\n \"booking_currency\")\n\n df_hotel = sub_tax_transfer_pricing_eur_aux(manager, df_hotelt, seq_recs, seq_reservas, df_aux)\n df_circuit = sub_tax_transfer_pricing_eur_aux(manager, df_circuitt, seq_recs, seq_reservas, df_aux)\n df_other = sub_tax_transfer_pricing_eur_aux(manager, df_othert, seq_recs, seq_reservas, df_aux)\n df_transfer = sub_tax_transfer_pricing_eur_aux(manager, df_transfert, seq_recs, seq_reservas, df_aux)\n df_endow = sub_tax_transfer_pricing_eur_aux(manager, df_endowt, seq_recs, seq_reservas, df_aux)\n df_extra = sub_tax_transfer_pricing_eur_aux_extra(manager, df_extrat, seq_recs, seq_reservas, df_aux)\n\n df_impuesto_canco = df_hotel.union(df_circuit).union(df_other).union(df_transfer).union(df_endow).union(\n df_extra)\n\n df_impuesto_canco = df_impuesto_canco.groupBy(\"operative_incoming\", \"booking_id\") \\\n .agg({'impuesto_canco': 'sum'}).withColumnRenamed(\"SUM(impuesto_canco)\", \"impuesto_canco\")\n\n df_impuesto_canco = df_impuesto_canco.withColumnRenamed(\"operative_incoming\", \"seq_rec\") \\\n .withColumnRenamed(\"booking_id\", \"seq_res\")\n\n df_fields = df_fields.join(df_impuesto_canco, [df_fields.operative_incoming == df_impuesto_canco.seq_rec,\n df_fields.booking_id == df_impuesto_canco.seq_res],\n 'left_outer').drop(\"seq_rec\", \"seq_res\")\n\n df_addcanco = sub_transfer_pricing_aux_add_canco(manager, df_fields, seq_recs, seq_reservas, EUR)\n\n df_addcanco = df_addcanco.withColumnRenamed(\"operative_incoming\", \"seq_rec\") \\\n .withColumnRenamed(\"booking_id\", \"seq_res\")\n\n # add add_impuesto_canco\n df_fields = df_fields.join(df_addcanco, [df_fields.operative_incoming == df_addcanco.seq_rec,\n df_fields.booking_id == df_addcanco.seq_res],\n \"left_outer\").drop(df_addcanco.seq_rec).drop(df_addcanco.seq_res)\n\n df_fields = df_fields.na.fill({'impuesto_canco': 0, 'add_impuesto_canco': 0})\n\n df_fields = df_fields.withColumn(\"Tax_Transfer_pricing_EUR\",\n df_fields.impuesto_canco + df_fields.add_impuesto_canco) \\\n .drop(\"impuesto_canco\", \"add_impuesto_canco\")\n\n del df_hotel, df_circuit, df_other, df_transfer, df_endow, df_extra, df_impuesto_canco, df_addcanco\n\n return df_fields",
"def test_companies_company_id_data_tax_rates_get(self):\n pass",
"def sub_tax_cost_transfer_pricing(manager, df_fields, seq_recs, seq_reservas):\n # df_hotel = manager.get_dataframe(tables[\"dwc_bok_t_canco_hotel\"])\n # df_circuit = manager.get_dataframe(tables[\"dwc_bok_t_canco_hotel_circuit\"])\n # df_other = manager.get_dataframe(tables[\"dwc_bok_t_canco_other\"])\n # df_transfer = manager.get_dataframe(tables[\"dwc_bok_t_canco_transfer\"])\n # df_endow = manager.get_dataframe(tables[\"dwc_bok_t_canco_endowments\"])\n # df_extra = manager.get_dataframe(tables[\"dwc_bok_t_canco_extra\"])\n\n df_aux = df_fields.select(\"operative_incoming\", \"booking_id\", \"invoicing_company\", \"creation_date\",\n \"booking_currency\")\n\n df_hotel = sub_tax_cost_transfer_pricing_aux(manager, df_hotelt, seq_recs, seq_reservas, df_aux)\n df_circuit = sub_tax_cost_transfer_pricing_aux(manager, df_circuitt, seq_recs, seq_reservas, df_aux)\n df_other = sub_tax_cost_transfer_pricing_aux(manager, df_othert, seq_recs, seq_reservas, df_aux)\n df_transfer = sub_tax_cost_transfer_pricing_aux(manager, df_transfert, seq_recs, seq_reservas, df_aux)\n df_endow = sub_tax_cost_transfer_pricing_aux(manager, df_endowt, seq_recs, seq_reservas, df_aux)\n df_extra = sub_tax_cost_transfer_pricing_aux_extra(manager, df_extrat, seq_recs, seq_reservas, df_aux)\n\n df_impuesto_canco = df_hotel.union(df_circuit).union(df_other).union(df_transfer).union(df_endow).union(\n df_extra)\n\n df_impuesto_canco = df_impuesto_canco.groupBy(\"operative_incoming\", \"booking_id\") \\\n .agg({'impuesto_canco': 'sum'}).withColumnRenamed(\"SUM(impuesto_canco)\", \"impuesto_canco\")\n\n df_impuesto_canco = df_impuesto_canco.withColumnRenamed(\"operative_incoming\", \"seq_rec\") \\\n .withColumnRenamed(\"booking_id\", \"seq_res\")\n\n # add impuesto_canco\n df_fields = df_fields.join(df_impuesto_canco, [df_fields.operative_incoming == df_impuesto_canco.seq_rec,\n df_fields.booking_id == df_impuesto_canco.seq_res],\n 'left_outer').drop(\"seq_rec\", \"seq_res\")\n\n df_addcanco = sub_transfer_pricing_aux_add_canco(manager, df_fields, seq_recs, seq_reservas)\n\n df_addcanco = df_addcanco.withColumnRenamed(\"operative_incoming\", \"seq_rec\") \\\n .withColumnRenamed(\"booking_id\", \"seq_res\")\n\n # add add_impuesto_canco\n df_fields = df_fields.join(df_addcanco, [df_fields.operative_incoming == df_addcanco.seq_rec,\n df_fields.booking_id == df_addcanco.seq_res],\n \"left_outer\").drop(df_addcanco.seq_rec).drop(df_addcanco.seq_res)\n\n df_fields = df_fields.na.fill({'impuesto_canco': 0, 'add_impuesto_canco': 0})\n\n df_fields = df_fields.withColumn(\"Tax_Cost_Transfer_pricing\",\n df_fields.impuesto_canco + df_fields.add_impuesto_canco) \\\n .drop(\"impuesto_canco\", \"add_impuesto_canco\")\n\n df_fields = df_fields.withColumn(\"Tax_Cost_Transfer_pricing\", udf_round_ccy(df_fields.Tax_Cost_Transfer_pricing,\n df_fields.booking_currency))\n\n del df_hotel, df_circuit, df_other, df_transfer, df_endow, df_extra, df_impuesto_canco, df_addcanco, df_aux\n\n return df_fields"
] | [
"0.6666858",
"0.633733",
"0.6224976",
"0.60841584",
"0.57325596",
"0.5658108",
"0.56120294",
"0.56063485",
"0.54622257",
"0.53771305",
"0.5348147",
"0.53330547",
"0.5311239",
"0.53082997",
"0.5306834",
"0.5189189",
"0.515616",
"0.5126048",
"0.5110215",
"0.5060279",
"0.5060121",
"0.50538826",
"0.5052295",
"0.5036773",
"0.5035614",
"0.5020177",
"0.5011579",
"0.49988717",
"0.49984598",
"0.49794322"
] | 0.81869215 | 0 |
Implementing set vendor price list detail dial digits grid settings functionality | def set_vendor_price_list_detail_dial_digits_grid_settings(self, grid_settings):
self.wait_for_ajax_spinner_load(300)
self.set_grid_settings(self.vendor_price_list_detail_dial_digits_grid_div_id, grid_settings) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def set_vendor_price_list_detail_grid_settings(self, grid_settings):\n self.wait_for_ajax_spinner_load(300)\n self.set_grid_settings(self.vendor_price_list_detail_rates_grid_div_id, grid_settings)",
"def set_vendor_price_lists_grid_settings(self, grid_settings):\n self.set_grid_settings(self.view_price_list_div_id, grid_settings)",
"def select_vendor_price_list_detail_dial_digits_tab(self):\n self.click_element(self.vendor_price_list_details_dial_digits_tab_locator, True)",
"def set_vendor_price_list_detail_reference_rates_grid_settings(self, grid_settings):\n self.wait_for_ajax_spinner_load(300)\n self.set_grid_settings(self.vendor_price_list_detail_reference_rates_grid_div_id, grid_settings)",
"def click_vendor_price_list_detail_dial_digits_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_dial_digits_grid_div_id)",
"def set_vendor(self, vendor_list):\n self.multiple_items_selection_from_kendo_dropdown(self.vendor_dropdown_locator, vendor_list)\n self.wait_for_ajax_spinner_load()",
"def _set_details_of_charges_71A(self, val):\n self.swift_obj.DetailsOfCharges = val\n self.swift_obj.DetailsOfCharges.swiftTag = '71A'",
"def set_vendor_grid_settings(self, grid_settings):\n self.set_grid_settings(self.vendors_div_id, grid_settings)",
"def select_vendor_price_list_detail_reference_rates_tab(self):\n self.click_element(self.vendor_price_list_details_reference_rates_tab_locator, True)",
"def get_vendor_price_lists_details(self):\n try:\n self.vendor_price_lists_dict = self.get_grid_row_details(self.customer_price_list_grid_div_id, self.vendor_price_lists_dict)\n return True\n except:\n return False",
"def change_entries(self, grid_sizer, options, border):\n\n if (self.diag_type is None): return grid_sizer # no data selected, don't change anything\n\n # setup the grid of possible values\n header0 = wx.StaticText(self, -1, \"Add/Remove\")\n header1 = wx.StaticText(self, -1, \"Quantity Code\")\n header2 = wx.StaticText(self, -1, \"Name\")\n header3 = wx.StaticText(self, -1, \"LaTeX Formula\")\n grid_sizer.Add(header0, pos=(0,0), flag=options, border=border)\n grid_sizer.Add(header1, pos=(0,1), flag=options, border=border)\n grid_sizer.Add(header2, pos=(0,2), flag=options, border=border)\n grid_sizer.Add(header3, pos=(0,3), flag=options, border=border)\n grid_sizer.Add(wx.StaticLine(self), pos=(1,0), span=(1,4),\n flag=wx.ALL|wx.EXPAND|wx.GROW, border=border)\n\n self.selected_values = [] # keep track of selected quantities\n\n quantities = self.output_quantities.diagnostic_types[self.diag_type]\n\n # choose a good height/width for formulas\n if (self.diag_type in [\"Linear_Forces\", \"Angular_Momentum\", \"Energy_Flux\",\n \"Induction\", \"Inertial_Forces\", \"Lorentz_Forces\",\n \"Poynting_Flux\", \"TurbKE_Budget\"]):\n width = 100\n elif (self.diag_type == \"Thermal_Equation\"):\n width = 150\n else:\n width = 30\n height = 20\n\n row = 2\n iquant = 0\n for Q in quantities:\n but = wx.ToggleButton(self, Q.code, \"Add\") # build button and place it in second column\n but.Bind(wx.EVT_TOGGLEBUTTON, self.OnToggle)\n grid_sizer.Add(but, pos=(row,0), flag=options, border=border)\n\n q_code = wx.StaticText(self, -1, str(Q.code)) # build other column entries\n q_name = wx.StaticText(self, -1, Q.name) # name\n\n formula = self.RenderTeX(Q, size=(width,height))\n\n # place column entries\n grid_sizer.Add(q_code, pos=(row,1), flag=options, border=border)\n grid_sizer.Add(q_name, pos=(row,2), flag=options, border=border)\n grid_sizer.Add(formula, pos=(row,3), flag=options, border=border)\n\n iquant += 1\n\n # add horizontal line every 5 quantities\n if (iquant % 5 == 0):\n grid_sizer.Add(wx.StaticLine(self), pos=(row+1,0), span=(1,4),\n flag=wx.ALL|wx.EXPAND|wx.GROW, border=border)\n row_inc = 2\n else:\n row_inc = 1\n\n row += row_inc\n\n grid_sizer.AddGrowableCol(2,1) # make the name/formula columns \"1\" growable, i.e., grows as necessary\n grid_sizer.AddGrowableCol(3,1)\n\n return grid_sizer",
"def update_plot_det_items(self,param):\n items=param.value()['selected']\n self.settings.child('scan_options', 'plot_from').setOpts(limits=items)",
"def set_buy_and_sell_management_grid_settings(self, grid_settings):\n self.set_grid_settings(self.buy_and_sell_management_grid_div_id, grid_settings)",
"def _configure(self):\n Values._configure(self)\n self.values = [self.inventory.one, self.inventory.two]\n return",
"def change_price(self, value): \n value = self.price",
"def set_price(self, request, pk):\n return Response('20$')",
"def set_price(self, request, pk):\n return Response('20$')",
"def handle_view(self, controller):\n \n order = controller.customer.my_order ## make a reference to the order of customer\n \n for i in range(len(order.items)):\n if not order.items[i]:\n continue\n \n label0 = Label(self, text=order.items[i])\n label0.grid(row=i+2, column=0, columnspan=2, padx=10)\n \n label1 = Label(self, text=\"QTY:\")\n label1.grid(row=i+2, column=2)\n \n qty = order.items[i].quantity\n var = IntVar()\n self.vars[i] = var\n self.vars[i].set(qty)\n combobox0 = ttk.Combobox(self, textvariable=self.vars[i], state=\"readonly\", values=[j+1 for j in range(self.max_range)], width='3')\n combobox0.bind(\"<<ComboboxSelected>>\", lambda event, c=controller.customer, p=i:self.onChange(c, p)) ## change pizza quantity\n combobox0.focus_set()\n combobox0.grid(row=i+2, column=3)\n\n button3 = Button(self, text=\"Remove\", command=lambda p=i:self.onRemove(controller, p))\n button3.grid(row=i+2, column=4)\n\n button4 = Button(self, text=\"CHECKOUT\", command=lambda:self.onCheckout(controller))\n button4.grid(row=1, column=4, columnspan=2, sticky='e')\n \n self.showOrderPrice(order)",
"def hsdpa_physical_downlink_settings_carrier2(self):\r\r\n carrier = 2\r\r\n\r\r\n config_list = []\r\r\n\r\r\n config_list.append ( \"%-24s %-18s\" % (\"Channel( Carrier 2)\", \"Level\"))\r\r\n config_list.append ( \"%-24s %-18s\" % (\"==================\", \"=====\"))\r\r\n\r\r\n pcpich_level = -11\r\r\n self.set_pcpich_code_level(carrier=carrier, leveldB=pcpich_level)\r\r\n config_list.append ( \"%-24s %-18s\" % (\"P-CPICH\", pcpich_level))\r\r\n\r\r\n\r\r\n # *****************************************************************************\r\r\n # Configure 2 HS-SCCH: level, channelization code, UE ID and dummy UE ID\r\r\n # *****************************************************************************\r\r\n hssch_level_1 = -18.0\r\r\n hssch_level_2 = -18.0\r\r\n self.set_hssch_level(hssch_num=1, carrier=carrier, leveldB=hssch_level_1)\r\r\n self.set_hssch_level(hssch_num=2, carrier=carrier, leveldB=hssch_level_2)\r\r\n self.set_hssch_code(hssch_num=1, carrier=carrier, codeNum=2)\r\r\n self.set_hssch_code(hssch_num=2, carrier=carrier, codeNum=7)\r\r\n\r\r\n config_list.append ( \"%-24s %-18s\" % (\"HS-SCCH #1\", hssch_level_1))\r\r\n config_list.append ( \"%-24s %-18s\" % (\"HS-SCCH #2\", hssch_level_2))\r\r\n\r\r\n self.set_default_ue_id_hssch(carrier=carrier)\r\r\n\r\r\n # HS-PDSCH Enhanced Settings\r\r\n self.set_hsdsch_mpo(carrier=carrier, control=\"AUTO\", pwrOffsetManual=\"\")\r\r\n self.hsdsch_unsched_frames(carrier=carrier, usFrameType='DUMMY')\r\r\n\r\r\n # *****************************************************************************\r\r\n # Configure HS-PDSCH: level and first channelization code number\r\r\n # *****************************************************************************\r\r\n hsdsch_level = -1.6\r\r\n self.set_hsdsch_level(carrier=carrier, leveldB = hsdsch_level)\r\r\n self.set_hsdsch_chanelisation_code(carrier=carrier, code=1)\r\r\n config_list.append ( \"%-24s %-18s\" % (\"HS-PDSCH\", hsdsch_level))\r\r\n\r\r\n config_list.append (\"\")\r\r\n\r\r\n for line in config_list:\r\r\n print line",
"def setPrice(self, val):\n self.price = val",
"def _onchange_price(self):\n self.price_subtotal = self.price",
"def handle(self, *args, **options):\n plugin = plugin_settings.get_self()\n base_currency = setting_handler.get_plugin_setting(plugin, 'base_currency', None, create=False).value\n currencies = models.Renewal.objects.all().values('currency').distinct()\n api_call = requests.get('http://api.fixer.io/latest?base={0}'.format(base_currency)).json()\n\n for currency in currencies:\n currency_code = currency.get('currency')\n if currency_code != base_currency:\n rate = api_call['rates'].get(currency_code)\n value = setting_handler.get_plugin_setting(plugin, 'ex_rate_{0}'.format(currency_code.upper()),\n None,\n create=True,\n pretty='Ex Rate GBP',\n fallback='')\n setting_handler.save_plugin_setting(plugin, value.setting.name, rate, None)",
"def presolve_for_rates_set():\n global typevar\n global entrs\n global Rwind\n Rwind=tkinter.Toplevel()\n Rwind.title('__set_h__') \n R_name=tkinter.Label(Rwind, height = 2, text=' Enter list of rates to vary', font='arial 9 bold')\n R_name.grid(row=1, column = 1, columnspan = 2)\n ## entry for rates\n klist = tkinter.StringVar(Rwind, value='')\n klistent = tkinter.Entry(Rwind, width = 35, textvariable = klist)\n klistent.grid(row=2, column=1, columnspan = 4)\n ## min/max vals and N steps\n minvallab, maxvallab = tkinter.Label(Rwind, height = 1, text='min *', font='arial 9 bold'), tkinter.Label(Rwind, height = 1, text='max *', font='arial 9 bold')\n minval, maxval = tkinter.StringVar(Rwind, value=-3), tkinter.StringVar(Rwind, value=1)\n minvalent, maxvalent = tkinter.Entry(Rwind, width = 7, textvariable = minval), tkinter.Entry(Rwind, width = 7, textvariable = maxval)\n minvallab.grid(row=3, column=1)\n maxvallab.grid(row=3, column=2, sticky = 'w')\n minvalent.grid(row=4, column=1)\n maxvalent.grid(row=4, column=2, sticky = 'w')\n #\n nsteplab = tkinter.Label(Rwind, height = 1, text='N steps', font='arial 9 bold')\n nsteps = tkinter.StringVar(Rwind, value = 20)\n nstepent = tkinter.Entry(Rwind, width = 6, textvariable = nsteps)\n nsteplab.grid(row=3, column = 3, sticky = 'w')\n nstepent.grid(row=4, column = 3, sticky = 'w')\n ###\n ## space type\n typevar=tkinter.StringVar(Rwind, value='log')\n type_log=tkinter.Radiobutton(Rwind, variable=typevar, value= 'log', text='log', height=2, highlightthickness=0)\n type_lin=tkinter.Radiobutton(Rwind, variable=typevar, value= 'lin', text='lin', height=2, highlightthickness=0)\n type_log.grid(row = 3, column = 4)\n type_lin.grid(row = 4, column = 4)\n ### parse vars and start calculations\n #\n solvbut = tkinter.Button(Rwind, width=5,bg='wheat',text='solve', font='arial 10 bold',command=lambda *args: presove_for_rates_run(all_kfs, klist.get().strip().split(', '), int(nsteps.get()), float(minval.get()), float(maxval.get()), typevar.get()), bd=1)\n solvbut.grid(row=6, column=2, columnspan = 2)",
"def hsdpa_physical_downlink_settings(self):\r\r\n\r\r\n config_list = []\r\r\n\r\r\n config_list.append (\"\")\r\r\n\r\r\n config_list.append ( \"%-24s %-18s\" % (\"Channel( Carrier 1)\", \"Level\"))\r\r\n config_list.append ( \"%-24s %-18s\" % (\"==================\", \"=====\"))\r\r\n\r\r\n pcpich_level = -10.2\r\r\n self.set_pcpich_code_level(carrier=1, leveldB=pcpich_level)\r\r\n config_list.append ( \"%-24s %-18s\" % (\"P-CPICH\", pcpich_level))\r\r\n\r\r\n psch_level = -15.2\r\r\n ssch_level = psch_level\r\r\n pccpch_level = -12.2\r\r\n self.write('CONFigure:WCDMa:SIGN:DL:LEVel:PSCH %s' %psch_level)\r\r\n self.write('CONFigure:WCDMa:SIGN:DL:LEVel:SSCH %s' %ssch_level)\r\r\n self.write('CONFigure:WCDMa:SIGN:DL:LEVel:PCCPch %s' %pccpch_level)\r\r\n config_list.append ( \"%-24s %-18s\" % (\"P-SCH\", psch_level))\r\r\n config_list.append ( \"%-24s %-18s\" % (\"S-SCH\", ssch_level))\r\r\n config_list.append ( \"%-24s %-18s\" % (\"P-CCPCH\", pccpch_level))\r\r\n\r\r\n\r\r\n # SCCPH power level and channelisation code\r\r\n sccpch_level = -12.2\r\r\n self.set_dl_chan_code_level(dl_chan='SCCPch', code=2, level_dB=sccpch_level)\r\r\n config_list.append ( \"%-24s %-18s\" % (\"S-CCPCH\", sccpch_level))\r\r\n\r\r\n # PICH power level and channelisation code\r\r\n pich_level = -15.2\r\r\n self.set_dl_chan_code_level(dl_chan='PICH', code=2, level_dB=pich_level)\r\r\n config_list.append ( \"%-24s %-18s\" % (\"PICH\", pich_level))\r\r\n\r\r\n # AICH power level and channelisation code\r\r\n aich_level = -15.2\r\r\n self.set_dl_chan_code_level(dl_chan='AICH', code=3, level_dB=aich_level)\r\r\n config_list.append ( \"%-24s %-18s\" % (\"AICH\", aich_level))\r\r\n\r\r\n # DPCH power and channelisation code\r\r\n dpch_level = -18.2\r\r\n self.set_dl_chan_code_level(dl_chan='DPCH', code=3, level_dB=dpch_level)\r\r\n config_list.append ( \"%-24s %-18s\" % (\"DPCH\", dpch_level))\r\r\n\r\r\n # F-DPCH power and channelisation ocde\r\r\n fdpch_level = -18.2\r\r\n self.set_dl_chan_code_level(dl_chan='FDPCh', code=6, level_dB=fdpch_level)\r\r\n config_list.append ( \"%-24s %-18s\" % (\"F-DPCH\", fdpch_level))\r\r\n\r\r\n # DPCH enhanced settings\r\r\n self.configure_enhanced_dl_dpch()\r\r\n\r\r\n\r\r\n # *****************************************************************************\r\r\n # Configure 2 HS-SCCH: level, channelization code, UE ID and dummy UE ID\r\r\n # *****************************************************************************\r\r\n hssch_level_1 = -20.2\r\r\n hssch_level_2 = -20.2\r\r\n self.set_hssch_level(hssch_num=1, carrier=1, leveldB=hssch_level_1)\r\r\n self.set_hssch_level(hssch_num=2, carrier=1, leveldB=hssch_level_2)\r\r\n self.set_hssch_code(hssch_num=1, carrier=1, codeNum=2)\r\r\n self.set_hssch_code(hssch_num=2, carrier=1, codeNum=7)\r\r\n config_list.append ( \"%-24s %-18s\" % (\"HS-SCCH #1\", hssch_level_1))\r\r\n config_list.append ( \"%-24s %-18s\" % (\"HS-SCCH #2\", hssch_level_2))\r\r\n\r\r\n self.set_default_ue_id_hssch(carrier=1)\r\r\n\r\r\n # HS-PDSCH Enhanced Settings\r\r\n self.set_hsdsch_mpo(carrier=1, control=\"AUTO\", pwrOffsetManual=\"\")\r\r\n # unscheduled frame type for HSDPA\r\r\n # possible types are 'DUMMy', 'DTX'\r\r\n self.hsdsch_unsched_frames(carrier=1, usFrameType='DUMMY')\r\r\n\r\r\n # *****************************************************************************\r\r\n # Configure HS-PDSCH: level and first channelization code number\r\r\n # *****************************************************************************\r\r\n\r\r\n hsdsch_level = -1.2\r\r\n self.set_hsdsch_level(carrier=1, leveldB = hsdsch_level)\r\r\n self.set_hsdsch_chanelisation_code(code=1, carrier=1)\r\r\n config_list.append ( \"%-24s %-18s\" % (\"HS-PDSCH\", hsdsch_level))\r\r\n\r\r\n\r\r\n # // *****************************************************************************\r\r\n # Set level and channelization code of E-AGCH, E-HICH and E-RGCH.\r\r\n # *****************************************************************************\r\r\n eagch_level = -20.2\r\r\n ehich_level = -20.2\r\r\n ergch_level = -20.2\r\r\n self.set_dl_chan_code_level(dl_chan='EAGCh', code=3, level_dB=eagch_level)\r\r\n self.set_dl_chan_code_level(dl_chan='EHICh', code=6, level_dB=ehich_level)\r\r\n self.set_dl_chan_code_level(dl_chan='ERGCh', code=6, level_dB=ergch_level)\r\r\n config_list.append ( \"%-24s %-18s\" % (\"E-AGCH\", eagch_level))\r\r\n config_list.append ( \"%-24s %-18s\" % (\"E-HICH\", ehich_level))\r\r\n config_list.append ( \"%-24s %-18s\" % (\"E-RGCH\", ergch_level))\r\r\n\r\r\n config_list.append (\"\")\r\r\n\r\r\n for line in config_list:\r\r\n print line\r\r\n\r\r\n if self.dc_hsdpa:\r\r\n\r\r\n self.hsdpa_physical_downlink_settings_carrier2()",
"def set_adjustment_values(self,builder,etree):\n for object in etree.xpath('/interface/object[@class=\"GtkAdjustment\"]'):\n property = object.xpath('property[@name=\"value\"]')\n if len(property):\n obj = builder.get_object(object.get('id'))\n obj.set_value(float(property[0].text))",
"def set_rate_catalog(self, rate_catalog):\n self.single_selection_from_kendo_dropdown(self.rate_catalog_kendo_dropdown_locator, rate_catalog)",
"def click_vendor_price_list_detail_rates_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_rates_grid_div_id)",
"def set_vendor_price_list_status(self, status_items):\n self.multiple_items_selection_from_kendo_dropdown(self.vendor_price_list_status_kendo_dropdown_locator, status_items)\n self.wait_for_ajax_spinner_load()",
"def initial_values(self):\n\n coin = self.mw.cfg_manager.coin\n pair = self.mw.cfg_manager.pair\n\n self.mw.buy_asset.setText(coin)\n self.mw.sell_asset.setText(coin)\n\n self.mw.limit_total_btc.setText(str(val[\"accHoldings\"][\"BTC\"][\"free\"]) + \" BTC\")\n self.mw.limit_total_coin.setText(str(val[\"accHoldings\"][coin][\"free\"]) + \" \" + coin)\n\n self.mw.limit_buy_label.setText(\"<span style='font-weight: bold; font-size: 12px;'>Buy \" + coin + \"</span>\")\n self.mw.limit_sell_label.setText(\"<span style='font-weight: bold; font-size: 12px;'>Sell \" + coin + \"</span>\")\n\n # self.mw.limit_coin_label_buy.setText(\"<span style='font-weight: bold; color: white;'>\" + coin + \"</span>\")\n # self.mw.limit_coin_label_sell.setText(\"<span style='font-weight: bold; color: white;'>\" + coin + \"</span>\")\n\n # self.mw.limit_buy_input.setText(\"kernoschmaus\")\n self.mw.limit_buy_input.setDecimals(val[\"decimals\"])\n self.mw.limit_buy_input.setSingleStep(float(val[\"coins\"][pair][\"tickSize\"]))\n\n self.mw.limit_sell_input.setDecimals(val[\"decimals\"])\n self.mw.limit_sell_input.setSingleStep(float(val[\"coins\"][pair][\"tickSize\"]))\n\n self.mw.limit_buy_amount.setDecimals(val[\"assetDecimals\"])\n self.mw.limit_buy_amount.setSingleStep(float(val[\"coins\"][pair][\"minTrade\"]))\n\n self.mw.limit_sell_amount.setDecimals(val[\"assetDecimals\"])\n self.mw.limit_sell_amount.setSingleStep(float(val[\"coins\"][pair][\"minTrade\"]))",
"def updateControl(self, event):\r\n print(\"updating...\")\r\n product_dict = [\r\n {\"title\":\"Core Python Programming\", \"author\":\"Wesley Chun\",\r\n \"isbn\":\"0132269937\", \"mfg\":\"Prentice Hall\"},\r\n {\"title\":\"Python Programming for the Absolute Beginner\",\r\n \"author\":\"Michael Dawson\", \"isbn\":\"1598631128\",\r\n \"mfg\":\"Course Technology\"},\r\n {\"title\":\"Learning Python\", \"author\":\"Mark Lutz\",\r\n \"isbn\":\"0596513984\", \"mfg\":\"O'Reilly\"}\r\n ]\r\n data = self.products + product_dict\r\n self.dataOlv.SetObjects(data)"
] | [
"0.71347576",
"0.6995476",
"0.64583015",
"0.64083296",
"0.56390965",
"0.55931145",
"0.5574085",
"0.5570257",
"0.5521366",
"0.5494729",
"0.52974844",
"0.5223325",
"0.52220637",
"0.52010876",
"0.5184016",
"0.51278704",
"0.51278704",
"0.5114536",
"0.50489897",
"0.5041824",
"0.5029568",
"0.49897793",
"0.4974791",
"0.49666145",
"0.49522647",
"0.49502444",
"0.49463618",
"0.4944234",
"0.4939569",
"0.49003828"
] | 0.755486 | 0 |
Implementing sort vendor price list detail dial digits grid column functionality | def sort_vendor_price_list_detail_dial_digits_grid_column(self, column_name, descending_order):
self.wait_for_ajax_spinner_load(300)
self.sort_grid_column(self.vendor_price_list_detail_dial_digits_grid_div_id, column_name, descending_order) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def sort_vendor_price_list_detail_grid_column(self, column_name, descending_order):\n self.wait_for_ajax_spinner_load(300)\n self.sort_grid_column(self.vendor_price_list_detail_rates_grid_div_id, column_name, descending_order)",
"def sort_vendor_price_lists_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.view_price_list_div_id, column_name, descending_order)",
"def get_vendor_price_list_detail_dial_digits_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_dial_digits_grid_div_id)\n return self.column_name_list",
"def sort_vendor_price_list_detail_reference_rates_grid_column(self, column_name, descending_order):\n self.wait_for_ajax_spinner_load(300)\n self.sort_grid_column(self.vendor_price_list_detail_reference_rates_grid_div_id, column_name, descending_order)",
"def get_vendor_price_list_detail_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_rates_grid_div_id)\n return self.column_name_list",
"def select_sort_by_price_ascendant(self):\n msg = \"The new order of the items is by ascendant price\"\n with self.allure.step(msg):\n self.__product_sort.select_by_text('Price (low to high)')\n self.allure.attach_image(self.driver, msg)",
"def OnColumnClick(self, event):\r\n columns = self.data.getParam('columns')\r\n self.SortItems(columns[event.GetColumn()],'INVERT')",
"def get_vendor_price_lists_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.view_price_list_div_id)\n return self.column_name_list",
"def get_vendor_price_list_detail_reference_rates_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_reference_rates_grid_div_id)\n return self.column_name_list",
"def sortby(self):\n ...",
"def click_vendor_price_list_detail_dial_digits_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_dial_digits_grid_div_id)",
"def click_on_sort(self):\r\n self.driver.find_element_by_xpath('//*[@id=\"dataTable\"]/thead/tr[3]/th[4]').click()",
"def sort_dialed_digits_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.dialed_digits_grid_div_id, column_name, descending_order)",
"def sort_vendors_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.vendors_div_id, column_name, descending_order)",
"def execQ14():\n frame = pan.DataFrame(data, columns=['Price'])\n kiwi = frame[(dFrame.Series_title_1 == \"Kiwifruit, 1kg\")].sort_values(by='Price', ascending=False)\n return kiwi",
"def products_view(request):\n from_database = Product.objects.all()\n\n sort_type = request.POST.get('sort-selector')\n print(sort_type)\n if sort_type is None:\n from_database = from_database.order_by('title')\n my_context = {\n 'from_database': from_database,\n 'sort_type': sort_type,\n }\n return render(request, \"products.html\", my_context)\n if sort_type == 'name_asc':\n from_database = from_database.order_by('title')\n my_context = {\n 'from_database': from_database,\n 'sort_type': sort_type,\n }\n return render(request, \"products.html\", my_context)\n if sort_type == 'name_desc':\n from_database = from_database.order_by('-title')\n my_context = {\n 'from_database': from_database,\n 'sort_type': sort_type,\n }\n return render(request, \"products.html\", my_context)\n if sort_type == 'price_asc':\n from_database = from_database.order_by('price')\n my_context = {\n 'from_database': from_database,\n 'sort_type': sort_type,\n }\n return render(request, \"products.html\", my_context)\n if sort_type == 'price_desc':\n from_database = from_database.order_by('-price')\n my_context = {\n 'from_database': from_database,\n 'sort_type': sort_type,\n }\n return render(request, \"products.html\", my_context)",
"def sort_buy_and_sell_management_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.buy_and_sell_management_grid_div_id, column_name, descending_order)",
"def sort_rates_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.rates_grid_div_id, column_name, descending_order)",
"def select_sort_by_price_descendant(self):\n msg = \"The new order of the items is by descendant price\"\n with self.allure.step(msg):\n self.__product_sort.select_by_text('Price (high to low)')\n self.allure.attach_image(self.driver, msg)",
"def testSortNoDbAscending(self):\n self.request.GET['sort'] = \"custom\"\n self.datagrid.load_state()\n self.assertEqual(self.datagrid.sort_list, [\"custom\"])\n self.assertEqual(len(self.datagrid.rows), self.datagrid.paginate_by)\n self.assertEqual(self.datagrid.rows[0]['object'].name, \"Group 04\")\n self.assertEqual(self.datagrid.rows[1]['object'].name, \"Group 08\")\n self.assertEqual(self.datagrid.rows[2]['object'].name, \"Group 12\")\n\n # Exercise the code paths when rendering\n self.datagrid.render_listview()",
"def OnReorder( self, event ):\n column = self.columns[event.GetColumn()]\n if column.sortOn:\n # multiple sorts for the click...\n columns = [ self.columnByAttribute( attr ) for attr in column.sortOn ]\n diff = [ (a,b) for a,b in zip( self.sortOrder, columns ) if b is not a[1]]\n if not diff:\n self.sortOrder[0] = (not self.sortOrder[0][0], column)\n else:\n self.sortOrder = [\n (c.defaultOrder,c) for c in columns \n ] + [ (a,b) for (a,b) in self.sortOrder if b not in columns]\n else:\n if column is self.sortOrder[0][1]:\n # reverse current major order\n self.sortOrder[0] = (not self.sortOrder[0][0], column)\n else:\n self.sortOrder = [(column.defaultOrder,column)] + [\n (a,b) \n for (a,b) in self.sortOrder if b is not column \n ]\n # TODO: store current selection and re-select after sorting...\n self.reorder()\n self.Refresh()",
"def generateModelSort(data):\n\n model = data[\"model\"]\n cont = data[\"container\"]\n code = data[\"code\"]\n global h_model\n h_model.append(\"\")\n h_model.append(\"\\t// Sort support:\")\n h_model.append(\"\\tvirtual void sort(int column, Qt::SortOrder order=Qt::AscendingOrder);\")\n\n global c_model\n\n # First the static sort functions\n for field in data[\"fields\"]:\n if not field.has_key(\"head\"):\n continue\n c_model.append(\"static bool sort%s%s(const %s &one, const %s two)\" % (\n model[\"name\"], field[\"name\"].capitalize(),\n name, name))\n c_model.append(\"{\")\n order = get(field, \"sort_order\", \"ascending\")\n if order == \"ascending\":\n order = \"Qt::AscendingOrder\"\n elif order == \"descending\":\n order = \"Qt::DescendingOrder\";\n s1 = \"one.%s\" % field[\"name\"]\n s2 = \"two.%s\" % field[\"name\"]\n if field.has_key(\"sort_code\"):\n s1 = \"s1\"\n s2 = \"s2\"\n appendCode(c_model, \"\\t\", code[field[\"sort_code\"]])\n c_model.append(\"\\tif (sortOrder == %s)\" % order)\n c_model.append(\"\\t\\treturn %s < %s;\" % (s1, s2))\n c_model.append(\"\\telse\")\n c_model.append(\"\\t\\treturn %s > %s;\" % (s1, s2))\n c_model.append(\"}\\n\")\n\n # and then the class member:\n c_model.append(\"void %s::sort(int column, Qt::SortOrder order)\" % model[\"name\"])\n c_model.append(\"{\")\n c_model.append(\"\\tsortOrder = order;\")\n c_model.append(\"\")\n c_model.append(\"\\tswitch (column) {\")\n for field in data[\"fields\"]:\n if not field.has_key(\"head\"):\n continue\n c_model.append(\"\\tcase %s_%s:\" % (col_prefix, field[\"name\"].upper()) )\n c_model.append(\"\\t\\tqStableSort(%s.begin(), %s.end(), sort%s%s);\" % (\n cont[\"name\"], cont[\"name\"],\n model[\"name\"], field[\"name\"].capitalize(),\n ))\n c_model.append(\"\\t\\tbreak;\")\n c_model.append(\"\\tdefault:\")\n c_model.append(\"\\t\\treturn;\")\n c_model.append(\"\\t}\")\n c_model.append(\"\\temit dataChanged(index(0, 0), index(chars.count(), %s_LAST));\" % col_prefix)\n c_model.append(\"}\\n\")",
"def drag_vendor_price_list_detail_grid_column(self, source_column, destination_column):\n self.wait_for_ajax_spinner_load(300)\n self.drag_grid_column(self.vendor_price_list_detail_rates_grid_div_id, source_column, destination_column)",
"def get_sort_field(self, kind, order, is_number):\n pass",
"def get_sort_columns_raw(self):\n col_sort_orders = self.gridpreference_sort.all().select_related()\n \n return [x.sort_display for x in col_sort_orders]",
"def testSortAscending(self):\n self.request.GET['sort'] = \"name,objid\"\n self.datagrid.load_state()\n\n self.assertEqual(self.datagrid.sort_list, [\"name\", \"objid\"])\n self.assertEqual(len(self.datagrid.rows), self.datagrid.paginate_by)\n self.assertEqual(self.datagrid.rows[0]['object'].name, \"Group 01\")\n self.assertEqual(self.datagrid.rows[1]['object'].name, \"Group 02\")\n self.assertEqual(self.datagrid.rows[2]['object'].name, \"Group 03\")\n\n # Exercise the code paths when rendering\n self.datagrid.render_listview()",
"def drag_vendor_price_list_detail_dial_digits_grid_column(self, source_column, destination_column):\n self.wait_for_ajax_spinner_load(300)\n self.drag_grid_column(self.vendor_price_list_detail_dial_digits_grid_div_id, source_column, destination_column)",
"def get_sort_query(self, kind, order, is_number):\n pass",
"def sortby_num(tree, col, descending): # 重新排序 <-- 數字版\n # grab values to sort\n data = [(tree.set(child, col), child) \\\n for child in tree.get_children('')]\n\n # if the data to be sorted is numeric change to float\n #data = change_numeric(data)\n # now sort the data in place\n #data.sort(reverse=descending)\n # 數字的排法(但文字部分就無法排序)\n data.sort(key=lambda data: int(data[0]), reverse=descending)\n\n for ix, item in enumerate(data):\n tree.move(item[1], '', ix)\n\n # switch the heading so it will sort in the opposite direction\n tree.heading(col, command=lambda col=col: sortby_num(tree, col, \\\n int(not descending)))",
"def click_vendor_price_list_detail_rates_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_rates_grid_div_id)"
] | [
"0.70802075",
"0.69842964",
"0.6641416",
"0.6540597",
"0.63891846",
"0.629205",
"0.614977",
"0.61456174",
"0.60891086",
"0.5935303",
"0.5853779",
"0.5823248",
"0.5778564",
"0.576971",
"0.5614469",
"0.5603119",
"0.55997473",
"0.5599661",
"0.5591391",
"0.5581969",
"0.5558323",
"0.554726",
"0.5536105",
"0.55238503",
"0.552038",
"0.54913664",
"0.54898447",
"0.5464073",
"0.5449511",
"0.5448048"
] | 0.72428066 | 0 |
Implementing get all rows of specific column from vendor price list detail dial digits grid functionality | def get_all_rows_of_specific_column_from_vendor_price_list_detail_dial_digits_grid(self, column_name):
self.wait_for_ajax_spinner_load(300)
self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.vendor_price_list_detail_dial_digits_grid_div_id, column_name)
return self.all_row_data | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def get_all_rows_of_specific_column_from_vendor_price_list_detail_grid(self, column_name):\n self.wait_for_ajax_spinner_load(300)\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.vendor_price_list_detail_rates_grid_div_id, column_name)\n return self.all_row_data",
"def get_all_rows_of_rate_column_from_vendor_price_list_detail_grid(self, column_name):\n self.wait_for_ajax_spinner_load()\n self.all_row_data = self.get_all_rows_of_specific_column_only_from_vendor_price_list_detail_grid(self.vendor_price_list_detail_rates_grid_div_id, column_name)\n return self.all_row_data",
"def get_all_rows_of_specific_column_from_vendor_price_lists_grid(self, column_name):\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.view_price_list_div_id, column_name, self.get_grid_row_count(self.price_lists_grid_row_count_span_locator, 7))\n return self.all_row_data",
"def get_all_rows_of_rate_increase_violation_column_from_vendor_price_list_detail_grid(self, column_name):\n self.all_row_data = []\n self.wait_for_ajax_spinner_load()\n row_count = len(self.wait().until(EC.presence_of_all_elements_located(self.vendor_price_list_detail_row_locator), 'vendor price list details row element locator not found before specified time'))\n next_page = False\n column_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::th[@data-title='%s']\" % (self.vendor_price_list_detail_rates_grid_div_id, column_name))\n column_element = self.wait().until(EC.presence_of_element_located(column_locator), 'column locator not found before specified time out')\n column_index = int(column_element.get_attribute(\"data-index\")) + 1\n row = 1\n try:\n while row < row_count + 1:\n column_value_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::div[@class='k-grid-content']/descendant::tbody[@role='rowgroup']/tr[%s]/td[%s]\" % (self.vendor_price_list_detail_rates_grid_div_id, row, str(column_index)))\n column_value_element = self.wait(10).until(EC.presence_of_element_located(column_value_locator), 'column value locator not found before specified time out')\n column_value = str(column_value_element.get_attribute(\"innerHTML\"))\n if column_value not in self.all_row_data:\n self.all_row_data.append(column_value)\n else:\n row_count += 1\n if row % 50 == 0:\n next_page = True\n next_page_button_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-arrow-e']\" % self.vendor_price_list_detail_rates_grid_div_id)\n self.click_element(next_page_button_locator, True)\n row = 0\n row_count -= 50\n row += 1\n except WebDriverException:\n pass\n if next_page is True:\n first_page_button_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-seek-w']\" % self.vendor_price_list_detail_rates_grid_div_id)\n self.click_element(first_page_button_locator, True)\n return self.all_row_data",
"def get_all_rows_of_specific_column_only_from_vendor_price_list_detail_grid(self, div_id, column_name):\n row_count = len(self.wait().until(EC.presence_of_all_elements_located(self.vendor_price_list_detail_row_locator), 'vendor price list details row element locator not found before specified time'))\n all_row_data = []\n next_page = False\n column_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::th[@data-title='%s']\" % (div_id, column_name))\n column_element = self.wait().until(EC.presence_of_element_located(column_locator), 'column locator not found before specified time out')\n column_index = int(column_element.get_attribute(\"data-index\")) + 1\n row = 1\n try:\n while row < row_count+1:\n column_value_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::div[@class='k-grid-content']/descendant::tbody[@role='rowgroup']/tr[%s]/td[%s]/descendant::td\" % (div_id, row, str(column_index)))\n column_value_element = self.wait(10).until(EC.presence_of_element_located(column_value_locator), 'column value locator not found before specified time out')\n column_value = str(column_value_element.get_attribute(\"innerHTML\"))\n if column_value not in all_row_data:\n all_row_data.append(column_value)\n else:\n row_count += 1\n if row % 50 == 0:\n next_page = True\n next_page_button_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-arrow-e']\" % div_id)\n self.click_element(next_page_button_locator, True)\n row = 0\n row_count -= 50\n row += 1\n except WebDriverException:\n pass\n if next_page is True:\n first_page_button_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-seek-w']\" % div_id)\n self.click_element(first_page_button_locator, True)\n return all_row_data",
"def get_vendor_price_list_detail_dial_digits_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_dial_digits_grid_div_id)\n return self.column_name_list",
"def get_all_rows_of_specific_column_from_vendor_price_list_detail_reference_rates_grid(self, column_name):\n self.wait_for_ajax_spinner_load(300)\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.vendor_price_list_detail_reference_rates_grid_div_id, column_name)\n return self.all_row_data",
"def get_vendor_price_list_detail_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_rates_grid_div_id)\n return self.column_name_list",
"def get_vendor_price_list_detail_reference_rates_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_reference_rates_grid_div_id)\n return self.column_name_list",
"def get_vendor_price_lists_details(self):\n try:\n self.vendor_price_lists_dict = self.get_grid_row_details(self.customer_price_list_grid_div_id, self.vendor_price_lists_dict)\n return True\n except:\n return False",
"def get_first_row_item_from_price_lists_grid(self, column_name):\n column_locator = (By.XPATH, \"//div[@id='%s']/descendant::th[@data-title='%s']\" % (self.vendor_price_list_grid_div_id, column_name))\n column_element = self.wait().until(EC.presence_of_element_located(column_locator), 'column locator not found before specified time out')\n column_index = int(column_element.get_attribute(\"data-index\")) + 1\n column_value_locator = (By.XPATH, \"//div[@id='%s']/descendant::tbody/descendant::tr[1]/td[%s]/span\" % (self.vendor_price_list_grid_div_id, str(column_index)))\n column_value_element = self.wait().until(EC.presence_of_element_located(column_value_locator), 'column value locator not found before specified time out')\n return column_value_element.text",
"def click_vendor_price_list_detail_dial_digits_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_dial_digits_grid_div_id)",
"def get_vendor_price_lists_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.view_price_list_div_id)\n return self.column_name_list",
"def get_all_rows_of_specific_column_from_vendors_grid(self, column_name):\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.vendors_div_id, column_name, self.get_grid_row_count(self.vendors_grid_row_count_span_locator, 5))\n return self.all_row_data",
"def rosterRowData(self):",
"def get_last_price_list_from_vendors_grid(self):\n return self.get_specific_column_value_from_grid(self.vendors_div_id, self.vendors_grid_row_count, self.last_price_list_column_name, self.vendors_data_grid_name)",
"def get_all_rows_of_specific_column_from_buy_and_sell_management_grid(self, column_name):\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.buy_and_sell_management_grid_div_id, column_name, self.get_grid_row_count(self.buy_and_sell_management_grid_count_span_locator, 2))\n return self.all_row_data",
"def get_all_rows_of_specific_column_from_rates_grid(self, column_name):\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.rates_grid_div_id, column_name, self.get_grid_row_count(self.rates_grid_row_count_span_locator, 1))\n return self.all_row_data",
"def get_all_rows_of_specific_column_from_dialed_digits_grid(self, column_name):\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.dialed_digits_grid_div_id, column_name, self.get_grid_row_count(self.dialed_digits_grid_row_count_span_locator, 1))\n return self.all_row_data",
"def select_vendor_price_list_grid_row_checkbox(self):\n for row in range(0,2):\n column_locator = (By.XPATH, \"//div[@id='%s']/descendant::th[@data-title='%s']\" % (self.vendor_price_list_grid_div_id, self.price_list_column_name))\n column_element = self.wait().until(EC.presence_of_element_located(column_locator), 'column locator not found before specified time out')\n column_index = int(column_element.get_attribute(\"data-index\")) + 1\n column_value_locator = (By.XPATH, \"//div[@id='%s']/descendant::tbody/descendant::tr[%s]/td[%s]/span\" % (self.vendor_price_list_grid_div_id, (row + 1), str(column_index)))\n column_value_element = self.wait().until(EC.presence_of_element_located(column_value_locator), 'column value locator not found before specified time out')\n price_list_item = column_value_element.text\n self.compare_price_lists_list.append(price_list_item)\n self.select_grid_row_checkbox(self.customer_price_list_grid_div_id, price_list_item, self.select_grid_row_checkbox_column_number)",
"def show_from_database(self, table_model):\n arr = [4, 1]\n # TODO",
"def _get_rows(self):\n rows = []\n for row in self.plate_meta['rows']:\n rows.append(row['name'])\n self.rows = rows",
"def _select_data(\n self, db: str, table: str, column_filters: Dict[str, str]\n ) -> List[List]:\n pass",
"def click_vendor_price_list_detail_rates_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_rates_grid_div_id)",
"def get_vendor_price_lists_number_of_rows_from_grid(self):\n self.number_of_rows = int(self.get_number_of_rows_from_grid(self.vendors_price_lists_grid_div_bar_id))",
"def get_received_charges_grid_row_details(self):\n self.grid_row_details_dictionary.clear()\n self.grid_row_details_dictionary.update({\"Tariff Type\": \"\", \"Line Item Type\": \"\", \"Service Group\": \"\", \"Product\": \"\", \"Time Band\": \"\", \"Begin Date\": \"\", \"End Date\": \"\", \"Rating Unit\": \"\", \"Minutes/Quantity\": \"\", \"Rate\": \"\"})\n return self.get_grid_row_details(self.received_charges_grid_div_id, self.grid_row_details_dictionary, self.received_charges_data_grid_name)",
"def cell(self,row_no,column_no): \n if row_no == 0:\n if self.serialize and column_no == 0:\n if self.verbose_names_dict.has_key('_serial_'):\n return self.verbose_names_dict['_serial_']\n else: \n return \"S.No.\"\n else:\n column = self.columns[column_no - (1 if self.serialize else 0)]\n if column in self.verbose_names_dict:\n return self.verbose_names_dict[column]\n else:\n try:\n return self.queryset.model._meta.get_field(column).verbose_name.capitalize()\n except Exception as e:\n return column.capitalize()\n else:\n if column_no == 0:\n return str(row_no)\n else:\n entrant = self.queryset[row_no - 1]\n column = self.columns[column_no - (1 if self.serialize else 0)] \n return str(self.handler(entrant,column))",
"def execQ14():\n frame = pan.DataFrame(data, columns=['Price'])\n kiwi = frame[(dFrame.Series_title_1 == \"Kiwifruit, 1kg\")].sort_values(by='Price', ascending=False)\n return kiwi",
"def get_all_rows_of_specific_column_from_re_analysis_detail_grid(self, column_name):\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.re_analysis_detail_grid_div_id, column_name)\n return self.all_row_data",
"def last_col_filtered(self):\n data = []\n for row in range(self.proxyModel3.rowCount()):\n data.append([])\n for column in range(self.proxyModel3.columnCount()):\n index = self.proxyModel3.index(row, column)\n data[row].append(str(self.proxyModel3.data(index)))\n data2 = [col[6] for col in data]\n # print(data)\n # print(data2)\n return data2"
] | [
"0.714468",
"0.7025097",
"0.6936354",
"0.68740374",
"0.67795354",
"0.6773653",
"0.67252684",
"0.64405596",
"0.6227308",
"0.5920048",
"0.5866694",
"0.5858438",
"0.5755202",
"0.5742825",
"0.5737955",
"0.5643822",
"0.5612186",
"0.5593974",
"0.5592529",
"0.55418414",
"0.5528196",
"0.5495238",
"0.5483635",
"0.5431476",
"0.5430464",
"0.53981125",
"0.53918713",
"0.5371013",
"0.5364406",
"0.53379077"
] | 0.7312733 | 0 |
Implementing drag vendor price list detail dial digits grid column functionality | def drag_vendor_price_list_detail_dial_digits_grid_column(self, source_column, destination_column):
self.wait_for_ajax_spinner_load(300)
self.drag_grid_column(self.vendor_price_list_detail_dial_digits_grid_div_id, source_column, destination_column) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def drag_vendor_price_list_detail_grid_column(self, source_column, destination_column):\n self.wait_for_ajax_spinner_load(300)\n self.drag_grid_column(self.vendor_price_list_detail_rates_grid_div_id, source_column, destination_column)",
"def drag_vendor_price_lists_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.view_price_list_div_id, source_column, destination_column)",
"def drag_vendor_price_list_detail_reference_rates_grid_column(self, source_column, destination_column):\n self.wait_for_ajax_spinner_load(300)\n self.drag_grid_column(self.vendor_price_list_detail_reference_rates_grid_div_id, source_column, destination_column)",
"def click_vendor_price_list_detail_dial_digits_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_dial_digits_grid_div_id)",
"def select_vendor_price_list_detail_dial_digits_tab(self):\n self.click_element(self.vendor_price_list_details_dial_digits_tab_locator, True)",
"def drag_dialed_digits_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.dialed_digits_grid_div_id, source_column, destination_column)",
"def drag_rates_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.rates_grid_div_id, source_column, destination_column)",
"def drag_vendors_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.vendors_div_id, source_column, destination_column)",
"def sort_vendor_price_list_detail_dial_digits_grid_column(self, column_name, descending_order):\n self.wait_for_ajax_spinner_load(300)\n self.sort_grid_column(self.vendor_price_list_detail_dial_digits_grid_div_id, column_name, descending_order)",
"def drag_buy_and_sell_management_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.buy_and_sell_management_grid_div_id, source_column, destination_column)",
"def _start_drag_col(self, event):\n # identify dragged column\n col = self.identify_column(event.x)\n self._dragged_col = ttk.Treeview.column(self, col, 'id')\n # get column width\n self._dragged_col_width = w = ttk.Treeview.column(self, col, 'width')\n # get x coordinate of the left side of the column\n x = event.x\n while self.identify_region(x, event.y) == 'heading':\n # decrease x until reaching the separator\n x -= 1\n x_sep = x\n w_sep = 0\n # determine separator width\n while self.identify_region(x_sep, event.y) == 'separator':\n w_sep += 1\n x_sep -= 1\n if event.x - x <= self._im_drag.width():\n # start dragging if mouse click was on dragging icon\n x = x - w_sep // 2 - 1\n self._dragged_col_x = x\n # get neighboring column widths\n displayed_cols = self._displayed_cols\n self._dragged_col_index = i1 = displayed_cols.index(self._dragged_col)\n if i1 > 0:\n left = ttk.Treeview.column(self, displayed_cols[i1 - 1], 'width')\n else:\n left = None\n if i1 < len(displayed_cols) - 1:\n right = ttk.Treeview.column(self, displayed_cols[i1 + 1], 'width')\n else:\n right = None\n self._dragged_col_neighbor_widths = (left, right)\n self._dx = x - event.x # distance between cursor and column left border\n # configure dragged column preview\n self._visual_drag.column(self._dragged_col, width=w)\n self._visual_drag.configure(displaycolumns=[self._dragged_col])\n if 'headings' in tuple(str(p) for p in self['show']):\n self._visual_drag.configure(show='headings')\n else:\n self._visual_drag.configure(show='')\n self._visual_drag.place(in_=self, x=x, y=0, anchor='nw',\n width=w + 2, relheight=1)\n self._visual_drag.state(('active',))\n self._visual_drag.update_idletasks()\n self._visual_drag.yview_moveto(self.yview()[0])\n else:\n self._dragged_col = None",
"def get_vendor_price_list_detail_dial_digits_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_dial_digits_grid_div_id)\n return self.column_name_list",
"def _drag_col(self, event):\n x = self._dx + event.x # get dragged column new left x coordinate\n self._visual_drag.place_configure(x=x) # update column preview position\n # if one border of the dragged column is beyon the middle of the\n # neighboring column, swap them\n if (self._dragged_col_neighbor_widths[0] is not None and\n x < self._dragged_col_x - self._dragged_col_neighbor_widths[0] / 2):\n self._swap_columns('left')\n elif (self._dragged_col_neighbor_widths[1] is not None and\n x > self._dragged_col_x + self._dragged_col_neighbor_widths[1] / 2):\n self._swap_columns('right')\n # horizontal scrolling if the cursor reaches the side of the table\n if x < 0 and self.xview()[0] > 0:\n # scroll left and update dragged column x coordinate\n self.xview_scroll(-10, 'units')\n self._dragged_col_x += 10\n elif x + self._dragged_col_width / 2 > self.winfo_width() and self.xview()[1] < 1:\n # scroll right and update dragged column x coordinate\n self.xview_scroll(10, 'units')\n self._dragged_col_x -= 10",
"def set_vendor_price_list_detail_dial_digits_grid_settings(self, grid_settings):\n self.wait_for_ajax_spinner_load(300)\n self.set_grid_settings(self.vendor_price_list_detail_dial_digits_grid_div_id, grid_settings)",
"def sort_vendor_price_list_detail_grid_column(self, column_name, descending_order):\n self.wait_for_ajax_spinner_load(300)\n self.sort_grid_column(self.vendor_price_list_detail_rates_grid_div_id, column_name, descending_order)",
"def click_vendor_price_list_detail_rates_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_rates_grid_div_id)",
"def sort_vendor_price_lists_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.view_price_list_div_id, column_name, descending_order)",
"def handleSpecDragEvent(self, obj, val):\n # d = [self.ui.gSpectrum.plotItem.curves[1].xData,\n # self.ui.gSpectrum.plotItem.curves[1].yData]\n if self.dataObj is None: return\n self.createCompWindow(data = self.dataObj.proc_data, p = val)",
"def handleSpecDragEvent(self, obj, val):\n # d = [self.ui.gSpectrum.plotItem.curves[1].xData,\n # self.ui.gSpectrum.plotItem.curves[1].yData]\n if self.dataObj is None: return\n self.createCompWindow(data = self.convertDataForPlot(self.dataObj.proc_data), p = val)",
"def click_vendor_price_list_detail_reference_rates_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_reference_rates_grid_div_id)",
"def drag_re_analysis_detail_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.re_analysis_detail_grid_div_id, source_column, destination_column)",
"def onDown():\n currentIndex = selector.currentRow()\n if currentIndex != selector.count() - 1 and currentIndex != -1:\n selector.blockSignals(True)\n currentItem = selector.takeItem(currentIndex)\n selector.insertItem(currentIndex + 1, currentItem)\n selector.setCurrentRow(currentIndex + 1)\n selector.blockSignals(False)\n position = []\n for index in range(selector.count()):\n position.append(selector.item(index).data(32))\n p.SetString(\"Position\", \",\".join(position))\n onItemChanged()",
"def get_vendor_price_list_detail_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_rates_grid_div_id)\n return self.column_name_list",
"def get_vendor_price_lists_details(self):\n try:\n self.vendor_price_lists_dict = self.get_grid_row_details(self.customer_price_list_grid_div_id, self.vendor_price_lists_dict)\n return True\n except:\n return False",
"def _drag_row(self, event):\n y = self._dy + event.y # get dragged row new upper y coordinate\n self._visual_drag.place_configure(y=y) # update row preview position\n\n if y > self._dragged_row_y:\n # moving downward\n item = self.identify_row(y + self._dragged_row_height)\n if item != '':\n bbox = self.bbox(item)\n if not bbox:\n # the item is not visible so make it visible\n self.see(item)\n self.update_idletasks()\n bbox = self.bbox(item)\n if y > self._dragged_row_y + bbox[3] / 2:\n # the row is beyond half of item, so insert it below\n self._move_dragged_row(item)\n elif item != self.next(self._dragged_row):\n # item is not the lower neighbor of the dragged row so insert the row above\n self._move_dragged_row(self.prev(item))\n elif y < self._dragged_row_y:\n # moving upward\n item = self.identify_row(y)\n if item != '':\n bbox = self.bbox(item)\n if not bbox:\n # the item is not visible so make it visible\n self.see(item)\n self.update_idletasks()\n bbox = self.bbox(item)\n if y < self._dragged_row_y - bbox[3] / 2:\n # the row is beyond half of item, so insert it above\n self._move_dragged_row(item)\n elif item != self.prev(self._dragged_row):\n # item is not the upper neighbor of the dragged row so insert the row below\n self._move_dragged_row(self.next(item))\n self.selection_remove(self._dragged_row)",
"def select_vendor_price_list_detail_reference_rates_tab(self):\n self.click_element(self.vendor_price_list_details_reference_rates_tab_locator, True)",
"def OnMouse(self, event):\r\n\r\n # we want to work with logical coords\r\n x, dummy = self._owner.CalcUnscrolledPosition(event.GetX(), 0)\r\n y = event.GetY()\r\n\r\n if event.Moving():\r\n \r\n col = self.XToCol(x)\r\n if col != self._hotTrackCol:\r\n \r\n # Refresh the col header so it will be painted with hot tracking\r\n # (if supported by the native renderer.)\r\n self.RefreshColLabel(col)\r\n\r\n # Also refresh the old hot header\r\n if self._hotTrackCol >= 0:\r\n self.RefreshColLabel(self._hotTrackCol)\r\n\r\n self._hotTrackCol = col\r\n \r\n if event.Leaving() and self._hotTrackCol >= 0:\r\n \r\n # Leaving the window so clear any hot tracking indicator that may be present\r\n self.RefreshColLabel(self._hotTrackCol)\r\n self._hotTrackCol = -1\r\n \r\n if self._isDragging:\r\n\r\n self.SendListEvent(wx.wxEVT_COMMAND_LIST_COL_DRAGGING, event.GetPosition())\r\n\r\n # we don't draw the line beyond our window, but we allow dragging it\r\n # there\r\n w, dummy = self.GetClientSize()\r\n w, dummy = self._owner.CalcUnscrolledPosition(w, 0)\r\n w -= 6\r\n\r\n # erase the line if it was drawn\r\n if self._currentX < w:\r\n self.DrawCurrent()\r\n\r\n if event.ButtonUp():\r\n self._isDragging = False\r\n if self.HasCapture():\r\n self.ReleaseMouse()\r\n self._dirty = True\r\n self.SetColumnWidth(self._column, self._currentX - self._minX)\r\n self.Refresh()\r\n self.SendListEvent(wx.wxEVT_COMMAND_LIST_COL_END_DRAG, event.GetPosition())\r\n else:\r\n self._currentX = max(self._minX + 7, x)\r\n\r\n # draw in the new location\r\n if self._currentX < w:\r\n self.DrawCurrent()\r\n \r\n else: # not dragging\r\n\r\n self._minX = 0\r\n hit_border = False\r\n\r\n # end of the current column\r\n xpos = 0\r\n\r\n # find the column where this event occured\r\n countCol = self.GetColumnCount()\r\n\r\n for column in xrange(countCol):\r\n\r\n if not self.IsColumnShown(column):\r\n continue # do next if not shown\r\n\r\n xpos += self.GetColumnWidth(column)\r\n self._column = column\r\n if abs (x-xpos) < 3 and y < 22:\r\n # near the column border\r\n hit_border = True\r\n break\r\n \r\n if x < xpos:\r\n # inside the column\r\n break\r\n \r\n self._minX = xpos\r\n \r\n if event.LeftDown() or event.RightUp():\r\n if hit_border and event.LeftDown():\r\n self._isDragging = True\r\n self.CaptureMouse()\r\n self._currentX = x\r\n self.DrawCurrent()\r\n self.SendListEvent(wx.wxEVT_COMMAND_LIST_COL_BEGIN_DRAG, event.GetPosition())\r\n else: # click on a column\r\n evt = (event.LeftDown() and [wx.wxEVT_COMMAND_LIST_COL_CLICK] or [wx.wxEVT_COMMAND_LIST_COL_RIGHT_CLICK])[0]\r\n self.SendListEvent(evt, event.GetPosition())\r\n \r\n elif event.LeftDClick() and hit_border:\r\n self.SetColumnWidth(self._column, self._owner.GetBestColumnWidth(self._column))\r\n self.Refresh()\r\n\r\n elif event.Moving():\r\n \r\n if hit_border:\r\n setCursor = self._currentCursor == wx.STANDARD_CURSOR\r\n self._currentCursor = self._resizeCursor\r\n else:\r\n setCursor = self._currentCursor != wx.STANDARD_CURSOR\r\n self._currentCursor = wx.STANDARD_CURSOR\r\n \r\n if setCursor:\r\n self.SetCursor(self._currentCursor)",
"def change_entries(self, grid_sizer, options, border):\n\n if (self.diag_type is None): return grid_sizer # no data selected, don't change anything\n\n # setup the grid of possible values\n header0 = wx.StaticText(self, -1, \"Add/Remove\")\n header1 = wx.StaticText(self, -1, \"Quantity Code\")\n header2 = wx.StaticText(self, -1, \"Name\")\n header3 = wx.StaticText(self, -1, \"LaTeX Formula\")\n grid_sizer.Add(header0, pos=(0,0), flag=options, border=border)\n grid_sizer.Add(header1, pos=(0,1), flag=options, border=border)\n grid_sizer.Add(header2, pos=(0,2), flag=options, border=border)\n grid_sizer.Add(header3, pos=(0,3), flag=options, border=border)\n grid_sizer.Add(wx.StaticLine(self), pos=(1,0), span=(1,4),\n flag=wx.ALL|wx.EXPAND|wx.GROW, border=border)\n\n self.selected_values = [] # keep track of selected quantities\n\n quantities = self.output_quantities.diagnostic_types[self.diag_type]\n\n # choose a good height/width for formulas\n if (self.diag_type in [\"Linear_Forces\", \"Angular_Momentum\", \"Energy_Flux\",\n \"Induction\", \"Inertial_Forces\", \"Lorentz_Forces\",\n \"Poynting_Flux\", \"TurbKE_Budget\"]):\n width = 100\n elif (self.diag_type == \"Thermal_Equation\"):\n width = 150\n else:\n width = 30\n height = 20\n\n row = 2\n iquant = 0\n for Q in quantities:\n but = wx.ToggleButton(self, Q.code, \"Add\") # build button and place it in second column\n but.Bind(wx.EVT_TOGGLEBUTTON, self.OnToggle)\n grid_sizer.Add(but, pos=(row,0), flag=options, border=border)\n\n q_code = wx.StaticText(self, -1, str(Q.code)) # build other column entries\n q_name = wx.StaticText(self, -1, Q.name) # name\n\n formula = self.RenderTeX(Q, size=(width,height))\n\n # place column entries\n grid_sizer.Add(q_code, pos=(row,1), flag=options, border=border)\n grid_sizer.Add(q_name, pos=(row,2), flag=options, border=border)\n grid_sizer.Add(formula, pos=(row,3), flag=options, border=border)\n\n iquant += 1\n\n # add horizontal line every 5 quantities\n if (iquant % 5 == 0):\n grid_sizer.Add(wx.StaticLine(self), pos=(row+1,0), span=(1,4),\n flag=wx.ALL|wx.EXPAND|wx.GROW, border=border)\n row_inc = 2\n else:\n row_inc = 1\n\n row += row_inc\n\n grid_sizer.AddGrowableCol(2,1) # make the name/formula columns \"1\" growable, i.e., grows as necessary\n grid_sizer.AddGrowableCol(3,1)\n\n return grid_sizer",
"def get_all_rows_of_rate_increase_violation_column_from_vendor_price_list_detail_grid(self, column_name):\n self.all_row_data = []\n self.wait_for_ajax_spinner_load()\n row_count = len(self.wait().until(EC.presence_of_all_elements_located(self.vendor_price_list_detail_row_locator), 'vendor price list details row element locator not found before specified time'))\n next_page = False\n column_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::th[@data-title='%s']\" % (self.vendor_price_list_detail_rates_grid_div_id, column_name))\n column_element = self.wait().until(EC.presence_of_element_located(column_locator), 'column locator not found before specified time out')\n column_index = int(column_element.get_attribute(\"data-index\")) + 1\n row = 1\n try:\n while row < row_count + 1:\n column_value_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::div[@class='k-grid-content']/descendant::tbody[@role='rowgroup']/tr[%s]/td[%s]\" % (self.vendor_price_list_detail_rates_grid_div_id, row, str(column_index)))\n column_value_element = self.wait(10).until(EC.presence_of_element_located(column_value_locator), 'column value locator not found before specified time out')\n column_value = str(column_value_element.get_attribute(\"innerHTML\"))\n if column_value not in self.all_row_data:\n self.all_row_data.append(column_value)\n else:\n row_count += 1\n if row % 50 == 0:\n next_page = True\n next_page_button_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-arrow-e']\" % self.vendor_price_list_detail_rates_grid_div_id)\n self.click_element(next_page_button_locator, True)\n row = 0\n row_count -= 50\n row += 1\n except WebDriverException:\n pass\n if next_page is True:\n first_page_button_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-seek-w']\" % self.vendor_price_list_detail_rates_grid_div_id)\n self.click_element(first_page_button_locator, True)\n return self.all_row_data",
"def slider_dragged(self):\n pass"
] | [
"0.7141455",
"0.7052927",
"0.66552216",
"0.6160895",
"0.60099965",
"0.57799935",
"0.5742321",
"0.5675993",
"0.5572281",
"0.55306625",
"0.55235314",
"0.55189604",
"0.54527104",
"0.5351595",
"0.5323706",
"0.5305804",
"0.52591705",
"0.5238448",
"0.5213824",
"0.5193397",
"0.5168688",
"0.5103932",
"0.5076441",
"0.50597626",
"0.50091404",
"0.5003197",
"0.4985604",
"0.49837032",
"0.4956049",
"0.49460894"
] | 0.7351144 | 0 |
Implementing get vendor price list detail dial digits grid column names by order functionality | def get_vendor_price_list_detail_dial_digits_grid_column_names_by_order(self):
self.wait_for_ajax_spinner_load(300)
self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_dial_digits_grid_div_id)
return self.column_name_list | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def get_vendor_price_list_detail_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_rates_grid_div_id)\n return self.column_name_list",
"def get_vendor_price_lists_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.view_price_list_div_id)\n return self.column_name_list",
"def get_vendor_price_list_detail_reference_rates_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_reference_rates_grid_div_id)\n return self.column_name_list",
"def sort_vendor_price_list_detail_dial_digits_grid_column(self, column_name, descending_order):\n self.wait_for_ajax_spinner_load(300)\n self.sort_grid_column(self.vendor_price_list_detail_dial_digits_grid_div_id, column_name, descending_order)",
"def sort_vendor_price_list_detail_grid_column(self, column_name, descending_order):\n self.wait_for_ajax_spinner_load(300)\n self.sort_grid_column(self.vendor_price_list_detail_rates_grid_div_id, column_name, descending_order)",
"def sort_vendor_price_lists_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.view_price_list_div_id, column_name, descending_order)",
"def get_vendors_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.vendors_div_id)\n return self.column_name_list",
"def get_buy_and_sell_management_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.buy_and_sell_management_grid_div_id)\n return self.column_name_list",
"def get_rates_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.rates_grid_div_id)\n return self.column_name_list",
"def order_report():",
"def sort_vendor_price_list_detail_reference_rates_grid_column(self, column_name, descending_order):\n self.wait_for_ajax_spinner_load(300)\n self.sort_grid_column(self.vendor_price_list_detail_reference_rates_grid_div_id, column_name, descending_order)",
"def show_orders():\n return 'hehe'",
"def get_dialed_digits_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.dialed_digits_grid_div_id)\n return self.column_name_list",
"def execQ14():\n frame = pan.DataFrame(data, columns=['Price'])\n kiwi = frame[(dFrame.Series_title_1 == \"Kiwifruit, 1kg\")].sort_values(by='Price', ascending=False)\n return kiwi",
"def show_korpus(korpus, start=0, size=4, vstart=0, vsize=20, sortby = ''):\n if sortby != '':\n val = sortby\n else:\n val = korpus.columns[start]\n return korpus[korpus.columns[start:start+size]].sort_values(by=val, ascending=False)[vstart:vstart + vsize]",
"def get_re_analysis_detail_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.re_analysis_detail_grid_div_id)\n return self.column_name_list",
"def get_vendor_price_lists_details(self):\n try:\n self.vendor_price_lists_dict = self.get_grid_row_details(self.customer_price_list_grid_div_id, self.vendor_price_lists_dict)\n return True\n except:\n return False",
"def _get_display_orders(self):\n if self.fake_orders < 1000:\n return self.fake_orders\n else:\n num500 = self.fake_orders / 500\n return \"%d+\" % (num500 * 500)",
"def get_sort_columns_raw(self):\n col_sort_orders = self.gridpreference_sort.all().select_related()\n \n return [x.sort_display for x in col_sort_orders]",
"def cell(self,row_no,column_no): \n if row_no == 0:\n if self.serialize and column_no == 0:\n if self.verbose_names_dict.has_key('_serial_'):\n return self.verbose_names_dict['_serial_']\n else: \n return \"S.No.\"\n else:\n column = self.columns[column_no - (1 if self.serialize else 0)]\n if column in self.verbose_names_dict:\n return self.verbose_names_dict[column]\n else:\n try:\n return self.queryset.model._meta.get_field(column).verbose_name.capitalize()\n except Exception as e:\n return column.capitalize()\n else:\n if column_no == 0:\n return str(row_no)\n else:\n entrant = self.queryset[row_no - 1]\n column = self.columns[column_no - (1 if self.serialize else 0)] \n return str(self.handler(entrant,column))",
"def click_vendor_price_list_detail_dial_digits_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_dial_digits_grid_div_id)",
"def get_all_rows_of_specific_column_from_vendor_price_list_detail_dial_digits_grid(self, column_name):\n self.wait_for_ajax_spinner_load(300)\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.vendor_price_list_detail_dial_digits_grid_div_id, column_name)\n return self.all_row_data",
"def get_all_rows_of_specific_column_from_vendor_price_list_detail_grid(self, column_name):\n self.wait_for_ajax_spinner_load(300)\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.vendor_price_list_detail_rates_grid_div_id, column_name)\n return self.all_row_data",
"def _get_display_orders(self):\n query_set = SeriesEpisode.objects.filter(series=self.id)\n first_episode = query_set[0] if len(query_set) > 0 else None\n if first_episode:\n if first_episode.fake_orders < 1000:\n return first_episode.fake_orders\n else:\n num500 = first_episode.fake_orders / 500\n return \"%d+\" % (num500 * 500)\n else:\n return 20 # This is an arbitrary value",
"def get_all_rows_of_rate_increase_violation_column_from_vendor_price_list_detail_grid(self, column_name):\n self.all_row_data = []\n self.wait_for_ajax_spinner_load()\n row_count = len(self.wait().until(EC.presence_of_all_elements_located(self.vendor_price_list_detail_row_locator), 'vendor price list details row element locator not found before specified time'))\n next_page = False\n column_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::th[@data-title='%s']\" % (self.vendor_price_list_detail_rates_grid_div_id, column_name))\n column_element = self.wait().until(EC.presence_of_element_located(column_locator), 'column locator not found before specified time out')\n column_index = int(column_element.get_attribute(\"data-index\")) + 1\n row = 1\n try:\n while row < row_count + 1:\n column_value_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::div[@class='k-grid-content']/descendant::tbody[@role='rowgroup']/tr[%s]/td[%s]\" % (self.vendor_price_list_detail_rates_grid_div_id, row, str(column_index)))\n column_value_element = self.wait(10).until(EC.presence_of_element_located(column_value_locator), 'column value locator not found before specified time out')\n column_value = str(column_value_element.get_attribute(\"innerHTML\"))\n if column_value not in self.all_row_data:\n self.all_row_data.append(column_value)\n else:\n row_count += 1\n if row % 50 == 0:\n next_page = True\n next_page_button_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-arrow-e']\" % self.vendor_price_list_detail_rates_grid_div_id)\n self.click_element(next_page_button_locator, True)\n row = 0\n row_count -= 50\n row += 1\n except WebDriverException:\n pass\n if next_page is True:\n first_page_button_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-seek-w']\" % self.vendor_price_list_detail_rates_grid_div_id)\n self.click_element(first_page_button_locator, True)\n return self.all_row_data",
"def printOrders(self, event):\n \n pass",
"def sort_vendors_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.vendors_div_id, column_name, descending_order)",
"def columnTitles(self):\n \n pass",
"def columnTitles(self):\n \n pass",
"def select_sort_by_price_ascendant(self):\n msg = \"The new order of the items is by ascendant price\"\n with self.allure.step(msg):\n self.__product_sort.select_by_text('Price (low to high)')\n self.allure.attach_image(self.driver, msg)"
] | [
"0.7684893",
"0.74327093",
"0.7377231",
"0.6489624",
"0.6413991",
"0.6332185",
"0.611881",
"0.60867286",
"0.60687244",
"0.5875583",
"0.5856686",
"0.5803531",
"0.5796246",
"0.576139",
"0.574764",
"0.5727918",
"0.56430215",
"0.5607211",
"0.5512856",
"0.5480089",
"0.54506993",
"0.53912085",
"0.5389717",
"0.5367795",
"0.5345986",
"0.5335236",
"0.53188545",
"0.5308543",
"0.5308543",
"0.5292509"
] | 0.7840698 | 0 |
Implementing set vendor price list detail reference rates grid settings functionality | def set_vendor_price_list_detail_reference_rates_grid_settings(self, grid_settings):
self.wait_for_ajax_spinner_load(300)
self.set_grid_settings(self.vendor_price_list_detail_reference_rates_grid_div_id, grid_settings) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def set_vendor_price_list_detail_grid_settings(self, grid_settings):\n self.wait_for_ajax_spinner_load(300)\n self.set_grid_settings(self.vendor_price_list_detail_rates_grid_div_id, grid_settings)",
"def set_vendor_price_lists_grid_settings(self, grid_settings):\n self.set_grid_settings(self.view_price_list_div_id, grid_settings)",
"def set_vendor_price_list_detail_dial_digits_grid_settings(self, grid_settings):\n self.wait_for_ajax_spinner_load(300)\n self.set_grid_settings(self.vendor_price_list_detail_dial_digits_grid_div_id, grid_settings)",
"def select_vendor_price_list_detail_reference_rates_tab(self):\n self.click_element(self.vendor_price_list_details_reference_rates_tab_locator, True)",
"def click_vendor_price_list_detail_reference_rates_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_reference_rates_grid_div_id)",
"def set_rate_catalog(self, rate_catalog):\n self.single_selection_from_kendo_dropdown(self.rate_catalog_kendo_dropdown_locator, rate_catalog)",
"def set_vendor_grid_settings(self, grid_settings):\n self.set_grid_settings(self.vendors_div_id, grid_settings)",
"def set_costs(self) -> None:\n self[\"glider cost\"] = (\n self[\"glider base mass\"] * self[\"glider cost slope\"]\n + self[\"glider cost intercept\"]\n )\n self[\"lightweighting cost\"] = (\n self[\"glider base mass\"]\n * self[\"lightweighting\"]\n * self[\"glider lightweighting cost per kg\"]\n )\n self[\"electric powertrain cost\"] = (\n self[\"electric powertrain cost per kW\"] * self[\"electric power\"]\n )\n self[\"combustion powertrain cost\"] = (\n self[\"combustion power\"] * self[\"combustion powertrain cost per kW\"]\n )\n self[\"fuel cell cost\"] = self[\"fuel cell power\"] * self[\"fuel cell cost per kW\"]\n self[\"power battery cost\"] = (\n self[\"battery power\"] * self[\"power battery cost per kW\"]\n )\n self[\"energy battery cost\"] = (\n self[\"energy battery cost per kWh\"] * self[\"electric energy stored\"]\n )\n self[\"fuel tank cost\"] = self[\"fuel tank cost per kg\"] * self[\"fuel mass\"]\n # Per km\n self[\"energy cost\"] = self[\"energy cost per kWh\"] * self[\"TtW energy\"] / 3600\n\n # For battery, need to divide cost of electricity\n # at battery by efficiency of charging\n # to get costs at the \"wall socket\".\n\n _ = lambda x: np.where(x == 0, 1, x)\n self[\"energy cost\"] /= _(self[\"battery charge efficiency\"])\n\n self[\"component replacement cost\"] = (\n self[\"energy battery cost\"] * self[\"battery lifetime replacements\"]\n + self[\"fuel cell cost\"] * self[\"fuel cell lifetime replacements\"]\n )\n\n with open(DATA_DIR / \"purchase_cost_params.yaml\", \"r\") as stream:\n to_markup = yaml.safe_load(stream)[\"markup\"]\n\n self[to_markup] *= self[\"markup factor\"]\n\n # calculate costs per km:\n self[\"lifetime\"] = self[\"lifetime kilometers\"] / self[\"kilometers per year\"]\n\n with open(DATA_DIR / \"purchase_cost_params.yaml\", \"r\") as stream:\n purchase_cost_params = yaml.safe_load(stream)[\"purchase\"]\n\n self[\"purchase cost\"] = self[purchase_cost_params].sum(axis=2)\n # per km\n amortisation_factor = self[\"interest rate\"] + (\n self[\"interest rate\"]\n / (\n (np.array(1) + self[\"interest rate\"]) ** self[\"lifetime kilometers\"]\n - np.array(1)\n )\n )\n self[\"amortised purchase cost\"] = (\n self[\"purchase cost\"] * amortisation_factor / self[\"kilometers per year\"]\n )\n\n # per km\n self[\"maintenance cost\"] = (\n self[\"maintenance cost per glider cost\"]\n * self[\"glider cost\"]\n / self[\"kilometers per year\"]\n )\n\n # simple assumption that component replacement\n # occurs at half of life.\n self[\"amortised component replacement cost\"] = (\n (\n self[\"component replacement cost\"]\n * (\n (np.array(1) - self[\"interest rate\"]) ** self[\"lifetime kilometers\"]\n / 2\n )\n )\n * amortisation_factor\n / self[\"kilometers per year\"]\n )\n\n self[\"total cost per km\"] = (\n self[\"energy cost\"]\n + self[\"amortised purchase cost\"]\n + self[\"maintenance cost\"]\n + self[\"amortised component replacement cost\"]\n )",
"def handle(self, *args, **options):\n plugin = plugin_settings.get_self()\n base_currency = setting_handler.get_plugin_setting(plugin, 'base_currency', None, create=False).value\n currencies = models.Renewal.objects.all().values('currency').distinct()\n api_call = requests.get('http://api.fixer.io/latest?base={0}'.format(base_currency)).json()\n\n for currency in currencies:\n currency_code = currency.get('currency')\n if currency_code != base_currency:\n rate = api_call['rates'].get(currency_code)\n value = setting_handler.get_plugin_setting(plugin, 'ex_rate_{0}'.format(currency_code.upper()),\n None,\n create=True,\n pretty='Ex Rate GBP',\n fallback='')\n setting_handler.save_plugin_setting(plugin, value.setting.name, rate, None)",
"def __call__(self, rate:'kW'):\n self.rate = rate\n self.cost = self.price * rate",
"def click_vendor_price_list_detail_rates_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_rates_grid_div_id)",
"def presolve_for_rates_set():\n global typevar\n global entrs\n global Rwind\n Rwind=tkinter.Toplevel()\n Rwind.title('__set_h__') \n R_name=tkinter.Label(Rwind, height = 2, text=' Enter list of rates to vary', font='arial 9 bold')\n R_name.grid(row=1, column = 1, columnspan = 2)\n ## entry for rates\n klist = tkinter.StringVar(Rwind, value='')\n klistent = tkinter.Entry(Rwind, width = 35, textvariable = klist)\n klistent.grid(row=2, column=1, columnspan = 4)\n ## min/max vals and N steps\n minvallab, maxvallab = tkinter.Label(Rwind, height = 1, text='min *', font='arial 9 bold'), tkinter.Label(Rwind, height = 1, text='max *', font='arial 9 bold')\n minval, maxval = tkinter.StringVar(Rwind, value=-3), tkinter.StringVar(Rwind, value=1)\n minvalent, maxvalent = tkinter.Entry(Rwind, width = 7, textvariable = minval), tkinter.Entry(Rwind, width = 7, textvariable = maxval)\n minvallab.grid(row=3, column=1)\n maxvallab.grid(row=3, column=2, sticky = 'w')\n minvalent.grid(row=4, column=1)\n maxvalent.grid(row=4, column=2, sticky = 'w')\n #\n nsteplab = tkinter.Label(Rwind, height = 1, text='N steps', font='arial 9 bold')\n nsteps = tkinter.StringVar(Rwind, value = 20)\n nstepent = tkinter.Entry(Rwind, width = 6, textvariable = nsteps)\n nsteplab.grid(row=3, column = 3, sticky = 'w')\n nstepent.grid(row=4, column = 3, sticky = 'w')\n ###\n ## space type\n typevar=tkinter.StringVar(Rwind, value='log')\n type_log=tkinter.Radiobutton(Rwind, variable=typevar, value= 'log', text='log', height=2, highlightthickness=0)\n type_lin=tkinter.Radiobutton(Rwind, variable=typevar, value= 'lin', text='lin', height=2, highlightthickness=0)\n type_log.grid(row = 3, column = 4)\n type_lin.grid(row = 4, column = 4)\n ### parse vars and start calculations\n #\n solvbut = tkinter.Button(Rwind, width=5,bg='wheat',text='solve', font='arial 10 bold',command=lambda *args: presove_for_rates_run(all_kfs, klist.get().strip().split(', '), int(nsteps.get()), float(minval.get()), float(maxval.get()), typevar.get()), bd=1)\n solvbut.grid(row=6, column=2, columnspan = 2)",
"def compare_vendor_price_list_detail_rates_grid_rate(self):\n self.buy_page_excel_data_dictionary = self.get_excel_data_dictionary()\n is_compared = False\n rates_grid_rate_column_element = self.wait().until(EC.presence_of_element_located(self.rates_grid_rate_column_locator))\n if self.buy_page_excel_data_dictionary[\"Rate1\"] == (rates_grid_rate_column_element.text).strip():\n is_compared = True\n return is_compared",
"def change_price(self, value): \n value = self.price",
"def set_vendor(self, vendor_list):\n self.multiple_items_selection_from_kendo_dropdown(self.vendor_dropdown_locator, vendor_list)\n self.wait_for_ajax_spinner_load()",
"def set_rate_plan(self, item_name):\n self.single_selection_from_kendo_dropdown(self.rate_plan_kendo_dropdown_locator, item_name)",
"def set_buy_and_sell_management_grid_settings(self, grid_settings):\n self.set_grid_settings(self.buy_and_sell_management_grid_div_id, grid_settings)",
"def _onchange_price(self):\n self.price_subtotal = self.price",
"def change_entries(self, grid_sizer, options, border):\n\n if (self.diag_type is None): return grid_sizer # no data selected, don't change anything\n\n # setup the grid of possible values\n header0 = wx.StaticText(self, -1, \"Add/Remove\")\n header1 = wx.StaticText(self, -1, \"Quantity Code\")\n header2 = wx.StaticText(self, -1, \"Name\")\n header3 = wx.StaticText(self, -1, \"LaTeX Formula\")\n grid_sizer.Add(header0, pos=(0,0), flag=options, border=border)\n grid_sizer.Add(header1, pos=(0,1), flag=options, border=border)\n grid_sizer.Add(header2, pos=(0,2), flag=options, border=border)\n grid_sizer.Add(header3, pos=(0,3), flag=options, border=border)\n grid_sizer.Add(wx.StaticLine(self), pos=(1,0), span=(1,4),\n flag=wx.ALL|wx.EXPAND|wx.GROW, border=border)\n\n self.selected_values = [] # keep track of selected quantities\n\n quantities = self.output_quantities.diagnostic_types[self.diag_type]\n\n # choose a good height/width for formulas\n if (self.diag_type in [\"Linear_Forces\", \"Angular_Momentum\", \"Energy_Flux\",\n \"Induction\", \"Inertial_Forces\", \"Lorentz_Forces\",\n \"Poynting_Flux\", \"TurbKE_Budget\"]):\n width = 100\n elif (self.diag_type == \"Thermal_Equation\"):\n width = 150\n else:\n width = 30\n height = 20\n\n row = 2\n iquant = 0\n for Q in quantities:\n but = wx.ToggleButton(self, Q.code, \"Add\") # build button and place it in second column\n but.Bind(wx.EVT_TOGGLEBUTTON, self.OnToggle)\n grid_sizer.Add(but, pos=(row,0), flag=options, border=border)\n\n q_code = wx.StaticText(self, -1, str(Q.code)) # build other column entries\n q_name = wx.StaticText(self, -1, Q.name) # name\n\n formula = self.RenderTeX(Q, size=(width,height))\n\n # place column entries\n grid_sizer.Add(q_code, pos=(row,1), flag=options, border=border)\n grid_sizer.Add(q_name, pos=(row,2), flag=options, border=border)\n grid_sizer.Add(formula, pos=(row,3), flag=options, border=border)\n\n iquant += 1\n\n # add horizontal line every 5 quantities\n if (iquant % 5 == 0):\n grid_sizer.Add(wx.StaticLine(self), pos=(row+1,0), span=(1,4),\n flag=wx.ALL|wx.EXPAND|wx.GROW, border=border)\n row_inc = 2\n else:\n row_inc = 1\n\n row += row_inc\n\n grid_sizer.AddGrowableCol(2,1) # make the name/formula columns \"1\" growable, i.e., grows as necessary\n grid_sizer.AddGrowableCol(3,1)\n\n return grid_sizer",
"def getActiveCurrency():",
"def set_adjustment_charge_currency(self, currency):\n self.single_selection_from_kendo_dropdown(self.currency_kendo_dropdown_locator, currency)",
"def set_price(self, request, pk):\n return Response('20$')",
"def set_price(self, request, pk):\n return Response('20$')",
"def _set_details_of_charges_71A(self, val):\n self.swift_obj.DetailsOfCharges = val\n self.swift_obj.DetailsOfCharges.swiftTag = '71A'",
"def getActiveCurrencies():",
"def _configure(self):\n Values._configure(self)\n self.values = [self.inventory.one, self.inventory.two]\n return",
"def get_vendor_price_lists_details(self):\n try:\n self.vendor_price_lists_dict = self.get_grid_row_details(self.customer_price_list_grid_div_id, self.vendor_price_lists_dict)\n return True\n except:\n return False",
"def get_prices(self):\n pass",
"def test_companies_company_id_data_tax_rates_get(self):\n pass",
"def set_adjustment_values(self,builder,etree):\n for object in etree.xpath('/interface/object[@class=\"GtkAdjustment\"]'):\n property = object.xpath('property[@name=\"value\"]')\n if len(property):\n obj = builder.get_object(object.get('id'))\n obj.set_value(float(property[0].text))"
] | [
"0.7424756",
"0.6640085",
"0.66240853",
"0.62597233",
"0.5624294",
"0.5615338",
"0.5413141",
"0.5399156",
"0.5393897",
"0.53885835",
"0.5314806",
"0.5201519",
"0.5182755",
"0.51686394",
"0.51561767",
"0.5150335",
"0.51375353",
"0.5119853",
"0.5113556",
"0.5111845",
"0.50710714",
"0.5067662",
"0.5067662",
"0.50643516",
"0.5050731",
"0.50257295",
"0.4958973",
"0.49480116",
"0.49458584",
"0.49423528"
] | 0.7711025 | 0 |
Implementing sort vendor price list detail reference rates grid column functionality | def sort_vendor_price_list_detail_reference_rates_grid_column(self, column_name, descending_order):
self.wait_for_ajax_spinner_load(300)
self.sort_grid_column(self.vendor_price_list_detail_reference_rates_grid_div_id, column_name, descending_order) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def sort_vendor_price_list_detail_grid_column(self, column_name, descending_order):\n self.wait_for_ajax_spinner_load(300)\n self.sort_grid_column(self.vendor_price_list_detail_rates_grid_div_id, column_name, descending_order)",
"def sort_vendor_price_lists_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.view_price_list_div_id, column_name, descending_order)",
"def get_vendor_price_list_detail_reference_rates_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_reference_rates_grid_div_id)\n return self.column_name_list",
"def sort_vendor_price_list_detail_dial_digits_grid_column(self, column_name, descending_order):\n self.wait_for_ajax_spinner_load(300)\n self.sort_grid_column(self.vendor_price_list_detail_dial_digits_grid_div_id, column_name, descending_order)",
"def get_vendor_price_list_detail_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_rates_grid_div_id)\n return self.column_name_list",
"def sort_rates_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.rates_grid_div_id, column_name, descending_order)",
"def select_sort_by_price_ascendant(self):\n msg = \"The new order of the items is by ascendant price\"\n with self.allure.step(msg):\n self.__product_sort.select_by_text('Price (low to high)')\n self.allure.attach_image(self.driver, msg)",
"def compare_vendor_price_list_detail_rates_grid_rate(self):\n self.buy_page_excel_data_dictionary = self.get_excel_data_dictionary()\n is_compared = False\n rates_grid_rate_column_element = self.wait().until(EC.presence_of_element_located(self.rates_grid_rate_column_locator))\n if self.buy_page_excel_data_dictionary[\"Rate1\"] == (rates_grid_rate_column_element.text).strip():\n is_compared = True\n return is_compared",
"def get_vendor_price_list_detail_dial_digits_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_dial_digits_grid_div_id)\n return self.column_name_list",
"def click_vendor_price_list_detail_reference_rates_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_reference_rates_grid_div_id)",
"def sortby(self):\n ...",
"def click_vendor_price_list_detail_rates_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_rates_grid_div_id)",
"def get_vendor_price_lists_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.view_price_list_div_id)\n return self.column_name_list",
"def drag_vendor_price_list_detail_reference_rates_grid_column(self, source_column, destination_column):\n self.wait_for_ajax_spinner_load(300)\n self.drag_grid_column(self.vendor_price_list_detail_reference_rates_grid_div_id, source_column, destination_column)",
"def drag_vendor_price_list_detail_grid_column(self, source_column, destination_column):\n self.wait_for_ajax_spinner_load(300)\n self.drag_grid_column(self.vendor_price_list_detail_rates_grid_div_id, source_column, destination_column)",
"def set_vendor_price_list_detail_reference_rates_grid_settings(self, grid_settings):\n self.wait_for_ajax_spinner_load(300)\n self.set_grid_settings(self.vendor_price_list_detail_reference_rates_grid_div_id, grid_settings)",
"def _custom_sorter(self, key1, key2):\n\n col = self._col\n ascending = self._colSortFlag[col]\n real = self.get_real_col(col)\n item1 = self.itemDataMap[key1][real]\n item2 = self.itemDataMap[key2][real]\n\n # Internationalization of string sorting with locale module\n if isinstance(item1, str) and isinstance(item2, str):\n cmpVal = locale.strcoll(item1, item2)\n elif isinstance(item1, bytes) or isinstance(item2, bytes):\n cmpVal = locale.strcoll(str(item1), str(item2))\n else:\n cmpVal = cmp(item1, item2)\n\n # If the items are equal, then pick something else to make the sort value unique\n if cmpVal == 0:\n cmpVal = cmp(*self.GetSecondarySortValues(col, key1, key2))\n\n if ascending:\n return cmpVal\n else:\n return -cmpVal",
"def set_vendor_price_list_detail_grid_settings(self, grid_settings):\n self.wait_for_ajax_spinner_load(300)\n self.set_grid_settings(self.vendor_price_list_detail_rates_grid_div_id, grid_settings)",
"def select_vendor_price_list_detail_reference_rates_tab(self):\n self.click_element(self.vendor_price_list_details_reference_rates_tab_locator, True)",
"def OnColumnClick(self, event):\r\n columns = self.data.getParam('columns')\r\n self.SortItems(columns[event.GetColumn()],'INVERT')",
"def select_sort_by_price_descendant(self):\n msg = \"The new order of the items is by descendant price\"\n with self.allure.step(msg):\n self.__product_sort.select_by_text('Price (high to low)')\n self.allure.attach_image(self.driver, msg)",
"def get_all_rows_of_rate_increase_violation_column_from_vendor_price_list_detail_grid(self, column_name):\n self.all_row_data = []\n self.wait_for_ajax_spinner_load()\n row_count = len(self.wait().until(EC.presence_of_all_elements_located(self.vendor_price_list_detail_row_locator), 'vendor price list details row element locator not found before specified time'))\n next_page = False\n column_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::th[@data-title='%s']\" % (self.vendor_price_list_detail_rates_grid_div_id, column_name))\n column_element = self.wait().until(EC.presence_of_element_located(column_locator), 'column locator not found before specified time out')\n column_index = int(column_element.get_attribute(\"data-index\")) + 1\n row = 1\n try:\n while row < row_count + 1:\n column_value_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::div[@class='k-grid-content']/descendant::tbody[@role='rowgroup']/tr[%s]/td[%s]\" % (self.vendor_price_list_detail_rates_grid_div_id, row, str(column_index)))\n column_value_element = self.wait(10).until(EC.presence_of_element_located(column_value_locator), 'column value locator not found before specified time out')\n column_value = str(column_value_element.get_attribute(\"innerHTML\"))\n if column_value not in self.all_row_data:\n self.all_row_data.append(column_value)\n else:\n row_count += 1\n if row % 50 == 0:\n next_page = True\n next_page_button_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-arrow-e']\" % self.vendor_price_list_detail_rates_grid_div_id)\n self.click_element(next_page_button_locator, True)\n row = 0\n row_count -= 50\n row += 1\n except WebDriverException:\n pass\n if next_page is True:\n first_page_button_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-seek-w']\" % self.vendor_price_list_detail_rates_grid_div_id)\n self.click_element(first_page_button_locator, True)\n return self.all_row_data",
"def click_on_sort(self):\r\n self.driver.find_element_by_xpath('//*[@id=\"dataTable\"]/thead/tr[3]/th[4]').click()",
"def sort_vendors_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.vendors_div_id, column_name, descending_order)",
"def get_sort_columns_raw(self):\n col_sort_orders = self.gridpreference_sort.all().select_related()\n \n return [x.sort_display for x in col_sort_orders]",
"def OnReorder( self, event ):\n column = self.columns[event.GetColumn()]\n if column.sortOn:\n # multiple sorts for the click...\n columns = [ self.columnByAttribute( attr ) for attr in column.sortOn ]\n diff = [ (a,b) for a,b in zip( self.sortOrder, columns ) if b is not a[1]]\n if not diff:\n self.sortOrder[0] = (not self.sortOrder[0][0], column)\n else:\n self.sortOrder = [\n (c.defaultOrder,c) for c in columns \n ] + [ (a,b) for (a,b) in self.sortOrder if b not in columns]\n else:\n if column is self.sortOrder[0][1]:\n # reverse current major order\n self.sortOrder[0] = (not self.sortOrder[0][0], column)\n else:\n self.sortOrder = [(column.defaultOrder,column)] + [\n (a,b) \n for (a,b) in self.sortOrder if b is not column \n ]\n # TODO: store current selection and re-select after sorting...\n self.reorder()\n self.Refresh()",
"def test_ordering_by_price_desc(self):\n request = self.factory.get('/api/v1/cars', {'distance': 10000,\n 'ordering': '-price'})\n response = CarAdViewSet.as_view({'get': 'list'})(request)\n self.assertEqual(response.status_code, HTTPStatus.OK._value_)\n cars = response.data['results'][0:2]\n self.assertGreater(cars[0]['price'], cars[1]['price'])\n self.assertNotEqual(cars[0], cars[1])",
"def order_report():",
"def sort_buy_and_sell_management_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.buy_and_sell_management_grid_div_id, column_name, descending_order)",
"def get_sort_field(self, kind, order, is_number):\n pass"
] | [
"0.6962402",
"0.6499122",
"0.64194953",
"0.6401264",
"0.6161369",
"0.592552",
"0.5817892",
"0.58153653",
"0.5793963",
"0.57887614",
"0.575649",
"0.5729702",
"0.5591354",
"0.5583007",
"0.55471194",
"0.5527286",
"0.5488686",
"0.5467262",
"0.5419912",
"0.54145664",
"0.5380516",
"0.5351118",
"0.5283919",
"0.52675664",
"0.5263781",
"0.52537197",
"0.5244477",
"0.52154666",
"0.52042025",
"0.51985997"
] | 0.7046188 | 0 |
Implementing get all rows of specific column from vendor price list detail reference rates grid functionality | def get_all_rows_of_specific_column_from_vendor_price_list_detail_reference_rates_grid(self, column_name):
self.wait_for_ajax_spinner_load(300)
self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.vendor_price_list_detail_reference_rates_grid_div_id, column_name)
return self.all_row_data | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def get_all_rows_of_rate_column_from_vendor_price_list_detail_grid(self, column_name):\n self.wait_for_ajax_spinner_load()\n self.all_row_data = self.get_all_rows_of_specific_column_only_from_vendor_price_list_detail_grid(self.vendor_price_list_detail_rates_grid_div_id, column_name)\n return self.all_row_data",
"def get_all_rows_of_specific_column_from_vendor_price_list_detail_grid(self, column_name):\n self.wait_for_ajax_spinner_load(300)\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.vendor_price_list_detail_rates_grid_div_id, column_name)\n return self.all_row_data",
"def get_all_rows_of_rate_increase_violation_column_from_vendor_price_list_detail_grid(self, column_name):\n self.all_row_data = []\n self.wait_for_ajax_spinner_load()\n row_count = len(self.wait().until(EC.presence_of_all_elements_located(self.vendor_price_list_detail_row_locator), 'vendor price list details row element locator not found before specified time'))\n next_page = False\n column_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::th[@data-title='%s']\" % (self.vendor_price_list_detail_rates_grid_div_id, column_name))\n column_element = self.wait().until(EC.presence_of_element_located(column_locator), 'column locator not found before specified time out')\n column_index = int(column_element.get_attribute(\"data-index\")) + 1\n row = 1\n try:\n while row < row_count + 1:\n column_value_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::div[@class='k-grid-content']/descendant::tbody[@role='rowgroup']/tr[%s]/td[%s]\" % (self.vendor_price_list_detail_rates_grid_div_id, row, str(column_index)))\n column_value_element = self.wait(10).until(EC.presence_of_element_located(column_value_locator), 'column value locator not found before specified time out')\n column_value = str(column_value_element.get_attribute(\"innerHTML\"))\n if column_value not in self.all_row_data:\n self.all_row_data.append(column_value)\n else:\n row_count += 1\n if row % 50 == 0:\n next_page = True\n next_page_button_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-arrow-e']\" % self.vendor_price_list_detail_rates_grid_div_id)\n self.click_element(next_page_button_locator, True)\n row = 0\n row_count -= 50\n row += 1\n except WebDriverException:\n pass\n if next_page is True:\n first_page_button_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-seek-w']\" % self.vendor_price_list_detail_rates_grid_div_id)\n self.click_element(first_page_button_locator, True)\n return self.all_row_data",
"def get_all_rows_of_specific_column_from_vendor_price_list_detail_dial_digits_grid(self, column_name):\n self.wait_for_ajax_spinner_load(300)\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.vendor_price_list_detail_dial_digits_grid_div_id, column_name)\n return self.all_row_data",
"def get_vendor_price_list_detail_reference_rates_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_reference_rates_grid_div_id)\n return self.column_name_list",
"def get_all_rows_of_specific_column_from_vendor_price_lists_grid(self, column_name):\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.view_price_list_div_id, column_name, self.get_grid_row_count(self.price_lists_grid_row_count_span_locator, 7))\n return self.all_row_data",
"def get_all_rows_of_specific_column_only_from_vendor_price_list_detail_grid(self, div_id, column_name):\n row_count = len(self.wait().until(EC.presence_of_all_elements_located(self.vendor_price_list_detail_row_locator), 'vendor price list details row element locator not found before specified time'))\n all_row_data = []\n next_page = False\n column_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::th[@data-title='%s']\" % (div_id, column_name))\n column_element = self.wait().until(EC.presence_of_element_located(column_locator), 'column locator not found before specified time out')\n column_index = int(column_element.get_attribute(\"data-index\")) + 1\n row = 1\n try:\n while row < row_count+1:\n column_value_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::div[@class='k-grid-content']/descendant::tbody[@role='rowgroup']/tr[%s]/td[%s]/descendant::td\" % (div_id, row, str(column_index)))\n column_value_element = self.wait(10).until(EC.presence_of_element_located(column_value_locator), 'column value locator not found before specified time out')\n column_value = str(column_value_element.get_attribute(\"innerHTML\"))\n if column_value not in all_row_data:\n all_row_data.append(column_value)\n else:\n row_count += 1\n if row % 50 == 0:\n next_page = True\n next_page_button_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-arrow-e']\" % div_id)\n self.click_element(next_page_button_locator, True)\n row = 0\n row_count -= 50\n row += 1\n except WebDriverException:\n pass\n if next_page is True:\n first_page_button_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-seek-w']\" % div_id)\n self.click_element(first_page_button_locator, True)\n return all_row_data",
"def get_vendor_price_list_detail_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_rates_grid_div_id)\n return self.column_name_list",
"def get_all_rows_of_specific_column_from_rates_grid(self, column_name):\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.rates_grid_div_id, column_name, self.get_grid_row_count(self.rates_grid_row_count_span_locator, 1))\n return self.all_row_data",
"def compare_vendor_price_list_detail_rates_grid_rate(self):\n self.buy_page_excel_data_dictionary = self.get_excel_data_dictionary()\n is_compared = False\n rates_grid_rate_column_element = self.wait().until(EC.presence_of_element_located(self.rates_grid_rate_column_locator))\n if self.buy_page_excel_data_dictionary[\"Rate1\"] == (rates_grid_rate_column_element.text).strip():\n is_compared = True\n return is_compared",
"def rosterRowData(self):",
"def get_vendor_price_list_detail_dial_digits_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_dial_digits_grid_div_id)\n return self.column_name_list",
"def click_vendor_price_list_detail_reference_rates_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_reference_rates_grid_div_id)",
"def click_vendor_price_list_detail_rates_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_rates_grid_div_id)",
"def _config_column(self):\n return self.rates_column",
"def get_received_charges_grid_row_details(self):\n self.grid_row_details_dictionary.clear()\n self.grid_row_details_dictionary.update({\"Tariff Type\": \"\", \"Line Item Type\": \"\", \"Service Group\": \"\", \"Product\": \"\", \"Time Band\": \"\", \"Begin Date\": \"\", \"End Date\": \"\", \"Rating Unit\": \"\", \"Minutes/Quantity\": \"\", \"Rate\": \"\"})\n return self.get_grid_row_details(self.received_charges_grid_div_id, self.grid_row_details_dictionary, self.received_charges_data_grid_name)",
"def get_charges_grid_row_details(self):\n self.grid_row_details_dictionary.clear()\n self.grid_row_details_dictionary.update({\"Charge Begin Date\": \"\", \"Charge End Date\": \"\", \"Statement Number\": \"\", \"Rate Type\": \"\", \"Rating Quantity\": \"\", \"Adjustment Statement\": \"\"})\n return self.get_grid_row_details(self.charges_grid_div_id, self.grid_row_details_dictionary, self.charges_grid_data_grid_name)",
"def get_first_row_item_from_price_lists_grid(self, column_name):\n column_locator = (By.XPATH, \"//div[@id='%s']/descendant::th[@data-title='%s']\" % (self.vendor_price_list_grid_div_id, column_name))\n column_element = self.wait().until(EC.presence_of_element_located(column_locator), 'column locator not found before specified time out')\n column_index = int(column_element.get_attribute(\"data-index\")) + 1\n column_value_locator = (By.XPATH, \"//div[@id='%s']/descendant::tbody/descendant::tr[1]/td[%s]/span\" % (self.vendor_price_list_grid_div_id, str(column_index)))\n column_value_element = self.wait().until(EC.presence_of_element_located(column_value_locator), 'column value locator not found before specified time out')\n return column_value_element.text",
"def select_vendor_price_list_detail_reference_rates_tab(self):\n self.click_element(self.vendor_price_list_details_reference_rates_tab_locator, True)",
"def get_coin_price_list(df: pd.DataFrame) -> list:\n return df['rates'].to_list()",
"def get_queryset(self): # NOQA\n rates = Rate.objects.filter(\n inventory__date__gte=self.kwargs.get('checkin'),\n inventory__date__lte=self.kwargs.get('checkout'),\n room__hotel__public_id=self.kwargs.get('hotel_id')\n ).values('room__public_id', 'price', \"inventory__date\")\n return rates",
"def get_vendor_price_lists_details(self):\n try:\n self.vendor_price_lists_dict = self.get_grid_row_details(self.customer_price_list_grid_div_id, self.vendor_price_lists_dict)\n return True\n except:\n return False",
"def get_all_rows_of_specific_column_from_buy_and_sell_management_grid(self, column_name):\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.buy_and_sell_management_grid_div_id, column_name, self.get_grid_row_count(self.buy_and_sell_management_grid_count_span_locator, 2))\n return self.all_row_data",
"def get_prices(self):\n pass",
"def get_target_buy_policy_grid_row_details(self):\n self.grid_row_data.clear()\n self.grid_row_data = {\"Status\":\"\", \"Target Buy Policy Type\":\"\", \"Call Type\":\"\", \"Route Class\":\"\"}\n return self.get_grid_row_details(self.target_buy_policies_grid_div_id, self.grid_row_data, data_grid_name=self.target_buy_policy_data_grid_name)",
"def set_vendor_price_list_detail_reference_rates_grid_settings(self, grid_settings):\n self.wait_for_ajax_spinner_load(300)\n self.set_grid_settings(self.vendor_price_list_detail_reference_rates_grid_div_id, grid_settings)",
"def get_all_rows_of_specific_column_from_re_analysis_detail_grid(self, column_name):\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.re_analysis_detail_grid_div_id, column_name)\n return self.all_row_data",
"def get_non_traffic_charges_grid_row_details(self):\n self.grid_row_details_dictionary.clear()\n self.grid_row_details_dictionary.update({\"Accounting Code\": \"\", \"Start Date\": \"\", \"End Date\": \"\", \"Charge Name\": \"\", \"Charge Category\": \"\", \"Currency\": \"\", \"Amount\": \"\", \"Tax Template\": \"\"})\n non_traffic_charges_grid_row_details = self.get_grid_row_details(self.non_traffic_charges_grid_div_id, self.grid_row_details_dictionary)\n if \",\" in non_traffic_charges_grid_row_details[\"Amount\"]:\n non_traffic_charges_grid_row_details[\"Amount\"] = non_traffic_charges_grid_row_details[\"Amount\"].replace(\",\", \"\")\n return non_traffic_charges_grid_row_details",
"def get_last_price_list_from_vendors_grid(self):\n return self.get_specific_column_value_from_grid(self.vendors_div_id, self.vendors_grid_row_count, self.last_price_list_column_name, self.vendors_data_grid_name)",
"def getRows(self, context, obj, data, aggData):\n raise NotImplementedError()"
] | [
"0.7362142",
"0.7007448",
"0.6990538",
"0.65401006",
"0.6449858",
"0.64026636",
"0.61235315",
"0.6112679",
"0.6028198",
"0.5927134",
"0.59255385",
"0.58276504",
"0.58153206",
"0.5710535",
"0.5673051",
"0.56647193",
"0.5631066",
"0.5550651",
"0.5475566",
"0.54417986",
"0.54272366",
"0.5421748",
"0.5334311",
"0.5329886",
"0.5310524",
"0.5277355",
"0.52649176",
"0.5263501",
"0.52544445",
"0.52271116"
] | 0.7214774 | 1 |
Implementing drag vendor price list detail reference rates grid column functionality | def drag_vendor_price_list_detail_reference_rates_grid_column(self, source_column, destination_column):
self.wait_for_ajax_spinner_load(300)
self.drag_grid_column(self.vendor_price_list_detail_reference_rates_grid_div_id, source_column, destination_column) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def drag_vendor_price_list_detail_grid_column(self, source_column, destination_column):\n self.wait_for_ajax_spinner_load(300)\n self.drag_grid_column(self.vendor_price_list_detail_rates_grid_div_id, source_column, destination_column)",
"def drag_vendor_price_lists_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.view_price_list_div_id, source_column, destination_column)",
"def drag_vendor_price_list_detail_dial_digits_grid_column(self, source_column, destination_column):\n self.wait_for_ajax_spinner_load(300)\n self.drag_grid_column(self.vendor_price_list_detail_dial_digits_grid_div_id, source_column, destination_column)",
"def drag_rates_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.rates_grid_div_id, source_column, destination_column)",
"def click_vendor_price_list_detail_reference_rates_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_reference_rates_grid_div_id)",
"def set_vendor_price_list_detail_reference_rates_grid_settings(self, grid_settings):\n self.wait_for_ajax_spinner_load(300)\n self.set_grid_settings(self.vendor_price_list_detail_reference_rates_grid_div_id, grid_settings)",
"def select_vendor_price_list_detail_reference_rates_tab(self):\n self.click_element(self.vendor_price_list_details_reference_rates_tab_locator, True)",
"def click_vendor_price_list_detail_rates_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_rates_grid_div_id)",
"def sort_vendor_price_list_detail_reference_rates_grid_column(self, column_name, descending_order):\n self.wait_for_ajax_spinner_load(300)\n self.sort_grid_column(self.vendor_price_list_detail_reference_rates_grid_div_id, column_name, descending_order)",
"def set_vendor_price_list_detail_grid_settings(self, grid_settings):\n self.wait_for_ajax_spinner_load(300)\n self.set_grid_settings(self.vendor_price_list_detail_rates_grid_div_id, grid_settings)",
"def sort_vendor_price_list_detail_grid_column(self, column_name, descending_order):\n self.wait_for_ajax_spinner_load(300)\n self.sort_grid_column(self.vendor_price_list_detail_rates_grid_div_id, column_name, descending_order)",
"def get_vendor_price_list_detail_reference_rates_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_reference_rates_grid_div_id)\n return self.column_name_list",
"def get_all_rows_of_rate_increase_violation_column_from_vendor_price_list_detail_grid(self, column_name):\n self.all_row_data = []\n self.wait_for_ajax_spinner_load()\n row_count = len(self.wait().until(EC.presence_of_all_elements_located(self.vendor_price_list_detail_row_locator), 'vendor price list details row element locator not found before specified time'))\n next_page = False\n column_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::th[@data-title='%s']\" % (self.vendor_price_list_detail_rates_grid_div_id, column_name))\n column_element = self.wait().until(EC.presence_of_element_located(column_locator), 'column locator not found before specified time out')\n column_index = int(column_element.get_attribute(\"data-index\")) + 1\n row = 1\n try:\n while row < row_count + 1:\n column_value_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::div[@class='k-grid-content']/descendant::tbody[@role='rowgroup']/tr[%s]/td[%s]\" % (self.vendor_price_list_detail_rates_grid_div_id, row, str(column_index)))\n column_value_element = self.wait(10).until(EC.presence_of_element_located(column_value_locator), 'column value locator not found before specified time out')\n column_value = str(column_value_element.get_attribute(\"innerHTML\"))\n if column_value not in self.all_row_data:\n self.all_row_data.append(column_value)\n else:\n row_count += 1\n if row % 50 == 0:\n next_page = True\n next_page_button_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-arrow-e']\" % self.vendor_price_list_detail_rates_grid_div_id)\n self.click_element(next_page_button_locator, True)\n row = 0\n row_count -= 50\n row += 1\n except WebDriverException:\n pass\n if next_page is True:\n first_page_button_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-seek-w']\" % self.vendor_price_list_detail_rates_grid_div_id)\n self.click_element(first_page_button_locator, True)\n return self.all_row_data",
"def compare_vendor_price_list_detail_rates_grid_rate(self):\n self.buy_page_excel_data_dictionary = self.get_excel_data_dictionary()\n is_compared = False\n rates_grid_rate_column_element = self.wait().until(EC.presence_of_element_located(self.rates_grid_rate_column_locator))\n if self.buy_page_excel_data_dictionary[\"Rate1\"] == (rates_grid_rate_column_element.text).strip():\n is_compared = True\n return is_compared",
"def drag_vendors_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.vendors_div_id, source_column, destination_column)",
"def click_vendor_price_list_detail_dial_digits_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_dial_digits_grid_div_id)",
"def drag_re_analysis_detail_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.re_analysis_detail_grid_div_id, source_column, destination_column)",
"def drag_buy_and_sell_management_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.buy_and_sell_management_grid_div_id, source_column, destination_column)",
"def compare_vendor_price_list_detail_rates_grid_destination(self):\n self.buy_page_excel_data_dictionary = self.get_excel_data_dictionary()\n is_compared = False\n rates_grid_destination = self.get_specific_column_value_from_grid(self.vendor_price_list_detail_rates_grid_div_id, 1, self.destination_column_name)\n if self.buy_page_excel_data_dictionary[\"Destination\"] == rates_grid_destination:\n is_compared = True\n return is_compared",
"def get_vendor_price_list_detail_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_rates_grid_div_id)\n return self.column_name_list",
"def sort_vendor_price_lists_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.view_price_list_div_id, column_name, descending_order)",
"def _drag_col(self, event):\n x = self._dx + event.x # get dragged column new left x coordinate\n self._visual_drag.place_configure(x=x) # update column preview position\n # if one border of the dragged column is beyon the middle of the\n # neighboring column, swap them\n if (self._dragged_col_neighbor_widths[0] is not None and\n x < self._dragged_col_x - self._dragged_col_neighbor_widths[0] / 2):\n self._swap_columns('left')\n elif (self._dragged_col_neighbor_widths[1] is not None and\n x > self._dragged_col_x + self._dragged_col_neighbor_widths[1] / 2):\n self._swap_columns('right')\n # horizontal scrolling if the cursor reaches the side of the table\n if x < 0 and self.xview()[0] > 0:\n # scroll left and update dragged column x coordinate\n self.xview_scroll(-10, 'units')\n self._dragged_col_x += 10\n elif x + self._dragged_col_width / 2 > self.winfo_width() and self.xview()[1] < 1:\n # scroll right and update dragged column x coordinate\n self.xview_scroll(10, 'units')\n self._dragged_col_x -= 10",
"def sort_vendor_price_list_detail_dial_digits_grid_column(self, column_name, descending_order):\n self.wait_for_ajax_spinner_load(300)\n self.sort_grid_column(self.vendor_price_list_detail_dial_digits_grid_div_id, column_name, descending_order)",
"def set_vendor_price_list_detail_dial_digits_grid_settings(self, grid_settings):\n self.wait_for_ajax_spinner_load(300)\n self.set_grid_settings(self.vendor_price_list_detail_dial_digits_grid_div_id, grid_settings)",
"def get_all_rows_of_rate_column_from_vendor_price_list_detail_grid(self, column_name):\n self.wait_for_ajax_spinner_load()\n self.all_row_data = self.get_all_rows_of_specific_column_only_from_vendor_price_list_detail_grid(self.vendor_price_list_detail_rates_grid_div_id, column_name)\n return self.all_row_data",
"def slider_dragged(self):\n pass",
"def change_entries(self, grid_sizer, options, border):\n\n if (self.diag_type is None): return grid_sizer # no data selected, don't change anything\n\n # setup the grid of possible values\n header0 = wx.StaticText(self, -1, \"Add/Remove\")\n header1 = wx.StaticText(self, -1, \"Quantity Code\")\n header2 = wx.StaticText(self, -1, \"Name\")\n header3 = wx.StaticText(self, -1, \"LaTeX Formula\")\n grid_sizer.Add(header0, pos=(0,0), flag=options, border=border)\n grid_sizer.Add(header1, pos=(0,1), flag=options, border=border)\n grid_sizer.Add(header2, pos=(0,2), flag=options, border=border)\n grid_sizer.Add(header3, pos=(0,3), flag=options, border=border)\n grid_sizer.Add(wx.StaticLine(self), pos=(1,0), span=(1,4),\n flag=wx.ALL|wx.EXPAND|wx.GROW, border=border)\n\n self.selected_values = [] # keep track of selected quantities\n\n quantities = self.output_quantities.diagnostic_types[self.diag_type]\n\n # choose a good height/width for formulas\n if (self.diag_type in [\"Linear_Forces\", \"Angular_Momentum\", \"Energy_Flux\",\n \"Induction\", \"Inertial_Forces\", \"Lorentz_Forces\",\n \"Poynting_Flux\", \"TurbKE_Budget\"]):\n width = 100\n elif (self.diag_type == \"Thermal_Equation\"):\n width = 150\n else:\n width = 30\n height = 20\n\n row = 2\n iquant = 0\n for Q in quantities:\n but = wx.ToggleButton(self, Q.code, \"Add\") # build button and place it in second column\n but.Bind(wx.EVT_TOGGLEBUTTON, self.OnToggle)\n grid_sizer.Add(but, pos=(row,0), flag=options, border=border)\n\n q_code = wx.StaticText(self, -1, str(Q.code)) # build other column entries\n q_name = wx.StaticText(self, -1, Q.name) # name\n\n formula = self.RenderTeX(Q, size=(width,height))\n\n # place column entries\n grid_sizer.Add(q_code, pos=(row,1), flag=options, border=border)\n grid_sizer.Add(q_name, pos=(row,2), flag=options, border=border)\n grid_sizer.Add(formula, pos=(row,3), flag=options, border=border)\n\n iquant += 1\n\n # add horizontal line every 5 quantities\n if (iquant % 5 == 0):\n grid_sizer.Add(wx.StaticLine(self), pos=(row+1,0), span=(1,4),\n flag=wx.ALL|wx.EXPAND|wx.GROW, border=border)\n row_inc = 2\n else:\n row_inc = 1\n\n row += row_inc\n\n grid_sizer.AddGrowableCol(2,1) # make the name/formula columns \"1\" growable, i.e., grows as necessary\n grid_sizer.AddGrowableCol(3,1)\n\n return grid_sizer",
"def drag_dialed_digits_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.dialed_digits_grid_div_id, source_column, destination_column)",
"def get_all_rows_of_specific_column_from_vendor_price_list_detail_reference_rates_grid(self, column_name):\n self.wait_for_ajax_spinner_load(300)\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.vendor_price_list_detail_reference_rates_grid_div_id, column_name)\n return self.all_row_data",
"def m_ps_FieldsUpdated(self, sender, e):\r\n ltp = e.Fields.GetLastTradedPriceField()\r\n ltq = e.Fields.GetLastTradedQuantityField()\r\n print(\"ltp and ltq success...\")\r\n if ltp.HasChanged or ltq.HasChanged:\r\n print(ltp.Value, ltq.Value)\r\n ltp = ltp.Value\r\n ltpi = int(ltp.ToTicks())\r\n self.process_row({'time' :pd.datetime.now(), 'close' : ltpi}, key = \"nk\")"
] | [
"0.72046953",
"0.6678145",
"0.65693206",
"0.62253594",
"0.59600985",
"0.58423185",
"0.579328",
"0.5673602",
"0.5649327",
"0.55434245",
"0.5492175",
"0.5449869",
"0.538475",
"0.5357035",
"0.5313662",
"0.52489585",
"0.52262026",
"0.5201915",
"0.5092926",
"0.50897783",
"0.5036894",
"0.4968014",
"0.49645302",
"0.4962312",
"0.49622405",
"0.49270105",
"0.49115488",
"0.48995396",
"0.4894147",
"0.48747417"
] | 0.7350074 | 0 |
Implementing get vendor price list detail reference rates grid column names by order functionality | def get_vendor_price_list_detail_reference_rates_grid_column_names_by_order(self):
self.wait_for_ajax_spinner_load(300)
self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_reference_rates_grid_div_id)
return self.column_name_list | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def get_vendor_price_list_detail_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_rates_grid_div_id)\n return self.column_name_list",
"def get_vendor_price_list_detail_dial_digits_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_dial_digits_grid_div_id)\n return self.column_name_list",
"def get_vendor_price_lists_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.view_price_list_div_id)\n return self.column_name_list",
"def sort_vendor_price_list_detail_reference_rates_grid_column(self, column_name, descending_order):\n self.wait_for_ajax_spinner_load(300)\n self.sort_grid_column(self.vendor_price_list_detail_reference_rates_grid_div_id, column_name, descending_order)",
"def sort_vendor_price_list_detail_grid_column(self, column_name, descending_order):\n self.wait_for_ajax_spinner_load(300)\n self.sort_grid_column(self.vendor_price_list_detail_rates_grid_div_id, column_name, descending_order)",
"def get_rates_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.rates_grid_div_id)\n return self.column_name_list",
"def sort_vendor_price_lists_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.view_price_list_div_id, column_name, descending_order)",
"def order_report():",
"def sort_vendor_price_list_detail_dial_digits_grid_column(self, column_name, descending_order):\n self.wait_for_ajax_spinner_load(300)\n self.sort_grid_column(self.vendor_price_list_detail_dial_digits_grid_div_id, column_name, descending_order)",
"def get_all_rows_of_rate_column_from_vendor_price_list_detail_grid(self, column_name):\n self.wait_for_ajax_spinner_load()\n self.all_row_data = self.get_all_rows_of_specific_column_only_from_vendor_price_list_detail_grid(self.vendor_price_list_detail_rates_grid_div_id, column_name)\n return self.all_row_data",
"def click_vendor_price_list_detail_reference_rates_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_reference_rates_grid_div_id)",
"def get_buy_and_sell_management_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.buy_and_sell_management_grid_div_id)\n return self.column_name_list",
"def get_all_rows_of_rate_increase_violation_column_from_vendor_price_list_detail_grid(self, column_name):\n self.all_row_data = []\n self.wait_for_ajax_spinner_load()\n row_count = len(self.wait().until(EC.presence_of_all_elements_located(self.vendor_price_list_detail_row_locator), 'vendor price list details row element locator not found before specified time'))\n next_page = False\n column_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::th[@data-title='%s']\" % (self.vendor_price_list_detail_rates_grid_div_id, column_name))\n column_element = self.wait().until(EC.presence_of_element_located(column_locator), 'column locator not found before specified time out')\n column_index = int(column_element.get_attribute(\"data-index\")) + 1\n row = 1\n try:\n while row < row_count + 1:\n column_value_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::div[@class='k-grid-content']/descendant::tbody[@role='rowgroup']/tr[%s]/td[%s]\" % (self.vendor_price_list_detail_rates_grid_div_id, row, str(column_index)))\n column_value_element = self.wait(10).until(EC.presence_of_element_located(column_value_locator), 'column value locator not found before specified time out')\n column_value = str(column_value_element.get_attribute(\"innerHTML\"))\n if column_value not in self.all_row_data:\n self.all_row_data.append(column_value)\n else:\n row_count += 1\n if row % 50 == 0:\n next_page = True\n next_page_button_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-arrow-e']\" % self.vendor_price_list_detail_rates_grid_div_id)\n self.click_element(next_page_button_locator, True)\n row = 0\n row_count -= 50\n row += 1\n except WebDriverException:\n pass\n if next_page is True:\n first_page_button_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-seek-w']\" % self.vendor_price_list_detail_rates_grid_div_id)\n self.click_element(first_page_button_locator, True)\n return self.all_row_data",
"def get_vendors_grid_cost_currency_format(self):\n self.vendors_grid_row_count = self.get_grid_row_count(self.vendors_grid_row_count_span_locator, 5)\n return self.get_specific_column_value_from_grid(self.vendors_div_id, self.vendors_grid_row_count, self.cost_column_name, self.vendors_data_grid_name)",
"def compare_vendor_price_list_detail_rates_grid_rate(self):\n self.buy_page_excel_data_dictionary = self.get_excel_data_dictionary()\n is_compared = False\n rates_grid_rate_column_element = self.wait().until(EC.presence_of_element_located(self.rates_grid_rate_column_locator))\n if self.buy_page_excel_data_dictionary[\"Rate1\"] == (rates_grid_rate_column_element.text).strip():\n is_compared = True\n return is_compared",
"def get_re_analysis_detail_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.re_analysis_detail_grid_div_id)\n return self.column_name_list",
"def click_vendor_price_list_detail_rates_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_rates_grid_div_id)",
"def get_all_rows_of_specific_column_from_vendor_price_list_detail_reference_rates_grid(self, column_name):\n self.wait_for_ajax_spinner_load(300)\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.vendor_price_list_detail_reference_rates_grid_div_id, column_name)\n return self.all_row_data",
"def get_vendors_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.vendors_div_id)\n return self.column_name_list",
"def get_sort_columns_raw(self):\n col_sort_orders = self.gridpreference_sort.all().select_related()\n \n return [x.sort_display for x in col_sort_orders]",
"def execQ14():\n frame = pan.DataFrame(data, columns=['Price'])\n kiwi = frame[(dFrame.Series_title_1 == \"Kiwifruit, 1kg\")].sort_values(by='Price', ascending=False)\n return kiwi",
"def show_korpus(korpus, start=0, size=4, vstart=0, vsize=20, sortby = ''):\n if sortby != '':\n val = sortby\n else:\n val = korpus.columns[start]\n return korpus[korpus.columns[start:start+size]].sort_values(by=val, ascending=False)[vstart:vstart + vsize]",
"def get_all_rows_of_specific_column_from_vendor_price_list_detail_grid(self, column_name):\n self.wait_for_ajax_spinner_load(300)\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.vendor_price_list_detail_rates_grid_div_id, column_name)\n return self.all_row_data",
"def getViewNames(self) -> list[float]:\n ...",
"def _get_display_orders(self):\n if self.fake_orders < 1000:\n return self.fake_orders\n else:\n num500 = self.fake_orders / 500\n return \"%d+\" % (num500 * 500)",
"def sort_rates_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.rates_grid_div_id, column_name, descending_order)",
"def _get_display_orders(self):\n query_set = SeriesEpisode.objects.filter(series=self.id)\n first_episode = query_set[0] if len(query_set) > 0 else None\n if first_episode:\n if first_episode.fake_orders < 1000:\n return first_episode.fake_orders\n else:\n num500 = first_episode.fake_orders / 500\n return \"%d+\" % (num500 * 500)\n else:\n return 20 # This is an arbitrary value",
"def show_orders():\n return 'hehe'",
"def select_vendor_price_list_detail_reference_rates_tab(self):\n self.click_element(self.vendor_price_list_details_reference_rates_tab_locator, True)",
"def _config_column(self):\n return self.rates_column"
] | [
"0.7343353",
"0.69235855",
"0.68106264",
"0.6343203",
"0.63250464",
"0.6149629",
"0.5884301",
"0.5781913",
"0.57544494",
"0.5590244",
"0.5535519",
"0.5529056",
"0.55215186",
"0.55095506",
"0.54491454",
"0.54330474",
"0.5430295",
"0.54275167",
"0.53953695",
"0.5376098",
"0.53617245",
"0.5359667",
"0.5352064",
"0.5349832",
"0.53379095",
"0.5326908",
"0.5213683",
"0.5209112",
"0.5200184",
"0.51975274"
] | 0.7557808 | 0 |
Implementing click vendor price list detail rates grid export to excel button functionality | def click_vendor_price_list_detail_rates_grid_export_to_excel_button(self):
self.click_grid_export_to_excel_button(self.vendor_price_list_detail_rates_grid_div_id) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def click_vendor_price_list_detail_reference_rates_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_reference_rates_grid_div_id)",
"def click_vendor_price_list_detail_dial_digits_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_dial_digits_grid_div_id)",
"def click_buy_and_sell_management_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.buy_and_sell_management_grid_div_id)",
"def click_re_analysis_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.re_analysis_grid_div_id)",
"def export(self):\r\n self.prices[\"returns\"] = self.returns\r\n self.prices.columns = ['prices', 'returns']\r\n self.prices = self.prices.dropna()\r\n \r\n name = QFileDialog.getSaveFileName(None, 'Save File', filter='*.xlsx')\r\n if(name[0] == ''):\r\n # if name empty\r\n pass\r\n else:\r\n self.prices.to_excel(name[0])",
"def click_export_to_excel_button(self):\n self.click_element(self.export_to_excel_button_locator, True)",
"def click_export_to_excel_button(self):\n self.click_element(self.export_to_excel_button_locator, True)",
"def export_data(self):\r\n stocks = {}\r\n headings = ['Security', 'Price', 'Change', 'Change %', '52 Week', 'Market Cap']\r\n\r\n for data in range(6):\r\n for items in self.root.main.treeview.get_children():\r\n values = self.root.main.treeview.item(items, 'values')\r\n if headings[data] not in stocks:\r\n stocks[headings[data]] = []\r\n stocks.get(headings[data]).append(values[data])\r\n\r\n df = pd.DataFrame(stocks, columns=headings)\r\n path = tk.filedialog.asksaveasfilename(title='Save File As...',\r\n filetypes=((\"CComma-separated values (.csv)\", \"*.csv\"), (\"Text Document(.txt)\", \"*.txt\")))\r\n\r\n if not path:\r\n return\r\n else:\r\n df.to_excel(path, index=False, header=True)",
"def click_country_groups_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.country_groups_grid_div_id)",
"def exporter():\n Session = modules.db_connect.connect()\n session = Session()\n report = xlsxwriter.Workbook('perception_report.xlsx')\n top_row_format = report.add_format({'bold': True})\n top_row_format.set_border(style=1)\n top_row_format.set_bg_color('#B8B8B8')\n\n \"\"\"Black row format at the top of each host detailed info\"\"\"\n black_row_format = report.add_format()\n black_row_format.set_border(style=1)\n black_row_format.set_bg_color('#000000')\n\n \"\"\"Detailed host row format\"\"\"\n host_row_format = report.add_format()\n host_row_format.set_border(style=1)\n host_row_format.set_bg_color('#CCCCCC')\n\n \"\"\"Format for text in row with host info\"\"\"\n host_row_wrapped_format = report.add_format()\n host_row_wrapped_format.set_border(style=1)\n host_row_wrapped_format.set_bg_color('#CCCCCC')\n host_row_wrapped_format.set_text_wrap('vjustify')\n\n \"\"\"Format description row in NSE output\"\"\"\n host_nse_output_top_format = report.add_format({'bold': True})\n host_nse_output_top_format.set_border(style=1)\n host_nse_output_top_format.set_bg_color('#B8B8B8')\n\n \"\"\"Format test row in NSE output\"\"\"\n host_nse_output_format = report.add_format()\n host_nse_output_format.set_border(style=1)\n host_nse_output_format.set_bg_color('#CCCCCC')\n\n \"\"\"Build the host_overview_worksheet\"\"\"\n host_overview_worksheet = report.add_worksheet()\n\n \"\"\"Build the host_detail_worksheet\"\"\"\n host_detail_worksheet = report.add_worksheet()\n\n \"\"\"Size up the overview worksheet\"\"\"\n host_overview_worksheet.set_column('B:B', 24)\n host_overview_worksheet.set_column('C:C', 15)\n host_overview_worksheet.set_column('D:D', 15)\n host_overview_worksheet.set_column('E:E', 15)\n host_overview_worksheet.set_column('F:F', 15)\n host_overview_worksheet.set_column('G:G', 20)\n host_overview_worksheet.set_column('H:H', 15)\n\n \"\"\"Size up the detail worksheet\"\"\"\n host_detail_worksheet.set_column('B:B', 38)\n host_detail_worksheet.set_column('C:C', 16)\n host_detail_worksheet.set_column('D:D', 16)\n host_detail_worksheet.set_column('E:E', 28)\n host_detail_worksheet.set_column('F:F', 15)\n host_detail_worksheet.set_column('H:G', 20)\n host_detail_worksheet.set_column('H:H', 25)\n host_detail_worksheet.set_column('I:I', 10)\n\n \"\"\"Description row for host overview\"\"\"\n host_overview_worksheet.write('B2', 'Hostname', top_row_format)\n host_overview_worksheet.write('C2', 'IP v4 Address', top_row_format)\n host_overview_worksheet.write('D2', 'IP v6 Address', top_row_format)\n host_overview_worksheet.write('E2', 'MAC Address', top_row_format)\n host_overview_worksheet.write('F2', 'MAC Vendor', top_row_format)\n host_overview_worksheet.write('G2', 'Operating System', top_row_format)\n host_overview_worksheet.write('H2', 'Host Type', top_row_format)\n\n \"\"\"Query the database for the hosts\"\"\"\n inventory_hosts = session.query(InventoryHost).all()\n\n \"\"\"Build overview worksheet\"\"\"\n overview_row = 2\n overview_col = 1\n for host in inventory_hosts:\n host_overview_worksheet.write(overview_row, overview_col, host.host_name, host_row_format)\n host_overview_worksheet.write(overview_row, overview_col + 1, host.ipv4_addr, host_row_format)\n host_overview_worksheet.write(overview_row, overview_col + 2, host.ipv6_addr, host_row_format)\n host_overview_worksheet.write(overview_row, overview_col + 3, host.macaddr, host_row_format)\n host_overview_worksheet.write(overview_row, overview_col + 4, host.mac_vendor.name, host_row_format)\n host_overview_worksheet.write(overview_row, overview_col + 5, host.product.name, host_row_format)\n host_overview_worksheet.write(overview_row, overview_col + 6, host.host_type, host_row_format)\n overview_row += 1\n\n \"\"\"Build detailed worksheet\"\"\"\n detail_row = 2\n detail_col = 1\n for host in inventory_hosts:\n\n \"\"\"Add the black row to start host detail info\"\"\"\n host_detail_worksheet.set_row(detail_row, 5)\n host_detail_worksheet.write(detail_row, detail_col, '', black_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 1, '', black_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 2, '', black_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 3, '', black_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 4, '', black_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 5, '', black_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 6, '', black_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 7, '', black_row_format)\n detail_row += 1\n\n \"\"\"Add row detail info\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, 'Hostname', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 1, 'IP v4 Address', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 2, 'IP v6 Address', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 3, 'MAC Address', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 4, 'MAC Vendor', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 5, 'Host Type', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 6, 'Operating System', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 7, 'Version', top_row_format)\n detail_row += 1\n\n \"\"\"Add host info\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, host.host_name, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 1, host.ipv4_addr, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 2, host.ipv6_addr, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 3, host.macaddr, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 4, host.mac_vendor.name, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 5, host.host_type, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 6, host.product.name, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 7, host.product.version, host_row_format)\n detail_row += 2\n\n \"\"\"If there is no host nse script, just say so.\"\"\"\n if not host.host_nse_scripts:\n host_detail_worksheet.write(detail_row, detail_col, 'Host NSE Script Name', top_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row, detail_col + 7,\n 'Output', top_row_format)\n detail_row += 1\n host_detail_worksheet.write(detail_row, detail_col, 'No Script Name', host_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row, detail_col + 7,\n 'No Script Output', host_row_wrapped_format)\n detail_row += 2\n else:\n\n \"\"\"Add the row detail\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, 'Host NSE Script Name', top_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row, detail_col + 7,\n 'Output', top_row_format)\n detail_row += 1\n\n \"\"\"Grab all the scripts\"\"\"\n for host_scripts in host.host_nse_scripts:\n\n \"\"\"Count output the lines so we know what to merge\"\"\"\n lines = host_scripts.output.count('\\n')\n\n if lines > 0:\n\n \"\"\"Merge the rows and write the name and output\"\"\"\n host_detail_worksheet.merge_range(detail_row, detail_col, detail_row + lines, detail_col,\n host_scripts.name, host_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row + lines, detail_col + 7,\n host_scripts.output, host_row_wrapped_format)\n detail_row += 1\n else:\n\n \"\"\"Single line output\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, host_scripts.name, host_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row + lines, detail_col + 7,\n host_scripts.output, host_row_wrapped_format)\n detail_row += 1\n\n if not host.inventory_svcs:\n\n \"\"\"If there are no services for this host tell me\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, 'Protocol', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 1, 'Port', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 2, 'Name', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 3, 'Svc Product', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 4, 'Extra Info', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 5, 'Product', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 6, 'Version', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 7, 'Update', top_row_format)\n detail_row += 1\n\n host_detail_worksheet.write(detail_row, detail_col, 'no services', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 1, 'no services', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 2, 'no services', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 3, 'no services', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 4, 'no services', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 5, 'no services', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 6, 'no services', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 7, 'no services', host_row_format)\n detail_row += 1\n\n else:\n for ports in host.inventory_svcs:\n\n \"\"\"Host services row info\"\"\"\n detail_row += 1\n host_detail_worksheet.write(detail_row, detail_col, 'Protocol', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 1, 'Port', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 2, 'Name', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 3, 'Svc Product', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 4, 'Extra Info', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 5, 'Product', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 6, 'Version', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 7, 'Update', top_row_format)\n detail_row += 1\n\n \"\"\"Write the service info\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, ports.protocol, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 1, ports.portid, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 2, ports.name, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 3, ports.svc_product, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 4, ports.extra_info, host_row_format)\n try:\n\n \"\"\"There may not be product info, but try.\"\"\"\n host_detail_worksheet.write(detail_row, detail_col + 5, ports.product.name, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 6, ports.product.version, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 7, ports.product.product_update,\n host_row_format)\n detail_row += 1\n except AttributeError:\n\n \"\"\"Just write unknown if there is no product info\"\"\"\n host_detail_worksheet.write(detail_row, detail_col + 5, 'unknown', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 6, 'unknown', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 7, 'unknown', host_row_format)\n detail_row += 1\n\n if not ports.svc_nse_scripts:\n\n \"\"\"If there is no NSE script info just say so.\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, 'Svc NSE Script Name', top_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row, detail_col + 7,\n 'Output', top_row_format)\n detail_row += 1\n host_detail_worksheet.write(detail_row, detail_col, 'No Script Name', host_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row, detail_col + 7,\n 'No Script Output', host_row_wrapped_format)\n detail_row += 2\n\n else:\n\n \"\"\"Service Script row detail\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, 'Svc NSE Script Name', top_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row, detail_col + 7,\n 'Output', top_row_format)\n detail_row += 1\n\n \"\"\"Grab all the scripts\"\"\"\n for nse_scripts in ports.svc_nse_scripts:\n\n \"\"\"Count the lines in the output for merging\"\"\"\n lines = nse_scripts.output.count('\\n')\n\n if lines > 0:\n\n \"\"\"Merge the rows and write the name and output\"\"\"\n host_detail_worksheet.merge_range(detail_row, detail_col, detail_row + lines, detail_col,\n nse_scripts.name, host_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row + lines, detail_col + 7,\n nse_scripts.output, host_row_wrapped_format)\n detail_row += 1\n else:\n\n \"\"\"Single line output\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, nse_scripts.name, host_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row + lines,\n detail_col + 7, nse_scripts.output,\n host_row_wrapped_format)\n detail_row += 1\n\n detail_row += 1\n report.close()\n session.close()",
"def getrailfinancial(df,outputlocation):\n #create filename with date_and_timestamp\n formatted_date = datetime.datetime.now().strftime('%Y%m%d_%H-%M')\n destinationfilename = f'rail_financial_data_{formatted_date}.xlsx'\n\n # group and sum the superfile by two cuts\n revsplitbytocticketreg = df.groupby(['Carrier TOC / Third Party Code','Product Code','Regulated_Status'],as_index=False).agg({'Adjusted Earnings Amount':['sum']})\n revsplitbytocsectorclasscatreg = df.groupby(['Carrier TOC / Third Party Code','sector','class','Category','Regulated_Status'], as_index=False).agg({'Adjusted Earnings Amount':['sum']})\n\n # rename columns of the group and summed data\n revsplitbytocticketreg.rename(columns = {'Carrier TOC / Third Party Code':'TOC','Product Code':'Ticket','Regulated_Status':'Reg/Unreg','Adjusted Earnings Amount':'Earnings'},inplace=True)\n revsplitbytocsectorclasscatreg.rename(columns = {'Carrier TOC / Third Party Code':'TOC','sector':'Sector','class':'Class','Category':'Category','Regulated_Status':'Reg/Unreg','Adjusted Earnings Amount':'Earnings'},inplace=True) \n\n #prepare excel writer object, export dataframes to two different ranges and save excel file\n writer = pd.ExcelWriter(outputlocation + destinationfilename, engine='xlsxwriter')\n revsplitbytocticketreg.to_excel(writer,sheet_name='rail_financial_data')\n revsplitbytocsectorclasscatreg.to_excel(writer,sheet_name='rail_financial_data',startcol=10 )\n writer.save()",
"def export_html(self, model_view='gapd'):\n '''\n <?xml version=\"1.0\" ?>\n <ROWSET>\n <ROW>\n <SURVEYID>921</SURVEYID>\n <SURVEYNAME>Goomalling, WA, 1996</SURVEYNAME>\n <STATE>WA</STATE>\n <OPERATOR>Stockdale Prospecting Ltd.</OPERATOR>\n <CONTRACTOR>Kevron Geophysics Pty Ltd</CONTRACTOR>\n <PROCESSOR>Kevron Geophysics Pty Ltd</PROCESSOR>\n <SURVEY_TYPE>Detailed</SURVEY_TYPE>\n <DATATYPES>MAG,RAL,ELE</DATATYPES>\n <VESSEL>Aero Commander</VESSEL>\n <VESSEL_TYPE>Plane</VESSEL_TYPE>\n <RELEASEDATE/>\n <ONSHORE_OFFSHORE>Onshore</ONSHORE_OFFSHORE>\n <STARTDATE>05-DEC-96</STARTDATE>\n <ENDDATE>22-DEC-96</ENDDATE>\n <WLONG>116.366662</WLONG>\n <ELONG>117.749996</ELONG>\n <SLAT>-31.483336</SLAT>\n <NLAT>-30.566668</NLAT>\n <LINE_KM>35665</LINE_KM>\n <TOTAL_KM/>\n <LINE_SPACING>250</LINE_SPACING>\n <LINE_DIRECTION>180</LINE_DIRECTION>\n <TIE_SPACING/>\n <SQUARE_KM/>\n <CRYSTAL_VOLUME>33.6</CRYSTAL_VOLUME>\n <UP_CRYSTAL_VOLUME>4.2</UP_CRYSTAL_VOLUME>\n <DIGITAL_DATA>MAG,RAL,ELE</DIGITAL_DATA>\n <GEODETIC_DATUM>WGS84</GEODETIC_DATUM>\n <ASL/>\n <AGL>60</AGL>\n <MAG_INSTRUMENT>Scintrex CS2</MAG_INSTRUMENT>\n <RAD_INSTRUMENT>Exploranium GR820</RAD_INSTRUMENT>\n </ROW>\n </ROWSET>\n '''\n if model_view == 'prov':\n prov_turtle = self.export_rdf('prov', 'text/turtle')\n g = Graph().parse(data=prov_turtle, format='turtle')\n\n view_html = render_template(\n 'survey_prov.html',\n visjs=self._make_vsjs(g),\n prov_turtle=prov_turtle,\n )\n else: # model_view == 'gapd':\n view_html = render_template(\n 'survey_gapd.html',\n survey_no=self.survey_no,\n survey_name=self.survey_name,\n state=self.state,\n operator=self.operator,\n contractor=self.contractor,\n processor=self.processor,\n survey_type=self.survey_type,\n data_types=self.data_types,\n vessel=self.vessel,\n vessel_type=self.vessel_type,\n release_date=self.release_date,\n onshore_offshore=self.onshore_offshore,\n start_date=self.start_date,\n end_date=self.end_date,\n line_km=self.line_km,\n total_km=self.total_km,\n line_spacing=self.line_spacing,\n line_direction=self.line_direction,\n tie_spacing=self.tie_spacing,\n area=self.square_km,\n crystal_volume=self.crystal_volume,\n up_crystal_volume=self.up_crystal_volume,\n digital_data=self.digital_data,\n geodetic_datum=self.geodetic_datum,\n asl=self.asl,\n agl=self.agl,\n mag_instrument=self.mag_instrument,\n rad_instrument=self.rad_instrument,\n wkt_polygon=self.wkt_polygon\n )\n\n return render_template(\n 'page_survey.html',\n view_html=view_html,\n survey_no=self.survey_no,\n end_date=self.end_date,\n survey_type=self.survey_type,\n date_now=datetime.now().strftime('%Y-%m-%d'),\n centroid_lat=self.centroid_lat,\n centroid_lon=self.centroid_lon,\n n_lat=self.n_lat,\n s_lat=self.s_lat,\n w_long=self.w_long,\n e_long=self.e_long,\n gm_key=config.GOOGLE_MAPS_API_KEY\n )",
"def on_export_button(self, event):\n wildcard = \"Filtered _iso_res_filt.csv file (*_iso_res_filt.csv)|*_iso_res_filt.csv|\"\\\n \"All files (*.*)|*.*|\"\n defFile = self.datafile[:-4]+'_filt.csv'\n dlg = wx.FileDialog(\n self, message=\"Save file as ...\", \n defaultDir=self.currentDirectory, \n defaultFile=defFile, wildcard=wildcard, style=wx.SAVE\n )\n if dlg.ShowModal() == wx.ID_OK:\n path = dlg.GetPath()\n self.recalcAll()\n self.redrawAll()\n self.dataFrame['priorFilter'] = self.dataFrame['allFPass']\n self.dataFrame.to_csv(path, index=False)\n summaryCSVPath = path.split('.')[0] + '_median_[' + ''.join(self.calcNum) + ']_[' + ''.join(self.calcDen) + '].csv'\n self.writeSummaryCSV(summaryCSVPath)\n \n dlg.Destroy()",
"def print_xlsx(self):\n if self.date_from and self.date_to:\n if self.date_from > self.date_to:\n raise ValidationError(\"Date From must be less than Date To\")\n\n # active_record = self._context['id']\n # record = self.env['room.accommodation'].browse(active_record)\n data = {\n 'date_from': self.date_from,\n 'date_to': self.date_to,\n 'guest_id': self.guest_id.id,\n 'model_id': self.id,\n 'check_out': self.check_out,\n 'date_today': fields.Datetime.now()\n }\n\n print(\"XLSX Wizard data : \", data)\n\n return {\n 'type': 'ir.actions.report',\n 'data': {\n 'model': 'accommodation.reporting',\n 'options': json.dumps(data, default=date_utils.json_default),\n 'output_format': 'xlsx',\n 'report_name': 'Accommodation Report'\n },\n 'report_type': 'xlsx'\n }",
"def export(self,**kwargs):\n \n # import pdb;pdb.set_trace()\n \n # provide for case where recs are set extenally\n if not self.recs:\n self.select_recs(**kwargs)\n if self.recs:\n if self.export_file_name:\n filename = self.export_file_name\n else:\n filename = \"{table_name}_report_{datetime}.csv\".format(\n table_name = self.table.display_name,\n datetime = date_to_string(local_datetime_now(),'iso_datetime'),\n ).replace(' ','_').lower()\n \n if not self.export_fields:\n # include all fields by default\n self.export_fields = self._set_default_list_fields(include_all=True).copy()\n\n self.set_list_fields(self.export_fields)\n \n \n if self.export_template:\n result = render_template(self.export_template, data=self)\n else:\n # add a descriptive title row\n if self.export_title:\n result = self.export_title.strip() + '\\n'\n else:\n result = \"Export of table {} as of {}\\n\".format(self.table.table_name,excel_date_and_time_string(local_datetime_now()))\n \n result += ','.join([x['label'] for x in self.export_fields]) + '\\n'\n for rec in self.recs:\n rec_row = []\n for field in self.export_fields:\n data = rec.__getattribute__(field['name'])\n if field['type'].upper() == \"DATE\":\n data = local_date_string(data)\n elif field['type'].upper() == \"DATETIME\":\n data = excel_date_and_time_string(data)\n else:\n # just text\n data = str(data).strip()\n \n # replace double quotes with double-double quotes\n data = data.replace('\"','\"\"') #double up on double quotes\n \n if \",\" in data:\n # if any commas, wrap in quotes\n data = '\"' + data + '\"'\n \n #replace returns\n data = data.replace('\\r\\n',' -crnl- ')\n data = data.replace('\\n',' -nl- ')\n data = data.replace('\\r',' -rtn- ')\n\n rec_row.append(data)\n \n result += ','.join([str(x) for x in rec_row]) + '\\n'\n \n return DataStreamer(result,filename,'text/csv').send()\n \n self.result_text = \"No records selected\"\n self.success = False\n \n flash(self.result_text)\n return self.list(**kwargs)",
"def on_show_eqp_datasheet_export(self):\n from EqpDatasheetExportDialog import QEqpDatasheetExportDialog\n\n dlg = QEqpDatasheetExportDialog(self)\n dlg.exec_()",
"def onGrid(self, event):\n dlg = wx.FileDialog(self, wildcard=\"*.csv\", style=wx.SAVE)\n if dlg.ShowModal() == wx.ID_OK:\n path = dlg.GetPath()\n self.model.exportToGrid(path)\n dlg.Destroy()",
"def export_data(self):\r\n if len(app.entry6.get()) != 0:\r\n\r\n if app.var.get() == 'xls':\r\n\r\n wb = Workbook()\r\n sheet = wb.add_sheet('Sheet1')\r\n self.columns = ['id', 'Name', 'Section', 'Dept.', 'Gpa', 'MP1', 'MP2', 'MP3', 'MT', 'FINAL']\r\n style = xlwt.easyxf('font: bold 1')\r\n for col in range(10):\r\n sheet.write(0, col, self.columns[col], style)\r\n index=0\r\n for row in range(1,162):\r\n sheet.write(row, 1, open_data.sort_list[index])\r\n index += 1\r\n index1 = -1\r\n for row in range(1,162):\r\n index1 += 1\r\n index2=0\r\n for col in range(10):\r\n if col == 1 or index2 == 1:\r\n index2 += 1\r\n continue\r\n if index2 == 0:\r\n sheet.write(row, col, int(open_data.student[open_data.sort_list[index1]][index2]))\r\n index2 += 1\r\n continue\r\n sheet.write(row, col, open_data.student[open_data.sort_list[index1]][index2])\r\n index2 += 1\r\n file_name=app.entry6.get()\r\n if '.xls' not in file_name:\r\n wb.save(file_name+'.xls')\r\n else:\r\n wb.save(file_name)\r\n\r\n elif app.var.get() == 'txt':\r\n\r\n file_name = app.entry6.get()\r\n if '.txt' not in file_name:\r\n file_name = file_name + '.txt'\r\n file = open(file_name, 'w')\r\n index2 = 0\r\n for key in open_data.student:\r\n for index in range(10):\r\n if index == 0:\r\n file.write(str(int(open_data.student[key][index])))\r\n file.write(', ')\r\n continue\r\n if index == 1:\r\n try:\r\n self.split_names = open_data.sort_list[index2].split(' ')\r\n file.write(self.split_names[0])\r\n file.write(', ')\r\n file.write(self.split_names[1])\r\n file.write(', ')\r\n index2 += 1\r\n except UnicodeEncodeError:\r\n index2 += 1\r\n pass\r\n continue\r\n if index >= 5 and index <= 9:\r\n if open_data.student[key][index] != '':\r\n file.write(str(int(open_data.student[key][index])))\r\n file.write(', ')\r\n else:\r\n file.write('\\n')\r\n break\r\n if index == 9:\r\n file.write('\\n')\r\n continue\r\n try:\r\n file.write(str(open_data.student[key][index]))\r\n file.write(', ')\r\n except UnicodeEncodeError:\r\n pass\r\n file.close()\r\n\r\n\r\n\r\n elif app.var.get() == 'csv':\r\n app.info.configure(text=\"INFO: Type not Supported\")\r\n # The program does not support saving in 'csv' type. If the user selects 'csv' file type, 'Info' Label\r\n # shows the message: 'INFO: Type not Supported'.\r\n\r\n else:\r\n app.info.configure(text='INFO: Type not chosen!')\r\n # Also, If the user presses on 'Export Data' button, with a file name provided, but without choosing a\r\n # file type, 'Info' Label shows the message: 'INFO: Type not chosen'.\r\n\r\n else:\r\n app.info.configure(text=\"INFO: Please provide the name of the file.\")\r\n # Also, if the user presses 'Export Data' button without giving a file name, 'Info' Label shows the message:\r\n # 'INFO: Please provide the name of the file.'\r",
"def pricing_export(request, simulation):\n # Get all tolls.\n policies = get_query('policy', simulation)\n tolls = policies.filter(type='PRICING')\n # To avoid conflict if two users export a file at the same time, we\n # generate a random name for the export file.\n seed = np.random.randint(10000)\n filename = '{0}/website_files/exports/{1}.tsv'.format(settings.BASE_DIR,\n seed)\n with codecs.open(filename, 'w', encoding='utf8') as f:\n writer = csv.writer(f, delimiter='\\t')\n # Get a dictionary with all the values to export.\n values = list()\n for toll in tolls:\n if toll.usertype:\n usertype_id = toll.usertype.user_id\n else:\n usertype_id = ''\n values.append([toll.location.user_id, toll.get_value_vector(),\n toll.get_time_vector(), usertype_id])\n # Write a custom header.\n writer.writerow(['link', 'values', 'times', 'traveler_type'])\n writer.writerows(values)\n\n with codecs.open(filename, 'r', encoding='utf8') as f:\n # Build a response to send a file.\n response = HttpResponse(f.read())\n response['content_type'] = 'text/tab-separated-values'\n response['Content-Disposition'] = 'attachement; filename=tolls.tsv'\n # We delete the export file to save disk space.\n os.remove(filename)\n return response",
"def bokeh_dashboard_creator(dataframe):\r\n ############################################\r\n # Revenue, Impressions by Day by Partner\r\n ############################################\r\n \r\n output_file(\"dashboard.html\")\r\n \r\n df = dataframe\r\n df['Day'] = pd.to_datetime(df['Day'])\r\n df = df.fillna(0)\r\n \r\n impressions_list = df.groupby('Day').Impressions.sum().tolist()\r\n revenue_list = df.groupby('Day').Revenue.sum().tolist()\r\n\r\n df_pivot = df.pivot_table(index=['Day'], columns='Partner', \r\n values=['Revenue'], aggfunc='sum')\r\n\r\n df_pivot = df_pivot.fillna(0)\r\n\r\n df_pivot['Impressions'] = impressions_list\r\n df_pivot['Total_Revenue'] = revenue_list\r\n \r\n df_pivot.to_csv(\"revenue-by-day-by-partner.csv\")\r\n df2 = pd.read_csv(\"revenue-by-day-by-partner.csv\", skiprows=2)\r\n \r\n df2['Day'] = pd.to_datetime(df2['Day'])\r\n df2 = df2.fillna(0)\r\n spectral_switch = ['#2b83ba', '#abdda4', '#fdae61']\r\n\r\n df2.columns = ['Day', 'Fyber', 'Fyber_Video', 'MoPub', \r\n 'Impressions', 'Total_Revenue']\r\n\r\n df2['Day'] = pd.to_datetime(df2['Day'])\r\n\r\n source = ColumnDataSource(df2)\r\n\r\n colors=spectral_switch\r\n\r\n partners = [\"Fyber\", \"Fyber_Video\", \"MoPub\"]\r\n\r\n hover = HoverTool(tooltips=\r\n [\r\n ('Date','@Day{ %F }'),\r\n ('MoPub','@MoPub{$0,0.00}'),\r\n ('Fyber Video','@Fyber_Video{$0,0.00}'),\r\n ('Fyber','@Fyber{$0,0.00}'), \r\n ('Total Revenue','@Total_Revenue{$0,0.00}'),\r\n ('Impressions', '@Impressions{0,}'),\r\n ],\r\n\r\n formatters={'Day':'datetime'},\r\n\r\n\r\n )\r\n\r\n p = figure(plot_width=1000, plot_height=400, x_axis_type='datetime', \r\n toolbar_location = 'above', tools=[hover], \r\n y_range = (0, df2['Total_Revenue'].max()+500))\r\n\r\n #Title\r\n p.title.text = 'IMVU Mobile Ad Revenue by Date, Impressions'\r\n p.title.text_font = 'arial'\r\n p.title.text_color = 'gray'\r\n\r\n #Y-Axis\r\n p.yaxis.axis_label = 'Revenue'\r\n p.yaxis.axis_label_text_font = 'arial'\r\n p.yaxis.axis_label_text_font_style = 'bold'\r\n p.yaxis[0].formatter = NumeralTickFormatter(format=\"$0,00.00\")\r\n\r\n #X-Axis\r\n p.xaxis.axis_label = 'Date'\r\n p.xaxis.axis_label_text_font = 'arial'\r\n p.xaxis.axis_label_text_font_style = 'bold'\r\n p.xaxis.major_label_text_color = 'black'\r\n\r\n #Removes X-Grid Line\r\n p.xgrid.grid_line_color = None\r\n\r\n #Tools\r\n p.add_tools(PanTool())\r\n p.add_tools(BoxZoomTool())\r\n p.add_tools(WheelZoomTool())\r\n p.add_tools(ZoomInTool())\r\n p.add_tools(ZoomOutTool())\r\n p.add_tools(ResetTool())\r\n p.add_tools(SaveTool())\r\n p.toolbar.logo = None\r\n\r\n #Misc\r\n p.y_range.start = 0\r\n p.x_range.range_padding = 0.1\r\n p.axis.minor_tick_line_color = None\r\n p.outline_line_color = None\r\n\r\n p.vbar_stack(stackers=partners, x='Day', width=36000000, color=colors, \r\n source=source, legend=[value(x) for x in partners], \r\n name=partners)\r\n\r\n p.extra_y_ranges = {\"Impression_Range\": \r\n Range1d(start=0, end=df2['Impressions'].max()+5000000)}\r\n \r\n p.add_layout(LinearAxis(y_range_name='Impression_Range', \r\n axis_label=\"Impressions\", \r\n axis_label_text_font = 'arial', \r\n axis_label_text_font_style = 'bold', \r\n minor_tick_line_color = None, \r\n formatter = NumeralTickFormatter(format=\"000,000\")), \"right\")\r\n \r\n p.line(x='Day', y='Impressions', source=source, line_width=2, \r\n color='navy', y_range_name = 'Impression_Range', \r\n legend='Impression')\r\n\r\n #Legend Formatting\r\n # p.legend.location = \"top_left\"\r\n p.legend.location = 'top_center'\r\n p.legend.orientation = \"horizontal\"\r\n p.legend.click_policy = 'hide'\r\n \r\n ############################################\r\n # Revenue by Day by Ad Unit Type\r\n ############################################\r\n\r\n df_unittype_pivot = df.pivot_table(index='Day', columns='UnitType', \r\n values='Revenue', aggfunc='sum')\r\n\r\n df_unittype_pivot['Total_Revenue'] = revenue_list\r\n\r\n df_unittype_pivot.to_csv(\"revenue-by-day-by-adtype.csv\")\r\n\r\n df3 = pd.read_csv(\"revenue-by-day-by-adtype.csv\")\r\n\r\n df3['Total_Revenue'].max()\r\n\r\n df3['Day'] = pd.to_datetime(df3['Day'])\r\n\r\n source2 = ColumnDataSource(df3)\r\n ad_type = [\"banner\", \"native\", \"video\"]\r\n pastel_colors = [\"#a8e6cf\", \"#ffd3b6\", \"#ffaaa5\"]\r\n\r\n df3.head(1)\r\n\r\n hover2 = HoverTool(\r\n tooltips=\r\n [\r\n ('Video','@video{$0,0.00}'),\r\n ('Native','@native{$0,0.00}'),\r\n ('Banner','@banner{$0,0.00}'),\r\n ('Total Revenue', '@Total_Revenue{$0,0.00}'),\r\n ('Date','@Day{ %F }'),\r\n ],\r\n\r\n formatters={'Day':'datetime'}\r\n\r\n )\r\n\r\n p2 = figure(plot_width = 1000, plot_height=400, x_axis_type='datetime', \r\n title=\"Ads By Day\", toolbar_location='above', \r\n tools=[hover2], y_range=(0,df3['Total_Revenue'].max()+500))\r\n\r\n p2.vbar_stack(stackers=ad_type, x='Day', width=36000000, color=pastel_colors,\r\n source=source2, legend=[value(x) for x in ad_type], \r\n name=ad_type)\r\n\r\n #Title\r\n p2.title.text = 'IMVU Mobile Ad Revenue by Type, Date'\r\n p2.title.text_font = 'arial'\r\n p2.title.text_color = 'gray'\r\n #p.title.text_font_style = 'bold'\r\n\r\n #Y-Axis\r\n p2.yaxis.axis_label = 'Revenue'\r\n p2.yaxis.axis_label_text_font = 'arial'\r\n p2.yaxis.axis_label_text_font_style = 'bold'\r\n p2.yaxis[0].formatter = NumeralTickFormatter(format=\"$0,00.00\")\r\n\r\n #X-Axis\r\n p2.xaxis.axis_label = 'Date'\r\n p2.xaxis.axis_label_text_font = 'arial'\r\n p2.xaxis.axis_label_text_font_style = 'bold'\r\n p2.xaxis.major_label_text_color = 'black'\r\n\r\n #Removes X-Grid Line\r\n p2.xgrid.grid_line_color = None\r\n\r\n #Tools\r\n p2.add_tools(PanTool())\r\n p2.add_tools(BoxZoomTool())\r\n p2.add_tools(WheelZoomTool())\r\n p2.add_tools(ZoomInTool())\r\n p2.add_tools(ZoomOutTool())\r\n p2.add_tools(ResetTool())\r\n p2.add_tools(SaveTool())\r\n p2.toolbar.logo = None\r\n\r\n #Misc\r\n p2.y_range.start = 0\r\n p2.x_range.range_padding = 0.1\r\n p2.axis.minor_tick_line_color = None\r\n p2.outline_line_color = None\r\n\r\n #Legend Formatting\r\n p2.legend.location = 'top_center'\r\n p2.legend.orientation = \"horizontal\"\r\n p2.legend.click_policy = 'hide'\r\n\r\n ############################################\r\n # Revenue by Day by App\r\n ############################################\r\n\r\n df_app_pivot = df.pivot_table(index='Day', columns='App', \r\n values=['Revenue', 'Impressions'], \r\n aggfunc='sum')\r\n\r\n df_app_pivot.to_csv(\"revenue-by-day-by-app.csv\")\r\n\r\n df4 = pd.read_csv(\"revenue-by-day-by-app.csv\", skiprows=2)\r\n\r\n df4 = df4.fillna(0)\r\n\r\n col_idx = 0\r\n bad_column_list = []\r\n\r\n for c in list(df4.columns):\r\n if df4.loc[0, c] == 0.0:\r\n bad_column_list.append(col_idx)\r\n col_idx += 1\r\n\r\n columns_to_delete = [list(df4.columns)[num] for num in bad_column_list]\r\n\r\n for c in columns_to_delete:\r\n del df4[c]\r\n\r\n df4.columns = [\"Day\", \"IMVU_Android_Impressions\", \"IMVU_iOS_Impressions\", \r\n \"IMVU_Android_Revenue\", \"IMVU_iOS_Revenue\"]\r\n\r\n df4['Day'] = pd.to_datetime(df4['Day'])\r\n\r\n # turn impressions to integer?\r\n\r\n df4[\"Total_Revenue\"] = df4[\"IMVU_Android_Revenue\"] + df4[\"IMVU_iOS_Revenue\"]\r\n df4[\"Total_Impressions\"] = df4[\"IMVU_Android_Impressions\"] + df4[\"IMVU_iOS_Impressions\"]\r\n\r\n os_colors = [\"#ff5d5d\", \"#84b9ef\"]\r\n ad_type = ['IMVU_Android_Revenue', 'IMVU_iOS_Revenue']\r\n\r\n source3 = ColumnDataSource(df4)\r\n\r\n hover3 = HoverTool(\r\n tooltips=\r\n [\r\n ('iOS Revenue','@IMVU_iOS_Revenue{$0,0.00}'),\r\n ('Android Revenue','@IMVU_Android_Revenue{$0,0.00}'),\r\n ('Total Revenue', '@Total_Revenue{$0,0.00}'),\r\n ('Date','@Day{ %F }'),\r\n ],\r\n\r\n formatters={'Day':'datetime'}\r\n\r\n )\r\n\r\n p3 = figure(plot_width = 1000, plot_height=400, x_axis_type='datetime', \r\n title=\"Ads By Day\", toolbar_location='above', \r\n tools=[hover3], y_range=(0,df4['Total_Revenue'].max()+500))\r\n\r\n p3.vbar_stack(stackers=ad_type, x='Day', width=36000000, color=os_colors, \r\n source=source3, alpha=0.6, legend=[value(x) for x in ad_type], \r\n name=ad_type)\r\n\r\n #Title\r\n p3.title.text = 'IMVU Mobile Ad Revenue by App, Date'\r\n p3.title.text_font = 'arial'\r\n p3.title.text_color = 'gray'\r\n #p.title.text_font_style = 'bold'\r\n\r\n #Y-Axis\r\n p3.yaxis.axis_label = 'Revenue'\r\n p3.yaxis.axis_label_text_font = 'arial'\r\n p3.yaxis.axis_label_text_font_style = 'bold'\r\n p3.yaxis[0].formatter = NumeralTickFormatter(format=\"$0,00.00\")\r\n\r\n #X-Axis\r\n p3.xaxis.axis_label = 'Date'\r\n p3.xaxis.axis_label_text_font = 'arial'\r\n p3.xaxis.axis_label_text_font_style = 'bold'\r\n p3.xaxis.major_label_text_color = 'black'\r\n\r\n #Removes X-Grid Line\r\n p3.xgrid.grid_line_color = None\r\n\r\n #Tools\r\n p3.add_tools(PanTool())\r\n p3.add_tools(BoxZoomTool())\r\n p3.add_tools(WheelZoomTool())\r\n p3.add_tools(ZoomInTool())\r\n p3.add_tools(ZoomOutTool())\r\n p3.add_tools(ResetTool())\r\n p3.add_tools(SaveTool())\r\n p3.toolbar.logo = None\r\n\r\n #Misc\r\n p3.y_range.start = 0\r\n p3.x_range.range_padding = 0.1\r\n p3.axis.minor_tick_line_color = None\r\n p3.outline_line_color = None\r\n\r\n #Legend Formatting\r\n # p3.legend.location = \"top_left\"\r\n p3.legend.location = 'top_center'\r\n p3.legend.orientation = \"horizontal\"\r\n p3.legend.click_policy = 'hide' \r\n\r\n from bokeh.layouts import column\r\n \r\n show(column(p, p2, p3))",
"def export(self):\n\n rpt_date = datetime.now()\n filename = 'bushfire_report_{}.xls'.format(rpt_date.strftime('%d%b%Y'))\n response = HttpResponse(content_type='application/vnd.ms-excel')\n response['Content-Disposition'] = 'attachment; filename=' + filename\n\n book = Workbook()\n self.ministerial.get_excel_sheet(rpt_date, book)\n self.ministerial_auth.get_excel_sheet(rpt_date, book)\n self.ministerial_268.get_excel_sheet(rpt_date, book)\n self.quarterly.get_excel_sheet(rpt_date, book)\n self.by_tenure.get_excel_sheet(rpt_date, book)\n self.by_cause.get_excel_sheet(rpt_date, book)\n self.region_by_tenure.get_excel_sheet(rpt_date, book)\n self.indicator.get_excel_sheet(rpt_date, book)\n self.by_cause_10YrAverage.get_excel_sheet(rpt_date, book)\n\n book.add_sheet('Sheet 1')\n book.save(response)\n\n return response",
"def export(self):\n\n rpt_date = datetime.now()\n filename = 'bushfire_indicator_report_{}.xls'.format(rpt_date.strftime('%d%b%Y'))\n response = HttpResponse(content_type='application/vnd.ms-excel')\n response['Content-Disposition'] = 'attachment; filename=' + filename\n\n book = Workbook()\n self.get_excel_sheet(rpt_date, book)\n\n book.add_sheet('Sheet 2')\n book.save(response)\n\n return response",
"def export_order_status_button(cls, store_views):\n pass",
"def export(self):\n\n rpt_date = datetime.now()\n filename = 'quarterly_report_{}.xls'.format(rpt_date.strftime('%d%b%Y'))\n response = HttpResponse(content_type='application/vnd.ms-excel')\n response['Content-Disposition'] = 'attachment; filename=' + filename\n\n book = Workbook()\n self.get_excel_sheet(rpt_date, book)\n\n book.add_sheet('Sheet 2')\n book.save(response)\n\n return response",
"def interactive_utility_report_with_buttons(year: int):\n utility_category_id = Category().get_category_id_by_name('Utility')\n monthly_utility_total = Spending().get_specific_category_monthly_spending(year, [utility_category_id])\n monthly_utility_details = Spending().get_sub_category_monthly_spending_of_a_category(year, [utility_category_id])\n\n df_monthly_total = pd.DataFrame(monthly_utility_total, columns=['sum', 'mon'])\n df_monthly_details = pd.DataFrame(monthly_utility_details, columns=['sum', 'name', 'mon'])\n\n df_water = df_monthly_details[df_monthly_details['name'] == 'Water and Waste']\n df_electricity = df_monthly_details[df_monthly_details['name'] == 'Electricity']\n df_internet = df_monthly_details[df_monthly_details['name'] == 'Internet']\n df_gas = df_monthly_details[df_monthly_details['name'] == 'Nature Gas']\n df_mobile = df_monthly_details[df_monthly_details['name'] == 'Mobile Bill']\n\n fig = go.Figure()\n # Add the total amount into figure as bar chart\n fig.add_trace(\n go.Bar(\n x=df_monthly_total['mon'],\n y=df_monthly_total['sum'],\n name=f\"{year} utility\"\n )\n )\n # Add water\n fig.add_trace(\n go.Scatter(x=df_water['mon'], y=df_water['sum'], name='Water',\n visible=False, line=dict(color=\"#5DADE2\"))\n )\n # Add Electricity\n fig.add_trace(\n go.Scatter(x=df_electricity['mon'], y=df_electricity['sum'], name='Electricity',\n visible=False, line=dict(color=\"#F7DC6F\"))\n )\n # Add Internet\n fig.add_trace(\n go.Scatter(x=df_internet['mon'], y=df_internet['sum'], name='Internet',\n visible=False, line=dict(color=\"#82E0AA\"))\n )\n # Add Gas\n fig.add_trace(\n go.Scatter(x=df_gas['mon'], y=df_gas['sum'], name='Gas',\n visible=False, line=dict(color=\"#E74C3C\"))\n )\n # Add Mobile\n fig.add_trace(\n go.Scatter(x=df_mobile['mon'], y=df_mobile['sum'], name='Mobile',\n visible=False, line=dict(color=\"#BB8FCE\"))\n )\n\n fig.update_layout(\n updatemenus=[\n dict(\n type='buttons',\n direction='right',\n active=0,\n x=0.57,\n y=1.2,\n buttons=list([\n dict(\n label='Total Utility Spending',\n method='update',\n args=[\n {'visible': [True, False, False, False, False, False]},\n {'title': 'Total Utility Spending', \"annotations\": []}\n ]\n ),\n dict(\n label='Water',\n method='update',\n args=[\n {'visible': [True, True, False, False, False, False]},\n {'title': 'Total vs Water', \"annotations\": []}\n ]\n ),\n dict(\n label='Electricity',\n method='update',\n args=[\n {'visible': [True, False, True, False, False, False]},\n {'title': 'Total vs Electricity', \"annotations\": []}\n ]\n ),\n dict(\n label='Internet',\n method='update',\n args=[\n {'visible': [True, False, False, True, False, False]},\n {'title': 'Total vs Internet', \"annotations\": []}\n ]\n ),\n dict(\n label='Gas',\n method='update',\n args=[\n {'visible': [True, False, False, False, True, False]},\n {'title': 'Total vs Gas', \"annotations\": []}\n ]\n ),\n dict(\n label='Mobile',\n method='update',\n args=[\n {'visible': [True, False, False, False, False, True]},\n {'title': 'Total vs Mobile', \"annotations\": []}\n ]\n ),\n ])\n )\n ]\n )\n\n fig.update_layout(\n {\n 'width': 1200,\n 'height': 550\n },\n overwrite=True\n )\n\n aPlot = plotly.offline.plot(fig,\n config={\"displayModeBar\": False},\n show_link=False,\n include_plotlyjs=False,\n output_type='div')\n\n return aPlot",
"def export(self):\n\n rpt_date = datetime.now()\n filename = 'bushfire_by_cause_10yr_average_report_{}.xls'.format(rpt_date.strftime('%d%b%Y'))\n response = HttpResponse(content_type='application/vnd.ms-excel')\n response['Content-Disposition'] = 'attachment; filename=' + filename\n\n book = Workbook()\n self.get_excel_sheet(rpt_date, book)\n\n book.add_sheet('Sheet 2')\n book.save(response)\n\n return response",
"def generate_xlsx_report(self, workbook, data, parts_data):\n worksheet = workbook.add_worksheet(\"daily_parts_issuance_wizard\")\n worksheet.set_column(0, 0, 10)\n worksheet.set_column(1, 1, 15)\n worksheet.set_column(2, 2, 20)\n worksheet.set_column(3, 3, 15)\n worksheet.set_column(4, 4, 10)\n worksheet.set_column(5, 5, 12)\n worksheet.set_column(6, 6, 10)\n worksheet.set_column(7, 7, 10)\n worksheet.set_column(8, 8, 15)\n worksheet.set_column(9, 9, 10)\n worksheet.set_column(10, 10, 15)\n worksheet.set_column(11, 11, 10)\n worksheet.set_column(12, 12, 20)\n worksheet.set_column(13, 13, 5)\n worksheet.set_column(14, 14, 5)\n worksheet.set_column(15, 15, 5)\n\n bold = workbook.add_format(\n {\"bold\": True, \"font_name\": \"Arial\", \"font_size\": \"10\"}\n )\n tot = workbook.add_format(\n {\"border\": 2, \"bold\": True, \"font_name\": \"Arial\", \"font_size\": \"10\"}\n )\n border = workbook.add_format(\n {\"border\": 2, \"font_name\": \"Arial\", \"font_size\": \"10\"}\n )\n merge_format = workbook.add_format({\"border\": 2, \"align\": \"center\"})\n format1 = workbook.add_format(\n {\"border\": 2, \"bold\": True, \"font_name\": \"Arial\", \"font_size\": \"10\"}\n )\n format1.set_bg_color(\"gray\")\n date = workbook.add_format({\"num_format\": \"dd/mm/yy\"})\n\n worksheet.merge_range(\"C3:F3\", \"Merged Cells\", merge_format)\n\n row = 0\n row += 1\n row += 1\n worksheet.write(row, 2, \"DAILY PARTS ISSUANCE\", tot)\n row += 1\n worksheet.write(row, 2, \"Date From:\", tot)\n worksheet.write(row, 3, data[\"form\"][\"date_from\"] or \"\", border)\n worksheet.write(row, 4, \"To:\", tot)\n worksheet.write(row, 5, data[\"form\"][\"date_to\"] or \"\", border)\n row += 2\n worksheet.write(row, 0, \"CMF\", bold)\n row = 3\n\n for objec in self.get_work_order_detail(data[\"form\"]):\n row += 3\n worksheet.write(row, 0, \"DATE ISSUED :\", bold)\n worksheet.write(row, 1, objec.get(\"date\") or \"\", date)\n row += 2\n worksheet.write(row, 0, \"NO.\", format1)\n worksheet.write(row, 1, \"WO NO.\", format1)\n worksheet.write(row, 2, \"VEHICLE ID\", format1)\n worksheet.write(row, 3, \"PART NO.\", format1)\n worksheet.write(row, 4, \"PART NAME\", format1)\n worksheet.write(row, 5, \"VEHICLE MAKE\", format1)\n worksheet.write(row, 6, \"USED\", format1)\n worksheet.write(row, 7, \"UNIT TYPE\", format1)\n worksheet.write(row, 8, \"OLD PART RETURND\", format1)\n worksheet.write(row, 9, \"ISSUED BY\", format1)\n worksheet.write(row, 10, \"REMARKS\", format1)\n line_row = row + 1\n line_col = 0\n counter = 1\n for obj in objec.get(\"value\"):\n worksheet.write(line_row, line_col, counter, border)\n line_col += 1\n worksheet.write(line_row, line_col, obj.get(\"wo_name\") or \"\", border)\n line_col += 1\n worksheet.write(line_row, line_col, obj.get(\"vehicle_id\") or \"\", border)\n line_col += 1\n worksheet.write(line_row, line_col, obj.get(\"part_no\") or \"\", border)\n line_col += 1\n worksheet.write(line_row, line_col, obj.get(\"part_name\") or \"\", border)\n line_col += 1\n worksheet.write(\n line_row, line_col, obj.get(\"vehicle_make\") or \"\", border\n )\n line_col += 1\n worksheet.write(line_row, line_col, obj.get(\"qty\") or \"\", border)\n line_col += 1\n worksheet.write(line_row, line_col, obj.get(\"uom\") or \"\", border)\n line_col += 1\n worksheet.write(\n line_row, line_col, obj.get(\"old_part_return\") or \"\", border\n )\n line_col += 1\n worksheet.write(line_row, line_col, obj.get(\"issued_by\") or \"\", border)\n line_col += 1\n worksheet.write(line_row, line_col, obj.get(\"remarks\") or \"\", border)\n line_col = 0\n line_row += 1\n counter += 1\n worksheet.write(line_row, line_col, \"********\", border)",
"def outputExcelReport(self):\n # ++++++++++\n # init\n # ++++++++++\n wb = openpyxl.Workbook()\n wb.fonts = openpyxl.styles.Font(\n name = 'Courier New',\n size = 12\n )\n # create and delete sheets\n _ = wb.create_sheet(title='Cover',index=0)\n _ = wb.create_sheet(title='Results',index=1)\n _ = wb.create_sheet(title='AllItems',index=2)\n _ = wb.remove(wb.worksheets[-1])\n # ++++++++++\n # Sheet 1 <Cover>\n # ++++++++++\n ws = wb['Cover']\n # --- title and date\n timeNow = datetime.datetime.now().isoformat().split('T')[0]\n ws.merge_cells('A1:B1')\n ws.merge_cells('A3:B3')\n ws['A1'] = '納入チェック ダイアグ確認結果'\n ws['A3'] = '作成日:{}'.format(timeNow)\n # --- sample info\n ws['A5'] = '<サンプル情報>'\n self._write2excel(ws, self._sample_info, 6, 1)\n for r in range(6,8):\n for c in range(1,3):\n ws.cell(r,c).border = BORDER\n # --- checker info\n ws['A9'] = '<チェッカ情報>'\n self._write2excel(ws, self._checker_info, 10, 1)\n for r in range(10,13):\n for c in range(1,3):\n ws.cell(r,c).border = BORDER\n # --- dmm info\n ws['A14'] = '<DMM情報>'\n self._write2excel(ws, self._dmm_info, 15, 1)\n for r in range(15,18):\n for c in range(1,3):\n ws.cell(r,c).border = BORDER\n # --- resistor info\n ws['A19'] = '<抵抗器情報>'\n self._write2excel(ws, self._resistor_info, 20, 1)\n for r in range(20,23):\n for c in range(1,3):\n ws.cell(r,c).border = BORDER\n # --- set styles\n for row in ws:\n for cell in row:\n ws[cell.coordinate].font = STYLE_FONT_PASS\n # --- set column width\n for col in ws.columns:\n # init\n max_length = 0\n column = openpyxl.utils.get_column_letter(col[0].column)\n # loop\n for cell in col:\n if len(str(cell.value)) > max_length:\n max_length = len(str(cell.value)) * (STYLE_FONT_PASS.size+1)/11\n # output\n adjusted_width = (max_length + 2) * 1.2\n ws.column_dimensions[column].width = adjusted_width\n # ++++++++++\n # Sheet 2 <Results>\n # ++++++++++\n ws = wb['Results']\n # --- output all scenario\n ws['A1'] = '<結果一覧>'\n ws.merge_cells('A1:B1')\n self._write2excel(ws, self._result_info, 2, 1)\n for r in range(2,ws.max_row+1):\n for c in range(1,ws.max_column+1):\n ws.cell(r,c).border = BORDER\n # --- set styles\n for row in ws:\n for cell in row:\n # font color\n ws[cell.coordinate].font = STYLE_FONT_PASS\n cell.alignment = openpyxl.styles.Alignment(vertical='top')\n if cell.column==6:\n if ws[cell.coordinate].value =='FAIL':\n ws.cell(cell.row,1).font = STYLE_FONT_FAIL\n ws.cell(cell.row,2).font = STYLE_FONT_FAIL\n ws.cell(cell.row,3).font = STYLE_FONT_FAIL\n ws.cell(cell.row,4).font = STYLE_FONT_FAIL\n ws.cell(cell.row,5).font = STYLE_FONT_FAIL\n ws.cell(cell.row,6).font = STYLE_FONT_FAIL\n # cell color by header/even row\n if cell.row==2:\n ws[cell.coordinate].fill = STYLE_FILL_HEADER\n elif cell.row%2==0:\n ws[cell.coordinate].fill = STYLE_FILL_EVEN_ROW\n # indent in cell\n if '\\n' in str(cell.value):\n cell.alignment = openpyxl.styles.Alignment(wrapText=True)\n # --- set column width\n for col in ws.columns:\n # init\n max_length = 0\n column = openpyxl.utils.get_column_letter(col[0].column)\n # loop\n for cell in col:\n if len(str(cell.value)) > max_length:\n max_length = len(str(cell.value)) * (STYLE_FONT_PASS.size+1)/11\n # output\n adjusted_width = (max_length + 2) * 1.2\n ws.column_dimensions[column].width = adjusted_width\n # ++++++++++\n # Sheet 3 <AllItems>\n # ++++++++++\n ws = wb['AllItems']\n # --- output all scenario\n ws['A1'] = '<出力一覧>'\n ws.merge_cells('A1:B1')\n self._write2excel(ws, self._scenario_info, 2, 1)\n for r in range(2,ws.max_row+1):\n for c in range(1,ws.max_column+1):\n ws.cell(r,c).border = BORDER\n # --- set styles\n for row in ws:\n for cell in row:\n # font color\n ws[cell.coordinate].font = STYLE_FONT_PASS\n cell.alignment = openpyxl.styles.Alignment(vertical='top')\n if cell.column==5:\n if ws[cell.coordinate].value =='FAIL':\n ws.cell(cell.row,1).font = STYLE_FONT_FAIL\n ws.cell(cell.row,2).font = STYLE_FONT_FAIL\n ws.cell(cell.row,3).font = STYLE_FONT_FAIL\n ws.cell(cell.row,4).font = STYLE_FONT_FAIL\n ws.cell(cell.row,5).font = STYLE_FONT_FAIL\n # cell color by header/even row\n if cell.row==2:\n ws[cell.coordinate].fill = STYLE_FILL_HEADER\n elif cell.row%2==0:\n ws[cell.coordinate].fill = STYLE_FILL_EVEN_ROW\n # indent in cell\n if '\\n' in str(cell.value):\n cell.alignment = openpyxl.styles.Alignment(wrapText=True)\n # --- set column width\n for col in ws.columns:\n # init\n max_length = 0\n column = openpyxl.utils.get_column_letter(col[0].column)\n # loop\n for cell in col:\n if len(str(cell.value)) > max_length:\n max_length = len(str(cell.value)) * (STYLE_FONT_PASS.size+1)/11\n # output\n adjusted_width = (max_length + 2) * 1.2\n ws.column_dimensions[column].width = adjusted_width\n # ++++++++++\n # save book\n # ++++++++++\n wb.save(self._filename)",
"def export(self):\n\n rpt_date = datetime.now()\n filename = 'bushfire_by_tenure_report_{}.xls'.format(rpt_date.strftime('%d%b%Y'))\n response = HttpResponse(content_type='application/vnd.ms-excel')\n response['Content-Disposition'] = 'attachment; filename=' + filename\n\n book = Workbook()\n self.get_excel_sheet(rpt_date, book)\n\n book.add_sheet('Sheet 2')\n book.save(response)\n\n return response",
"def export_to_excel(self, worksheet, row_start, col_start, queryset, date_time=timezone.now()):\n\t\tif queryset:\n\t\t\t[row_write, col_write] = self.excel_write_header_and_format(worksheet, row_start, col_start)\n\t\t\tfor q in queryset:\n\t\t\t\t# object_excel_write function---date_time uyiin history objectiig excel -ruu horvuulne\n\t\t\t\t[row_write, col_write] = q.object_excel_write(worksheet, row_write, col_write, date_time=date_time)\n\t\telse:\n\t\t\tworksheet.write_string(row_start, col_start, u'Мэдээлэл байхгүй')"
] | [
"0.8483195",
"0.8117133",
"0.70030737",
"0.6347023",
"0.6315913",
"0.6192281",
"0.6192281",
"0.61730456",
"0.5921316",
"0.56573117",
"0.5592177",
"0.5559688",
"0.55560386",
"0.555434",
"0.5525359",
"0.54903907",
"0.5460971",
"0.54303926",
"0.5391888",
"0.5359006",
"0.5351501",
"0.53382444",
"0.5330574",
"0.53187186",
"0.53035533",
"0.52526504",
"0.524955",
"0.52288765",
"0.5227605",
"0.5226527"
] | 0.8705611 | 0 |
Implementing click vendor price list detail dial digits grid export to excel button functionality | def click_vendor_price_list_detail_dial_digits_grid_export_to_excel_button(self):
self.click_grid_export_to_excel_button(self.vendor_price_list_detail_dial_digits_grid_div_id) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def click_vendor_price_list_detail_rates_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_rates_grid_div_id)",
"def click_vendor_price_list_detail_reference_rates_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_reference_rates_grid_div_id)",
"def click_buy_and_sell_management_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.buy_and_sell_management_grid_div_id)",
"def click_export_to_excel_button(self):\n self.click_element(self.export_to_excel_button_locator, True)",
"def click_export_to_excel_button(self):\n self.click_element(self.export_to_excel_button_locator, True)",
"def click_re_analysis_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.re_analysis_grid_div_id)",
"def export(self):\r\n self.prices[\"returns\"] = self.returns\r\n self.prices.columns = ['prices', 'returns']\r\n self.prices = self.prices.dropna()\r\n \r\n name = QFileDialog.getSaveFileName(None, 'Save File', filter='*.xlsx')\r\n if(name[0] == ''):\r\n # if name empty\r\n pass\r\n else:\r\n self.prices.to_excel(name[0])",
"def export_data(self):\r\n stocks = {}\r\n headings = ['Security', 'Price', 'Change', 'Change %', '52 Week', 'Market Cap']\r\n\r\n for data in range(6):\r\n for items in self.root.main.treeview.get_children():\r\n values = self.root.main.treeview.item(items, 'values')\r\n if headings[data] not in stocks:\r\n stocks[headings[data]] = []\r\n stocks.get(headings[data]).append(values[data])\r\n\r\n df = pd.DataFrame(stocks, columns=headings)\r\n path = tk.filedialog.asksaveasfilename(title='Save File As...',\r\n filetypes=((\"CComma-separated values (.csv)\", \"*.csv\"), (\"Text Document(.txt)\", \"*.txt\")))\r\n\r\n if not path:\r\n return\r\n else:\r\n df.to_excel(path, index=False, header=True)",
"def click_country_groups_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.country_groups_grid_div_id)",
"def export_data(self):\r\n if len(app.entry6.get()) != 0:\r\n\r\n if app.var.get() == 'xls':\r\n\r\n wb = Workbook()\r\n sheet = wb.add_sheet('Sheet1')\r\n self.columns = ['id', 'Name', 'Section', 'Dept.', 'Gpa', 'MP1', 'MP2', 'MP3', 'MT', 'FINAL']\r\n style = xlwt.easyxf('font: bold 1')\r\n for col in range(10):\r\n sheet.write(0, col, self.columns[col], style)\r\n index=0\r\n for row in range(1,162):\r\n sheet.write(row, 1, open_data.sort_list[index])\r\n index += 1\r\n index1 = -1\r\n for row in range(1,162):\r\n index1 += 1\r\n index2=0\r\n for col in range(10):\r\n if col == 1 or index2 == 1:\r\n index2 += 1\r\n continue\r\n if index2 == 0:\r\n sheet.write(row, col, int(open_data.student[open_data.sort_list[index1]][index2]))\r\n index2 += 1\r\n continue\r\n sheet.write(row, col, open_data.student[open_data.sort_list[index1]][index2])\r\n index2 += 1\r\n file_name=app.entry6.get()\r\n if '.xls' not in file_name:\r\n wb.save(file_name+'.xls')\r\n else:\r\n wb.save(file_name)\r\n\r\n elif app.var.get() == 'txt':\r\n\r\n file_name = app.entry6.get()\r\n if '.txt' not in file_name:\r\n file_name = file_name + '.txt'\r\n file = open(file_name, 'w')\r\n index2 = 0\r\n for key in open_data.student:\r\n for index in range(10):\r\n if index == 0:\r\n file.write(str(int(open_data.student[key][index])))\r\n file.write(', ')\r\n continue\r\n if index == 1:\r\n try:\r\n self.split_names = open_data.sort_list[index2].split(' ')\r\n file.write(self.split_names[0])\r\n file.write(', ')\r\n file.write(self.split_names[1])\r\n file.write(', ')\r\n index2 += 1\r\n except UnicodeEncodeError:\r\n index2 += 1\r\n pass\r\n continue\r\n if index >= 5 and index <= 9:\r\n if open_data.student[key][index] != '':\r\n file.write(str(int(open_data.student[key][index])))\r\n file.write(', ')\r\n else:\r\n file.write('\\n')\r\n break\r\n if index == 9:\r\n file.write('\\n')\r\n continue\r\n try:\r\n file.write(str(open_data.student[key][index]))\r\n file.write(', ')\r\n except UnicodeEncodeError:\r\n pass\r\n file.close()\r\n\r\n\r\n\r\n elif app.var.get() == 'csv':\r\n app.info.configure(text=\"INFO: Type not Supported\")\r\n # The program does not support saving in 'csv' type. If the user selects 'csv' file type, 'Info' Label\r\n # shows the message: 'INFO: Type not Supported'.\r\n\r\n else:\r\n app.info.configure(text='INFO: Type not chosen!')\r\n # Also, If the user presses on 'Export Data' button, with a file name provided, but without choosing a\r\n # file type, 'Info' Label shows the message: 'INFO: Type not chosen'.\r\n\r\n else:\r\n app.info.configure(text=\"INFO: Please provide the name of the file.\")\r\n # Also, if the user presses 'Export Data' button without giving a file name, 'Info' Label shows the message:\r\n # 'INFO: Please provide the name of the file.'\r",
"def on_show_eqp_datasheet_export(self):\n from EqpDatasheetExportDialog import QEqpDatasheetExportDialog\n\n dlg = QEqpDatasheetExportDialog(self)\n dlg.exec_()",
"def exporter():\n Session = modules.db_connect.connect()\n session = Session()\n report = xlsxwriter.Workbook('perception_report.xlsx')\n top_row_format = report.add_format({'bold': True})\n top_row_format.set_border(style=1)\n top_row_format.set_bg_color('#B8B8B8')\n\n \"\"\"Black row format at the top of each host detailed info\"\"\"\n black_row_format = report.add_format()\n black_row_format.set_border(style=1)\n black_row_format.set_bg_color('#000000')\n\n \"\"\"Detailed host row format\"\"\"\n host_row_format = report.add_format()\n host_row_format.set_border(style=1)\n host_row_format.set_bg_color('#CCCCCC')\n\n \"\"\"Format for text in row with host info\"\"\"\n host_row_wrapped_format = report.add_format()\n host_row_wrapped_format.set_border(style=1)\n host_row_wrapped_format.set_bg_color('#CCCCCC')\n host_row_wrapped_format.set_text_wrap('vjustify')\n\n \"\"\"Format description row in NSE output\"\"\"\n host_nse_output_top_format = report.add_format({'bold': True})\n host_nse_output_top_format.set_border(style=1)\n host_nse_output_top_format.set_bg_color('#B8B8B8')\n\n \"\"\"Format test row in NSE output\"\"\"\n host_nse_output_format = report.add_format()\n host_nse_output_format.set_border(style=1)\n host_nse_output_format.set_bg_color('#CCCCCC')\n\n \"\"\"Build the host_overview_worksheet\"\"\"\n host_overview_worksheet = report.add_worksheet()\n\n \"\"\"Build the host_detail_worksheet\"\"\"\n host_detail_worksheet = report.add_worksheet()\n\n \"\"\"Size up the overview worksheet\"\"\"\n host_overview_worksheet.set_column('B:B', 24)\n host_overview_worksheet.set_column('C:C', 15)\n host_overview_worksheet.set_column('D:D', 15)\n host_overview_worksheet.set_column('E:E', 15)\n host_overview_worksheet.set_column('F:F', 15)\n host_overview_worksheet.set_column('G:G', 20)\n host_overview_worksheet.set_column('H:H', 15)\n\n \"\"\"Size up the detail worksheet\"\"\"\n host_detail_worksheet.set_column('B:B', 38)\n host_detail_worksheet.set_column('C:C', 16)\n host_detail_worksheet.set_column('D:D', 16)\n host_detail_worksheet.set_column('E:E', 28)\n host_detail_worksheet.set_column('F:F', 15)\n host_detail_worksheet.set_column('H:G', 20)\n host_detail_worksheet.set_column('H:H', 25)\n host_detail_worksheet.set_column('I:I', 10)\n\n \"\"\"Description row for host overview\"\"\"\n host_overview_worksheet.write('B2', 'Hostname', top_row_format)\n host_overview_worksheet.write('C2', 'IP v4 Address', top_row_format)\n host_overview_worksheet.write('D2', 'IP v6 Address', top_row_format)\n host_overview_worksheet.write('E2', 'MAC Address', top_row_format)\n host_overview_worksheet.write('F2', 'MAC Vendor', top_row_format)\n host_overview_worksheet.write('G2', 'Operating System', top_row_format)\n host_overview_worksheet.write('H2', 'Host Type', top_row_format)\n\n \"\"\"Query the database for the hosts\"\"\"\n inventory_hosts = session.query(InventoryHost).all()\n\n \"\"\"Build overview worksheet\"\"\"\n overview_row = 2\n overview_col = 1\n for host in inventory_hosts:\n host_overview_worksheet.write(overview_row, overview_col, host.host_name, host_row_format)\n host_overview_worksheet.write(overview_row, overview_col + 1, host.ipv4_addr, host_row_format)\n host_overview_worksheet.write(overview_row, overview_col + 2, host.ipv6_addr, host_row_format)\n host_overview_worksheet.write(overview_row, overview_col + 3, host.macaddr, host_row_format)\n host_overview_worksheet.write(overview_row, overview_col + 4, host.mac_vendor.name, host_row_format)\n host_overview_worksheet.write(overview_row, overview_col + 5, host.product.name, host_row_format)\n host_overview_worksheet.write(overview_row, overview_col + 6, host.host_type, host_row_format)\n overview_row += 1\n\n \"\"\"Build detailed worksheet\"\"\"\n detail_row = 2\n detail_col = 1\n for host in inventory_hosts:\n\n \"\"\"Add the black row to start host detail info\"\"\"\n host_detail_worksheet.set_row(detail_row, 5)\n host_detail_worksheet.write(detail_row, detail_col, '', black_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 1, '', black_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 2, '', black_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 3, '', black_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 4, '', black_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 5, '', black_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 6, '', black_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 7, '', black_row_format)\n detail_row += 1\n\n \"\"\"Add row detail info\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, 'Hostname', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 1, 'IP v4 Address', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 2, 'IP v6 Address', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 3, 'MAC Address', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 4, 'MAC Vendor', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 5, 'Host Type', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 6, 'Operating System', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 7, 'Version', top_row_format)\n detail_row += 1\n\n \"\"\"Add host info\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, host.host_name, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 1, host.ipv4_addr, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 2, host.ipv6_addr, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 3, host.macaddr, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 4, host.mac_vendor.name, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 5, host.host_type, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 6, host.product.name, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 7, host.product.version, host_row_format)\n detail_row += 2\n\n \"\"\"If there is no host nse script, just say so.\"\"\"\n if not host.host_nse_scripts:\n host_detail_worksheet.write(detail_row, detail_col, 'Host NSE Script Name', top_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row, detail_col + 7,\n 'Output', top_row_format)\n detail_row += 1\n host_detail_worksheet.write(detail_row, detail_col, 'No Script Name', host_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row, detail_col + 7,\n 'No Script Output', host_row_wrapped_format)\n detail_row += 2\n else:\n\n \"\"\"Add the row detail\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, 'Host NSE Script Name', top_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row, detail_col + 7,\n 'Output', top_row_format)\n detail_row += 1\n\n \"\"\"Grab all the scripts\"\"\"\n for host_scripts in host.host_nse_scripts:\n\n \"\"\"Count output the lines so we know what to merge\"\"\"\n lines = host_scripts.output.count('\\n')\n\n if lines > 0:\n\n \"\"\"Merge the rows and write the name and output\"\"\"\n host_detail_worksheet.merge_range(detail_row, detail_col, detail_row + lines, detail_col,\n host_scripts.name, host_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row + lines, detail_col + 7,\n host_scripts.output, host_row_wrapped_format)\n detail_row += 1\n else:\n\n \"\"\"Single line output\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, host_scripts.name, host_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row + lines, detail_col + 7,\n host_scripts.output, host_row_wrapped_format)\n detail_row += 1\n\n if not host.inventory_svcs:\n\n \"\"\"If there are no services for this host tell me\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, 'Protocol', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 1, 'Port', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 2, 'Name', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 3, 'Svc Product', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 4, 'Extra Info', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 5, 'Product', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 6, 'Version', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 7, 'Update', top_row_format)\n detail_row += 1\n\n host_detail_worksheet.write(detail_row, detail_col, 'no services', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 1, 'no services', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 2, 'no services', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 3, 'no services', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 4, 'no services', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 5, 'no services', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 6, 'no services', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 7, 'no services', host_row_format)\n detail_row += 1\n\n else:\n for ports in host.inventory_svcs:\n\n \"\"\"Host services row info\"\"\"\n detail_row += 1\n host_detail_worksheet.write(detail_row, detail_col, 'Protocol', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 1, 'Port', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 2, 'Name', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 3, 'Svc Product', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 4, 'Extra Info', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 5, 'Product', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 6, 'Version', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 7, 'Update', top_row_format)\n detail_row += 1\n\n \"\"\"Write the service info\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, ports.protocol, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 1, ports.portid, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 2, ports.name, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 3, ports.svc_product, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 4, ports.extra_info, host_row_format)\n try:\n\n \"\"\"There may not be product info, but try.\"\"\"\n host_detail_worksheet.write(detail_row, detail_col + 5, ports.product.name, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 6, ports.product.version, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 7, ports.product.product_update,\n host_row_format)\n detail_row += 1\n except AttributeError:\n\n \"\"\"Just write unknown if there is no product info\"\"\"\n host_detail_worksheet.write(detail_row, detail_col + 5, 'unknown', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 6, 'unknown', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 7, 'unknown', host_row_format)\n detail_row += 1\n\n if not ports.svc_nse_scripts:\n\n \"\"\"If there is no NSE script info just say so.\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, 'Svc NSE Script Name', top_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row, detail_col + 7,\n 'Output', top_row_format)\n detail_row += 1\n host_detail_worksheet.write(detail_row, detail_col, 'No Script Name', host_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row, detail_col + 7,\n 'No Script Output', host_row_wrapped_format)\n detail_row += 2\n\n else:\n\n \"\"\"Service Script row detail\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, 'Svc NSE Script Name', top_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row, detail_col + 7,\n 'Output', top_row_format)\n detail_row += 1\n\n \"\"\"Grab all the scripts\"\"\"\n for nse_scripts in ports.svc_nse_scripts:\n\n \"\"\"Count the lines in the output for merging\"\"\"\n lines = nse_scripts.output.count('\\n')\n\n if lines > 0:\n\n \"\"\"Merge the rows and write the name and output\"\"\"\n host_detail_worksheet.merge_range(detail_row, detail_col, detail_row + lines, detail_col,\n nse_scripts.name, host_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row + lines, detail_col + 7,\n nse_scripts.output, host_row_wrapped_format)\n detail_row += 1\n else:\n\n \"\"\"Single line output\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, nse_scripts.name, host_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row + lines,\n detail_col + 7, nse_scripts.output,\n host_row_wrapped_format)\n detail_row += 1\n\n detail_row += 1\n report.close()\n session.close()",
"def print_xlsx(self):\n if self.date_from and self.date_to:\n if self.date_from > self.date_to:\n raise ValidationError(\"Date From must be less than Date To\")\n\n # active_record = self._context['id']\n # record = self.env['room.accommodation'].browse(active_record)\n data = {\n 'date_from': self.date_from,\n 'date_to': self.date_to,\n 'guest_id': self.guest_id.id,\n 'model_id': self.id,\n 'check_out': self.check_out,\n 'date_today': fields.Datetime.now()\n }\n\n print(\"XLSX Wizard data : \", data)\n\n return {\n 'type': 'ir.actions.report',\n 'data': {\n 'model': 'accommodation.reporting',\n 'options': json.dumps(data, default=date_utils.json_default),\n 'output_format': 'xlsx',\n 'report_name': 'Accommodation Report'\n },\n 'report_type': 'xlsx'\n }",
"def export_html(self, model_view='gapd'):\n '''\n <?xml version=\"1.0\" ?>\n <ROWSET>\n <ROW>\n <SURVEYID>921</SURVEYID>\n <SURVEYNAME>Goomalling, WA, 1996</SURVEYNAME>\n <STATE>WA</STATE>\n <OPERATOR>Stockdale Prospecting Ltd.</OPERATOR>\n <CONTRACTOR>Kevron Geophysics Pty Ltd</CONTRACTOR>\n <PROCESSOR>Kevron Geophysics Pty Ltd</PROCESSOR>\n <SURVEY_TYPE>Detailed</SURVEY_TYPE>\n <DATATYPES>MAG,RAL,ELE</DATATYPES>\n <VESSEL>Aero Commander</VESSEL>\n <VESSEL_TYPE>Plane</VESSEL_TYPE>\n <RELEASEDATE/>\n <ONSHORE_OFFSHORE>Onshore</ONSHORE_OFFSHORE>\n <STARTDATE>05-DEC-96</STARTDATE>\n <ENDDATE>22-DEC-96</ENDDATE>\n <WLONG>116.366662</WLONG>\n <ELONG>117.749996</ELONG>\n <SLAT>-31.483336</SLAT>\n <NLAT>-30.566668</NLAT>\n <LINE_KM>35665</LINE_KM>\n <TOTAL_KM/>\n <LINE_SPACING>250</LINE_SPACING>\n <LINE_DIRECTION>180</LINE_DIRECTION>\n <TIE_SPACING/>\n <SQUARE_KM/>\n <CRYSTAL_VOLUME>33.6</CRYSTAL_VOLUME>\n <UP_CRYSTAL_VOLUME>4.2</UP_CRYSTAL_VOLUME>\n <DIGITAL_DATA>MAG,RAL,ELE</DIGITAL_DATA>\n <GEODETIC_DATUM>WGS84</GEODETIC_DATUM>\n <ASL/>\n <AGL>60</AGL>\n <MAG_INSTRUMENT>Scintrex CS2</MAG_INSTRUMENT>\n <RAD_INSTRUMENT>Exploranium GR820</RAD_INSTRUMENT>\n </ROW>\n </ROWSET>\n '''\n if model_view == 'prov':\n prov_turtle = self.export_rdf('prov', 'text/turtle')\n g = Graph().parse(data=prov_turtle, format='turtle')\n\n view_html = render_template(\n 'survey_prov.html',\n visjs=self._make_vsjs(g),\n prov_turtle=prov_turtle,\n )\n else: # model_view == 'gapd':\n view_html = render_template(\n 'survey_gapd.html',\n survey_no=self.survey_no,\n survey_name=self.survey_name,\n state=self.state,\n operator=self.operator,\n contractor=self.contractor,\n processor=self.processor,\n survey_type=self.survey_type,\n data_types=self.data_types,\n vessel=self.vessel,\n vessel_type=self.vessel_type,\n release_date=self.release_date,\n onshore_offshore=self.onshore_offshore,\n start_date=self.start_date,\n end_date=self.end_date,\n line_km=self.line_km,\n total_km=self.total_km,\n line_spacing=self.line_spacing,\n line_direction=self.line_direction,\n tie_spacing=self.tie_spacing,\n area=self.square_km,\n crystal_volume=self.crystal_volume,\n up_crystal_volume=self.up_crystal_volume,\n digital_data=self.digital_data,\n geodetic_datum=self.geodetic_datum,\n asl=self.asl,\n agl=self.agl,\n mag_instrument=self.mag_instrument,\n rad_instrument=self.rad_instrument,\n wkt_polygon=self.wkt_polygon\n )\n\n return render_template(\n 'page_survey.html',\n view_html=view_html,\n survey_no=self.survey_no,\n end_date=self.end_date,\n survey_type=self.survey_type,\n date_now=datetime.now().strftime('%Y-%m-%d'),\n centroid_lat=self.centroid_lat,\n centroid_lon=self.centroid_lon,\n n_lat=self.n_lat,\n s_lat=self.s_lat,\n w_long=self.w_long,\n e_long=self.e_long,\n gm_key=config.GOOGLE_MAPS_API_KEY\n )",
"def on_export_button(self, event):\n wildcard = \"Filtered _iso_res_filt.csv file (*_iso_res_filt.csv)|*_iso_res_filt.csv|\"\\\n \"All files (*.*)|*.*|\"\n defFile = self.datafile[:-4]+'_filt.csv'\n dlg = wx.FileDialog(\n self, message=\"Save file as ...\", \n defaultDir=self.currentDirectory, \n defaultFile=defFile, wildcard=wildcard, style=wx.SAVE\n )\n if dlg.ShowModal() == wx.ID_OK:\n path = dlg.GetPath()\n self.recalcAll()\n self.redrawAll()\n self.dataFrame['priorFilter'] = self.dataFrame['allFPass']\n self.dataFrame.to_csv(path, index=False)\n summaryCSVPath = path.split('.')[0] + '_median_[' + ''.join(self.calcNum) + ']_[' + ''.join(self.calcDen) + '].csv'\n self.writeSummaryCSV(summaryCSVPath)\n \n dlg.Destroy()",
"def export_16(text_col, processed_col, input_filepath,\n output_filepath, country):\n processed_list_8 = process_text(text_col, processed_col, input_filepath)\n processed_list_16 = []\n for name in processed_list_8:\n name, _ = split_half(name)\n processed_list_16.append(name)\n processed_list_16.append(_)\n\n for i in range(len(processed_list_16)):\n processed_list_16[i].to_excel(output_filepath +\n country + '_processed_' +\n str(i+1) + '.xlsx',\n index=False)\n return True",
"def export(exp_data: ExportData) -> None:\n pass",
"def select_vendor_price_list_detail_dial_digits_tab(self):\n self.click_element(self.vendor_price_list_details_dial_digits_tab_locator, True)",
"def export(self,**kwargs):\n \n # import pdb;pdb.set_trace()\n \n # provide for case where recs are set extenally\n if not self.recs:\n self.select_recs(**kwargs)\n if self.recs:\n if self.export_file_name:\n filename = self.export_file_name\n else:\n filename = \"{table_name}_report_{datetime}.csv\".format(\n table_name = self.table.display_name,\n datetime = date_to_string(local_datetime_now(),'iso_datetime'),\n ).replace(' ','_').lower()\n \n if not self.export_fields:\n # include all fields by default\n self.export_fields = self._set_default_list_fields(include_all=True).copy()\n\n self.set_list_fields(self.export_fields)\n \n \n if self.export_template:\n result = render_template(self.export_template, data=self)\n else:\n # add a descriptive title row\n if self.export_title:\n result = self.export_title.strip() + '\\n'\n else:\n result = \"Export of table {} as of {}\\n\".format(self.table.table_name,excel_date_and_time_string(local_datetime_now()))\n \n result += ','.join([x['label'] for x in self.export_fields]) + '\\n'\n for rec in self.recs:\n rec_row = []\n for field in self.export_fields:\n data = rec.__getattribute__(field['name'])\n if field['type'].upper() == \"DATE\":\n data = local_date_string(data)\n elif field['type'].upper() == \"DATETIME\":\n data = excel_date_and_time_string(data)\n else:\n # just text\n data = str(data).strip()\n \n # replace double quotes with double-double quotes\n data = data.replace('\"','\"\"') #double up on double quotes\n \n if \",\" in data:\n # if any commas, wrap in quotes\n data = '\"' + data + '\"'\n \n #replace returns\n data = data.replace('\\r\\n',' -crnl- ')\n data = data.replace('\\n',' -nl- ')\n data = data.replace('\\r',' -rtn- ')\n\n rec_row.append(data)\n \n result += ','.join([str(x) for x in rec_row]) + '\\n'\n \n return DataStreamer(result,filename,'text/csv').send()\n \n self.result_text = \"No records selected\"\n self.success = False\n \n flash(self.result_text)\n return self.list(**kwargs)",
"def onGrid(self, event):\n dlg = wx.FileDialog(self, wildcard=\"*.csv\", style=wx.SAVE)\n if dlg.ShowModal() == wx.ID_OK:\n path = dlg.GetPath()\n self.model.exportToGrid(path)\n dlg.Destroy()",
"def ceph_button():\n\n CEToolkit.band_wraps_button = 0\n parent.ui.textEdit_design_image.clear()\n parent.ui.label_design_image.setPixmap(QtGui.QPixmap(\"\"))\n path = \"./media/docs/design/ceph_guide.xlsx\"\n os.system(f'start {os.path.realpath(path)}')",
"def on_Output_CWA_excel_Now_button_clicked(self):\n # self.lineEdit.setText(result['Cname'])\n # self.lineEdit_2.setText(result['Sclass'])\n # self.lineEdit_3.setText(result['ClassTime'])\n # self.lineEdit_4.setText(result['Tno'])\n # self.lineEdit_6.setText(result['Date'])\n Result = CWA_Message_Query(self.lineEdit_2.text(),self.lineEdit_3.text(), self.lineEdit_6.text(), self.lineEdit.text())\n Create_Cwa_excel_table(self.lineEdit_2.text(),self.lineEdit.text(),Result)",
"def __exportMenuTriggered(self, act):\n aw = self.activeWindow()\n if aw:\n exporterFormat = act.data()\n aw.exportFile(exporterFormat)",
"def export_order_status_button(cls, store_views):\n pass",
"def setExportWhat(self, buttonNum):\n ExportDialog.exportWhat = buttonNum\n self.initializePage()",
"def generate_xlsx_report(self, workbook, data, parts_data):\n worksheet = workbook.add_worksheet(\"daily_parts_issuance_wizard\")\n worksheet.set_column(0, 0, 10)\n worksheet.set_column(1, 1, 15)\n worksheet.set_column(2, 2, 20)\n worksheet.set_column(3, 3, 15)\n worksheet.set_column(4, 4, 10)\n worksheet.set_column(5, 5, 12)\n worksheet.set_column(6, 6, 10)\n worksheet.set_column(7, 7, 10)\n worksheet.set_column(8, 8, 15)\n worksheet.set_column(9, 9, 10)\n worksheet.set_column(10, 10, 15)\n worksheet.set_column(11, 11, 10)\n worksheet.set_column(12, 12, 20)\n worksheet.set_column(13, 13, 5)\n worksheet.set_column(14, 14, 5)\n worksheet.set_column(15, 15, 5)\n\n bold = workbook.add_format(\n {\"bold\": True, \"font_name\": \"Arial\", \"font_size\": \"10\"}\n )\n tot = workbook.add_format(\n {\"border\": 2, \"bold\": True, \"font_name\": \"Arial\", \"font_size\": \"10\"}\n )\n border = workbook.add_format(\n {\"border\": 2, \"font_name\": \"Arial\", \"font_size\": \"10\"}\n )\n merge_format = workbook.add_format({\"border\": 2, \"align\": \"center\"})\n format1 = workbook.add_format(\n {\"border\": 2, \"bold\": True, \"font_name\": \"Arial\", \"font_size\": \"10\"}\n )\n format1.set_bg_color(\"gray\")\n date = workbook.add_format({\"num_format\": \"dd/mm/yy\"})\n\n worksheet.merge_range(\"C3:F3\", \"Merged Cells\", merge_format)\n\n row = 0\n row += 1\n row += 1\n worksheet.write(row, 2, \"DAILY PARTS ISSUANCE\", tot)\n row += 1\n worksheet.write(row, 2, \"Date From:\", tot)\n worksheet.write(row, 3, data[\"form\"][\"date_from\"] or \"\", border)\n worksheet.write(row, 4, \"To:\", tot)\n worksheet.write(row, 5, data[\"form\"][\"date_to\"] or \"\", border)\n row += 2\n worksheet.write(row, 0, \"CMF\", bold)\n row = 3\n\n for objec in self.get_work_order_detail(data[\"form\"]):\n row += 3\n worksheet.write(row, 0, \"DATE ISSUED :\", bold)\n worksheet.write(row, 1, objec.get(\"date\") or \"\", date)\n row += 2\n worksheet.write(row, 0, \"NO.\", format1)\n worksheet.write(row, 1, \"WO NO.\", format1)\n worksheet.write(row, 2, \"VEHICLE ID\", format1)\n worksheet.write(row, 3, \"PART NO.\", format1)\n worksheet.write(row, 4, \"PART NAME\", format1)\n worksheet.write(row, 5, \"VEHICLE MAKE\", format1)\n worksheet.write(row, 6, \"USED\", format1)\n worksheet.write(row, 7, \"UNIT TYPE\", format1)\n worksheet.write(row, 8, \"OLD PART RETURND\", format1)\n worksheet.write(row, 9, \"ISSUED BY\", format1)\n worksheet.write(row, 10, \"REMARKS\", format1)\n line_row = row + 1\n line_col = 0\n counter = 1\n for obj in objec.get(\"value\"):\n worksheet.write(line_row, line_col, counter, border)\n line_col += 1\n worksheet.write(line_row, line_col, obj.get(\"wo_name\") or \"\", border)\n line_col += 1\n worksheet.write(line_row, line_col, obj.get(\"vehicle_id\") or \"\", border)\n line_col += 1\n worksheet.write(line_row, line_col, obj.get(\"part_no\") or \"\", border)\n line_col += 1\n worksheet.write(line_row, line_col, obj.get(\"part_name\") or \"\", border)\n line_col += 1\n worksheet.write(\n line_row, line_col, obj.get(\"vehicle_make\") or \"\", border\n )\n line_col += 1\n worksheet.write(line_row, line_col, obj.get(\"qty\") or \"\", border)\n line_col += 1\n worksheet.write(line_row, line_col, obj.get(\"uom\") or \"\", border)\n line_col += 1\n worksheet.write(\n line_row, line_col, obj.get(\"old_part_return\") or \"\", border\n )\n line_col += 1\n worksheet.write(line_row, line_col, obj.get(\"issued_by\") or \"\", border)\n line_col += 1\n worksheet.write(line_row, line_col, obj.get(\"remarks\") or \"\", border)\n line_col = 0\n line_row += 1\n counter += 1\n worksheet.write(line_row, line_col, \"********\", border)",
"def export_table (self,_w):\n try:\n _data = \"\"\n maxRow = _w.rowCount()\n maxColumn = _w.columnCount()\n for hc in range(0,maxColumn):\n try: _hci = str(_w.horizontalHeaderItem(hc).text())\n except:_hci=\"None\";pass\n if hc == (maxColumn-1) :_data += _hci\n elif hc < maxColumn:_data += \"%s,\" % _hci\n _data += \"\\n\"\n for r in range(0, maxRow):\n for c in range(0, maxColumn):\n _d = str(_w.item(r, c).text())\n if c == (maxColumn-1):_data += _d\n elif c < maxColumn:_data += \"%s,\" % _d\n _data += \"\\n\"\n options = QFileDialog.Options()\n saved_file, _ = QFileDialog.getSaveFileName(self, \"Save Table to file \", \"data\", \"Plain Text (*.txt);;CSV (*.csv);;All Files (*)\", options=options)\n _file = open(saved_file, 'w')\n _file.write(_data)\n _file.close()\n except FileNotFoundError:pass",
"def on_action_4_triggered(self):\n # TODO: not implemented yet\n model = self.model2\n self.doExport(model)\n #raise NotImplementedError",
"def export_query():\n\tdata = frappe._dict(frappe.local.form_dict)\n\n\tdel data[\"cmd\"]\n\tif \"csrf_token\" in data:\n\t\tdel data[\"csrf_token\"]\n\n\tif isinstance(data.get(\"filters\"), string_types):\n\t\tfilters = json.loads(data[\"filters\"])\n\tif isinstance(data.get(\"report_name\"), string_types):\n\t\treport_name = data[\"report_name\"]\n\t\tfrappe.permissions.can_export(\n\t\t\tfrappe.get_cached_value('Report', report_name, 'ref_doctype'),\n\t\t\traise_exception=True\n\t\t)\n\tif isinstance(data.get(\"file_format_type\"), string_types):\n\t\tfile_format_type = data[\"file_format_type\"]\n\t\n\tif isinstance(data.get(\"visible_idx\"), string_types):\n\t\tvisible_idx = json.loads(data.get(\"visible_idx\"))\n\telse:\n\t\tvisible_idx = None\n\t\n\t# add filter this customer\n\tparty = get_party()\n\tfilters[\"customer\"] = party.name or \"\"\n\n\tif file_format_type == \"Excel\":\n\t\tdata = run(report_name, filters)\n\t\tdata = frappe._dict(data)\n\t\tcolumns = get_columns_dict(data.columns)\n\n\t\tfrom frappe.utils.xlsxutils import make_xlsx\n\t\txlsx_data = build_xlsx_data(columns, data)\n\t\t\n\t\txlsx_file = make_xlsx(xlsx_data, \"Query Report\")\n\n\t\tfrappe.response['filename'] = report_name + '.xlsx'\n\t\tfrappe.response['filecontent'] = xlsx_file.getvalue()\n\t\tfrappe.response['type'] = 'binary'",
"def click_generate_batch_report_button(self):\n self._basket.click_generate_batch_report_button()"
] | [
"0.8052515",
"0.7890012",
"0.6994646",
"0.6367433",
"0.6367433",
"0.61590624",
"0.5979561",
"0.5953851",
"0.58956146",
"0.56919736",
"0.56630474",
"0.55418354",
"0.54981357",
"0.53917867",
"0.53493345",
"0.5296596",
"0.5240742",
"0.52272516",
"0.5212948",
"0.51967484",
"0.51949114",
"0.5188207",
"0.5169897",
"0.51561975",
"0.5115993",
"0.5107356",
"0.5089545",
"0.5085479",
"0.5081776",
"0.5054071"
] | 0.86537313 | 0 |
Implementing click vendor price list detail reference rates grid export to excel button functionality | def click_vendor_price_list_detail_reference_rates_grid_export_to_excel_button(self):
self.click_grid_export_to_excel_button(self.vendor_price_list_detail_reference_rates_grid_div_id) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def click_vendor_price_list_detail_rates_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_rates_grid_div_id)",
"def click_vendor_price_list_detail_dial_digits_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_dial_digits_grid_div_id)",
"def click_buy_and_sell_management_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.buy_and_sell_management_grid_div_id)",
"def click_re_analysis_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.re_analysis_grid_div_id)",
"def export(self):\r\n self.prices[\"returns\"] = self.returns\r\n self.prices.columns = ['prices', 'returns']\r\n self.prices = self.prices.dropna()\r\n \r\n name = QFileDialog.getSaveFileName(None, 'Save File', filter='*.xlsx')\r\n if(name[0] == ''):\r\n # if name empty\r\n pass\r\n else:\r\n self.prices.to_excel(name[0])",
"def click_export_to_excel_button(self):\n self.click_element(self.export_to_excel_button_locator, True)",
"def click_export_to_excel_button(self):\n self.click_element(self.export_to_excel_button_locator, True)",
"def export_data(self):\r\n stocks = {}\r\n headings = ['Security', 'Price', 'Change', 'Change %', '52 Week', 'Market Cap']\r\n\r\n for data in range(6):\r\n for items in self.root.main.treeview.get_children():\r\n values = self.root.main.treeview.item(items, 'values')\r\n if headings[data] not in stocks:\r\n stocks[headings[data]] = []\r\n stocks.get(headings[data]).append(values[data])\r\n\r\n df = pd.DataFrame(stocks, columns=headings)\r\n path = tk.filedialog.asksaveasfilename(title='Save File As...',\r\n filetypes=((\"CComma-separated values (.csv)\", \"*.csv\"), (\"Text Document(.txt)\", \"*.txt\")))\r\n\r\n if not path:\r\n return\r\n else:\r\n df.to_excel(path, index=False, header=True)",
"def getrailfinancial(df,outputlocation):\n #create filename with date_and_timestamp\n formatted_date = datetime.datetime.now().strftime('%Y%m%d_%H-%M')\n destinationfilename = f'rail_financial_data_{formatted_date}.xlsx'\n\n # group and sum the superfile by two cuts\n revsplitbytocticketreg = df.groupby(['Carrier TOC / Third Party Code','Product Code','Regulated_Status'],as_index=False).agg({'Adjusted Earnings Amount':['sum']})\n revsplitbytocsectorclasscatreg = df.groupby(['Carrier TOC / Third Party Code','sector','class','Category','Regulated_Status'], as_index=False).agg({'Adjusted Earnings Amount':['sum']})\n\n # rename columns of the group and summed data\n revsplitbytocticketreg.rename(columns = {'Carrier TOC / Third Party Code':'TOC','Product Code':'Ticket','Regulated_Status':'Reg/Unreg','Adjusted Earnings Amount':'Earnings'},inplace=True)\n revsplitbytocsectorclasscatreg.rename(columns = {'Carrier TOC / Third Party Code':'TOC','sector':'Sector','class':'Class','Category':'Category','Regulated_Status':'Reg/Unreg','Adjusted Earnings Amount':'Earnings'},inplace=True) \n\n #prepare excel writer object, export dataframes to two different ranges and save excel file\n writer = pd.ExcelWriter(outputlocation + destinationfilename, engine='xlsxwriter')\n revsplitbytocticketreg.to_excel(writer,sheet_name='rail_financial_data')\n revsplitbytocsectorclasscatreg.to_excel(writer,sheet_name='rail_financial_data',startcol=10 )\n writer.save()",
"def click_country_groups_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.country_groups_grid_div_id)",
"def print_xlsx(self):\n if self.date_from and self.date_to:\n if self.date_from > self.date_to:\n raise ValidationError(\"Date From must be less than Date To\")\n\n # active_record = self._context['id']\n # record = self.env['room.accommodation'].browse(active_record)\n data = {\n 'date_from': self.date_from,\n 'date_to': self.date_to,\n 'guest_id': self.guest_id.id,\n 'model_id': self.id,\n 'check_out': self.check_out,\n 'date_today': fields.Datetime.now()\n }\n\n print(\"XLSX Wizard data : \", data)\n\n return {\n 'type': 'ir.actions.report',\n 'data': {\n 'model': 'accommodation.reporting',\n 'options': json.dumps(data, default=date_utils.json_default),\n 'output_format': 'xlsx',\n 'report_name': 'Accommodation Report'\n },\n 'report_type': 'xlsx'\n }",
"def exporter():\n Session = modules.db_connect.connect()\n session = Session()\n report = xlsxwriter.Workbook('perception_report.xlsx')\n top_row_format = report.add_format({'bold': True})\n top_row_format.set_border(style=1)\n top_row_format.set_bg_color('#B8B8B8')\n\n \"\"\"Black row format at the top of each host detailed info\"\"\"\n black_row_format = report.add_format()\n black_row_format.set_border(style=1)\n black_row_format.set_bg_color('#000000')\n\n \"\"\"Detailed host row format\"\"\"\n host_row_format = report.add_format()\n host_row_format.set_border(style=1)\n host_row_format.set_bg_color('#CCCCCC')\n\n \"\"\"Format for text in row with host info\"\"\"\n host_row_wrapped_format = report.add_format()\n host_row_wrapped_format.set_border(style=1)\n host_row_wrapped_format.set_bg_color('#CCCCCC')\n host_row_wrapped_format.set_text_wrap('vjustify')\n\n \"\"\"Format description row in NSE output\"\"\"\n host_nse_output_top_format = report.add_format({'bold': True})\n host_nse_output_top_format.set_border(style=1)\n host_nse_output_top_format.set_bg_color('#B8B8B8')\n\n \"\"\"Format test row in NSE output\"\"\"\n host_nse_output_format = report.add_format()\n host_nse_output_format.set_border(style=1)\n host_nse_output_format.set_bg_color('#CCCCCC')\n\n \"\"\"Build the host_overview_worksheet\"\"\"\n host_overview_worksheet = report.add_worksheet()\n\n \"\"\"Build the host_detail_worksheet\"\"\"\n host_detail_worksheet = report.add_worksheet()\n\n \"\"\"Size up the overview worksheet\"\"\"\n host_overview_worksheet.set_column('B:B', 24)\n host_overview_worksheet.set_column('C:C', 15)\n host_overview_worksheet.set_column('D:D', 15)\n host_overview_worksheet.set_column('E:E', 15)\n host_overview_worksheet.set_column('F:F', 15)\n host_overview_worksheet.set_column('G:G', 20)\n host_overview_worksheet.set_column('H:H', 15)\n\n \"\"\"Size up the detail worksheet\"\"\"\n host_detail_worksheet.set_column('B:B', 38)\n host_detail_worksheet.set_column('C:C', 16)\n host_detail_worksheet.set_column('D:D', 16)\n host_detail_worksheet.set_column('E:E', 28)\n host_detail_worksheet.set_column('F:F', 15)\n host_detail_worksheet.set_column('H:G', 20)\n host_detail_worksheet.set_column('H:H', 25)\n host_detail_worksheet.set_column('I:I', 10)\n\n \"\"\"Description row for host overview\"\"\"\n host_overview_worksheet.write('B2', 'Hostname', top_row_format)\n host_overview_worksheet.write('C2', 'IP v4 Address', top_row_format)\n host_overview_worksheet.write('D2', 'IP v6 Address', top_row_format)\n host_overview_worksheet.write('E2', 'MAC Address', top_row_format)\n host_overview_worksheet.write('F2', 'MAC Vendor', top_row_format)\n host_overview_worksheet.write('G2', 'Operating System', top_row_format)\n host_overview_worksheet.write('H2', 'Host Type', top_row_format)\n\n \"\"\"Query the database for the hosts\"\"\"\n inventory_hosts = session.query(InventoryHost).all()\n\n \"\"\"Build overview worksheet\"\"\"\n overview_row = 2\n overview_col = 1\n for host in inventory_hosts:\n host_overview_worksheet.write(overview_row, overview_col, host.host_name, host_row_format)\n host_overview_worksheet.write(overview_row, overview_col + 1, host.ipv4_addr, host_row_format)\n host_overview_worksheet.write(overview_row, overview_col + 2, host.ipv6_addr, host_row_format)\n host_overview_worksheet.write(overview_row, overview_col + 3, host.macaddr, host_row_format)\n host_overview_worksheet.write(overview_row, overview_col + 4, host.mac_vendor.name, host_row_format)\n host_overview_worksheet.write(overview_row, overview_col + 5, host.product.name, host_row_format)\n host_overview_worksheet.write(overview_row, overview_col + 6, host.host_type, host_row_format)\n overview_row += 1\n\n \"\"\"Build detailed worksheet\"\"\"\n detail_row = 2\n detail_col = 1\n for host in inventory_hosts:\n\n \"\"\"Add the black row to start host detail info\"\"\"\n host_detail_worksheet.set_row(detail_row, 5)\n host_detail_worksheet.write(detail_row, detail_col, '', black_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 1, '', black_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 2, '', black_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 3, '', black_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 4, '', black_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 5, '', black_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 6, '', black_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 7, '', black_row_format)\n detail_row += 1\n\n \"\"\"Add row detail info\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, 'Hostname', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 1, 'IP v4 Address', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 2, 'IP v6 Address', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 3, 'MAC Address', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 4, 'MAC Vendor', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 5, 'Host Type', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 6, 'Operating System', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 7, 'Version', top_row_format)\n detail_row += 1\n\n \"\"\"Add host info\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, host.host_name, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 1, host.ipv4_addr, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 2, host.ipv6_addr, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 3, host.macaddr, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 4, host.mac_vendor.name, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 5, host.host_type, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 6, host.product.name, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 7, host.product.version, host_row_format)\n detail_row += 2\n\n \"\"\"If there is no host nse script, just say so.\"\"\"\n if not host.host_nse_scripts:\n host_detail_worksheet.write(detail_row, detail_col, 'Host NSE Script Name', top_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row, detail_col + 7,\n 'Output', top_row_format)\n detail_row += 1\n host_detail_worksheet.write(detail_row, detail_col, 'No Script Name', host_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row, detail_col + 7,\n 'No Script Output', host_row_wrapped_format)\n detail_row += 2\n else:\n\n \"\"\"Add the row detail\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, 'Host NSE Script Name', top_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row, detail_col + 7,\n 'Output', top_row_format)\n detail_row += 1\n\n \"\"\"Grab all the scripts\"\"\"\n for host_scripts in host.host_nse_scripts:\n\n \"\"\"Count output the lines so we know what to merge\"\"\"\n lines = host_scripts.output.count('\\n')\n\n if lines > 0:\n\n \"\"\"Merge the rows and write the name and output\"\"\"\n host_detail_worksheet.merge_range(detail_row, detail_col, detail_row + lines, detail_col,\n host_scripts.name, host_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row + lines, detail_col + 7,\n host_scripts.output, host_row_wrapped_format)\n detail_row += 1\n else:\n\n \"\"\"Single line output\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, host_scripts.name, host_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row + lines, detail_col + 7,\n host_scripts.output, host_row_wrapped_format)\n detail_row += 1\n\n if not host.inventory_svcs:\n\n \"\"\"If there are no services for this host tell me\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, 'Protocol', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 1, 'Port', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 2, 'Name', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 3, 'Svc Product', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 4, 'Extra Info', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 5, 'Product', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 6, 'Version', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 7, 'Update', top_row_format)\n detail_row += 1\n\n host_detail_worksheet.write(detail_row, detail_col, 'no services', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 1, 'no services', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 2, 'no services', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 3, 'no services', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 4, 'no services', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 5, 'no services', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 6, 'no services', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 7, 'no services', host_row_format)\n detail_row += 1\n\n else:\n for ports in host.inventory_svcs:\n\n \"\"\"Host services row info\"\"\"\n detail_row += 1\n host_detail_worksheet.write(detail_row, detail_col, 'Protocol', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 1, 'Port', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 2, 'Name', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 3, 'Svc Product', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 4, 'Extra Info', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 5, 'Product', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 6, 'Version', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 7, 'Update', top_row_format)\n detail_row += 1\n\n \"\"\"Write the service info\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, ports.protocol, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 1, ports.portid, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 2, ports.name, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 3, ports.svc_product, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 4, ports.extra_info, host_row_format)\n try:\n\n \"\"\"There may not be product info, but try.\"\"\"\n host_detail_worksheet.write(detail_row, detail_col + 5, ports.product.name, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 6, ports.product.version, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 7, ports.product.product_update,\n host_row_format)\n detail_row += 1\n except AttributeError:\n\n \"\"\"Just write unknown if there is no product info\"\"\"\n host_detail_worksheet.write(detail_row, detail_col + 5, 'unknown', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 6, 'unknown', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 7, 'unknown', host_row_format)\n detail_row += 1\n\n if not ports.svc_nse_scripts:\n\n \"\"\"If there is no NSE script info just say so.\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, 'Svc NSE Script Name', top_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row, detail_col + 7,\n 'Output', top_row_format)\n detail_row += 1\n host_detail_worksheet.write(detail_row, detail_col, 'No Script Name', host_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row, detail_col + 7,\n 'No Script Output', host_row_wrapped_format)\n detail_row += 2\n\n else:\n\n \"\"\"Service Script row detail\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, 'Svc NSE Script Name', top_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row, detail_col + 7,\n 'Output', top_row_format)\n detail_row += 1\n\n \"\"\"Grab all the scripts\"\"\"\n for nse_scripts in ports.svc_nse_scripts:\n\n \"\"\"Count the lines in the output for merging\"\"\"\n lines = nse_scripts.output.count('\\n')\n\n if lines > 0:\n\n \"\"\"Merge the rows and write the name and output\"\"\"\n host_detail_worksheet.merge_range(detail_row, detail_col, detail_row + lines, detail_col,\n nse_scripts.name, host_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row + lines, detail_col + 7,\n nse_scripts.output, host_row_wrapped_format)\n detail_row += 1\n else:\n\n \"\"\"Single line output\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, nse_scripts.name, host_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row + lines,\n detail_col + 7, nse_scripts.output,\n host_row_wrapped_format)\n detail_row += 1\n\n detail_row += 1\n report.close()\n session.close()",
"def export_html(self, model_view='gapd'):\n '''\n <?xml version=\"1.0\" ?>\n <ROWSET>\n <ROW>\n <SURVEYID>921</SURVEYID>\n <SURVEYNAME>Goomalling, WA, 1996</SURVEYNAME>\n <STATE>WA</STATE>\n <OPERATOR>Stockdale Prospecting Ltd.</OPERATOR>\n <CONTRACTOR>Kevron Geophysics Pty Ltd</CONTRACTOR>\n <PROCESSOR>Kevron Geophysics Pty Ltd</PROCESSOR>\n <SURVEY_TYPE>Detailed</SURVEY_TYPE>\n <DATATYPES>MAG,RAL,ELE</DATATYPES>\n <VESSEL>Aero Commander</VESSEL>\n <VESSEL_TYPE>Plane</VESSEL_TYPE>\n <RELEASEDATE/>\n <ONSHORE_OFFSHORE>Onshore</ONSHORE_OFFSHORE>\n <STARTDATE>05-DEC-96</STARTDATE>\n <ENDDATE>22-DEC-96</ENDDATE>\n <WLONG>116.366662</WLONG>\n <ELONG>117.749996</ELONG>\n <SLAT>-31.483336</SLAT>\n <NLAT>-30.566668</NLAT>\n <LINE_KM>35665</LINE_KM>\n <TOTAL_KM/>\n <LINE_SPACING>250</LINE_SPACING>\n <LINE_DIRECTION>180</LINE_DIRECTION>\n <TIE_SPACING/>\n <SQUARE_KM/>\n <CRYSTAL_VOLUME>33.6</CRYSTAL_VOLUME>\n <UP_CRYSTAL_VOLUME>4.2</UP_CRYSTAL_VOLUME>\n <DIGITAL_DATA>MAG,RAL,ELE</DIGITAL_DATA>\n <GEODETIC_DATUM>WGS84</GEODETIC_DATUM>\n <ASL/>\n <AGL>60</AGL>\n <MAG_INSTRUMENT>Scintrex CS2</MAG_INSTRUMENT>\n <RAD_INSTRUMENT>Exploranium GR820</RAD_INSTRUMENT>\n </ROW>\n </ROWSET>\n '''\n if model_view == 'prov':\n prov_turtle = self.export_rdf('prov', 'text/turtle')\n g = Graph().parse(data=prov_turtle, format='turtle')\n\n view_html = render_template(\n 'survey_prov.html',\n visjs=self._make_vsjs(g),\n prov_turtle=prov_turtle,\n )\n else: # model_view == 'gapd':\n view_html = render_template(\n 'survey_gapd.html',\n survey_no=self.survey_no,\n survey_name=self.survey_name,\n state=self.state,\n operator=self.operator,\n contractor=self.contractor,\n processor=self.processor,\n survey_type=self.survey_type,\n data_types=self.data_types,\n vessel=self.vessel,\n vessel_type=self.vessel_type,\n release_date=self.release_date,\n onshore_offshore=self.onshore_offshore,\n start_date=self.start_date,\n end_date=self.end_date,\n line_km=self.line_km,\n total_km=self.total_km,\n line_spacing=self.line_spacing,\n line_direction=self.line_direction,\n tie_spacing=self.tie_spacing,\n area=self.square_km,\n crystal_volume=self.crystal_volume,\n up_crystal_volume=self.up_crystal_volume,\n digital_data=self.digital_data,\n geodetic_datum=self.geodetic_datum,\n asl=self.asl,\n agl=self.agl,\n mag_instrument=self.mag_instrument,\n rad_instrument=self.rad_instrument,\n wkt_polygon=self.wkt_polygon\n )\n\n return render_template(\n 'page_survey.html',\n view_html=view_html,\n survey_no=self.survey_no,\n end_date=self.end_date,\n survey_type=self.survey_type,\n date_now=datetime.now().strftime('%Y-%m-%d'),\n centroid_lat=self.centroid_lat,\n centroid_lon=self.centroid_lon,\n n_lat=self.n_lat,\n s_lat=self.s_lat,\n w_long=self.w_long,\n e_long=self.e_long,\n gm_key=config.GOOGLE_MAPS_API_KEY\n )",
"def export(self,**kwargs):\n \n # import pdb;pdb.set_trace()\n \n # provide for case where recs are set extenally\n if not self.recs:\n self.select_recs(**kwargs)\n if self.recs:\n if self.export_file_name:\n filename = self.export_file_name\n else:\n filename = \"{table_name}_report_{datetime}.csv\".format(\n table_name = self.table.display_name,\n datetime = date_to_string(local_datetime_now(),'iso_datetime'),\n ).replace(' ','_').lower()\n \n if not self.export_fields:\n # include all fields by default\n self.export_fields = self._set_default_list_fields(include_all=True).copy()\n\n self.set_list_fields(self.export_fields)\n \n \n if self.export_template:\n result = render_template(self.export_template, data=self)\n else:\n # add a descriptive title row\n if self.export_title:\n result = self.export_title.strip() + '\\n'\n else:\n result = \"Export of table {} as of {}\\n\".format(self.table.table_name,excel_date_and_time_string(local_datetime_now()))\n \n result += ','.join([x['label'] for x in self.export_fields]) + '\\n'\n for rec in self.recs:\n rec_row = []\n for field in self.export_fields:\n data = rec.__getattribute__(field['name'])\n if field['type'].upper() == \"DATE\":\n data = local_date_string(data)\n elif field['type'].upper() == \"DATETIME\":\n data = excel_date_and_time_string(data)\n else:\n # just text\n data = str(data).strip()\n \n # replace double quotes with double-double quotes\n data = data.replace('\"','\"\"') #double up on double quotes\n \n if \",\" in data:\n # if any commas, wrap in quotes\n data = '\"' + data + '\"'\n \n #replace returns\n data = data.replace('\\r\\n',' -crnl- ')\n data = data.replace('\\n',' -nl- ')\n data = data.replace('\\r',' -rtn- ')\n\n rec_row.append(data)\n \n result += ','.join([str(x) for x in rec_row]) + '\\n'\n \n return DataStreamer(result,filename,'text/csv').send()\n \n self.result_text = \"No records selected\"\n self.success = False\n \n flash(self.result_text)\n return self.list(**kwargs)",
"def on_show_eqp_datasheet_export(self):\n from EqpDatasheetExportDialog import QEqpDatasheetExportDialog\n\n dlg = QEqpDatasheetExportDialog(self)\n dlg.exec_()",
"def export_data(self):\r\n if len(app.entry6.get()) != 0:\r\n\r\n if app.var.get() == 'xls':\r\n\r\n wb = Workbook()\r\n sheet = wb.add_sheet('Sheet1')\r\n self.columns = ['id', 'Name', 'Section', 'Dept.', 'Gpa', 'MP1', 'MP2', 'MP3', 'MT', 'FINAL']\r\n style = xlwt.easyxf('font: bold 1')\r\n for col in range(10):\r\n sheet.write(0, col, self.columns[col], style)\r\n index=0\r\n for row in range(1,162):\r\n sheet.write(row, 1, open_data.sort_list[index])\r\n index += 1\r\n index1 = -1\r\n for row in range(1,162):\r\n index1 += 1\r\n index2=0\r\n for col in range(10):\r\n if col == 1 or index2 == 1:\r\n index2 += 1\r\n continue\r\n if index2 == 0:\r\n sheet.write(row, col, int(open_data.student[open_data.sort_list[index1]][index2]))\r\n index2 += 1\r\n continue\r\n sheet.write(row, col, open_data.student[open_data.sort_list[index1]][index2])\r\n index2 += 1\r\n file_name=app.entry6.get()\r\n if '.xls' not in file_name:\r\n wb.save(file_name+'.xls')\r\n else:\r\n wb.save(file_name)\r\n\r\n elif app.var.get() == 'txt':\r\n\r\n file_name = app.entry6.get()\r\n if '.txt' not in file_name:\r\n file_name = file_name + '.txt'\r\n file = open(file_name, 'w')\r\n index2 = 0\r\n for key in open_data.student:\r\n for index in range(10):\r\n if index == 0:\r\n file.write(str(int(open_data.student[key][index])))\r\n file.write(', ')\r\n continue\r\n if index == 1:\r\n try:\r\n self.split_names = open_data.sort_list[index2].split(' ')\r\n file.write(self.split_names[0])\r\n file.write(', ')\r\n file.write(self.split_names[1])\r\n file.write(', ')\r\n index2 += 1\r\n except UnicodeEncodeError:\r\n index2 += 1\r\n pass\r\n continue\r\n if index >= 5 and index <= 9:\r\n if open_data.student[key][index] != '':\r\n file.write(str(int(open_data.student[key][index])))\r\n file.write(', ')\r\n else:\r\n file.write('\\n')\r\n break\r\n if index == 9:\r\n file.write('\\n')\r\n continue\r\n try:\r\n file.write(str(open_data.student[key][index]))\r\n file.write(', ')\r\n except UnicodeEncodeError:\r\n pass\r\n file.close()\r\n\r\n\r\n\r\n elif app.var.get() == 'csv':\r\n app.info.configure(text=\"INFO: Type not Supported\")\r\n # The program does not support saving in 'csv' type. If the user selects 'csv' file type, 'Info' Label\r\n # shows the message: 'INFO: Type not Supported'.\r\n\r\n else:\r\n app.info.configure(text='INFO: Type not chosen!')\r\n # Also, If the user presses on 'Export Data' button, with a file name provided, but without choosing a\r\n # file type, 'Info' Label shows the message: 'INFO: Type not chosen'.\r\n\r\n else:\r\n app.info.configure(text=\"INFO: Please provide the name of the file.\")\r\n # Also, if the user presses 'Export Data' button without giving a file name, 'Info' Label shows the message:\r\n # 'INFO: Please provide the name of the file.'\r",
"def export(self):\n\n rpt_date = datetime.now()\n filename = 'bushfire_report_{}.xls'.format(rpt_date.strftime('%d%b%Y'))\n response = HttpResponse(content_type='application/vnd.ms-excel')\n response['Content-Disposition'] = 'attachment; filename=' + filename\n\n book = Workbook()\n self.ministerial.get_excel_sheet(rpt_date, book)\n self.ministerial_auth.get_excel_sheet(rpt_date, book)\n self.ministerial_268.get_excel_sheet(rpt_date, book)\n self.quarterly.get_excel_sheet(rpt_date, book)\n self.by_tenure.get_excel_sheet(rpt_date, book)\n self.by_cause.get_excel_sheet(rpt_date, book)\n self.region_by_tenure.get_excel_sheet(rpt_date, book)\n self.indicator.get_excel_sheet(rpt_date, book)\n self.by_cause_10YrAverage.get_excel_sheet(rpt_date, book)\n\n book.add_sheet('Sheet 1')\n book.save(response)\n\n return response",
"def export(self):\n\n rpt_date = datetime.now()\n filename = 'bushfire_indicator_report_{}.xls'.format(rpt_date.strftime('%d%b%Y'))\n response = HttpResponse(content_type='application/vnd.ms-excel')\n response['Content-Disposition'] = 'attachment; filename=' + filename\n\n book = Workbook()\n self.get_excel_sheet(rpt_date, book)\n\n book.add_sheet('Sheet 2')\n book.save(response)\n\n return response",
"def on_export_button(self, event):\n wildcard = \"Filtered _iso_res_filt.csv file (*_iso_res_filt.csv)|*_iso_res_filt.csv|\"\\\n \"All files (*.*)|*.*|\"\n defFile = self.datafile[:-4]+'_filt.csv'\n dlg = wx.FileDialog(\n self, message=\"Save file as ...\", \n defaultDir=self.currentDirectory, \n defaultFile=defFile, wildcard=wildcard, style=wx.SAVE\n )\n if dlg.ShowModal() == wx.ID_OK:\n path = dlg.GetPath()\n self.recalcAll()\n self.redrawAll()\n self.dataFrame['priorFilter'] = self.dataFrame['allFPass']\n self.dataFrame.to_csv(path, index=False)\n summaryCSVPath = path.split('.')[0] + '_median_[' + ''.join(self.calcNum) + ']_[' + ''.join(self.calcDen) + '].csv'\n self.writeSummaryCSV(summaryCSVPath)\n \n dlg.Destroy()",
"def generate_xlsx_report(self, workbook, data, parts_data):\n worksheet = workbook.add_worksheet(\"daily_parts_issuance_wizard\")\n worksheet.set_column(0, 0, 10)\n worksheet.set_column(1, 1, 15)\n worksheet.set_column(2, 2, 20)\n worksheet.set_column(3, 3, 15)\n worksheet.set_column(4, 4, 10)\n worksheet.set_column(5, 5, 12)\n worksheet.set_column(6, 6, 10)\n worksheet.set_column(7, 7, 10)\n worksheet.set_column(8, 8, 15)\n worksheet.set_column(9, 9, 10)\n worksheet.set_column(10, 10, 15)\n worksheet.set_column(11, 11, 10)\n worksheet.set_column(12, 12, 20)\n worksheet.set_column(13, 13, 5)\n worksheet.set_column(14, 14, 5)\n worksheet.set_column(15, 15, 5)\n\n bold = workbook.add_format(\n {\"bold\": True, \"font_name\": \"Arial\", \"font_size\": \"10\"}\n )\n tot = workbook.add_format(\n {\"border\": 2, \"bold\": True, \"font_name\": \"Arial\", \"font_size\": \"10\"}\n )\n border = workbook.add_format(\n {\"border\": 2, \"font_name\": \"Arial\", \"font_size\": \"10\"}\n )\n merge_format = workbook.add_format({\"border\": 2, \"align\": \"center\"})\n format1 = workbook.add_format(\n {\"border\": 2, \"bold\": True, \"font_name\": \"Arial\", \"font_size\": \"10\"}\n )\n format1.set_bg_color(\"gray\")\n date = workbook.add_format({\"num_format\": \"dd/mm/yy\"})\n\n worksheet.merge_range(\"C3:F3\", \"Merged Cells\", merge_format)\n\n row = 0\n row += 1\n row += 1\n worksheet.write(row, 2, \"DAILY PARTS ISSUANCE\", tot)\n row += 1\n worksheet.write(row, 2, \"Date From:\", tot)\n worksheet.write(row, 3, data[\"form\"][\"date_from\"] or \"\", border)\n worksheet.write(row, 4, \"To:\", tot)\n worksheet.write(row, 5, data[\"form\"][\"date_to\"] or \"\", border)\n row += 2\n worksheet.write(row, 0, \"CMF\", bold)\n row = 3\n\n for objec in self.get_work_order_detail(data[\"form\"]):\n row += 3\n worksheet.write(row, 0, \"DATE ISSUED :\", bold)\n worksheet.write(row, 1, objec.get(\"date\") or \"\", date)\n row += 2\n worksheet.write(row, 0, \"NO.\", format1)\n worksheet.write(row, 1, \"WO NO.\", format1)\n worksheet.write(row, 2, \"VEHICLE ID\", format1)\n worksheet.write(row, 3, \"PART NO.\", format1)\n worksheet.write(row, 4, \"PART NAME\", format1)\n worksheet.write(row, 5, \"VEHICLE MAKE\", format1)\n worksheet.write(row, 6, \"USED\", format1)\n worksheet.write(row, 7, \"UNIT TYPE\", format1)\n worksheet.write(row, 8, \"OLD PART RETURND\", format1)\n worksheet.write(row, 9, \"ISSUED BY\", format1)\n worksheet.write(row, 10, \"REMARKS\", format1)\n line_row = row + 1\n line_col = 0\n counter = 1\n for obj in objec.get(\"value\"):\n worksheet.write(line_row, line_col, counter, border)\n line_col += 1\n worksheet.write(line_row, line_col, obj.get(\"wo_name\") or \"\", border)\n line_col += 1\n worksheet.write(line_row, line_col, obj.get(\"vehicle_id\") or \"\", border)\n line_col += 1\n worksheet.write(line_row, line_col, obj.get(\"part_no\") or \"\", border)\n line_col += 1\n worksheet.write(line_row, line_col, obj.get(\"part_name\") or \"\", border)\n line_col += 1\n worksheet.write(\n line_row, line_col, obj.get(\"vehicle_make\") or \"\", border\n )\n line_col += 1\n worksheet.write(line_row, line_col, obj.get(\"qty\") or \"\", border)\n line_col += 1\n worksheet.write(line_row, line_col, obj.get(\"uom\") or \"\", border)\n line_col += 1\n worksheet.write(\n line_row, line_col, obj.get(\"old_part_return\") or \"\", border\n )\n line_col += 1\n worksheet.write(line_row, line_col, obj.get(\"issued_by\") or \"\", border)\n line_col += 1\n worksheet.write(line_row, line_col, obj.get(\"remarks\") or \"\", border)\n line_col = 0\n line_row += 1\n counter += 1\n worksheet.write(line_row, line_col, \"********\", border)",
"def bokeh_dashboard_creator(dataframe):\r\n ############################################\r\n # Revenue, Impressions by Day by Partner\r\n ############################################\r\n \r\n output_file(\"dashboard.html\")\r\n \r\n df = dataframe\r\n df['Day'] = pd.to_datetime(df['Day'])\r\n df = df.fillna(0)\r\n \r\n impressions_list = df.groupby('Day').Impressions.sum().tolist()\r\n revenue_list = df.groupby('Day').Revenue.sum().tolist()\r\n\r\n df_pivot = df.pivot_table(index=['Day'], columns='Partner', \r\n values=['Revenue'], aggfunc='sum')\r\n\r\n df_pivot = df_pivot.fillna(0)\r\n\r\n df_pivot['Impressions'] = impressions_list\r\n df_pivot['Total_Revenue'] = revenue_list\r\n \r\n df_pivot.to_csv(\"revenue-by-day-by-partner.csv\")\r\n df2 = pd.read_csv(\"revenue-by-day-by-partner.csv\", skiprows=2)\r\n \r\n df2['Day'] = pd.to_datetime(df2['Day'])\r\n df2 = df2.fillna(0)\r\n spectral_switch = ['#2b83ba', '#abdda4', '#fdae61']\r\n\r\n df2.columns = ['Day', 'Fyber', 'Fyber_Video', 'MoPub', \r\n 'Impressions', 'Total_Revenue']\r\n\r\n df2['Day'] = pd.to_datetime(df2['Day'])\r\n\r\n source = ColumnDataSource(df2)\r\n\r\n colors=spectral_switch\r\n\r\n partners = [\"Fyber\", \"Fyber_Video\", \"MoPub\"]\r\n\r\n hover = HoverTool(tooltips=\r\n [\r\n ('Date','@Day{ %F }'),\r\n ('MoPub','@MoPub{$0,0.00}'),\r\n ('Fyber Video','@Fyber_Video{$0,0.00}'),\r\n ('Fyber','@Fyber{$0,0.00}'), \r\n ('Total Revenue','@Total_Revenue{$0,0.00}'),\r\n ('Impressions', '@Impressions{0,}'),\r\n ],\r\n\r\n formatters={'Day':'datetime'},\r\n\r\n\r\n )\r\n\r\n p = figure(plot_width=1000, plot_height=400, x_axis_type='datetime', \r\n toolbar_location = 'above', tools=[hover], \r\n y_range = (0, df2['Total_Revenue'].max()+500))\r\n\r\n #Title\r\n p.title.text = 'IMVU Mobile Ad Revenue by Date, Impressions'\r\n p.title.text_font = 'arial'\r\n p.title.text_color = 'gray'\r\n\r\n #Y-Axis\r\n p.yaxis.axis_label = 'Revenue'\r\n p.yaxis.axis_label_text_font = 'arial'\r\n p.yaxis.axis_label_text_font_style = 'bold'\r\n p.yaxis[0].formatter = NumeralTickFormatter(format=\"$0,00.00\")\r\n\r\n #X-Axis\r\n p.xaxis.axis_label = 'Date'\r\n p.xaxis.axis_label_text_font = 'arial'\r\n p.xaxis.axis_label_text_font_style = 'bold'\r\n p.xaxis.major_label_text_color = 'black'\r\n\r\n #Removes X-Grid Line\r\n p.xgrid.grid_line_color = None\r\n\r\n #Tools\r\n p.add_tools(PanTool())\r\n p.add_tools(BoxZoomTool())\r\n p.add_tools(WheelZoomTool())\r\n p.add_tools(ZoomInTool())\r\n p.add_tools(ZoomOutTool())\r\n p.add_tools(ResetTool())\r\n p.add_tools(SaveTool())\r\n p.toolbar.logo = None\r\n\r\n #Misc\r\n p.y_range.start = 0\r\n p.x_range.range_padding = 0.1\r\n p.axis.minor_tick_line_color = None\r\n p.outline_line_color = None\r\n\r\n p.vbar_stack(stackers=partners, x='Day', width=36000000, color=colors, \r\n source=source, legend=[value(x) for x in partners], \r\n name=partners)\r\n\r\n p.extra_y_ranges = {\"Impression_Range\": \r\n Range1d(start=0, end=df2['Impressions'].max()+5000000)}\r\n \r\n p.add_layout(LinearAxis(y_range_name='Impression_Range', \r\n axis_label=\"Impressions\", \r\n axis_label_text_font = 'arial', \r\n axis_label_text_font_style = 'bold', \r\n minor_tick_line_color = None, \r\n formatter = NumeralTickFormatter(format=\"000,000\")), \"right\")\r\n \r\n p.line(x='Day', y='Impressions', source=source, line_width=2, \r\n color='navy', y_range_name = 'Impression_Range', \r\n legend='Impression')\r\n\r\n #Legend Formatting\r\n # p.legend.location = \"top_left\"\r\n p.legend.location = 'top_center'\r\n p.legend.orientation = \"horizontal\"\r\n p.legend.click_policy = 'hide'\r\n \r\n ############################################\r\n # Revenue by Day by Ad Unit Type\r\n ############################################\r\n\r\n df_unittype_pivot = df.pivot_table(index='Day', columns='UnitType', \r\n values='Revenue', aggfunc='sum')\r\n\r\n df_unittype_pivot['Total_Revenue'] = revenue_list\r\n\r\n df_unittype_pivot.to_csv(\"revenue-by-day-by-adtype.csv\")\r\n\r\n df3 = pd.read_csv(\"revenue-by-day-by-adtype.csv\")\r\n\r\n df3['Total_Revenue'].max()\r\n\r\n df3['Day'] = pd.to_datetime(df3['Day'])\r\n\r\n source2 = ColumnDataSource(df3)\r\n ad_type = [\"banner\", \"native\", \"video\"]\r\n pastel_colors = [\"#a8e6cf\", \"#ffd3b6\", \"#ffaaa5\"]\r\n\r\n df3.head(1)\r\n\r\n hover2 = HoverTool(\r\n tooltips=\r\n [\r\n ('Video','@video{$0,0.00}'),\r\n ('Native','@native{$0,0.00}'),\r\n ('Banner','@banner{$0,0.00}'),\r\n ('Total Revenue', '@Total_Revenue{$0,0.00}'),\r\n ('Date','@Day{ %F }'),\r\n ],\r\n\r\n formatters={'Day':'datetime'}\r\n\r\n )\r\n\r\n p2 = figure(plot_width = 1000, plot_height=400, x_axis_type='datetime', \r\n title=\"Ads By Day\", toolbar_location='above', \r\n tools=[hover2], y_range=(0,df3['Total_Revenue'].max()+500))\r\n\r\n p2.vbar_stack(stackers=ad_type, x='Day', width=36000000, color=pastel_colors,\r\n source=source2, legend=[value(x) for x in ad_type], \r\n name=ad_type)\r\n\r\n #Title\r\n p2.title.text = 'IMVU Mobile Ad Revenue by Type, Date'\r\n p2.title.text_font = 'arial'\r\n p2.title.text_color = 'gray'\r\n #p.title.text_font_style = 'bold'\r\n\r\n #Y-Axis\r\n p2.yaxis.axis_label = 'Revenue'\r\n p2.yaxis.axis_label_text_font = 'arial'\r\n p2.yaxis.axis_label_text_font_style = 'bold'\r\n p2.yaxis[0].formatter = NumeralTickFormatter(format=\"$0,00.00\")\r\n\r\n #X-Axis\r\n p2.xaxis.axis_label = 'Date'\r\n p2.xaxis.axis_label_text_font = 'arial'\r\n p2.xaxis.axis_label_text_font_style = 'bold'\r\n p2.xaxis.major_label_text_color = 'black'\r\n\r\n #Removes X-Grid Line\r\n p2.xgrid.grid_line_color = None\r\n\r\n #Tools\r\n p2.add_tools(PanTool())\r\n p2.add_tools(BoxZoomTool())\r\n p2.add_tools(WheelZoomTool())\r\n p2.add_tools(ZoomInTool())\r\n p2.add_tools(ZoomOutTool())\r\n p2.add_tools(ResetTool())\r\n p2.add_tools(SaveTool())\r\n p2.toolbar.logo = None\r\n\r\n #Misc\r\n p2.y_range.start = 0\r\n p2.x_range.range_padding = 0.1\r\n p2.axis.minor_tick_line_color = None\r\n p2.outline_line_color = None\r\n\r\n #Legend Formatting\r\n p2.legend.location = 'top_center'\r\n p2.legend.orientation = \"horizontal\"\r\n p2.legend.click_policy = 'hide'\r\n\r\n ############################################\r\n # Revenue by Day by App\r\n ############################################\r\n\r\n df_app_pivot = df.pivot_table(index='Day', columns='App', \r\n values=['Revenue', 'Impressions'], \r\n aggfunc='sum')\r\n\r\n df_app_pivot.to_csv(\"revenue-by-day-by-app.csv\")\r\n\r\n df4 = pd.read_csv(\"revenue-by-day-by-app.csv\", skiprows=2)\r\n\r\n df4 = df4.fillna(0)\r\n\r\n col_idx = 0\r\n bad_column_list = []\r\n\r\n for c in list(df4.columns):\r\n if df4.loc[0, c] == 0.0:\r\n bad_column_list.append(col_idx)\r\n col_idx += 1\r\n\r\n columns_to_delete = [list(df4.columns)[num] for num in bad_column_list]\r\n\r\n for c in columns_to_delete:\r\n del df4[c]\r\n\r\n df4.columns = [\"Day\", \"IMVU_Android_Impressions\", \"IMVU_iOS_Impressions\", \r\n \"IMVU_Android_Revenue\", \"IMVU_iOS_Revenue\"]\r\n\r\n df4['Day'] = pd.to_datetime(df4['Day'])\r\n\r\n # turn impressions to integer?\r\n\r\n df4[\"Total_Revenue\"] = df4[\"IMVU_Android_Revenue\"] + df4[\"IMVU_iOS_Revenue\"]\r\n df4[\"Total_Impressions\"] = df4[\"IMVU_Android_Impressions\"] + df4[\"IMVU_iOS_Impressions\"]\r\n\r\n os_colors = [\"#ff5d5d\", \"#84b9ef\"]\r\n ad_type = ['IMVU_Android_Revenue', 'IMVU_iOS_Revenue']\r\n\r\n source3 = ColumnDataSource(df4)\r\n\r\n hover3 = HoverTool(\r\n tooltips=\r\n [\r\n ('iOS Revenue','@IMVU_iOS_Revenue{$0,0.00}'),\r\n ('Android Revenue','@IMVU_Android_Revenue{$0,0.00}'),\r\n ('Total Revenue', '@Total_Revenue{$0,0.00}'),\r\n ('Date','@Day{ %F }'),\r\n ],\r\n\r\n formatters={'Day':'datetime'}\r\n\r\n )\r\n\r\n p3 = figure(plot_width = 1000, plot_height=400, x_axis_type='datetime', \r\n title=\"Ads By Day\", toolbar_location='above', \r\n tools=[hover3], y_range=(0,df4['Total_Revenue'].max()+500))\r\n\r\n p3.vbar_stack(stackers=ad_type, x='Day', width=36000000, color=os_colors, \r\n source=source3, alpha=0.6, legend=[value(x) for x in ad_type], \r\n name=ad_type)\r\n\r\n #Title\r\n p3.title.text = 'IMVU Mobile Ad Revenue by App, Date'\r\n p3.title.text_font = 'arial'\r\n p3.title.text_color = 'gray'\r\n #p.title.text_font_style = 'bold'\r\n\r\n #Y-Axis\r\n p3.yaxis.axis_label = 'Revenue'\r\n p3.yaxis.axis_label_text_font = 'arial'\r\n p3.yaxis.axis_label_text_font_style = 'bold'\r\n p3.yaxis[0].formatter = NumeralTickFormatter(format=\"$0,00.00\")\r\n\r\n #X-Axis\r\n p3.xaxis.axis_label = 'Date'\r\n p3.xaxis.axis_label_text_font = 'arial'\r\n p3.xaxis.axis_label_text_font_style = 'bold'\r\n p3.xaxis.major_label_text_color = 'black'\r\n\r\n #Removes X-Grid Line\r\n p3.xgrid.grid_line_color = None\r\n\r\n #Tools\r\n p3.add_tools(PanTool())\r\n p3.add_tools(BoxZoomTool())\r\n p3.add_tools(WheelZoomTool())\r\n p3.add_tools(ZoomInTool())\r\n p3.add_tools(ZoomOutTool())\r\n p3.add_tools(ResetTool())\r\n p3.add_tools(SaveTool())\r\n p3.toolbar.logo = None\r\n\r\n #Misc\r\n p3.y_range.start = 0\r\n p3.x_range.range_padding = 0.1\r\n p3.axis.minor_tick_line_color = None\r\n p3.outline_line_color = None\r\n\r\n #Legend Formatting\r\n # p3.legend.location = \"top_left\"\r\n p3.legend.location = 'top_center'\r\n p3.legend.orientation = \"horizontal\"\r\n p3.legend.click_policy = 'hide' \r\n\r\n from bokeh.layouts import column\r\n \r\n show(column(p, p2, p3))",
"def export(self):\n\n rpt_date = datetime.now()\n filename = 'quarterly_report_{}.xls'.format(rpt_date.strftime('%d%b%Y'))\n response = HttpResponse(content_type='application/vnd.ms-excel')\n response['Content-Disposition'] = 'attachment; filename=' + filename\n\n book = Workbook()\n self.get_excel_sheet(rpt_date, book)\n\n book.add_sheet('Sheet 2')\n book.save(response)\n\n return response",
"def export_order_status_button(cls, store_views):\n pass",
"def pricing_export(request, simulation):\n # Get all tolls.\n policies = get_query('policy', simulation)\n tolls = policies.filter(type='PRICING')\n # To avoid conflict if two users export a file at the same time, we\n # generate a random name for the export file.\n seed = np.random.randint(10000)\n filename = '{0}/website_files/exports/{1}.tsv'.format(settings.BASE_DIR,\n seed)\n with codecs.open(filename, 'w', encoding='utf8') as f:\n writer = csv.writer(f, delimiter='\\t')\n # Get a dictionary with all the values to export.\n values = list()\n for toll in tolls:\n if toll.usertype:\n usertype_id = toll.usertype.user_id\n else:\n usertype_id = ''\n values.append([toll.location.user_id, toll.get_value_vector(),\n toll.get_time_vector(), usertype_id])\n # Write a custom header.\n writer.writerow(['link', 'values', 'times', 'traveler_type'])\n writer.writerows(values)\n\n with codecs.open(filename, 'r', encoding='utf8') as f:\n # Build a response to send a file.\n response = HttpResponse(f.read())\n response['content_type'] = 'text/tab-separated-values'\n response['Content-Disposition'] = 'attachement; filename=tolls.tsv'\n # We delete the export file to save disk space.\n os.remove(filename)\n return response",
"def outputExcelReport(self):\n # ++++++++++\n # init\n # ++++++++++\n wb = openpyxl.Workbook()\n wb.fonts = openpyxl.styles.Font(\n name = 'Courier New',\n size = 12\n )\n # create and delete sheets\n _ = wb.create_sheet(title='Cover',index=0)\n _ = wb.create_sheet(title='Results',index=1)\n _ = wb.create_sheet(title='AllItems',index=2)\n _ = wb.remove(wb.worksheets[-1])\n # ++++++++++\n # Sheet 1 <Cover>\n # ++++++++++\n ws = wb['Cover']\n # --- title and date\n timeNow = datetime.datetime.now().isoformat().split('T')[0]\n ws.merge_cells('A1:B1')\n ws.merge_cells('A3:B3')\n ws['A1'] = '納入チェック ダイアグ確認結果'\n ws['A3'] = '作成日:{}'.format(timeNow)\n # --- sample info\n ws['A5'] = '<サンプル情報>'\n self._write2excel(ws, self._sample_info, 6, 1)\n for r in range(6,8):\n for c in range(1,3):\n ws.cell(r,c).border = BORDER\n # --- checker info\n ws['A9'] = '<チェッカ情報>'\n self._write2excel(ws, self._checker_info, 10, 1)\n for r in range(10,13):\n for c in range(1,3):\n ws.cell(r,c).border = BORDER\n # --- dmm info\n ws['A14'] = '<DMM情報>'\n self._write2excel(ws, self._dmm_info, 15, 1)\n for r in range(15,18):\n for c in range(1,3):\n ws.cell(r,c).border = BORDER\n # --- resistor info\n ws['A19'] = '<抵抗器情報>'\n self._write2excel(ws, self._resistor_info, 20, 1)\n for r in range(20,23):\n for c in range(1,3):\n ws.cell(r,c).border = BORDER\n # --- set styles\n for row in ws:\n for cell in row:\n ws[cell.coordinate].font = STYLE_FONT_PASS\n # --- set column width\n for col in ws.columns:\n # init\n max_length = 0\n column = openpyxl.utils.get_column_letter(col[0].column)\n # loop\n for cell in col:\n if len(str(cell.value)) > max_length:\n max_length = len(str(cell.value)) * (STYLE_FONT_PASS.size+1)/11\n # output\n adjusted_width = (max_length + 2) * 1.2\n ws.column_dimensions[column].width = adjusted_width\n # ++++++++++\n # Sheet 2 <Results>\n # ++++++++++\n ws = wb['Results']\n # --- output all scenario\n ws['A1'] = '<結果一覧>'\n ws.merge_cells('A1:B1')\n self._write2excel(ws, self._result_info, 2, 1)\n for r in range(2,ws.max_row+1):\n for c in range(1,ws.max_column+1):\n ws.cell(r,c).border = BORDER\n # --- set styles\n for row in ws:\n for cell in row:\n # font color\n ws[cell.coordinate].font = STYLE_FONT_PASS\n cell.alignment = openpyxl.styles.Alignment(vertical='top')\n if cell.column==6:\n if ws[cell.coordinate].value =='FAIL':\n ws.cell(cell.row,1).font = STYLE_FONT_FAIL\n ws.cell(cell.row,2).font = STYLE_FONT_FAIL\n ws.cell(cell.row,3).font = STYLE_FONT_FAIL\n ws.cell(cell.row,4).font = STYLE_FONT_FAIL\n ws.cell(cell.row,5).font = STYLE_FONT_FAIL\n ws.cell(cell.row,6).font = STYLE_FONT_FAIL\n # cell color by header/even row\n if cell.row==2:\n ws[cell.coordinate].fill = STYLE_FILL_HEADER\n elif cell.row%2==0:\n ws[cell.coordinate].fill = STYLE_FILL_EVEN_ROW\n # indent in cell\n if '\\n' in str(cell.value):\n cell.alignment = openpyxl.styles.Alignment(wrapText=True)\n # --- set column width\n for col in ws.columns:\n # init\n max_length = 0\n column = openpyxl.utils.get_column_letter(col[0].column)\n # loop\n for cell in col:\n if len(str(cell.value)) > max_length:\n max_length = len(str(cell.value)) * (STYLE_FONT_PASS.size+1)/11\n # output\n adjusted_width = (max_length + 2) * 1.2\n ws.column_dimensions[column].width = adjusted_width\n # ++++++++++\n # Sheet 3 <AllItems>\n # ++++++++++\n ws = wb['AllItems']\n # --- output all scenario\n ws['A1'] = '<出力一覧>'\n ws.merge_cells('A1:B1')\n self._write2excel(ws, self._scenario_info, 2, 1)\n for r in range(2,ws.max_row+1):\n for c in range(1,ws.max_column+1):\n ws.cell(r,c).border = BORDER\n # --- set styles\n for row in ws:\n for cell in row:\n # font color\n ws[cell.coordinate].font = STYLE_FONT_PASS\n cell.alignment = openpyxl.styles.Alignment(vertical='top')\n if cell.column==5:\n if ws[cell.coordinate].value =='FAIL':\n ws.cell(cell.row,1).font = STYLE_FONT_FAIL\n ws.cell(cell.row,2).font = STYLE_FONT_FAIL\n ws.cell(cell.row,3).font = STYLE_FONT_FAIL\n ws.cell(cell.row,4).font = STYLE_FONT_FAIL\n ws.cell(cell.row,5).font = STYLE_FONT_FAIL\n # cell color by header/even row\n if cell.row==2:\n ws[cell.coordinate].fill = STYLE_FILL_HEADER\n elif cell.row%2==0:\n ws[cell.coordinate].fill = STYLE_FILL_EVEN_ROW\n # indent in cell\n if '\\n' in str(cell.value):\n cell.alignment = openpyxl.styles.Alignment(wrapText=True)\n # --- set column width\n for col in ws.columns:\n # init\n max_length = 0\n column = openpyxl.utils.get_column_letter(col[0].column)\n # loop\n for cell in col:\n if len(str(cell.value)) > max_length:\n max_length = len(str(cell.value)) * (STYLE_FONT_PASS.size+1)/11\n # output\n adjusted_width = (max_length + 2) * 1.2\n ws.column_dimensions[column].width = adjusted_width\n # ++++++++++\n # save book\n # ++++++++++\n wb.save(self._filename)",
"def interactive_utility_report_with_buttons(year: int):\n utility_category_id = Category().get_category_id_by_name('Utility')\n monthly_utility_total = Spending().get_specific_category_monthly_spending(year, [utility_category_id])\n monthly_utility_details = Spending().get_sub_category_monthly_spending_of_a_category(year, [utility_category_id])\n\n df_monthly_total = pd.DataFrame(monthly_utility_total, columns=['sum', 'mon'])\n df_monthly_details = pd.DataFrame(monthly_utility_details, columns=['sum', 'name', 'mon'])\n\n df_water = df_monthly_details[df_monthly_details['name'] == 'Water and Waste']\n df_electricity = df_monthly_details[df_monthly_details['name'] == 'Electricity']\n df_internet = df_monthly_details[df_monthly_details['name'] == 'Internet']\n df_gas = df_monthly_details[df_monthly_details['name'] == 'Nature Gas']\n df_mobile = df_monthly_details[df_monthly_details['name'] == 'Mobile Bill']\n\n fig = go.Figure()\n # Add the total amount into figure as bar chart\n fig.add_trace(\n go.Bar(\n x=df_monthly_total['mon'],\n y=df_monthly_total['sum'],\n name=f\"{year} utility\"\n )\n )\n # Add water\n fig.add_trace(\n go.Scatter(x=df_water['mon'], y=df_water['sum'], name='Water',\n visible=False, line=dict(color=\"#5DADE2\"))\n )\n # Add Electricity\n fig.add_trace(\n go.Scatter(x=df_electricity['mon'], y=df_electricity['sum'], name='Electricity',\n visible=False, line=dict(color=\"#F7DC6F\"))\n )\n # Add Internet\n fig.add_trace(\n go.Scatter(x=df_internet['mon'], y=df_internet['sum'], name='Internet',\n visible=False, line=dict(color=\"#82E0AA\"))\n )\n # Add Gas\n fig.add_trace(\n go.Scatter(x=df_gas['mon'], y=df_gas['sum'], name='Gas',\n visible=False, line=dict(color=\"#E74C3C\"))\n )\n # Add Mobile\n fig.add_trace(\n go.Scatter(x=df_mobile['mon'], y=df_mobile['sum'], name='Mobile',\n visible=False, line=dict(color=\"#BB8FCE\"))\n )\n\n fig.update_layout(\n updatemenus=[\n dict(\n type='buttons',\n direction='right',\n active=0,\n x=0.57,\n y=1.2,\n buttons=list([\n dict(\n label='Total Utility Spending',\n method='update',\n args=[\n {'visible': [True, False, False, False, False, False]},\n {'title': 'Total Utility Spending', \"annotations\": []}\n ]\n ),\n dict(\n label='Water',\n method='update',\n args=[\n {'visible': [True, True, False, False, False, False]},\n {'title': 'Total vs Water', \"annotations\": []}\n ]\n ),\n dict(\n label='Electricity',\n method='update',\n args=[\n {'visible': [True, False, True, False, False, False]},\n {'title': 'Total vs Electricity', \"annotations\": []}\n ]\n ),\n dict(\n label='Internet',\n method='update',\n args=[\n {'visible': [True, False, False, True, False, False]},\n {'title': 'Total vs Internet', \"annotations\": []}\n ]\n ),\n dict(\n label='Gas',\n method='update',\n args=[\n {'visible': [True, False, False, False, True, False]},\n {'title': 'Total vs Gas', \"annotations\": []}\n ]\n ),\n dict(\n label='Mobile',\n method='update',\n args=[\n {'visible': [True, False, False, False, False, True]},\n {'title': 'Total vs Mobile', \"annotations\": []}\n ]\n ),\n ])\n )\n ]\n )\n\n fig.update_layout(\n {\n 'width': 1200,\n 'height': 550\n },\n overwrite=True\n )\n\n aPlot = plotly.offline.plot(fig,\n config={\"displayModeBar\": False},\n show_link=False,\n include_plotlyjs=False,\n output_type='div')\n\n return aPlot",
"def on_action_4_triggered(self):\n # TODO: not implemented yet\n model = self.model2\n self.doExport(model)\n #raise NotImplementedError",
"def export(self):\n\n rpt_date = datetime.now()\n filename = 'bushfire_by_cause_10yr_average_report_{}.xls'.format(rpt_date.strftime('%d%b%Y'))\n response = HttpResponse(content_type='application/vnd.ms-excel')\n response['Content-Disposition'] = 'attachment; filename=' + filename\n\n book = Workbook()\n self.get_excel_sheet(rpt_date, book)\n\n book.add_sheet('Sheet 2')\n book.save(response)\n\n return response",
"def export(self):\n\n rpt_date = datetime.now()\n filename = 'bushfire_by_tenure_report_{}.xls'.format(rpt_date.strftime('%d%b%Y'))\n response = HttpResponse(content_type='application/vnd.ms-excel')\n response['Content-Disposition'] = 'attachment; filename=' + filename\n\n book = Workbook()\n self.get_excel_sheet(rpt_date, book)\n\n book.add_sheet('Sheet 2')\n book.save(response)\n\n return response",
"def onGrid(self, event):\n dlg = wx.FileDialog(self, wildcard=\"*.csv\", style=wx.SAVE)\n if dlg.ShowModal() == wx.ID_OK:\n path = dlg.GetPath()\n self.model.exportToGrid(path)\n dlg.Destroy()"
] | [
"0.8460627",
"0.7932452",
"0.6818497",
"0.6281943",
"0.6180991",
"0.60903674",
"0.60903674",
"0.6024224",
"0.581339",
"0.5802216",
"0.5614354",
"0.5598515",
"0.5520664",
"0.5458214",
"0.5391262",
"0.5330301",
"0.532296",
"0.5302751",
"0.52959216",
"0.5270261",
"0.526801",
"0.5258824",
"0.5248189",
"0.5247741",
"0.5235412",
"0.52181053",
"0.5212715",
"0.5194538",
"0.5180299",
"0.51762134"
] | 0.8571107 | 0 |
Implementing click country groups grid export to excel button functionality | def click_country_groups_grid_export_to_excel_button(self):
self.click_grid_export_to_excel_button(self.country_groups_grid_div_id) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def click_re_analysis_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.re_analysis_grid_div_id)",
"def click_buy_and_sell_management_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.buy_and_sell_management_grid_div_id)",
"def click_vendor_price_list_detail_dial_digits_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_dial_digits_grid_div_id)",
"def click_vendor_price_list_detail_rates_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_rates_grid_div_id)",
"def click_export_to_excel_button(self):\n self.click_element(self.export_to_excel_button_locator, True)",
"def click_export_to_excel_button(self):\n self.click_element(self.export_to_excel_button_locator, True)",
"def click_vendor_price_list_detail_reference_rates_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_reference_rates_grid_div_id)",
"def onGrid(self, event):\n dlg = wx.FileDialog(self, wildcard=\"*.csv\", style=wx.SAVE)\n if dlg.ShowModal() == wx.ID_OK:\n path = dlg.GetPath()\n self.model.exportToGrid(path)\n dlg.Destroy()",
"def on_export_button(self, event):\n wildcard = \"Filtered _iso_res_filt.csv file (*_iso_res_filt.csv)|*_iso_res_filt.csv|\"\\\n \"All files (*.*)|*.*|\"\n defFile = self.datafile[:-4]+'_filt.csv'\n dlg = wx.FileDialog(\n self, message=\"Save file as ...\", \n defaultDir=self.currentDirectory, \n defaultFile=defFile, wildcard=wildcard, style=wx.SAVE\n )\n if dlg.ShowModal() == wx.ID_OK:\n path = dlg.GetPath()\n self.recalcAll()\n self.redrawAll()\n self.dataFrame['priorFilter'] = self.dataFrame['allFPass']\n self.dataFrame.to_csv(path, index=False)\n summaryCSVPath = path.split('.')[0] + '_median_[' + ''.join(self.calcNum) + ']_[' + ''.join(self.calcDen) + '].csv'\n self.writeSummaryCSV(summaryCSVPath)\n \n dlg.Destroy()",
"def export_16(text_col, processed_col, input_filepath,\n output_filepath, country):\n processed_list_8 = process_text(text_col, processed_col, input_filepath)\n processed_list_16 = []\n for name in processed_list_8:\n name, _ = split_half(name)\n processed_list_16.append(name)\n processed_list_16.append(_)\n\n for i in range(len(processed_list_16)):\n processed_list_16[i].to_excel(output_filepath +\n country + '_processed_' +\n str(i+1) + '.xlsx',\n index=False)\n return True",
"def __exportMenuTriggered(self, act):\n aw = self.activeWindow()\n if aw:\n exporterFormat = act.data()\n aw.exportFile(exporterFormat)",
"def export_data(self):\r\n stocks = {}\r\n headings = ['Security', 'Price', 'Change', 'Change %', '52 Week', 'Market Cap']\r\n\r\n for data in range(6):\r\n for items in self.root.main.treeview.get_children():\r\n values = self.root.main.treeview.item(items, 'values')\r\n if headings[data] not in stocks:\r\n stocks[headings[data]] = []\r\n stocks.get(headings[data]).append(values[data])\r\n\r\n df = pd.DataFrame(stocks, columns=headings)\r\n path = tk.filedialog.asksaveasfilename(title='Save File As...',\r\n filetypes=((\"CComma-separated values (.csv)\", \"*.csv\"), (\"Text Document(.txt)\", \"*.txt\")))\r\n\r\n if not path:\r\n return\r\n else:\r\n df.to_excel(path, index=False, header=True)",
"def exportGIS(self, tabindex, curcycle):\n ubdata.exportGISShapeFile(self, tabindex, curcycle)\n ubdata.writeGeoJSONTempFiles(self, tabindex, curcycle)\n return True",
"def export_ho_dan_as_excel_action(fields=None, exclude=None, header=True):\n def export_as_excel(modeladmin, request, queryset):\n opts = modeladmin.model._meta\n field_names = [\"name\", \"status\", \"location\", \"tinh\",\n \"xa\", \"huyen\", \"phone\", \"cuuho\", \"update_time\", \"note\"]\n display_names = [\"Tên hộ dân\", \"Tình trạng\", \"Vị trí\", \"Tỉnh\", \"Xã\",\n \"Huyện\", \"Sdt\", \"hỗ trợ\", \"Thời gian cuối cùng cập nhật\", \"Ghi chú\"]\n file_name = \"Danh_sach_ho_dan\"\n\n output = io.BytesIO()\n\n workbook = xlsxwriter.Workbook(output, {'in_memory': True})\n worksheet = workbook.add_worksheet()\n row = 0\n if header:\n write_a_row(worksheet, row, display_names)\n row += 1\n for obj in queryset:\n arr = []\n for field in field_names:\n if field == \"status\" and obj.status:\n arr.append(obj.status.name)\n elif field == \"update_time\":\n utc_time = getattr(obj, field)\n local_datetime = utc_to_local(utc_time)\n arr.append(local_datetime.strftime(\"%d/%m/%Y %H:%M:%S\"))\n else:\n arr.append(str(getattr(obj, field) or \"\"))\n write_a_row(worksheet, row, arr)\n row += 1\n\n workbook.close()\n\n output.seek(0)\n\n response = HttpResponse(output.read(\n ), content_type=\"application/vnd.openxmlformats-officedocument.spreadsheetml.sheet\")\n response['Content-Disposition'] = f\"attachment; filename={file_name}.xlsx\"\n\n output.close()\n\n return response\n\n export_as_excel.short_description = \"Xuất file excel\"\n return export_as_excel",
"def export_data(self):\r\n if len(app.entry6.get()) != 0:\r\n\r\n if app.var.get() == 'xls':\r\n\r\n wb = Workbook()\r\n sheet = wb.add_sheet('Sheet1')\r\n self.columns = ['id', 'Name', 'Section', 'Dept.', 'Gpa', 'MP1', 'MP2', 'MP3', 'MT', 'FINAL']\r\n style = xlwt.easyxf('font: bold 1')\r\n for col in range(10):\r\n sheet.write(0, col, self.columns[col], style)\r\n index=0\r\n for row in range(1,162):\r\n sheet.write(row, 1, open_data.sort_list[index])\r\n index += 1\r\n index1 = -1\r\n for row in range(1,162):\r\n index1 += 1\r\n index2=0\r\n for col in range(10):\r\n if col == 1 or index2 == 1:\r\n index2 += 1\r\n continue\r\n if index2 == 0:\r\n sheet.write(row, col, int(open_data.student[open_data.sort_list[index1]][index2]))\r\n index2 += 1\r\n continue\r\n sheet.write(row, col, open_data.student[open_data.sort_list[index1]][index2])\r\n index2 += 1\r\n file_name=app.entry6.get()\r\n if '.xls' not in file_name:\r\n wb.save(file_name+'.xls')\r\n else:\r\n wb.save(file_name)\r\n\r\n elif app.var.get() == 'txt':\r\n\r\n file_name = app.entry6.get()\r\n if '.txt' not in file_name:\r\n file_name = file_name + '.txt'\r\n file = open(file_name, 'w')\r\n index2 = 0\r\n for key in open_data.student:\r\n for index in range(10):\r\n if index == 0:\r\n file.write(str(int(open_data.student[key][index])))\r\n file.write(', ')\r\n continue\r\n if index == 1:\r\n try:\r\n self.split_names = open_data.sort_list[index2].split(' ')\r\n file.write(self.split_names[0])\r\n file.write(', ')\r\n file.write(self.split_names[1])\r\n file.write(', ')\r\n index2 += 1\r\n except UnicodeEncodeError:\r\n index2 += 1\r\n pass\r\n continue\r\n if index >= 5 and index <= 9:\r\n if open_data.student[key][index] != '':\r\n file.write(str(int(open_data.student[key][index])))\r\n file.write(', ')\r\n else:\r\n file.write('\\n')\r\n break\r\n if index == 9:\r\n file.write('\\n')\r\n continue\r\n try:\r\n file.write(str(open_data.student[key][index]))\r\n file.write(', ')\r\n except UnicodeEncodeError:\r\n pass\r\n file.close()\r\n\r\n\r\n\r\n elif app.var.get() == 'csv':\r\n app.info.configure(text=\"INFO: Type not Supported\")\r\n # The program does not support saving in 'csv' type. If the user selects 'csv' file type, 'Info' Label\r\n # shows the message: 'INFO: Type not Supported'.\r\n\r\n else:\r\n app.info.configure(text='INFO: Type not chosen!')\r\n # Also, If the user presses on 'Export Data' button, with a file name provided, but without choosing a\r\n # file type, 'Info' Label shows the message: 'INFO: Type not chosen'.\r\n\r\n else:\r\n app.info.configure(text=\"INFO: Please provide the name of the file.\")\r\n # Also, if the user presses 'Export Data' button without giving a file name, 'Info' Label shows the message:\r\n # 'INFO: Please provide the name of the file.'\r",
"def onExport(self, event):\n dlg = wx.FileDialog(self, wildcard=\"*.csv\", style=wx.SAVE)\n if dlg.ShowModal() == wx.ID_OK:\n path = dlg.GetPath()\n self.model.exportAssignments(path)\n dlg.Destroy()",
"def export_outstanding_fires(request, region_id, queryset):\n #regions = Region.objects.filter(id=region_id) if region_id else Region.objects.all()\n regions = Region.objects.filter(id=region_id) if region_id else Region.objects.filter(dbca=True)\n region_name = regions[0].name if region_id else 'All-Regions'\n\n rpt_date = datetime.now()\n filename = 'outstanding_fires_{}_{}.xls'.format(region_name, rpt_date.strftime('%d%b%Y'))\n response = HttpResponse(content_type='application/vnd.ms-excel')\n response['Content-Disposition'] = 'attachment; filename=' + filename\n\n book = Workbook()\n for region in regions:\n outstanding_fires(book, region, queryset, rpt_date)\n\n book.add_sheet('Sheet 2')\n book.save(response)\n\n return response",
"def save_GRID( self , filename ):\n self._fwrite_GRID( filename )",
"def on_action_4_triggered(self):\n # TODO: not implemented yet\n model = self.model2\n self.doExport(model)\n #raise NotImplementedError",
"def _after_export(self, *args, **kwargs):\n return",
"def click_country_group(self):\n self.click_element(self.country_groups_locator, script_executor=True)",
"def export_to_csv(da_locals, selection_widget, out):\n df_name = selection_widget.value\n da_locals[df_name].to_csv(\"output/{}.csv\".format(df_name), index=False)\n out.clear_output()\n out.append_display_data(FileLinks(\"output\"))",
"def export_everything(self):\n orderby = self.orderby.get()\n currentregion = self.region.get()\n previoustext = self.tabs.window.statuslabel['text']\n res = tkinter.messagebox.askyesno(\n 'Export Everything',\n 'Exporting data on all AIS stations, this may take some time.')\n if res:\n outpath = tkinter.filedialog.askdirectory()\n if outpath:\n self.tabs.window.statuslabel.config(\n text='Exporting all AIS station data to - {}'.format(\n outpath),\n fg='black', bg='gold')\n self.update_idletasks()\n export.export_overview(\n self.tabs.window.aistracker,\n self.tabs.window.nmeatracker,\n self.tabs.window.messagelog,\n outpath, orderby=orderby, region=currentregion)\n export.export_everything(\n self.tabs.window.aistracker,\n self.tabs.window.messagelog,\n outpath, orderby=orderby, region=currentregion)\n self.tabs.window.statuslabel.config(\n text=previoustext, bg='light grey')\n else:\n raise ExportAborted(\n 'Export of all AIS data cancelled by user.')\n else:\n raise ExportAborted('Export of all AIS data cancelled by user.')",
"def export(self):\r\n self.prices[\"returns\"] = self.returns\r\n self.prices.columns = ['prices', 'returns']\r\n self.prices = self.prices.dropna()\r\n \r\n name = QFileDialog.getSaveFileName(None, 'Save File', filter='*.xlsx')\r\n if(name[0] == ''):\r\n # if name empty\r\n pass\r\n else:\r\n self.prices.to_excel(name[0])",
"def on_show_eqp_datasheet_export(self):\n from EqpDatasheetExportDialog import QEqpDatasheetExportDialog\n\n dlg = QEqpDatasheetExportDialog(self)\n dlg.exec_()",
"def exporter():\n Session = modules.db_connect.connect()\n session = Session()\n report = xlsxwriter.Workbook('perception_report.xlsx')\n top_row_format = report.add_format({'bold': True})\n top_row_format.set_border(style=1)\n top_row_format.set_bg_color('#B8B8B8')\n\n \"\"\"Black row format at the top of each host detailed info\"\"\"\n black_row_format = report.add_format()\n black_row_format.set_border(style=1)\n black_row_format.set_bg_color('#000000')\n\n \"\"\"Detailed host row format\"\"\"\n host_row_format = report.add_format()\n host_row_format.set_border(style=1)\n host_row_format.set_bg_color('#CCCCCC')\n\n \"\"\"Format for text in row with host info\"\"\"\n host_row_wrapped_format = report.add_format()\n host_row_wrapped_format.set_border(style=1)\n host_row_wrapped_format.set_bg_color('#CCCCCC')\n host_row_wrapped_format.set_text_wrap('vjustify')\n\n \"\"\"Format description row in NSE output\"\"\"\n host_nse_output_top_format = report.add_format({'bold': True})\n host_nse_output_top_format.set_border(style=1)\n host_nse_output_top_format.set_bg_color('#B8B8B8')\n\n \"\"\"Format test row in NSE output\"\"\"\n host_nse_output_format = report.add_format()\n host_nse_output_format.set_border(style=1)\n host_nse_output_format.set_bg_color('#CCCCCC')\n\n \"\"\"Build the host_overview_worksheet\"\"\"\n host_overview_worksheet = report.add_worksheet()\n\n \"\"\"Build the host_detail_worksheet\"\"\"\n host_detail_worksheet = report.add_worksheet()\n\n \"\"\"Size up the overview worksheet\"\"\"\n host_overview_worksheet.set_column('B:B', 24)\n host_overview_worksheet.set_column('C:C', 15)\n host_overview_worksheet.set_column('D:D', 15)\n host_overview_worksheet.set_column('E:E', 15)\n host_overview_worksheet.set_column('F:F', 15)\n host_overview_worksheet.set_column('G:G', 20)\n host_overview_worksheet.set_column('H:H', 15)\n\n \"\"\"Size up the detail worksheet\"\"\"\n host_detail_worksheet.set_column('B:B', 38)\n host_detail_worksheet.set_column('C:C', 16)\n host_detail_worksheet.set_column('D:D', 16)\n host_detail_worksheet.set_column('E:E', 28)\n host_detail_worksheet.set_column('F:F', 15)\n host_detail_worksheet.set_column('H:G', 20)\n host_detail_worksheet.set_column('H:H', 25)\n host_detail_worksheet.set_column('I:I', 10)\n\n \"\"\"Description row for host overview\"\"\"\n host_overview_worksheet.write('B2', 'Hostname', top_row_format)\n host_overview_worksheet.write('C2', 'IP v4 Address', top_row_format)\n host_overview_worksheet.write('D2', 'IP v6 Address', top_row_format)\n host_overview_worksheet.write('E2', 'MAC Address', top_row_format)\n host_overview_worksheet.write('F2', 'MAC Vendor', top_row_format)\n host_overview_worksheet.write('G2', 'Operating System', top_row_format)\n host_overview_worksheet.write('H2', 'Host Type', top_row_format)\n\n \"\"\"Query the database for the hosts\"\"\"\n inventory_hosts = session.query(InventoryHost).all()\n\n \"\"\"Build overview worksheet\"\"\"\n overview_row = 2\n overview_col = 1\n for host in inventory_hosts:\n host_overview_worksheet.write(overview_row, overview_col, host.host_name, host_row_format)\n host_overview_worksheet.write(overview_row, overview_col + 1, host.ipv4_addr, host_row_format)\n host_overview_worksheet.write(overview_row, overview_col + 2, host.ipv6_addr, host_row_format)\n host_overview_worksheet.write(overview_row, overview_col + 3, host.macaddr, host_row_format)\n host_overview_worksheet.write(overview_row, overview_col + 4, host.mac_vendor.name, host_row_format)\n host_overview_worksheet.write(overview_row, overview_col + 5, host.product.name, host_row_format)\n host_overview_worksheet.write(overview_row, overview_col + 6, host.host_type, host_row_format)\n overview_row += 1\n\n \"\"\"Build detailed worksheet\"\"\"\n detail_row = 2\n detail_col = 1\n for host in inventory_hosts:\n\n \"\"\"Add the black row to start host detail info\"\"\"\n host_detail_worksheet.set_row(detail_row, 5)\n host_detail_worksheet.write(detail_row, detail_col, '', black_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 1, '', black_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 2, '', black_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 3, '', black_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 4, '', black_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 5, '', black_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 6, '', black_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 7, '', black_row_format)\n detail_row += 1\n\n \"\"\"Add row detail info\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, 'Hostname', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 1, 'IP v4 Address', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 2, 'IP v6 Address', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 3, 'MAC Address', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 4, 'MAC Vendor', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 5, 'Host Type', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 6, 'Operating System', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 7, 'Version', top_row_format)\n detail_row += 1\n\n \"\"\"Add host info\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, host.host_name, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 1, host.ipv4_addr, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 2, host.ipv6_addr, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 3, host.macaddr, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 4, host.mac_vendor.name, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 5, host.host_type, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 6, host.product.name, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 7, host.product.version, host_row_format)\n detail_row += 2\n\n \"\"\"If there is no host nse script, just say so.\"\"\"\n if not host.host_nse_scripts:\n host_detail_worksheet.write(detail_row, detail_col, 'Host NSE Script Name', top_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row, detail_col + 7,\n 'Output', top_row_format)\n detail_row += 1\n host_detail_worksheet.write(detail_row, detail_col, 'No Script Name', host_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row, detail_col + 7,\n 'No Script Output', host_row_wrapped_format)\n detail_row += 2\n else:\n\n \"\"\"Add the row detail\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, 'Host NSE Script Name', top_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row, detail_col + 7,\n 'Output', top_row_format)\n detail_row += 1\n\n \"\"\"Grab all the scripts\"\"\"\n for host_scripts in host.host_nse_scripts:\n\n \"\"\"Count output the lines so we know what to merge\"\"\"\n lines = host_scripts.output.count('\\n')\n\n if lines > 0:\n\n \"\"\"Merge the rows and write the name and output\"\"\"\n host_detail_worksheet.merge_range(detail_row, detail_col, detail_row + lines, detail_col,\n host_scripts.name, host_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row + lines, detail_col + 7,\n host_scripts.output, host_row_wrapped_format)\n detail_row += 1\n else:\n\n \"\"\"Single line output\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, host_scripts.name, host_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row + lines, detail_col + 7,\n host_scripts.output, host_row_wrapped_format)\n detail_row += 1\n\n if not host.inventory_svcs:\n\n \"\"\"If there are no services for this host tell me\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, 'Protocol', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 1, 'Port', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 2, 'Name', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 3, 'Svc Product', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 4, 'Extra Info', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 5, 'Product', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 6, 'Version', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 7, 'Update', top_row_format)\n detail_row += 1\n\n host_detail_worksheet.write(detail_row, detail_col, 'no services', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 1, 'no services', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 2, 'no services', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 3, 'no services', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 4, 'no services', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 5, 'no services', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 6, 'no services', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 7, 'no services', host_row_format)\n detail_row += 1\n\n else:\n for ports in host.inventory_svcs:\n\n \"\"\"Host services row info\"\"\"\n detail_row += 1\n host_detail_worksheet.write(detail_row, detail_col, 'Protocol', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 1, 'Port', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 2, 'Name', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 3, 'Svc Product', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 4, 'Extra Info', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 5, 'Product', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 6, 'Version', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 7, 'Update', top_row_format)\n detail_row += 1\n\n \"\"\"Write the service info\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, ports.protocol, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 1, ports.portid, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 2, ports.name, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 3, ports.svc_product, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 4, ports.extra_info, host_row_format)\n try:\n\n \"\"\"There may not be product info, but try.\"\"\"\n host_detail_worksheet.write(detail_row, detail_col + 5, ports.product.name, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 6, ports.product.version, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 7, ports.product.product_update,\n host_row_format)\n detail_row += 1\n except AttributeError:\n\n \"\"\"Just write unknown if there is no product info\"\"\"\n host_detail_worksheet.write(detail_row, detail_col + 5, 'unknown', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 6, 'unknown', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 7, 'unknown', host_row_format)\n detail_row += 1\n\n if not ports.svc_nse_scripts:\n\n \"\"\"If there is no NSE script info just say so.\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, 'Svc NSE Script Name', top_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row, detail_col + 7,\n 'Output', top_row_format)\n detail_row += 1\n host_detail_worksheet.write(detail_row, detail_col, 'No Script Name', host_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row, detail_col + 7,\n 'No Script Output', host_row_wrapped_format)\n detail_row += 2\n\n else:\n\n \"\"\"Service Script row detail\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, 'Svc NSE Script Name', top_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row, detail_col + 7,\n 'Output', top_row_format)\n detail_row += 1\n\n \"\"\"Grab all the scripts\"\"\"\n for nse_scripts in ports.svc_nse_scripts:\n\n \"\"\"Count the lines in the output for merging\"\"\"\n lines = nse_scripts.output.count('\\n')\n\n if lines > 0:\n\n \"\"\"Merge the rows and write the name and output\"\"\"\n host_detail_worksheet.merge_range(detail_row, detail_col, detail_row + lines, detail_col,\n nse_scripts.name, host_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row + lines, detail_col + 7,\n nse_scripts.output, host_row_wrapped_format)\n detail_row += 1\n else:\n\n \"\"\"Single line output\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, nse_scripts.name, host_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row + lines,\n detail_col + 7, nse_scripts.output,\n host_row_wrapped_format)\n detail_row += 1\n\n detail_row += 1\n report.close()\n session.close()",
"def export_csv(self):\n outputfile = tkinter.filedialog.asksaveasfilename(\n defaultextension=\".csv\",\n filetypes=((\"comma seperated values\", \"*.csv\"),\n (\"All Files\", \"*.*\")))\n if outputfile:\n tabledata = self.tabs.window.aistracker.create_table_data()\n export.write_csv_file(tabledata, outputfile)\n else:\n raise ExportAborted('Export cancelled by user.')",
"def _export_button_cb(self):\n filename = asksaveasfile(\n mode='w',\n filetypes=(('YAML files', '*.yaml'), ('All files', '*.*'))\n )\n\n if not filename:\n return\n\n with open(filename.name, 'w') as f:\n f.write('obstacles:\\n')\n for obstacle in self.obstacles:\n f.write(f' - {str(obstacle)}')\n f.write('\\n')",
"def on_export(self):\n path = os.path.dirname(os.path.realpath(__file__))\n\n filters = ('Portable Network Graphics (*.png);;'\n 'Portable Document Format (*.pdf);;'\n 'Postscript (*.ps);;'\n 'Encapsulated Postscript (*.eps);;'\n 'Scalable Vector Graphics (*.svg)')\n\n filename = QtGui.QFileDialog.getSaveFileName(self,\n caption='Export figure',\n directory=path,\n filter=filters)\n filename = str(filename)\n\n if filename != '':\n previous_size = self.fig.get_size_inches()\n self.fig.set_size_inches(float(self.le_width.text()),\n float(self.le_height.text()))\n\n dpi = int(self.le_dpi.text())\n\n self.fig.savefig(filename, dpi=dpi, bbox_inches='tight')\n self.fig.set_size_inches(previous_size)\n\n self.canvas.draw()",
"def export_to_excel(self, workbook, tailan_queryset):\n\t\t# workbook argumentdaa avna\n\t\tif tailan_queryset:\n\t\t\t#[row_write, col_write] = self.excel_write_header_and_format(worksheet, row_start, col_start)\n\t\t\t\n\t\t\tworksheet = workbook.add_worksheet(u'Гүний худаг')\n\t\t\tqueryset = Hudag.objects.none()\n\t\t\trow_write = 5\n\t\t\tcol_write = 1\n\t\t\t[row_write, col_write] = Hudag.excel_write_header_and_format(worksheet = worksheet, row_start = row_write, col_start = col_write)\n\t\t\tfor tailan in tailan_queryset:\n\t\t\t\tif tailan.gunii_hudags:\n\t\t\t\t\tqueryset = tailan.gunii_hudags.hudags.all()\n\t\t\t\t\t[row_write, col_write] = Hudag.export_to_excel_without_header(worksheet = worksheet, row_start=row_write, col_start=col_write, queryset = queryset, date_time = tailan.tailan_date)\n\n\n\t\t\tworksheet = workbook.add_worksheet(u'Цэвэршүүлэх байгууламж')\n\t\t\tqueryset = Ts_baiguulamj.objects.none()\n\t\t\trow_write = 5\n\t\t\tcol_write = 1\n\t\t\t[row_write, col_write] = Ts_baiguulamj.excel_write_header_and_format(worksheet = worksheet, row_start = row_write, col_start = col_write)\n\t\t\tfor tailan in tailan_queryset:\n\t\t\t\tif tailan.tsevershuuleh:\n\t\t\t\t\tqueryset = tailan.tsevershuuleh.tsevershuuleh.all()\n\t\t\t\t\t[row_write, col_write] = Ts_baiguulamj.export_to_excel_without_header(worksheet = worksheet, row_start=row_write, col_start=col_write, queryset = queryset, date_time = tailan.tailan_date)\n\t\t\t\n\n\t\t\tworksheet = workbook.add_worksheet(u'Цэвэрлэх байгууламж')\n\t\t\tqueryset = Ts_baiguulamj.objects.none()\n\t\t\trow_write = 5\n\t\t\tcol_write = 1\n\t\t\t[row_write, col_write] = Ts_baiguulamj.excel_write_header_and_format(worksheet = worksheet, row_start = row_write, col_start = col_write)\n\t\t\tfor tailan in tailan_queryset:\n\t\t\t\tif tailan.tseverleh:\n\t\t\t\t\tqueryset = tailan.tseverleh.tseverleh.all()\n\t\t\t\t\t[row_write, col_write] = Ts_baiguulamj.export_to_excel_without_header(worksheet = worksheet, row_start=row_write, col_start=col_write, queryset = queryset, date_time = tailan.tailan_date)\n\t\t\t\n\n\t\t\tworksheet = workbook.add_worksheet(u'Усан сан')\n\t\t\tqueryset = UsanSan.objects.none()\n\t\t\trow_write = 5\n\t\t\tcol_write = 1\n\t\t\t[row_write, col_write] = UsanSan.excel_write_header_and_format(worksheet = worksheet, row_start = row_write, col_start = col_write)\n\t\t\tfor tailan in tailan_queryset:\n\t\t\t\tif tailan.usansan:\n\t\t\t\t\tqueryset = tailan.usansan.usan_sans.all()\n\t\t\t\t\t[row_write, col_write] = UsanSan.export_to_excel_without_header(worksheet = worksheet, row_start=row_write, col_start=col_write, queryset = queryset, date_time = tailan.tailan_date)\n\t\t\t\n\n\t\t\tworksheet = workbook.add_worksheet(u'Цэвэр усны насос станц')\n\t\t\tqueryset = NasosStants.objects.none()\n\t\t\trow_write = 5\n\t\t\tcol_write = 1\n\t\t\t[row_write, col_write] = NasosStants.excel_write_header_and_format(worksheet = worksheet, row_start = row_write, col_start = col_write)\n\t\t\tfor tailan in tailan_queryset:\n\t\t\t\tif tailan.tsever_nasos_stants:\n\t\t\t\t\tqueryset = tailan.tsever_nasos_stants.nasos_stantss.all()\n\t\t\t\t\t[row_write, col_write] = NasosStants.export_to_excel_without_header(worksheet = worksheet, row_start=row_write, col_start=col_write, queryset = queryset, date_time = tailan.tailan_date)\n\t\t\t\n\n\t\t\tworksheet = workbook.add_worksheet(u'Бохир усны насос станц')\n\t\t\tqueryset = NasosStants.objects.none()\n\t\t\trow_write = 5\n\t\t\tcol_write = 1\n\t\t\t[row_write, col_write] = NasosStants.excel_write_header_and_format(worksheet = worksheet, row_start = row_write, col_start = col_write)\n\t\t\tfor tailan in tailan_queryset:\n\t\t\t\tif tailan.bohir_nasos_stants:\n\t\t\t\t\tqueryset = tailan.bohir_nasos_stants.nasos_stantss.all()\n\t\t\t\t\t[row_write, col_write] = NasosStants.export_to_excel_without_header(worksheet = worksheet, row_start=row_write, col_start=col_write, queryset = queryset, date_time = tailan.tailan_date)\n\n\t\t\tworksheet = workbook.add_worksheet(u'Лаборатори')\n\t\t\tqueryset = Lab.objects.none()\n\t\t\trow_write = 5\n\t\t\tcol_write = 1\n\t\t\t[row_write, col_write] = Lab.excel_write_header_and_format(worksheet = worksheet, row_start = row_write, col_start = col_write)\n\t\t\tfor tailan in tailan_queryset:\n\t\t\t\tif tailan.lab:\n\t\t\t\t\tqueryset = tailan.lab.labs.all()\n\t\t\t\t\t[row_write, col_write] = Lab.export_to_excel_without_header(worksheet = worksheet, row_start=row_write, col_start=col_write, queryset = queryset, date_time = tailan.tailan_date)\n\n\t\t\tworksheet = workbook.add_worksheet(u'Цэвэр усны шугам')\n\t\t\tqueryset = Sh_suljee.objects.none()\n\t\t\trow_write = 5\n\t\t\tcol_write = 1\n\t\t\t[row_write, col_write] = Sh_suljee.excel_write_header_and_format(worksheet = worksheet, row_start = row_write, col_start = col_write)\n\t\t\tfor tailan in tailan_queryset:\n\t\t\t\tif tailan.tsever_usnii_shugam:\n\t\t\t\t\tqueryset = tailan.tsever_usnii_shugam.sh_suljees.all()\n\t\t\t\t\t[row_write, col_write] = Sh_suljee.export_to_excel_without_header(worksheet = worksheet, row_start=row_write, col_start=col_write, queryset = queryset, date_time = tailan.tailan_date)\n\n\t\t\tworksheet = workbook.add_worksheet(u'Бохир усны шугам')\n\t\t\tqueryset = Sh_suljee.objects.none()\n\t\t\trow_write = 5\n\t\t\tcol_write = 1\n\t\t\t[row_write, col_write] = Sh_suljee.excel_write_header_and_format(worksheet = worksheet, row_start = row_write, col_start = col_write)\n\t\t\tfor tailan in tailan_queryset:\n\t\t\t\tif tailan.bohir_usnii_shugam:\n\t\t\t\t\tqueryset = tailan.bohir_usnii_shugam.sh_suljees.all()\n\t\t\t\t\t[row_write, col_write] = Sh_suljee.export_to_excel_without_header(worksheet = worksheet, row_start=row_write, col_start=col_write, queryset = queryset, date_time = tailan.tailan_date)\n\n\t\t\tworksheet = workbook.add_worksheet(u'АХББ')\n\t\t\tqueryset = ABB.objects.none()\n\t\t\trow_write = 5\n\t\t\tcol_write = 1\n\t\t\t[row_write, col_write] = ABB.excel_write_header_and_format(worksheet = worksheet, row_start = row_write, col_start = col_write)\n\t\t\tfor tailan in tailan_queryset:\n\t\t\t\tif tailan.abb:\n\t\t\t\t\tqueryset = tailan.abb.abbs.all()\n\t\t\t\t\t[row_write, col_write] = ABB.export_to_excel_without_header(worksheet = worksheet, row_start=row_write, col_start=col_write, queryset = queryset, date_time = tailan.tailan_date)\n\n\t\t\tworksheet = workbook.add_worksheet(u'Ус, дулаан дамжуулах төв')\n\t\t\tqueryset = UsDamjuulahBair.objects.none()\n\t\t\trow_write = 5\n\t\t\tcol_write = 1\n\t\t\t[row_write, col_write] = UsDamjuulahBair.excel_write_header_and_format(worksheet = worksheet, row_start = row_write, col_start = col_write)\n\t\t\tfor tailan in tailan_queryset:\n\t\t\t\tif tailan.us_damjuulah_tov:\n\t\t\t\t\tqueryset = tailan.us_damjuulah_tov.usDamjuulahBair.all()\n\t\t\t\t\t[row_write, col_write] = UsDamjuulahBair.export_to_excel_without_header(worksheet = worksheet, row_start=row_write, col_start=col_write, queryset = queryset, date_time = tailan.tailan_date)\n\n\t\t\tworksheet = workbook.add_worksheet(u'Ус түгээх байр')\n\t\t\tqueryset = UsTugeehBair.objects.none()\n\t\t\trow_write = 5\n\t\t\tcol_write = 1\n\t\t\t[row_write, col_write] = UsTugeehBair.excel_write_header_and_format(worksheet = worksheet, row_start = row_write, col_start = col_write)\n\t\t\tfor tailan in tailan_queryset:\n\t\t\t\tif tailan.us_tugeeh:\n\t\t\t\t\tqueryset = tailan.us_tugeeh.us_tugeeh_bairs.all()\n\t\t\t\t\t[row_write, col_write] = UsTugeehBair.export_to_excel_without_header(worksheet = worksheet, row_start=row_write, col_start=col_write, queryset = queryset, date_time = tailan.tailan_date)\n\n\t\t\tworksheet = workbook.add_worksheet(u'Цэвэр усны машин')\n\t\t\tqueryset = WaterCar.objects.none()\n\t\t\trow_write = 5\n\t\t\tcol_write = 1\n\t\t\t[row_write, col_write] = WaterCar.excel_write_header_and_format(worksheet = worksheet, row_start = row_write, col_start = col_write)\n\t\t\tfor tailan in tailan_queryset:\n\t\t\t\tif tailan.water_car:\n\t\t\t\t\tqueryset = tailan.water_car.water_cars.all()\n\t\t\t\t\t[row_write, col_write] = WaterCar.export_to_excel_without_header(worksheet = worksheet, row_start=row_write, col_start=col_write, queryset = queryset, date_time = tailan.tailan_date)\n\n\t\t\tworksheet = workbook.add_worksheet(u'Бохир усны машин')\n\t\t\tqueryset = BohirCar.objects.none()\n\t\t\trow_write = 5\n\t\t\tcol_write = 1\n\t\t\t[row_write, col_write] = BohirCar.excel_write_header_and_format(worksheet = worksheet, row_start = row_write, col_start = col_write)\n\t\t\tfor tailan in tailan_queryset:\n\t\t\t\tif tailan.bohir_car:\n\t\t\t\t\tqueryset = tailan.bohir_car.bohir_cars.all()\n\t\t\t\t\t[row_write, col_write] = BohirCar.export_to_excel_without_header(worksheet = worksheet, row_start=row_write, col_start=col_write, queryset = queryset, date_time = tailan.tailan_date)\n\n\t\t\tworksheet = workbook.add_worksheet(u'Ажилчдын судалгаа')\n\t\t\trow_write = 5\n\t\t\tcol_write = 1\n\t\t\t[row_write, col_write] = Ajiltan.excel_write_header_and_format(worksheet = worksheet, row_start = row_write, col_start = col_write)\n\t\t\tfor tailan in tailan_queryset:\n\t\t\t\tif tailan.ajiltans:\n\t\t\t\t\tqueryset = tailan.ajiltans.ajiltans.all()\n\t\t\t\t\t[row_write, col_write] = Ajiltan.export_to_excel_without_header(worksheet = worksheet, row_start=row_write, col_start=col_write, queryset = queryset, date_time = tailan.tailan_date)\n\t\t\t\t\n\t\telse:\n\t\t\tworksheet.write_string(row_start, col_start, u'Мэдээлэл байхгүй')"
] | [
"0.72600687",
"0.65999967",
"0.6595901",
"0.648453",
"0.6475163",
"0.6475163",
"0.6382297",
"0.60361576",
"0.59788865",
"0.5730149",
"0.5688217",
"0.5541327",
"0.55239135",
"0.5442516",
"0.5418111",
"0.53340584",
"0.53132385",
"0.5305887",
"0.5281521",
"0.5277746",
"0.5275525",
"0.52722603",
"0.5260048",
"0.52450806",
"0.5236054",
"0.5225783",
"0.522312",
"0.5215641",
"0.5209496",
"0.5148891"
] | 0.8869671 | 0 |
Implementing click re analysis grid export to excel button functionality | def click_re_analysis_grid_export_to_excel_button(self):
self.click_grid_export_to_excel_button(self.re_analysis_grid_div_id) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def click_buy_and_sell_management_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.buy_and_sell_management_grid_div_id)",
"def click_export_to_excel_button(self):\n self.click_element(self.export_to_excel_button_locator, True)",
"def click_export_to_excel_button(self):\n self.click_element(self.export_to_excel_button_locator, True)",
"def click_country_groups_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.country_groups_grid_div_id)",
"def click_vendor_price_list_detail_rates_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_rates_grid_div_id)",
"def click_vendor_price_list_detail_dial_digits_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_dial_digits_grid_div_id)",
"def click_vendor_price_list_detail_reference_rates_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_reference_rates_grid_div_id)",
"def onGrid(self, event):\n dlg = wx.FileDialog(self, wildcard=\"*.csv\", style=wx.SAVE)\n if dlg.ShowModal() == wx.ID_OK:\n path = dlg.GetPath()\n self.model.exportToGrid(path)\n dlg.Destroy()",
"def on_export_button(self, event):\n wildcard = \"Filtered _iso_res_filt.csv file (*_iso_res_filt.csv)|*_iso_res_filt.csv|\"\\\n \"All files (*.*)|*.*|\"\n defFile = self.datafile[:-4]+'_filt.csv'\n dlg = wx.FileDialog(\n self, message=\"Save file as ...\", \n defaultDir=self.currentDirectory, \n defaultFile=defFile, wildcard=wildcard, style=wx.SAVE\n )\n if dlg.ShowModal() == wx.ID_OK:\n path = dlg.GetPath()\n self.recalcAll()\n self.redrawAll()\n self.dataFrame['priorFilter'] = self.dataFrame['allFPass']\n self.dataFrame.to_csv(path, index=False)\n summaryCSVPath = path.split('.')[0] + '_median_[' + ''.join(self.calcNum) + ']_[' + ''.join(self.calcDen) + '].csv'\n self.writeSummaryCSV(summaryCSVPath)\n \n dlg.Destroy()",
"def exporter():\n Session = modules.db_connect.connect()\n session = Session()\n report = xlsxwriter.Workbook('perception_report.xlsx')\n top_row_format = report.add_format({'bold': True})\n top_row_format.set_border(style=1)\n top_row_format.set_bg_color('#B8B8B8')\n\n \"\"\"Black row format at the top of each host detailed info\"\"\"\n black_row_format = report.add_format()\n black_row_format.set_border(style=1)\n black_row_format.set_bg_color('#000000')\n\n \"\"\"Detailed host row format\"\"\"\n host_row_format = report.add_format()\n host_row_format.set_border(style=1)\n host_row_format.set_bg_color('#CCCCCC')\n\n \"\"\"Format for text in row with host info\"\"\"\n host_row_wrapped_format = report.add_format()\n host_row_wrapped_format.set_border(style=1)\n host_row_wrapped_format.set_bg_color('#CCCCCC')\n host_row_wrapped_format.set_text_wrap('vjustify')\n\n \"\"\"Format description row in NSE output\"\"\"\n host_nse_output_top_format = report.add_format({'bold': True})\n host_nse_output_top_format.set_border(style=1)\n host_nse_output_top_format.set_bg_color('#B8B8B8')\n\n \"\"\"Format test row in NSE output\"\"\"\n host_nse_output_format = report.add_format()\n host_nse_output_format.set_border(style=1)\n host_nse_output_format.set_bg_color('#CCCCCC')\n\n \"\"\"Build the host_overview_worksheet\"\"\"\n host_overview_worksheet = report.add_worksheet()\n\n \"\"\"Build the host_detail_worksheet\"\"\"\n host_detail_worksheet = report.add_worksheet()\n\n \"\"\"Size up the overview worksheet\"\"\"\n host_overview_worksheet.set_column('B:B', 24)\n host_overview_worksheet.set_column('C:C', 15)\n host_overview_worksheet.set_column('D:D', 15)\n host_overview_worksheet.set_column('E:E', 15)\n host_overview_worksheet.set_column('F:F', 15)\n host_overview_worksheet.set_column('G:G', 20)\n host_overview_worksheet.set_column('H:H', 15)\n\n \"\"\"Size up the detail worksheet\"\"\"\n host_detail_worksheet.set_column('B:B', 38)\n host_detail_worksheet.set_column('C:C', 16)\n host_detail_worksheet.set_column('D:D', 16)\n host_detail_worksheet.set_column('E:E', 28)\n host_detail_worksheet.set_column('F:F', 15)\n host_detail_worksheet.set_column('H:G', 20)\n host_detail_worksheet.set_column('H:H', 25)\n host_detail_worksheet.set_column('I:I', 10)\n\n \"\"\"Description row for host overview\"\"\"\n host_overview_worksheet.write('B2', 'Hostname', top_row_format)\n host_overview_worksheet.write('C2', 'IP v4 Address', top_row_format)\n host_overview_worksheet.write('D2', 'IP v6 Address', top_row_format)\n host_overview_worksheet.write('E2', 'MAC Address', top_row_format)\n host_overview_worksheet.write('F2', 'MAC Vendor', top_row_format)\n host_overview_worksheet.write('G2', 'Operating System', top_row_format)\n host_overview_worksheet.write('H2', 'Host Type', top_row_format)\n\n \"\"\"Query the database for the hosts\"\"\"\n inventory_hosts = session.query(InventoryHost).all()\n\n \"\"\"Build overview worksheet\"\"\"\n overview_row = 2\n overview_col = 1\n for host in inventory_hosts:\n host_overview_worksheet.write(overview_row, overview_col, host.host_name, host_row_format)\n host_overview_worksheet.write(overview_row, overview_col + 1, host.ipv4_addr, host_row_format)\n host_overview_worksheet.write(overview_row, overview_col + 2, host.ipv6_addr, host_row_format)\n host_overview_worksheet.write(overview_row, overview_col + 3, host.macaddr, host_row_format)\n host_overview_worksheet.write(overview_row, overview_col + 4, host.mac_vendor.name, host_row_format)\n host_overview_worksheet.write(overview_row, overview_col + 5, host.product.name, host_row_format)\n host_overview_worksheet.write(overview_row, overview_col + 6, host.host_type, host_row_format)\n overview_row += 1\n\n \"\"\"Build detailed worksheet\"\"\"\n detail_row = 2\n detail_col = 1\n for host in inventory_hosts:\n\n \"\"\"Add the black row to start host detail info\"\"\"\n host_detail_worksheet.set_row(detail_row, 5)\n host_detail_worksheet.write(detail_row, detail_col, '', black_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 1, '', black_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 2, '', black_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 3, '', black_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 4, '', black_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 5, '', black_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 6, '', black_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 7, '', black_row_format)\n detail_row += 1\n\n \"\"\"Add row detail info\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, 'Hostname', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 1, 'IP v4 Address', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 2, 'IP v6 Address', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 3, 'MAC Address', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 4, 'MAC Vendor', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 5, 'Host Type', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 6, 'Operating System', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 7, 'Version', top_row_format)\n detail_row += 1\n\n \"\"\"Add host info\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, host.host_name, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 1, host.ipv4_addr, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 2, host.ipv6_addr, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 3, host.macaddr, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 4, host.mac_vendor.name, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 5, host.host_type, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 6, host.product.name, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 7, host.product.version, host_row_format)\n detail_row += 2\n\n \"\"\"If there is no host nse script, just say so.\"\"\"\n if not host.host_nse_scripts:\n host_detail_worksheet.write(detail_row, detail_col, 'Host NSE Script Name', top_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row, detail_col + 7,\n 'Output', top_row_format)\n detail_row += 1\n host_detail_worksheet.write(detail_row, detail_col, 'No Script Name', host_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row, detail_col + 7,\n 'No Script Output', host_row_wrapped_format)\n detail_row += 2\n else:\n\n \"\"\"Add the row detail\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, 'Host NSE Script Name', top_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row, detail_col + 7,\n 'Output', top_row_format)\n detail_row += 1\n\n \"\"\"Grab all the scripts\"\"\"\n for host_scripts in host.host_nse_scripts:\n\n \"\"\"Count output the lines so we know what to merge\"\"\"\n lines = host_scripts.output.count('\\n')\n\n if lines > 0:\n\n \"\"\"Merge the rows and write the name and output\"\"\"\n host_detail_worksheet.merge_range(detail_row, detail_col, detail_row + lines, detail_col,\n host_scripts.name, host_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row + lines, detail_col + 7,\n host_scripts.output, host_row_wrapped_format)\n detail_row += 1\n else:\n\n \"\"\"Single line output\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, host_scripts.name, host_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row + lines, detail_col + 7,\n host_scripts.output, host_row_wrapped_format)\n detail_row += 1\n\n if not host.inventory_svcs:\n\n \"\"\"If there are no services for this host tell me\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, 'Protocol', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 1, 'Port', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 2, 'Name', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 3, 'Svc Product', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 4, 'Extra Info', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 5, 'Product', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 6, 'Version', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 7, 'Update', top_row_format)\n detail_row += 1\n\n host_detail_worksheet.write(detail_row, detail_col, 'no services', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 1, 'no services', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 2, 'no services', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 3, 'no services', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 4, 'no services', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 5, 'no services', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 6, 'no services', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 7, 'no services', host_row_format)\n detail_row += 1\n\n else:\n for ports in host.inventory_svcs:\n\n \"\"\"Host services row info\"\"\"\n detail_row += 1\n host_detail_worksheet.write(detail_row, detail_col, 'Protocol', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 1, 'Port', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 2, 'Name', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 3, 'Svc Product', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 4, 'Extra Info', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 5, 'Product', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 6, 'Version', top_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 7, 'Update', top_row_format)\n detail_row += 1\n\n \"\"\"Write the service info\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, ports.protocol, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 1, ports.portid, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 2, ports.name, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 3, ports.svc_product, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 4, ports.extra_info, host_row_format)\n try:\n\n \"\"\"There may not be product info, but try.\"\"\"\n host_detail_worksheet.write(detail_row, detail_col + 5, ports.product.name, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 6, ports.product.version, host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 7, ports.product.product_update,\n host_row_format)\n detail_row += 1\n except AttributeError:\n\n \"\"\"Just write unknown if there is no product info\"\"\"\n host_detail_worksheet.write(detail_row, detail_col + 5, 'unknown', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 6, 'unknown', host_row_format)\n host_detail_worksheet.write(detail_row, detail_col + 7, 'unknown', host_row_format)\n detail_row += 1\n\n if not ports.svc_nse_scripts:\n\n \"\"\"If there is no NSE script info just say so.\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, 'Svc NSE Script Name', top_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row, detail_col + 7,\n 'Output', top_row_format)\n detail_row += 1\n host_detail_worksheet.write(detail_row, detail_col, 'No Script Name', host_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row, detail_col + 7,\n 'No Script Output', host_row_wrapped_format)\n detail_row += 2\n\n else:\n\n \"\"\"Service Script row detail\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, 'Svc NSE Script Name', top_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row, detail_col + 7,\n 'Output', top_row_format)\n detail_row += 1\n\n \"\"\"Grab all the scripts\"\"\"\n for nse_scripts in ports.svc_nse_scripts:\n\n \"\"\"Count the lines in the output for merging\"\"\"\n lines = nse_scripts.output.count('\\n')\n\n if lines > 0:\n\n \"\"\"Merge the rows and write the name and output\"\"\"\n host_detail_worksheet.merge_range(detail_row, detail_col, detail_row + lines, detail_col,\n nse_scripts.name, host_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row + lines, detail_col + 7,\n nse_scripts.output, host_row_wrapped_format)\n detail_row += 1\n else:\n\n \"\"\"Single line output\"\"\"\n host_detail_worksheet.write(detail_row, detail_col, nse_scripts.name, host_row_format)\n host_detail_worksheet.merge_range(detail_row, detail_col + 1, detail_row + lines,\n detail_col + 7, nse_scripts.output,\n host_row_wrapped_format)\n detail_row += 1\n\n detail_row += 1\n report.close()\n session.close()",
"def __exportMenuTriggered(self, act):\n aw = self.activeWindow()\n if aw:\n exporterFormat = act.data()\n aw.exportFile(exporterFormat)",
"def press(button):\r\n if button == 'Process':\r\n src_file = app.getEntry('Input_File')\r\n dest_dir = app.getEntry('Output_Directory')\r\n out_file = app.getEntry('Output_name')\r\n points = app.getEntry('Points')\r\n out_file = out_file + '.csv'\r\n plot = app.getCheckBox('Plot Results')\r\n iter(src_file, Path(dest_dir, out_file), points,plot)\r\n else:\r\n app.stop()",
"def on_action_4_triggered(self):\n # TODO: not implemented yet\n model = self.model2\n self.doExport(model)\n #raise NotImplementedError",
"def on_action_2_triggered(self):\n # TODO: not implemented yet\n model = self.model\n self.doExport(model)",
"def _after_export(self, *args, **kwargs):\n return",
"def outputExcelReport(self):\n # ++++++++++\n # init\n # ++++++++++\n wb = openpyxl.Workbook()\n wb.fonts = openpyxl.styles.Font(\n name = 'Courier New',\n size = 12\n )\n # create and delete sheets\n _ = wb.create_sheet(title='Cover',index=0)\n _ = wb.create_sheet(title='Results',index=1)\n _ = wb.create_sheet(title='AllItems',index=2)\n _ = wb.remove(wb.worksheets[-1])\n # ++++++++++\n # Sheet 1 <Cover>\n # ++++++++++\n ws = wb['Cover']\n # --- title and date\n timeNow = datetime.datetime.now().isoformat().split('T')[0]\n ws.merge_cells('A1:B1')\n ws.merge_cells('A3:B3')\n ws['A1'] = '納入チェック ダイアグ確認結果'\n ws['A3'] = '作成日:{}'.format(timeNow)\n # --- sample info\n ws['A5'] = '<サンプル情報>'\n self._write2excel(ws, self._sample_info, 6, 1)\n for r in range(6,8):\n for c in range(1,3):\n ws.cell(r,c).border = BORDER\n # --- checker info\n ws['A9'] = '<チェッカ情報>'\n self._write2excel(ws, self._checker_info, 10, 1)\n for r in range(10,13):\n for c in range(1,3):\n ws.cell(r,c).border = BORDER\n # --- dmm info\n ws['A14'] = '<DMM情報>'\n self._write2excel(ws, self._dmm_info, 15, 1)\n for r in range(15,18):\n for c in range(1,3):\n ws.cell(r,c).border = BORDER\n # --- resistor info\n ws['A19'] = '<抵抗器情報>'\n self._write2excel(ws, self._resistor_info, 20, 1)\n for r in range(20,23):\n for c in range(1,3):\n ws.cell(r,c).border = BORDER\n # --- set styles\n for row in ws:\n for cell in row:\n ws[cell.coordinate].font = STYLE_FONT_PASS\n # --- set column width\n for col in ws.columns:\n # init\n max_length = 0\n column = openpyxl.utils.get_column_letter(col[0].column)\n # loop\n for cell in col:\n if len(str(cell.value)) > max_length:\n max_length = len(str(cell.value)) * (STYLE_FONT_PASS.size+1)/11\n # output\n adjusted_width = (max_length + 2) * 1.2\n ws.column_dimensions[column].width = adjusted_width\n # ++++++++++\n # Sheet 2 <Results>\n # ++++++++++\n ws = wb['Results']\n # --- output all scenario\n ws['A1'] = '<結果一覧>'\n ws.merge_cells('A1:B1')\n self._write2excel(ws, self._result_info, 2, 1)\n for r in range(2,ws.max_row+1):\n for c in range(1,ws.max_column+1):\n ws.cell(r,c).border = BORDER\n # --- set styles\n for row in ws:\n for cell in row:\n # font color\n ws[cell.coordinate].font = STYLE_FONT_PASS\n cell.alignment = openpyxl.styles.Alignment(vertical='top')\n if cell.column==6:\n if ws[cell.coordinate].value =='FAIL':\n ws.cell(cell.row,1).font = STYLE_FONT_FAIL\n ws.cell(cell.row,2).font = STYLE_FONT_FAIL\n ws.cell(cell.row,3).font = STYLE_FONT_FAIL\n ws.cell(cell.row,4).font = STYLE_FONT_FAIL\n ws.cell(cell.row,5).font = STYLE_FONT_FAIL\n ws.cell(cell.row,6).font = STYLE_FONT_FAIL\n # cell color by header/even row\n if cell.row==2:\n ws[cell.coordinate].fill = STYLE_FILL_HEADER\n elif cell.row%2==0:\n ws[cell.coordinate].fill = STYLE_FILL_EVEN_ROW\n # indent in cell\n if '\\n' in str(cell.value):\n cell.alignment = openpyxl.styles.Alignment(wrapText=True)\n # --- set column width\n for col in ws.columns:\n # init\n max_length = 0\n column = openpyxl.utils.get_column_letter(col[0].column)\n # loop\n for cell in col:\n if len(str(cell.value)) > max_length:\n max_length = len(str(cell.value)) * (STYLE_FONT_PASS.size+1)/11\n # output\n adjusted_width = (max_length + 2) * 1.2\n ws.column_dimensions[column].width = adjusted_width\n # ++++++++++\n # Sheet 3 <AllItems>\n # ++++++++++\n ws = wb['AllItems']\n # --- output all scenario\n ws['A1'] = '<出力一覧>'\n ws.merge_cells('A1:B1')\n self._write2excel(ws, self._scenario_info, 2, 1)\n for r in range(2,ws.max_row+1):\n for c in range(1,ws.max_column+1):\n ws.cell(r,c).border = BORDER\n # --- set styles\n for row in ws:\n for cell in row:\n # font color\n ws[cell.coordinate].font = STYLE_FONT_PASS\n cell.alignment = openpyxl.styles.Alignment(vertical='top')\n if cell.column==5:\n if ws[cell.coordinate].value =='FAIL':\n ws.cell(cell.row,1).font = STYLE_FONT_FAIL\n ws.cell(cell.row,2).font = STYLE_FONT_FAIL\n ws.cell(cell.row,3).font = STYLE_FONT_FAIL\n ws.cell(cell.row,4).font = STYLE_FONT_FAIL\n ws.cell(cell.row,5).font = STYLE_FONT_FAIL\n # cell color by header/even row\n if cell.row==2:\n ws[cell.coordinate].fill = STYLE_FILL_HEADER\n elif cell.row%2==0:\n ws[cell.coordinate].fill = STYLE_FILL_EVEN_ROW\n # indent in cell\n if '\\n' in str(cell.value):\n cell.alignment = openpyxl.styles.Alignment(wrapText=True)\n # --- set column width\n for col in ws.columns:\n # init\n max_length = 0\n column = openpyxl.utils.get_column_letter(col[0].column)\n # loop\n for cell in col:\n if len(str(cell.value)) > max_length:\n max_length = len(str(cell.value)) * (STYLE_FONT_PASS.size+1)/11\n # output\n adjusted_width = (max_length + 2) * 1.2\n ws.column_dimensions[column].width = adjusted_width\n # ++++++++++\n # save book\n # ++++++++++\n wb.save(self._filename)",
"def export_data(self):\r\n stocks = {}\r\n headings = ['Security', 'Price', 'Change', 'Change %', '52 Week', 'Market Cap']\r\n\r\n for data in range(6):\r\n for items in self.root.main.treeview.get_children():\r\n values = self.root.main.treeview.item(items, 'values')\r\n if headings[data] not in stocks:\r\n stocks[headings[data]] = []\r\n stocks.get(headings[data]).append(values[data])\r\n\r\n df = pd.DataFrame(stocks, columns=headings)\r\n path = tk.filedialog.asksaveasfilename(title='Save File As...',\r\n filetypes=((\"CComma-separated values (.csv)\", \"*.csv\"), (\"Text Document(.txt)\", \"*.txt\")))\r\n\r\n if not path:\r\n return\r\n else:\r\n df.to_excel(path, index=False, header=True)",
"def on_export_scatter_diagram_triggered(self):\n\n if self.seascatterModule.df_scatter.empty:\n self.warning(\"No sea scatter diagram generated. Nothing to export!\")\n else:\n filename, _ = QtWidgets.QFileDialog.getSaveFileName(\n self, caption=\"Save Sea Scatter Diagram\", filter=\"Excel Files (*.xlsx)\"\n )\n if filename:\n self.seascatterModule.export_scatter_diagram(filename)",
"def export(exp_data: ExportData) -> None:\n pass",
"def export(self):\r\n self.prices[\"returns\"] = self.returns\r\n self.prices.columns = ['prices', 'returns']\r\n self.prices = self.prices.dropna()\r\n \r\n name = QFileDialog.getSaveFileName(None, 'Save File', filter='*.xlsx')\r\n if(name[0] == ''):\r\n # if name empty\r\n pass\r\n else:\r\n self.prices.to_excel(name[0])",
"def click_generate_batch_report_button(self):\n self._basket.click_generate_batch_report_button()",
"def on_export(self):\n path = os.path.dirname(os.path.realpath(__file__))\n\n filters = ('Portable Network Graphics (*.png);;'\n 'Portable Document Format (*.pdf);;'\n 'Postscript (*.ps);;'\n 'Encapsulated Postscript (*.eps);;'\n 'Scalable Vector Graphics (*.svg)')\n\n filename = QtGui.QFileDialog.getSaveFileName(self,\n caption='Export figure',\n directory=path,\n filter=filters)\n filename = str(filename)\n\n if filename != '':\n previous_size = self.fig.get_size_inches()\n self.fig.set_size_inches(float(self.le_width.text()),\n float(self.le_height.text()))\n\n dpi = int(self.le_dpi.text())\n\n self.fig.savefig(filename, dpi=dpi, bbox_inches='tight')\n self.fig.set_size_inches(previous_size)\n\n self.canvas.draw()",
"def dataframe_to_excel(df, sheet_title, project_constants_lst, \n current_date=str(date.today()), force_flag = False, freeze_column='A'):\n \n project_steps_df, max_title, _, report_requisites_sr, *_ = project_constants_lst\n report_type, export_flag, df_decription = project_steps_df.loc[sheet_title, ['report_type', 'export_to_excel', 'description']].values\n \n # check DataFrame report type to save\n if report_type == 'report':\n report_mark = report_requisites_sr['project_title'] + '_tables'\n else:\n report_mark = report_type\n \n # construct excel filename\n file_name = report_requisites_sr['customer_name'] + '_' + report_mark + '_' + current_date + '.xlsx'\n\n # information string\n info = f'Exporting {sheet_title} table to {report_mark} file'\n print(info, end =\" \")\n file_path = os.path.join(report_requisites_sr['today_report_folder'], file_name)\n \n # save DataFrame to excel file if export_to_excel trigger is ON\n # and DataFrame is not empty\n if (force_flag or export_flag) and not df.empty:\n fsop.create_folder(report_requisites_sr['today_report_folder'], max_title, display_status=False)\n file_mode = 'a' if os.path.isfile(file_path) else 'w'\n df = df.apply(pd.to_numeric, errors='ignore')\n try:\n if_sheet_exists_param = 'replace' if file_mode == 'a' else None\n content_df, item_exist = generate_table_of_contents(file_path, file_mode, sheet_title, df_decription)\n df_flat = drop_multindex(df)\n # write table of contents and data dataframe to the excel file\n with pd.ExcelWriter(file_path, mode=file_mode, if_sheet_exists=if_sheet_exists_param, engine='openpyxl') as writer:\n if file_mode == 'w' or not item_exist:\n content_df.to_excel(writer, sheet_name='Содержание', index=False)\n df_flat.to_excel(writer, sheet_name=sheet_title, startrow=2, index=False)\n # format table of contents and data worksheets\n workbook = openpyxl.load_workbook(file_path)\n format_workbook(workbook, sheet_title, df_decription, freeze_column)\n workbook.save(file_path)\n except PermissionError:\n status_info('fail', max_title, len(info))\n print('\\nPermission denied. Close the file.\\n')\n sys.exit()\n else:\n status_info('ok', max_title, len(info))\n return file_path \n else:\n # if save key is on but DataFrame empty\n if project_steps_df.loc[sheet_title, 'export_to_excel'] and df.empty:\n status_info('no data', max_title, len(info))\n else: \n status_info('skip', max_title, len(info))\n return None",
"def export(self,**kwargs):\n \n # import pdb;pdb.set_trace()\n \n # provide for case where recs are set extenally\n if not self.recs:\n self.select_recs(**kwargs)\n if self.recs:\n if self.export_file_name:\n filename = self.export_file_name\n else:\n filename = \"{table_name}_report_{datetime}.csv\".format(\n table_name = self.table.display_name,\n datetime = date_to_string(local_datetime_now(),'iso_datetime'),\n ).replace(' ','_').lower()\n \n if not self.export_fields:\n # include all fields by default\n self.export_fields = self._set_default_list_fields(include_all=True).copy()\n\n self.set_list_fields(self.export_fields)\n \n \n if self.export_template:\n result = render_template(self.export_template, data=self)\n else:\n # add a descriptive title row\n if self.export_title:\n result = self.export_title.strip() + '\\n'\n else:\n result = \"Export of table {} as of {}\\n\".format(self.table.table_name,excel_date_and_time_string(local_datetime_now()))\n \n result += ','.join([x['label'] for x in self.export_fields]) + '\\n'\n for rec in self.recs:\n rec_row = []\n for field in self.export_fields:\n data = rec.__getattribute__(field['name'])\n if field['type'].upper() == \"DATE\":\n data = local_date_string(data)\n elif field['type'].upper() == \"DATETIME\":\n data = excel_date_and_time_string(data)\n else:\n # just text\n data = str(data).strip()\n \n # replace double quotes with double-double quotes\n data = data.replace('\"','\"\"') #double up on double quotes\n \n if \",\" in data:\n # if any commas, wrap in quotes\n data = '\"' + data + '\"'\n \n #replace returns\n data = data.replace('\\r\\n',' -crnl- ')\n data = data.replace('\\n',' -nl- ')\n data = data.replace('\\r',' -rtn- ')\n\n rec_row.append(data)\n \n result += ','.join([str(x) for x in rec_row]) + '\\n'\n \n return DataStreamer(result,filename,'text/csv').send()\n \n self.result_text = \"No records selected\"\n self.success = False\n \n flash(self.result_text)\n return self.list(**kwargs)",
"def export_data(self):\r\n if len(app.entry6.get()) != 0:\r\n\r\n if app.var.get() == 'xls':\r\n\r\n wb = Workbook()\r\n sheet = wb.add_sheet('Sheet1')\r\n self.columns = ['id', 'Name', 'Section', 'Dept.', 'Gpa', 'MP1', 'MP2', 'MP3', 'MT', 'FINAL']\r\n style = xlwt.easyxf('font: bold 1')\r\n for col in range(10):\r\n sheet.write(0, col, self.columns[col], style)\r\n index=0\r\n for row in range(1,162):\r\n sheet.write(row, 1, open_data.sort_list[index])\r\n index += 1\r\n index1 = -1\r\n for row in range(1,162):\r\n index1 += 1\r\n index2=0\r\n for col in range(10):\r\n if col == 1 or index2 == 1:\r\n index2 += 1\r\n continue\r\n if index2 == 0:\r\n sheet.write(row, col, int(open_data.student[open_data.sort_list[index1]][index2]))\r\n index2 += 1\r\n continue\r\n sheet.write(row, col, open_data.student[open_data.sort_list[index1]][index2])\r\n index2 += 1\r\n file_name=app.entry6.get()\r\n if '.xls' not in file_name:\r\n wb.save(file_name+'.xls')\r\n else:\r\n wb.save(file_name)\r\n\r\n elif app.var.get() == 'txt':\r\n\r\n file_name = app.entry6.get()\r\n if '.txt' not in file_name:\r\n file_name = file_name + '.txt'\r\n file = open(file_name, 'w')\r\n index2 = 0\r\n for key in open_data.student:\r\n for index in range(10):\r\n if index == 0:\r\n file.write(str(int(open_data.student[key][index])))\r\n file.write(', ')\r\n continue\r\n if index == 1:\r\n try:\r\n self.split_names = open_data.sort_list[index2].split(' ')\r\n file.write(self.split_names[0])\r\n file.write(', ')\r\n file.write(self.split_names[1])\r\n file.write(', ')\r\n index2 += 1\r\n except UnicodeEncodeError:\r\n index2 += 1\r\n pass\r\n continue\r\n if index >= 5 and index <= 9:\r\n if open_data.student[key][index] != '':\r\n file.write(str(int(open_data.student[key][index])))\r\n file.write(', ')\r\n else:\r\n file.write('\\n')\r\n break\r\n if index == 9:\r\n file.write('\\n')\r\n continue\r\n try:\r\n file.write(str(open_data.student[key][index]))\r\n file.write(', ')\r\n except UnicodeEncodeError:\r\n pass\r\n file.close()\r\n\r\n\r\n\r\n elif app.var.get() == 'csv':\r\n app.info.configure(text=\"INFO: Type not Supported\")\r\n # The program does not support saving in 'csv' type. If the user selects 'csv' file type, 'Info' Label\r\n # shows the message: 'INFO: Type not Supported'.\r\n\r\n else:\r\n app.info.configure(text='INFO: Type not chosen!')\r\n # Also, If the user presses on 'Export Data' button, with a file name provided, but without choosing a\r\n # file type, 'Info' Label shows the message: 'INFO: Type not chosen'.\r\n\r\n else:\r\n app.info.configure(text=\"INFO: Please provide the name of the file.\")\r\n # Also, if the user presses 'Export Data' button without giving a file name, 'Info' Label shows the message:\r\n # 'INFO: Please provide the name of the file.'\r",
"def driver():\n\n directory = r\"C:/Users/Aftab Alam/Documents/GitHub\"\n directory = directory + r\"/SRM-placement-analyser/data/\"\n fileList = [directory+\"InfosysResult.xlsx\",directory+\"TCSResult.xlsx\",directory+\"CognizantResult.xlsx\",directory+\"WiproResult.xlsx\"]\n \n listOfPlaced = extractCommonData.extractCommonData(fileList)\n createNewExcelSheet(directory,listOfPlaced)",
"def export_event_design(self):\n try:\n self.sa.export_event_design()\n QMessageBox.information(self,\n 'info',\n '导出已完成,请查看当前文件夹下文件 export_event_design.xlsx',\n QMessageBox.Yes)\n except Exception as e:\n QMessageBox.warning(self,\n \"error\",\n str(e),\n QMessageBox.Yes)",
"def onExport(self, event):\n dlg = wx.FileDialog(self, wildcard=\"*.csv\", style=wx.SAVE)\n if dlg.ShowModal() == wx.ID_OK:\n path = dlg.GetPath()\n self.model.exportAssignments(path)\n dlg.Destroy()",
"def click_outbound_statements_grid_save_changes_button(self):\n self.click_element(self.outbound_statements_grid_save_changes_button_locator)",
"def export(self):\n if len(self.records) == 0:\n exit_message = \"Exiting. There are no records for {} {} to export.\".format(self.args.date.strftime(\"%B\"), self.year)\n sys.exit(exit_message)\n\n total_days = (self.args.date.replace(month = self.args.date.month % 12 +1, day = 1)-timedelta(days=1)).day\n start_month = self.args.date.replace(day = 1)\n end_month = self.args.date.replace(day = total_days)\n workdays = self.netto_workdays(start_month, end_month, weekend_days=(5,6))\n template_file = os.path.join(self.config[\"templates_dir\"], \"template_timesheet_{}_days.xlsx\".format(workdays))\n\n export_file = os.path.join(self.config[\"exports_dir\"], \"timesheet_{}_{}.xlsx\".format(self.year, self.month_str))\n\n # set locale to use weekdays, months full name in german\n locale.setlocale(locale.LC_TIME, 'de_DE.UTF-8')\n wb = load_workbook(template_file)\n ws = wb.active\n ws.cell(row=7, column=4).value = self.config[\"name\"]\n month_year_str = \"{} {}\".format(self.args.date.strftime(\"%B\"), self.year)\n ws.cell(row=8, column=4).value = month_year_str\n row = 12\n for record in self.records:\n col = 2\n date = datetime.strptime(record[\"date\"], \"%d.%m.%Y\")\n ws.cell(row=row, column=col).value = date.strftime(\"%A\")\n col += 1\n ws.cell(row=row, column=col).value = date\n col += 1\n if \"special\" in record.keys() and record[\"special\"] == \"true\":\n ws.cell(row=row, column=9).value = 8.00\n col += 4\n else:\n ws.cell(row=row, column=col).value = datetime.strptime(record[\"start_day\"], \"%H:%M\").time()\n col += 1\n ws.cell(row=row, column=col).value = datetime.strptime(record[\"end_day\"], \"%H:%M\").time()\n col += 1\n ws.cell(row=row, column=col).value = datetime.strptime(record[\"start_break\"], \"%H:%M\").time()\n col += 1\n ws.cell(row=row, column=col).value = datetime.strptime(record[\"end_break\"], \"%H:%M\").time()\n col += 4\n ws.cell(row=row, column=col).value = record[\"comment\"]\n row += 1\n wb.save(export_file)\n return True"
] | [
"0.7427522",
"0.74119",
"0.74119",
"0.71052456",
"0.6768226",
"0.6751652",
"0.66969615",
"0.6309867",
"0.6278567",
"0.6154444",
"0.6043681",
"0.60137707",
"0.5942091",
"0.58229613",
"0.57504964",
"0.5736918",
"0.573554",
"0.5666945",
"0.55933",
"0.55879194",
"0.55874026",
"0.55857044",
"0.5576542",
"0.5554522",
"0.55437845",
"0.55381924",
"0.5535511",
"0.54828924",
"0.5467851",
"0.54335576"
] | 0.8604957 | 0 |
Implementing compare upload failure message functionality | def compare_upload_failure_message(self, message):
is_compared = False
upload_button_element = self.wait().until(EC.visibility_of_element_located(self.upload_button_locator), 'upload button not found before specified time')
upload_button_element.click()
self.wait_for_ajax_spinner_load()
try:
failure_message_locator = (By.XPATH, "//span[text()='Error']/../../descendant::p[contains(text(), '%s')]" % message)
if self.is_element_present(failure_message_locator):
is_compared = True
self.click_element(self.ok_button_locator)
except:
raise
return is_compared | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def test_file_status_error(self):\n file_name = \"file_name\"\n status = FileManagementStatus(\n FileManagementStatusType.ERROR,\n FileManagementErrorType.UNKNOWN,\n )\n expected_topic = self.factory.common_topic + WAPMF.FILE_UPLOAD_STATUS\n expected_payload = json.dumps(\n {\n \"name\": file_name,\n \"status\": status.status.value,\n \"error\": status.error.value,\n }\n )\n expected_message = Message(expected_topic, expected_payload)\n serialized_message = self.factory.make_from_file_management_status(\n status, file_name\n )\n\n self.assertEqual(expected_message, serialized_message)",
"def compare_failed_upload_info(self, info_message):\n info_message_locator = (By.XPATH, \"//div[@id='%s']/descendant::span[@class='k-grid-cell' and contains(text(), '%s')]\" % (self.additional_info_grid_div_id, info_message))\n if self.is_element_present(info_message_locator):\n return True\n else:\n return False",
"def get_error_message(self):\n msg = 'Test case: ' + self.benchmark + '.yaml + ' + self.producer + '.yaml failed. '\n info = ''\n if not self.directory:\n info = 'No results directory found. The benchmark probably failed'\n elif not self.reports:\n info = 'No results report generated. The results output format is probably wrong'\n elif not self.test_passed:\n info = 'Recorded messages percentage is lower than expected '\n return msg + info",
"def test_file_url_status_error(self):\n file_url = \"file_url\"\n status = FileManagementStatus(\n FileManagementStatusType.ERROR,\n FileManagementErrorType.MALFORMED_URL,\n )\n expected_topic = (\n self.factory.common_topic + WAPMF.FILE_URL_DOWNLOAD_STATUS\n )\n expected_payload = json.dumps(\n {\n \"fileUrl\": file_url,\n \"status\": status.status.value,\n \"error\": status.error.value,\n }\n )\n expected_message = Message(expected_topic, expected_payload)\n serialized_message = self.factory.make_from_file_url_status(\n file_url, status\n )\n\n self.assertEqual(expected_message, serialized_message)",
"def test_file_upload_fail(self):\r\n module = self.get_module_from_location(self.problem_location)\r\n\r\n # Simulate a student saving an answer\r\n response = module.handle_ajax(\"save_answer\", {\"student_answer\": self.answer_text})\r\n response = json.loads(response)\r\n self.assertFalse(response['success'])\r\n self.assertIn('error', response)",
"def testFailedFiles(self):\n assert self.dummySubscription.failedFiles() == \\\n self.dummySubscription.failed.getFiles(type='set'), \\\n 'Method failedFiles does not return failed files Set'",
"def test_call_upload__part_failure(self, syn):\n self._test_call_upload__part_exception(\n syn,\n Exception,\n SynapseUploadFailedException,\n )",
"def _failed(self, msg):\n self.log(msg)\n self.result.passed = False\n self.result.add_error(msg)\n self.log(u\"Failed\")",
"def assert_files_equal(file1, file2, error_msg='file mismatch'):\n\n bufsize = 0x1000\n block_offset = 0\n with open(file1, 'rb') as fp1, open(file2, 'rb') as fp2:\n while True:\n block1 = bytearray(fp1.read(bufsize))\n block2 = bytearray(fp2.read(bufsize))\n if len(block1) < len(block2):\n raise TestException(error_msg + ': file1 shorter than file2')\n elif len(block1) > len(block2):\n raise TestException(error_msg + ': file1 longer than file2')\n\n if block1 != block2:\n for offset, (val1, val2) in enumerate(zip(block1, block2)):\n if val1 != val2:\n # Show the difference\n exception_text = error_msg + ':\\n'\n rounded_offset = offset & ~15\n exception_text += '{:08x} '.format(block_offset +\n rounded_offset)\n for lineoffs in range(16):\n exception_text += '{:02x}'.format(\n block1[rounded_offset + lineoffs])\n\n exception_text += '\\n{:08x} '.format(\n block_offset + rounded_offset)\n for lineoffs in range(16):\n exception_text += '{:02x}'.format(\n block2[rounded_offset + lineoffs])\n\n exception_text += '\\n '\n for lineoffs in range(16):\n if block1[rounded_offset + lineoffs] \\\n != block2[rounded_offset + lineoffs]:\n exception_text += '^^'\n else:\n exception_text += ' '\n\n raise TestException(exception_text)\n\n if not block1:\n return\n\n block_offset += len(block1)",
"def fail(cls, upload, location=None, bytes_downloaded=0):\n path = \"uploader/fail/%s\" % upload[\"id\"]\n payload = {\"bytes_transferred\": bytes_downloaded, \"location\": location}\n try:\n return Backend.put(path, payload, headers=Backend.headers())\n except requests.HTTPError as err:\n if err.response.status_code == 410:\n LOGGER.warning(\"Cannot fail file %s. File not active (410)\",\n upload[\"id\"])\n raise err\n except:\n raise",
"def test_multipart_upload__retry_failure(self):\n\n syn = mock.Mock()\n md5_hex = \"ab123\"\n file_size = 1234\n part_size = 567\n dest_file_name = \"foo\"\n content_type = \"text/plain\"\n storage_location_id = 3210\n max_threads = 5\n upload_side_effect = SynapseUploadFailedException()\n\n expected_upload_request = {\n \"concreteType\": \"org.sagebionetworks.repo.model.file.MultipartUploadRequest\",\n \"contentType\": content_type,\n \"contentMD5Hex\": md5_hex,\n \"fileName\": dest_file_name,\n \"fileSizeBytes\": file_size,\n \"generatePreview\": True,\n \"storageLocationId\": storage_location_id,\n \"partSizeBytes\": part_size,\n }\n\n with pytest.raises(SynapseUploadFailedException):\n self._multipart_upload_test(\n upload_side_effect,\n syn,\n dest_file_name,\n expected_upload_request,\n mock.ANY, # part_fn\n mock.ANY, # md5_fn,\n max_threads,\n False,\n )",
"def _CheckUploadStatus(status_code):\n return status_code / 100 == 2",
"def verifyInputFileSize(totalFileSize, _maxinputsize, error):\n\n ec = 0\n pilotErrorDiag = \"\"\n\n if totalFileSize > _maxinputsize and _maxinputsize != 0:\n pilotErrorDiag = \"Too many/too large input files. Total file size %d B > %d B\" % (totalFileSize, _maxinputsize)\n tolog(\"!!FAILED!!2999!! %s\" % (pilotErrorDiag))\n tolog(\"Mover get_data finished (failed)\")\n ec = error.ERR_SIZETOOLARGE\n else:\n if _maxinputsize != 0:\n tolog(\"Total input file size %d B within allowed limit %d B\" % (totalFileSize, _maxinputsize))\n else:\n tolog(\"Total input file size %d B within allowed limit (not set)\" % (totalFileSize))\n return ec, pilotErrorDiag",
"def indicate_failure(self):\n pass",
"def check_msg(msg):\n err = bool(0)\n if 'Error' in msg:\n err = bool(1)\n elif \"Warning\" in msg:\n msg = 'Success! Warning: Image already exists. ' \\\n 'Processing ran on existing image'\n else:\n msg = 'Image saved successfully'\n return err, msg",
"def errormessage(self, msg) :\n\t\tif msg != self.__olderror :\n\t\t\tself.__stderr.write(\"%s\\n\" % msg)\n\t\t\tself.htmlmessage(msg)\n\t\tself.__olderror = msg[:]\n\t\treturn -1",
"def test_uploading(self):\n\n # print full diff if something unexpected comes out\n self.maxDiff=None\n\n # make some fake data files\n data_dir = 'covid/data'\n source_receiving_dir = data_dir + '/receiving/src-name'\n log_file_directory = \"/var/log/\"\n os.makedirs(source_receiving_dir, exist_ok=True)\n os.makedirs(log_file_directory, exist_ok=True)\n\n # valid\n with open(source_receiving_dir + '/20200419_state_test.csv', 'w') as f:\n f.write('geo_id,val,se,sample_size\\n')\n f.write('ca,1,0.1,10\\n')\n f.write('tx,2,0.2,20\\n')\n f.write('fl,3,0.3,30\\n')\n\n # valid wip\n with open(source_receiving_dir + '/20200419_state_wip_prototype.csv', 'w') as f:\n f.write('geo_id,val,se,sample_size\\n')\n f.write('me,10,0.01,100\\n')\n f.write('nd,20,0.02,200\\n')\n f.write('wa,30,0.03,300\\n')\n\n # invalid\n with open(source_receiving_dir + '/20200419_state_wip_really_long_name_that_will_be_accepted.csv', 'w') as f:\n f.write('geo_id,val,se,sample_size\\n')\n f.write('pa,100,5.4,624\\n')\n \n # invalid\n with open(source_receiving_dir + '/20200419_state_wip_really_long_name_that_will_get_truncated_lorem_ipsum_dolor_sit_amet.csv', 'w') as f:\n f.write('geo_id,val,se,sample_size\\n')\n f.write('pa,100,5.4,624\\n')\n\n # invalid\n with open(source_receiving_dir + '/20200420_state_test.csv', 'w') as f:\n f.write('this,header,is,wrong\\n')\n\n # invalid\n with open(source_receiving_dir + '/hello.csv', 'w') as f:\n f.write('file name is wrong\\n')\n\n # upload CSVs\n # TODO: use an actual argparse object for the args instead of a MagicMock\n args = MagicMock(\n log_file=log_file_directory +\n \"output.log\",\n data_dir=data_dir,\n is_wip_override=False,\n not_wip_override=False,\n specific_issue_date=False)\n main(args)\n\n # request CSV data from the API\n response = Epidata.covidcast(\n 'src-name', 'test', 'day', 'state', 20200419, '*')\n\n\n expected_issue_day=date.today()\n expected_issue=expected_issue_day.strftime(\"%Y%m%d\")\n def apply_lag(expected_epidata):\n for dct in expected_epidata:\n dct['issue'] = int(expected_issue)\n time_value_day = date(year=dct['time_value'] // 10000,\n month=dct['time_value'] % 10000 // 100,\n day= dct['time_value'] % 100)\n expected_lag = (expected_issue_day - time_value_day).days\n dct['lag'] = expected_lag\n return expected_epidata\n \n # verify data matches the CSV\n # NB these are ordered by geo_value\n self.assertEqual(response, {\n 'result': 1,\n 'epidata': apply_lag([\n {\n 'time_value': 20200419,\n 'geo_value': 'ca',\n 'value': 1,\n 'stderr': 0.1,\n 'sample_size': 10,\n 'direction': None,\n 'signal': 'test',\n },\n {\n 'time_value': 20200419,\n 'geo_value': 'fl',\n 'value': 3,\n 'stderr': 0.3,\n 'sample_size': 30,\n 'direction': None,\n 'signal': 'test',\n },\n {\n 'time_value': 20200419,\n 'geo_value': 'tx',\n 'value': 2,\n 'stderr': 0.2,\n 'sample_size': 20,\n 'direction': None,\n 'signal': 'test',\n },\n ]),\n 'message': 'success',\n })\n\n # request CSV data from the API on WIP signal\n response = Epidata.covidcast(\n 'src-name', 'wip_prototype', 'day', 'state', 20200419, '*')\n\n \n # verify data matches the CSV\n # NB these are ordered by geo_value\n self.assertEqual(response, {\n 'result': 1,\n 'epidata': apply_lag([\n {\n 'time_value': 20200419,\n 'geo_value': 'me',\n 'value': 10,\n 'stderr': 0.01,\n 'sample_size': 100,\n 'direction': None,\n 'signal': 'wip_prototype',\n },\n {\n 'time_value': 20200419,\n 'geo_value': 'nd',\n 'value': 20,\n 'stderr': 0.02,\n 'sample_size': 200,\n 'direction': None,\n 'signal': 'wip_prototype',\n },\n {\n 'time_value': 20200419,\n 'geo_value': 'wa',\n 'value': 30,\n 'stderr': 0.03,\n 'sample_size': 300,\n 'direction': None,\n 'signal': 'wip_prototype',\n },\n ]),\n 'message': 'success',\n })\n\n \n # request CSV data from the API on the signal with name length 32<x<64\n response = Epidata.covidcast(\n 'src-name', 'wip_really_long_name_that_will_be_accepted', 'day', 'state', 20200419, '*')\n\n # verify data matches the CSV\n self.assertEqual(response, {\n 'result': 1,\n 'message': 'success',\n 'epidata': apply_lag([\n {\n 'time_value': 20200419,\n 'geo_value': 'pa',\n 'value': 100,\n 'stderr': 5.4,\n 'sample_size': 624,\n 'direction': None,\n 'signal': 'wip_really_long_name_that_will_be_accepted',\n },\n ])\n })\n \n # request CSV data from the API on the long-named signal\n response = Epidata.covidcast(\n 'src-name', 'wip_really_long_name_that_will_get_truncated_lorem_ipsum_dolor_s', 'day', 'state', 20200419, '*')\n\n # verify data matches the CSV\n # if the CSV failed correctly there should be no results\n self.assertEqual(response, {\n 'result': -2,\n 'message': 'no results',\n })\n\n # verify timestamps and default values are reasonable\n self.cur.execute('select value_updated_timestamp, direction_updated_timestamp, direction from covidcast')\n for value_updated_timestamp, direction_updated_timestamp, direction in self.cur:\n self.assertGreater(value_updated_timestamp, 0)\n self.assertEqual(direction_updated_timestamp, 0)\n self.assertIsNone(direction)\n\n # verify that the CSVs were archived\n for sig in [\"test\",\"wip_prototype\"]:\n path = data_dir + f'/archive/successful/src-name/20200419_state_{sig}.csv.gz'\n self.assertIsNotNone(os.stat(path))\n path = data_dir + '/archive/failed/src-name/20200420_state_test.csv'\n self.assertIsNotNone(os.stat(path))\n path = data_dir + '/archive/failed/unknown/hello.csv'\n self.assertIsNotNone(os.stat(path))",
"def form_invalid(self, form):\n messages.add_message(self.request, messages.ERROR, form.errors['file'])\n return HttpResponseRedirect(reverse('esfviewer:upload'))",
"def test_video_image_validation_message(self, image_data, error_message):\n edx_video_id = 'test1'\n video_image_upload_url = self.get_url_for_course_key(self.course.id, {'edx_video_id': edx_video_id})\n with make_image_file(\n dimensions=(\n image_data.get('width', settings.VIDEO_IMAGE_MIN_WIDTH),\n image_data.get('height', settings.VIDEO_IMAGE_MIN_HEIGHT)\n ),\n prefix=image_data.get('prefix', 'videoimage'),\n extension=image_data.get('extension', '.png'),\n force_size=image_data.get('size', settings.VIDEO_IMAGE_SETTINGS['VIDEO_IMAGE_MIN_BYTES'])\n ) as image_file:\n response = self.client.post(video_image_upload_url, {'file': image_file}, format='multipart')\n if error_message:\n self.verify_error_message(response, error_message)\n else:\n self.verify_image_upload_reponse(self.course.id, edx_video_id, response)",
"def test_upload_step__invalid_file(self):\n # Set Up\n self.go_to_step(FeedUpdateWizard.UPLOAD_STEP)\n\n # Test\n with open(f\"{ETL_TEST_DATA_DIR}invalid_extension.txt\", \"r\") as fp:\n response = self.client.post(\n self.WIZARD_URL,\n {\n self.WIZARD_CURRENT_STEP: FeedUpdateWizard.UPLOAD_STEP,\n self.SELECTED_ITEM: self.ITEM_UPLOAD_FILE,\n \"upload_file\": fp,\n \"submit\": \"submit\",\n },\n )\n\n # Assert\n self.assertEqual(response.status_code, 200)\n error_data = response.context_data[\"wizard\"][\"form\"].errors.get_json_data()\n self.assertEqual(\n response.context[\"wizard\"][\"steps\"].current, FeedUpdateWizard.UPLOAD_STEP\n )\n self.assertEqual(\n error_data,\n {\n \"upload_file\": [\n {\n \"code\": \"invalid\",\n \"message\": \"The file is not in a correct format\",\n }\n ]\n },\n )",
"def test_failedUpload(self):\n def _storeObject(content, contentType, metadata={}, created=None,\n objectId=None):\n raise ValueError('blah blah')\n object.__setattr__(self.backendStore, 'storeObject', _storeObject)\n\n nextScheduled = self.pendingUpload.scheduled + timedelta(minutes=5)\n def _nextAttempt():\n return nextScheduled\n object.__setattr__(self.pendingUpload, '_nextAttempt', _nextAttempt)\n\n self.successResultOf(self.pendingUpload.attemptUpload())\n self.assertIdentical(self.store.findUnique(_PendingUpload),\n self.pendingUpload)\n self.assertEquals(self.pendingUpload.scheduled,\n nextScheduled)\n errors = self.flushLoggedErrors(ValueError)\n self.assertEquals(len(errors), 1)",
"def validate_student_nb_upload(self, request):\n\n _ = self.runtime.service(self, \"i18n\").ugettext\n\n f = request.params['file']\n response = {'success': False}\n\n # Check if file attached\n if not hasattr(f, 'filename'):\n response['error'] = _(\"No File Attached\")\n # Max file size\n elif f.file.size > self.max_file_size:\n response['error'] = _(\"File (%(file_size)i B) exceeds max allowed file size of %(max_file_size)i B\") % {'file_size': f.file.size , 'max_file_size': self.max_file_size} # TODO: Resice {:,}\n\n # Check number of attempts\n elif self.max_attempts > 0 and self.student_attempts >= self.max_attempts:\n response['error'] = _(\"Maximum allowed attempts reached\")\n # Must end in .ipynb\n elif os.path.splitext(f.filename)[1] != '.ipynb':\n response['error'] = _('File extension must be .ipynb, not %(filename)s') % {'filename': os.path.splitext(f.filename)[1]}\n # Notebook name must match\n elif not self.nb_name == f.filename:\n response['error'] = _(\"Uploaded notebook (%(filename)s) must be named: %(nb_name)s)\") % {'filename': f.filename, 'nb_name' : self.nb_name}\n # Make sure it's not past due\n elif self._is_past_due():\n response['error'] = _(\"Unable to submit past due date: %(due)s\") % {'due' : self.due}\n else:\n response = None\n\n return response",
"def files_errored_out(self) -> float:\n return pulumi.get(self, \"files_errored_out\")",
"def test_successful_file(self):\n\n url = '/%s/jobs/%i/input_files/' % (self.api, self.job.id)\n response = self.client.generic('GET', url)\n self.assertEqual(response.status_code, status.HTTP_200_OK, response.content)\n\n result = json.loads(response.content)\n results = result['results']\n self.assertEqual(len(results), 2)\n for result in results:\n self.assertTrue(result['id'] in [self.file3.id, self.file4.id])\n self.assertIn('file_name', result)\n self.assertIn('workspace', result)\n self.assertIn('media_type', result)\n self.assertIn('file_type', result)\n self.assertIn('file_size', result)\n self.assertIn('file_path', result)\n self.assertIn('is_deleted', result)\n self.assertIn('url', result)\n self.assertIn('created', result)\n self.assertIn('deleted', result)\n self.assertIn('data_started', result)\n self.assertIn('data_ended', result)\n self.assertIn('source_started', result)\n self.assertIn('source_ended', result)\n self.assertIn('last_modified', result)\n self.assertIn('geometry', result)\n self.assertIn('center_point', result)\n self.assertIn('countries', result)\n self.assertIn('job_type', result)\n self.assertIn('job', result)\n self.assertIn('job_exe', result)\n self.assertIn('job_output', result)\n self.assertIn('recipe_type', result)\n self.assertIn('recipe', result)\n self.assertIn('recipe_node', result)\n self.assertIn('batch', result)\n self.assertFalse(result['is_superseded'])\n self.assertIn('superseded', result)",
"def check_upload(box_name, upload_threshold):\n\n try:\n headers = {'Cache-Control': 'no-cache'}\n response = requests.get(API_URL.format(box_name), headers=headers)\n response.raise_for_status()\n except Exception as e:\n print('{} failed getting health from backend: {}'.format(box_name, e))\n return UNKNOWN\n\n try:\n health = response.json()\n except Exception as e:\n print('{} failed decoding health response: {}'.format(box_name, e))\n return UNKNOWN\n\n if 'last_upload' not in health:\n print('{} last_upload not found in health results'.format(box_name))\n return UNKNOWN\n \n last_upload = datetime.now(tzutc()) - parser.parse(health['last_upload'])\n\n if last_upload.total_seconds() > upload_threshold:\n print('{} last uploaded {}'.format(box_name, naturaltime(last_upload)))\n return CRITICAL\n\n print('{} last upload {}'.format(box_name, naturaltime(last_upload)))\n return OK",
"def test_bad_file_name(self):\n\n url = '/%s/jobs/%i/input_files/?file_name=%s' % (self.api, self.job.id, 'not_a.file')\n response = self.client.get(url)\n self.assertEqual(response.status_code, status.HTTP_200_OK, response.content)\n\n results = json.loads(response.content)\n result = results['results']\n self.assertEqual(len(result), 0)",
"def image_status_msg(status):\n messages = {\n 'match': 'Baseline image matches',\n 'diff': 'Baseline image differs',\n 'missing': 'Baseline image not found',\n 'generated': 'Baseline image was generated',\n }\n return messages[status]",
"def identify_result_error(self, record):\n return [\"error\"]",
"def test_error_message_header_queue_op_failed_codes(self):\n\n error_type = 9\n error_type_value = Error.ErrorType.OFPET_QUEUE_OP_FAILED\n\n error_code = 0\n\n iter_given_code = Error.ErrorType.get_class(error_type_value).__iter__()\n length = Error.ErrorType.get_class(error_type_value).__len__()\n\n while error_code < self.MAX_QUEUE_OP_FAILED_CODE_VALUE or length > 0:\n data = UBInt32(random.randint(2, 250)).pack()\n xid = random.randint(2, 250)\n\n test_value = b'\\x05\\x01\\x00\\x10' + UBInt32(xid).pack() + UBInt16(error_type).pack() + \\\n UBInt16(error_code).pack() + data\n\n if error_code < self.MAX_QUEUE_OP_FAILED_CODE_VALUE:\n error_code += 1\n length -= 1\n\n test_object_error_messages = Error.ErrorMsg(xid, error_type_value, iter_given_code.__next__(), data).pack()\n\n self.assertEqual(test_value, test_object_error_messages)",
"def error_message(self):\n if len(self.unmapped):\n return _('file(s) not in client view')\n if len(self.author_denied):\n restricted_user = self.author\n elif len(self.pusher_denied):\n restricted_user = self.pusher\n elif len(self.foruser_denied):\n restricted_user = self.foruser\n elif len(self.fusion_denied):\n restricted_user = p4gf_const.P4GF_USER\n else:\n restricted_user = _('<unknown>')\n return _(\"user '{user}' not authorized to submit file(s) in git commit\").format(\n user=restricted_user)"
] | [
"0.68606967",
"0.6707602",
"0.63671446",
"0.61936766",
"0.61809266",
"0.61021423",
"0.59458596",
"0.5943387",
"0.5915603",
"0.59110975",
"0.58846605",
"0.5858014",
"0.5833053",
"0.582416",
"0.5821236",
"0.5808895",
"0.58021116",
"0.5799779",
"0.57912666",
"0.5773931",
"0.57599795",
"0.57226324",
"0.5711748",
"0.5711703",
"0.57085794",
"0.5701495",
"0.5691045",
"0.5684092",
"0.5665111",
"0.56623536"
] | 0.72844005 | 0 |
Implementing click failed upload info icon functionality | def click_failed_upload_info_icon(self):
self.click_element(self.failed_upload_info_icon_locator) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def buttons_information(self, instance):\n if instance.icon == 'file-alert':\n toast('No file loaded yet')\n if instance.icon == 'file-check':\n toast('File at ' + \"'\" + EVENTS['FILE_PATH'] + \"'\" + ' loaded')",
"def click_vendor_price_list_upload_failed_red_icon(self):\n self.click_element(self.vendor_price_list_upload_red_icon_locator)",
"def click_error_icon(self):\n self.click_element(self.error_icon_locator)",
"def mugshot_file(self, instance):\r\n try:\r\n return admin_display_file(instance.user.user_files, 'mugshot')\r\n except Exception:\r\n return mark_safe('<i class=\"fa fa-times-circle red\" aria-hidden=\"true\"></i>')",
"def on_UploadLog_clicked(self):\n # TODO: not implemented yet\n raise NotImplementedError",
"def click_on_upload_button(self):\n upload_button_element = self.wait().until(EC.visibility_of_element_located(self.upload_button_locator), 'upload button not found before specified time')\n upload_button_element.click()\n self.wait_for_ajax_spinner_load()\n try:\n self.wait().until(EC.visibility_of_element_located(self.success_message_popup_title), 'success popup message not found before specified time')\n ok_button_element = self.wait().until(EC.element_to_be_clickable(self.ok_button_locator), 'ok button locator not found before specified time')\n ok_button_element.click()\n except:\n raise\n self.wait_for_ajax_spinner_load()",
"def info_error():\n message = 'File could not be saved.'\n messagebox.showinfo(title=\"File not saved\", message=message)\n return",
"def compare_failed_upload_info(self, info_message):\n info_message_locator = (By.XPATH, \"//div[@id='%s']/descendant::span[@class='k-grid-cell' and contains(text(), '%s')]\" % (self.additional_info_grid_div_id, info_message))\n if self.is_element_present(info_message_locator):\n return True\n else:\n return False",
"def upload_icon():\n filename = files.save(request.files['file']) # get file and save as header icon\n return jsonify(dict(filename=filename))",
"def icon(self):",
"def irs_w9_file(self, instance):\r\n try:\r\n return admin_display_file(instance.user.user_files, 'irs_w9')\r\n except Exception:\r\n return mark_safe('<i class=\"fa fa-times-circle red\" aria-hidden=\"true\"></i>')",
"def btn_upload_callback(self):\n # Create File Select Dialog\n dialog = QFileDialog(parent=self, caption='Images')\n dialog.setMimeTypeFilters(\n [\"image/jpeg\", \"image/png\", \"image/tiff\", 'application/zip'])\n dialog.setFileMode(QFileDialog.ExistingFile)\n\n if dialog.exec_() == QDialog.Accepted:\n\n filename = dialog.selectedFiles()[0]\n\n with open(filename, 'rb') as f:\n file_b64s = fio_to_b64s(f)\n\n if ext_from_path(filename) == '.zip':\n ret = api.upload_zip(\n file_b64s,\n nameext_from_path(filename),\n self.user_hash\n )\n else:\n ret = api.upload_image(\n file_b64s,\n nameext_from_path(filename),\n self.user_hash\n )\n if ret.get('success') is False:\n self.show_error(ret['error_msg'])\n self.update_table()",
"def click_upload_cancel_button(self):\n self.click_element(self.upload_cancel_button_locator, script_executor=True)",
"async def action_failed_button(self, payload: discord.RawReactionActionEvent) -> None:\n\n self.bits = flip_action_bits(LoggingActions.ACTION_FAILED, self.bits)\n await self.update_embed()",
"def save_fail_img(self):\n self.save_img(\"Email\")",
"def form_invalid(self, form):\n messages.add_message(self.request, messages.ERROR, form.errors['file'])\n return HttpResponseRedirect(reverse('esfviewer:upload'))",
"def click_upload_button(self):\n self.click_element(self.upload_button_locator)",
"def indicate_failure(self):\n pass",
"def uiSearchClickedImage(self):\n\n\t\traise foundations.exceptions.ProgrammingError(\n\t\t\"{0} | '{1}' attribute is not deletable!\".format(self.__class__.__name__, \"uiSearchClickedImage\"))",
"def showerror(parent, message, title, flags = wx.OK | wx.ICON_ERROR): \n\tshowmessage(parent, message, title, flags)",
"def indicate_error(self):\n pass",
"def upload_confirm(self, rec_id: str): # pylint: disable=unused-variable\n # Process the uploaded file\n if self.connector == \"overtime\":\n importer = action_process_overtime_data(\n get_record_path(rec_id),\n output=print,\n show_status=False,\n importer_class=OTImporterAdminPage,\n )\n else:\n return \"Unknown upload file type :(\"\n\n # Build string of status messages\n status = \"\\n\".join(importer.status(silent=True))\n\n # Show template with status and ask for confirmation\n return self.render(\n \"cadmin/upload_confirm.html\",\n confirm_url=url_for(f\"{self.endpoint}.upload_process\", rec_id=rec_id),\n status=status,\n )",
"def buttonClick(self):\n \n self.fpath=filedialog.askopenfilename()\n self.label_fpath.config(text=self.fpath)\n self.err_label.config(text='')\n pass",
"def click_upload_button(self):\n return self",
"def media_release_file(self, instance):\r\n try:\r\n return admin_display_file(instance.user.user_files, 'media_release')\r\n except Exception:\r\n return mark_safe('<i class=\"fa fa-times-circle red\" aria-hidden=\"true\"></i>')",
"def processIconFilename(self):\n\t\tself.iconFilename = self._getVal(64, 2)",
"def conditionally_raise(self, error: ImageNotFound) -> None:",
"def no_file_error(self: object) -> None:\n messagebox.showerror(\"No file selected\", \"Please select a file\")",
"def resubmit_failed(self, _):\n self.show_menu(None, 'main')\n try:\n self.execution_manager.resubmit_failed()\n self.update_info()\n except QMapError as e:\n self.update_info()\n self.details.original_widget = TextWidget(e)",
"def icon(self):\n return None"
] | [
"0.6932693",
"0.6710186",
"0.63419896",
"0.62382513",
"0.6209966",
"0.6114801",
"0.5904517",
"0.59013885",
"0.5824342",
"0.5770159",
"0.5666841",
"0.5666141",
"0.56621736",
"0.56431556",
"0.56369674",
"0.5623135",
"0.56194925",
"0.56107515",
"0.5594334",
"0.55894506",
"0.5530832",
"0.5514001",
"0.55078363",
"0.55033606",
"0.5480309",
"0.54768413",
"0.5465658",
"0.5453444",
"0.538337",
"0.536746"
] | 0.8348402 | 0 |
Implementing compare failed upload info functionality | def compare_failed_upload_info(self, info_message):
info_message_locator = (By.XPATH, "//div[@id='%s']/descendant::span[@class='k-grid-cell' and contains(text(), '%s')]" % (self.additional_info_grid_div_id, info_message))
if self.is_element_present(info_message_locator):
return True
else:
return False | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def hash_check_files(self):\n temp_error = 0\n if not self.hash_log_curr:\n self.hash_log_curr = self.hash_curr_files\n else:\n for key, value in self.hash_curr_files.iteritems():\n if key in self.hash_log_curr:\n #test for valid hash\n if self.valid is not None:\n #test any valid hahses are given\n if key in self.valid:\n # a hash code that is ok to duplicate\n self.print_to_log('Valid Duplicate HashCode, skipping: ' + value[5])\n self.hash_log_curr[key][3] = str(int(self.hash_log_curr[key][3]) + 1)\n self.hash_log_curr[key][4] = value[4]\n continue\n # not valid duplicate hash\n # a dupulicate hash found which is a failure and should abort import\n self.hash_log_curr[key][0] = 'Fail'\n self.hash_log_curr[key][3] = str(int(self.hash_log_curr[key][3]) + 1)\n self.hash_log_curr[key][4] = value[4]\n self.hash_log_curr[key][5] += ', ' + value[5]\n self.print_to_log('Duplicate hash found for file: ' + value[5])\n temp_error = 1\n else:\n #a new hash, no issues\n self.hash_log_curr[key] = value\n self.print_to_log('New Hash for file: ' + value[5])\n self.error = temp_error",
"def test_successful_file(self):\n\n url = '/%s/jobs/%i/input_files/' % (self.api, self.job.id)\n response = self.client.generic('GET', url)\n self.assertEqual(response.status_code, status.HTTP_200_OK, response.content)\n\n result = json.loads(response.content)\n results = result['results']\n self.assertEqual(len(results), 2)\n for result in results:\n self.assertTrue(result['id'] in [self.file3.id, self.file4.id])\n self.assertIn('file_name', result)\n self.assertIn('workspace', result)\n self.assertIn('media_type', result)\n self.assertIn('file_type', result)\n self.assertIn('file_size', result)\n self.assertIn('file_path', result)\n self.assertIn('is_deleted', result)\n self.assertIn('url', result)\n self.assertIn('created', result)\n self.assertIn('deleted', result)\n self.assertIn('data_started', result)\n self.assertIn('data_ended', result)\n self.assertIn('source_started', result)\n self.assertIn('source_ended', result)\n self.assertIn('last_modified', result)\n self.assertIn('geometry', result)\n self.assertIn('center_point', result)\n self.assertIn('countries', result)\n self.assertIn('job_type', result)\n self.assertIn('job', result)\n self.assertIn('job_exe', result)\n self.assertIn('job_output', result)\n self.assertIn('recipe_type', result)\n self.assertIn('recipe', result)\n self.assertIn('recipe_node', result)\n self.assertIn('batch', result)\n self.assertFalse(result['is_superseded'])\n self.assertIn('superseded', result)",
"def report_results(results: dict):\n # Loop thru our results, compare to our upload and return the verdict\n for result in results:\n for item in Analyzer.files:\n if result[\"sha256\"] == item[2]:\n if \"no specific threat\" in result[\"verdict\"]:\n # File is clean\n logger.info(\"Verdict for %s: %s\", item[1], result[\"verdict\"])\n else:\n # Mitigation would trigger from here\n logger.warning(\"Verdict for %s: %s\", item[1], result[\"verdict\"])",
"def testFailedFiles(self):\n assert self.dummySubscription.failedFiles() == \\\n self.dummySubscription.failed.getFiles(type='set'), \\\n 'Method failedFiles does not return failed files Set'",
"def compare_upload_failure_message(self, message):\n is_compared = False\n upload_button_element = self.wait().until(EC.visibility_of_element_located(self.upload_button_locator), 'upload button not found before specified time')\n upload_button_element.click()\n self.wait_for_ajax_spinner_load()\n try:\n failure_message_locator = (By.XPATH, \"//span[text()='Error']/../../descendant::p[contains(text(), '%s')]\" % message)\n if self.is_element_present(failure_message_locator):\n is_compared = True\n self.click_element(self.ok_button_locator)\n except:\n raise\n return is_compared",
"def verify_files():\n toverify = jobtracker.query(\"SELECT * FROM files \" \\\n \"WHERE status='unverified'\")\n\n numverified = 0\n for file in toverify:\n\n actualsize = pipeline_utils.get_file_size(file['filename'])\n\n expectedsize = file['size']\n\n last_attempt_id = jobtracker.query(\"SELECT id \" \\\n \"FROM download_attempts \" \\\n \"WHERE file_id=%s \" \\\n \"ORDER BY id DESC \" % file['id'], \\\n fetchone=True)\n \n queries = []\n if actualsize == expectedsize:\n dlm_cout.outs(\"Download of %s is complete and verified.\" % \\\n os.path.split(file['filename'])[-1])\n # Everything checks out!\n queries.append(\"UPDATE files \" \\\n \"SET status='downloaded', \" \\\n \"details='Download is complete and verified', \" \\\n \"updated_at='%s'\" \\\n \"WHERE id=%d\" % \\\n (jobtracker.nowstr(), file['id']))\n queries.append(\"UPDATE download_attempts \" \\\n \"SET status='downloaded', \" \\\n \"details='Download is complete and verified', \" \\\n \"updated_at='%s'\" \\\n \"WHERE id=%d\" % \\\n (jobtracker.nowstr(), last_attempt_id))\n\n\t # Mark the beam as downloaded in the main database\n\t #mark_beam_downloaded(os.path.split(file['filename'])[-1]))\n\n numverified += 1\n else:\n dlm_cout.outs(\"Verification of %s failed. \\n\" \\\n \"\\tActual size (%d bytes) != Expected size (%d bytes)\" % \\\n (os.path.split(file['filename'])[-1], actualsize, expectedsize))\n \n # Boo... verification failed.\n queries.append(\"UPDATE files \" \\\n \"SET status='failed', \" \\\n \"details='Downloaded file failed verification', \" \\\n \"updated_at='%s'\" \\\n \"WHERE id=%d\" % \\\n (jobtracker.nowstr(), file['id']))\n queries.append(\"UPDATE download_attempts \" \\\n \"SET status='verification_failed', \" \\\n \"details='Downloaded file failed verification', \" \\\n \"updated_at='%s'\" \\\n \"WHERE id=%d\" % \\\n (jobtracker.nowstr(), last_attempt_id))\n jobtracker.query(queries)\n return numverified",
"def test_error_noted_in_response_if_meter_has_overlapping_readings(self):\n dup_import_record = ImportRecord.objects.create(owner=self.user, last_modified_by=self.user, super_organization=self.org)\n dup_filename = \"example-pm-monthly-meter-usage-1-dup.xlsx\"\n dup_filepath = os.path.dirname(os.path.abspath(__file__)) + \"/../data_importer/tests/data/\" + dup_filename\n\n dup_file = ImportFile.objects.create(\n import_record=dup_import_record,\n source_type=SEED_DATA_SOURCES[PORTFOLIO_METER_USAGE][1],\n uploaded_filename=dup_filename,\n file=SimpleUploadedFile(\n name=dup_filename,\n content=pathlib.Path(dup_filepath).read_bytes()\n ),\n cycle=self.cycle\n )\n\n url = reverse(\"api:v3:import_files-start-save-data\", args=[dup_file.id])\n url += f'?organization_id={self.org.pk}'\n post_params = {\n 'cycle_id': self.cycle.pk,\n }\n response = self.client.post(url, post_params)\n\n total_meters_count = Meter.objects.count()\n\n result_summary = json.loads(response.content)\n\n expected_import_summary = [\n {\n \"property_id\": self.property_1.id,\n \"cycles\": self.cycle.name,\n \"pm_property_id\": \"5766973\",\n \"source_id\": \"5766973-0\",\n \"type\": \"Electric - Grid\",\n \"incoming\": 2,\n \"successfully_imported\": 2,\n \"errors\": \"\",\n },\n {\n \"property_id\": self.property_1.id,\n \"cycles\": self.cycle.name,\n \"pm_property_id\": \"5766973\",\n \"source_id\": \"5766973-1\",\n \"type\": \"Natural Gas\",\n \"incoming\": 2,\n \"successfully_imported\": 2,\n \"errors\": \"\",\n },\n {\n \"property_id\": self.property_2.id,\n \"cycles\": self.cycle.name,\n \"pm_property_id\": \"5766975\",\n \"source_id\": \"5766975-0\",\n \"type\": \"Electric - Grid\",\n \"incoming\": 4,\n \"successfully_imported\": 0,\n \"errors\": \"Overlapping readings.\",\n },\n {\n \"property_id\": self.property_2.id,\n \"cycles\": self.cycle.name,\n \"pm_property_id\": \"5766975\",\n \"source_id\": \"5766975-1\",\n \"type\": \"Natural Gas\",\n \"incoming\": 4,\n \"successfully_imported\": 0,\n \"errors\": \"Overlapping readings.\",\n },\n ]\n\n self.assertCountEqual(result_summary['message'], expected_import_summary)\n self.assertEqual(total_meters_count, 2)",
"def test_uploading(self):\n\n # print full diff if something unexpected comes out\n self.maxDiff=None\n\n # make some fake data files\n data_dir = 'covid/data'\n source_receiving_dir = data_dir + '/receiving/src-name'\n log_file_directory = \"/var/log/\"\n os.makedirs(source_receiving_dir, exist_ok=True)\n os.makedirs(log_file_directory, exist_ok=True)\n\n # valid\n with open(source_receiving_dir + '/20200419_state_test.csv', 'w') as f:\n f.write('geo_id,val,se,sample_size\\n')\n f.write('ca,1,0.1,10\\n')\n f.write('tx,2,0.2,20\\n')\n f.write('fl,3,0.3,30\\n')\n\n # valid wip\n with open(source_receiving_dir + '/20200419_state_wip_prototype.csv', 'w') as f:\n f.write('geo_id,val,se,sample_size\\n')\n f.write('me,10,0.01,100\\n')\n f.write('nd,20,0.02,200\\n')\n f.write('wa,30,0.03,300\\n')\n\n # invalid\n with open(source_receiving_dir + '/20200419_state_wip_really_long_name_that_will_be_accepted.csv', 'w') as f:\n f.write('geo_id,val,se,sample_size\\n')\n f.write('pa,100,5.4,624\\n')\n \n # invalid\n with open(source_receiving_dir + '/20200419_state_wip_really_long_name_that_will_get_truncated_lorem_ipsum_dolor_sit_amet.csv', 'w') as f:\n f.write('geo_id,val,se,sample_size\\n')\n f.write('pa,100,5.4,624\\n')\n\n # invalid\n with open(source_receiving_dir + '/20200420_state_test.csv', 'w') as f:\n f.write('this,header,is,wrong\\n')\n\n # invalid\n with open(source_receiving_dir + '/hello.csv', 'w') as f:\n f.write('file name is wrong\\n')\n\n # upload CSVs\n # TODO: use an actual argparse object for the args instead of a MagicMock\n args = MagicMock(\n log_file=log_file_directory +\n \"output.log\",\n data_dir=data_dir,\n is_wip_override=False,\n not_wip_override=False,\n specific_issue_date=False)\n main(args)\n\n # request CSV data from the API\n response = Epidata.covidcast(\n 'src-name', 'test', 'day', 'state', 20200419, '*')\n\n\n expected_issue_day=date.today()\n expected_issue=expected_issue_day.strftime(\"%Y%m%d\")\n def apply_lag(expected_epidata):\n for dct in expected_epidata:\n dct['issue'] = int(expected_issue)\n time_value_day = date(year=dct['time_value'] // 10000,\n month=dct['time_value'] % 10000 // 100,\n day= dct['time_value'] % 100)\n expected_lag = (expected_issue_day - time_value_day).days\n dct['lag'] = expected_lag\n return expected_epidata\n \n # verify data matches the CSV\n # NB these are ordered by geo_value\n self.assertEqual(response, {\n 'result': 1,\n 'epidata': apply_lag([\n {\n 'time_value': 20200419,\n 'geo_value': 'ca',\n 'value': 1,\n 'stderr': 0.1,\n 'sample_size': 10,\n 'direction': None,\n 'signal': 'test',\n },\n {\n 'time_value': 20200419,\n 'geo_value': 'fl',\n 'value': 3,\n 'stderr': 0.3,\n 'sample_size': 30,\n 'direction': None,\n 'signal': 'test',\n },\n {\n 'time_value': 20200419,\n 'geo_value': 'tx',\n 'value': 2,\n 'stderr': 0.2,\n 'sample_size': 20,\n 'direction': None,\n 'signal': 'test',\n },\n ]),\n 'message': 'success',\n })\n\n # request CSV data from the API on WIP signal\n response = Epidata.covidcast(\n 'src-name', 'wip_prototype', 'day', 'state', 20200419, '*')\n\n \n # verify data matches the CSV\n # NB these are ordered by geo_value\n self.assertEqual(response, {\n 'result': 1,\n 'epidata': apply_lag([\n {\n 'time_value': 20200419,\n 'geo_value': 'me',\n 'value': 10,\n 'stderr': 0.01,\n 'sample_size': 100,\n 'direction': None,\n 'signal': 'wip_prototype',\n },\n {\n 'time_value': 20200419,\n 'geo_value': 'nd',\n 'value': 20,\n 'stderr': 0.02,\n 'sample_size': 200,\n 'direction': None,\n 'signal': 'wip_prototype',\n },\n {\n 'time_value': 20200419,\n 'geo_value': 'wa',\n 'value': 30,\n 'stderr': 0.03,\n 'sample_size': 300,\n 'direction': None,\n 'signal': 'wip_prototype',\n },\n ]),\n 'message': 'success',\n })\n\n \n # request CSV data from the API on the signal with name length 32<x<64\n response = Epidata.covidcast(\n 'src-name', 'wip_really_long_name_that_will_be_accepted', 'day', 'state', 20200419, '*')\n\n # verify data matches the CSV\n self.assertEqual(response, {\n 'result': 1,\n 'message': 'success',\n 'epidata': apply_lag([\n {\n 'time_value': 20200419,\n 'geo_value': 'pa',\n 'value': 100,\n 'stderr': 5.4,\n 'sample_size': 624,\n 'direction': None,\n 'signal': 'wip_really_long_name_that_will_be_accepted',\n },\n ])\n })\n \n # request CSV data from the API on the long-named signal\n response = Epidata.covidcast(\n 'src-name', 'wip_really_long_name_that_will_get_truncated_lorem_ipsum_dolor_s', 'day', 'state', 20200419, '*')\n\n # verify data matches the CSV\n # if the CSV failed correctly there should be no results\n self.assertEqual(response, {\n 'result': -2,\n 'message': 'no results',\n })\n\n # verify timestamps and default values are reasonable\n self.cur.execute('select value_updated_timestamp, direction_updated_timestamp, direction from covidcast')\n for value_updated_timestamp, direction_updated_timestamp, direction in self.cur:\n self.assertGreater(value_updated_timestamp, 0)\n self.assertEqual(direction_updated_timestamp, 0)\n self.assertIsNone(direction)\n\n # verify that the CSVs were archived\n for sig in [\"test\",\"wip_prototype\"]:\n path = data_dir + f'/archive/successful/src-name/20200419_state_{sig}.csv.gz'\n self.assertIsNotNone(os.stat(path))\n path = data_dir + '/archive/failed/src-name/20200420_state_test.csv'\n self.assertIsNotNone(os.stat(path))\n path = data_dir + '/archive/failed/unknown/hello.csv'\n self.assertIsNotNone(os.stat(path))",
"def files_errored_out(self) -> float:\n return pulumi.get(self, \"files_errored_out\")",
"def test_file_status_error(self):\n file_name = \"file_name\"\n status = FileManagementStatus(\n FileManagementStatusType.ERROR,\n FileManagementErrorType.UNKNOWN,\n )\n expected_topic = self.factory.common_topic + WAPMF.FILE_UPLOAD_STATUS\n expected_payload = json.dumps(\n {\n \"name\": file_name,\n \"status\": status.status.value,\n \"error\": status.error.value,\n }\n )\n expected_message = Message(expected_topic, expected_payload)\n serialized_message = self.factory.make_from_file_management_status(\n status, file_name\n )\n\n self.assertEqual(expected_message, serialized_message)",
"def identify_result_error(self, record):\n return [\"error\"]",
"def test_call_upload__part_failure(self, syn):\n self._test_call_upload__part_exception(\n syn,\n Exception,\n SynapseUploadFailedException,\n )",
"def _validate(self, df: pd.DataFrame, **kwargs) -> tuple:\n errors = \"\"\n warnings = \"\"\n logger.info(\"NO VALIDATION for %s files\" % self._fileType)\n return errors, warnings",
"def _check_files_limits(files):\r\n for fileinput_id in files.keys():\r\n inputfiles = files.getlist(fileinput_id)\r\n\r\n # Check number of files submitted\r\n if len(inputfiles) > settings.MAX_FILEUPLOADS_PER_INPUT:\r\n msg = 'Submission aborted! Maximum %d files may be submitted at once' % \\\r\n settings.MAX_FILEUPLOADS_PER_INPUT\r\n return msg\r\n\r\n # Check file sizes\r\n for inputfile in inputfiles:\r\n if inputfile.size > settings.STUDENT_FILEUPLOAD_MAX_SIZE: # Bytes\r\n msg = 'Submission aborted! Your file \"%s\" is too large (max size: %d MB)' % \\\r\n (inputfile.name, settings.STUDENT_FILEUPLOAD_MAX_SIZE / (1000 ** 2))\r\n return msg\r\n\r\n return None",
"def check_upload(box_name, upload_threshold):\n\n try:\n headers = {'Cache-Control': 'no-cache'}\n response = requests.get(API_URL.format(box_name), headers=headers)\n response.raise_for_status()\n except Exception as e:\n print('{} failed getting health from backend: {}'.format(box_name, e))\n return UNKNOWN\n\n try:\n health = response.json()\n except Exception as e:\n print('{} failed decoding health response: {}'.format(box_name, e))\n return UNKNOWN\n\n if 'last_upload' not in health:\n print('{} last_upload not found in health results'.format(box_name))\n return UNKNOWN\n \n last_upload = datetime.now(tzutc()) - parser.parse(health['last_upload'])\n\n if last_upload.total_seconds() > upload_threshold:\n print('{} last uploaded {}'.format(box_name, naturaltime(last_upload)))\n return CRITICAL\n\n print('{} last upload {}'.format(box_name, naturaltime(last_upload)))\n return OK",
"def test_file_upload_fail(self):\r\n module = self.get_module_from_location(self.problem_location)\r\n\r\n # Simulate a student saving an answer\r\n response = module.handle_ajax(\"save_answer\", {\"student_answer\": self.answer_text})\r\n response = json.loads(response)\r\n self.assertFalse(response['success'])\r\n self.assertIn('error', response)",
"def handle_put_error(self, err, fileobj):\n # print err\n # TODO: handle different errors accordingly\n if self.upload_attempts < 3:\n self.upload_attempts += 1\n self.wait()\n self.put_upload()\n\n result = self._construct_result_dict(fileobj, \"Failed\")\n self._results_queue.put_nowait(result)",
"def check_upload(job_id, file, mainchain = None):\n ## NOTE:\n ## - Requires uploaded structures to be X-ray EXPDTA\n ## - Checks if the PDB file contains valid aa/na residues\n ## - PDB file must have at least 30 ATOMs\n ## - PDB file can not have lowercase alt. res. numbers\n ## - Checks standard deviation of temp. factors\n ## - Checks that not all occupancies are 0.00\n ## - Checks for properly formatted ATOM lines\n tmpfile = None ## this is the second part of the return\n atom_num = []\n res_type = []\n res_num = []\n chain = []\n temp_factors = []\n bad_std = -1\n num_total = 0\n num_good = 0\n occupancy = 0.0\n ignore = 0\n line_num = 0\n\n for line in file:\n line_num += 1\n\n if line.startswith('HEADER'):\n header_id = re.sub(r\"^HEADER.{56}(....)\", '\\\\1', line).strip()\n ## FIXME: Calls to MySQL can not be made in this def, 2009-06-16\n #mysql.job_set_header_id(job_id, str(header_id))\n\n #if line.startswith('EXPDTA NMR') or \\\n # line.startswith('EXPDTA SOLUTION NMR'):\n # ## TODO: Might need to add \"SOLID-STATE NMR\", 2009-11-10\n # msg = \"NMR structure! \"\n # msg += \"Please do not submit NMR structures, theoretical models, \"\n # msg += \"or any PDB file with unrefined Bs.\"\n # return msg\n\n elif line.startswith('EXPDTA') and line.find('X-RAY DIFFRACTION') == -1:\n msg = \"Not an X-ray diffraction structure. TLSMD currently only \"\n msg += \"performs analysis on X-ray models. Will not proceed.\"\n return msg, tmpfile\n\n elif re.match(r'^REMARK 2 RESOLUTION\\. ([0-9\\.]{1,}) ANGSTROMS.*', line):\n resolution = re.sub(r'^REMARK 2 RESOLUTION\\. ([0-9\\.]{1,}) ANGSTROMS.*', '\\\\1', line).strip()\n ## FIXME: Calls to MySQL can not be made in this def, 2009-06-16\n #mysql.job_set_resolution(job_id, resolution)\n\n elif re.match('^ATOM.....................[0-9][a-z]', line):\n ## E.g., Don't allow \"100b\". Force it to be \"100B\"\n example = re.sub(r'^ATOM.....................([0-9][a-z]).*', '\\\\1', line).strip()\n msg = \"Please change lowercase to uppercase for alternate \"\n msg += \"residue numbers. (E.g., change \\\" %s \\\" to \\\" %s \\\")\" % (\n example, example.upper())\n return msg, tmpfile\n\n elif mainchain == True and line.startswith('ATOM') and \\\n const.RE_MAINCHAIN_ATOMS.match(line) and \\\n Library.library_is_standard_residue(line[17:20].strip()):\n ## Only pass mainchain atoms to the running_stddev() function\n tmpfile = misc.generate_security_code()\n num_total += 1\n\n try:\n int(line[7:11].strip())\n int(line[23:26].strip())\n float(line[56:60].strip())\n float(line[60:66].strip())\n except:\n return \"Not a proper ATOM line: <pre>%s</pre>\" % line, tmpfile\n\n if float(line[56:60].strip()) < 1.00:\n ## ignore occupancies < 1.00\n ignore += 1\n continue\n else:\n num_good += 1\n atom_num.append(int(line[7:11].strip()))\n res_type.append(line[17:20].strip())\n res_num.append(int(line[23:26].strip()))\n chain.append(line[21:22])\n occupancy += float(line[56:60].strip())\n temp_factors.append(float(line[60:66].strip()))\n\n elif mainchain == False and line.startswith('ATOM') and (\n Library.library_is_standard_residue(line[17:20].strip())):\n tmpfile = job_id\n num_total += 1\n\n try:\n int(line[7:11].strip())\n int(line[23:26].strip())\n float(line[56:60].strip())\n float(line[60:66].strip())\n except:\n return \"Not a proper ATOM line: <pre>%s</pre>\" % line, tmpfile\n\n if float(line[56:60].strip()) < 1.00:\n ## ignore occupancies < 1.00\n ignore += 1\n continue\n else:\n num_good += 1\n atom_num.append(int(line[7:11].strip()))\n res_type.append(line[17:20].strip())\n res_num.append(int(line[23:26].strip()))\n chain.append(line[21:22])\n occupancy += float(line[56:60].strip())\n temp_factors.append(float(line[60:66].strip()))\n\n else:\n continue\n\n #return \"Number of atoms: %s (%s) (%s)\" % (num_total, len(temp_factors), num_good)\n\n ## TODO: Add check for ANISOU that are pure ISOT, 2010-03-23\n\n ## FIXME: This does not work yet.\n #if(ignore == num_total):\n # return \"All occupancies are less than 1.0, so all atoms will be ignored. Nothing to do.\"\n\n msg = \"Not a PDB structure or has unrecognized residue names.\"\n if mainchain and num_good < 5:\n return msg, tmpfile\n elif not mainchain and num_good < 30:\n return msg, tmpfile\n\n if(occupancy / num_good == 0.0):\n return \"All occupancies are 0.0. TLSMD won't run on this structure.\", tmpfile\n\n bad_std, tmpfile = running_stddev(tmpfile, atom_num, res_type, res_num, \n chain, temp_factors)\n if bad_std > 0:\n ## If there are a string of \"bad\" B-factors, return a plot showing the\n ## \"bad\" regions and do not proceed any further in the analysis.\n f = open('%s/%s.gnu' % (conf.WEBTMP_PATH, tmpfile), 'w')\n\n ## modify script template\n script = _STDDEV_FOR_BAD_TFACT_TEMPLATE\n script = script.replace(\"<webtmp_path>\", conf.WEBTMP_PATH)\n script = script.replace(\"<tmpfile>\", tmpfile)\n script = script.replace(\"<gnuplot_font>\", conf.GNUPLOT_FONT)\n #script = script.replace(\"<min_stddev_bfact>\", conf.MIN_STDDEV_BFACT)\n #script = script.replace(\"<max_stddev_bfact>\", conf.MAX_STDDEV_BFACT)\n\n f.write(script)\n f.close()\n subprocess.Popen([r\"%s\" % conf.GNUPLOT, \"%s/%s.gnu\" % (\n conf.WEBTMP_PATH, tmpfile)]).wait()\n\n return_string = \"Standard deviation of temperature factors is less \"\n return_string += \"than %s or greater than %s for those residues in \" % (\n conf.MIN_STDDEV_BFACT, conf.MAX_STDDEV_BFACT)\n return_string += \"the shaded regions below:<br>\"\n return_string += \"<center><img src='%s/%s.png'/></center>\" % (\n conf.WEBTMP_URL, tmpfile)\n return_string += \"<br><h3>NOTE: Your structure was run through a \"\n return_string += \"sanity check twice: (1) using all atoms in your \"\n return_string += \"structure; and (2) using only the mainchain atoms \"\n return_string += \"({N,CA,C,O,CB} or {P,O5*,C5*,C4*,C3*,O3*}). \"\n return_string += \"Both sanity checks failed.</h3>\"\n return return_string, tmpfile\n\n return '', tmpfile",
"def test_failedUpload(self):\n def _storeObject(content, contentType, metadata={}, created=None,\n objectId=None):\n raise ValueError('blah blah')\n object.__setattr__(self.backendStore, 'storeObject', _storeObject)\n\n nextScheduled = self.pendingUpload.scheduled + timedelta(minutes=5)\n def _nextAttempt():\n return nextScheduled\n object.__setattr__(self.pendingUpload, '_nextAttempt', _nextAttempt)\n\n self.successResultOf(self.pendingUpload.attemptUpload())\n self.assertIdentical(self.store.findUnique(_PendingUpload),\n self.pendingUpload)\n self.assertEquals(self.pendingUpload.scheduled,\n nextScheduled)\n errors = self.flushLoggedErrors(ValueError)\n self.assertEquals(len(errors), 1)",
"def test_upload_bad_file(self):\n url = image_upload_url(self.reteta.id)\n res = self.client.post(url, {'image': 'notimage'}, format='multipart')\n self.assertEqual(res.status_code, status.HTTP_400_BAD_REQUEST)",
"def test_bad_file_name(self):\n\n url = '/%s/jobs/%i/input_files/?file_name=%s' % (self.api, self.job.id, 'not_a.file')\n response = self.client.get(url)\n self.assertEqual(response.status_code, status.HTTP_200_OK, response.content)\n\n results = json.loads(response.content)\n result = results['results']\n self.assertEqual(len(result), 0)",
"def check_errors(self) -> None:",
"def parse_upload(self) -> bool:\n if 'SUCCESS' not in self.upload_output:\n # Fatal Error\n self.warnings = [self.upload_output]\n return False\n self.warnings = self.upload_output.strip().split(\"\\n\")[0:-1]\n self.tree_id = self.upload_output.strip().split(\"\\n\")[-1].split()[1]\n return True",
"def test_check_wrong_image(self):\n result = analyzer.check_image_color(\"tests/test_files/non_exists.jpg\")\n self.assertEqual(result, \"Image not found\")",
"def test_file_can_be_uploaded_and_viewed_by_correct_users(self):\n \n project = self.testproject \n \n name1 = self.giverandomfilename(self.root)\n name2 = self.giverandomfilename(self.projectadmin)\n name3 = self.giverandomfilename(self.participant)\n name4 = self.giverandomfilename(self.participant2)\n \n resp1 = self._upload_test_file(self.root,self.testproject,name1)\n resp2 = self._upload_test_file(self.projectadmin,self.testproject,name2)\n resp3 = self._upload_test_file(self.participant,self.testproject,name3)\n resp4 = self._upload_test_file(self.participant2,self.testproject,name4)\n \n # root and projectadmin should see all files\n self.uploaded_files_are_all_shown_on_uploadpage([name1,name2,name3,name4],self.root)\n self.uploaded_files_are_all_shown_on_uploadpage([name1,name2,name3,name4],self.projectadmin)\n \n # participant1 sees only his or her own file\n self.uploaded_files_are_all_shown_on_uploadpage([name3],self.participant)\n self.uploaded_files_are_not_shown_on_uploadpage([name1,name2,name4],self.participant)\n \n # participant2 also sees only his or her own file\n self.uploaded_files_are_all_shown_on_uploadpage([name4],self.participant2)\n self.uploaded_files_are_not_shown_on_uploadpage([name1,name2,name3],self.participant2)",
"def _check_results(results):\n if isinstance(results, list):\n # this means that none of the requests succeeded, since\n # otherwise the result would be a two-tuple\n for i, one_result in enumerate(results):\n if self.logger is not None: # pragma: no cover\n self.logger.debug('{0}: {1}'.format(\n self.validation_servers[i],\n str(one_result[1])))\n\n raise YubiKeyVerificationError(\n \"Could not successfully GET from any of the validation \"\n \"servers.\")\n\n # results must be a two-tuple\n blob, index = results\n return (blob, self.validation_servers[index])",
"def _CheckUploadStatus(status_code):\n return status_code / 100 == 2",
"def verify(self, verbose_failures=False):\n modified = set()\n removed = set()\n count = len(self.entries)\n # TODO: Track number of bytes hashed instead of number of files\n # This will act as a more meaningful progress indicator\n i = 0\n for i, entry in enumerate(self.entries.values(), 1):\n if entry.exists():\n if entry.verify():\n entry.update_attrs()\n else:\n if verbose_failures:\n stderr.write('\\r{} failed hash verification\\n'.format(entry.filename))\n modified.add(entry.filename)\n else:\n removed.add(entry.filename)\n if verbose_failures:\n stderr.write('\\r{} is missing\\n'.format(entry.filename))\n stderr.write('\\rChecked {} of {} files'.format(i, count))\n if i:\n stderr.write('\\n')\n return modified, removed",
"def verifyInputFileSize(totalFileSize, _maxinputsize, error):\n\n ec = 0\n pilotErrorDiag = \"\"\n\n if totalFileSize > _maxinputsize and _maxinputsize != 0:\n pilotErrorDiag = \"Too many/too large input files. Total file size %d B > %d B\" % (totalFileSize, _maxinputsize)\n tolog(\"!!FAILED!!2999!! %s\" % (pilotErrorDiag))\n tolog(\"Mover get_data finished (failed)\")\n ec = error.ERR_SIZETOOLARGE\n else:\n if _maxinputsize != 0:\n tolog(\"Total input file size %d B within allowed limit %d B\" % (totalFileSize, _maxinputsize))\n else:\n tolog(\"Total input file size %d B within allowed limit (not set)\" % (totalFileSize))\n return ec, pilotErrorDiag",
"def test_time_successful(self):\n\n url = '/%s/jobs/%i/input_files/?started=%s&ended=%s&time_field=%s' % (self.api, self.job.id,\n '2016-01-10T00:00:00Z',\n '2016-01-13T00:00:00Z',\n 'source')\n response = self.client.get(url)\n self.assertEqual(response.status_code, status.HTTP_200_OK, response.content)\n\n result = json.loads(response.content)\n results = result['results']\n self.assertEqual(len(results), 2)\n for result in results:\n self.assertTrue(result['id'] in [self.file3.id, self.file4.id])"
] | [
"0.6381942",
"0.6188063",
"0.61625695",
"0.6139068",
"0.6121966",
"0.60236907",
"0.59220916",
"0.59148616",
"0.58992004",
"0.58717626",
"0.58487064",
"0.5837215",
"0.58182514",
"0.58073443",
"0.57931584",
"0.5785219",
"0.57747525",
"0.57647514",
"0.57413596",
"0.57055503",
"0.569745",
"0.5666694",
"0.564149",
"0.5636223",
"0.5630823",
"0.56294537",
"0.562797",
"0.5620478",
"0.5613248",
"0.56070846"
] | 0.66625756 | 0 |
Implementing select qos tab functionality | def select_qos_tab(self):
self.click_element(self.qos_tab_locator, True) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def tabSelected(self):",
"def tabSelected(self):",
"def select(self):\r\n pass",
"def start_interface(self):\n # VCV Tab\n self.VCV_frequency_spb.setValue(self.conf[\"VCV\"].getfloat(\"frequency\"))\n self.VCV_volume_spb.setValue(self.conf[\"VCV\"].getfloat(\"volume\"))\n self.VCV_pressure_max_spb.setValue(self.conf[\"VCV\"].getfloat(\"pressure_max\"))\n # PCV Tab\n self.PCV_frequency_spb.setValue(self.conf[\"PCV\"].getfloat(\"frequency\"))\n self.PCV_pressure_spb.setValue(self.conf[\"PCV\"].getfloat(\"pressure\"))\n self.PCV_volume_max_spb.setValue(self.conf[\"PCV\"].getfloat(\"volume_max\"))\n # PSV Tab\n self.PSV_pressure_spb.setValue(self.conf[\"PSV\"].getfloat(\"pressure\"))\n self.PSV_sensitivity_spb.setValue(self.conf[\"PSV\"].getfloat(\"sensitivity\"))\n # Alarms Tab\n self.al_tidal_volume_min_spb.setValue(self.conf[\"Alarms\"].getfloat(\"tidal_volume_min\"))\n self.al_tidal_volume_max_spb.setValue(self.conf[\"Alarms\"].getfloat(\"tidal_volume_max\"))\n self.al_tidal_volume_chkBox.setChecked(self.conf[\"Alarms\"].getboolean(\"tidal_volume_on\"))\n self.al_volume_minute_min_spb.setValue(self.conf[\"Alarms\"].getfloat(\"volume_minute_min\"))\n self.al_volume_minute_max_spb.setValue(self.conf[\"Alarms\"].getfloat(\"volume_minute_max\"))\n self.al_volume_minute_chkBox.setChecked(self.conf[\"Alarms\"].getboolean(\"volume_minute_on\"))\n self.al_flow_min_spb.setValue(self.conf[\"Alarms\"].getfloat(\"flow_min\"))\n self.al_flow_max_spb.setValue(self.conf[\"Alarms\"].getfloat(\"flow_max\"))\n self.al_flow_chkBox.setChecked(self.conf[\"Alarms\"].getboolean(\"flow_on\"))\n self.al_paw_min_spb.setValue(self.conf[\"Alarms\"].getfloat(\"paw_min\"))\n self.al_paw_max_spb.setValue(self.conf[\"Alarms\"].getfloat(\"paw_max\"))\n self.al_paw_chkBox.setChecked(self.conf[\"Alarms\"].getboolean(\"paw_on\"))\n self.al_plateau_pressure_min_spb.setValue(\n self.conf[\"Alarms\"].getfloat(\"plateau_pressure_min\"))\n self.al_plateau_pressure_max_spb.setValue(\n self.conf[\"Alarms\"].getfloat(\"plateau_pressure_max\"))\n self.al_plateau_pressure_chkBox.setChecked(\n self.conf[\"Alarms\"].getboolean(\"plateau_pressure_on\"))\n self.al_PEEP_min_spb.setValue(self.conf[\"Alarms\"].getfloat(\"PEEP_min\"))\n self.al_PEEP_max_spb.setValue(self.conf[\"Alarms\"].getfloat(\"PEEP_max\"))\n self.al_PEEP_chkBox.setChecked(self.conf[\"Alarms\"].getboolean(\"PEEP_on\"))\n self.al_frequency_min_spb.setValue(self.conf[\"Alarms\"].getfloat(\"frequency_min\"))\n self.al_frequency_max_spb.setValue(self.conf[\"Alarms\"].getfloat(\"frequency_max\"))\n self.al_frequency_chkBox.setChecked(self.conf[\"Alarms\"].getboolean(\"frequency_on\"))\n self.al_apnea_min_spb.setValue(self.conf[\"Alarms\"].getfloat(\"apnea_min\"))\n self.al_apnea_max_spb.setValue(self.conf[\"Alarms\"].getfloat(\"apnea_max\"))\n self.al_apnea_chkBox.setChecked(self.conf[\"Alarms\"].getboolean(\"apnea_on\"))\n # Config Tab\n self.cfg_tare_spb.setValue(self.conf['Config'].getfloat(\"tare\"))\n\n # Always shown elements\n self.inhale_time_val.setText(\"0,0 s\")\n self.exhale_time_val.setText(\"0,0 s\")\n self.IE_ratio_val.setText(\"1:1\")\n self.peak_pressure_val.setText(\"0,0 cm H2O\")\n self.tidal_volume_val.setText(\"0 ml\")\n self.inhale_pause_spb.setValue(self.conf[\"Panel\"].getfloat(\"inhale_pause\"))\n self.stop_btn.setEnabled(False)\n self.emerg_btn.setEnabled(True)",
"def varTabChange(*args):\n tab = cmds.tabLayout(widgets[\"anmLgtTLO\"], q=True, st=True)\n if tab == \"ANM\":\n cmds.tabLayout(widgets[\"shotActionTypeTLO\"], e=True, st=\"Anm\")\n if tab == \"LGT\":\n cmds.tabLayout(widgets[\"shotActionTypeTLO\"], e=True, st=\"Lgt\")\n if tab == \"FX\":\n cmds.tabLayout(widgets[\"shotActionTypeTLO\"], e=True, st=\"Fx\")",
"def select_action(self):\n pass",
"def select(self):\n pass",
"def select(self):\n pass",
"def select_action(self, state):",
"def tabSelected(self):\r\n self.transactionMenuWidget.tabSelected()",
"def dispatch(self):\n\n if self.choice == 1:\n SelectCategory()",
"def select_disputes_tab(self):\n self.click_element(self.disputes_tab_locator)",
"def choose_action(self):\r\n pass",
"def change_qos(self, arg, qos):\n\n if isinstance(arg, (list, tuple)):\n for job_id in arg:\n self.change_qos(job_id, qos)\n\n elif isinstance(arg, int):\n cmd = 'update job {} QOS={}'.format(arg, qos)\n self.scontrol(cmd)\n\n elif str(arg).lower() == 'all':\n self._queue = None\n for job_id, attrs in self.queue.items():\n status = attrs[self.QCOL_STATUS].lower()\n if status == 'pd':\n self.change_qos(job_id, qos)\n\n else:\n e = ('Could not change qos of: {} with type {}'\n .format(arg, type(arg)))\n logger.error(e)\n raise ExecutionError(e)",
"def select_vendors_tab(self):\n self.select_static_tab(self.vendors_tab_locator, 'vendors tab not found before specified time')",
"def select_target_buy_policies_tab(self):\n self.select_static_tab(self.target_buy_policies_tab_locator, 'target buy policies tab locator not found before specified time out')",
"def get_data_qos(args):\n diff_data(args, \"qos\")",
"def select_schema_tab(self):\n if self.current_package_version() >= semver.VersionInfo.parse(\"3.8.0\"):\n if self.current_package_version() >= semver.VersionInfo.parse(\"3.9.100\"):\n schema = '//*[@id=\"subNavigationBar\"]/ul[2]/li[6]/a'\n select_schema_tab_sitem = self.locator_finder_by_xpath(schema)\n else:\n select_schema_tab_sitem = self.locator_finder_by_xpath(self.select_schema_tab_id)\n select_schema_tab_sitem.click()\n time.sleep(2)\n else:\n print('Schema check not supported for the current package version \\n')\n self.wait_for_ajax()",
"def select_rates_tab(self):\n self.select_static_tab(self.rates_tab_locator, True)",
"def help_select(self):\n print(SELECT)",
"def select(self):\n return",
"def selection_settings():\n options = driver.find_element_by_xpath(\"/html/body/usgs-root/usgs-header/header/usgs-panel-chooser/nav/i[3]\")\n options.click()\n\n earthquake_catalog = driver.find_element_by_xpath(\"/html/body/usgs-root/div/usgs-settings/section/usgs-earthquakes-filter/a\")\n earthquake_catalog.click()\n\n custom_selection = driver.find_element_by_xpath(\"/html/body/main/div/form/section/div[2]/section/ul[1]/li[3]/label\") \n custom_selection.click()\n\n start_datetime = driver.find_element_by_xpath(\"/html/body/main/div/form/section/div[2]/section/ul[2]/li[1]/input\")\n start_datetime.click()\n start_datetime.clear()\n start_datetime.send_keys(input(\"Datetime:\"))\n start_datetime.send_keys(Keys.RETURN)\n time.sleep(1)\n\n search = driver.find_element_by_xpath(\"/html/body/main/div/form/footer/button\")\n search.click()\n\n time.sleep(1)\n\n options = driver.find_element_by_xpath(\"/html/body/usgs-root/usgs-header/header/usgs-panel-chooser/nav/i[3]\")\n options.click()\n\n time_zone = driver.find_element_by_xpath(\"/html/body/usgs-root/div/usgs-settings/section/usgs-time-zone/mat-radio-group/mat-list/mat-list-item[2]/div/mat-radio-button\")\n time_zone.click()\n time.sleep(3)\n\n return driver",
"def state_choose_do(cfg, app, win, events):",
"def select_buy_dashboard_tab(self):\n self.select_static_tab(self.buy_dashboard_tab_locator, True)",
"def select_info_tab(self):\n self.click_submenu_entry(\"Info\")\n time.sleep(2)\n self.wait_for_ajax()",
"def on_radioButton_clicked(self):\n print(\"您选择了A\")",
"def SelectPresentation(self, event):\n pass",
"def select_adjustments_tab(self):\n self.click_element(self.adjustments_tab_locator)",
"def test_qos_specs(self):\n qos = {'maxIOPS': 1000, 'maxBWS': 2048}\n snapshot = fake_snapshot.fake_snapshot_obj(\n self.ctx, **{'volume': self.volume,\n 'provider_id': self.snapshot_id,\n 'volume_size': 8})\n extraspecs = {}\n self.driver._get_volumetype_qos = mock.MagicMock()\n self.driver._get_volumetype_qos.return_value = qos\n self.driver._get_volumetype_extraspecs = mock.MagicMock()\n self.driver._get_volumetype_extraspecs.return_value = extraspecs\n\n props = self.driver.initialize_connection_snapshot(\n snapshot,\n self.connector)\n\n self.assertEqual(1000, int(props['data']['iopsLimit']))\n self.assertEqual(2048, int(props['data']['bandwidthLimit']))",
"def on_VI_518p_set_clicked(self):\n # TODO: not implemented yet\n disp_518P()\n self.up_slot = qmdz_const.up_slot\n self.down_slot = qmdz_const.down_slot"
] | [
"0.6230506",
"0.6230506",
"0.5693061",
"0.5564264",
"0.5542037",
"0.5518259",
"0.5505991",
"0.5505991",
"0.5483988",
"0.5414385",
"0.53982025",
"0.53952456",
"0.53623533",
"0.53308713",
"0.530924",
"0.530107",
"0.52727425",
"0.5268999",
"0.5224306",
"0.5208325",
"0.52038944",
"0.5195755",
"0.5192371",
"0.51812214",
"0.5156794",
"0.51477903",
"0.51475847",
"0.51377577",
"0.51082015",
"0.5106285"
] | 0.7811534 | 0 |
Implementing compare qos with excel data functionality | def compare_qos_with_excel_data(self):
self.buy_page_excel_data_dictionary = self.get_excel_data_dictionary()
is_compared = True
self.grid_row_data.clear()
self.grid_row_data.update({"MNP": "", "Comments": ""})
qos_grid_row_data = self.get_vendor_profile_page_grid_row_details(self.qos_grid_div_id, self.grid_row_data)
for key in qos_grid_row_data:
if qos_grid_row_data[key] != self.buy_page_excel_data_dictionary[key]:
is_compared = False
break
return is_compared | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def compare_rates_with_excel_data(self):\n is_compared = True\n self.grid_row_data.clear()\n self.grid_row_data.update({\"Rate1\": \"\", \"Rate2\": \"\", \"Rate3\": \"\", \"Begin Date\": \"\", \"Rating Method\": \"\"})\n self.buy_page_excel_data_dictionary[\"Rating Method\"] = self.buy_page_excel_data_dictionary[\"RatingMethod\"]\n self.buy_page_excel_data_dictionary[\"Begin Date\"] = self.buy_page_excel_data_dictionary[\"EffectiveDate\"]\n rates_grid_row_data = self.get_vendor_profile_page_grid_row_details(self.rates_grid_div_id, self.grid_row_data)\n for key in rates_grid_row_data:\n if rates_grid_row_data[key] != self.buy_page_excel_data_dictionary[key]:\n is_compared = False\n break\n return is_compared",
"def MEGA_ANALYSIS(\n excel_data = \"D:\\\\Ali USB Backup\\\\1 PhD\\\\Mega Analysis\\\\4. SystReview Single Table (NEW CROSSTAB) March 2020.xlsx\",\n n_rows = 1045,\n usecols = \"A:DG\",\n header = 1,\n exclude_data=False, **kwargs):\n\n\n df = pd.read_excel(excel_data, nrows=n_rows, usecols=usecols, header=header, \n #index_col=[4,0] # only if you want multi-index\n )\n\n\n# 0. CLEANUPS: remove empty rows and columns\n print('\\n0. DataFrame pre-processing and cleaning:')\n df = cleaning(df)\n\n# 1. Exclusions\n if exclude_data:\n print('\\n\\n1. Excluding some data based on ground truths')\n if not kwargs:\n df = exclusions(df, \n POST_ictals=True,\n PET_hypermetabolism=True,\n SPECT_PET=False,\n CONCORDANCE=False)\n elif kwargs:\n df = exclusions(df, \n POST_ictals=kwargs['POST_ictals'],\n PET_hypermetabolism=kwargs['PET_hypermetabolism'],\n SPECT_PET=kwargs['SPECT_PET'],\n CONCORDANCE=kwargs['CONCORDANCE'])\n\n print('\\ndf.shape after exclusions: ', df.shape)\n else:\n print('1. No Exclusions.')\n\n# 2. checking for missing labels e.g. Semiology Categories Labels:\n print('\\n2. Checking for missing values for columns')\n missing_columns(df)\n \n print('\\n Checking for dtypes: first localisation_labels column is: ', df.columns[17], '...last one is', df.columns[88])\n # localisation_labels = df.columns[17:72] # old July 2019\n localisation_labels = df.columns[17:88] # news March 2020\n for col in df[localisation_labels]:\n for val in df[col]:\n if ( type(val) != (np.float) ) & ( type(val) != (np.int) ):\n print(type(val), col, val)\n \n # 3 ffill References:\n df.Reference.fillna(method='ffill', inplace=True)\n print('\\n3. forward filled references')\n\n # 4 check no other entries besides \"ES\" and \"y\" in list(df['sEEG and/or ES'].unique())\n # March 2020 updated for sEEG_ES = 'sEEG (y) and/or ES (ES)' # March 2020 version\n sEEG_ES = 'sEEG (y) and/or ES (ES)' # March 2020 version\n \n print(\"\\n4. 'sEEG and/or ES' column only contains ['ES', nan, 'y']: \")\n print(list(df[sEEG_ES].unique()) == ['ES', np.nan, 'y'])\n if not (list(df[sEEG_ES].unique()) == ['ES', np.nan, 'y']):\n print('the set includes:', list(df['sEEG and/or ES'].unique()) )\n\n # 5. print some basic progress stats:\n print('\\n\\n 5. BASIC PROGRESS:')\n print('Number of articles included in this analysis:', int( df['Reference'].nunique()) )\n print('Number of patients:', int( df['Tot Pt included'].sum()) )\n print('Number of lateralising datapoints:', df.Lateralising.sum())\n print('Number of localising datapoints:', df.Localising.sum())\n\n df_ground_truth = progress_stats(df)\n\n # plot progress by ground truth\n progress_venn(df_ground_truth, method='Lateralising')\n progress_venn(df_ground_truth, method='Localising')\n\n\n # 6. plot progress by study type (CS, SS, ET, Other)\n print(\"6. Venn diagrams by patient selection priors (study type)\")\n df_study_type = progress_study_type(df)\n progress_venn_2(df_study_type, method='Lateralising')\n progress_venn_2(df_study_type, method='Localising')\n\n print('Other criteria: ', df.loc[df['Other (e.g. Abs)'].notnull()]['Other (e.g. Abs)'].unique() )\n print('Lateralising Other Total/Exclusives: ', df_study_type.loc['OTHER', ('Lateralising Datapoints', 'Total')], '/',\n df_study_type.loc['OTHER', ('Lateralising Datapoints', 'Exclusive')] )\n print('Localising Other Total/Exclusives: ', df_study_type.loc['OTHER', ('Localising Datapoints', 'Total')], '/',\n df_study_type.loc['OTHER', ('Localising Datapoints', 'Exclusive')] )\n \n\n \n\n return df, df_ground_truth, df_study_type",
"def retrieve_score(wb,tick,increase,write):\n sheetn = wb.sheetnames[1:] # get all the excel sheets\n sheet_names = ['Environmental','Social','Governance','ESG_combined','ESG_controvesies','ESG_score'] # their names\n \n if write:\n list_year= [\"09\",\"10\",\"11\",\"12\",\"13\",\"14\",\\\n \"15\",\"16\",\"17\",\"18\",\"19\",\"20\",\\\n \"21\"]\n\n else:\n list_year = [tick+\"09\",tick+\"10\",tick+\"11\",tick+\"12\",tick+\"13\",tick+\"14\",\\\n tick+\"15\",tick+\"16\",tick+\"17\",tick+\"18\",tick+\"19\",tick+\"20\",\\\n tick+\"21\"] # indeces for the dataframe\n \n sr = wb[sheetn[1]]\n\n # first find the row of the Ticker\n \n row = None\n wb[sheetn[1]]\n for i in range(1,sr.max_row+1):\n k = 'A' + str(i)\n if sr[k].value == tick:\n row = i\n else:\n continue\n \n assert row != None, \"Ticker Not Found\"\n\n if increase==True:\n if write==True:\n if not os.path.isdir(os.getcwd().replace(\"\\\\\",\"/\") + \"/Bloomberg_Score_Change\"):\n os.makedirs(os.getcwd().replace(\"\\\\\",\"/\") + \"/Bloomberg_Score_Change\")\n filename = os.getcwd().replace(\"\\\\\",\"/\") + '/Bloomberg_Score_Change'+'/Bsi_'+tick+'.txt'\n\n list_cell = ['AD'+ str(row),'AE'+ str(row),'AF'+ str(row),'AG'+ str(row),'AH'+ str(row),'AI'+ str(row),\\\n 'AJ'+ str(row),'AK'+ str(row),'AL'+ str(row),'AM'+ str(row),'AN'+ str(row),'AO'+ str(row),\\\n 'AP'+ str(row)]\n er = [\"#DIV/0!\",\"#VALUE!\"]\n \n\n else:\n if write==True:\n\n if not os.path.isdir(os.getcwd().replace(\"\\\\\",\"/\") + \"/Bloomberg_Score\"):\n os.makedirs(os.getcwd().replace(\"\\\\\",\"/\") + \"/Bloomberg_Score\")\n filename =os.getcwd().replace(\"\\\\\",\"/\") + '/Bloomberg_Score'+'/Bs_'+tick+'.txt'\n\n list_cell = ['F'+ str(row),'G'+ str(row),'H'+ str(row),'I'+ str(row),'J'+ str(row),'K'+ str(row),\\\n 'L'+ str(row),'M'+ str(row),'N'+ str(row),'O'+ str(row),'P'+ str(row),'Q'+ str(row),\\\n 'R'+ str(row)]\n er = []\n \n \n \n assert len(list_cell) == len(list_year), \"Missing Year or Cells\"\n\n score = [] #initializing the score\n\n for sheet in sheetn: # looping through all the sheets\n \n sr = wb[sheet] # assigining the searech engine\n \n topic_score = [] # creating the topic score list\n\n for cell in list_cell: # for every cell in the list cells \n\n if sr[cell].value not in er: # if its not in the error list\n \n topic_score.append(sr[cell].value) # append it\n\n else: # otherwise\n topic_score.append(0) # append 0 (only the case for the change in scores)\n\n score.append(topic_score) # appending to score list\n del topic_score # deleting to conserve memory\n \n \n data = pd.DataFrame(data = zip(score[0],score[1],score[2],score[3],score[4],score[5]),\\\n columns = sheet_names,index = list_year) # creating data frame\n\n \n\n if write==True:\n txtfile = open(filename,'w+',encoding='utf-8') # opening text file\n txtfile.write(data.to_string()) # writing the dataframe in the text file\n txtfile.close # closing the file\n return None\n\n else:\n return data",
"def compare_dialed_digit_with_excel_data(self):\n self.buy_page_excel_data_dictionary = self.get_excel_data_dictionary()\n is_compared = False\n self.grid_row_data.clear()\n self.grid_row_data.update({\"Dialed Digit\": \"\", \"Begin Date\": \"\"})\n dialed_digit_grid_row_data = self.get_vendor_profile_page_grid_row_details(self.dialed_digits_grid_div_id, self.grid_row_data)\n if self.buy_page_excel_data_dictionary[\"Digits\"] == dialed_digit_grid_row_data[\"Dialed Digit\"] and self.buy_page_excel_data_dictionary[\"EffectiveDate\"] == dialed_digit_grid_row_data[\"Begin Date\"]:\n is_compared = True\n return is_compared",
"def main():\n\n gephyrin_df = gephyrin_pairwise()\n cav31_df = cav31_pairwise()\n synapsin_df = synapsin_pairwise()\n psd_df = psd95_pairwise()\n vglut1_df = vglut1_pairwise()\n\n\n sheet_name = 'Pairwise'\n fn = 'pairwise_comparisons.xlsx'\n df_list = [synapsin_df, vglut1_df, psd_df, gephyrin_df, cav31_df]\n aa.write_dfs_to_excel(df_list, sheet_name, fn)",
"def equal(root_in: str, root_out: str):\r\n \r\n import pandas as pd\r\n import numpy as np\r\n \r\n user_input_df = pd.read_excel(root_in, names=['amount','time','category','subcategory','related unit','div'],index_col =False)\r\n user_input_df = user_input_df[user_input_df['div'] == 'equal'][['amount','time','category','subcategory','related unit']]\r\n \r\n # A series of operations for changing the related unit's class from object to a list. Useful when executing the explode method\r\n \r\n user_input_df['related unit'] = user_input_df['related unit'].str.replace('[','')\r\n user_input_df['related unit'] = user_input_df['related unit'].str.replace(']','')\r\n user_input_df['related unit'] = user_input_df['related unit'].str.replace(' ','')\r\n user_input_df['related unit'] = list(user_input_df['related unit'].str.split(','))\r\n\r\n costs_for_each_unit = []\r\n for i in range(len(user_input_df['related unit'])):\r\n costs_for_each_unit.append(user_input_df.iloc[i]['amount'] // len(user_input_df.iloc[i]['related unit']))\r\n user_input_df['cost for each unit'] = np.array(costs_for_each_unit)\r\n user_input_df = user_input_df.explode('related unit')\r\n \r\n user_input_df.to_csv(root_out, mode = 'a', header = False, index = False)\r\n \r\n return",
"def compare_eia_heat_rates_to_ampl_projs(year):\n\n db_gen_projects = pull_generation_projects_data(gen_scenario_id=1).rename(\n columns={'name':'Plant Name', 'gen_tech':'Prime Mover'})\n db_gen_projects.loc[:,'Prime Mover'].replace(\n {\n 'Coal_Steam_Turbine':'ST',\n 'Gas_Steam_Turbine':'ST',\n 'Gas_Combustion_Turbine':'GT',\n 'Gas_Combustion_Turbine_Cogen':'GT',\n 'CCGT':'CC',\n 'DistillateFuelOil_Combustion_Turbine':'GT',\n 'DistillateFuelOil_Internal_Combustion_Engine':'IC',\n 'Geothermal':'ST',\n 'Gas_Internal_Combustion_Engine':'IC',\n 'Bio_Gas_Internal_Combustion_Engine':'IC',\n 'Bio_Gas_Steam_Turbine':'ST'\n },\n inplace=True)\n eia_gen_projects = filter_plants_by_region_id(13, year)\n\n df = pd.merge(db_gen_projects, eia_gen_projects,\n on=['Plant Name','Prime Mover'], how='left').loc[:,[\n 'Plant Name','gen_tech','energy_source','full_load_heat_rate',\n 'Best Heat Rate','Prime Mover','Energy Source','Energy Source 2','Operating Year']]\n df = df[df['full_load_heat_rate']>0]\n\n print \"\\nPrinting intersection of DB and EIA generation projects that have a specified heat rate to heat_rate_comparison.tab\"\n \n fpath = os.path.join('processed_data','heat_rate_comparison.tab')\n with open(fpath, 'w') as outfile:\n df.to_csv(outfile, sep='\\t', header=True, index=False)\n\n return df",
"def read_elia_activated_energy_prices(filename,status):\r\n \r\n df = pd.read_excel(filename,skiprows=2,parse_dates=False)\r\n df[\"Timestamp\"] = df[\"Date\"]+\" \"+df['Quarter'].map(lambda x: str(x)[:-9])\r\n pd.to_datetime(df[\"Timestamp\"])\r\n df.set_index(\"Timestamp\",inplace=True)\r\n if ((status == \"validated\") | (status == \"valid\")):\r\n df = df.drop(df[df.Status != \"Validated\"].index)\r\n df = df.drop([\"Date\",\"Quarter\",\"Status\"], axis=1)\r\n \r\n if len(df.columns)>14:\r\n df.columns.values[0:16] = [\"NRV in MW\",\"SR in euro/MWh\",\"MIP in euro/MWh\",\"IGGC+ in euro/MWh\", \"R2+ in euro/MWh\",\"Bids+ in euro/MWh\",\"R3 std in euro/MWh\", \"R3 flex in euro/MWh\", \"ICH in euro/MWh\", \"inter TSO import in euro/MWh\", \"MDP in euro/MWh\", \"IGCC- in euro/MWh\", \"R2- in euro/MWh\", \"Bids- in euro/MWh\", \"R3- in euro/MWh\"]\r\n\r\n if len(df.columns)<12:\r\n df.columns.values[0:12] = [\"NRV in MW\",\"MIP in euro/MWh\",\"IGGC+ in euro/MWh\", \"R2+ in euro/MWh\",\"Bids+ in euro/MWh\", \"R3+ in euro/MWh\", \"MDP in euro/MWh\", \"IGCC- in euro/MWh\", \"R2- in euro/MWh\", \"Bids- in euro/MWh\", \"R3- in euro/MWh\"]\r\n\r\n return df",
"def read_elia_activated_energy_volumes(filename,status):\r\n df = pd.read_excel(filename,skiprows=2,parse_dates=False)\r\n df[\"Timestamp\"] = df[\"Date\"]+\" \"+df['Quarter'].map(lambda x: str(x)[:-9])\r\n pd.to_datetime(df[\"Timestamp\"])\r\n df.set_index(\"Timestamp\",inplace=True)\r\n if ((status == \"validated\") | (status == \"valid\")):\r\n df = df.drop(df[df.Status != \"Validated\"].index)\r\n df = df.drop([\"Date\",\"Quarter\",\"Status\"], axis=1)\r\n \r\n if ((len(df.columns)<13) & (len(df.columns)>11)) :\r\n df.columns.values[0:13] = [\"NRV in MW\", \"GUV in MW\", \"IGCC+ in MW\", \"R2+ in MW\", \"Bids+ in MW\", \"R3+ in MW\", \"R3DP+ in MW\", \"GDV in MW\", \"IGCC- in MW\", \"R2- in MW\", \"Bids- in MW\", \"R3- in MW\"]\r\n if len(df.columns)<= 11:\r\n df.columns.values[0:12] = [\"NRV in MW\", \"GUV in MW\", \"IGCC+ in MW\", \"R2+ in MW\", \"Bids+ in MW\", \"R3+ in MW\", \"GDV in MW\", \"IGCC- in MW\", \"R2- in MW\", \"Bids- in MW\", \"R3- in MW\"]\r\n if len(df.columns)>14:\r\n df.columns.values[0:16] = [\"NRV in MW\", \"SR in MW\",\"GUV in MW\", \"IGCC+ in MW\",\"R2+ in MW\",\"Bids+ in MW\",\"R3 std in MW\",\"R3 flex in MW\",\"ICH in MW\",\"inter TSO import in MW\",\"GDV in MW\",\"IGCC- in MW\",\"R2- in MW\",\"Bids- in MW\",\"inter TSO export in MW\"]\r\n \r\n return df",
"def main(xls, seqtype):\n data_extraction = {}\n # 1 - Load data\n logger.info(f'Load {xls}')\n manifest, metadata = load_xls(xls)\n # 2 - Check file and data\n logger.info(f'Start to validate XLS')\n check_samples(manifest, metadata)\n check_seqtype(manifest, seqtype)\n check_metadata(metadata, seqtype)\n logger.success(f'Successfully validate XLS')\n # 3 - Export XLS to TSV for Qiime2\n logger.info(f'Start to export XLS to TSV')\n data_extraction = extract_manifest(manifest, seqtype, data_extraction)\n data_extraction, metadata_vars = extract_metadata(metadata, seqtype, data_extraction)\n export_to_tsv_for_qiime(data_extraction, metadata_vars, seqtype)\n logger.success(f'Done')",
"def main():\n data_dir = \".\\\\excel\\\\data\\\\\"\n archive_dir = \".\\\\excel\\\\archive\\\\\"\n xl_list = glob.glob(data_dir + \"*.xlsx\")\n\n try:\n for xl_file in xl_list:\n workbook = pd.ExcelFile(xl_file)\n\n if fnmatch.fnmatch(xl_file.lower(), \"*base*.xlsx\") == True:\n print(f\"Creating DataFrame for '{xl_file}'...\")\n \n df_base = workbook.parse(0, skiprows=1, header=None)\n df_base.columns = [\"dept\", \n \"category\", \n \"itemDesc\", \n \"itemCode\", \n \"itemSize\", \n \"pvtLblFlag\", \n \"buyerCode\", \n \"invUnitShipped\", \n \"invCaseShipped\", \n \"storeOrdProdQty\", \n \"shortedQty\", \n \"grossSvcLvl\", \n \"netSvcLvl\"]\n df_base[\"itemCode\"] = df_base[\"itemCode\"].map('{:0>6}'.format)\n df_base[\"buyerCode\"] = df_base[\"buyerCode\"] * 10\n df_base[\"itemDesc\"] = df_base[\"itemDesc\"] + \" \" + df_base[\"itemSize\"]\n \n print(f\"'{xl_file}' Successfully processed\\n\") \n elif fnmatch.fnmatch(xl_file.lower(), \"*short*.xlsx\") == True:\n print(f\"Creating DataFrame for '{xl_file}'...\")\n \n df_shorts = workbook.parse(0, skiprows=1, header=None)\n df_shorts.columns = [\"itemDesc\", \n \"itemCode\", \n \"yesterdayOOS\"]\n df_shorts[\"itemCode\"] = df_shorts[\"itemCode\"].map('{:0>6}'.format)\n df_shorts.drop(columns=[\"itemDesc\"], inplace=True)\n \n print(f\"'{xl_file}' Successfully processed\\n\") \n elif fnmatch.fnmatch(xl_file.lower(), \"*reason*.xlsx\") == True:\n print(f\"Creating DataFrame for '{xl_file}'...\")\n \n df_reason = workbook.parse(0, skiprows=2, header=None)\n df_reason.columns = [\"dept\", \n \"category\", \n \"itemDesc\", \n \"itemCode\", \n \"outOfStock\", \n \"manufacIssue\",\n \"disc\",\n \"other\",\n \"newItemIssue\"]\n df_reason[\"itemCode\"] = df_reason[\"itemCode\"].map('{:0>6}'.format)\n df_reason[\"max\"] = df_reason[[df_reason.columns[4], \n df_reason.columns[5], \n df_reason.columns[6], \n df_reason.columns[7], \n df_reason.columns[8]]].max(axis=1)\n df_reason.loc[df_reason[\"max\"] == df_reason[\"outOfStock\"], \"primaryReason\"] = \"Out Of Stock\"\n df_reason.loc[df_reason[\"max\"] == df_reason[\"manufacIssue\"], \"primaryReason\"] = \"Manufacturer Issue\"\n df_reason.loc[df_reason[\"max\"] == df_reason[\"disc\"], \"primaryReason\"] = \"Discontinued\"\n df_reason.loc[df_reason[\"max\"] == df_reason[\"other\"], \"primaryReason\"] = \"Other\"\n df_reason.loc[df_reason[\"max\"] == df_reason[\"newItemIssue\"], \"primaryReason\"] = \"New Item Issue\"\n df_reason.sort_values(by=[\"max\"], ascending=False, inplace=True)\n df_reason.drop(columns=[\"dept\", \n \"category\", \n \"itemDesc\", \n \"outOfStock\", \n \"manufacIssue\", \n \"disc\", \n \"other\", \n \"newItemIssue\", \n \"max\"], inplace=True)\n \n print(f\"'{xl_file}' Successfully processed\\n\") \n elif fnmatch.fnmatch(xl_file.lower(), \"*export*.xlsx\") == True:\n print(f\"Creating DataFrame for '{xl_file}'...\")\n \n to_drop = [\"14:HATFIELD NORTH\", \"1:BRATTLEBORO\"]\n \n df_cs = workbook.parse(0, skiprows=3, skipfooter=20, header=None)\n df_cs = df_cs[~df_cs[7].isin(to_drop)]\n df_cs = df_cs.filter([0, 14, 15, 17, 34])\n df_cs.columns = [\"custCode\", \n \"poDueDate\", \n \"poApptDate\", \n \"inStock\", \n \"daysOOS\"]\n df_cs[\"itemCode\"] = df_cs[\"custCode\"].astype(str).str[9:15]\n df_cs.drop(columns=[\"custCode\"], inplace=True)\n df_cs.drop_duplicates(inplace=True)\n\n print(f\"'{xl_file}' Successfully processed\\n\")\n\n for data_file in os.listdir(data_dir):\n if fnmatch.fnmatch(data_file, \"*.xlsx\") == True:\n print(f\"Deleting '{data_file}'...\\n\")\n os.remove(data_dir + data_file)\n\n df_join_1 = df_base.merge(df_reason, how=\"left\", on=\"itemCode\")\n df_join_2 = df_join_1.merge(df_shorts, how=\"left\", on=\"itemCode\")\n df_join_3 = df_join_2.merge(df_cs, how=\"left\", on=\"itemCode\")\n \n print(\"Exporting to Excel...\\n\")\n df_join_3.to_excel(f\".\\\\excel\\\\archive\\\\oos-data-{timestamp()}.xlsx\", index=False)\n\n sys.exit(0)\n except:\n try:\n df_join_1 = df_base.merge(df_reason, how=\"left\", on=\"itemCode\")\n df_join_2 = df_join_1.merge(df_shorts, how=\"left\", on=\"itemCode\")\n\n df_join_2[\"poDueDate\"] = \"NO CS DATA\"\n df_join_2[\"poApptDate\"] = \"NO CS DATA\"\n df_join_2[\"inStock\"] = \"NO CS DATA\"\n df_join_2[\"daysOOS\"] = \"NO CS DATA\"\n \n print(\"Exporting to Excel...\\n\")\n df_join_2.to_excel(f\".\\\\excel\\\\archive\\\\oos-data-{timestamp()}.xlsx\", index=False)\n except:\n if not os.path.exists(archive_dir):\n os.makedirs(archive_dir)\n if not os.path.exists(data_dir):\n os.makedirs(data_dir)\n\n sys.exit(1)",
"def driver():\n\n directory = r\"C:/Users/Aftab Alam/Documents/GitHub\"\n directory = directory + r\"/SRM-placement-analyser/data/\"\n fileList = [directory+\"InfosysResult.xlsx\",directory+\"TCSResult.xlsx\",directory+\"CognizantResult.xlsx\",directory+\"WiproResult.xlsx\"]\n \n listOfPlaced = extractCommonData.extractCommonData(fileList)\n createNewExcelSheet(directory,listOfPlaced)",
"def readExcel():\n #Data files\n wb = load_workbook(filename = \"marchTioga2SecAvg.xlsx\") #Load this data excel file\n ws = wb.active\n bottom = 10 #Bottom of the data excel file\n \n #Result files\n wb1 = load_workbook(filename = \"marchTioga2SecAvg.xlsx\") #Load excel where you will print results\n ws1 = wb1.create_sheet(\"New Data\") #Make new sheet\n \n BC1 = getBC1List(ws,bottom)\n BC2 = getBC2List(ws,bottom)\n BC3 = getBC3List(ws,bottom)\n BC4 = getBC4List(ws,bottom)\n BC5 = getBC5List(ws,bottom)\n BC6 = getBC6List(ws,bottom)\n BC7 = getBC7List(ws,bottom)\n \n print BC1\n result = calculateCurveFit(BC1, BC2, BC3, BC4, BC5, BC6, BC7)\n print result\n \n putInExcel(ws1,result) #Put Aeth data in Excel\n \n wb1.save(filename = \"marchTioga2SecAvg.xlsx\")",
"def test_excel(test_data,tmp_path):\n\n for d in test_data:\n\n gpm = GenotypePhenotypeMap(genotype=d[\"genotype\"],\n wildtype=d[\"wildtype\"],\n phenotype=d[\"phenotype\"],\n uncertainty=d[\"uncertainty\"])\n\n # Write excel file\n excel_file = os.path.join(tmp_path,\"tmp.xlsx\")\n gpm.to_excel(filename=excel_file)\n assert os.path.isfile(excel_file)\n\n # Read in and make sure it worked.\n new_gpm = gpmap.read_excel(filename=excel_file,wildtype=d[\"wildtype\"])\n conftest.compare_gpmap(gpm,new_gpm)\n\n # Do not give wildtype. Should still work because the wildtype was\n # inferred.\n gpm_read = gpmap.read_excel(filename=excel_file)\n conftest.compare_gpmap(gpm,gpm_read)\n\n # Check ability to read labels back in\n site_labels = [f\"{x}\" for x in range(10,10+len(d[\"wildtype\"]),1)]\n gpm = GenotypePhenotypeMap(genotype=d[\"genotype\"],\n wildtype=d[\"wildtype\"],\n site_labels=site_labels)\n out_file = os.path.join(tmp_path,\"tmp.xlsx\")\n gpm.to_excel(out_file)\n\n gpm_read = gpmap.read_excel(out_file)\n\n for i in range(len(gpm_read.site_labels)):\n\n # Skip virtual site_labels added for invariant sites\n if len(d[\"mutations\"][i]) == 1:\n continue\n\n assert gpm_read.site_labels[i] == gpm.site_labels[i]\n\n # Read in with bad wildtype. Should throw warning and then have\n # sequential site labels.\n with pytest.warns(UserWarning):\n gpm_read = gpmap.read_excel(out_file,wildtype=d[\"mutant\"])\n\n assert np.array_equal(gpm_read.site_labels,range(len(d[\"wildtype\"])))",
"def compare_all(category, rent_type, minSize, maxPrice, minRooms, maxRooms, exc, balcony, pets, furnished):\n wg_api = WgGesucht()\n wg_results = wg_api.search(category, rent_type, minSize, maxPrice, minRooms, maxRooms, exc, balcony, pets, furnished)\n final_df = prepare_wg_data(wg_results)\n final_df.to_csv('Flat_search_results.csv', sep=str('\\t'), encoding='utf-8') # saving into csv file\n return final_df",
"def excel(df_ccl, df_arg_stocks, df_bonds, df_arg_stocks_ccl):\n if os.path.exists('CCL.xlsx'):\n wb = xw.Book('CCL.xlsx')\n # SHEET CEDEARS\n ws = wb.sheets('CCL CEDEARs')\n ws.range('A1').expand().value = df_ccl\n # SHEET MERVAL\n ws_merval = wb.sheets('Merval')\n ws_merval.range('A1').expand().value = df_arg_stocks\n # SHEET BONOS\n ws_bonds = wb.sheets('Bonos')\n ws_bonds.range('A1').expand().value = df_bonds\n # SHEET CCL MERVAL\n ws_ccl = wb.sheets('CCL ADRs')\n ws_ccl.range('A1').expand().value = df_arg_stocks_ccl\n\n tiempo = time.asctime()\n print('Carga exitosa de datos. Ultima ejecución: ',tiempo)",
"def compare_vendor_price_list_detail_rates_grid_rate(self):\n self.buy_page_excel_data_dictionary = self.get_excel_data_dictionary()\n is_compared = False\n rates_grid_rate_column_element = self.wait().until(EC.presence_of_element_located(self.rates_grid_rate_column_locator))\n if self.buy_page_excel_data_dictionary[\"Rate1\"] == (rates_grid_rate_column_element.text).strip():\n is_compared = True\n return is_compared",
"def compare_materials(supList=['MATX-BM001', 'MATX-BM002', 'MATX-BM003'\r\n ]):\r\n\r\n # check to catch any errors\r\n try:\r\n\r\n # get complete merged table\r\n df_com = merge_tables()\r\n\r\n # filter for required fields\r\n df_filtered = df_com[df_com['BM-uid'].isin(supList)]\r\n\r\n # format table\r\n df_filtered = df_filtered.T\r\n df_filtered = df_filtered.dropna()\r\n except Exception:\r\n\r\n # if exception arises notify users\r\n print ('error occured: Please check Ball Mill IDs')\r\n\r\n return df_filtered",
"def test_parse_sample_sheet(self):\n pass",
"def compare(cls, data_hist, ref_hist, params):\n raise NotImplementedError(\"This is an abstract function that needs to be implemented for each comparison function\")",
"def dr14comp(a,b,av,bv):\n load=apload.ApLoad(apred='r11')\n dr14=apload.ApLoad(dr='dr14')\n\n i1,i2=match.match(a['APOGEE_ID'],b['APOGEE_ID'])\n gd = np.where((a['NVISITS'][i1] == b['NVISITS'][i2]) & (a['SNR'][i1]>75) )[0]\n a=a[i1[gd]]\n b=b[i2[gd]]\n \n j=np.argsort(a['VHELIO_AVG']-b['VHELIO_AVG'])\n \n fig,ax=plots.multi(1,3,hspace=0.3) \n pfig,pax=plots.multi(1,3,hspace=0.3) \n wfig,wax=plots.multi(1,3,hspace=0.3) \n chips=['a','b','c']\n for jj in j :\n j1=np.where(av['APOGEE_ID'] == a['APOGEE_ID'][jj])[0]\n j2=np.where(bv['APOGEE_ID'] == a['APOGEE_ID'][jj])[0]\n print(a['APOGEE_ID'][jj],a['RV_TEFF'][jj],b['RV_TEFF'][jj],a['SNR'][jj],b['SNR'][jj])\n for jjj,kkk in zip(j1,j2) : \n print(av['MJD'][jjj],av['PLATE'][jjj],av['FIELD'][jjj],av['SNR'][jjj],av['FIBERID'][jjj],av['VHELIO'][jjj],av['ESTVHELIO'][jjj])\n print(bv['MJD'][kkk],bv['PLATE'][kkk],bv['FIELD'][kkk],bv['SNR'][kkk],bv['FIBERID'][kkk],bv['VHELIO'][kkk],bv['ESTVHELIO'][kkk])\n va=load.apPlate(int(av['PLATE'][jjj]),av['MJD'][jjj])\n vsum=load.apVisitSum(int(av['PLATE'][jjj]),av['MJD'][jjj])[1].data\n f=np.where(vsum['FIBERID'] == av['FIBERID'][jjj])[0]\n print(vsum['RV_TEFF'][f])\n applot.chip(va,ax=ax,row=300-av['FIBERID'][jjj],color='r')\n applot.chip(va,ax=pax,row=300-av['FIBERID'][jjj],color='r',pixel=True)\n vb={}\n for chip in chips :\n tmp=fits.open(os.environ['APOGEE_REDUX']+'/r8/apo25m/{:04d}/{:05d}/apPlate-{:s}-{:04d}-{:05d}.fits'.format(\n int(bv['PLATE'][kkk]),bv['MJD'][kkk],chip,int(bv['PLATE'][kkk]),bv['MJD'][kkk]))\n vb[chip] = tmp\n vsum=fits.open(os.environ['APOGEE_REDUX']+'/r8/fields/apo25m/{:04d}/apVisitSum-{:04d}-{:05d}.fits'.format(\n int(bv['LOCATION_ID'][kkk]),int(bv['PLATE'][kkk]),bv['MJD'][kkk]))[1].data\n f=np.where(vsum['FIBERID'] == bv['FIBERID'][kkk])[0]\n print(vsum['RV_TEFF'][f])\n applot.chip(vb,ax=ax,row=300-bv['FIBERID'][kkk],color='b')\n applot.chip(vb,ax=pax,row=300-bv['FIBERID'][kkk],color='b',pixel=True)\n for ichip,chip in enumerate(chips) :\n wax[ichip].plot(va[chip][4].data[300-av['FIBERID'][jjj],:]-vb[chip][4].data[300-bv['FIBERID'][kkk],:])\n plt.show()\n pdb.set_trace()\n\n for ichip in range(3) :\n ax[ichip].cla()\n pax[ichip].cla()\n wax[ichip].cla()",
"def cpi_data():\n\n\n cpi_workbook = xlrd.open_workbook(\n 'corruption_perception_index.xlsx')\n cpi_sheet = cpi_workbook.sheets()[0]\n\n\n cpi_title_rows = zip(cpi_sheet.row_values(1), cpi_sheet.row_values(2))\n cpi_titles = [t[0] + ' ' + t[1] for t in cpi_title_rows]\n cpi_titles = [t.strip() for t in cpi_titles]\n cpi_rows = [cpi_sheet.row_values(r) for r in range(3, cpi_sheet.nrows)]\n\n\n cpi_types = get_types(cpi_sheet.row(3))\n cpi_titles[0] = cpi_titles[0] + ' Duplicate'\n cpi_table = get_table(cpi_rows, cpi_types, cpi_titles)\n\n return cpi_table",
"def test_cells_charts_get_chart_value_axis(self):\n name ='Book1.xlsx'\n sheet_name ='Sheet4'\n chartIndex = 0 \n folder = \"PythonTest\"\n result = AuthUtil.Ready(self.api, name, folder)\n self.assertTrue(len(result.uploaded)>0) \n result = self.api.cells_charts_get_chart_value_axis(name, sheet_name,chartIndex, folder=folder)\n self.assertEqual(result.code,200)\n pass",
"def get_stock_data(stock_name, ma=[],bollinger=[],exp_ma=[],ma_conv=[]):\n df = xl.parse(stock_name)\n #df.drop(['VOLUME'], 1, inplace=True)\n df.set_index('Date', inplace=True)\n \n # Renaming all the columns so that we can use the old version code\n df.rename(columns={'OPEN': 'Open', 'HIGH': 'High', 'LOW': 'Low', 'NUMBER_TICKS': 'Volume', 'LAST_PRICE': 'Adj Close'}, inplace=True)\n # Percentage change\n df['Pct'] = df['Adj Close'].pct_change()\n df.dropna(inplace=True)\n \n # Moving Average \n if ma != []:\n for moving in ma:\n df['{}ma'.format(moving)] = df['Adj Close'].rolling(window=moving).mean()\n # Bollinger \n if bollinger != []:\n def bbands(price, length=30, numsd=2):\n \"\"\" returns average, upper band, and lower band\"\"\"\n ave = pd.stats.moments.rolling_mean(price,length)\n sd = pd.stats.moments.rolling_std(price,length)\n upband = ave + (sd*numsd)\n dnband = ave - (sd*numsd)\n return np.round(upband,3), np.round(dnband,3)\n for moving in bollinger:\n df['{}bollingerup'.format(moving)],df['{}bollingerdown'.format(moving)] = bbands(df['Adj Close'], length=moving, numsd=2)\n \n # Exponential Moving Average \n if exp_ma != []:\n for moving in exp_ma:\n df['{}exp_ma'.format(moving)] = df['Adj Close'].ewm(min_periods=1, adjust=True,com=moving).mean()\n \n # Moving Average Convergence \n if ma_conv!= []:\n for moving in ma_conv:\n df['{}ma_conv'.format(moving)] = df['Adj Close'].ewm(min_periods=1, adjust=True,com=moving[0]).mean()-df['Adj Close'].ewm(min_periods=1, adjust=True,com=moving[1]).mean()\n \n \n \n df.dropna(inplace=True)\n \n \n # Move Adj Close to the rightmost for the ease of training\n adj_close = df['Adj Close']\n df.drop(labels=['Adj Close'], axis=1, inplace=True)\n df = pd.concat([df, adj_close], axis=1)\n \n return df",
"def _compare(self,esnA,esnB,should_be):\n X,y,Xp = self.task\n test = self.assertTrue if should_be==\"same\" else self.assertFalse\n test(np.all(np.equal(esnA.W, esnB.W)))\n test(np.all(np.equal(esnA.W_in, esnB.W_in)))\n test(np.all(np.equal(esnA.W_feedb, esnB.W_feedb)))\n test(np.all(np.equal(esnA.fit(X,y), esnB.fit(X,y))))\n test(np.all(np.equal(esnA.W_out, esnB.W_out)))\n test(np.all(np.equal(esnA.predict(Xp), esnB.predict(Xp))))",
"def test_read_xls(self):\r\n my_tape = Tape()\r\n input_xls = os.path.join(test_files_dir, 'test_tape.xlsx')\r\n my_tape.read_xls(input_xls)\r\n assert_frame_equal(self.test_df, my_tape.dataframe)",
"def read_elia_cap(filename):\r\n df = pd.read_excel(filename,skiprows=0,parse_dates=False)\r\n \r\n #standaard datetime vorm omzetten\r\n df[\"Tendering Periodneww\"] = pd.to_datetime(df[\"Tendering Period\"],errors='coerce')\r\n df[\"Delivery Periodneww\"] = pd.to_datetime(df[\"Delivery Period\"],errors='coerce')\r\n \r\n #de 'weekvorm' van datetime omzetten\r\n df[\"Tendering Period\"]=df[\"Tendering Period\"].astype(str).map(lambda x: x.lstrip('W'))\r\n df[\"Delivery Period\"]=df[\"Delivery Period\"].astype(str).map(lambda x: x.lstrip('W'))\r\n df[\"Tendering Period\"]=df[\"Tendering Period\"].replace('\\s+', '_',regex=True)\r\n df[\"Delivery Period\"]=df[\"Delivery Period\"].replace('\\s+', '_',regex=True)\r\n df[\"Tendering Periodnew\"] = pd.to_datetime(df[\"Tendering Period\"][df[\"Delivery Periodneww\"].isnull()].astype(str).add('-1'), format=\"%W_%Y-%w\", errors='coerce')\r\n df[\"Delivery Periodnew\"] = pd.to_datetime(df[\"Delivery Period\"][df[\"Delivery Periodneww\"].isnull()].astype(str).add('-1'), format=\"%W_%Y-%w\", errors='coerce')\r\n \r\n #datumkolommen samenvoegen en overbodige kolommen verwijderen\r\n df[\"Tendering Period Combined\"] = df['Tendering Periodnew'].fillna(df['Tendering Periodneww'])\r\n df[\"Delivery Period Combined\"] = df['Delivery Periodnew'].fillna(df['Delivery Periodneww'])\r\n df=df.drop(columns=['Tendering Period', 'Delivery Period','Tendering Periodneww', 'Delivery Periodneww','Tendering Periodnew', 'Delivery Periodnew',])\r\n df.columns=[\"duration\",\"reserve type\",\"service type\",\"total contracted volume in MW\", \"average price in euro/MW/h\",\"forecasted average price in euro/MW/h\",\"total offered volume in MW\",\"tariff period\", \"symmetry type\", \"country\",\"tendering period\",\"delivery period\"] \r\n \r\n #multi index & sort\r\n df=df.set_index([\"delivery period\"])\r\n df=df.sort_index(ascending=False);\r\n \r\n return df",
"def CrossCheck(dataloader):",
"def compare_destination_with_excel_data(self):\n is_compared = False\n self.grid_row_data.clear()\n self.grid_row_data.update({\"Destination\": \"\", \"Begin Date\": \"\"})\n destination_grid_row_data = self.get_vendor_profile_page_grid_row_details(self.destinations_grid_div_id, self.grid_row_data)\n if self.buy_page_excel_data_dictionary[\"Destination\"] == destination_grid_row_data[\"Destination\"] and self.buy_page_excel_data_dictionary[\"EffectiveDate\"] == destination_grid_row_data[\"Begin Date\"]:\n is_compared = True\n return is_compared",
"def test_success(self, worksheet, circuits_app, attachment_id, incident_id, task_id, excel_ranges,\n excel_defined_names, expected_results):\n function_params = {\n \"attachment_id\": attachment_id,\n \"excel_ranges\": excel_ranges,\n \"excel_defined_names\": excel_defined_names,\n \"incident_id\": incident_id,\n \"task_id\": task_id\n }\n # get the expected data\n res_path = os.path.join(os.path.dirname(__file__), expected_results)\n with open(res_path, 'r') as file:\n expected = file.read()\n # mock the worksheet processing data\n worksheet = worksheet.return_value\n worksheet.parse.return_value = None\n worksheet.result = expected\n results = call_utilities_excel_query_function(circuits_app, function_params)\n\n assert expected.replace(' ', '') == results.replace(' ', '')"
] | [
"0.5921767",
"0.5849585",
"0.56760883",
"0.56402797",
"0.55647826",
"0.5547654",
"0.55344933",
"0.5519897",
"0.5514282",
"0.55127454",
"0.5493715",
"0.54832655",
"0.54516363",
"0.54497635",
"0.54390675",
"0.54290086",
"0.5426229",
"0.5424092",
"0.5398408",
"0.53852874",
"0.53472817",
"0.53270847",
"0.5324501",
"0.53219527",
"0.5312735",
"0.52800757",
"0.5253343",
"0.525192",
"0.5251613",
"0.5251155"
] | 0.70885634 | 0 |
Implementing is mnp column present functionality | def is_mnp_column_present(self):
is_present = False
self.column_name_list = self.get_grid_column_names_by_order(self.qos_grid_div_id)
for column_name in self.column_name_list:
if column_name == "MNP":
is_present = True
break
return is_present | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def computePMIColumn(self, trainset, targetColname='cv_data'):\n if(~isinstance(trainset, pd.DataFrame)):\n if(trainset.shape[1]<2):\n if (targetColname not in list(trainset)):\n log.error(\"Invalid Dataframe for PMI compute\",\"Expecting A Pandas.Dataframe with columns:\", targetColname)\n\n #Apply scoring function across each row of dataframe\n return trainset.apply(self._getPMI, args=(targetColname,), axis=1)",
"def is_compat_col(self, col):\n return isinstance(col, DomainMatrix) and col.shape == (self.n, 1) and col.domain.is_ZZ",
"def get_cols_dummy():",
"def has_column(self, column):\n if column == '*':\n return True\n for c in self.columns:\n if column == c.data.name:\n return True\n return False",
"def test_columns_property():\n atom = ATOMClassifier(X_bin, y_bin, random_state=1)\n atom.run(\"LR\")\n assert [i == j for i, j in zip(atom.lr.columns, atom.columns)]",
"def test_mp_fit_columns(self):\n\t\t\n\t\tdetails = self.watcher.analyze(mp_fit=True)\n\t\tself.assertEqual(isinstance(details, pd.DataFrame), True, \"details is a pandas DataFrame\")\n\n\t\tcolumns = [\"num_spikes\", \"sigma_mp\", \"mp_softrank\"]\n\t\t\n\t\tfor key in columns:\n\t\t\tself.assertTrue(key in details.columns, \"{} in details. Columns are {}\".format(key, details.columns))",
"def dependent_cols():\n\n return ...",
"def identify_dichotomous_columns(dataset, nominal_columns):\n pass",
"def is_column_like(obj):\n return (\n isinstance(\n obj,\n (\n cudf.core.column.ColumnBase,\n cudf.Series,\n cudf.Index,\n pd.Series,\n pd.Index,\n ),\n )\n or (\n hasattr(obj, \"__cuda_array_interface__\")\n and len(obj.__cuda_array_interface__[\"shape\"]) == 1\n )\n or (\n hasattr(obj, \"__array_interface__\")\n and len(obj.__array_interface__[\"shape\"]) == 1\n )\n )",
"def columns(self):\n return NotImplemented",
"def _columns_are_mapped(self, *cols: ColumnElement[Any]) -> bool:\n\n secondary = self._init_args.secondary.resolved\n for c in cols:\n if secondary is not None and secondary.c.contains_column(c):\n continue\n if not self.parent.persist_selectable.c.contains_column(\n c\n ) and not self.target.c.contains_column(c):\n return False\n return True",
"def columns(self):\n \n pass",
"def has_group_cols(self):\n return len(self.group_cols) != 0",
"def becomes_single_column(self):\n return self.becomes_column() and not self.is_gps()",
"def test_multiple(self):\n df = self.df.copy()\n out = get_full_column(df.values)\n self.assertTrue(out == 0)",
"def test_abstract_columns_are_inherited(self):\r\n assert hasattr(ConcreteModelWithCol, 'pkey')\r\n assert isinstance(ConcreteModelWithCol.pkey, ColumnQueryEvaluator)\r\n assert isinstance(ConcreteModelWithCol._columns['pkey'], columns.Column)",
"def N_Col(self,val):\n\t\tif val in self.colums:\n\t\t\treturn self.colums.index(val)\n\t\telse:\n\t\t\treturn False",
"def has_column_proportion(self, index):\n\n return index in self._proportions[0]",
"def dimension_measure(self, columns):\n # column_val = self.data_frame[column]\n if not self._pandas_flag:\n for column in columns:\n r1 = random.randint(0, self.data_frame.count() - 1)\n if re.match(\"^\\d*[.]?\\d*$\", str(self.data_frame.collect()[r1][column])):\n self.data_frame = self.data_frame.withColumn(\"is_numeric_col\",\\\n col(column).\\\n rlike(\"^[0-9]+[.]{0,1}[0-9]*\\s*$\"))\n val_count = self.data_frame.cube(\"is_numeric_col\").count()\n val_count_list =list(map(lambda row: row.asDict(), val_count.collect()))\n dict_vals = {each['is_numeric_col']:each['count']/self.data_frame.count()\\\n for each in val_count_list}\n if False in dict_vals.keys():\n if dict_vals[False] <= 0.01:\n self.data_frame = self.data_frame.filter(self.data_frame.is_numeric_col.isin([True]))\n self.data_frame = self.data_frame.drop('is_numeric_col')\n self.data_change_dict[\"MeasureColsToDim\"].append(column)\n self.dimension_cols.remove(column)\n ## below line code change during optimization\n self.data_frame = self.data_frame.withColumn(column, self.data_frame[column].cast(\"float\"))\n self.numeric_cols.append(column)\n else:\n for column in columns:\n column_val = self.data_frame[column]\n updated_row_num = self.data_frame[column].index\n r1 = random.randint(0, len(updated_row_num) - 1)\n if re.match(\"^\\d*[.]?\\d*$\", str(self.data_frame.iloc[r1][column])):\n # out=column_val.str.isdigit()\n out = column_val.str.contains(\"^[0-9]+[.]{0,1}[0-9]*\\s*$\")\n if out[out == False].count() <= 0.01 * self.data_frame.shape[0]:\n row_index = out.index[out == False].tolist()\n\n self.data_frame = self.data_frame.drop(row_index, axis=0)\n self.data_change_dict[\"MeasureColsToDim\"].append(column)\n self.dimension_cols.remove(column)\n ## below line code change during optimization\n self.data_frame[column] = pd.to_numeric(self.data_frame[column])\n self.numeric_cols.append(column)",
"def check_cols_methane(name):\n return True if name in ['SampleDay', 'SampleHour', 'Decimal Year',\n 'Peak Area 1', 'Peak Area 2', 'Run median', 'Daily Median'] else False",
"def checkIfColumnControlledVocab(self, column_name):\n try:\n con = self.getMetadataDatabaseConnection()\n valid_controlled_column=0\n db_output=con.cursor().callproc('check_if_column_controlled',\n [column_name.upper(),\\\n valid_controlled_column])\n if db_output[1]==0:\n return False\n else:\n return True\n except Exception, e:\n print 'Exception caught: %s.\\nThe error is: %s' % (type(e), str(e))\n return False",
"def bad_column_positions(self, x):\n return x.is_null()",
"def is_column_unique(self, i: int) -> bool:\n #print(\"enter bartpy/bartpy/data.py CovariateMatrix is_column_unique\")\n \n if self._unique_columns[i] is None:\n self._unique_columns[i] = len(np.unique(self.get_column(i))) == self._n_obsv\n output = self._unique_columns[i]\n #print(\"-exit bartpy/bartpy/data.py CovariateMatrix is_column_unique\")\n return output",
"def test_column_presence(self):\n\n columns = [\"feature_is_filtered\", \"feature_biotype\"]\n\n for component_name in [\"var\", \"raw.var\"]:\n for column in columns:\n if column == \"feature_is_filtered\" and component_name == \"raw.var\":\n continue\n with self.subTest(component_name=component_name, column=column):\n\n # Resetting validator\n self.validator.errors = []\n self.validator.adata = examples.adata.copy()\n\n component = Validator.getattr_anndata(\n self.validator.adata, component_name\n )\n component.drop(column, axis=1, inplace=True)\n\n self.validator.validate_adata()\n self.assertEqual(\n self.validator.errors,\n [\n f\"ERROR: Dataframe '{component_name}' is missing \"\n f\"column '{column}'.\"\n ],\n )",
"def front_column_model_p_gain():",
"def test_batch_condition_is_column_from_obs(self):\n\n self.validator.adata.uns[\"batch_condition\"] = [\"NO_COLUMN\"]\n self.validator.validate_adata()\n self.assertEqual(\n self.validator.errors,\n [\n \"ERROR: Value 'NO_COLUMN' of list 'batch_condition' is not a \"\n \"column in 'adata.obs'.\"\n ],\n )",
"def test_single_missing_column():\n imp = MissingnessClassifier()\n imp.fit_predict(dfs.df_mis_classifier)\n imp.fit_predict_proba(dfs.df_mis_classifier)",
"def columns(self):\n raise RuntimeException(\"child class must implement columns property method\")",
"def columnarize(self):\n if self._shape_hint == \"column\":\n return self\n\n if len(self.columns) != 1 or (\n len(self.index) == 1 and self.index[0] == MODIN_UNNAMED_SERIES_LABEL\n ):\n return self.transpose()\n return self",
"def _getPMI(self, df, targetColname):\n pmi = 0\n search_term = df[targetColname]\n noofterms = len(search_term)\n startindex = 0\n pmiAccumulate = 0\n if(noofterms>1):\n for i in range(0,noofterms-1):\n pmi = self.computePMI(search_term[i],search_term[i+1])\n pmiAccumulate = pmiAccumulate+pmi\n pmiAccumulate = pmiAccumulate/noofterms\n pmi = pmiAccumulate\n return pmi"
] | [
"0.5817356",
"0.56793827",
"0.5642776",
"0.56403774",
"0.5620948",
"0.5568888",
"0.55647135",
"0.5521623",
"0.54994994",
"0.54883325",
"0.5454219",
"0.5445734",
"0.53815174",
"0.5366268",
"0.53661823",
"0.5354104",
"0.5353652",
"0.53532165",
"0.53475326",
"0.5329124",
"0.5316668",
"0.5300141",
"0.5297894",
"0.52662826",
"0.5256289",
"0.52213085",
"0.521927",
"0.521403",
"0.52103466",
"0.51897657"
] | 0.770314 | 0 |
Implementing is comments column present functionality | def is_comments_column_present(self):
is_present = False
self.column_name_list = self.get_grid_column_names_by_order(self.qos_grid_div_id)
for column_name in self.column_name_list:
if column_name == "Comments":
is_present = True
break
return is_present | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def is_comment_hook(self) -> bool:\n query = (where('message_cid') == self.channel_id) & \\\n (where('message_mid') == self.message_id) & \\\n (where('altype') == int(AlternateType.COMMENT))\n\n return self.handle.table(ALTERNATES_TABLE_NAME).get(query) is not None",
"def get_colcomment(self):\n return self.colcomment",
"def _commentsInThisFunction(self):\n show_unique_c = self.config.display_unique_comments\n\n msg = \"Searching comments within function '\" + misc.get_function_name() + \"'\"\n self._console_output(msg)\n\n comment_list = self.ba.comments_in_function()\n\n # Found any comment at all?\n nrows = len(comment_list)\n if not nrows:\n self._console_output(\"[!] No comments found\", err = True)\n return\n\n self.table.setColumnCount(2)\n self.table_label.setText(\"Comments within current function\")\n self.table.setHorizontalHeaderLabels((\"Address\", \"Comments\"))\n self.table.clearContents()\n self.table.setRowCount(0)\n\n # Fill with contents\n displayed_comments = []\n\n idx = 0\n for (addr, comment) in comment_list:\n if show_unique_c and comment in displayed_comments:\n continue\n\n displayed_comments.append(comment)\n\n self.table.insertRow(idx)\n addr_item = QTableWidgetItem(\"%08x\" % addr)\n addr_item.setFlags(addr_item.flags() ^ QtCore.Qt.ItemIsEditable)\n comment_item = QTableWidgetItem(comment)\n\n self.table.setItem(idx, 0, addr_item)\n self.table.setItem(idx, 1, comment_item)\n\n idx += 0",
"def isComment(self, lineData, column):\n return self._getTextType(lineData, column) in 'cbh'",
"def supports_comment_query(self):\n return False",
"def comment():",
"def supports_comment_admin(self):\n return False",
"def get_comments(self):\n raise NotImplementedError",
"def check_correct_comments(input_file, title):\n contents = open(input_file, 'r').readlines()\n col_names = find_columns(input_file, title)[0]\n working = False\n Report = {}\n found = []\n title_comments = []\n for line in contents:\n i = contents.index(line)+1\n\n if 'COMMENT ON TABLE ' in line:\n title_comments.append(line)\n\n if 'COMMENT ON COLUMN ' in line:\n if line[-2] == ';':\n for name in col_names:\n cmt_cmd = 'COMMENT ON COLUMN '+str(title)+'.'+str(name)+' IS'\n\n if cmt_cmd in line and name not in found:\n found.append(name)\n col_names.pop(col_names.index(name))\n Report[str(name)] = True, i\n\n Report['Tab_title'] = False, 'NotFound'\n for commands in title_comments:\n i = contents.index(commands)+1\n if ('COMMENT ON TABLE '+str(title)+' IS' in commands) == True:\n Report['Tab_title'] = True, i\n\n for name in col_names:\n Report[str(name)] = False, 'Not Found'\n if all(v[0] == True for v in Report.values()) == True:\n total = (len(find_columns(input_file, title)[0])+1)\n if sum(v[0] == True for v in Report.values()) == total:\n working = True\n return working, Report",
"def supports_commenting_batch(self):\n return False",
"def supports_comment_lookup(self):\n return False",
"def supports_comment_book(self):\n return False",
"def comment(self, content):\n pass",
"def standardize_comments(df, column_name):\n # create a copy of the dataframe\n df_copy = df.copy()\n # remove rows that contain '[deleted]' or '[removed]' in the comment body\n df_copy = df_copy[(df[column_name] != '[removed]') & (df[column_name] != '[deleted]')]\n # remove rows with null values\n df_copy.dropna(inplace=True)\n # remove rows with the bot comment that starts with \"Register to vote\"\n df_copy = df_copy[~df_copy[column_name].str.startswith('Register to vote')]\n # remove rows with 'Thank you for participating in /r/Politics' in the body\n df_copy = df_copy[~df_copy[column_name].str.contains('Thank you for participating in /r/Politics')]\n # remove rows that contain 'I am a bot' in the comment body\n df_copy = df_copy[~df_copy[column_name].str.contains('I am a bot')]\n # replace characters in comment bodies\n df_copy[column_name] = df_copy[column_name].str.replace(r\"http\\S+\", \"\")\n df_copy[column_name] = df_copy[column_name].str.replace(r\"http\", \"\")\n df_copy[column_name] = df_copy[column_name].str.replace(r\"@\\S+\", \"\")\n df_copy[column_name] = df_copy[column_name].str.replace(r\"[^A-Za-z0-9(),!?@\\'\\`\\\"\\_\\n]\", \" \")\n df_copy[column_name] = df_copy[column_name].str.replace(\">\", \"\")\n df_copy[column_name] = df_copy[column_name].str.replace(\" \", \" \")\n df_copy[column_name] = df_copy[column_name].str.replace(\" \", \" \")\n df_copy[column_name] = df_copy[column_name].str.replace(\" \", \" \")\n df_copy[column_name] = df_copy[column_name].str.replace(\"\\\"\", \"\")\n df_copy[column_name] = df_copy[column_name].str.replace(r\"@\", \"at\")\n df_copy[column_name] = df_copy[column_name].str.lower()\n # remove rows with empty comment strings\n df_copy = df_copy[df_copy[column_name] != '']\n # remove rows with comment strings containing only a space\n df_copy = df_copy[df_copy[column_name] != ' ']\n return df_copy",
"def supports_comment_notification(self):\n return False",
"def test_issue_get_comments(self):\n pass",
"def test_like_a_comment(self):\n self.base_test()",
"def should_add_pr_comment(self):\n pass",
"def test_issue_get_comment(self):\n pass",
"def supports_comment_search(self):\n return False",
"def comments(accountable):\n comments = accountable.issue_comments()\n headers = sorted(['author_name', 'body', 'updated'])\n\n if comments:\n rows = [[v for k, v in sorted(c.items()) if k in headers]\n for c in comments]\n rows.insert(0, headers)\n print_table(SingleTable(rows))\n else:\n click.secho('No comments found for {}'.format(\n accountable.issue_key\n ), fg='red')",
"def isBlockComment(self, lineData, column):\n return self._getTextType(lineData, column) == 'b'",
"def on_issue_comment(self, payload):\n pass",
"def comment_for_run (ins, exp, runnum) :\n return dict_of_recs_for_run(ins, exp, runnum)['comment']",
"def __editToggleComment(self):\n self.activeWindow().toggleCommentBlock()",
"def test_issue_edit_comment(self):\n pass",
"def commented_by(self, user):\n return Comments.objects.filter(recipe=self, chef=user).exists()",
"def comments(self):\r\n return c.Comments(self)",
"def comments(self):\r\n return c.Comments(self)",
"def comments(self):\r\n return c.Comments(self)"
] | [
"0.645739",
"0.63530135",
"0.6335667",
"0.62518007",
"0.62217885",
"0.6191121",
"0.604095",
"0.60147905",
"0.5971046",
"0.59395355",
"0.58626646",
"0.5793934",
"0.5773775",
"0.5757185",
"0.5749798",
"0.57417405",
"0.57281524",
"0.5661964",
"0.56337065",
"0.56215215",
"0.56097174",
"0.56059045",
"0.5594158",
"0.55625284",
"0.55511665",
"0.55144906",
"0.5510068",
"0.5502436",
"0.5502436",
"0.5502436"
] | 0.7412687 | 0 |
Implementing get all rows of rate column from vendor price list detail grid functionality | def get_all_rows_of_rate_column_from_vendor_price_list_detail_grid(self, column_name):
self.wait_for_ajax_spinner_load()
self.all_row_data = self.get_all_rows_of_specific_column_only_from_vendor_price_list_detail_grid(self.vendor_price_list_detail_rates_grid_div_id, column_name)
return self.all_row_data | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def get_all_rows_of_rate_increase_violation_column_from_vendor_price_list_detail_grid(self, column_name):\n self.all_row_data = []\n self.wait_for_ajax_spinner_load()\n row_count = len(self.wait().until(EC.presence_of_all_elements_located(self.vendor_price_list_detail_row_locator), 'vendor price list details row element locator not found before specified time'))\n next_page = False\n column_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::th[@data-title='%s']\" % (self.vendor_price_list_detail_rates_grid_div_id, column_name))\n column_element = self.wait().until(EC.presence_of_element_located(column_locator), 'column locator not found before specified time out')\n column_index = int(column_element.get_attribute(\"data-index\")) + 1\n row = 1\n try:\n while row < row_count + 1:\n column_value_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::div[@class='k-grid-content']/descendant::tbody[@role='rowgroup']/tr[%s]/td[%s]\" % (self.vendor_price_list_detail_rates_grid_div_id, row, str(column_index)))\n column_value_element = self.wait(10).until(EC.presence_of_element_located(column_value_locator), 'column value locator not found before specified time out')\n column_value = str(column_value_element.get_attribute(\"innerHTML\"))\n if column_value not in self.all_row_data:\n self.all_row_data.append(column_value)\n else:\n row_count += 1\n if row % 50 == 0:\n next_page = True\n next_page_button_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-arrow-e']\" % self.vendor_price_list_detail_rates_grid_div_id)\n self.click_element(next_page_button_locator, True)\n row = 0\n row_count -= 50\n row += 1\n except WebDriverException:\n pass\n if next_page is True:\n first_page_button_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-seek-w']\" % self.vendor_price_list_detail_rates_grid_div_id)\n self.click_element(first_page_button_locator, True)\n return self.all_row_data",
"def get_all_rows_of_specific_column_from_vendor_price_list_detail_grid(self, column_name):\n self.wait_for_ajax_spinner_load(300)\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.vendor_price_list_detail_rates_grid_div_id, column_name)\n return self.all_row_data",
"def get_all_rows_of_specific_column_from_vendor_price_list_detail_reference_rates_grid(self, column_name):\n self.wait_for_ajax_spinner_load(300)\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.vendor_price_list_detail_reference_rates_grid_div_id, column_name)\n return self.all_row_data",
"def compare_vendor_price_list_detail_rates_grid_rate(self):\n self.buy_page_excel_data_dictionary = self.get_excel_data_dictionary()\n is_compared = False\n rates_grid_rate_column_element = self.wait().until(EC.presence_of_element_located(self.rates_grid_rate_column_locator))\n if self.buy_page_excel_data_dictionary[\"Rate1\"] == (rates_grid_rate_column_element.text).strip():\n is_compared = True\n return is_compared",
"def click_vendor_price_list_detail_rates_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_rates_grid_div_id)",
"def get_queryset(self): # NOQA\n rates = Rate.objects.filter(\n inventory__date__gte=self.kwargs.get('checkin'),\n inventory__date__lte=self.kwargs.get('checkout'),\n room__hotel__public_id=self.kwargs.get('hotel_id')\n ).values('room__public_id', 'price', \"inventory__date\")\n return rates",
"def get_prices(self):\n pass",
"def get_vendor_price_list_detail_reference_rates_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_reference_rates_grid_div_id)\n return self.column_name_list",
"def click_vendor_price_list_detail_reference_rates_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_reference_rates_grid_div_id)",
"def get_all_rows_of_specific_column_from_vendor_price_list_detail_dial_digits_grid(self, column_name):\n self.wait_for_ajax_spinner_load(300)\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.vendor_price_list_detail_dial_digits_grid_div_id, column_name)\n return self.all_row_data",
"def get_all_rows_of_specific_column_from_vendor_price_lists_grid(self, column_name):\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.view_price_list_div_id, column_name, self.get_grid_row_count(self.price_lists_grid_row_count_span_locator, 7))\n return self.all_row_data",
"def rosterRowData(self):",
"def set_vendor_price_list_detail_grid_settings(self, grid_settings):\n self.wait_for_ajax_spinner_load(300)\n self.set_grid_settings(self.vendor_price_list_detail_rates_grid_div_id, grid_settings)",
"def get_vendor_price_list_detail_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_rates_grid_div_id)\n return self.column_name_list",
"def select_vendor_price_list_detail_reference_rates_tab(self):\n self.click_element(self.vendor_price_list_details_reference_rates_tab_locator, True)",
"def get_vendor_price_lists_details(self):\n try:\n self.vendor_price_lists_dict = self.get_grid_row_details(self.customer_price_list_grid_div_id, self.vendor_price_lists_dict)\n return True\n except:\n return False",
"def get_received_charges_grid_row_details(self):\n self.grid_row_details_dictionary.clear()\n self.grid_row_details_dictionary.update({\"Tariff Type\": \"\", \"Line Item Type\": \"\", \"Service Group\": \"\", \"Product\": \"\", \"Time Band\": \"\", \"Begin Date\": \"\", \"End Date\": \"\", \"Rating Unit\": \"\", \"Minutes/Quantity\": \"\", \"Rate\": \"\"})\n return self.get_grid_row_details(self.received_charges_grid_div_id, self.grid_row_details_dictionary, self.received_charges_data_grid_name)",
"def rates(self):\n raise NotImplementedError(\"Must be implemented by subclass.\")",
"def get_target_buy_policy_grid_row_details(self):\n self.grid_row_data.clear()\n self.grid_row_data = {\"Status\":\"\", \"Target Buy Policy Type\":\"\", \"Call Type\":\"\", \"Route Class\":\"\"}\n return self.get_grid_row_details(self.target_buy_policies_grid_div_id, self.grid_row_data, data_grid_name=self.target_buy_policy_data_grid_name)",
"def set_vendor_price_list_detail_reference_rates_grid_settings(self, grid_settings):\n self.wait_for_ajax_spinner_load(300)\n self.set_grid_settings(self.vendor_price_list_detail_reference_rates_grid_div_id, grid_settings)",
"def get_charges_grid_row_details(self):\n self.grid_row_details_dictionary.clear()\n self.grid_row_details_dictionary.update({\"Charge Begin Date\": \"\", \"Charge End Date\": \"\", \"Statement Number\": \"\", \"Rate Type\": \"\", \"Rating Quantity\": \"\", \"Adjustment Statement\": \"\"})\n return self.get_grid_row_details(self.charges_grid_div_id, self.grid_row_details_dictionary, self.charges_grid_data_grid_name)",
"def get_all_rows_of_specific_column_only_from_vendor_price_list_detail_grid(self, div_id, column_name):\n row_count = len(self.wait().until(EC.presence_of_all_elements_located(self.vendor_price_list_detail_row_locator), 'vendor price list details row element locator not found before specified time'))\n all_row_data = []\n next_page = False\n column_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::th[@data-title='%s']\" % (div_id, column_name))\n column_element = self.wait().until(EC.presence_of_element_located(column_locator), 'column locator not found before specified time out')\n column_index = int(column_element.get_attribute(\"data-index\")) + 1\n row = 1\n try:\n while row < row_count+1:\n column_value_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::div[@class='k-grid-content']/descendant::tbody[@role='rowgroup']/tr[%s]/td[%s]/descendant::td\" % (div_id, row, str(column_index)))\n column_value_element = self.wait(10).until(EC.presence_of_element_located(column_value_locator), 'column value locator not found before specified time out')\n column_value = str(column_value_element.get_attribute(\"innerHTML\"))\n if column_value not in all_row_data:\n all_row_data.append(column_value)\n else:\n row_count += 1\n if row % 50 == 0:\n next_page = True\n next_page_button_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-arrow-e']\" % div_id)\n self.click_element(next_page_button_locator, True)\n row = 0\n row_count -= 50\n row += 1\n except WebDriverException:\n pass\n if next_page is True:\n first_page_button_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-seek-w']\" % div_id)\n self.click_element(first_page_button_locator, True)\n return all_row_data",
"def get_coin_price_list(df: pd.DataFrame) -> list:\n return df['rates'].to_list()",
"def test_get_rate_plan_by_product(self):\n pass",
"def _config_column(self):\n return self.rates_column",
"def pricing_view(request, simulation):\n return TollListView.as_view()(request, simulation=simulation, )",
"def get_all_rows_of_specific_column_from_rates_grid(self, column_name):\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.rates_grid_div_id, column_name, self.get_grid_row_count(self.rates_grid_row_count_span_locator, 1))\n return self.all_row_data",
"def execQ4():\n frame = pan.DataFrame(data, columns=['Product', 'Price', 'Period'])\n tuna = frame[dFrame.Series_title_1 == \"Tuna - canned (supermarket only), 185g\"]\n expensive = tuna.sort_values(by=\"Price\", ascending=False).head(1)\n return expensive",
"def get_summary(self, df):\n results_df = pd.DataFrame({'Energy kWh': self.get_all_periods(df).sum()})\n results_df['Prices $/kWh'] = self.deliveryPrice + self.get_rates()\n results_df['Value $'] = results_df['Energy kWh'] * results_df['Prices $/kWh']\n return(results_df)",
"def get_vendor_price_list_detail_dial_digits_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_dial_digits_grid_div_id)\n return self.column_name_list"
] | [
"0.65635514",
"0.63527834",
"0.6250714",
"0.62291795",
"0.59831715",
"0.5911568",
"0.58610827",
"0.5771016",
"0.57431346",
"0.57365763",
"0.57018435",
"0.5701487",
"0.56800723",
"0.5677223",
"0.56407416",
"0.5602239",
"0.55863565",
"0.55846703",
"0.5511306",
"0.548342",
"0.54791105",
"0.546135",
"0.54360795",
"0.5431271",
"0.54152495",
"0.53210527",
"0.5310375",
"0.53100634",
"0.5287227",
"0.52852666"
] | 0.7037821 | 0 |
Implementing get all rows of rate increase violation column from vendor price list detail grid functionality | def get_all_rows_of_rate_increase_violation_column_from_vendor_price_list_detail_grid(self, column_name):
self.all_row_data = []
self.wait_for_ajax_spinner_load()
row_count = len(self.wait().until(EC.presence_of_all_elements_located(self.vendor_price_list_detail_row_locator), 'vendor price list details row element locator not found before specified time'))
next_page = False
column_locator = (By.XPATH, "//div[contains(@id, '%s')]/descendant::th[@data-title='%s']" % (self.vendor_price_list_detail_rates_grid_div_id, column_name))
column_element = self.wait().until(EC.presence_of_element_located(column_locator), 'column locator not found before specified time out')
column_index = int(column_element.get_attribute("data-index")) + 1
row = 1
try:
while row < row_count + 1:
column_value_locator = (By.XPATH, "//div[contains(@id, '%s')]/descendant::div[@class='k-grid-content']/descendant::tbody[@role='rowgroup']/tr[%s]/td[%s]" % (self.vendor_price_list_detail_rates_grid_div_id, row, str(column_index)))
column_value_element = self.wait(10).until(EC.presence_of_element_located(column_value_locator), 'column value locator not found before specified time out')
column_value = str(column_value_element.get_attribute("innerHTML"))
if column_value not in self.all_row_data:
self.all_row_data.append(column_value)
else:
row_count += 1
if row % 50 == 0:
next_page = True
next_page_button_locator = (By.XPATH, "//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-arrow-e']" % self.vendor_price_list_detail_rates_grid_div_id)
self.click_element(next_page_button_locator, True)
row = 0
row_count -= 50
row += 1
except WebDriverException:
pass
if next_page is True:
first_page_button_locator = (By.XPATH, "//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-seek-w']" % self.vendor_price_list_detail_rates_grid_div_id)
self.click_element(first_page_button_locator, True)
return self.all_row_data | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def get_all_rows_of_rate_column_from_vendor_price_list_detail_grid(self, column_name):\n self.wait_for_ajax_spinner_load()\n self.all_row_data = self.get_all_rows_of_specific_column_only_from_vendor_price_list_detail_grid(self.vendor_price_list_detail_rates_grid_div_id, column_name)\n return self.all_row_data",
"def compare_vendor_price_list_detail_rates_grid_rate(self):\n self.buy_page_excel_data_dictionary = self.get_excel_data_dictionary()\n is_compared = False\n rates_grid_rate_column_element = self.wait().until(EC.presence_of_element_located(self.rates_grid_rate_column_locator))\n if self.buy_page_excel_data_dictionary[\"Rate1\"] == (rates_grid_rate_column_element.text).strip():\n is_compared = True\n return is_compared",
"def get_vendor_price_lists_details(self):\n try:\n self.vendor_price_lists_dict = self.get_grid_row_details(self.customer_price_list_grid_div_id, self.vendor_price_lists_dict)\n return True\n except:\n return False",
"def get_all_rows_of_specific_column_from_vendor_price_list_detail_grid(self, column_name):\n self.wait_for_ajax_spinner_load(300)\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.vendor_price_list_detail_rates_grid_div_id, column_name)\n return self.all_row_data",
"def verify_vendor_price_lists_details(self, row_data):\n return self.verify_grid_row_details(self.customer_price_list_grid_div_id, row_data)",
"def get_all_rows_of_specific_column_only_from_vendor_price_list_detail_grid(self, div_id, column_name):\n row_count = len(self.wait().until(EC.presence_of_all_elements_located(self.vendor_price_list_detail_row_locator), 'vendor price list details row element locator not found before specified time'))\n all_row_data = []\n next_page = False\n column_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::th[@data-title='%s']\" % (div_id, column_name))\n column_element = self.wait().until(EC.presence_of_element_located(column_locator), 'column locator not found before specified time out')\n column_index = int(column_element.get_attribute(\"data-index\")) + 1\n row = 1\n try:\n while row < row_count+1:\n column_value_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::div[@class='k-grid-content']/descendant::tbody[@role='rowgroup']/tr[%s]/td[%s]/descendant::td\" % (div_id, row, str(column_index)))\n column_value_element = self.wait(10).until(EC.presence_of_element_located(column_value_locator), 'column value locator not found before specified time out')\n column_value = str(column_value_element.get_attribute(\"innerHTML\"))\n if column_value not in all_row_data:\n all_row_data.append(column_value)\n else:\n row_count += 1\n if row % 50 == 0:\n next_page = True\n next_page_button_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-arrow-e']\" % div_id)\n self.click_element(next_page_button_locator, True)\n row = 0\n row_count -= 50\n row += 1\n except WebDriverException:\n pass\n if next_page is True:\n first_page_button_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::span[@class='k-icon k-i-seek-w']\" % div_id)\n self.click_element(first_page_button_locator, True)\n return all_row_data",
"def get_all_rows_of_specific_column_from_vendor_price_list_detail_reference_rates_grid(self, column_name):\n self.wait_for_ajax_spinner_load(300)\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.vendor_price_list_detail_reference_rates_grid_div_id, column_name)\n return self.all_row_data",
"def get_target_buy_policy_grid_row_details(self):\n self.grid_row_data.clear()\n self.grid_row_data = {\"Status\":\"\", \"Target Buy Policy Type\":\"\", \"Call Type\":\"\", \"Route Class\":\"\"}\n return self.get_grid_row_details(self.target_buy_policies_grid_div_id, self.grid_row_data, data_grid_name=self.target_buy_policy_data_grid_name)",
"def get_prices(self):\n pass",
"def click_vendor_price_list_detail_rates_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_rates_grid_div_id)",
"def get_the_sum_of_prices_from_table(table, item_ids):\n\n # your code",
"def get_summary(self, df):\n results_df = pd.DataFrame({'Energy kWh': self.get_all_periods(df).sum()})\n results_df['Prices $/kWh'] = self.deliveryPrice + self.get_rates()\n results_df['Value $'] = results_df['Energy kWh'] * results_df['Prices $/kWh']\n return(results_df)",
"def get_discount(self, price):\r\n pass",
"def get_vendor_price_lists_number_of_rows_from_grid(self):\n self.number_of_rows = int(self.get_number_of_rows_from_grid(self.vendors_price_lists_grid_div_bar_id))",
"def execQ6():\n frame = pan.DataFrame(data, columns=['Product', 'Price', 'Period'])\n expensive = frame.sort_values(by='Price', ascending=False).head(1)\n return expensive",
"def get_all_rows_of_specific_column_from_vendor_price_lists_grid(self, column_name):\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.view_price_list_div_id, column_name, self.get_grid_row_count(self.price_lists_grid_row_count_span_locator, 7))\n return self.all_row_data",
"def execQ4():\n frame = pan.DataFrame(data, columns=['Product', 'Price', 'Period'])\n tuna = frame[dFrame.Series_title_1 == \"Tuna - canned (supermarket only), 185g\"]\n expensive = tuna.sort_values(by=\"Price\", ascending=False).head(1)\n return expensive",
"def get_all_rows_of_specific_column_from_vendor_price_list_detail_dial_digits_grid(self, column_name):\n self.wait_for_ajax_spinner_load(300)\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.vendor_price_list_detail_dial_digits_grid_div_id, column_name)\n return self.all_row_data",
"def test_get_rate_plan_by_product(self):\n pass",
"def get_received_charges_grid_row_details(self):\n self.grid_row_details_dictionary.clear()\n self.grid_row_details_dictionary.update({\"Tariff Type\": \"\", \"Line Item Type\": \"\", \"Service Group\": \"\", \"Product\": \"\", \"Time Band\": \"\", \"Begin Date\": \"\", \"End Date\": \"\", \"Rating Unit\": \"\", \"Minutes/Quantity\": \"\", \"Rate\": \"\"})\n return self.get_grid_row_details(self.received_charges_grid_div_id, self.grid_row_details_dictionary, self.received_charges_data_grid_name)",
"def _compute_results(self):\n self.ensure_one()\n Result = self.env['sla.employee.view']\n dom = []\n if self.supplier_category_name:\n if self.supplier_category_name == 'employee':\n dom += [('pay_to', '=', 'employee')]\n elif self.supplier_category_name == 'supplier':\n dom += [('pay_to', '!=', 'employee'),('invoice_id.partner_id.category_id.name', '!=', 'ต่างประเทศ')]\n elif self.supplier_category_name == 'foreign':\n dom += [('pay_to', '!=', 'employee'),('invoice_id.partner_id.category_id.name', '=', 'ต่างประเทศ')]\n if self.user_ids:\n dom += [('voucher_id.validate_user_id', 'in', self.user_ids.ids)]\n if self.source_document_type:\n dom += [('invoice_id.source_document_type', '=',\n self.source_document_type)]\n if self.fiscalyear_start_id:\n dom += [('voucher_id.date', '>=',\n self.fiscalyear_start_id.date_start)]\n if self.fiscalyear_end_id:\n dom += [('voucher_id.date', '<=',\n self.fiscalyear_end_id.date_stop)]\n if self.period_start_id:\n dom += [('voucher_id.date', '>=',\n self.period_start_id.date_start)]\n if self.period_end_id:\n dom += [('voucher_id.date', '<=',\n self.period_end_id.date_stop)]\n if self.date_start:\n dom += [('voucher_id.date', '>=', self.date_start)]\n if self.date_end:\n dom += [('voucher_id.date', '<=', self.date_end)]\n self.results = Result.search(\n dom, order=\"fiscalyear,voucher_number,invoice_number\")",
"def get_charges_grid_row_details(self):\n self.grid_row_details_dictionary.clear()\n self.grid_row_details_dictionary.update({\"Charge Begin Date\": \"\", \"Charge End Date\": \"\", \"Statement Number\": \"\", \"Rate Type\": \"\", \"Rating Quantity\": \"\", \"Adjustment Statement\": \"\"})\n return self.get_grid_row_details(self.charges_grid_div_id, self.grid_row_details_dictionary, self.charges_grid_data_grid_name)",
"def get_non_traffic_charges_grid_row_details(self):\n self.grid_row_details_dictionary.clear()\n self.grid_row_details_dictionary.update({\"Accounting Code\": \"\", \"Start Date\": \"\", \"End Date\": \"\", \"Charge Name\": \"\", \"Charge Category\": \"\", \"Currency\": \"\", \"Amount\": \"\", \"Tax Template\": \"\"})\n non_traffic_charges_grid_row_details = self.get_grid_row_details(self.non_traffic_charges_grid_div_id, self.grid_row_details_dictionary)\n if \",\" in non_traffic_charges_grid_row_details[\"Amount\"]:\n non_traffic_charges_grid_row_details[\"Amount\"] = non_traffic_charges_grid_row_details[\"Amount\"].replace(\",\", \"\")\n return non_traffic_charges_grid_row_details",
"def click_vendor_price_list_detail_reference_rates_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_reference_rates_grid_div_id)",
"def sub_tax_sales_transfer_pricing(manager, df_fields, seq_recs, seq_reservas):\n # df_hotel = manager.get_dataframe(tables['dwc_bok_t_canco_hotel'])\n # df_circuit = manager.get_dataframe(tables['dwc_bok_t_canco_hotel_circuit'])\n # df_other = manager.get_dataframe(tables['dwc_bok_t_canco_other'])\n # df_transfer = manager.get_dataframe(tables['dwc_bok_t_canco_transfer'])\n # df_endow = manager.get_dataframe(tables['dwc_bok_t_canco_endowments'])\n # df_extra = manager.get_dataframe(tables['dwc_bok_t_canco_extra'])\n\n df_aux = df_fields.select(\"operative_incoming\", \"booking_id\")\n\n df_hotel = sub_tax_sales_transfer_pricing_aux(manager, df_hotelt, seq_recs, seq_reservas, df_aux)\n df_circuit = sub_tax_sales_transfer_pricing_aux(manager, df_circuitt, seq_recs, seq_reservas, df_aux)\n df_other = sub_tax_sales_transfer_pricing_aux(manager, df_othert, seq_recs, seq_reservas, df_aux)\n df_transfer = sub_tax_sales_transfer_pricing_aux(manager, df_transfert, seq_recs, seq_reservas, df_aux)\n df_endow = sub_tax_sales_transfer_pricing_aux(manager, df_endowt, seq_recs, seq_reservas, df_aux)\n df_extra = sub_tax_sales_transfer_pricing_aux_extra(manager, df_extrat, seq_recs, seq_reservas, df_aux)\n\n df_impuesto_canal = df_hotel.union(df_circuit).union(df_other).union(df_transfer).union(df_endow).union(\n df_extra)\n\n df_impuesto_canal = df_impuesto_canal.groupBy(\"seq_rec\", \"seq_reserva\") \\\n .agg({'impuesto_canal': 'sum'}).withColumnRenamed(\"SUM(impuesto_canal)\", \"Tax_Sales_Transfer_pricing\")\n\n df_fields = df_fields.join(df_impuesto_canal, [df_fields.operative_incoming == df_impuesto_canal.seq_rec,\n df_fields.booking_id == df_impuesto_canal.seq_reserva],\n 'left_outer').drop(df_impuesto_canal.seq_rec).drop(df_impuesto_canal.seq_reserva)\n\n df_fields = df_fields.na.fill({\"Tax_Sales_Transfer_pricing\": 0})\n\n df_fields = df_fields.withColumn(\"Tax_Sales_Transfer_pricing\",\n udf_round_ccy(df_fields.Tax_Sales_Transfer_pricing,\n df_fields.booking_currency))\n\n del df_hotel, df_circuit, df_other, df_transfer, df_endow, df_extra, df_impuesto_canal\n\n return df_fields",
"def test_visualize_price_breakdown(self):\n pass",
"def select_vendor_price_list_detail_reference_rates_tab(self):\n self.click_element(self.vendor_price_list_details_reference_rates_tab_locator, True)",
"def rosterRowData(self):",
"def front_column_model_p_gain():",
"def set_vendor_price_list_detail_grid_settings(self, grid_settings):\n self.wait_for_ajax_spinner_load(300)\n self.set_grid_settings(self.vendor_price_list_detail_rates_grid_div_id, grid_settings)"
] | [
"0.62276477",
"0.5858821",
"0.5849568",
"0.56898284",
"0.5632027",
"0.54702955",
"0.546369",
"0.5436004",
"0.53823334",
"0.5365217",
"0.53420645",
"0.5316835",
"0.5296611",
"0.52672094",
"0.52588856",
"0.5238541",
"0.52317387",
"0.5227916",
"0.52265203",
"0.52130365",
"0.5188264",
"0.5181963",
"0.51710695",
"0.5157784",
"0.5153875",
"0.5055548",
"0.5054394",
"0.50508404",
"0.5042201",
"0.50342065"
] | 0.70371425 | 0 |
Implementing is vendor price list not displayed in the grid functionality | def is_vendor_price_list_not_displayed_in_the_grid(self):
is_displayed = True
current_number_of_rows = int(self.get_number_of_rows_from_grid(self.vendors_price_lists_grid_div_bar_id))
if (current_number_of_rows > self.number_of_rows):
is_displayed = False
return is_displayed | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def get_vendor_price_lists_details(self):\n try:\n self.vendor_price_lists_dict = self.get_grid_row_details(self.customer_price_list_grid_div_id, self.vendor_price_lists_dict)\n return True\n except:\n return False",
"def set_vendor_price_lists_grid_settings(self, grid_settings):\n self.set_grid_settings(self.view_price_list_div_id, grid_settings)",
"def verify_vendor_price_lists_details(self, row_data):\n return self.verify_grid_row_details(self.customer_price_list_grid_div_id, row_data)",
"def is_vendor_price_lists_present(self):\n return self.is_element_present(self.vendor_price_lists_locator)",
"def test_visualize_price_breakdown(self):\n pass",
"def compare_vendor_price_list_detail_rates_grid_rate(self):\n self.buy_page_excel_data_dictionary = self.get_excel_data_dictionary()\n is_compared = False\n rates_grid_rate_column_element = self.wait().until(EC.presence_of_element_located(self.rates_grid_rate_column_locator))\n if self.buy_page_excel_data_dictionary[\"Rate1\"] == (rates_grid_rate_column_element.text).strip():\n is_compared = True\n return is_compared",
"def get_vendor_price_lists_number_of_rows_from_grid(self):\n self.number_of_rows = int(self.get_number_of_rows_from_grid(self.vendors_price_lists_grid_div_bar_id))",
"def set_vendor_price_list_detail_grid_settings(self, grid_settings):\n self.wait_for_ajax_spinner_load(300)\n self.set_grid_settings(self.vendor_price_list_detail_rates_grid_div_id, grid_settings)",
"def drag_vendor_price_lists_grid_column(self, source_column, destination_column):\n self.drag_grid_column(self.view_price_list_div_id, source_column, destination_column)",
"def sort_vendor_price_lists_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.view_price_list_div_id, column_name, descending_order)",
"def is_upload_vendor_price_list_present(self):\n return self.is_element_present(self.upload_vendor_price_list_locator)",
"def get_vendor_price_lists_grid_column_names_by_order(self):\n self.column_name_list = self.get_grid_column_names_by_order(self.view_price_list_div_id)\n return self.column_name_list",
"def get_prices(self):\n pass",
"def select_vendor_price_list_grid_row_checkbox(self):\n for row in range(0,2):\n column_locator = (By.XPATH, \"//div[@id='%s']/descendant::th[@data-title='%s']\" % (self.vendor_price_list_grid_div_id, self.price_list_column_name))\n column_element = self.wait().until(EC.presence_of_element_located(column_locator), 'column locator not found before specified time out')\n column_index = int(column_element.get_attribute(\"data-index\")) + 1\n column_value_locator = (By.XPATH, \"//div[@id='%s']/descendant::tbody/descendant::tr[%s]/td[%s]/span\" % (self.vendor_price_list_grid_div_id, (row + 1), str(column_index)))\n column_value_element = self.wait().until(EC.presence_of_element_located(column_value_locator), 'column value locator not found before specified time out')\n price_list_item = column_value_element.text\n self.compare_price_lists_list.append(price_list_item)\n self.select_grid_row_checkbox(self.customer_price_list_grid_div_id, price_list_item, self.select_grid_row_checkbox_column_number)",
"def pricing_view(request, simulation):\n return TollListView.as_view()(request, simulation=simulation, )",
"def get_list_columns(self):\n columns = super(InventoryTransactionAdmin, self).get_list_columns()\n cols = ['total_amount']\n columns = security_util.filter_columns_by_role(\n columns, cols, 'purchase_price_view'\n )\n return columns",
"def _init_components(self):\n for line in self:\n if line.is_kit_invoice_line:\n comp_obj = line.env['account.invoice.line.comp'].search([('invoice_line_id','=',self.id),('children_loaded','=',False)])\n if line.pricing == 'dynamic':\n hide_prices = False\n else:\n hide_prices = True \n for comp in comp_obj:\n comp.load_under_components(True,hide_prices)",
"def is_upload_vendor_price_list_pop_up_available(self):\n return self.is_element_present(self.upload_vendor_price_list_pop_up_locator)",
"def get_display_price_data(self, source, commitment):\n overage, included = self.get_price_data(source, commitment)\n if self.name == settings.BILLING_DEFAULT_PLAN_NAME:\n included = OFFICIAL_BUILDER_LIMITS[source]\n return overage, included",
"def show_catalogue(self):\n\n data = cur.execute(\"\"\"SELECT productid, productname, unitcost, stock, location \n FROM catalogue WHERE vendorname = ?\"\"\", (self.vendorname,)).fetchall()\n print(tabulate(data, headers=[\"Product ID\", \"Name\", \"Unit Cost\", \"Stock\", \"Location\"]))",
"def click_vendor_price_list_grid_first_row_inline_action_button(self):\n self.click_inline_action_button(self.vendor_price_list_grid_div_id, None, self.view_price_list_column_number, True)",
"def show_products_html(self, ul=False, br=True):\n output = \"\"\n if ul:\n output += \"<ul>\"\n for sp in SubscriptionProduct.objects.filter(\n subscription=self, product__offerable=True).order_by('product_id'):\n count = self.products.filter(offerable=True).count()\n if ul:\n if sp.label_contact:\n output += \"<li>{} ({})</li>\".format(sp.product.name, sp.label_contact.name)\n else:\n output += \"<li>{}</li>\".format(sp.product.name)\n else:\n if sp.label_contact:\n output += \"{} ({})\".format(sp.product.name, sp.label_contact.name)\n else:\n output += \"{}\".format(sp.product.name)\n if count > 1:\n if br:\n output += \"<br>\"\n else:\n output += \"\\n\"\n if ul:\n output += \"</ul>\"\n return output",
"def click_vendor_price_list_detail_rates_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_rates_grid_div_id)",
"def click_vendor_price_list_detail_dial_digits_grid_export_to_excel_button(self):\n self.click_grid_export_to_excel_button(self.vendor_price_list_detail_dial_digits_grid_div_id)",
"def get_all_rows_of_specific_column_from_vendor_price_lists_grid(self, column_name):\n self.all_row_data = self.get_all_rows_of_specific_column_from_grid(self.view_price_list_div_id, column_name, self.get_grid_row_count(self.price_lists_grid_row_count_span_locator, 7))\n return self.all_row_data",
"def get_vendor_price_list_detail_grid_column_names_by_order(self):\n self.wait_for_ajax_spinner_load(300)\n self.column_name_list = self.get_grid_column_names_by_order(self.vendor_price_list_detail_rates_grid_div_id)\n return self.column_name_list",
"def click_on_vendor_price_lists(self):\n vendor_price_lists_element = self.wait().until(EC.element_to_be_clickable(self.vendor_price_lists_locator), 'vendor price lists locator not found before specified time')\n self.script_executor_click(vendor_price_lists_element)\n self.wait_for_ajax_spinner_load()",
"def is_view_price_list_detail_present(self):\n return self.is_element_present(self.view_price_list_detail_locator)",
"def test_get_small_and_light_eligibility_by_seller_sku(self):\n pass",
"def drag_vendor_price_list_detail_grid_column(self, source_column, destination_column):\n self.wait_for_ajax_spinner_load(300)\n self.drag_grid_column(self.vendor_price_list_detail_rates_grid_div_id, source_column, destination_column)"
] | [
"0.73937595",
"0.6460451",
"0.61800563",
"0.5892537",
"0.5869103",
"0.58369845",
"0.577505",
"0.5736105",
"0.5704582",
"0.56265515",
"0.5550181",
"0.5526921",
"0.547805",
"0.5464718",
"0.5461887",
"0.5458939",
"0.5423621",
"0.54169714",
"0.53718394",
"0.53617734",
"0.5354442",
"0.5349964",
"0.53382653",
"0.52985823",
"0.5294027",
"0.5236684",
"0.52084666",
"0.5190341",
"0.51890206",
"0.5167537"
] | 0.71466875 | 1 |
Implementing click guarantee cli checkbox functionality | def click_guarantee_cli_checkbox(self):
self.click_element(self.guarantee_cli_checkbox_locator) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def click_include_cli_checkbox(self):\n self.click_element(self.include_cli_checkbox_locator)",
"def click_automate_generation_checkbox(self):\n self.click_element(self.automate_generation_checkbox_locator)",
"def action_checkbox(self):\n self.checkbox_online_var = not self.checkbox_online_var",
"def on_CheckPunish_clicked(self):\n # TODO: not implemented yet\n raise NotImplementedError",
"def on_checkBox_kongtoukai_clicked(self, checked):\n # TODO: not implemented yet\n raise NotImplementedError",
"def CheckBoxClicked(self,chkb):\r\n\r\n print(\"{} Selecionado.\", format(chkb.text()))",
"def on_checkBox_duotoukai_clicked(self, checked):\n # TODO: not implemented yet\n raise NotImplementedError",
"def flag(i, com, xi, yi):\r\n chk = Checkbutton(window1, variable=list_cb[i], command=com)\r\n chk.focus()\r\n chk.place(x=xi, y=yi)\r\n return",
"def on_checkBox_kongtouping_clicked(self, checked):\n # TODO: not implemented yet\n raise NotImplementedError",
"def action_checkbox(self, obj):\n if self.check_concurrent_action:\n return helpers.checkbox.render(helpers.ACTION_CHECKBOX_NAME,\n force_str(\"%s,%s\" % (obj.pk, get_revision_of_object(obj))))\n else: # pragma: no cover\n return super().action_checkbox(obj)",
"def uiCheckboxChecked(checkbox):\n\n return clibui.uiCheckboxChecked(checkbox)",
"def on_action_clicked(self, content):\n checked = content['checked']\n self.set_guarded(checked=checked)\n self.clicked(checked)",
"def clicked_checkbox_use_antimasks(self):\n # TODO\n self._get_selected_model().metadata[\"antimask_flag\"] \\\n = self.checkbox_use_antimasks.isChecked()\n return None",
"def on_checkBox_duotouping_clicked(self, checked):\n # TODO: not implemented yet\n raise NotImplementedError",
"def on_action_toggled(self, content):\n checked = content['checked']\n self.set_guarded(checked=checked)\n self.toggled(checked)",
"def htmlCheckbox(labelText, parName, args, labelAttr='', attr=''):\n snippet = htmlLabel(labelText,parName,labelAttr)\n checked = 'checked=\"checked\"' if parName in args else ''\n snippet += '<input type=\"checkbox\" name=\"%s\"%s%s/>\\n' % (parName,sep(checked),sep(attr))\n return snippet",
"def onStartStopGivingValidationControlPointsToggled(self, checked):\n #productive\n profprint()\n if checked:\n self.fiducialObturatorButton.checked = 0\n self.fiducialButton.checked = 0\n self.fiducialButton.text = \"2. Start Giving Needle Tips [CTRL + ENTER]\"\n self.start(self.needleValidationClicks)\n self.startGivingControlPointsButton.text = \"Stop Giving Control Points\" \n else:\n self.stop()\n self.startGivingControlPointsButton.text = \"Start Giving Control Points\"",
"def _add_checkbox(self, text, state_changed, tooltip, checked=True,\n enabled=True, button_label=True):\n cbox = QtWidgets.QCheckBox('' if button_label else text, self)\n self.control.layout().addWidget(cbox)\n btn = None\n if button_label:\n btn = QtWidgets.QPushButton(text, self)\n self.control.layout().addWidget(btn)\n\n def cb(checked, cbox=cbox, state_changed=state_changed):\n state_changed(cbox.isChecked(), one_shot=True)\n\n btn.clicked.connect(cb)\n btn.setToolTip(tooltip)\n cbox.setChecked(checked)\n cbox.setEnabled(enabled)\n cbox.stateChanged.connect(state_changed)\n cbox.setToolTip(tooltip)\n self.control.layout().addItem(QtWidgets.QSpacerItem(20, 0))\n return cbox",
"def segmentNeedle(self):\n #productive #event\n profprint()\n if self.fiducialButton.isEnabled():\n print \"new checked state: \",not self.fiducialButton.checked\n self.onStartStopGivingNeedleTipsToggled(not self.fiducialButton.checked)",
"def isSelected(*args):",
"def isSelected(*args):",
"def _onCheckBox(self, widget):\n widget.setStateCheck(not widget.getStateCheck())",
"def checkbox(self):\r\n return self._checkbox",
"def _create_boolean_widget(self,frame,name,widget_options):\n # CB: might be necessary to pass actions to command option of Checkbutton;\n # could be cause of test pattern boolean not working?\n return T.Checkbutton(frame,variable=self._tkvars[name],**widget_options)",
"def _generateCellCheckedState(self, obj, **args):\n result = []\n if self._script.utilities.hasMeaningfulToggleAction(obj):\n oldRole = self._overrideRole(pyatspi.ROLE_CHECK_BOX, args)\n result.extend(self.generate(obj, **args))\n self._restoreRole(oldRole, args)\n\n return result",
"def DoCheck(self,event):\r\n index = event.GetSelection()\r\n item = self.items[index]\r\n if self.list.IsChecked(index):\r\n self.data.check(item)\r\n else:\r\n self.data.uncheck(item)\r\n #self.list.SetSelection(index)\r",
"def check(self, element_tuple, *, wrapper_element_tuple=None):\n self.log_info(f\"Browser.check: Setting {element_tuple} checkbox to checked\")\n checkbox = self.CORE.find_element(*self.format_element(element_tuple))\n if not checkbox.is_selected():\n if wrapper_element_tuple is not None:\n self.log_info(f\"Browser.check: Wrapper element was provided, clicking {wrapper_element_tuple} instead\")\n self.click(wrapper_element_tuple)\n else:\n self.click(element_tuple)\n else:\n self.log_info(f\"Browser.check: Skipping action as {element_tuple} is already checked\")\n return",
"def segmentNeedle(self):\r\n # productive #event\r\n profprint()\r\n if self.fiducialButton.isEnabled():\r\n print \"new checked state: \", not self.fiducialButton.checked\r\n self.onStartStopGivingNeedleTipsToggled(not self.fiducialButton.checked)",
"def DrawCheckBox(*args, **kwargs):\n return _gdi_.RendererNative_DrawCheckBox(*args, **kwargs)",
"def onClickCheckbutton(self):\r\n self.app.unbind()\r\n mask = []\r\n for val in self.intvars:\r\n mask.append(val.get())\r\n # Recreate fNIRS Channels with channel mask\r\n self.app.reconfigureChannels(self.app.dataPath,mask)\r\n self.app.bindHotkeys()"
] | [
"0.7485316",
"0.71002424",
"0.68126243",
"0.66690344",
"0.66630423",
"0.6616118",
"0.661179",
"0.6593551",
"0.65164936",
"0.64340866",
"0.6411196",
"0.6410725",
"0.63865906",
"0.6354941",
"0.6278989",
"0.6194985",
"0.6187666",
"0.6182045",
"0.61497104",
"0.6140455",
"0.6140455",
"0.61337364",
"0.61059797",
"0.6093472",
"0.6084687",
"0.6075686",
"0.6072274",
"0.60654855",
"0.6058159",
"0.605671"
] | 0.8040789 | 0 |
Implementing click exclude rating method from price list checkbox functionality | def click_exclude_rating_method_from_price_list_checkbox(self):
self.click_element(self.exclude_rating_method_from_price_list_checkbox_locator) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def dislikes(self):\n return self.get_queryset().filter(vote__lt=0)",
"def onTradeSelected(self, item):\n if self.lstTrade.getMultiSelectedItems() == []:\n self.btnCancelTrade.disable()\n else:\n self.btnCancelTrade.enable()",
"def sgnDoubleClickInList(self):\n\n self.uiSwitchSelectedCheckStateInList()",
"def test_exclusion(self):\n category_field_id = self.venue_list_page.get_table_value(1, VenueListPage.VenueCategoryField.ID).text\n # load the detail page for the first list item - currently ID=4d86c474f9f3a1cdd9c5e664\n venue_detail_page = VenueDetailPage(self.driver, self.base_path, category_field_id)\n venue_detail_page.load()\n\n # If the checkbox has already been selected, de-select it and reload\n if venue_detail_page.excluded_venue.is_selected():\n time.sleep(3)\n venue_detail_page.excluded_venue.click()\n venue_detail_page.save.click()\n venue_detail_page.load()\n\n # Once it is deselected now you want to reverse the original situation: you exclude it again\n venue_detail_page.excluded_venue.click()\n time.sleep(2)\n # This will redirect you to the list page\n venue_detail_page.save.click()\n time.sleep(4)\n status = self.venue_list_page.get_table_value(1, VenueListPage.VenueCategoryField.EXCLUDED).text\n self.assertEqual(status, \"Excluded\")\n\n # TODO: refactor the static waits",
"def mouseDoubleClickEvent(self, event):\n event.ignore()",
"def clicked_checkbox_vrad_tolerance(self):\n if self.checkbox_vrad_tolerance.isChecked():\n self.edit_vrad_tolerance.setEnabled(True)\n self.update_vrad_tolerance()\n else:\n self.edit_vrad_tolerance.setEnabled(False)\n self._get_selected_model().metadata[\"velocity_tolerance\"] = None\n return None",
"def exclude(self, *args, **kwargs):",
"def segmentNeedle(self):\n #productive #event\n profprint()\n if self.fiducialButton.isEnabled():\n print \"new checked state: \",not self.fiducialButton.checked\n self.onStartStopGivingNeedleTipsToggled(not self.fiducialButton.checked)",
"def segmentNeedle(self):\r\n # productive #event\r\n profprint()\r\n if self.fiducialButton.isEnabled():\r\n print \"new checked state: \", not self.fiducialButton.checked\r\n self.onStartStopGivingNeedleTipsToggled(not self.fiducialButton.checked)",
"def adjust_nums_checked(self, checked):\n mw.checked_stats = []\n if checked:\n self.num_checked += 1\n elif not checked:\n self.num_checked -= 1\n for checkbox in self.checkboxes:\n if checkbox.isChecked():\n mw.checked_stats.append(checkbox)\n mw.bonuses[checkbox.text()] = 1\n for checkbox in self.checkboxes:\n if self.num_checked == 2:\n if not checkbox.isChecked():\n checkbox.setDisabled(True)\n if checkbox.text() in mw.bonuses.keys():\n del mw.bonuses[checkbox.text()]\n self.submit_btn.setEnabled(True)\n else:\n checkbox.setDisabled(False)\n self.submit_btn.setEnabled(False)",
"def show_hide_offer_price_options(n_clicks, is_open):\n if n_clicks:\n return not is_open\n return is_open",
"def ignore_clicks(self):\n self._ignore_count += 1",
"def clicked_checkbox_vrad_tolerance_2(self):\n if self.checkbox_vrad_tolerance_2.isChecked():\n self.edit_vrad_tolerance_2.setEnabled(True)\n self.update_vrad_tolerance_2()\n self.edit_manual_rv.setEnabled(False)\n else:\n self.edit_vrad_tolerance_2.setEnabled(False)\n self._get_selected_model().metadata[\"velocity_tolerance\"] = None\n self.edit_manual_rv.setEnabled(True)\n return None",
"def onIndustrySelected(self, item):\n if self.lstIndustry.getMultiSelectedItems() == []:\n self.btnRemoveIndustry.disable()\n self.btnUpgradeIndustry.disable()\n else:\n self.enableButtons(self.lstIndustry, [self.btnRemoveIndustry, self.btnUpgradeIndustry])",
"def disable_loops_rpy(ui, tab):\n\n if tab == 1:\n status = not ui.radioButton_loops_com.isChecked()\n ui.checkBox_loops_wx.setChecked(status)\n ui.checkBox_loops_wy.setChecked(status)\n ui.checkBox_loops_wz.setChecked(status)\n ui.checkBox_loops_wx.setEnabled(status)\n ui.checkBox_loops_wy.setEnabled(status)\n ui.checkBox_loops_wz.setEnabled(status)\n ui.comboBox_loops_destination.setEnabled(status)\n ui.comboBox_loops_origin.setEnabled(status)\n ui.label_loops_origin.setEnabled(status)\n ui.label_loops_destination.setEnabled(status)\n else:\n if ui.radioButton_loops_none_2.isChecked():\n ui.checkBox_loops_x_2.setEnabled(False)\n ui.checkBox_loops_y_2.setEnabled(False)\n ui.checkBox_loops_z_2.setEnabled(False)\n ui.checkBox_loops_wx_2.setEnabled(False)\n ui.checkBox_loops_wy_2.setEnabled(False)\n ui.checkBox_loops_wz_2.setEnabled(False)\n ui.comboBox_loops_destination_2.setEnabled(False)\n ui.comboBox_loops_origin_2.setEnabled(False)\n ui.label_loops_origin_2.setEnabled(False)\n ui.label_loops_destination_2.setEnabled(False)\n elif ui.radioButton_loops_com_2.isChecked():\n ui.checkBox_loops_wx_2.setChecked(False)\n ui.checkBox_loops_wy_2.setChecked(False)\n ui.checkBox_loops_wz_2.setChecked(False)\n ui.checkBox_loops_wx_2.setEnabled(False)\n ui.checkBox_loops_wy_2.setEnabled(False)\n ui.checkBox_loops_wz_2.setEnabled(False)\n ui.comboBox_loops_destination_2.setEnabled(False)\n ui.comboBox_loops_origin_2.setEnabled(False)\n ui.label_loops_origin_2.setEnabled(False)\n ui.label_loops_destination_2.setEnabled(False)\n ui.checkBox_loops_x_2.setEnabled(True)\n ui.checkBox_loops_y_2.setEnabled(True)\n ui.checkBox_loops_z_2.setEnabled(True)\n else:\n ui.checkBox_loops_wx_2.setChecked(True)\n ui.checkBox_loops_wy_2.setChecked(True)\n ui.checkBox_loops_wz_2.setChecked(True)\n ui.checkBox_loops_wx_2.setEnabled(True)\n ui.checkBox_loops_wy_2.setEnabled(True)\n ui.checkBox_loops_wz_2.setEnabled(True)\n ui.comboBox_loops_destination_2.setEnabled(True)\n ui.comboBox_loops_origin_2.setEnabled(True)\n ui.label_loops_origin_2.setEnabled(True)\n ui.label_loops_destination_2.setEnabled(True)\n ui.checkBox_loops_x_2.setEnabled(True)\n ui.checkBox_loops_y_2.setEnabled(True)\n ui.checkBox_loops_z_2.setEnabled(True)\n ui.checkBox_loops_x_2.setChecked(True)\n ui.checkBox_loops_y_2.setChecked(True)\n ui.checkBox_loops_z_2.setChecked(True)",
"def show_hide_price_options(n_clicks, is_open):\n if n_clicks:\n return not is_open\n return is_open",
"def filter_has_purchase_price(self, queryset, name, value):\n if str2bool(value):\n return queryset.exclude(purchase_price=None)\n else:\n return queryset.filter(purchase_price=None)",
"def should_moderate_rating(self):\n return not self._is_action_allowed('rating_without_moderation')",
"def on_CheckPunish_clicked(self):\n # TODO: not implemented yet\n raise NotImplementedError",
"def notEnabledDummy(self, ev):\n pass",
"def _clicked_no_button(self):\n self.yes = False",
"def disable_not_selected(self, window, values, branch_log_dict, key_event):\n #we need to convert values[element] into the numeric\n #could used deepcopy, but we do not actually need it\n utils.convert_to_numeric(values)\n key_set = set(branch_log_dict[key_event].keys())\n for key in key_set.difference(set([values[key_event]])):\n for element_key in branch_log_dict[key_event][key]:\n if not isinstance(window[element_key], sg.Text) and not isinstance(window[element_key], sg.Listbox):\n window[element_key].update(disabled = True)\n window[element_key].update(value = \"\")\n window[element_key].metadata = False\n window[element_key+\"_label\"].update(text_color = \"#000000\")#every non-text field has a label\n window[element_key].update(visible = False)",
"def mouseReleaseEventEnabled(self, ev):\n\n self._btns.remove(ev.button())",
"def cancel_by_price(self, price):\r\n for i in reversed(range(len(self.orderbook.owns))):\r\n order = self.orderbook.owns[i]\r\n if order.price == price:\r\n if order.oid != \"\":\r\n self.cancel(order.oid)",
"def _bidding_function(self):\n return self._bid_value",
"def clicks_ignored(self):\n result = self._ignore_count > 0\n self._ignore_count = max(0, self._ignore_count - 1)\n return result",
"def _on_click(self, _):\n self.value = not self.value",
"def disable(self, item_id):\n pass",
"def OnToggle(self, e):\n state = e.GetEventObject().GetValue() # state of button = True/False\n _id = e.GetId() # ID is the quantity code\n\n if (state):\n e.GetEventObject().SetLabel(\"Remove\") # change button text\n\n if (_id not in self.selected_values): # add quantity\n self.selected_values.append(str(_id))\n\n else:\n e.GetEventObject().SetLabel(\"Add\") # change button text\n\n if (_id in self.selected_values): # remove quantity\n self.selected_values.remove(str(_id))",
"def disable(self): \n self.feed_button.config(state=\"disabled\")\n self.eat_button.config(state=\"disabled\") \n for t in range(self.player.game.trait_limit): \n self.add_trait_buttons[t].config(state=\"disabled\") \n self.add_population_button.config(state=\"disabled\")\n self.add_body_size_button.config(state=\"disabled\")"
] | [
"0.56935596",
"0.5517914",
"0.5338594",
"0.52991855",
"0.52119434",
"0.51720953",
"0.51302695",
"0.5105916",
"0.50961214",
"0.5084222",
"0.5071731",
"0.50538534",
"0.5042933",
"0.50236636",
"0.50235957",
"0.50030416",
"0.500201",
"0.49910998",
"0.4982983",
"0.49764395",
"0.4973508",
"0.49369112",
"0.49060702",
"0.4904951",
"0.48986363",
"0.48850396",
"0.4881811",
"0.48799947",
"0.48790187",
"0.48672664"
] | 0.83296585 | 0 |
Implementing set price list content functionality | def set_price_list_content(self, price_list_content):
self.single_selection_from_kendo_dropdown(self.price_list_content_dropdown_locator, price_list_content)
self.wait_for_ajax_spinner_load() | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def change_price(self, value): \n value = self.price",
"def set_price(self, request, pk):\n return Response('20$')",
"def set_price(self, request, pk):\n return Response('20$')",
"def setPrice(self, val):\n self.price = val",
"def Collection_change_price(C: list, rest: str, d: str, p: float) -> list:\r\n result = []\r\n for r in C:\r\n if r.name == rest:\r\n for dish in r.menu:\r\n if dish.name == d:\r\n for x, d in enumerate(r.menu):\r\n new_price = d.price * (1 + (int(p)/100))\r\n d = d._replace(price = new_price)\r\n r.menu[x] = d\r\n result.append(r)\r\n return result",
"def _onchange_price(self):\n self.price_subtotal = self.price",
"def _set_items(self, list_text, pic_path):\n print list_text\n self.list_widget = QListWidget()\n ly_vbox = QVBoxLayout()\n if type(pic_path) is not list:\n for item in list_text:\n self._setItem(item[0], item[1], pic_path)\n else:\n for i in range(len(list_text)):\n self._setItem(list_text[i][0], list_text[i][1], pic_path[i])\n ly_vbox.addWidget(self.list_widget)\n self.list_widget.itemDoubleClicked.connect(self.item_doubleclick_slot)\n self.setLayout(ly_vbox)\n self.resize(300, 400)\n\n buttonBox = QDialogButtonBox(QDialogButtonBox.Ok |QDialogButtonBox.Cancel)\n ly_vbox.addWidget(buttonBox)\n buttonBox.accepted.connect(self.check_test)\n buttonBox.rejected.connect(self.reject)\n self.check_test()",
"def update(self):\r\n start_page = self.controller.get_page(StartPage)\r\n value_list_item = start_page.listitem.curselection()\r\n value_list_arme = start_page.listarme.curselection()\r\n value_list_bonus = start_page.listbonus.curselection()\r\n value_list_bonus_sec = start_page.listbonussec.curselection()\r\n list_link_item = []\r\n if value_list_item is not None:\r\n s = \"http://www.dofus.com/fr/mmorpg/encyclopedie/equipements?text=\"\r\n for i in value_list_item:\r\n s = s + \"&type_id[]=\" + str(list_object[start_page.listitem.get(i)])\r\n if value_list_bonus is not None:\r\n for i in value_list_bonus:\r\n s = s + \"&EFFECTMAIN[]=\" + str(\r\n bonus_primaire[start_page.listbonus.get(i)])\r\n s = s + \"&EFFECTMAIN_and_or=\" + str(start_page.And_or_prim.get())\r\n if value_list_bonus_sec is not None:\r\n for i in value_list_bonus_sec:\r\n s = s + \"&EFFECT[]=\" + str(\r\n bonus_primaire[start_page.listbonus.get(i)])\r\n s = s + \"&EFFECT_and_or=\" + str(start_page.And_or_prim.get())\r\n s = s + \"&size=96\"\r\n print(s)\r\n site = requests.get(s)\r\n # f = open('test.txt', 'w')\r\n soup = bs4.BeautifulSoup(site.text, 'html.parser')\r\n number_result = 1\r\n if(soup.find(\"div\", class_=\"ak-list-info\") is not None):\r\n number_result = soup.find(\"div\", class_=\"ak-list-info\").strong.string\r\n number_page = math.ceil(int(number_result) / 96)\r\n for link in soup.tbody.find_all('a'):\r\n list_link_item.append(link.get('href'))\r\n for i in range(2, number_page + 1):\r\n w = s + \"&page=\" + str(i)\r\n print(w)\r\n site = requests.get(w)\r\n soup = bs4.BeautifulSoup(site.text, 'html.parser')\r\n for link in soup.tbody.find_all('a'):\r\n list_link_item.append(link.get('href'))\r\n list_link_item = list(set(list_link_item))\r\n self.list_name_item = {}\r\n self.resultlist = tk.Listbox(self, selectmode='multiple', exportselection=0)\r\n for link in list_link_item:\r\n site = requests.get(\"http://www.dofus.com\" + link)\r\n soup = bs4.BeautifulSoup(site.text, 'html.parser')\r\n craft_panel = soup.find(\"div\", class_=\"ak-container ak-panel ak-crafts\")\r\n if craft_panel is not None:\r\n dic_name_nb = {}\r\n for ressources in craft_panel.find_all(\"div\", class_=\"ak-list-element\"):\r\n nbressource = ressources.find(\"div\", class_=\"ak-front\").text\r\n nameressource = ressources.find(\r\n \"div\", class_=\"ak-content\").find(\"span\", class_=\"ak-linker\").text\r\n dic_name_nb[nameressource] = int(nbressource[:-4])\r\n self.list_name_item[soup.find(\r\n \"h1\", class_=\"ak-return-link\").text.replace(' ', '').replace('\\n', '')] = dic_name_nb\r\n else:\r\n list_link_item.remove(link)\r\n for i, j in enumerate(self.list_name_item):\r\n self.resultlist.insert(i, j)\r\n self.resultlist.selection_set(0, self.resultlist.size() - 1)\r\n self.resultlist.grid(row=1, column=0)\r\n button = ttk.Button(self, text=\"Print to file\", command=self.printresultfile)\r\n button.grid(row=2, column=1, columnspan=1)",
"def price(self, price):\n\n self._price = price",
"def price(self, price):\n\n self._price = price",
"def price(self, price):\n\n self._price = price",
"def price(self, price):\n\n self._price = price",
"def update_listview(self, content=[]):\n old_model = self.ui.listItemList.model()\n model = ItemListModel(data=content, view=self)\n self.ui.listItemList.setModel(model)\n del old_model",
"def set_vendor_price_lists_grid_settings(self, grid_settings):\n self.set_grid_settings(self.view_price_list_div_id, grid_settings)",
"def set_price(self, _price):\n self.price = _price\n return self.price",
"def get_prices(self):\n pass",
"def updateControl(self, event):\r\n print(\"updating...\")\r\n product_dict = [\r\n {\"title\":\"Core Python Programming\", \"author\":\"Wesley Chun\",\r\n \"isbn\":\"0132269937\", \"mfg\":\"Prentice Hall\"},\r\n {\"title\":\"Python Programming for the Absolute Beginner\",\r\n \"author\":\"Michael Dawson\", \"isbn\":\"1598631128\",\r\n \"mfg\":\"Course Technology\"},\r\n {\"title\":\"Learning Python\", \"author\":\"Mark Lutz\",\r\n \"isbn\":\"0596513984\", \"mfg\":\"O'Reilly\"}\r\n ]\r\n data = self.products + product_dict\r\n self.dataOlv.SetObjects(data)",
"def getPrice(self):\n headers = {\n \"User-Agent\": \"Mozilla/5.0 (Windows NT 10.0; Win64; x64) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/81.0.4044.113 Safari/537.36\"}\n response = requests.get(self.__product_URL, headers=headers)\n #print(response.status_code)\n soup = BeautifulSoup(response.content, \"html.parser\")\n file = open(\"testproduct.html\", \"wb\")\n file.write(soup.prettify(\"utf-8\"))\n file.close()\n title = soup.find(\"span\", attrs={\"id\": \"productTitle\", \"class\": \"a-size-large\"}).string.strip()\n self.__product_title = title\n temp = soup.find_all(\"a\", attrs={\"class\": \"a-accordion-row a-declarative accordion-header\"})[1]\n price = temp.find(\"span\", attrs={\"class\": \"a-color-price\"}).text.strip()\n lst = list(price)\n lst.remove(\",\")\n price = int(float(\"\".join(lst)))\n self.__product_price = price\n #print(self.__product_price)",
"def set_LAOs_MPSP(MPSP):\n price = MPSP / 907.185\n for i in LAOs.products:\n i.price = price",
"def setCurrentListPosition(*args):",
"def setCurrentListPosition(*args):",
"def update(self, amz_listing):\n amz_listing.sku = self.asin\n amz_listing.title = self.title\n amz_listing.brand = self.brand\n amz_listing.model = self.model\n amz_listing.upc = self.upc\n amz_listing.quantity = self.quantity\n amz_listing.url = self.url\n amz_listing.salesrank = self.salesrank\n amz_listing.offers = self.offers\n amz_listing.hasprime = self.prime\n\n # Only update price if price information is provided\n if self._tag.xpath('.//Offers'):\n amz_listing.price = self.price",
"def updatePrices(self,dd):\n for key in dd:\n self.DoS[key].updatePrice(dd[key])",
"def price(self, irc, msg, args, optlist, typeName):\n\n try:\n typeID = self._get_typeID(typeName)\n itemType = self._get_type(typeID)\n except:\n irc.error('Unknown type')\n return\n\n if len(optlist) == 1:\n location = optlist[0][1]\n else:\n location = 'Jita'\n\n try:\n locationID = self._get_locationID(location)\n location = self._get_location(locationID)\n except:\n irc.error('Unknown location')\n return\n\n market = self._sql(\"\"\"\n SELECT * FROM evecentral_market\n WHERE \"locationID\"=%s\"\"\", [locationID])\n if not market:\n irc.reply('No data for that market location')\n return\n\n marketitem = self._sql(\"\"\"\n SELECT * FROM evecentral_marketitem\n WHERE \"locationID\"=%s AND \"typeID\"=%s\"\"\", [locationID, typeID])\n if marketitem:\n irc.reply('{0} in {1}: buy max: {2} (volume: {3:,d}). sell min: {4} (volume: {5:,d}).'.format(\n ircutils.bold(itemType['typeName']),\n self._colorize_system(location),\n ircutils.mircColor(\n '{:,.2f}'.format(marketitem['buy_max']),\n fg='green'),\n int(marketitem['buy_volume']),\n ircutils.mircColor(\n '{:,.2f}'.format(marketitem['sell_min']),\n fg='green'),\n int(marketitem['sell_volume']),\n ), prefixNick=False)\n else:\n irc.reply(\"Prices for {0} in {1} isn't updated yet.\".format(\n itemType['typeName'],\n location['itemName']\n ))",
"def set_list_of_expenses(self):\n fix_exp = DB.get_fixed_expenses(self.customer.email)\n var_exp = DB.get_variable_expenses(self.customer.email)\n self.listOfExpensesSEK.item(2).setText(str(fix_exp[\"subscription\"]))\n self.listOfExpensesSEK.item(3).setText(str(fix_exp[\"insurance\"]))\n self.listOfExpensesSEK.item(4).setText(str(fix_exp[\"rent\"]))\n self.listOfExpensesSEK.item(5).setText(str(fix_exp[\"others\"]))\n\n self.listOfExpensesSEK.item(11).setText(str(var_exp[\"food\"]))\n self.listOfExpensesSEK.item(12).setText(str(var_exp[\"bills\"]))\n self.listOfExpensesSEK.item(13).setText(str(var_exp[\"transportation\"]))\n self.listOfExpensesSEK.item(14).setText(str(var_exp[\"hygien\"]))\n self.listOfExpensesSEK.item(15).setText(str(var_exp[\"clothes\"]))\n self.listOfExpensesSEK.item(16).setText(str(var_exp[\"entertainment\"]))\n self.listOfExpensesSEK.item(17).setText(str(var_exp[\"others\"]))",
"def set_list_of_expenses(self):\n fix_exp = DB.get_fixed_expenses(self.customer.email)\n var_exp = DB.get_variable_expenses(self.customer.email)\n self.listOfExpensesSEK.item(2).setText(str(fix_exp[\"subscription\"]))\n self.listOfExpensesSEK.item(3).setText(str(fix_exp[\"insurance\"]))\n self.listOfExpensesSEK.item(4).setText(str(fix_exp[\"rent\"]))\n self.listOfExpensesSEK.item(5).setText(str(fix_exp[\"others\"]))\n\n self.listOfExpensesSEK.item(11).setText(str(var_exp[\"food\"]))\n self.listOfExpensesSEK.item(12).setText(str(var_exp[\"bills\"]))\n self.listOfExpensesSEK.item(13).setText(str(var_exp[\"transportation\"]))\n self.listOfExpensesSEK.item(14).setText(str(var_exp[\"hygien\"]))\n self.listOfExpensesSEK.item(15).setText(str(var_exp[\"clothes\"]))\n self.listOfExpensesSEK.item(16).setText(str(var_exp[\"entertainment\"]))\n self.listOfExpensesSEK.item(17).setText(str(var_exp[\"others\"]))",
"def set_target_buy_list(self, item_name, is_first_item):\n if is_first_item is True:\n self.single_selection_from_static_kendo_dropdown(self.target_buy_list_kendo_dropdown_arrow_locator, first_item=True)\n else:\n self.single_selection_from_static_kendo_dropdown(self.target_buy_list_kendo_dropdown_arrow_locator, item_name)",
"def pricing_view(request, simulation):\n return TollListView.as_view()(request, simulation=simulation, )",
"def _set_current_prices(self) -> None:\n strategy = cast(Strategy, self.context.strategy)\n eth_price = strategy.contract_status.get(\n \"priceprovider_get_latest_answer\", None\n )\n btc_price = strategy.contract_status.get(\n \"btcpriceprovider_get_latest_answer\", None\n )\n\n if eth_price is None or btc_price is None:\n self.context.logger.info(\"No price to store.....\")\n return\n self._current_price = {\n ETH: self._get_price(eth_price),\n BTC: self._get_price(btc_price),\n }",
"def _update_existing_cart_article(self, items, **kwargs):"
] | [
"0.58155155",
"0.57125235",
"0.57125235",
"0.5688172",
"0.5686566",
"0.56362563",
"0.5595817",
"0.55472994",
"0.5463939",
"0.5463939",
"0.5463939",
"0.5463939",
"0.5463302",
"0.5445733",
"0.54014903",
"0.5319023",
"0.5274957",
"0.5241937",
"0.52286327",
"0.5206474",
"0.5206474",
"0.52054185",
"0.52020633",
"0.51913536",
"0.51898056",
"0.51898056",
"0.518783",
"0.51818264",
"0.5172433",
"0.5170292"
] | 0.76420826 | 0 |
Implementing set country for search functionality | def set_country_for_search(self, country_name_list):
self.multiple_items_selection_from_kendo_dropdown(self.country_dropdown_locator, country_name_list)
self.wait_for_ajax_spinner_load() | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def test_get_country_by_geo_location(self):\n pass",
"def country(self, country):\n\n self._country = country",
"def country(self, country):\n\n self._country = country",
"def country(self, country):\n\n self._country = country",
"def country(self, country):\n\n self._country = country",
"def country(self, country):\n\n self._country = country",
"def queryset(self, request, queryset):\n if self.value() is None:\n return queryset\n return queryset.filter(data__qg_location__0__country__icontains=self.value())",
"def set_query_string(self):\n\n if self.search_by == 'by-postal-code':\n self.querystring = {'postalCode': self.search_input, 'countryCode': \"US\"}\n else :\n self.querystring = {'city': self.search_input}",
"def test_get_countries(self):\n pass",
"def country(alpha_2_code: str) -> None:",
"def findCountryCode(self):\n RecordsWithCountry = []\n for state in pycountry.subdivisions:\n #print(state.name)\n for record in self.Records: \n if state.name == record.state:\n #print(state.country, record.state)\n r = RecordCountry(date=record.date,\n country=state.country.alpha_3,\n impressions=record.impressions,\n CTR=record.CTR)\n self.Records.remove(record)\n RecordsWithCountry.append(r)\n for record in self.Records: \n r = RecordCountry(date=record.date,\n country=\"XXX\",\n impressions=record.impressions,\n CTR=record.CTR)\n RecordsWithCountry.append(r)\n self.Records = RecordsWithCountry",
"def city_country(city_name, country_name):\n city_country_combo = city_name + ', ' + country_name\n return city_country_combo.title()",
"def country_hint(self, value):\n return None",
"def convert_country(country):\n if (country and 'China' in country) or \\\n country == 'Chin' or country == 'CHINA':\n country = 'China'\n elif country and 'Brazil' in country or \\\n country == 'Brasil' or \\\n country == 'ITA - Instituto Tecnologico de Aeronautica (':\n country = 'Brazil'\n elif country and 'Argentina' in country:\n country = 'Argentina'\n elif country == 'Czechia':\n country = 'Czech Republic'\n elif 'Norwegian' in country:\n country = 'Norway'\n elif country and 'United Kingdom' in country:\n country = 'United Kingdom'\n elif country and 'Hong Kong' in country:\n country = 'Hong Kong'\n elif country == 'Cameroun':\n country = 'Cameroon'\n elif (country and 'Chile' in country) or country == 'CHILE':\n country = 'Chile'\n elif (country and 'United States of America' in \\\n country) or country == 'United States' or country \\\n == 'USA' or 'Florida' in country or \\\n 'California' in country or\\\n country == 'National Reference Centre for' or \\\n country == 'United State of America' or \\\n country == 'U.S.A.' or \\\n country == 'Virginia':\n country = 'United States of America'\n elif country=='Republic of Panamá' or country=='Panamá' or 'Panama' in country:\n country = 'Panama'\n elif 'Canada' in country:\n country = 'Canada'\n elif 'Colombia' in country:\n country = 'Colombia'\n elif 'Spain' in country or country=='España':\n country = 'Spain'\n elif 'Iran' in country:\n country = 'Iran'\n elif 'Saudi Arabia' in country:\n country = 'Saudi Arabia'\n elif 'Italy' in country:\n country = 'Italy'\n elif 'Japan' in country:\n country = 'Japan'\n elif 'Germany' in country:\n country = 'Germany'\n elif 'Luxembourg' in country:\n country = 'Luxembourg'\n elif ('France' in country) or country == 'Marseille':\n country = 'France'\n elif country == 'ROC' or country == 'R. O. C':\n country = 'Taiwan'\n elif country == 'Brasil':\n country = 'Brazil'\n elif country == 'México' or 'Mexico' in country:\n country = 'Mexico'\n elif 'Slowakia' in country:\n country = 'Slowakia'\n elif country == 'Korea' or 'Republic of Korea' in country:\n country = 'South Korea'\n elif country == 'United Kindgom':\n country = 'United Kingdom'\n elif country and 'Netherlands' in country:\n country = 'Netherlands'\n elif country == 'Commonwealth of Australia' or 'Australia' in country:\n country = 'Australia'\n elif 'Singapore' in country:\n country = 'Singapore'\n elif country and (country[0].isdigit() or country[0] == '+'):\n country = 'N/A'\n return country",
"def test_get_country_states(self):\n pass",
"def domain_settings_set_country(self, country):\n return self._request('domain/settings/set_country', inspect_args_func(inspect.currentframe()))",
"def test_default_country_set(self):\n response = self.client.get(reverse(\"billing_info\"))\n self.assertEqual(response.status_code, 200)\n self.assertContains(\n response, '<option value=\"PL\" selected>Poland</option>', html=True\n )",
"def geocode(self, geocoder):\n for term in self.terms:\n # No need to geocode regions\n if not term.get('region'):\n geo = geocoder.geocode(term['string'])\n if geo:\n term['geo'] = geo\n if not self.region:\n # TODO: descobrir regiao do ponto\n self.region = \"???\"\n else:\n self.region = term['region']",
"def country() -> str:",
"def _perContinentChoiceSelector(self, params):\n\n entity = params['entity']\n choices = soc.models.countries.COUNTRIES_TO_CONTINENT\n\n if 'fields' in params:\n fields = params['fields']\n\n for field in fields:\n entity = entity.__getattribute__(field)\n\n return choices[entity.res_country]",
"def test_country_overrides(self):\n # Retrieve the registration form description\n with override_settings(REGISTRATION_EXTRA_FIELDS={\"country\": \"required\"}):\n response = self.client.get(self.url)\n self.assertHttpOK(response)\n\n self.assertContains(response, 'Kosovo')",
"def city_country(city, country):\n full_city = city + \", \" + country\n return full_city.title()",
"def city_country(city, country):\n place = f\"{city}, {country}\"\n return place.title()",
"def onchange_country(self):\n if self.country_id and self.country_id.code == 'SA':\n self.is_saudi = True\n else:\n self.is_saudi = False",
"def country(name):\n return location_db().find(name=name)[\"country\"]",
"def test_default_country_by_ip(self):\n\n response = self.client.get(\n reverse(\"billing_info\"), HTTP_X_FORWARDED_FOR=\"85.214.132.117\"\n )\n self.assertEqual(response.status_code, 200)\n self.assertContains(\n response, '<option value=\"DE\" selected>Germany</option>', html=True\n )\n\n response = self.client.get(\n reverse(\"billing_info\"), REMOTE_ADDR=\"85.214.132.117\"\n )\n self.assertEqual(response.status_code, 200)\n self.assertContains(\n response, '<option value=\"DE\" selected>Germany</option>', html=True\n )",
"def city_country(city, country):\n return city.title() + \", \" + country.title()",
"def city_country(city, country):\r\n\treturn(city.title() + ', ' + country.title())",
"def country_flag(country):\n\tif not country:\n\t\treturn u''\n\tresult = Country.objects.filter(name__icontains=country)\n\tif result:\n\t\tc = result[0]\n\t\tiso = c.iso\n\t\tflag_location = iso_flag(iso)\n\t\treturn flag_location\n\treturn u''",
"def __init__(self, country, cursor):\n self.country = country\n self.cursor = cursor"
] | [
"0.63985616",
"0.6390148",
"0.6390148",
"0.6390148",
"0.6390148",
"0.6390148",
"0.63335735",
"0.6311883",
"0.62731636",
"0.6249682",
"0.6236205",
"0.6220191",
"0.62025696",
"0.61737525",
"0.6099574",
"0.6086785",
"0.60787433",
"0.6051233",
"0.60244066",
"0.6019994",
"0.59673494",
"0.5965788",
"0.5949832",
"0.5948856",
"0.5933873",
"0.59109473",
"0.58873075",
"0.58728766",
"0.5843963",
"0.58380836"
] | 0.75731814 | 0 |
Implementing is specific tab on vendor profile page present functionality | def is_specific_tab_on_vendor_profile_page_present(self, tab_name):
tab_locator = (By.XPATH, "//div[contains(@id, 'SourceProfileTabStrip')]/descendant::a[text()='%s']" % tab_name)
return self.is_element_present(tab_locator) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def click_on_tab_of_vendor_profile_page(self, tab_name):\n vendor_profile_page_tab_locator = (By.XPATH, self.vendor_profile_page_tab_locator_string + \"[text()='%s']\" % tab_name)\n self.select_static_tab(vendor_profile_page_tab_locator, 'tab locator not found')",
"def select_tab_of_view_price_list_detail_page(self, tab_name):\n self.wait_for_ajax_spinner_load(300)\n view_price_list_detail_page_tab_locator = (By.XPATH, self.vendor_profile_page_tab_locator_string + \"[text()='%s']\" % tab_name)\n self.select_static_tab(view_price_list_detail_page_tab_locator, 'tab locator not found')",
"def select_vendors_tab(self):\n self.select_static_tab(self.vendors_tab_locator, 'vendors tab not found before specified time')",
"def tab_url(self) -> str:",
"def test_get_tab(self):\n actions.login(ADMIN_EMAIL, is_admin=True)\n response = self.get(self.TAB_URL)\n self.assertEqual(response.status_code, 200)",
"def tabSelected(self):",
"def tabSelected(self):",
"def is_tab_present(self, tab_name):\n tab_locator = (By.XPATH, \"//a[@class='k-link' and text()='%s']\" % tab_name)\n return self.is_element_present(tab_locator)",
"def select_buy_dashboard_tab(self):\n self.select_static_tab(self.buy_dashboard_tab_locator, True)",
"def is_vendors_tab_present(self):\n return self.is_element_present(self.vendors_tab_locator)",
"def test_static_tab(self):\r\n # From the course info page, navigate to the static tab\r\n self.course_info_page.visit()\r\n self.tab_nav.go_to_tab('Test Static Tab')\r\n self.assertTrue(self.tab_nav.is_on_tab('Test Static Tab'))",
"def _is_on_tab(self, tab_name):\r\n current_tab_list = self.q(css='ol.course-tabs > li > a.active').text\r\n\r\n if len(current_tab_list) == 0:\r\n self.warning(\"Could not find current tab\")\r\n return False\r\n else:\r\n return current_tab_list[0].strip().split('\\n')[0] == tab_name",
"def is_buy_dashboard_tab_present(self):\n return self.is_element_present(self.buy_dashboard_tab_locator)",
"def is_on_tab(self, tab_name):\r\n return self._is_on_tab(tab_name)",
"def is_custom_gear_tab(self):\n return self.emulator.is_ui_element_on_screen(self.ui['CUSTOM_GEAR_QUICK_UPGRADE']) or \\\n self.emulator.is_ui_element_on_screen(self.ui['CUSTOM_GEAR_ENHANCE']) or \\\n self.emulator.is_ui_element_on_screen(self.ui['CUSTOM_GEAR_CHANGE_OPTION'])",
"def __init__(self):\r\n super().__init__()\r\n self._setupTab1()",
"def is_active_tab(request, url, *params):\n\n if request.path_info.startswith(url):\n return 'active'\n\n try:\n tab_url = reverse(url, args=params)\n except NoReverseMatch:\n return ''\n\n if tab_url == request.path_info:\n return 'active'\n\n return ''",
"def go_to_tab(self, tab_name):\r\n\r\n if tab_name not in ['Courseware', 'Course Info', 'Discussion', 'Wiki', 'Progress']:\r\n self.warning(\"'{0}' is not a valid tab name\".format(tab_name))\r\n\r\n # The only identifier for individual tabs is the link href\r\n # so we find the tab with `tab_name` in its text.\r\n tab_css = self._tab_css(tab_name)\r\n\r\n if tab_css is not None:\r\n self.q(css=tab_css).first.click()\r\n else:\r\n self.warning(\"No tabs found for '{0}'\".format(tab_name))\r\n\r\n self._is_on_tab_promise(tab_name).fulfill()",
"def tab_nav(tab):\n projects = Projects.query.all()\n\n for project in projects:\n if project.project_name == tab:\n project.active = True\n else:\n project.active = False\n\n db.session.commit()\n return redirect('/')",
"def tabSelected(self):\r\n self.transactionMenuWidget.tabSelected()",
"def _custom_show_toolbar(request):\n return DEBUG and request.user.is_superuser",
"def event_tab(id, tab):\n event = Event.query.get_or_404(id)\n other_media = {\"video\": event.video, \"misc_image_paths\": event.misc_images()}\n if tab == \"info\":\n return render_template(\n \"events/_event_page_content.html\",\n event=event,\n image_path=event.main_image(),\n other_media=other_media,\n )\n elif tab == \"sponsors\":\n users = {sponsorship.sponsor for sponsorship in event.sponsorships}\n return render_template(\"users/_users.html\", event=event, users=users)\n else:\n abort(404)",
"def _custom_show_toolbar(request: 'HttpRequest') -> bool:\n return DEBUG and request.user.is_superuser",
"def varTabChange(*args):\n tab = cmds.tabLayout(widgets[\"anmLgtTLO\"], q=True, st=True)\n if tab == \"ANM\":\n cmds.tabLayout(widgets[\"shotActionTypeTLO\"], e=True, st=\"Anm\")\n if tab == \"LGT\":\n cmds.tabLayout(widgets[\"shotActionTypeTLO\"], e=True, st=\"Lgt\")\n if tab == \"FX\":\n cmds.tabLayout(widgets[\"shotActionTypeTLO\"], e=True, st=\"Fx\")",
"def test_toggle_tab_visibility(self):\r\n\r\n self.check_toggle_tab_visiblity(WikiTab.type, True)\r\n self.check_toggle_tab_visiblity(WikiTab.type, False)",
"def supportProperties(self, tabId=0):\n supportProperties = False\n doc = self.tab.widget(tabId)\n if not isinstance(doc, WelcomePage):\n if doc.extension in [ TestAbstract.TYPE, TestUnit.TYPE, TestData.TYPE, \n TestSuite.TYPE, TestPlan.TYPE, TestPlan.TYPE_GLOBAL ]:\n supportProperties = True\n return supportProperties",
"def valid_simili_tab(arch, **kwargs):\n # Select elements with class 'btn'\n xpath = '//*[@data-toggle=\"tab\"]'\n xpath += '[not(@role=\"tab\")'\n xpath += 'or not(@aria-controls or @t-att-aria-controls or @t-attf-aria-controls)'\n xpath += 'or contains(@aria-controls, \"#\") or contains(@t-att-aria-controls, \"#\")]'\n if arch.xpath(xpath):\n return \"Warning\"\n return True",
"def conditional_tabnext():\n #print(get_current_tab_id())\n #print(get_current_tab())\n #print(number_of_tabs())\n if is_most_right_tab():\n tabnew()\n else:\n tabnext()",
"def tab(event: EventType, widget: WidgetType) -> bool:\n return event.key == KEY_TAB",
"def test_advanced_components_munge_tabs(self):\r\n self.assertNotIn(EXTRA_TAB_PANELS.get(\"open_ended\"), self.course.tabs)\r\n self.assertNotIn(EXTRA_TAB_PANELS.get(\"notes\"), self.course.tabs)\r\n self.client.ajax_post(self.course_setting_url, {\r\n ADVANCED_COMPONENT_POLICY_KEY: [\"combinedopenended\"]\r\n })\r\n course = modulestore().get_course(self.course.id)\r\n self.assertIn(EXTRA_TAB_PANELS.get(\"open_ended\"), course.tabs)\r\n self.assertNotIn(EXTRA_TAB_PANELS.get(\"notes\"), course.tabs)\r\n self.client.ajax_post(self.course_setting_url, {\r\n ADVANCED_COMPONENT_POLICY_KEY: []\r\n })\r\n course = modulestore().get_course(self.course.id)\r\n self.assertNotIn(EXTRA_TAB_PANELS.get(\"open_ended\"), course.tabs)"
] | [
"0.6927974",
"0.6149141",
"0.6030095",
"0.60232794",
"0.5995256",
"0.5989159",
"0.5989159",
"0.5929086",
"0.5907183",
"0.586943",
"0.5856151",
"0.569291",
"0.5618714",
"0.5608414",
"0.5583563",
"0.5554361",
"0.5503799",
"0.5478707",
"0.54684794",
"0.5464929",
"0.54637975",
"0.54511046",
"0.54461026",
"0.5432931",
"0.5424902",
"0.5382693",
"0.5374937",
"0.5362256",
"0.533684",
"0.5335697"
] | 0.7119747 | 0 |
Implementing is specific column on vendor profile grid present functionality | def is_specific_column_on_vendor_profile_grid_present(self, column_name):
column_locator = (By.XPATH, "//div[contains(@id, 'divCustomerDialedDigit')]/descendant::a[text()='%s']" % column_name)
return self.is_element_present(column_locator) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def is_country_column_present_in_vendor_profile_page(self):\n return self.is_specific_column_present(self.rates_grid_div_id, self.column_name_country)",
"def is_country_column_present_in_view_price_list_details_rate_page(self):\n return self.is_specific_column_present(self.vendor_price_list_detail_rates_grid_div_id, self.column_name_country)",
"def is_target_buy_policies_grid_column_present(self, column_name):\n column_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::th[@data-title='%s']\" % (self.target_buy_policies_grid_div_id, column_name))\n return self.is_element_present(column_locator)",
"def is_specific_column_present(self, grid_div_id, column_name):\n specific_column_locator = (By.XPATH, \"//div[contains(@id, '%s')]/descendant::th[@data-field='%s']\" % (grid_div_id, column_name))\n return self.is_element_present(specific_column_locator)",
"def is_country_column_present_in_vendor_profile_destinations_page(self):\n return self.is_specific_column_present(self.destinations_grid_div_id, self.column_name_country)",
"def is_country_column_present_in_vendor_profile_dialed_digits_page(self):\n return self.is_specific_column_present(self.dialed_digits_grid_div_id, self.column_name_country)",
"def is_country_column_present_in_compare_price_list_pop_up(self):\n return self.is_specific_column_present(self.compare_price_list_rate_grid_div_id, self.column_name_country)",
"def is_specific_column_present_in_workflow_tab(self, column_name):\n column_locator = (By.XPATH, \"//div[contains(@id, 'divOutboundWorkFlowGrid_')]/descendant::div[@class='k-grid-header']/descendant::th[@data-title='%s']\" % column_name)\n return self.is_element_present(column_locator)",
"def is_expected_grid_column_present(self, expected_column_name):\n grid_column_locator = (By.XPATH, \"//th[@data-title='%s']\" %(expected_column_name))\n return self.is_element_present(grid_column_locator)",
"def is_country_column_present_in_view_price_list_details_ref_rates_page(self):\n return self.is_specific_column_present(self.vendor_price_list_detail_reference_rates_grid_div_id, self.column_name_country)",
"def columns(self):\n \n pass",
"def is_country_column_present_in_re_analysis_page(self):\n return self.is_specific_column_present(self.re_analysis_grid_div_id, self.column_name_country)",
"def IsColumnMode(self):\n return self.VertEdit.Enabled",
"def sort_vendors_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.vendors_div_id, column_name, descending_order)",
"def is_country_column_present_in_view_price_list_details_dialed_digits_page(self):\n return self.is_specific_column_present(self.vendor_price_list_detail_dial_digits_grid_div_id, self.column_name_country)",
"def check_col(df):\n students = list(df[\"name\"])\n exp_display = True\n skill_display = True\n # check if gap, cap, exp, skill cols are in df\n if \"gap\" not in list(df.columns):\n # add gap col\n gap_list = [constants.GAP] * len(students)\n df[\"gap\"] = gap_list\n else:\n df.fillna(constants.GAP, inplace=True)\n if \"cap\" not in list(df.columns):\n # add cap col\n shift_cap_list = [constants.CAP] * len(students)\n df[\"cap\"] = shift_cap_list # add cap column to df\n else:\n df.fillna(constants.CAP, inplace=True)\n if \"experience\" not in list(df.columns):\n # add experience col\n exp_list = [constants.EXP] * len(students)\n df[\"experience\"] = exp_list # add experience column to df\n exp_display = False # if using default exp, don't make a display\n else:\n df.fillna(constants.EXP, inplace=True)\n if \"skill\" not in list(df.columns):\n skill_list = [constants.SKILL] * len(students)\n df[\"skill\"] = skill_list\n skill_display = False # if using default skill, don't make a display\n else:\n df.fillna(constants.SKILL, inplace=True)\n\n return [exp_display, skill_display]",
"def get_list_columns(self):\n columns = super(InventoryTransactionAdmin, self).get_list_columns()\n cols = ['total_amount']\n columns = security_util.filter_columns_by_role(\n columns, cols, 'purchase_price_view'\n )\n return columns",
"def sort_vendor_price_lists_grid_column(self, column_name, descending_order):\n self.sort_grid_column(self.view_price_list_div_id, column_name, descending_order)",
"def test_display_custom_table(self):\n\n column_field = MoveSearchForm.column\n columns = [value for (value, label) in column_field.kwargs['choices']]\n\n response = self.do_search(id=u'1', display='custom-table',\n column=columns)\n self.assert_(\n response.tmpl_context.results,\n \"\"\"Custom table columns don't crash\"\"\".format(value)\n )",
"def render_column(self, row, column):\n # try to find rightmost object\n obj = row\n parts = column.split('.')\n for part in parts[:-1]:\n if obj is None:\n break\n obj = getattr(obj, part)\n\n # try using get_OBJECT_display for choice fields\n if hasattr(obj, 'get_%s_display' % parts[-1]):\n value = getattr(obj, 'get_%s_display' % parts[-1])()\n else:\n value = self._column_value(obj, parts[-1])\n\n if value is None:\n value = self.none_string\n\n if isinstance(value, datetime):\n value = localtime(value).strftime('%d-%b-%Y %H:%M')\n\n if self.escape_values:\n value = escape(value)\n\n if value and hasattr(obj, 'get_absolute_url') and column == 'vendor_name':\n return '<a href=\"%s\">%s</a>' % (obj.get_absolute_url(), value)\n return value",
"def _config_column(self):\n return self.totals_column",
"def getCustomColumnDetails(self, column_name):\n column_info = {}\n con = self.getMetadataDatabaseConnection()\n found = False\n column_name = column_name.upper()\n \n # Init some variables\n description = ''\n extra_table_name = ''\n common_table_name = ''\n data_type = ''\n \n # Figure out if exists in \"Extra\" table\n statement = \"\"\"select table_name from all_tab_columns where column_name = '%s' and table_name like 'EXTRA_%%'\"\"\"\\\n % column_name\n try:\n results = con.cursor().execute(statement).fetchone()\n extra_table_name = results[0]\n found = True\n except:\n extra_table_name = None\n \n # Figure out if exists in a factored table\n statement = \"\"\"select table_name from all_tab_columns where column_name = '%s' and table_name like 'COMMON_EXTRA_%%'\"\"\"\\\n % column_name\n try:\n results = con.cursor().execute(statement).fetchone()\n common_table_name = results[0]\n found = True\n except:\n common_table_name = None\n \n if found:\n try:\n statement = \"\"\"select data_type, description from extra_column_metadata where upper(column_name) = '%s'\"\"\" % column_name\n results = con.cursor().execute(statement).fetchone()\n data_type = results[0]\n description = results[1]\n except:\n data_type = None\n description = None\n else:\n data_type = None\n \n column_info['description'] = description\n column_info['extra_table_name'] = extra_table_name\n column_info['common_table_name'] = common_table_name\n column_info['data_type'] = data_type\n \n return column_info",
"def _generateColumnHeader(self, obj, **args):\n result = []\n header = self._script.utilities.columnHeaderForCell(obj)\n if not header:\n return result\n\n text = self._script.utilities.displayedText(header)\n if not text:\n return result\n\n roleString = self.getLocalizedRoleName(obj, pyatspi.ROLE_COLUMN_HEADER)\n if args.get('mode') == 'speech':\n if settings.speechVerbosityLevel == settings.VERBOSITY_LEVEL_VERBOSE \\\n and not args.get('formatType') in ['basicWhereAmI', 'detailedWhereAmI']:\n text = \"%s %s\" % (text, roleString)\n elif args.get('mode') == 'braille':\n text = \"%s %s\" % (text, roleString)\n\n result.append(text)\n return result",
"def is_comments_column_present(self):\n is_present = False\n self.column_name_list = self.get_grid_column_names_by_order(self.qos_grid_div_id)\n for column_name in self.column_name_list:\n if column_name == \"Comments\":\n is_present = True\n break\n return is_present",
"def cell(self,row_no,column_no): \n if row_no == 0:\n if self.serialize and column_no == 0:\n if self.verbose_names_dict.has_key('_serial_'):\n return self.verbose_names_dict['_serial_']\n else: \n return \"S.No.\"\n else:\n column = self.columns[column_no - (1 if self.serialize else 0)]\n if column in self.verbose_names_dict:\n return self.verbose_names_dict[column]\n else:\n try:\n return self.queryset.model._meta.get_field(column).verbose_name.capitalize()\n except Exception as e:\n return column.capitalize()\n else:\n if column_no == 0:\n return str(row_no)\n else:\n entrant = self.queryset[row_no - 1]\n column = self.columns[column_no - (1 if self.serialize else 0)] \n return str(self.handler(entrant,column))",
"def get_show_columns(self, model):\n return [\n getattr(field, 'di_display_name', False) or field.column \n for field in model._meta.get_fields() \n if getattr(field, 'di_show', False)\n ]",
"def columnTitles(self):\n \n pass",
"def columnTitles(self):\n \n pass",
"def getColumnsClasses(self, view=None):\n portal_registry = api.portal.get_tool('portal_registry')\n enabled = portal_registry['cpskin.core.interfaces.ICPSkinSettings.show_portlets_in_right_actions_panel'] # noqa\n if not enabled:\n # CPSkin : if show_portlets_in_right_actions_panel is not enabled,\n # we use default columns calculation\n return super(SunburstView, self).getColumnsClasses(view)\n\n plone_view = getMultiAdapter(\n (self.context, self.request), name=u'plone')\n portal_state = getMultiAdapter(\n (self.context, self.request), name=u'plone_portal_state')\n\n sl = plone_view.have_portlets('plone.leftcolumn', view=view)\n # CPSkin : if show_portlets_in_right_actions_panel is enabled, we\n # don't want any right portlets consideration\n sr = False\n\n isRTL = portal_state.is_rtl()\n\n # pre-fill dictionary\n columns = dict(one=\"\", content=\"\", two=\"\")\n\n if not sl and not sr:\n # we don't have columns, thus conten takes the whole width\n columns['content'] = \"width-full position-0\"\n\n elif sl and sr:\n # In case we have both columns, content takes 50% of the whole\n # width and the rest 50% is spread between the columns\n columns['one'] = \"width-1:4 position-0\"\n columns['content'] = \"width-1:2 position-1:4\"\n columns['two'] = \"width-1:4 position-3:4\"\n\n elif (sr and not sl) and isRTL:\n # We have right column and we are in RTL language\n columns['content'] = \"width-3:4 position-1:4\"\n columns['two'] = \"width-1:4 position-0\"\n\n elif (sr and not sl) and not isRTL:\n # We have right column and we are NOT in RTL language\n columns['content'] = \"width-3:4 position-0\"\n columns['two'] = \"width-1:4 position-3:4\"\n\n elif (sl and not sr) and isRTL:\n # We have left column and we are in RTL language\n columns['one'] = \"width-1:4 position-3:4\"\n columns['content'] = \"width-3:4 position-0\"\n\n elif (sl and not sr) and not isRTL:\n # We have left column and we are in NOT RTL language\n columns['one'] = \"width-1:4 position-0\"\n columns['content'] = \"width-3:4 position-1:4\"\n\n # append cell to each css-string\n for key, value in columns.items():\n columns[key] = \"cell \" + value\n\n return columns",
"def get_display_columns(self): \n if not hasattr(self, '_display_columns'):\n self._display_columns = self.gridpreference_displayorder.all().select_related()\n return self._display_columns"
] | [
"0.6501543",
"0.58865935",
"0.5812974",
"0.56284666",
"0.5594154",
"0.55805767",
"0.5573174",
"0.54963034",
"0.54772264",
"0.5437795",
"0.53422457",
"0.53249013",
"0.53199637",
"0.52872676",
"0.5281744",
"0.521732",
"0.51976854",
"0.5192462",
"0.5182938",
"0.5168565",
"0.5150476",
"0.51444983",
"0.51318574",
"0.5099869",
"0.50645715",
"0.50468594",
"0.504603",
"0.504603",
"0.5034797",
"0.5034715"
] | 0.70046914 | 0 |
Implementing set jobs grid settings functionality | def set_jobs_grid_settings(self, grid_settings):
self.set_grid_settings(self.jobs_grid_div_id, grid_settings) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def _configure_all_tasks(self, config, job_exe, job_type):\n\n config.set_task_ids(job_exe.get_cluster_id())\n\n for task_type in config.get_task_types():\n # Configure env vars describing allocated task resources\n env_vars = {}\n nvidia_docker_label = None\n\n for resource in config.get_resources(task_type).resources:\n env_name = 'ALLOCATED_%s' % normalize_env_var_name(resource.name)\n env_vars[env_name] = '%.1f' % resource.value # Assumes scalar resources\n if resource.name == \"gpus\" and int(resource.value) > 0:\n gpu_list = GPUManager.get_nvidia_docker_label(job_exe.node_id, job_exe.job_id)\n nvidia_docker_label = DockerParameter('env','NVIDIA_VISIBLE_DEVICES={}'.format(gpu_list.strip(',')))\n\n # Configure env vars for Scale meta-data\n env_vars['SCALE_JOB_ID'] = unicode(job_exe.job_id)\n env_vars['SCALE_EXE_NUM'] = unicode(job_exe.exe_num)\n if job_exe.recipe_id:\n env_vars['SCALE_RECIPE_ID'] = unicode(job_exe.recipe_id)\n if job_exe.batch_id:\n env_vars['SCALE_BATCH_ID'] = unicode(job_exe.batch_id)\n\n # Configure workspace volumes\n workspace_volumes = {}\n for task_workspace in config.get_workspaces(task_type):\n logger.debug(self._workspaces)\n workspace_model = self._workspaces[task_workspace.name]\n # TODO: Should refactor workspace broker to return a Volume object and remove BrokerVolume\n if workspace_model.volume:\n vol_name = get_workspace_volume_name(job_exe, task_workspace.name)\n cont_path = get_workspace_volume_path(workspace_model.name)\n if workspace_model.volume.host:\n host_path = workspace_model.volume.remote_path\n volume = Volume(vol_name, cont_path, task_workspace.mode, is_host=True, host_path=host_path)\n else:\n driver = workspace_model.volume.driver\n driver_opts = {}\n # TODO: Hack alert for nfs broker, as stated above, we should return Volume from broker\n if driver == 'nfs':\n driver_opts = {'share': workspace_model.volume.remote_path}\n volume = Volume(vol_name, cont_path, task_workspace.mode, is_host=False, driver=driver,\n driver_opts=driver_opts)\n workspace_volumes[task_workspace.name] = volume\n\n config.add_to_task(task_type, env_vars=env_vars, wksp_volumes=workspace_volumes)\n\n # Labels for metric grouping\n job_id_label = DockerParameter('label', 'scale-job-id={}'.format(job_exe.job_id))\n job_execution_id_label = DockerParameter('label', 'scale-job-execution-id={}'.format(job_exe.exe_num))\n job_type_name_label = DockerParameter('label', 'scale-job-type-name={}'.format(job_type.name))\n job_type_version_label = DockerParameter('label', 'scale-job-type-version={}'.format(job_type.version))\n main_label = DockerParameter('label', 'scale-task-type=main')\n if nvidia_docker_label:\n nvidia_runtime_param = DockerParameter('runtime', 'nvidia')\n config.add_to_task('main', docker_params=[job_id_label, job_type_name_label, job_type_version_label,\n job_execution_id_label, main_label, nvidia_docker_label, nvidia_runtime_param])\n else:\n config.add_to_task('main', docker_params=[job_id_label, job_type_name_label, job_type_version_label,\n job_execution_id_label, main_label])\n\n if not job_type.is_system:\n pre_label = DockerParameter('label', 'scale-task-type=pre')\n post_label = DockerParameter('label', 'scale-task-type=post')\n config.add_to_task('pre', docker_params=[job_id_label, job_type_name_label, job_type_version_label,\n job_execution_id_label, pre_label])\n config.add_to_task('post', docker_params=[job_id_label, job_type_name_label, job_type_version_label,\n job_execution_id_label, post_label])\n\n # Configure tasks for logging\n if settings.LOGGING_ADDRESS is not None:\n log_driver = DockerParameter('log-driver', 'fluentd')\n fluent_precision = DockerParameter('log-opt', 'fluentd-sub-second-precision=true')\n log_address = DockerParameter('log-opt', 'fluentd-address=%s' % settings.LOGGING_ADDRESS)\n if not job_type.is_system:\n pre_task_tag = DockerParameter('log-opt', 'tag=%s|%s|%s|%s|%s' % (config.get_task_id('pre'),\n job_type.name,\n job_type.version,\n job_exe.job_id,\n job_exe.exe_num))\n config.add_to_task('pre', docker_params=[log_driver, fluent_precision, log_address, pre_task_tag])\n post_task_tag = DockerParameter('log-opt', 'tag=%s|%s|%s|%s|%s' % (config.get_task_id('post'),\n job_type.name,\n job_type.version,\n job_exe.job_id,\n job_exe.exe_num))\n config.add_to_task('post', docker_params=[log_driver, fluent_precision, log_address, post_task_tag])\n # TODO: remove es_urls parameter when Scale no longer supports old style job types\n\n # Post task needs ElasticSearch URL to grab logs for old artifact registration\n es_param = DockerParameter('env', 'ELASTICSEARCH_URL=%s' % settings.ELASTICSEARCH_URL)\n config.add_to_task('post', docker_params=[es_param])\n main_task_tag = DockerParameter('log-opt', 'tag=%s|%s|%s|%s|%s' % (config.get_task_id('main'),\n job_type.name,\n job_type.version,\n job_exe.job_id,\n job_exe.exe_num))\n config.add_to_task('main', docker_params=[log_driver, fluent_precision, log_address, main_task_tag])",
"def _initJobs(self):\n pass",
"def __setJobParam( self, name, value ):\n if not self.jobID:\n return S_ERROR( 'JobID not defined' )\n\n self.log.verbose( 'setJobParameter(%s, %s, %s)' % ( self.jobID, name, value ) )\n return RPCClient( 'WorkloadManagement/JobStateUpdate', timeout = 120 ).setJobParameter( int( self.jobID ), str( name ), str( value ) )",
"def set_run(self, mpi=\"\", server=\"pbs\", jobname=\"calypso\", nodes=1, ppn=32, queue=None):\n self.run_params[\"server\"] = server\n self.run_params[\"mpi\"] = mpi\n self.run_params[\"jobname\"] = jobname\n self.run_params[\"nodes\"] = nodes\n self.run_params[\"ppn\"] = ppn\n self.run_params[\"queue\"] = queue",
"def __init__(self, settings, ui_id, job_id):\n # Call the original constructor\n super().__init__(settings, ui_id, job_id)\n\n # Set the local template\n self.local_template = 'settings/bilby_local.sh'\n # Set our job parameter path\n self.job_parameter_file = os.path.join(self.get_working_directory(), 'json_params.json')\n # Set the job output directory\n self.job_output_directory = os.path.join(self.get_working_directory(), 'output')",
"def _set_grid_params(self, param_grid, grid_search_args):\n \n # If key word arguments for the grid search are included in the request, get the parameters and values\n if len(grid_search_args) > 0:\n # Transform the string of arguments into a dictionary\n grid_search_args = utils.get_kwargs(grid_search_args)\n \n # Get the metric parameters, converting values to the correct data type\n self.model.grid_search_args = utils.get_kwargs_by_type(grid_search_args)\n\n # The refit parameter must be True, so this is ignored if passed in the arguments\n self.model.grid_search_args[\"refit\"] = True\n else:\n self.model.grid_search_args = {}\n \n # If key word arguments for the grid search are included in the request, get the parameters and values\n if len(param_grid) > 0:\n # Transform the parameter grid dataframe into a list of dictionaries\n self.model.param_grid = list(param_grid.apply(utils.get_kwargs).apply(utils.get_kwargs_by_type))\n else:\n err = \"An empty string is not a valid input for the param_grid argument\"\n raise Exception(err)\n \n # Debug information is printed to the terminal and logs if the paramater debug = true\n if self.model.debug:\n self._print_log(9)",
"def jobs(self, jobs):\n self._jobs = jobs",
"def update_job_state(self, job):",
"def _handleInput(self, paramInput):\n super()._handleInput(paramInput)\n settings, notFound = paramInput.findNodesAndExtractValues(['n_jobs'])\n # notFound must be empty\n assert(not notFound)\n self.settings = settings",
"def setProfileJobs(self,profile=False):\n self.__profileJobs = profile",
"def update_parallel_settings(self, key, value):\n\n if key in self._parallel_settings:\n self._parallel_settings[key] = value\n else:\n print(\"key does not exist!! keys include: {flnm , job_name , machine, partition, nodes ,ppn, max_time , ncore, kpar}\")",
"async def settings(self, ctx: BBContext):\n pass",
"def _configure_regular_job(config, job_exe, job_type, system_logging_level):\n config.create_tasks(['pull', 'pre', 'main', 'post'])\n config.add_to_task('pull', args=create_pull_command(job_exe.docker_image))\n config.add_to_task('pre', args=PRE_TASK_COMMAND_ARGS)\n config.add_to_task('post', args=POST_TASK_COMMAND_ARGS)\n\n # Configure input workspaces\n ro_input_workspaces = {}\n rw_input_workspaces = {}\n for input_workspace in config.get_input_workspace_names():\n ro_input_workspaces[input_workspace] = TaskWorkspace(input_workspace, MODE_RO)\n rw_input_workspaces[input_workspace] = TaskWorkspace(input_workspace, MODE_RW)\n config.add_to_task('pre', workspaces=ro_input_workspaces)\n config.add_to_task('main', workspaces=ro_input_workspaces)\n # Post tasks have access to input workspaces in case input files need moved as part of parse results\n config.add_to_task('post', workspaces=rw_input_workspaces)\n\n # Configure output workspaces\n output_workspaces = {}\n for output_workspace in config.get_output_workspace_names():\n output_workspaces[output_workspace] = TaskWorkspace(output_workspace, MODE_RW)\n config.add_to_task('post', workspaces=output_workspaces)\n\n # Configure input/output mounts\n input_mnt_name = 'scale_input_mount'\n output_mnt_name = 'scale_output_mount'\n input_vol_name = get_job_exe_input_vol_name(job_exe)\n output_vol_name = get_job_exe_output_vol_name(job_exe)\n input_vol_ro = Volume(input_vol_name, SCALE_JOB_EXE_INPUT_PATH, MODE_RO, is_host=False)\n input_vol_rw = Volume(input_vol_name, SCALE_JOB_EXE_INPUT_PATH, MODE_RW, is_host=False)\n output_vol_ro = Volume(output_vol_name, SCALE_JOB_EXE_OUTPUT_PATH, MODE_RO, is_host=False)\n output_vol_rw = Volume(output_vol_name, SCALE_JOB_EXE_OUTPUT_PATH, MODE_RW, is_host=False)\n\n config.add_to_task('pre', mount_volumes={input_mnt_name: input_vol_rw, output_mnt_name: output_vol_rw},\n env_vars={'SYSTEM_LOGGING_LEVEL': system_logging_level})\n config.add_to_task('main', mount_volumes={input_mnt_name: input_vol_ro, output_mnt_name: output_vol_rw})\n config.add_to_task('post', mount_volumes={output_mnt_name: output_vol_ro},\n env_vars={'SYSTEM_LOGGING_LEVEL': system_logging_level})\n\n\n # Configure output directory\n env_vars = {'OUTPUT_DIR': SCALE_JOB_EXE_OUTPUT_PATH, 'INPUT_METADATA': SCALE_INPUT_METADATA_PATH}\n args = config._get_task_dict('main')['args']\n\n args = environment_expansion(env_vars, args)\n\n config.add_to_task('main', args=args, env_vars=env_vars)\n\n # Configure task resources\n resources = job_exe.get_resources()\n # Pull-task and pre-task require full amount of resources\n config.add_to_task('pull', resources=resources)\n config.add_to_task('pre', resources=resources)\n # Main-task no longer requires the input file space\n resources.subtract(NodeResources([Disk(job_exe.input_file_size)]))\n config.add_to_task('main', resources=resources)\n # Post-task no longer requires any disk space\n resources.remove_resource('disk')\n config.add_to_task('post', resources=resources)",
"def _localWhatDoINeed(self):\n gridDict = Grid._localWhatDoINeed(self)\n gridDict['internal'] = [(None,'jobHandler')]\n\n return gridDict",
"def __call__(self):\n\n self.initialise()\n\n # //\n # // ToDo: Add exception wrappers for plugin calls\n #//\n subJobs = TrackerDB.getJobsByState(\"submitted\", self.cooloff)\n self.updateSubmitted(*subJobs.keys())\n runningJobs = TrackerDB.getJobsByState(\"running\")\n self.updateRunning(*runningJobs.keys())\n completeJobs = TrackerDB.getJobsByState(\"complete\")\n self.updateComplete(*completeJobs.keys())\n failedJobs = TrackerDB.getJobsByState(\"failed\")\n self.updateFailed(*failedJobs.keys())\n self.cleanup()\n\n return",
"def set_param_grid(self):\n\n # Interpret the request data based on the expected row and column structure\n row_template = ['strData', 'strData', 'strData']\n col_headers = ['model_name', 'estimator_args', 'grid_search_args']\n \n # Create a Pandas Data Frame for the request data\n self.request_df = utils.request_df(self.request, row_template, col_headers)\n \n # Initialize the persistent model\n self.model = PersistentModel()\n \n # Get the model name from the request dataframe\n self.model.name = self.request_df.loc[0, 'model_name']\n \n # Get the estimator's hyperparameter grid from the request dataframe\n param_grid = self.request_df.loc[:, 'estimator_args']\n\n # Get the grid search arguments from the request dataframe\n grid_search_args = self.request_df.loc[0, 'grid_search_args']\n\n # Get the model from cache or disk\n self._get_model()\n \n # Debug information is printed to the terminal and logs if the paramater debug = true\n if self.model.debug:\n self._print_log(3)\n\n self._set_grid_params(param_grid, grid_search_args)\n \n # Persist the model to disk\n self.model = self.model.save(self.model.name, self.path, overwrite=self.model.overwrite, compress=self.model.compress)\n \n # Update the cache to keep this model in memory\n self._update_cache()\n \n # Prepare the output\n message = [[self.model.name, 'Hyperparameter grid successfully saved to disk',\\\n time.strftime('%X %x %Z', time.localtime(self.model.state_timestamp))]]\n self.response = pd.DataFrame(message, columns=['model_name', 'result', 'time_stamp'])\n \n # Send the reponse table description to Qlik\n self._send_table_description(\"setup\")\n \n # Debug information is printed to the terminal and logs if the paramater debug = true\n if self.model.debug:\n self._print_log(4)\n \n # Finally send the response\n return self.response",
"def set_wrapper(bot, update, args, job_queue, chat_data):\n chat_id = update.message.chat_id\n try:\n # args[0] should contain the time for the timer in seconds\n due = int(args[1])\n if due < 0:\n update.message.reply_text('Sorry we can not go back to future!')\n return\n\n job_name = args[0]\n if job_name not in settings.JOBS:\n update.message.reply_text(\n 'Sorry {0} is not a valid job'.format(job_name))\n return\n\n # Add job to queue\n job_queue.run_repeating(logparser_job, due, name=job_name, context=chat_id)\n\n update.message.reply_text('{0} job set!'.format(job_name))\n\n except (IndexError, ValueError):\n update.message.reply_text('Usage: /set <job_name> <seconds>')",
"def work(self, job):\n pass",
"def __call__(self):\n self.logger.info(\"Executing SetupCMSSWPSet...\")\n self.jobBag = self.job.getBaggage()\n\n scenario = getattr(self.step.data.application.configuration, \"scenario\", None)\n if scenario is not None and scenario != \"\":\n self.logger.info(\"Setting up job scenario/process\")\n funcName = getattr(self.step.data.application.configuration, \"function\", None)\n if getattr(self.step.data.application.configuration, \"pickledarguments\", None) is not None:\n funcArgs = pickle.loads(self.step.data.application.configuration.pickledarguments)\n else:\n funcArgs = {}\n try:\n self.createProcess(scenario, funcName, funcArgs)\n except Exception as ex:\n self.logger.exception(\"Error creating process for Config/DataProcessing:\")\n raise ex\n\n if funcName == \"repack\":\n self.handleRepackSettings()\n\n if funcName in [\"merge\", \"alcaHarvesting\"]:\n self.handleSingleCoreOverride()\n\n if socket.getfqdn().endswith(\"cern.ch\"):\n self.handleSpecialCERNMergeSettings(funcName)\n\n else:\n try:\n self.loadPSet()\n except Exception as ex:\n self.logger.exception(\"Error loading PSet:\")\n raise ex\n\n # Check process.source exists\n if getattr(self.process, \"source\", None) is None:\n msg = \"Error in CMSSW PSet: process is missing attribute 'source'\"\n msg += \" or process.source is defined with None value.\"\n self.logger.error(msg)\n raise RuntimeError(msg)\n\n self.handleCondorStatusService()\n\n self.fixupProcess()\n\n # In case of CRAB3, the number of threads in the PSet should not be overridden\n if not self.crabPSet:\n try:\n origCores = int(getattr(self.step.data.application.multicore, 'numberOfCores', 1))\n eventStreams = int(getattr(self.step.data.application.multicore, 'eventStreams', 0))\n resources = {'cores': origCores}\n resizeResources(resources)\n numCores = resources['cores']\n if numCores != origCores:\n self.logger.info(\n \"Resizing a job with nStreams != nCores. Setting nStreams = nCores. This may end badly.\")\n eventStreams = 0\n options = getattr(self.process, \"options\", None)\n if options is None:\n self.process.options = cms.untracked.PSet()\n options = getattr(self.process, \"options\")\n options.numberOfThreads = cms.untracked.uint32(numCores)\n options.numberOfStreams = cms.untracked.uint32(eventStreams)\n except AttributeError as ex:\n self.logger.error(\"Failed to override numberOfThreads: %s\", str(ex))\n\n psetTweak = getattr(self.step.data.application.command, \"psetTweak\", None)\n if psetTweak is not None:\n self.applyPSetTweak(psetTweak, self.fixupDict)\n\n # Apply task level tweaks\n taskTweak = makeTaskTweak(self.step.data)\n applyTweak(self.process, taskTweak, self.fixupDict)\n\n # Check if chained processing is enabled\n # If not - apply the per job tweaks\n # If so - create an override TFC (like done in PA) and then modify thePSet accordingly\n if hasattr(self.step.data.input, \"chainedProcessing\") and self.step.data.input.chainedProcessing:\n self.handleChainedProcessing()\n else:\n # Apply per job PSet Tweaks\n jobTweak = makeJobTweak(self.job)\n applyTweak(self.process, jobTweak, self.fixupDict)\n\n # check for pileup settings presence, pileup support implementation\n # and if enabled, process pileup configuration / settings\n if hasattr(self.step.data, \"pileup\"):\n self.handlePileup()\n\n # Apply per output module PSet Tweaks\n cmsswStep = self.step.getTypeHelper()\n for om in cmsswStep.listOutputModules():\n mod = cmsswStep.getOutputModule(om)\n outTweak = makeOutputTweak(mod, self.job)\n applyTweak(self.process, outTweak, self.fixupDict)\n\n # revlimiter for testing\n if getattr(self.step.data.application.command, \"oneEventMode\", False):\n self.process.maxEvents.input = 1\n\n # check for random seeds and the method of seeding which is in the job baggage\n self.handleSeeding()\n\n # make sure default parametersets for perf reports are installed\n self.handlePerformanceSettings()\n\n # check for event numbers in the producers\n self.handleProducersNumberOfEvents()\n\n # fixup the dqmFileSaver\n self.handleDQMFileSaver()\n\n # tweak for jobs reading LHE articles from CERN\n self.handleLHEInput()\n\n # tweak jobs for enforceGUIDInFileName\n self.handleEnforceGUIDInFileName()\n\n # Check if we accept skipping bad files\n if hasattr(self.step.data.application.configuration, \"skipBadFiles\"):\n self.process.source.skipBadFiles = \\\n cms.untracked.bool(self.step.data.application.configuration.skipBadFiles)\n\n # Apply events per lumi section if available\n if hasattr(self.step.data.application.configuration, \"eventsPerLumi\"):\n self.process.source.numberEventsInLuminosityBlock = \\\n cms.untracked.uint32(self.step.data.application.configuration.eventsPerLumi)\n\n # limit run time if desired\n if hasattr(self.step.data.application.configuration, \"maxSecondsUntilRampdown\"):\n self.process.maxSecondsUntilRampdown = cms.untracked.PSet(\n input=cms.untracked.int32(self.step.data.application.configuration.maxSecondsUntilRampdown))\n\n # accept an overridden TFC from the step\n if hasattr(self.step.data.application, 'overrideCatalog'):\n self.logger.info(\"Found a TFC override: %s\", self.step.data.application.overrideCatalog)\n self.process.source.overrideCatalog = \\\n cms.untracked.string(self.step.data.application.overrideCatalog)\n\n configFile = self.step.data.application.command.configuration\n configPickle = getattr(self.step.data.application.command, \"configurationPickle\", \"PSet.pkl\")\n workingDir = self.stepSpace.location\n try:\n with open(\"%s/%s\" % (workingDir, configPickle), 'wb') as pHandle:\n pickle.dump(self.process, pHandle)\n\n with open(\"%s/%s\" % (workingDir, configFile), 'w') as handle:\n handle.write(\"import FWCore.ParameterSet.Config as cms\\n\")\n handle.write(\"import pickle\\n\")\n handle.write(\"with open('%s', 'rb') as handle:\\n\" % configPickle)\n handle.write(\" process = pickle.load(handle)\\n\")\n except Exception as ex:\n self.logger.exception(\"Error writing out PSet:\")\n raise ex\n self.logger.info(\"CMSSW PSet setup completed!\")\n\n return 0",
"def set_cpus(self, num_cpus: int) -> None:\n if self.batch:\n if self.launcher in [\"pbs\", \"cobalt\"]:\n if hasattr(self, \"batch_settings\") and self.batch_settings:\n if hasattr(self.batch_settings, \"set_ncpus\"):\n self.batch_settings.set_ncpus(num_cpus)\n if self.launcher == \"slurm\":\n if hasattr(self, \"batch_settings\") and self.batch_settings:\n if hasattr(self.batch_settings, \"set_cpus_per_task\"):\n self.batch_settings.set_cpus_per_task(num_cpus)\n\n for db in self.dbnodes:\n db.run_settings.set_cpus_per_task(num_cpus)\n if db.is_mpmd and hasattr(db.run_settings, \"mpmd\"):\n for mpmd in db.run_settings.mpmd:\n mpmd.set_cpus_per_task(num_cpus)",
"def modify_job(self, job, parameter):\n job.set_encut(parameter[0])\n job.set_kpoints(parameter[1])\n return job",
"def settings(self, kwargs=None):\n # Create sublayout\n setting_layout = QGridLayout()\n\n # Frame over the objects\n frame = QLabel()\n frame.setFrameStyle(QFrame.Box | QFrame.Raised)\n frame.setLineWidth(0)\n frame.setMidLineWidth(2)\n\n self.layout.addWidget(\n frame, self.Start_posy, self.Start_posx, self.Start_ysize, self.Start_xsize\n )\n\n self.layout.addWidget(\n frame, self.proj_posy, self.proj_posx, self.proj_ysize, self.proj_xsize\n )\n\n # Order functions\n def change_name(filename):\n self.variables.default_values_dict[\"settings\"][\"Current_filename\"] = str(\n filename\n )\n\n def project_selector_action(project):\n load_valid_sensors_for_project(str(project))\n self.variables.default_values_dict[\"settings\"][\"Current_project\"] = str(\n project\n )\n\n def sensor_selector_action(sensor):\n self.variables.default_values_dict[\"settings\"][\"Current_sensor\"] = str(\n sensor\n )\n\n def operator_selector_action(operator):\n self.variables.default_values_dict[\"settings\"][\"Current_operator\"] = str(\n operator\n )\n\n def dir_selector_action():\n fileDialog = QFileDialog()\n directory = fileDialog.getExistingDirectory()\n dir_textbox.setText(directory)\n self.variables.default_values_dict[\"settings\"][\"Current_directory\"] = str(\n directory\n )\n\n def load_measurement_settings_file():\n \"\"\" This function loads a mesuerment settings file\"\"\"\n\n # First update the settings that the state machine is up to date\n self.variables.ui_plugins[\"Settings_window\"].load_new_settings()\n\n fileDialog = QFileDialog()\n file = fileDialog.getOpenFileName()\n\n if file[0]:\n file = open(str(file[0]), \"r\")\n dict = yaml.load(file)\n file.close()\n\n # l.info(\"Loaded new measurement settings file: \" + str(file[0]))\n self.variables.default_values_dict[\"settings\"].update(\n dict\n ) # Updates the values of the dict, it either updates the values or adds them if not incluced\n self.variables.ui_plugins[\"Settings_window\"].configure_settings()\n\n @raise_exception\n def save_measurement_settings_file(kwargs=None):\n \"\"\" This function saves a mesuerment settings file\"\"\"\n\n # First update the settings that the state machine is up to date\n self.variables.ui_plugins[\"Settings_window\"].load_new_settings()\n\n fileDialog = QFileDialog()\n file = fileDialog.getSaveFileName()\n\n if file[0]:\n # gets me all settings which are to be saved\n write_init_file(\n file[0],\n self.variables.ui_plugins[\"Settings_window\"].get_all_settings(),\n )\n self.log.info(\"Settings file successfully written to: \" + str(file))\n\n def load_valid_sensors_for_project(project_name):\n \"\"\"This function loads the valid sensors for each project\"\"\"\n # Warning sensor_comboBox must be accessable for this function to work\n sensor_comboBox.clear()\n try:\n # self.variables.default_values_dict[\"settings\"][\"Sensor_types\"][project_name]\n sensor_comboBox.addItems(\n list(self.variables.pad_files_dict[project_name].keys())\n ) # Adds all items to the combo box\n # Select the first element to be right, if possible\n self.variables.default_values_dict[\"settings\"][\n \"Current_sensor\"\n ] = sensor_comboBox.currentText()\n\n except:\n self.log.error(\"No sensors defined for project: \" + str(project_name))\n self.variables.default_values_dict[\"settings\"][\n \"Current_sensor\"\n ] = \"None\"\n\n # Project selector\n # Label of the Error Log\n proj_label = QLabel()\n proj_label.setText(\"Select project\")\n proj_label.setFont(self.font)\n\n proj_comboBox = QComboBox() # Creates a combo box\n\n for projects in self.variables.pad_files_dict:\n proj_comboBox.addItem(str(projects)) # Adds all projects to the combo box\n proj_comboBox.activated[str].connect(project_selector_action)\n\n if \"Current_project\" in self.variables.default_values_dict[\"settings\"]:\n self.variables.default_values_dict[\"settings\"][\"Current_project\"] = list(\n self.variables.pad_files_dict.keys()\n )[\n 0\n ] # That one project is definetly choosen\n else:\n self.variables.default_values_dict[\"settings\"].update(\n {\n \"Current_project\": self.variables.default_values_dict[\n \"settings\"\n ].get(\"Projects\", [\"No Projects\"])[0]\n }\n )\n\n # Sensore selection\n\n # Label of the sensor selector\n sensor_label = QLabel()\n sensor_label.setText(\"Select sensor\")\n sensor_label.setFont(self.font)\n\n sensor_comboBox = QComboBox() # Creates a combo box\n\n current_project = self.variables.default_values_dict[\"settings\"].get(\n \"Current_project\", None\n )\n sensor_comboBox.addItems(\n self.variables.pad_files_dict[current_project]\n ) # Adds all items to the combo box\n sensor_comboBox.activated[str].connect(sensor_selector_action)\n\n if \"Current_sensor\" in self.variables.default_values_dict[\"settings\"]:\n try:\n self.variables.default_values_dict[\"settings\"][\"Current_sensor\"] = list(\n self.variables.pad_files_dict[current_project]\n )[\n 0\n ] # That one project is definetly choosen\n except:\n self.variables.default_values_dict[\"settings\"][\n \"Current_sensor\"\n ] = \"None\"\n else:\n if current_project and self.variables.pad_files_dict:\n self.variables.default_values_dict[\"settings\"].update(\n {\n \"Current_sensor\": list(\n self.variables.pad_files_dict[current_project]\n )[0]\n }\n )\n else:\n self.variables.default_values_dict[\"settings\"].update(\n {\"Current_sensor\": \"None\"}\n )\n # Measurement name selection\n\n # Label of the input file\n\n inp_label = QLabel()\n inp_label.setText(\"Output filename\")\n inp_label.setFont(self.font)\n\n inp_input_name = QLineEdit()\n inp_input_name.textChanged.connect(change_name)\n # inp_input_name.setMaximumWidth(300)\n\n if \"Current_filename\" in self.variables.default_values_dict[\"settings\"]:\n inp_input_name.setText(\n str(self.variables.default_values_dict[\"settings\"][\"Current_filename\"])\n )\n else:\n self.variables.default_values_dict[\"settings\"].update(\n {\"Current_filename\": \"enter_filename_here\"}\n )\n inp_input_name.setText(\n str(self.variables.default_values_dict[\"settings\"][\"Current_filename\"])\n )\n\n # Operator selector\n\n # Label of the Operator\n op_label = QLabel()\n op_label.setText(\"Select Operator\")\n op_label.setFont(self.font)\n\n op_comboBox = QComboBox() # Creates a combo box\n\n for projects in self.variables.default_values_dict[\"settings\"].get(\n \"Operator\", \"None\"\n ):\n op_comboBox.addItem(str(projects)) # Adds all items to the combo box\n\n op_comboBox.activated[str].connect(operator_selector_action)\n\n if \"Current_operator\" in self.variables.default_values_dict[\"settings\"]:\n self.variables.default_values_dict[\"settings\"][\n \"Current_operator\"\n ] = self.variables.default_values_dict[\"settings\"][\"Operator\"][\n 0\n ] # That one project is definetly choosen\n else:\n self.variables.default_values_dict[\"settings\"].update(\n {\n \"Current_operator\": self.variables.default_values_dict[\n \"settings\"\n ].get(\"Operator\", [\"None\",])[0]\n }\n )\n\n # Save path selector\n\n # Save button\n save_to_btn = QPushButton(\"Save to\")\n save_to_btn.clicked.connect(dir_selector_action)\n save_to_btn.resize(save_to_btn.sizeHint())\n\n # Appearance of the Error Log\n dir_textbox = QLabel()\n dir_textbox.setStyleSheet(\"background : rgb(245,245,245)\")\n dir_textbox.setFrameStyle(QFrame.Panel | QFrame.Sunken)\n dir_textbox.setMinimumHeight(25)\n dir_textbox.setMinimumWidth(700)\n # dir_textbox.setMaximumHeight(25)\n # dir_textbox.setMaximumWidth(700)\n\n if (\n \"Current_directory\" in self.variables.default_values_dict[\"settings\"]\n ): # TODO check if directory exists\n dir_textbox.setText(\n str(self.variables.default_values_dict[\"settings\"][\"Current_directory\"])\n )\n else:\n self.variables.default_values_dict[\"settings\"].update(\n {\n \"Current_directory\": str(\n osp.join(osp.dirname(sys.modules[__name__].__file__))\n )\n }\n )\n dir_textbox.setText(\n str(osp.join(osp.dirname(sys.modules[__name__].__file__)))\n )\n\n # Default file loader\n file_load_btn = QPushButton(\"Load settings file\")\n file_load_btn.clicked.connect(load_measurement_settings_file)\n file_load_btn.resize(file_load_btn.sizeHint())\n\n # Save default file\n save_file_btn = QPushButton(\"Save settings file\")\n save_file_btn.clicked.connect(save_measurement_settings_file)\n save_file_btn.resize(save_file_btn.sizeHint())\n\n # Adding all widgets to the sublayout\n # setting_layout.addWidget(frame,0,0,4,4)\n setting_layout.addWidget(proj_label, 0, 0)\n setting_layout.addWidget(proj_comboBox, 1, 0)\n setting_layout.addWidget(sensor_label, 0, 1)\n setting_layout.addWidget(sensor_comboBox, 1, 1)\n setting_layout.addWidget(inp_label, 0, 2)\n setting_layout.addWidget(inp_input_name, 1, 2)\n setting_layout.addWidget(op_label, 0, 3)\n setting_layout.addWidget(op_comboBox, 1, 3)\n setting_layout.addWidget(save_to_btn, 2, 0)\n setting_layout.addWidget(dir_textbox, 2, 1, 0, 3)\n setting_layout.addWidget(file_load_btn, 3, 0)\n setting_layout.addWidget(save_file_btn, 3, 1)\n\n setting_layout.setContentsMargins(8, 8, 8, 8) # Makes a margin to the layout\n\n # Add the layout to the main layout\n self.layout.addLayout(\n setting_layout,\n self.proj_posy,\n self.proj_posx,\n self.proj_ysize,\n self.proj_xsize,\n )",
"def set_grid(self,ug):\n self.grd=ug\n self.set_topology()",
"def set_buy_and_sell_management_grid_settings(self, grid_settings):\n self.set_grid_settings(self.buy_and_sell_management_grid_div_id, grid_settings)",
"def configure_queued_job(self, job):\n\n config = ExecutionConfiguration()\n data = job.get_job_data()\n\n # Add input file meta-data\n input_files_dict = self._create_input_file_dict(data)\n config.set_input_files(input_files_dict)\n\n # Set up env vars for job's input data\n input_values = data.get_injected_input_values(input_files_dict)\n interface = job.job_type_rev.get_input_interface()\n\n env_vars = {}\n if isinstance(data, JobData):\n # call job.data.job_data.JobData.get_injected_env_vars\n env_vars = data.get_injected_env_vars(input_files_dict, interface)\n else:\n # call old job.configuration.data.job_data.get_injected_env_vars\n # TODO: remove once old JobData class is no longer used\n env_vars = data.get_injected_env_vars(input_files_dict)\n\n task_workspaces = {}\n if job.job_type.is_system:\n # Add any workspaces needed for this system job\n task_workspaces = QueuedExecutionConfigurator._system_job_workspaces(job)\n else:\n # Set any output workspaces needed\n output_workspaces = {}\n if job.input and 'version' in job.input and job.input['version'] == '1.0':\n # Set output workspaces using legacy job data\n self._cache_workspace_names(data.get_output_workspace_ids())\n output_workspaces = {}\n for output, workspace_id in data.get_output_workspaces().items():\n output_workspaces[output] = self._cached_workspace_names[workspace_id]\n config.set_output_workspaces(output_workspaces)\n if not output_workspaces:\n # Set output workspaces from job configuration\n output_workspaces = {}\n job_config = job.get_job_configuration()\n interface = SeedManifest(job.job_type_rev.manifest, do_validate=False)\n for output_name in interface.get_file_output_names():\n output_workspace = job_config.get_output_workspace(output_name)\n if output_workspace:\n output_workspaces[output_name] = output_workspace\n config.set_output_workspaces(output_workspaces)\n\n # Create main task with fields populated from input data\n args = job.get_job_interface().get_injected_command_args(input_values, env_vars)\n config.create_tasks(['main'])\n config.add_to_task('main', args=args, env_vars=env_vars, workspaces=task_workspaces)\n return config",
"def set_num_jobs(self, num):\n self.num_jobs = num",
"def set_defaults(context: CreateCommandsContext):\n job_default_parameters: List[\n Parameter\n ] = context.settings.job_default_parameters\n logger.info(\n \"Please set default rows current value shown in [brackets]. Pressing enter\"\n \" without input will keep current value\"\n )\n try:\n project_name = click.prompt(\n \"Please enter default IDIS project name:\",\n show_default=True,\n default=job_default_parameters.project_name,\n )\n\n destination_path = click.prompt(\n \"Please enter default job destination directory:\",\n show_default=True,\n default=job_default_parameters.destination_path,\n )\n except Abort:\n logger.info(\"Cancelled\")\n\n job_default_parameters.project_name = project_name\n job_default_parameters.destination_path = destination_path\n context.settings.save_to()\n logger.info(\"Saved\")",
"def jobs(self):\n raise NotImplementedError()",
"def set_mpi_procs(self, mpi_procs):\n super(SlurmAdapter, self).set_mpi_procs(mpi_procs)\n self.qparams[\"ntasks\"] = mpi_procs",
"def __selectJobsSetup(self):\n\n select_btn = QtWidgets.QPushButton(\"Select:\")\n select_btn.setFocusPolicy(QtCore.Qt.NoFocus)\n self.__toolbar.addWidget(select_btn)\n select_btn.clicked.connect(self.__selectJobsHandle) # pylint: disable=no-member\n\n self._selectJobsEditBox = JobSelectEditBox(self)\n self.__toolbar.addWidget(self._selectJobsEditBox)\n self._selectJobsEditBox.returnPressed.connect(self.__selectJobsHandle) # pylint: disable=no-member\n\n clear_btn = QtWidgets.QPushButton(\"Clr\")\n clear_btn.setFocusPolicy(QtCore.Qt.NoFocus)\n clear_btn.setFixedWidth(24)\n self.__toolbar.addWidget(clear_btn)\n clear_btn.clicked.connect(self._selectJobsEditBox.actionClear) # pylint: disable=no-member\n\n mine_btn = QtWidgets.QPushButton(\"selectMine\")\n mine_btn.setFocusPolicy(QtCore.Qt.NoFocus)\n mine_btn.setFixedWidth(70)\n self.__toolbar.addWidget(mine_btn)\n mine_btn.clicked.connect(self.__selectJobsHandleMine) # pylint: disable=no-member"
] | [
"0.61739016",
"0.6151568",
"0.6081769",
"0.60082245",
"0.6001652",
"0.5927691",
"0.5907449",
"0.5892299",
"0.58527696",
"0.58349967",
"0.57830405",
"0.5698397",
"0.5697524",
"0.5665838",
"0.56334406",
"0.5600885",
"0.55846906",
"0.55147785",
"0.5476766",
"0.5457075",
"0.5449475",
"0.5440478",
"0.54333943",
"0.541836",
"0.54181486",
"0.5413637",
"0.54132277",
"0.5392284",
"0.53860646",
"0.5376275"
] | 0.8120103 | 0 |
Implementing click reference rates show search form link functionality | def click_reference_rates_show_search_form_link(self):
self.click_element(self.reference_rates_show_search_form_link_locator) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def click_search_ref_rates_arrow_button(self):\n self.click_element(self.search_ref_rates_arrow_button_locator)",
"def requestShowLink(self, *args, **kwargs): # real signature unknown\n pass",
"def hyperlink_search(request):\n\tip = get_ip(request, right_most_proxy=True)\n\tIpAddressInformation.objects.create(ip_address=ip)\n\tif 'UniProtKB Accession' in request.GET and request.GET['UniProtKB Accession'] or \\\n\t'Protein' in request.GET and request.GET['Protein'] or \\\n\t'Gene' in request.GET and request.GET['Gene'] or \\\n\t'Organism' in request.GET and request.GET['Organism'] or \\\n\t'Organismid' in request.GET and request.GET['Organismid'] or \\\n\t'SubCellular' in request.GET and request.GET['SubCellular'] or \\\n\t'Peptide Sequence' in request.GET and request.GET['Peptide Sequence'] or \\\n\t'Pathway Name' in request.GET and request.GET['Pathway Name'] or \\\n\t'Disease Name' in request.GET and request.GET['Disease Name'] or \\\n\t'Go ID' in request.GET and request.GET['Go ID'] or \\\n\t'Go Name' in request.GET and request.GET['Go Name'] or \\\n\t'Go Term' in request.GET and request.GET['Go Term'] or \\\n\t'AssayFdaApproveMark' in request.GET and request.GET['AssayFdaApproveMark']:\n\t\tuseruniprotkb =\"\"\n\t\tuserprotein =\"\"\n\t\tusergeneid =\"\"\n\t\tuserorg=\"\"\n\t\tuserorgid=\"\"\n\t\tusersubcell =\"\"\n\t\tuserpepseq =\"\"\n\t\tuserpathway =\"\"\n\t\tuserdis =\"\"\n\t\tusergoid =\"\"\n\t\tusergotn =\"\"\n\t\tusergot=\"\"\n\t\tuserassayfdaapprovemark=\"\"\n\t\tfinalsearhdata=''\n\t\ttry:\n\t\t\tuseruniprotkb = request.GET[\"UniProtKB Accession\"]\n\t\texcept MultiValueDictKeyError:\n\t\t\tpass\n\t\tif '|' in useruniprotkb:\n\t\t\tuseruniprotkb=(useruniprotkb.strip()).split('|')\n\t\telse:\n\t\t\tuseruniprotkb=(useruniprotkb.strip()).split('\\\\n')\n\t\tuseruniprotkb=[(item.strip()).lower() for item in useruniprotkb]\n\t\tuseruniprotkb=map(str, useruniprotkb)\n\t\tuseruniprotkb=filter(None, useruniprotkb)\n\n\t\ttry:\n\t\t\tuserprotein = request.GET[\"Protein\"]\n\t\texcept MultiValueDictKeyError:\n\t\t\tpass\n\t\tif '|' in userprotein:\n\t\t\tuserprotein=(userprotein.strip()).split('|')\n\t\telse:\n\t\t\tuserprotein=(userprotein.strip()).split('\\\\n')\n\t\tuserprotein=[(item.strip()).lower() for item in userprotein]\n\t\tuserprotein=map(str, userprotein)\n\t\tuserprotein=filter(None, userprotein)\n\n\t\ttry:\n\t\t\tusergeneid = request.GET[\"Gene\"]\n\t\texcept MultiValueDictKeyError:\n\t\t\tpass\n\t\tif '|' in usergeneid:\n\t\t\tusergeneid=(usergeneid.strip()).split('|')\n\t\telse:\n\t\t\tusergeneid=(usergeneid.strip()).split('\\\\n')\n\t\tusergeneid=[(item.strip()).lower() for item in usergeneid]\n\t\tusergeneid=map(str, usergeneid)\n\t\tusergeneid=filter(None, usergeneid)\n\n\t\ttry:\n\t\t\tuserorg = request.GET[\"Organism\"]\n\t\texcept MultiValueDictKeyError:\n\t\t\tpass\n\t\tif '|' in userorg:\n\t\t\tuserorg=(userorg.strip()).split('|')\n\t\telse:\n\t\t\tuserorg=(userorg.strip()).split('\\\\n')\n\t\tuserorg=[(item.strip()).lower() for item in userorg]\n\t\tuserorg=map(str, userorg)\n\t\tuserorg=filter(None, userorg)\n\n\t\ttry:\n\t\t\tuserorgid = request.GET[\"Organismid\"]\n\t\texcept MultiValueDictKeyError:\n\t\t\tpass\n\t\tif '|' in userorgid:\n\t\t\tuserorgid=(userorgid.strip()).split('|')\n\t\telse:\n\t\t\tuserorgid=(userorgid.strip()).split('\\\\n')\n\t\tuserorgid=[(item.strip()).lower() for item in userorgid]\n\t\tuserorgid=map(str, userorgid)\n\t\tuserorgid=filter(None, userorgid)\n\n\t\ttry:\n\t\t\tusersubcell = request.GET[\"SubCellular\"]\n\t\texcept MultiValueDictKeyError:\n\t\t\tpass\n\t\tif '|' in usersubcell:\n\t\t\tusersubcell=(usersubcell.strip()).split('|')\n\t\telse:\n\t\t\tusersubcell=(usersubcell.strip()).split('\\\\n')\n\t\tusersubcell=[(item.strip()).lower() for item in usersubcell]\n\t\tusersubcell=map(str, usersubcell)\n\t\tusersubcell=filter(None, usersubcell)\n\n\t\ttry:\n\t\t\tuserpepseq = request.GET[\"Peptide Sequence\"]\n\t\texcept MultiValueDictKeyError:\n\t\t\tpass\n\t\tif '|' in userpepseq:\n\t\t\tuserpepseq=(userpepseq.strip()).split('|')\n\t\telse:\n\t\t\tuserpepseq=(userpepseq.strip()).split('\\\\n')\n\t\tuserpepseq=[(item.strip()).lower() for item in userpepseq]\n\t\tuserpepseq=map(str, userpepseq)\n\t\tuserpepseq=filter(None, userpepseq)\n\n\t\ttry:\n\t\t\tuserpathway = request.GET[\"Pathway Name\"]\n\t\texcept MultiValueDictKeyError:\n\t\t\tpass\n\t\tif '|' in userpathway:\n\t\t\tuserpathway=(userpathway.strip()).split('|')\n\t\telse:\n\t\t\tuserpathway=(userpathway.strip()).split('\\\\n')\n\t\tuserpathway=[(item.strip()).lower() for item in userpathway]\n\t\tuserpathway=map(str, userpathway)\n\t\tuserpathway=filter(None, userpathway)\n\n\t\ttry:\n\t\t\tuserdis = request.GET[\"Disease Name\"]\n\t\texcept MultiValueDictKeyError:\n\t\t\tpass\n\t\tif '|' in userdis:\n\t\t\tuserdis=(userdis.strip()).split('|')\n\t\telse:\n\t\t\tuserdis=(userdis.strip()).split('\\\\n')\n\t\tuserdis=[(item.strip()).lower() for item in userdis]\n\t\tuserdis=map(str, userdis)\n\t\tuserdis=filter(None, userdis)\n\n\t\ttry:\n\t\t\tusergoid = request.GET[\"Go ID\"]\n\t\texcept MultiValueDictKeyError:\n\t\t\tpass\n\t\tif '|' in usergoid:\n\t\t\tusergoid=(usergoid.strip()).split('|')\n\t\telse:\n\t\t\tusergoid=(usergoid.strip()).split('\\\\n')\n\t\tusergoid=[(item.strip()).lower() for item in usergoid]\n\t\tusergoid=map(str, usergoid)\n\t\tusergoid=filter(None, usergoid)\n\n\t\ttry:\n\t\t\tusergotn = request.GET[\"Go Name\"]\n\t\texcept MultiValueDictKeyError:\n\t\t\tpass\n\t\tif '|' in usergotn:\n\t\t\tusergotn=(usergotn.strip()).split('|')\n\t\telse:\n\t\t\tusergotn=(usergotn.strip()).split('\\\\n')\n\t\tusergotn=[(item.strip()).lower() for item in usergotn]\n\t\tusergotn=map(str, usergotn)\n\t\tusergotn=filter(None, usergotn)\n\n\t\ttry:\n\t\t\tusergot = request.GET[\"Go Term\"]\n\t\texcept MultiValueDictKeyError:\n\t\t\tpass\n\t\tif '|' in usergot:\n\t\t\tusergot=(usergot.strip()).split('|')\n\t\telse:\n\t\t\tusergot=(usergot.strip()).split('\\\\n')\n\t\tusergot=[(item.strip()).lower() for item in usergot]\n\t\tusergot=map(str, usergot)\n\t\tusergot=filter(None, usergot)\n\n\t\ttry:\n\t\t\tuserassayfdaapprovemark = request.GET[\"AssayFdaApproveMark\"]\n\t\texcept MultiValueDictKeyError:\n\t\t\tpass\n\t\tif '|' in userassayfdaapprovemark:\n\t\t\tuserassayfdaapprovemark=(userassayfdaapprovemark.strip()).split('|')\n\t\t\tuserassayfdaapprovemark=list(set(userassayfdaapprovemark))\n\t\telse:\n\t\t\tuserassayfdaapprovemark=(userassayfdaapprovemark.strip()).split('\\\\n')\n\t\t\tuserassayfdaapprovemark=list(set(userassayfdaapprovemark))\n\t\tuserassayfdaapprovemark=[(item.strip()).lower() for item in userassayfdaapprovemark]\n\t\tuserassayfdaapprovemark=map(str, userassayfdaapprovemark)\n\t\tuserassayfdaapprovemark=filter(None, userassayfdaapprovemark)\n\n\t\tspquerylist =[]\n\t\tsearchtermlist=[]\n\n\t\tif len(useruniprotkb) >0:\n\t\t\tfinalsearhdata+='UniProtKB Accession:'+';'.join(useruniprotkb)+' '\n\t\t\tshouldlist=[]\n\t\t\tfor x in useruniprotkb:\n\t\t\t\ttempquery={\n\t\t\t\t\t\t\t\"multi_match\":{\n\t\t\t\t\t\t\t\t\"query\":x.strip(),\n\t\t\t\t\t\t\t\t\"type\":\"best_fields\",\n\t\t\t\t\t\t\t\t\"fields\":[\"UniProtKB Accession.ngram\"],\n\t\t\t\t\t\t\t\t\"minimum_should_match\":\"100%\"\n\t\t\t\t\t\t\t}\n\t\t\t\t\t\t}\n\t\t\t\tshouldlist.append(tempquery)\n\t\t\tbooldic={}\n\t\t\tbooldic[\"bool\"]={\"should\":shouldlist,\"minimum_should_match\": 1}\n\t\t\tsearchtermlist.append(booldic)\n\t\tif len(userprotein)> 0:\n\t\t\tfinalsearhdata+='Protein:'+';'.join(userprotein)+' '\n\t\t\tshouldlist=[]\n\t\t\tfor x in userprotein:\n\t\t\t\ttempquery={\n\t\t\t\t\t\t\t\"multi_match\":{\n\t\t\t\t\t\t\t\t\"query\":x.strip(),\n\t\t\t\t\t\t\t\t\"type\":\"best_fields\",\n\t\t\t\t\t\t\t\t\"fields\":[\"Protein.ngram\"],\n\t\t\t\t\t\t\t\t\"minimum_should_match\":\"100%\"\n\t\t\t\t\t\t\t}\n\t\t\t\t\t\t}\n\t\t\t\tshouldlist.append(tempquery)\n\t\t\tbooldic={}\n\t\t\tbooldic[\"bool\"]={\"should\":shouldlist,\"minimum_should_match\": 1}\n\t\t\tsearchtermlist.append(booldic)\n\t\tif len(usergeneid) >0:\n\t\t\tfinalsearhdata+='Gene:'+';'.join(usergeneid)+' '\n\t\t\tshouldlist=[]\n\t\t\tfor x in usergeneid:\n\t\t\t\ttempquery={\n\t\t\t\t\t\t\t\"multi_match\":{\n\t\t\t\t\t\t\t\t\"query\":x.strip(),\n\t\t\t\t\t\t\t\t\"type\":\"best_fields\",\n\t\t\t\t\t\t\t\t\"fields\":[\"Gene.ngram\"],\n\t\t\t\t\t\t\t\t\"minimum_should_match\":\"100%\"\n\t\t\t\t\t\t\t}\n\t\t\t\t\t\t}\n\t\t\t\tshouldlist.append(tempquery)\n\t\t\tbooldic={}\n\t\t\tbooldic[\"bool\"]={\"should\":shouldlist,\"minimum_should_match\": 1}\n\t\t\tsearchtermlist.append(booldic)\n\t\tif len(userorg) > 0:\n\t\t\tfinalsearhdata+='Organism:'+';'.join(userorg)+' '\n\t\t\tshouldlist=[]\n\t\t\tfor x in userorg:\n\t\t\t\ttempquery={\n\t\t\t\t\t\t\t\"multi_match\":{\n\t\t\t\t\t\t\t\t\"query\":x.strip(),\n\t\t\t\t\t\t\t\t\"type\":\"best_fields\",\n\t\t\t\t\t\t\t\t\"fields\":[\"Organism.ngram\"],\n\t\t\t\t\t\t\t\t\"minimum_should_match\":\"100%\"\n\t\t\t\t\t\t\t}\n\t\t\t\t\t\t}\n\t\t\t\tshouldlist.append(tempquery)\n\t\t\tbooldic={}\n\t\t\tbooldic[\"bool\"]={\"should\":shouldlist,\"minimum_should_match\": 1}\n\t\t\tsearchtermlist.append(booldic)\n\t\tif len(userorgid) > 0:\n\t\t\tfinalsearhdata+='Organism ID:'+';'.join(userorgid)+' '\n\t\t\tshouldlist=[]\n\t\t\tfor x in userorgid:\n\t\t\t\ttempquery={\n\t\t\t\t\t\t\t\"multi_match\":{\n\t\t\t\t\t\t\t\t\"query\":x.strip(),\n\t\t\t\t\t\t\t\t\"type\":\"best_fields\",\n\t\t\t\t\t\t\t\t\"fields\":[\"Organism ID.ngram\"],\n\t\t\t\t\t\t\t\t\"minimum_should_match\":\"100%\"\n\t\t\t\t\t\t\t}\n\t\t\t\t\t\t}\n\t\t\t\tshouldlist.append(tempquery)\n\t\t\tbooldic={}\n\t\t\tbooldic[\"bool\"]={\"should\":shouldlist,\"minimum_should_match\": 1}\n\t\t\tsearchtermlist.append(booldic)\n\t\tif len(usersubcell) >0:\n\t\t\tfinalsearhdata+='SubCellular:'+';'.join(usersubcell)+' '\n\t\t\tshouldlist=[]\n\t\t\tfor x in usersubcell:\n\t\t\t\ttempquery={\n\t\t\t\t\t\t\t\"multi_match\":{\n\t\t\t\t\t\t\t\t\"query\":x.strip(),\n\t\t\t\t\t\t\t\t\"type\":\"best_fields\",\n\t\t\t\t\t\t\t\t\"fields\":[\"SubCellular.ngram\"],\n\t\t\t\t\t\t\t\t\"minimum_should_match\":\"100%\"\n\t\t\t\t\t\t\t}\n\t\t\t\t\t\t}\n\t\t\t\tshouldlist.append(tempquery)\n\t\t\tbooldic={}\n\t\t\tbooldic[\"bool\"]={\"should\":shouldlist,\"minimum_should_match\": 1}\n\t\t\tsearchtermlist.append(booldic)\n\t\tif len(userpepseq) >0:\n\t\t\tfinalsearhdata+='Peptide Sequence:'+';'.join(userpepseq)+' '\n\t\t\tshouldlist=[]\n\t\t\tfor x in userpepseq:\n\t\t\t\ttempquery={\n\t\t\t\t\t\t\t\"multi_match\":{\n\t\t\t\t\t\t\t\t\"query\":x.strip(),\n\t\t\t\t\t\t\t\t\"type\":\"best_fields\",\n\t\t\t\t\t\t\t\t\"fields\":[\"Peptide Sequence.ngram\"],\n\t\t\t\t\t\t\t\t\"minimum_should_match\":\"100%\"\n\t\t\t\t\t\t\t}\n\t\t\t\t\t\t}\n\t\t\t\tshouldlist.append(tempquery)\n\t\t\tbooldic={}\n\t\t\tbooldic[\"bool\"]={\"should\":shouldlist,\"minimum_should_match\": 1}\n\t\t\tsearchtermlist.append(booldic)\n\t\tif len(userpathway) >0:\n\t\t\tfinalsearhdata+='Pathway Name:'+';'.join(userpathway)+' '\n\t\t\tshouldlist=[]\n\t\t\tfor x in userpathway:\n\t\t\t\ttempquery={\n\t\t\t\t\t\t\t\"multi_match\":{\n\t\t\t\t\t\t\t\t\"query\":x.strip(),\n\t\t\t\t\t\t\t\t\"type\":\"best_fields\",\n\t\t\t\t\t\t\t\t\"fields\":[\"Pathway Name.ngram\"],\n\t\t\t\t\t\t\t\t\"minimum_should_match\":\"100%\"\n\t\t\t\t\t\t\t}\n\t\t\t\t\t\t}\n\t\t\t\tshouldlist.append(tempquery)\n\t\t\tbooldic={}\n\t\t\tbooldic[\"bool\"]={\"should\":shouldlist,\"minimum_should_match\": 1}\n\t\t\tsearchtermlist.append(booldic)\n\t\tif len(userdis) >0:\n\t\t\tfinalsearhdata+='Disease Name:'+';'.join(userdis)+' '\n\t\t\tshouldlist=[]\n\t\t\tfor x in userdis:\n\t\t\t\ttempquery={\n\t\t\t\t\t\t\t\"multi_match\":{\n\t\t\t\t\t\t\t\t\"query\":x.strip(),\n\t\t\t\t\t\t\t\t\"type\":\"best_fields\",\n\t\t\t\t\t\t\t\t\"fields\":[\"Disease Name.ngram\"],\n\t\t\t\t\t\t\t\t\"minimum_should_match\":\"100%\"\n\t\t\t\t\t\t\t}\n\t\t\t\t\t\t}\n\t\t\t\tshouldlist.append(tempquery)\n\t\t\tbooldic={}\n\t\t\tbooldic[\"bool\"]={\"should\":shouldlist,\"minimum_should_match\": 1}\n\t\t\tsearchtermlist.append(booldic)\n\t\tif len(usergoid) >0:\n\t\t\tfinalsearhdata+='Go ID:'+';'.join(usergoid)+' '\n\t\t\tsdict={}\n\t\t\tsdict[\"Go ID.ngram\"]=[i.split(' ')[0] for i in usergoid]\n\t\t\ttdict={}\n\t\t\ttdict[\"terms\"]=sdict\n\t\t\tsearchtermlist.append(tdict)\n\t\t\tshouldlist=[]\n\t\t\tfor x in usergoid:\n\t\t\t\ttempquery={\n\t\t\t\t\t\t\t\"multi_match\":{\n\t\t\t\t\t\t\t\t\"query\":x.strip(),\n\t\t\t\t\t\t\t\t\"type\":\"best_fields\",\n\t\t\t\t\t\t\t\t\"fields\":[\"Go ID.ngram\"],\n\t\t\t\t\t\t\t\t\"minimum_should_match\":\"100%\"\n\t\t\t\t\t\t\t}\n\t\t\t\t\t\t}\n\t\t\t\tshouldlist.append(tempquery)\n\t\t\tbooldic={}\n\t\t\tbooldic[\"bool\"]+={\"should\":shouldlist,\"minimum_should_match\": 1}\n\t\t\tsearchtermlist.append(booldic)\n\t\tif len(usergotn) >0:\n\t\t\tfinalsearhdata+='Go Name:'+';'.join(usergotn)+' '\n\t\t\tshouldlist=[]\n\t\t\tfor x in usergotn:\n\t\t\t\ttempquery={\n\t\t\t\t\t\t\t\"multi_match\":{\n\t\t\t\t\t\t\t\t\"query\":x.strip(),\n\t\t\t\t\t\t\t\t\"type\":\"best_fields\",\n\t\t\t\t\t\t\t\t\"fields\":[\"Go Name.ngram\"],\n\t\t\t\t\t\t\t\t\"minimum_should_match\":\"100%\"\n\t\t\t\t\t\t\t}\n\t\t\t\t\t\t}\n\t\t\t\tshouldlist.append(tempquery)\n\t\t\tbooldic={}\n\t\t\tbooldic[\"bool\"]={\"should\":shouldlist,\"minimum_should_match\": 1}\n\t\t\tsearchtermlist.append(booldic)\n\t\tif len(usergot) > 0:\n\t\t\tfinalsearhdata+='Go Term:'+';'.join(usergot)+' '\n\t\t\tshouldlist=[]\n\t\t\tfor x in usergot:\n\t\t\t\ttempquery={\n\t\t\t\t\t\t\t\"multi_match\":{\n\t\t\t\t\t\t\t\t\"query\":x.strip(),\n\t\t\t\t\t\t\t\t\"type\":\"best_fields\",\n\t\t\t\t\t\t\t\t\"fields\":[\"Go Term.ngram\"],\n\t\t\t\t\t\t\t\t\"minimum_should_match\":\"100%\"\n\t\t\t\t\t\t\t}\n\t\t\t\t\t\t}\n\t\t\t\tshouldlist.append(tempquery)\n\t\t\tbooldic={}\n\t\t\tbooldic[\"bool\"]={\"should\":shouldlist,\"minimum_should_match\": 1}\n\t\t\tsearchtermlist.append(booldic)\n\n\t\tif len(userassayfdaapprovemark) > 0:\n\t\t\tfinalsearhdata+='Assays for FDA approved Marker::'+';'.join(userassayfdaapprovemark)+' '\n\t\t\tshouldlist=[]\n\t\t\tfor x in userassayfdaapprovemark:\n\t\t\t\ttempquery={\n\t\t\t\t\t\t\t\"multi_match\":{\n\t\t\t\t\t\t\t\t\"query\":x.strip(),\n\t\t\t\t\t\t\t\t\"type\":\"best_fields\",\n\t\t\t\t\t\t\t\t\"fields\":[\"Assays for FDA approved Marker.ngram\"],\n\t\t\t\t\t\t\t\t\"minimum_should_match\":\"100%\"\n\t\t\t\t\t\t\t}\n\t\t\t\t\t\t}\n\t\t\t\tshouldlist.append(tempquery)\n\t\t\tbooldic={}\n\t\t\tbooldic[\"bool\"]={\"should\":shouldlist,\"minimum_should_match\": 1}\n\t\t\tsearchtermlist.append(booldic)\n\n\t\tif len(searchtermlist)>0:\n\t\t\tes.indices.refresh(index=\"mrmassaydb-index\")\n\n\t\t\tquery={\n\t\t\t\t\"query\": {\n\t\t\t\t\t\"bool\": {\n\t\t\t\t\t\t\"must\":searchtermlist\n\t\t\t\t\t}\n\t\t\t\t}\n\t\t\t}\n\t\t\tnameFIle=names.get_first_name()\n\t\t\tjsonfilename=nameFIle+'_advance_search.json'\n\t\t\tjsonfilepath=os.path.join(settings.BASE_DIR, 'resultFile', 'jsonData','resultJson', 'adavancesearch', 'results', jsonfilename)\n\t\t\tjsonfileoutput= open(jsonfilepath,'w')\n\t\t\tjfinaldata=[]\n\t\t\tres=helpers.scan(client=es,scroll='2m',index=\"mrmassaydb-index\", doc_type=\"mrmassaydb-type\",query=query,request_timeout=30)\n\t\t\tjfinaldata=[]\n\t\t\tfor i in res:\n\t\t\t\tjdic=i['_source']\n\t\t\t\tjdic={str(tkey):force_text(tvalue) for tkey,tvalue in jdic.items()}\n\t\t\t\tif jdic[\"UniprotKb entry status\"] ==\"Yes\" and jdic['UniProtKB Accession'] !='502':\n\t\t\t\t\tjdic[\"sel\"] =\"\"\n\t\t\t\t\tjdic[\"PPI\"] =\"View\"\n\t\t\t\t\tjdic[\"Drug Bank\"]=jdic[\"Drug Bank\"].replace('\\\\','')\n\t\t\t\t\tjdic[\"Drug Bank\"]=jdic[\"Drug Bank\"].replace('<br>','|')\n\t\t\t\t\tjdic[\"SRMAtlas URL\"]=jdic[\"SRMAtlas URL\"].replace('\\\\','')\n\t\t\t\t\tjdic[\"Passel URL\"]=jdic[\"Passel URL\"].replace('\\\\','')\n\t\t\t\t\tjdic[\"CPTAC URL\"]=jdic[\"CPTAC URL\"].replace('\\\\','')\n\t\t\t\t\tjdic[\"Panoramaweb URL\"]=jdic[\"Panoramaweb URL\"].replace('\\\\','')\n\t\t\t\t\tjdic[\"PeptideTracker URL\"]=jdic[\"PeptideTracker URL\"].replace('\\\\','')\n\t\t\t\t\t#if jdic[\"Pathway Name\"].lower() !='na':\n\t\t\t\t\t#\tjdic[\"Pathway Name\"]=re.sub(r\"(\\w)([A-Z])\",r\"\\1|\\2\",jdic[\"Pathway Name\"])\n\t\t\t\t\tjdic[\"Mean Concentration\"] =jdic[\"Mean Concentration\"].replace('fmol/','fmol/µ')\n\t\t\t\t\tjdic[\"Concentration\"] =jdic[\"Concentration\"].replace('fmol/','fmol/µ')\t\t\t\t\t\n\t\t\t\t\tjfinaldata.append(jdic)\n\n\t\t\tfoundHits=len(jfinaldata)\n\t\t\tjson.dump(jfinaldata[:10000],jsonfileoutput)\n\t\t\tjsonfileoutput.close()\n\n\t\t\tif foundHits >0:\n\t\t\t\tstatsummary=summaryStatcal(jfinaldata)\n\t\t\t\tpathwaychart=statsummary['pathwaychart']\n\t\t\t\tpathwaychart=[i[:2] for i in pathwaychart]\n\t\t\t\tspecieslist=statsummary['specieslist']\n\t\t\t\ttotallist=statsummary['total']\n\t\t\t\tsubcell=statsummary['subcell']\n\t\t\t\tgodic=statsummary['godic']\n\t\t\t\tjvennprot=statsummary['jevennstat'][0]\n\t\t\t\tjvennpep=statsummary['jevennstat'][1]\n\t\t\t\tmrmdatabase=statsummary['jevennstat'][2]\n\t\t\t\tsortedgodic=OrderedDict(sorted(godic.items(), key=lambda t: t[1]))\n\t\t\t\tupdatedgodic=dict(list(sortedgodic.items())[:10])\n\t\t\t\tpepseqdataseries=ast.literal_eval(json.dumps(statsummary['pepseqdataseries']))\n\t\t\t\tprodataseries=statsummary['prodataseries']\n\t\t\t\tunqisostat=statsummary['unqisostat']\n\t\t\t\tjsonfilepathStat=os.path.join(settings.BASE_DIR, 'resultFile', 'jsonData','resultJson', 'adavancesearch', 'statsummary', jsonfilename)\n\t\t\t\tjsonfileoutputStat= open(jsonfilepathStat,'w')\n\t\t\t\tjson.dumps(statsummary,jsonfileoutputStat)\n\t\t\t\tjsonfileoutputStat.close()\n\t\t\t\turlname=\"'/resultFile/jsonData/resultJson/adavancesearch/results/\"+jsonfilename+\"'\"\n\t\t\t\tcontextindex={\n\t\t\t\t\t\"filename\":urlname,\"colname\":json.dumps(colname),\n\t\t\t\t\t'query': finalsearhdata,'foundHits':foundHits,\n\t\t\t\t\t'pathwaychart':pathwaychart[:11],'specieslist':specieslist,\n\t\t\t\t\t'totallist':totallist,'subcell':subcell,\n\t\t\t\t\t'updatedgodic':updatedgodic,'pepseqdataseries':pepseqdataseries,\n\t\t\t\t\t'prodataseries':prodataseries,'unqisostat':unqisostat,\n\t\t\t\t\t'jvennprot':json.dumps(jvennprot),'jvennpep':json.dumps(jvennpep),'jvennmrmdb':json.dumps(mrmdatabase)\n\t\t\t\t\t}\n\t\t\t\treturn render(request,'resultform.html',contextindex)\n\t\t\telse:\n\t\t\t\treturn render(request,'resultform.html',{'foundHits':foundHits})",
"def click_re_analysis_link(self):\n self.click_element(self.re_analysis_locator, True)",
"def click_search_rate_arrow_button(self):\n self.click_element(self.search_rate_arrow_button_locator)",
"def _on_details_navigating(self, evt):\n \n # get URL\n url = evt.url\n \n # parse URL\n match = DETAILS_URL_PATTERN.search(url)\n if not match:\n return\n \n # get match\n parameter = match.group('parameter')\n value = match.group('value').replace(\"%20\", \" \")\n \n # check value\n if not value:\n return\n \n # show article by DOI\n if parameter == 'doi':\n link = \"https://dx.doi.org/%s\" % value\n try: webbrowser.open(link, autoraise=1)\n except: pass\n \n # show article by PMID (in PubMed)\n elif parameter == 'pmid':\n link = \"https://ncbi.nlm.nih.gov/pubmed/%s\" % value\n try: webbrowser.open(link, autoraise=1)\n except: pass\n \n # search by author (in PubMed)\n elif parameter == 'author':\n query = \"%s[AU]\" % value\n self._search_repository(query)\n \n # search by journal (in PubMed)\n elif parameter == 'journal':\n query = \"%s[JT]\" % value\n self._search_repository(query)\n \n # show articles by author (in library)\n elif parameter == 'authorid':\n query = \"%s[AUID]\" % value\n self._articles_view.SetMasterQuery(None)\n self._articles_view.SetQuery(query)\n self._articles_view.ShowArticles()\n \n # show articles by label (in library)\n elif parameter == 'labelid':\n query = \"%s[LABELID]\" % value\n self._articles_view.SetMasterQuery(None)\n self._articles_view.SetQuery(query)\n self._articles_view.ShowArticles()\n \n # show articles by collection (in library)\n elif parameter == 'collectionid':\n query = \"%s[COLLECTIONID]\" % value\n self._articles_view.SetMasterQuery(None)\n self._articles_view.SetQuery(query)\n self._articles_view.ShowArticles()\n \n # set article rating\n elif parameter == 'rating':\n if value in \"012345\":\n self._on_articles_rating(rating=int(value))\n \n # set article colour\n elif parameter == 'colour':\n colour = mwx.COLOUR_BULLETS.get(value, None)\n if colour is not None:\n self._on_articles_colour(colour=colour)\n \n # reveal PDF file\n elif parameter == 'pdf':\n path = os.path.join(self._library.library_path, value+\".pdf\")\n self._on_articles_reveal_pdf(path=path)",
"def form_search_url(self):\r\n self.reformat_search_for_spaces()\r\n self.target_yt_search_url_str = self.prefix_of_search_url + self.yt_search_key + self.filter_url_portion",
"def on_searchButton_clicked(self):\n self.__search()",
"def get_query_url(self, search_args):\n self._browser.open(\"http://poe.trade/\")\n # There are two forms, the second one is the search form\n # Both forms don't have names so we just know the 2nd one is the right one\n self._browser.form = list(self._browser.forms())[1]\n \n # Populate the forms with the stuff we want\n for form_name in search_args:\n control = self._browser.form.find_control(form_name)\n control.value = search_args[form_name]\n \n # By default we want people are are online and accepting buyouts\n buyout_control = self._browser.form.find_control(name=\"has_buyout\")\n online_control = self._browser.form.find_control(name=\"online\")\n buyout_control.value = [\"1\"]\n online_control.value = [\"x\"]\n \n search_response = self._browser.submit()\n return search_response.geturl()",
"def view_link(self, obj):\n if obj.cwr:\n url = reverse(\n 'admin:music_publisher_ackimport_change', args=(obj.id,))\n url += '?preview=true'\n return mark_safe(\n '<a href=\"{}\" target=\"_blank\">View CWR</a>'.format(url))",
"def add_search_form():\n g.form = forms.SearchPlaces(formdata=None)\n g.action = url_for(\"page.search_query\")",
"def OnButtonRateHelpButton(self, event):\r\n\t\twebbrowser.open(consts.URL_HELP_RATE)",
"def browse(request):\n\tparams = request.query_params\n\n\tsort_by = params.get('sort_by', None)\n\t\n\t#Default sorting order\n\tif not sort_by:\n\t\tsort_by = 'customer_id'\n\t\n\t#Customer\n\tcustomer_id = params.get('customer_id', None)\n\tq_customer = Q()\n\tif customer_id:\n\t\t#Query Expression to get Bookmarks according to customer id.\n\t\tq_customer = Q(customer_id = customer_id)\n\n\t#Source name\n\tsource_name = params.get('source_name', None)\n\tq_source_name = Q()\n\tif source_name:\n\t\t#Query Expression to get Bookmarks according to source name.\n\t\tq_source_name = Q(source_name__icontains = source_name)\n\n\t#Title\n\ttitle = params.get('title', None)\n\tq_title = Q()\n\tif title:\n\t\t#Query Expression to get Bookmarks according to title.\n\t\tq_title = Q(title__icontains = title)\n\t\n\t#Geo Location\n\tcurrent_lat = params.get('lat', None)\n\tcurrent_long = params.get('long', None)\n\tradius = params.get('radius', None)\n\tq_location = Q()\n\tif all(v is not None for v in [current_long, current_lat, radius]):\n\t\t\"\"\"\n\t\t\tImplementation of haversine formula \n\t\t\tto get customers whose geoloactions lies within the given radius\n\t\t\ttaking the request param points as center location.\n\t\t\ta = sin²(Δφ/2) + cos φ1 ⋅ cos φ2 ⋅ sin²(Δλ/2)\n\t\t\tc = 2 ⋅ atan2( √a, √(1−a) )\n\t\t\td = 6371 #Earth radius\n\t\t\"\"\"\n\t\tcurrent_lat = float(current_lat)\n\t\tcurrent_long = float(current_long)\n\t\tdlat = Radians(F('latitude') - current_lat)\n\t\tdlong = Radians(F('longitude') - current_long)\n\n\t\ta = (Power(Sin(dlat/2), 2) + Cos(Radians(current_lat)) * Cos(Radians(F('latitude'))) * Power(Sin(dlong/2), 2))\n\n\t\tc = 2 * ATan2(Sqrt(a), Sqrt(1-a))\n\t\td = 6371 * c\n\t\tcustomers = Customer.objects.filter()\\\n\t\t\t\t\t.annotate(distance=d)\\\n\t\t\t\t\t.filter(distance__lt=radius)\n\t\t#Query expression for all customers lies within the radius to filter Bookmark model.\n\t\tq_location = Q(customer__in= customers)\n\n\t#Date Range\n\tstart_date = params.get('start_date', None)\n\tend_date = params.get('end_date', None)\n\tq_date_range = Q()\n\tif start_date is not None and end_date is not None:\n\t\tstart_date = datetime.strptime(start_date, \"%Y-%m-%d\")\n\t\tend_date = datetime.strptime(end_date, \"%Y-%m-%d\")\n\t\tend_date = end_date + timedelta(days = 1)\n\t\t#Query Expression to get Bookmarks according to customer id.\n\t\tq_date_range = Q(created_at__range = (start_date, end_date))\n\t\n\t#Filter and sort Bookmark model for the given query params.\n\tbookmarks = Bookmark.objects.filter(q_customer | q_source_name | q_title | q_date_range | q_location).order_by(sort_by)\n\n\t#Bookmark serializer\n\tserializer = BookmarkListSerializers(bookmarks, many = True)\n\treturn Response(serializer.data)",
"def button1_press(self):\n\n ext = nuke_link(str(self.lineEdit.text()))\n url = 'https://learn.foundry.com/nuke/developers/70/pythonreference/{}'.format(ext)\n webbrowser.open(url)",
"def onSearch(self):\n self.mainGrid.showSearchPopup()\n self.popupActive = True",
"def question_new_search():",
"def getLink(self):",
"def url_event_listener():\n track_template = \"<a href=\\\"{0}\\\" target=\\\"_blank\\\" onclick=\\\"trackOutboundLink('{0}'); return false;\\\"\"\n if request.method == 'POST':\n urls = request.form['url_textbox']\n track_urls = [track_template.format(url.strip()) for url in urls.split('\\n')]\n return render_template('link_tracking.html', links=track_urls)\n return render_template('link_tracking.html', links=[])",
"def search(request):\n\n if request.method == \"POST\":\n form = SearchForm(request.POST)\n\n if form.is_valid():\n title = form.cleaned_data[\"title\"]\n entryMD = util.get_entry(title)\n\n print('search request: ', title)\n\n if entryMD:\n return redirect(reverse('entry', args=[title]))\n else:\n relatedTitles = util.relatedTitles(title)\n\n return render(request, \"encyclopedia/search.html\", {\n \"title\": title,\n \"relatedTitles\": relatedTitles,\n \"searchForm\": SearchForm()\n })\n return redirect(reverse('index'))",
"def run_google(self, expanded, unexpanded) :\n\t\t# we need a way to display it correctly in our page\n\t\t# unfortunately links in google's results are relative\n\t\t# so while the display is correct, link to previous and next results\n\t\t# are incorrect.\n\t\t# current solution: opens a new windows with javascript\n\t\tself.newwindow('http://www.google.com/search?q=%s' % string.join(unexpanded, '%20'))",
"def advanced_search():\n\n return render_template('Advanced_Search.html')",
"def search_form_servee(context, cl):\r\n return {\r\n \"request\": context[\"request\"],\r\n \"cl\": cl,\r\n \"show_result_count\": cl.result_count != cl.full_result_count,\r\n \"search_var\": \"q\"\r\n }",
"def search_params_for_link(link):\n return {\n 'filter_link': link,\n 'debug': 'include_withdrawn',\n 'fields[]': [\n 'indexable_content',\n 'title',\n 'description',\n 'expanded_organisations',\n 'expanded_topics',\n ],\n }",
"def view_family_sample_link(unused1, unused2, model, unused3):\n\n del unused1, unused2, unused3\n\n return Markup(\n u\"<a href='%s'>%s</a>\"\n % (url_for(\"familysample.index_view\", search=model.internal_id), model.internal_id,)\n )",
"def QAsearch():\n question = ''\n form = QuestionForm()\n question = form.question.data\n if form.validate_on_submit():\n return redirect(url_for('answer',word=question))\n return render_template(\n 'QAsearch.html',\n title = 'QAsearch Page',\n year = datetime.now().year,\n form = form,\n question = question\n )",
"def go_search_results(self, driver, searchlink):\n self.go_and_assert(driver, searchlink, website)",
"def _on_articles_search(self, evt=None):\n \n # set focus\n self._articles_view.SetFocusToQuery()",
"def pop_up(self):\n sleep(2)\n self.driver.find_element_by_link_text('Got It').click()\n self.get_search_results()",
"def view_bed_link(unused1, unused2, model, unused3):\n del unused1, unused2, unused3\n return (\n Markup(\n u\"<a href='%s'>%s</a>\"\n % (url_for(\"bed.index_view\", search=model.bed.name), model.bed.name)\n )\n if model.bed\n else u\"\"\n )",
"def view_link(self, obj):\n if obj.cwr:\n url = reverse(\n 'admin:music_publisher_cwrexport_change', args=(obj.id,))\n url += '?preview=true'\n return mark_safe(\n '<a href=\"{}\" target=\"_blank\">View CWR</a>'.format(url))"
] | [
"0.60232997",
"0.5923642",
"0.5764052",
"0.5639309",
"0.5621156",
"0.55405366",
"0.55152047",
"0.5485552",
"0.54194343",
"0.53971034",
"0.5391488",
"0.53449464",
"0.53326124",
"0.5330876",
"0.53227377",
"0.5317558",
"0.53146493",
"0.52632076",
"0.5242003",
"0.5239916",
"0.5238546",
"0.52279896",
"0.5208889",
"0.51778364",
"0.51750225",
"0.51524806",
"0.5142412",
"0.5132454",
"0.51172656",
"0.51053417"
] | 0.790439 | 0 |
Implementing is view dropdown visible functionality | def is_view_dropdown_visible(self):
return self.is_element_visible(self.view_dropdown_locator) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def is_visible(self):",
"def visible(self, show):",
"def is_status_dropdown_visible(self):\n return self.is_element_visible(self.status_dropdown_locator)",
"def isVisible(self):\n\t\treturn True",
"def is_dropdown_expanded(self):\n return self.dropdown.element(class_name=\"dropdown-focus\").exists",
"def is_in_routing_flags_dropdown_visible(self):\n return self.is_element_visible(self.in_routing_flags_dropdown_locator)",
"def is_shown(self, request):\n return True",
"def IsShown(self):\r\n \r\n return not self.HasFlag(self.optionHidden)",
"def is_discrepancy_dropdown_visible(self):\n return self.is_element_visible(self.discrepancy_dropdown_locator)",
"def IsDropDownClicked(self):\r\n\r\n return self.is_dropdown_clicked",
"def is_viewed(self):\n return self.has_label(VIEWED_LABEL)",
"def is_visible(self, path):\n return True",
"def ShowWindowMenu(self):\r\n \r\n tabCtrl = self.GetActiveTabCtrl()\r\n idx = tabCtrl.GetArtProvider().ShowDropDown(tabCtrl, tabCtrl.GetPages(), tabCtrl.GetActivePage())\r\n\r\n if not self.GetEnabled(idx):\r\n return False\r\n\r\n if idx != -1:\r\n e = AuiNotebookEvent(wxEVT_COMMAND_AUINOTEBOOK_PAGE_CHANGING, tabCtrl.GetId())\r\n e.SetSelection(idx)\r\n e.SetOldSelection(tabCtrl.GetActivePage())\r\n e.SetEventObject(tabCtrl)\r\n self.GetEventHandler().ProcessEvent(e)\r\n\r\n return True\r\n \r\n else:\r\n \r\n return False",
"def _is_visible(self, key) -> bool:\n return self._get_DecoSetting(key).visible",
"def is_visible(self):\n return self.container['is_visible']",
"def HasDropDown(self):\r\n\r\n return self.dropdown",
"def show_hide_model_options(n_clicks, is_open):\n if n_clicks:\n return not is_open\n return is_open",
"def is_buy_and_sell_deal_details_screen_status_dropdown_visible(self):\n return self.is_element_present(self.buy_and_sell_deal_details_screen_status_dropdown_locator)",
"def ToggleVisible(self, event):\n pass",
"def is_visible(self, url=''):\n return bool(url)",
"def can_show(self):\n return self.can_show",
"def show_hide_make_options(n_clicks, is_open):\n if n_clicks:\n return not is_open\n return is_open",
"def is_expected_dropdown_list_control_visible_in_target_buy_overrides_screen(self, expected_list_control_name):\n list_control_locator = (By.XPATH, \"//select[@name='%s']\" %(expected_list_control_name))\n return self.is_element_present(list_control_locator)",
"def is_visible ( self ):\n return not self.is_hidden and (\n self.priority is None or self.priority >= 0\n )",
"def should_show():",
"def is_visible(self):\n return self.window.active_panel() == self.full_name",
"def expand_dropdown(self):\n if not self.is_dropdown_expanded:\n self.dropdown.click()",
"def setVisible(*args):",
"def setVisible(*args):",
"def setVisible(*args):"
] | [
"0.71982443",
"0.68916374",
"0.65261835",
"0.6519433",
"0.65032357",
"0.6492175",
"0.64335036",
"0.62715024",
"0.62572086",
"0.62359184",
"0.6205243",
"0.61405784",
"0.61180335",
"0.6112767",
"0.60835725",
"0.6073625",
"0.60134345",
"0.5963904",
"0.5950378",
"0.593864",
"0.5907012",
"0.58723336",
"0.5862778",
"0.58574176",
"0.58519185",
"0.58297944",
"0.5811762",
"0.58002794",
"0.58002794",
"0.58002794"
] | 0.79745305 | 0 |
Implementing is status dropdown visible functionality | def is_status_dropdown_visible(self):
return self.is_element_visible(self.status_dropdown_locator) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def is_visible(self):",
"def verify_status_filter(self, status_list):\n is_verified = True\n self.click_element(self.multiselect_status_dropdown_locator)\n for item in status_list:\n dropdown_item_locator = (By.XPATH, \"//li[text()='%s']\" % item)\n if self.is_element_visible(dropdown_item_locator) is False:\n is_verified = False\n break\n self.script_executor(\"var elements = document.getElementsByClassName('k-list-container k-popup k-group k-reset multiselect'); for (var i = 0, len = elements.length; i < len; i++) { elements[i].style.display = 'none';}\")\n self.script_executor(\"var elements = document.getElementsByClassName('k-list k-reset'); for (var i = 0, len = elements.length; i < len; i++) { elements[i].setAttribute('aria-hidden', 'true');}\")\n return is_verified",
"def is_buy_and_sell_deal_details_screen_status_dropdown_visible(self):\n return self.is_element_present(self.buy_and_sell_deal_details_screen_status_dropdown_locator)",
"def is_view_dropdown_visible(self):\n return self.is_element_visible(self.view_dropdown_locator)",
"def is_dropdown_expanded(self):\n return self.dropdown.element(class_name=\"dropdown-focus\").exists",
"def is_in_routing_flags_dropdown_visible(self):\n return self.is_element_visible(self.in_routing_flags_dropdown_locator)",
"def set_add_dispute_status(self, status):\n self.single_selection_from_kendo_dropdown(self.add_dispute_status_kendo_dropdown_locator, status)\n self.wait_for_ajax_spinner_load()",
"def set_visible(self, status):\n if isinstance(status, bool):\n if status:\n self._visible = True\n else:\n self._visible = False\n else:\n raise ValueError(\"Input must a bool.\")",
"def visible(self, show):",
"def show_status():\n\n pass",
"def isVisible(self):\n\t\treturn True",
"def HasDropDown(self):\r\n\r\n return self.dropdown",
"def set_suspect_status(self, suspect_status):\n self.multiple_items_selection_from_kendo_dropdown(self.suspect_status_kendo_dropdown_locator, suspect_status)\n self.wait_for_ajax_spinner_load()",
"def is_visible(self):\n return self.container['is_visible']",
"def set_vendor_profile_status(self, item_name):\n self.single_selection_from_kendo_dropdown(self.vendor_profile_status_kendo_dropdown_locator, item_name)\n self.wait_for_ajax_spinner_load()",
"def __showMenuCheck(self):\n if not self.__showMenuActions:\n self.__showMenuUpdate()",
"def IsShown(self):\r\n \r\n return not self.HasFlag(self.optionHidden)",
"def IsDropDownClicked(self):\r\n\r\n return self.is_dropdown_clicked",
"def _generateStatusSelector(self, dParams, fOnlyFailures):\n dParams[self.ksParamOnlyFailures] = not fOnlyFailures;\n return WuiTmLink('Show all results' if fOnlyFailures else 'Only show failed tests', '', dParams,\n fBracketed = False).toHtml();",
"def is_select(status):\n if not status:\n return False\n return status.split(None, 1)[0].lower() == 'select'",
"def check_status(self):",
"def is_shown(self, request):\n return True",
"def set_vendor_price_list_status(self, status_items):\n self.multiple_items_selection_from_kendo_dropdown(self.vendor_price_list_status_kendo_dropdown_locator, status_items)\n self.wait_for_ajax_spinner_load()",
"def select_status_loaded(self):\n select_status_loaded_sitem = self.locator_finder_by_xpath(self.select_status_loaded_id)\n select_status_loaded_sitem.click()\n time.sleep(2)",
"def visible(self):\n return self.get_queryset().filter(\n record_status=self.model.ACTIVE, merged_with=None)",
"def setVisibleCondition(*args):",
"def setVisibleCondition(*args):",
"def setVisibleCondition(*args):",
"def setVisibleCondition(*args):",
"def setVisibleCondition(*args):"
] | [
"0.6769931",
"0.6623519",
"0.65843034",
"0.6460936",
"0.6410708",
"0.62039274",
"0.6172054",
"0.6160456",
"0.6130021",
"0.606553",
"0.6034061",
"0.59795195",
"0.5898355",
"0.586476",
"0.5856082",
"0.58322924",
"0.5804622",
"0.57709265",
"0.5757336",
"0.57507217",
"0.5715284",
"0.570531",
"0.56863225",
"0.5642998",
"0.5637699",
"0.56327784",
"0.56327784",
"0.56327784",
"0.56327784",
"0.56327784"
] | 0.76062703 | 0 |
Implementing is discrepancy dropdown visible functionality | def is_discrepancy_dropdown_visible(self):
return self.is_element_visible(self.discrepancy_dropdown_locator) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def is_visible(self):",
"def is_view_dropdown_visible(self):\n return self.is_element_visible(self.view_dropdown_locator)",
"def visible(self, show):",
"def IsShown(self):\r\n \r\n return not self.HasFlag(self.optionHidden)",
"def is_expected_dropdown_list_control_visible_in_target_buy_overrides_screen(self, expected_list_control_name):\n list_control_locator = (By.XPATH, \"//select[@name='%s']\" %(expected_list_control_name))\n return self.is_element_present(list_control_locator)",
"def is_dropdown_expanded(self):\n return self.dropdown.element(class_name=\"dropdown-focus\").exists",
"def is_status_dropdown_visible(self):\n return self.is_element_visible(self.status_dropdown_locator)",
"def isVisible(self):\n\t\treturn True",
"def show_hide_make_options(n_clicks, is_open):\n if n_clicks:\n return not is_open\n return is_open",
"def should_show():",
"def HasDropDown(self):\r\n\r\n return self.dropdown",
"def appears(self):",
"def show_hide_model_options(n_clicks, is_open):\n if n_clicks:\n return not is_open\n return is_open",
"def is_in_routing_flags_dropdown_visible(self):\n return self.is_element_visible(self.in_routing_flags_dropdown_locator)",
"def is_buy_and_sell_deal_details_screen_status_dropdown_visible(self):\n return self.is_element_present(self.buy_and_sell_deal_details_screen_status_dropdown_locator)",
"def verify_status_filter(self, status_list):\n is_verified = True\n self.click_element(self.multiselect_status_dropdown_locator)\n for item in status_list:\n dropdown_item_locator = (By.XPATH, \"//li[text()='%s']\" % item)\n if self.is_element_visible(dropdown_item_locator) is False:\n is_verified = False\n break\n self.script_executor(\"var elements = document.getElementsByClassName('k-list-container k-popup k-group k-reset multiselect'); for (var i = 0, len = elements.length; i < len; i++) { elements[i].style.display = 'none';}\")\n self.script_executor(\"var elements = document.getElementsByClassName('k-list k-reset'); for (var i = 0, len = elements.length; i < len; i++) { elements[i].setAttribute('aria-hidden', 'true');}\")\n return is_verified",
"def IsDropDownClicked(self):\r\n\r\n return self.is_dropdown_clicked",
"def _compute_show_subcontracting_details_visible(self):\n for move in self:\n if move.is_subcontract and move._has_tracked_subcontract_components() and\\\n not float_is_zero(move.quantity_done, precision_rounding=move.product_uom.rounding):\n move.show_subcontracting_details_visible = True\n else:\n move.show_subcontracting_details_visible = False",
"def is_shown(self, request):\n return True",
"def is_displayed(self):\n return len(self._find_all_by_locator()) > 0",
"def is_displayed(self, unit):\n try:\n field_is_displayed = getattr(self.unit.get_model_name()+'_is_displayed')\n if field_is_displayed:\n return field_is_displayed(unit)\n except AttributeError:\n pass\n if not self.displayed and not self.excluded:\n return True\n elif self.displayed and self.excluded:\n return unit.get_model_name() in self.displayed \\\n and unit.get_model_name() not in self.excluded\n elif self.excluded:\n return unit.get_model_name() not in self.excluded\n elif self.displayed:\n return unit.get_model_name() in self.displayed\n else:\n return True",
"def show_hide_price_options(n_clicks, is_open):\n if n_clicks:\n return not is_open\n return is_open",
"def _test_display_down_button(self):\n return (self.product_displays.top_index + self.limits.screen_products) < len(self.product_displays)",
"def test_options_menu_autoopen(self):\n self.login()\n page = Page.objects.create(owner=self.user)\n path = page.get_absolute_url()\n self.selenium.get('%s%s' % (self.live_server_url, path))\n dropdown_menu_btn = self._get_one('.page-options-dropdown .dropdown-toggle')\n show_opts_btn = self._get_one('.options-btn')\n options_menu = self._get_one('.pageOptions')\n self.assertTrue(dropdown_menu_btn.is_displayed())\n self.assertFalse(show_opts_btn.is_displayed())\n self.assertTrue(options_menu.is_displayed())",
"def _test_display_up_button(self):\n return (self.product_displays.top_index > 0)",
"def show_hide_year_options(n_clicks, is_open):\n if n_clicks:\n return not is_open\n return is_open",
"def get_visible(\n self,\n *,\n context: Context,\n ) -> bool:\n from reviewboard.urls import diffviewer_url_names\n match = context['request'].resolver_match\n\n if match.url_name in diffviewer_url_names:\n return match.url_name != 'view-interdiff'\n\n return super().get_visible(context=context)",
"def _is_visible(self, key) -> bool:\n return self._get_DecoSetting(key).visible",
"def setVisibleCondition(*args):",
"def setVisibleCondition(*args):"
] | [
"0.6376496",
"0.6146004",
"0.61062473",
"0.595913",
"0.59428614",
"0.5845416",
"0.5668334",
"0.5638509",
"0.5611619",
"0.56103593",
"0.5536504",
"0.5515536",
"0.55144286",
"0.5508601",
"0.54749495",
"0.54580134",
"0.5429107",
"0.5373098",
"0.536419",
"0.53435355",
"0.5342848",
"0.53312516",
"0.5331241",
"0.5299869",
"0.5292301",
"0.52917737",
"0.52865076",
"0.528554",
"0.52830136",
"0.52830136"
] | 0.7136463 | 0 |
Implementing is in routing flags dropdown visible functionality | def is_in_routing_flags_dropdown_visible(self):
return self.is_element_visible(self.in_routing_flags_dropdown_locator) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def is_visible(self):",
"def visible(self, show):",
"def is_visible(self, path):\n return True",
"def is_view_dropdown_visible(self):\n return self.is_element_visible(self.view_dropdown_locator)",
"def lookups(self, request, model_admin):\n return (\n ('1', 'oui'),\n ('0', 'non')\n )",
"def fixed_map(self, option):\r\n return [elm for elm in self.style.map(\"Treeview\", query_opt=option) if elm[:2] != (\"!disabled\", \"!selected\")]",
"def isEnabled(self):",
"def is_selected(self):\r\n if hasattr(self, 'name') and self.name == 'home':\r\n return False\r\n if self.opt:\r\n return request.params.get(self.opt, '') in self.aliases\r\n else:\r\n stripped_path = request.path.rstrip('/').lower()\r\n ustripped_path = _force_unicode(stripped_path)\r\n if stripped_path == self.bare_path:\r\n return True\r\n if stripped_path in self.aliases:\r\n return True",
"def isVisible(self):\n\t\treturn True",
"def setVisibleCondition(*args):",
"def setVisibleCondition(*args):",
"def setVisibleCondition(*args):",
"def setVisibleCondition(*args):",
"def setVisibleCondition(*args):",
"def setVisibleCondition(*args):",
"def setVisibleCondition(*args):",
"def setVisibleCondition(*args):",
"def setVisibleCondition(*args):",
"def setVisibleCondition(*args):",
"def setVisibleCondition(*args):",
"def _is_visible(self, key) -> bool:\n return self._get_DecoSetting(key).visible",
"def IsShown(self):\r\n \r\n return not self.HasFlag(self.optionHidden)",
"def set_show_in_display_form(self, flag):\n qry = ServiceOperationQuery(self, \"setShowInDisplayForm\", [flag])\n self.context.add_query(qry)\n return self",
"def is_visible ( self ):\n return not self.is_hidden and (\n self.priority is None or self.priority >= 0\n )",
"def get_one_menu_option():",
"def __aboutToShowMenu(self):\n self.hgFetchAct.setEnabled(self.vcs.canPull())",
"def set_show_in_edit_form(self, flag):\n qry = ServiceOperationQuery(self, \"setShowInEditForm\", [flag])\n self.context.add_query(qry)",
"def activated(self):",
"def take_action_on_flags(self, *args, **kwargs):\r\n pass",
"def visible(self):\n return self.get_queryset().filter(\n record_status=self.model.ACTIVE, merged_with=None)"
] | [
"0.62339777",
"0.57156396",
"0.56493044",
"0.5600492",
"0.5385415",
"0.53781635",
"0.5323332",
"0.52921045",
"0.52877337",
"0.5240105",
"0.5240105",
"0.5240105",
"0.5240105",
"0.5240105",
"0.5240105",
"0.5240105",
"0.5240105",
"0.5240105",
"0.5240105",
"0.5240105",
"0.52226526",
"0.5213003",
"0.51764005",
"0.517062",
"0.5164402",
"0.5124025",
"0.51215434",
"0.5098415",
"0.5093282",
"0.50910777"
] | 0.7388084 | 0 |
Implementing is rate textbox visible functionality | def is_rate_textbox_visible(self):
return self.is_element_visible(self.reference_rates_rate_textbox_locator) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def OnButtonRateOKButton(self, event):\r\n\t\tself.OnButtonOKButton()",
"def is_visible(self):",
"def is_visible(self):\n return self.real > 0",
"def changeValue(self):\r\n # productive #onUpDnArrow\r\n profprint()\r\n widget = slicer.modules.NeedleFinderWidget\r\n # widget.scrollPointButton.setText('Scroll Point for Needle ' + str(widget.editNeedleTxtBox.value) + ' (pt: ' + str(self.ptNumber) + ')')\r\n self.lockControlPoints(widget.editNeedleTxtBox.value)\r\n self.unlockControlPoints(widget.editNeedleTxtBox.value)\r\n widget.drawValidationNeedlesButton.text = \"Render Manual Needle \" + str(widget.editNeedleTxtBox.value)",
"def visible(self, show):",
"def change_Focus(self, rate):\n self.speed = int(rate)\n print(\"Setting Focus Rate to: \" + str(rate))",
"def OnButtonRateCancelButton(self, event):\r\n\t\tself.Hide()",
"def cb_f1_entry_1_activate(self, entry_widget):\n # print(\"Got here activate\")\n # print(entry_field.get_text())\n radius = float(entry_widget.get_text())\n print(radius)",
"def changeValue(self):\n #productive #onUpDnArrow\n profprint()\n widget = slicer.modules.NeedleFinderWidget\n widget.scrollPointButton.setText('Scroll Point for Needle ' + str(widget.editNeedleTxtBox.value)+ ' (pt: '+str(self.ptNumber)+')')",
"def on_text_box(self, event):\n text_box_value = self.text_box.GetValue()\n text = \"\".join([_(u\"New text box value: \"), text_box_value])\n if self.state == 0:\n self.canvas_2d.render(text)\n else:\n self.canvas_3d.render()",
"def __call__(self):\n self.brain._update_fscale(self.factor)\n for key in self.brain.keys:\n if self.widgets[key] is not None:\n self.widgets[key].set_value(self.brain._data[key])",
"def update(self, event, level):\n\t\tDialog.update(self, event, level)\n\t\tif(self.index/SCROLL_CONSTANT >= len(self.text)):\n\t\t\tself.choosing = True",
"def updateText(self,new_value):\n if self.value.getText() == new_value:\n pass\n else:\n self.value.setText(new_value)\n # Visual feedback when the value changes for the user\n for i in range(2):\n time.sleep(0.1)\n\n if i % 2 == 0:\n self.value.setStyle('bold')\n else:\n self.value.setStyle('normal')",
"def disp_score():",
"def show(self): \n InputItem.show(self)\n self.input.selectAll()",
"def show(self): \n InputItem.show(self)\n self.input.selectAll()",
"def on_searchEdit_textChanged(self, txt):\n self.searchButton.setEnabled(bool(txt))",
"def block_entry(\r\n self\r\n ):\r\n self.e_num_images.config(state = tk.NORMAL)\r\n self.e_tot_time.config(state = tk.NORMAL)\r\n self.e_interval.config(state = tk.NORMAL)\r\n\r\n if self.r_quality_variable.get() == \"High\":\r\n self.e_interval.delete(0,tk.END)\r\n self.e_interval.insert(0,str(0.001))\r\n self.e_interval.config(state = tk.DISABLED)\r\n\r\n self.e_tot_time.delete(0,tk.END)\r\n self.e_tot_time.insert(0,str(int(self.e_num_images.get())*10/60.0))\r\n self.e_tot_time.config(state = tk.DISABLED)\r\n\r\n else:\r\n if self.r_radio_button_variable.get() == 1:\r\n self.e_interval.delete(0,tk.END)\r\n self.e_interval.insert(0,str(float(self.e_tot_time.get())*60/int(self.e_num_images.get())))\r\n self.e_num_images.config(state = tk.NORMAL)\r\n self.e_tot_time.config(state = tk.NORMAL)\r\n self.e_interval.config(state = tk.DISABLED)\r\n \r\n elif self.r_radio_button_variable.get() == 2:\r\n self.e_tot_time.delete(0,tk.END)\r\n self.e_tot_time.insert(0,str(int(self.e_num_images.get())*float(self.e_interval.get())/60))\r\n self.e_num_images.config(state = tk.NORMAL)\r\n self.e_tot_time.config(state = tk.DISABLED)\r\n self.e_interval.config(state = tk.NORMAL)\r\n elif self.r_radio_button_variable.get() == 3:\r\n self.e_num_images.delete(0,tk.END)\r\n self.e_num_images.insert(0,str(int(float(self.e_tot_time.get())*60/float(self.e_interval.get()))))\r\n self.e_num_images.config(state = tk.DISABLED)\r\n self.e_tot_time.config(state = tk.NORMAL)\r\n self.e_interval.config(state = tk.NORMAL)\r\n else:\r\n self.e_num_images.config(state = tk.NORMAL)\r\n self.e_tot_time.config(state = tk.NORMAL)\r\n self.e_interval.config(state = tk.NORMAL)",
"def setValue(self,val):\n val = float(val)\n self.input.setText(str(val))",
"def inputBox(gwin,prt1,prt2):\r\n numInputBox = __inputBox(gwin,300, prt1)\r\n line=Text(Point(450,345),\"____\")\r\n line.draw(gwin)\r\n line.setSize(40)\r\n denInputBox = __inputBox(gwin,450, prt2)\r\n return numInputBox,denInputBox",
"def show(self): \n InputItem.show(self,*args)\n self.input.selectAll()",
"def show(self): \n InputItem.show(self,*args)\n self.input.selectAll()",
"def updatefunction(self):\n self.arcdisplay.ws.order=int(self.orderValueEdit.text())\n self.arcdisplay.ws.function=self.funcComboBox.currentText()\n self.arcdisplay.ws.set_func()\n self.arcdisplay.findfit()",
"def is_destination_textbox_visible(self):\n return self.is_element_visible(self.reference_rates_destination_textbox_locator)",
"def change_display(self, func, text):\n for i in range(3, 5):\n Input.clear_display(self, self.entries[i])\n func.insert(INSERT, text)\n for i in range(3, 5):\n self.entries[i].configure(state='readonly')",
"def on_mode_changed(self):\n\n if self.mode.currentText() != self.ScaleCustom:\n self.width.setEnabled(False)\n self.height.setEnabled(False)\n self.resolution.hide()\n else:\n self.width.setEnabled(True)\n self.height.setEnabled(True)\n self.resolution.show()",
"def text_input_box_display(ai_settings, screen, buttons,screen_status, button_status, card_database_filter, user, player2):\n if button_status.text_input_box_display == True:\n button = Button('','', (0,0,0), 0, 0, 1200, 800, alpha = 100)\n button.update()\n button.draw(screen)\n\n button = Button('','', (255,255,255), 400, 275, 400, 180, alpha = 250)\n button.update()\n button.draw(screen)\n\n button = Button('PLEASE ENTER YOUR NAME','', (255,255,255), 400, 275, 400, 50, font_color = (0,0,0), font_size = 22, alpha = 0)\n button.update()\n button.draw(screen)\n\n button = Button('SAVE','', (40,120,40), 567, 410, 66, 30, font_size = 18)\n button.update()\n button.draw(screen)\n\n # Text box\n button = Button(user.name + '|','', (100,100,100), 450, 340, 300, 50, alpha = 250)\n button.update()\n button.draw(screen)",
"def get_rate(parent=None):\n dialog = RateDialog(parent)\n dialog.exec_()\n rate = dialog.rate\n return rate",
"def edit_text(self):\n self.text = self.ui.plainTextEdit.toPlainText()\n sentences_number = count_sentences(self.text)\n self.ui.label.setText(\n f\"{count_sentences(self.text)} sentences in source text\")\n self.ui.spinBox.setMaximum(sentences_number)",
"def spinbox_control(self, action):\n # Gets the current tab, so that it can check which of the spinboxes currently shown is\n # in focus, or choose one to be in focus \n c_tab = self.tabWidget.currentIndex()\n tab_content = {0:[self.VCV_frequency_spb,\n self.VCV_volume_spb,\n self.VCV_pressure_max_spb],\n 1:[self.PCV_frequency_spb,\n self.PCV_pressure_spb,\n self.PCV_volume_max_spb],\n 2:[self.PSV_pressure_spb,\n self.PSV_sensitivity_spb],\n 3:[self.al_tidal_volume_min_spb,\n self.al_tidal_volume_max_spb,\n self.al_volume_minute_min_spb,\n self.al_volume_minute_max_spb,\n self.al_flow_min_spb,\n self.al_flow_max_spb,\n self.al_paw_min_spb,\n self.al_paw_max_spb,\n self.al_plateau_pressure_min_spb,\n self.al_plateau_pressure_max_spb,\n self.al_PEEP_min_spb,\n self.al_PEEP_max_spb,\n self.al_frequency_min_spb,\n self.al_frequency_max_spb,\n self.al_apnea_min_spb,\n self.al_apnea_max_spb],\n 4:[self.cfg_tare_spb]}\n # By default will choose the first spinbox on the current tab.\n current_spb = tab_content[c_tab][0]\n # Going through the spinboxes of the current tab and checking whether they have the focus\n # The inhale_pause_spb is a special case, because it's not in any tab, but in the bottom bar\n for item in tab_content[c_tab], self.inhale_pause_spb:\n if item.hasFocus():\n current_spb = item\n continue\n\n if action == \"UP\":\n if self.cfg_beep_chkBox.isChecked():\n QtCore.QTimer.singleShot(1, lambda: self.worker_buzzer.short_buzz())\n if self.cfg_led_chkBox.isChecked():\n QtCore.QTimer.singleShot(1, lambda: self.worker_led.blink())\n self.change_value(current_spb, \"+\")\n elif action == \"DOWN\":\n if self.cfg_beep_chkBox.isChecked():\n QtCore.QTimer.singleShot(1, lambda: self.worker_buzzer.short_buzz())\n if self.cfg_led_chkBox.isChecked():\n QtCore.QTimer.singleShot(1, lambda: self.worker_led.blink())\n self.change_value(current_spb, \"-\")\n elif action == \"OK\":\n if self.cfg_beep_chkBox.isChecked():\n QtCore.QTimer.singleShot(1, lambda: self.worker_buzzer.short_buzz())\n if self.cfg_led_chkBox.isChecked():\n QtCore.QTimer.singleShot(1, lambda: self.worker_led.blink())\n # Put the next spinbox in focus\n nxt = tab_content[c_tab][(tab_content[c_tab].index(current_spb) + 1) % \n len(tab_content[c_tab])]\n nxt.setFocus()\n elif action == \"ROT\":\n if self.cfg_beep_chkBox.isChecked():\n QtCore.QTimer.singleShot(1, lambda: self.worker_buzzer.short_buzz())\n if self.cfg_led_chkBox.isChecked():\n QtCore.QTimer.singleShot(1, lambda: self.worker_led.blink())\n # Put the next spinbox in focus\n nxt = tab_content[c_tab][(tab_content[c_tab].index(current_spb) + 1) %\n len(tab_content[c_tab])]\n nxt.setFocus()\n elif action == \"CW\":\n self.change_value(current_spb, \"+\")\n elif action == \"CCW\":\n self.change_value(current_spb, \"-\")\n else:\n print(\"I just don't get it man\")"
] | [
"0.585902",
"0.58285135",
"0.5742675",
"0.5633683",
"0.56122875",
"0.55630994",
"0.55144715",
"0.54165554",
"0.54085267",
"0.527612",
"0.5242523",
"0.5203934",
"0.52011174",
"0.51840925",
"0.51645863",
"0.51645863",
"0.515549",
"0.5155203",
"0.51474774",
"0.51231897",
"0.51194096",
"0.51194096",
"0.51136",
"0.5112585",
"0.5110167",
"0.510718",
"0.5087844",
"0.50791794",
"0.5067511",
"0.50617063"
] | 0.7340884 | 0 |
Implementing is destination textbox visible functionality | def is_destination_textbox_visible(self):
return self.is_element_visible(self.reference_rates_destination_textbox_locator) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def is_destination_input_textbox_visible(self):\n return self.is_element_visible(self.destination_input_textbox_locator)",
"def is_visible(self):",
"def visible(self, show):",
"def isVisible(self):\n\t\treturn True",
"def TransferFromWindow(self):\n return True",
"def TransferToWindow(self):\n return True",
"def XPIsWidgetVisible(inWidget):\n pass",
"def check_target(event):\n target_text.set(target_text.get().lower())",
"def _textChangedSlot(self, text):\n self._param = QtXml.QDomElement()\n if qt4:\n qs = str(self.sender().property(\"dom address\").toPyObject())\n else:\n qs = str(self.sender().property(\"dom address\"))\n\n ind = qs.rfind('/')\n ids = qs[ind:]\n\n self._param = self.qhash[qs].elem.firstChildElement(\"Activate\")\n while(self._param.isNull() is False):\n qs = str(self._param.text()).strip() + ids\n widget_visible = self.qhash[qs].elem.attribute(\"Visible\", \"Uknown\")\n if(text != \"\"):\n self.qhash[qs].widget.setEnabled(True)\n self.qhash[qs].widget.show()\n self.qhash[qs].label.show()\n else:\n self.qhash[qs].widget.setEnabled(False)\n if(widget_visible != \"Unknown\"):\n self.qhash[qs].label.hide()\n self.qhash[qs].widget.hide()\n self._param = self._param.nextSiblingElement(\"Activate\")",
"def test_visible_widgets(plugin_dialog):\n\n assert plugin_dialog.direct_entry_edit.isVisible()\n assert plugin_dialog.direct_entry_btn.isVisible()",
"def isVisible(self, p_int): # real signature unknown; restored from __doc__\n return False",
"def isVisible(self, p_int): # real signature unknown; restored from __doc__\n return False",
"def is_rate_textbox_visible(self):\n return self.is_element_visible(self.reference_rates_rate_textbox_locator)",
"def AcceptsFocus(self):\n\n return self.IsShown() and self.IsEnabled()",
"def test_constructor_visible_widgets(plugin_dialog_constructor):\n assert not plugin_dialog_constructor.direct_entry_edit.isVisible()\n assert not plugin_dialog_constructor.direct_entry_btn.isVisible()",
"def modal(self):\r\n self.win.move(0, 0)\r\n self.editing = True\r\n goxapi.start_thread(self.cursor_placement_thread, \"TextBox cursor placement\")\r\n self.value = self.box.edit(self.validator)\r\n self.editing = False\r\n return self.result",
"def setVisible(*args):",
"def setVisible(*args):",
"def setVisible(*args):",
"def setVisible(*args):",
"def setVisible(*args):",
"def setVisible(*args):",
"def setVisible(*args):",
"def setVisible(*args):",
"def setVisible(*args):",
"def setVisible(*args):",
"def setVisible(*args):",
"def is_visible(self, path):\n return True",
"def show(self): \n InputItem.show(self)\n self.input.selectAll()",
"def show(self): \n InputItem.show(self)\n self.input.selectAll()"
] | [
"0.79481214",
"0.63726324",
"0.62058026",
"0.5769268",
"0.57671803",
"0.56315017",
"0.56102055",
"0.56078476",
"0.55685294",
"0.5537725",
"0.5535949",
"0.5535949",
"0.547866",
"0.5444465",
"0.542308",
"0.54227525",
"0.5418565",
"0.5418565",
"0.5418565",
"0.5418565",
"0.5418565",
"0.5418565",
"0.5418565",
"0.5418565",
"0.5418565",
"0.5418565",
"0.5418565",
"0.5404869",
"0.53610015",
"0.53610015"
] | 0.74499166 | 1 |
Implementing is reference rates grid accept column checkbox functionality | def is_reference_rates_grid_accept_column_checkbox(self):
is_checkbox = False
column_locator = (By.XPATH, "//div[contains(@id, '%s')]/descendant::th[@data-title='%s']" % (self.vendor_price_list_detail_reference_rates_grid_div_id, self.accept_column_name))
column_element = self.wait().until(EC.presence_of_element_located(column_locator), 'column locator not found before specified time out')
column_index = int(column_element.get_attribute("data-index")) + 1
column_type_locator = (By.XPATH, "//div[contains(@id, '%s')]/descendant::div[@class='k-grid-content']/descendant::tr/td[%s]/input" % (self.vendor_price_list_detail_reference_rates_grid_div_id, str(column_index)))
column_type_element = self.wait().until(EC.presence_of_element_located(column_type_locator), 'column type locator not found before specified time out')
column_type = column_type_element.get_attribute('type')
if column_type == "checkbox":
is_checkbox = True
return is_checkbox | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def select_charges_grid_row_checkbox(self, charge_name):\n self.select_grid_row_checkbox(self.charges_grid_div_id, charge_name, self.charges_grid_checkbox_column_number)",
"def change(self):\r\n\r\n # If checkboxes are available, check status and set boat speed reference line visibility accordingly.\r\n if self.cb:\r\n if self.cb_bt.checkState() == QtCore.Qt.Checked:\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 # GGA\r\n if self.cb_gga.checkState() == QtCore.Qt.Checked:\r\n for item in self.gga:\r\n item.set_visible(True)\r\n # self.gga[0].set_visible(True)\r\n elif self.gga is not None:\r\n for item in self.gga:\r\n item.set_visible(False)\r\n # self.gga[0].set_visible(False)\r\n # VTG\r\n if self.cb_vtg.checkState() == QtCore.Qt.Checked:\r\n for item in self.vtg:\r\n item.set_visible(True)\r\n # self.vtg[0].set_visible(True)\r\n elif self.vtg is not None:\r\n for item in self.vtg:\r\n item.set_visible(False)\r\n # self.vtg[0].set_visible(False)\r\n\r\n # Draw canvas\r\n self.canvas.draw()",
"def GridCheck(Parent,DefaultSelected,Row,Column):\r\n dummyvar = IntVar()\r\n C = Checkbutton(Parent,var=dummyvar)\r\n if DefaultSelected == 1:\r\n C.select()\r\n C.grid(row=Row,column=Column)\r\n C.isChecked = dummyvar\r\n return C",
"def _generateCellCheckedState(self, obj, **args):\n result = []\n if self._script.utilities.hasMeaningfulToggleAction(obj):\n oldRole = self._overrideRole(pyatspi.ROLE_CHECK_BOX, args)\n result.extend(self.generate(obj, **args))\n self._restoreRole(oldRole, args)\n\n return result",
"def select_add_disputes_grid_row_checkbox(self, list_of_audit_account):\n self.select_grid_row_checkbox(self.add_disputes_grid_div_id, list_of_audit_account, self.add_disputes_grid_checkbox_column_number)\n self.wait_for_ajax_spinner_load()",
"def change_entries(self, grid_sizer, options, border):\n\n if (self.diag_type is None): return grid_sizer # no data selected, don't change anything\n\n # setup the grid of possible values\n header0 = wx.StaticText(self, -1, \"Add/Remove\")\n header1 = wx.StaticText(self, -1, \"Quantity Code\")\n header2 = wx.StaticText(self, -1, \"Name\")\n header3 = wx.StaticText(self, -1, \"LaTeX Formula\")\n grid_sizer.Add(header0, pos=(0,0), flag=options, border=border)\n grid_sizer.Add(header1, pos=(0,1), flag=options, border=border)\n grid_sizer.Add(header2, pos=(0,2), flag=options, border=border)\n grid_sizer.Add(header3, pos=(0,3), flag=options, border=border)\n grid_sizer.Add(wx.StaticLine(self), pos=(1,0), span=(1,4),\n flag=wx.ALL|wx.EXPAND|wx.GROW, border=border)\n\n self.selected_values = [] # keep track of selected quantities\n\n quantities = self.output_quantities.diagnostic_types[self.diag_type]\n\n # choose a good height/width for formulas\n if (self.diag_type in [\"Linear_Forces\", \"Angular_Momentum\", \"Energy_Flux\",\n \"Induction\", \"Inertial_Forces\", \"Lorentz_Forces\",\n \"Poynting_Flux\", \"TurbKE_Budget\"]):\n width = 100\n elif (self.diag_type == \"Thermal_Equation\"):\n width = 150\n else:\n width = 30\n height = 20\n\n row = 2\n iquant = 0\n for Q in quantities:\n but = wx.ToggleButton(self, Q.code, \"Add\") # build button and place it in second column\n but.Bind(wx.EVT_TOGGLEBUTTON, self.OnToggle)\n grid_sizer.Add(but, pos=(row,0), flag=options, border=border)\n\n q_code = wx.StaticText(self, -1, str(Q.code)) # build other column entries\n q_name = wx.StaticText(self, -1, Q.name) # name\n\n formula = self.RenderTeX(Q, size=(width,height))\n\n # place column entries\n grid_sizer.Add(q_code, pos=(row,1), flag=options, border=border)\n grid_sizer.Add(q_name, pos=(row,2), flag=options, border=border)\n grid_sizer.Add(formula, pos=(row,3), flag=options, border=border)\n\n iquant += 1\n\n # add horizontal line every 5 quantities\n if (iquant % 5 == 0):\n grid_sizer.Add(wx.StaticLine(self), pos=(row+1,0), span=(1,4),\n flag=wx.ALL|wx.EXPAND|wx.GROW, border=border)\n row_inc = 2\n else:\n row_inc = 1\n\n row += row_inc\n\n grid_sizer.AddGrowableCol(2,1) # make the name/formula columns \"1\" growable, i.e., grows as necessary\n grid_sizer.AddGrowableCol(3,1)\n\n return grid_sizer",
"def on_celldatamethod(self, column, cell, model, iter, user_data=None):\n\t\t# should be a short/fast function since it is called very often!\n\t\t#datatype = model[iter][0][\"type\"]\n\t\tcell.set_property('visible', (user_data[0]==model[iter][0][\"type\"]))\n\t\tif (user_data[0]==\"check\"):\n\t\t\tcell.set_radio(model[iter][0].get(\"radio\", False))\n\t\t#self.window2.m.clear()\n\t\t#for item in model[iter][0].get(\"combo\", []):\n\t\t#\tself.window2.m.append([item])",
"def select_received_charges_grid_row_checkbox(self, row_identifier_text):\n self.select_grid_row_checkbox(self.received_charges_grid_div_id, row_identifier_text, self.received_charges_grid_checkbox_column_number)",
"def __grid_visibility_checkbox(self, c):\n self.grid_visibility(c.checked)\n self.__grid_visibility = c.checked",
"def __grid_visibility_checkbox(self, c):\n self.grid_visibility(c.checked)\n self.__grid_visibility = c.checked",
"def flags(self, index):\n superFlags = super(KickstartRepositoriesModel, self).flags(index)\n column = index.column()\n if column in (self.SslVerifyColumn, self.DisableColumn,\n self.SaveColumn, self.SourceColumn, self.DebugInfoColumn):\n superFlags = superFlags | Qt.ItemIsUserCheckable\n else:\n superFlags = superFlags | Qt.ItemIsEditable\n return superFlags",
"def select_non_traffic_charges_grid_row_checkbox(self, row_identifier_text):\n self.select_grid_row_checkbox(self.non_traffic_charges_grid_div_id, row_identifier_text, self.non_traffic_charges_grid_checkbox_column_number, first_row=True)",
"def isEnabled(self):",
"def on_chkenable_change(self):\n logger.debug(\"Enabled checkbox changed\")\n if self.vars[\"enabled\"].get():\n self.subnotebook_show()\n else:\n self.subnotebook_hide()\n self.set_info_text()",
"def flags(self, midx):\n flags = qtc.Qt.ItemIsEditable | qtc.Qt.ItemIsEnabled\n if (midx.row() + 1 == self.rowCount(ROOT_MIDX)):\n flags = qtc.Qt.ItemIsSelectable\n else:\n cond = self._sel.give_cond(midx.row())\n if(cond.__contains__(u\"Pressure\")):\n if(midx.column() > 2):\n flags = qtc.Qt.ItemIsSelectable\n else:\n flags = qtc.Qt.ItemIsEditable | qtc.Qt.ItemIsEnabled\n elif(cond.__contains__(u\"Force_Face\")):\n if(midx.column() > 4):\n flags = qtc.Qt.ItemIsSelectable\n else:\n flags = qtc.Qt.ItemIsEditable | qtc.Qt.ItemIsEnabled\n #log_gui.debug(\"flags: %d row: %d column: %d\",flags,midx.row(),midx.column())\n return flags",
"def on_geometry_check(self, geometry_item):\n # don't bother for non-checked events\n if not geometry_item.has_checked_changed():\n return\n # leave checked while search is running\n if self.is_searching():\n geometry_item.setCheckState(Qt.Checked)\n return\n # keep to the same if exporting\n if self.is_exporting():\n if geometry_item.is_checked:\n geometry_item.setCheckState(Qt.Checked)\n else:\n geometry_item.setCheckState(Qt.Unchecked)\n return\n is_checked = geometry_item.current_state()\n for key, type_entry in geometry_item.type_entries.iteritems():\n if is_checked:\n type_entry.enable_geometry(geometry_item.title, self.sources)\n else:\n type_entry.disable_geometry(geometry_item.title, self.sources)\n geometry_item.update_checked()",
"def Check(self, vtkGenericCell, p_float):\n ...",
"def check_box(self, grid: object, name: str, xposition: int, yposition: int,\n synchronize: bool = False, xspan: int = 1, yspan: int = 1) -> QtWidgets.QCheckBox:\n label = QtWidgets.QLabel()\n label.setText(TR().tr(name) + ':')\n grid.addWidget(label, yposition, xposition, 1, 1)\n\n input = QtWidgets.QCheckBox()\n input.setObjectName(name)\n if synchronize:\n self.synchronize(input)\n grid.addWidget(input, yposition, xposition + 1, yspan, xspan)\n input.stateChanged.connect(self.data_changed)\n\n return input",
"def onCheckbuttonChecked(self):\n if self.CheckButton.isChecked() == True:\n if not self.LLN_Node:\n self.Stats.scalarSelector.setCurrentNode(None)\n self.NativeT1_Selector.setCurrentNode(None) \n self.Stats.scalarSelector.enabled = False\n self.NativeT1_Selector.enabled = False\n else:\n self.Stats.scalarSelector.setCurrentNode(self.T1_LLN_Node)\n self.NativeT1_Selector.setCurrentNode(self.T1_LLN_Node)\n self.Stats.scalarSelector.enabled = False\n self.NativeT1_Selector.enabled = False\n if self.LLE_Node:\n self.Stats.scalarSelector2.setCurrentNode(self.T1_LLE_Node)\n self.EnhancedT1_Selector.setCurrentNode(self.T1_LLE_Node)\n self.Stats.scalarSelector2.enabled = False\n self.EnhancedT1_Selector.enabled = False \n else:\n self.Stats.scalarSelector2.setCurrentNode(None)\n self.EnhancedT1_Selector.setCurrentNode(None) \n self.Stats.scalarSelector2.enabled = False\n self.EnhancedT1_Selector.enabled = False \n else:\n self.Stats.scalarSelector.setCurrentNode(None)\n self.Stats.scalarSelector2.setCurrentNode(None)\n self.NativeT1_Selector.setCurrentNode(None)\n self.EnhancedT1_Selector.setCurrentNode(None)\n self.Stats.scalarSelector.enabled = True\n self.NativeT1_Selector.enabled = True\n self.Stats.scalarSelector2.enabled = True\n self.EnhancedT1_Selector.enabled = True",
"def populate_filter(self, src, col, tbl):\r\n sub_cats = set([c for l in kit.SQL_pull(col, tbl) for c in l])\r\n select = {g: tk.BooleanVar() for g in sub_cats}\r\n for key in select:\r\n select[key].set(True)\r\n \r\n line = 1\r\n for g in sub_cats:\r\n line += 1\r\n tk.Checkbutton(src,\r\n text = g,\r\n variable = select[g],\r\n command = lambda x = tbl,\r\n y = False,\r\n z = select: self.checked(x, y, z),\r\n **jt.filter_style).grid(row = line, \r\n sticky = tk.W)\r\n \r\n return select",
"def select_disputes_grid_row_checkbox(self, statement_number):\n self.select_grid_row_checkbox(self.disputes_grid_div_id, statement_number, self.disputes_grid_checkbox_column_number)\n self.wait_for_ajax_spinner_load()",
"def flags(self, midx):\n flags = qtc.Qt.ItemIsEditable | qtc.Qt.ItemIsEnabled\n if (midx.row() + 1 == self.rowCount(ROOT_MIDX)):\n flags = qtc.Qt.ItemIsSelectable\n else:\n cond = self._sel.give_cond(midx.row())\n if(cond.__contains__(u\"bond\") or cond.__contains__(u\"Frictionless\")):\n if(midx.column() > 2):\n flags = qtc.Qt.ItemIsSelectable\n else:\n flags = qtc.Qt.ItemIsEditable | qtc.Qt.ItemIsEnabled\n return flags",
"def __grid_relative_checkbox(self, c):\n self.__graphics_grid.set_relative(c.checked)\n self.__grid_relative = c.checked",
"def __grid_relative_checkbox(self, c):\n self.__graphics_grid.set_relative(c.checked)\n self.__grid_relative = c.checked",
"def on_source_checked(self, source_item):\n # don't bother for non-checked events\n if not source_item.has_checked_changed():\n return\n # leave checked for as long as search is running\n if self.is_searching():\n source_item.setCheckState(Qt.Checked)\n return\n # keep to the same if exporting\n if self.is_exporting():\n if source_item.is_checked:\n source_item.setCheckState(Qt.Checked)\n else:\n source_item.setCheckState(Qt.Unchecked)\n return\n is_checked = source_item.current_state()\n for key, geometry in source_item.geometries.iteritems():\n if is_checked:\n geometry.enable_source(source_item.title)\n else:\n geometry.disable_source(source_item.title)\n for key, type_entry in source_item.type_entries.iteritems():\n if is_checked:\n type_entry.enable_source(source_item.title, self.geometries)\n else:\n type_entry.disable_source(source_item.title, self.geometries)\n source_item.update_checked()",
"def OnToggleButtonRateFlagTogglebutton(self, event):\r\n\t\tself._configtmp[\"flagimage\"] = self.toggleButtonRateFlag.GetValue()",
"def _updateState(self):\n\n self.changeColorBtn.setEnabled(self.transformTypeCbx.isChecked() or self.shapeTypeCbx.isChecked())",
"def verify_rates_grid_columns(self):\n is_verified = True\n if(self.is_element_present(self.rates_grid_destination_column_locator) == False):\n is_verified = False\n if (is_verified != False):\n for column_name in self.compare_price_lists_list:\n rates_grid_new_column_locator = (By.XPATH, \"//div[@id='divComaprePriceListRate']/descendant::span[contains(text(),'%s')]\" % column_name)\n if (self.is_element_present(rates_grid_new_column_locator) == False):\n is_verified = False\n break\n return is_verified",
"def onClickCheckbutton(self):\r\n self.app.unbind()\r\n mask = []\r\n for val in self.intvars:\r\n mask.append(val.get())\r\n # Recreate fNIRS Channels with channel mask\r\n self.app.reconfigureChannels(self.app.dataPath,mask)\r\n self.app.bindHotkeys()",
"def on_cell_toggled(self, widget, path):\n self.store[path][5] = not self.store[path][5]\n # propagate the choice to the direct children\n treeiter = self.store.get_iter(path)\n if self.store.iter_has_child(treeiter):\n childiter = self.store.iter_children(treeiter)\n while childiter != None:\n self.store[childiter][5] = self.store[treeiter][5]\n childiter = self.store.iter_next(childiter)"
] | [
"0.60020477",
"0.5796037",
"0.57856584",
"0.5734008",
"0.55744576",
"0.55265397",
"0.5507848",
"0.55049914",
"0.54904765",
"0.54904765",
"0.54887545",
"0.5482272",
"0.5472799",
"0.5458002",
"0.54576063",
"0.54355574",
"0.53913075",
"0.5348452",
"0.5313461",
"0.5311164",
"0.52929735",
"0.5288848",
"0.5264211",
"0.5264211",
"0.5243985",
"0.5238821",
"0.520902",
"0.52070737",
"0.52019924",
"0.52002764"
] | 0.7303482 | 0 |
Implementing is number plan changes grid header dialed digits mcc mnc functionality | def is_number_plan_changes_grid_header_dialed_digits_mcc_mnc(self):
return self.is_element_present(self.re_analysis_details_number_plan_changes_grid_dialed_digits_column_locator) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def Ncen(self, m):\n pass",
"def getMcnpId(self):\n z, a = self.z, self.a\n\n if z == 95 and a == 242:\n # Am242 has special rules\n if self.state != 1:\n # MCNP uses base state for the common metastable state AM242M , so AM242M is just 95242\n # AM242 base state is called 95642 (+400) in mcnp.\n # see https://mcnp.lanl.gov/pdf_files/la-ur-08-1999.pdf\n # New ACE-Formatted Neutron and Proton Libraries Based on ENDF/B-VII.0\n a += 300 + 100 * max(self.state, 1)\n elif self.state > 0:\n # in general mcnp adds 300 + 100*m to the Z number for metastables. see above source\n a += 300 + 100 * self.state\n\n return \"{z:d}{a:03d}\".format(z=z, a=a)",
"def grid_line(object):\n def __init__(self, casenum):\n self.casenum = casenum\n \n def getList(self):\n \"\"\"\n to get the whole list of grid line data\n \"\"\"\n lineList = get_array(self.casenum, 'branch')\n self.lineList = lineList\n return lineList\n \n def getLineNum(self):\n \"\"\"\n :return: number of lines\n \"\"\"\n self.lineNum = len(self.getList())\n return self.lineNum\n \n def getFBus(self):\n \"\"\"\n :return:list of \"from\" bus numbers\n \"\"\"\n FBus = []\n for e in self.getList():\n FBus.append(e[0])\n self.FBus = FBus\n return self.Bus\n \n def getTBus(self):\n \"\"\"\n :return: list of \"to\" bus numbers\n \"\"\"\n TBus = []\n for e in self.getList():\n TBus.append(e[1])\n self.TBus = TBus\n return self.TBus",
"def _addStatsHeadersToMatrix(self, m):\n\n atoz = \"JKLMNOPQRSTUVWXYZABCDEFGHI\"\n\n counter = 0\n\n for col in m.TopAxis.DataMembers:\n if counter < 26:\n logicalletter = str(atoz[counter])\n col.MemberSigTestHeading = logicalletter\n counter += 1\n else:\n counter = 0",
"def switch(n, m):\r\n out = []\r\n\r\n # Convert to stupid letters for 1 and 2\r\n name_letters = {1: \"S\", 2: \"D\"}\r\n name_n = name_letters[n] if n in name_letters else str(n)\r\n name_m = name_letters[m] if m in name_letters else str(m)\r\n\r\n # Number of pins on the right is n*m, plus one per pole for spacing,\r\n # minus the final spacing (n starts at 1), rounded up to nearest odd\r\n # number so that half the height is on the 100mil grid.\r\n n_pins_right = n * m + n - 1\r\n if n_pins_right % 2 == 0:\r\n n_pins_right += 1\r\n height = 100 * (n_pins_right - 1)\r\n hheight = height // 2\r\n\r\n # Ref goes at the top, 100 above the top pin, unless only one throw\r\n # in which case we also need to clear the switch graphic\r\n refheight = hheight + 100\r\n if m == 1:\r\n refheight += 50\r\n\r\n # Value/name goes below, unless m is even, in which case the bottom spacer\r\n # isn't there so needs to be ignored\r\n valheight = -(hheight + 100)\r\n if n % 2 == 1 and m % 2 == 0:\r\n valheight += 100\r\n\r\n # Output component header\r\n name = \"SWITCH_{}P{}T\".format(name_n, name_m)\r\n out.append(\"#\\n# {}\\n#\".format(name))\r\n out.append('DEF {} SW 0 1 Y N 1 F N'.format(name))\r\n out.append('F0 \"SW\" 0 {} 50 H V C CNN'.format(refheight))\r\n out.append('F1 \"{}\" 0 {} 50 H V C CNN'.format(name, valheight))\r\n out.append('F2 \"\" 0 0 50 H I C CNN')\r\n out.append('F3 \"\" 0 0 50 H I C CNN')\r\n out.append('DRAW')\r\n\r\n # Output drawing\r\n pole_top = hheight\r\n for pole in range(n):\r\n # Draw pole\r\n pole_num = pole*(m+1) + 2\r\n pole_y = pole_top - (100 * (m - 1))//2\r\n if m % 2 == 0:\r\n pole_y -= 50\r\n out.append('X \"~\" {} -100 {} 40 R 50 50 1 1 P'\r\n .format(pole_num, pole_y))\r\n out.append('C -50 {} 10 1 1 0 N'.format(pole_y))\r\n out.append('P 2 1 1 0 -50 {} 50 {} N'\r\n .format(pole_y + 10, pole_y + 90))\r\n\r\n for throw in range(m):\r\n # Draw throws\r\n throw_num = pole_num + throw - 1\r\n throw_y = pole_top - 100 * throw\r\n if throw > 0:\r\n throw_num += 1\r\n out.append('X \"~\" {} 100 {} 40 L 50 50 1 1 P'\r\n .format(throw_num, throw_y))\r\n out.append('C 50 {} 10 1 1 0 N'.format(throw_y))\r\n\r\n # Move down for next pole\r\n pole_top -= 100 * (m + 1)\r\n\r\n # Draw connecting dashed line\r\n if n > 1:\r\n pole_y = hheight - (100 * (m - 1))//2 + 50\r\n if m % 2 == 0:\r\n pole_y -= 50\r\n for _ in range(5*(m+1)*(n-1)):\r\n out.append('P 2 1 1 0 0 {} 0 {} N'\r\n .format(pole_y, pole_y - 5))\r\n pole_y -= 20\r\n\r\n # Done\r\n out.append('ENDDRAW\\nENDDEF\\n')\r\n\r\n return out",
"def contracting_channel(m, n, W_upstream = 1., W_downstream = 0.75,\n L_1 = 5.0, L_2 = 2.0, L_3 = 10, origin = (0.0, 0.0)):\n\n import math\n\n from anuga.config import epsilon\n\n\n lenx = L_1 + L_2 + L_3\n leny = W_upstream\n deltax = lenx/float(m)\n deltay = leny/float(n)\n\n x1 = 0\n y1 = 0\n x2 = L_1\n y2 = 0\n x3 = L_1 + L_2\n y3 = (W_upstream - W_downstream)/2\n x4 = L_1 + L_2 + L_3\n y4 = y3\n x5 = x4\n y5 = y4 + W_downstream\n x6 = L_1 + L_2\n y6 = y5\n x7 = L_1\n y7 = W_upstream\n x8 = 0\n y8 = W_upstream\n a1 = 0\n a2 = (W_upstream - W_downstream)/(2*L_2)\n a3 = 1\n a4 = (W_downstream - W_upstream)/(L_2*W_upstream)\n\n # Dictionary of vertex objects\n vertices = {}\n points = []\n\n for i in range(m+1):\n x = deltax*i\n for j in range(n+1):\n y = deltay*j\n if x > L_1 and x <= (L_1 + L_2):\n y = a1 + a2*(x - L_1) + a3*y + a4*(x - L_1)*y\n elif x > L_1 + L_2:\n y = (W_upstream - W_downstream)/2 + deltay*j*W_downstream/W_upstream\n\n vertices[i,j] = len(points)\n points.append([x + origin[0], y + origin[1]])\n\n # Construct 2 triangles per element\n elements = []\n boundary = {}\n for i in range(m):\n for j in range(n):\n v1 = vertices[i,j+1]\n v2 = vertices[i,j]\n v3 = vertices[i+1,j+1]\n v4 = vertices[i+1,j]\n\n #Update boundary dictionary and create elements\n if i == m-1:\n boundary[(len(elements), 2)] = 'right'\n if j == 0:\n boundary[(len(elements), 1)] = 'bottom'\n elements.append([v4,v3,v2]) #Lower\n\n if i == 0:\n boundary[(len(elements), 2)] = 'left'\n if j == n-1:\n boundary[(len(elements), 1)] = 'top'\n\n elements.append([v1,v2,v3]) #Upper\n\n return points, elements, boundary",
"def nircam_header(ra=53.1592277508136, dec=-27.782056346146, pa_aper=128.589, \n filter='F444W', grism='DFSR'): \n naxis = 2048, 2048\n crpix = 1024, 1024\n \n cd = np.array([[ -0.0648, 0], [0, 0.0648]])/3600.\n cd_rot = rotate_CD_matrix(cd, pa_aper)\n \n h = pyfits.Header()\n \n h['CRVAL1'] = ra\n h['CRVAL2'] = dec\n \n h['WCSAXES'] = 2\n h['CTYPE1'] = 'RA---TAN'\n h['CTYPE2'] = 'DEC--TAN'\n \n for i in range(2):\n h['NAXIS%d' %(i+1)] = naxis[i]\n h['CRPIX%d' %(i+1)] = crpix[i]\n h['CDELT%d' %(i+1)] = 1.0\n for j in range(2):\n h['CD%d_%d' %(i+1, j+1)] = cd_rot[i,j]\n \n ### Backgrounds\n # http://www.stsci.edu/jwst/instruments/niriss/software-tools/wfss-simulations/niriss-wfss-cookbook.pdf\n bg = {'F277W':0.30, 'F356W':0.90, 'F444W': 3.00, 'F322W2':1.25, 'F430M':0.65, 'F460M':0.86, 'F410M':0.5} # F410M is a hack, no number\n \n h['BACKGR'] = bg[filter], 'Total, e/s'\n h['FILTER'] = filter\n h['INSTRUME'] = 'NIRCam'\n h['READN'] = 9, 'Rough, per pixel per 1 ks exposure' # e/pix/per\n h['PHOTFLAM'] = 1.\n h['PHOTPLAM'] = 1.\n \n if grism == 'DFSR':\n h['GRISM'] = 'DFSR', 'Spectral trace along X'\n else:\n h['GRISM'] = 'DFSC', 'Spectral trace along Y'\n \n wcs = pywcs.WCS(h)\n h['EXTVER'] = 1\n \n return h, wcs",
"def test_inter_num_cc(self, n, hels):\n def ia_scaling(x, y): return (\n ((x ** 2) * (y - 1) * y) / 2) * 16 if x > 0.0 else 0.0\n cc = isambard.specifications.CoiledCoil.from_parameters(\n hels, n, 7.0, 180.0, 18.0)\n cc.assign_force_field(self.ff)\n buff_interactions = isambard.buff.find_inter_ampal(cc, 1000)\n self.assertEqual(len(buff_interactions), ia_scaling(n, hels))",
"def cloudy_grid_ISM_phases(**kwargs):\n\n p = copy.copy(params)\n for key,val in kwargs.items():\n setattr(p,key,val)\n\n cloudy_library = clo.library()\n print('Grid extension: ',p.grid_ext)\n model_number_matrix,grid_table = cloudy_library._restore_grid_table(grid_ext=p.grid_ext)\n grid_table = grid_table.reset_index(drop=True)\n f = grid_table['f_%s' % p.ISM_phase].values.astype(float)\n line_lum = grid_table[p.line].values.astype(float)\n print('Strange 1-zone models with low f_HII but high [NII]:')\n print(grid_table[['f_H2','f_HI','f_HII','nH','Z',p.line,'Exit code']].iloc[(f < 0.025) & (line_lum > 30000)])\n print(grid_table[['f_H2','f_HI','f_HII','nH',p.line,'Exit code']].iloc[(f < 0.025) & (line_lum > 30000)].nH.min())\n print(len(grid_table[['f_H2','f_HI','f_HII','nH',p.line,'Exit code']].iloc[(f < 0.025) & (line_lum > 30000)]))\n\n # Now only take part actually used by table\n if 'ext' not in p.grid_ext: grid_table= grid_table[grid_table['nH'] <= 2].reset_index(drop=True)\n if 'ext' in p.grid_ext: grid_table= grid_table[grid_table['nH'] > 2].reset_index(drop=True)\n\n f = grid_table['f_%s' % p.ISM_phase].values.astype(float)\n line_lum = grid_table[p.line].values.astype(float)\n Z = grid_table['Z'].values.astype(float)\n test = grid_table['f_H2'].values.astype(float) + \\\n grid_table['f_HI'].values.astype(float) + \\\n grid_table['f_HII'].values.astype(float)\n grid_table = grid_table.iloc[test !=0].reset_index(drop=True)\n f = f[test !=0]\n line_lum = line_lum[test !=0]\n Z = Z[test !=0]\n\n fig,ax = plt.subplots(figsize=(8,5))\n sc = ax.scatter(f,line_lum,c=Z)\n ax.set_xlabel('%s ISM fraction' % p.ISM_phase); ax.set_ylabel('%s luminosity' % p.line)\n plt.colorbar(sc,label='Z')\n plt.tight_layout()\n plt.savefig(p.d_plot + 'look-up/ISM_phases_%s_grid%s' % (p.line,p.grid_ext),dpi=250)",
"def table_for_mi(n11, n10, n01, n00, feature, w=15):\r\n\r\n table = '|{}|{}|{}|'.format(''.center(w), feature.center(\r\n w), 'No \"{}\"'.format(feature).center(w))\r\n table += '\\n|' + '-' * w\r\n table += '|' + '-' * w\r\n table += '|' + '-' * w\r\n table += '|'\r\n\r\n table += '\\n|{}|{}|{}|'.format('y(=1)'.center(w),\r\n '{}'.format(n11).center(w), '{}'.format(n10).center(w))\r\n table += '\\n|{}|{}|{}|'.format('y(=0)'.center(w),\r\n '{}'.format(n01).center(w), '{}'.format(n00).center(w))\r\n\r\n return table",
"def cholM2M(self,cholM):\n cMnp = 0\n n = self.n\n for i in range(n):\n lb = int(i*(i+1)/2)\n ub = int((i+1)*(i+2)/2)\n Di = cholM[lb:ub]\n Di = np.diag(Di,n-(i+1))\n cMnp += Di\n M = (cMnp.T)@cMnp\n return M",
"def coeff_display_M202(Nstar=1,seeing=[0.9,0.,0.],npix=npix,zenith=0,filter='r', theta=0., phi=0,corrector='corrector',x=0.,y=0.,z=0.,zernike_max_order=20,regular=False):\n hdu = genImgVallCCD(Nstar=Nstar,seeing=seeing,npix=npix,zenith=zenith,filter=filter, theta=theta,phi=phi, corrector=corrector,x=x,y=y,z=z,regular=regular)\n nn = len(hdu)\n data = []\n colnames = ['x','y','M20','M22','M31','M33']\n for hdui in hdu[1:]:\n Nobj = hdui.data.shape[0]\n M20=np.zeros(Nobj)\n M22=np.zeros(Nobj).astype(complex)\n M31=np.zeros(Nobj).astype(complex)\n M33=np.zeros(Nobj).astype(complex)\n for i in range(Nobj):\n img = hdui.data[i][4:].reshape(npix,npix)\n img = rebin(img,(40,40))\n M20,M22,M31,M33=complexMoments(data=img,sigma=4.)\n x=hdui.header['ccdXcen']\n y=hdui.header['ccdYcen']\n data.append([x,y,np.median(M20), np.median(M22), np.median(M31), np.median(M33)])\n data=np.array(data) \n betaAll=[]\n betaErrAll=[]\n R2adjAll=[]\n beta,betaErr,R2_adj,fitted = zernikeFit(data[:,0].real,data[:,1].real,data[:,2].real,max_order=zernike_max_order)\n betaAll.append(beta)\n betaErrAll.append(betaErr)\n R2adjAll.append(R2_adj)\n for i in range(3,6):\n beta,betaErr,R2_adj,fitted = zernikeFit(data[:,0].real,data[:,1].real,data[:,i].real,max_order=zernike_max_order)\n betaAll.append(beta)\n betaErrAll.append(betaErr)\n R2adjAll.append(R2_adj)\n beta,betaErr,R2_adj,fitted = zernikeFit(data[:,0].real,data[:,1].real,data[:,i].imag,max_order=zernike_max_order)\n betaAll.append(beta)\n betaErrAll.append(betaErr)\n R2adjAll.append(R2_adj)\n betaAll = np.array(betaAll)\n betaErrAll = np.array(betaErrAll)\n R2adjAll = np.array(R2adjAll)\n ind = np.arange(len(betaAll[0]))\n momname = ('M20','M22.Real','M22.imag','M31.real','M31.imag','M33.real','M33.imag')\n fmtarr = ['bo-','ro-','go-','co-','mo-','yo-','ko-']\n pl.figure(figsize=(17,7))\n for i in range(3):\n pl.subplot(4,1,i+1)\n pl.errorbar(ind[1:],betaAll[i][1:],yerr = betaErrAll[i][1:],fmt=fmtarr[i])\n if i == 0:\n pl.title('x: '+str(hdu[0].header['x'])+' y: '+str(hdu[0].header['y'])+' z: '+str(hdu[0].header['z'])+' tilt: '+str(hdu[0].header['theta'])+' fwhm: '+str(hdu[0].header['s_fwhm'])+' e1: '+str(hdu[0].header['e1'])+' e2: '+str(hdu[0].header['e2']))\n pl.grid()\n pl.xlim(-1,len(betaAll[i])+1)\n pl.ylim(min(betaAll[i][1:])-0.5,max(betaAll[i][1:])+0.5)\n #pl.ylim(-0.1,0.1)\n pl.xticks(ind,('','','','','','','','','','','','','','','','','','','',''))\n pl.ylabel(momname[i])\n pl.xticks(ind,('Piston','Tip','Tilt','Astignism','Defocus','Astignism','Trefoil','Coma','Coma','Trefoil','Ashtray','Astigm.5th','Spherical','Astigm.5th','Ashtray','16','17','18','19','20'),rotation=90)\n pl.xlabel('Zernike Coefficients')\n return betaAll,betaErrAll",
"def _prepare_grid(self):\n raise NotImplementedError",
"def getGridName(self, in_nc, high_res=False):\r\n if high_res:\r\n return 'ecmwf_t1279'\r\n return 'ecmwf_tco639'\r\n #if high_res: # Line Added/Modified CJB 20190108\r\n #return 'ecmwf_HRES_F' # Line Added/Modified CJB 20190108\r\n #else: # MJS 20190108\r\n #return 'ecmwf_ENS_F' # Line Added/Modified MJS, CJB 20190108\r",
"def mmn(modul_number, modul_size, kmin, kmax, g, c, offset):\n check_unique = 0 # Checks if inter mod. con. are unique\n check_con = 0 # Checks if network is connected\n while check_unique != modul_number*c/2 or check_con != 1:\n inter_nodes = np.zeros((modul_number, c))\n network = gt.Graph(directed=False)\n # Constructs disconnected modules and combines them in a network\n # in the graph tool format.\n for i in range(modul_number):\n module_network, inter_nodes[i] = configuration_model(\n g, kmin, kmax,\n modul_size, c, offset)\n # Assigns the nodes to the corresponding module.\n inter_nodes[i] += i*modul_size\n network = gt.generation.graph_union(network, module_network)\n\n inter_nodes = np.transpose(inter_nodes)\n for row in inter_nodes:\n np.random.shuffle(row)\n\n inter_links = inter_nodes.ravel().reshape((int(modul_number*c/2), 2))\n check_unique = len(np.unique(inter_links, axis=0))\n network.add_edge_list(inter_links)\n\n _, check_con = gt.topology.label_components(network)\n check_con = len(check_con)\n \n return network",
"def _vtkGmsh(indGmsh):\n if (indGmsh == 1):\n indVtk = 3\n pass\n elif (indGmsh == 2):\n indVtk = 5\n pass\n elif (indGmsh == 3):\n indVtk = 9\n pass\n elif (indGmsh == 4):\n indVtk = 10\n pass\n elif (indGmsh == 5):\n indVtk = 12\n pass\n elif indGmsh == 6: # 6-node prism\n indVtk = 13\n pass\n elif indGmsh == 7: # 5-node pyramid\n indVtk = 14\n pass\n return indVtk",
"def setup_crubadan():\n for n in [1,2,3,4,5,'word']:\n for option in ['mi','pmi']:\n get_matrix(datasource='crubadan', n=n, option=option)",
"def chernNum(self, kx_Bz=np.array([0,4*np.pi/3]), \n ky_Bz=np.array([0,2*np.pi/np.sqrt(3)]), \n N_res=30):\n x_eps = 0.3 # shift from Dirac point\n x_res = 20\n kx_int = 0 + x_eps # -np.pi\n kx_fin = 4*np.pi/3 + x_eps\n Dx = (kx_fin - kx_int)/x_res\n\n y_res = 20\n ky_int = 0 # -np.pi\n ky_fin = 2*np.pi/np.sqrt(3)\n Dy = (ky_fin - ky_int)/y_res\n\n Nd = self.Nd # dimension of the Hamiltonian\n Dk = np.array([Dx,Dy], float)\n\n LF = np.zeros((Nd), dtype=complex)\n LF_arr = np.zeros((Nd,x_res, y_res), dtype=float)\n E_arr = np.zeros((Nd,x_res, y_res), dtype=float)\n sumN = np.zeros((Nd), dtype=complex)\n E_k = np.zeros((Nd), dtype=complex)\n chernN = np.zeros((Nd), dtype=complex)\n\n # Loop over kx\n for ix in range(x_res):\n kx = kx_int + ix*Dx\n\n # Loop over ky\n for iy in range(y_res):\n ky = ky_int + iy*Dy\n\n k_vec = np.array([kx,ky], float)\n\n LF, E_k = self.latF(k_vec, Dk, self.delta)\n\n sumN += LF\n\n # # save data for plotting\n LF_arr[:,ix,iy] = LF.imag\n\n E_arr[:,ix,iy] = np.sort(E_k.real)\n\n # End of ky Loop\n # End of kx Loop\n\n chernN = sumN.imag/(2*np.pi)\n print(\"Chern number bands are (%.3f, %.3f) \" \n %(chernN[0], chernN[1]))\n print(\"Sum of all bands Chern Number is %.2f \" %(sum(chernN)))\n return chernN, E_arr\n #################### ",
"def niriss_header(ra=53.1592277508136, dec=-27.782056346146, pa_aper=128.589, \n filter='F150W', grism='GR150R'): \n naxis = 2048, 2048\n crpix = 1024, 1024\n \n cd = np.array([[ -0.0658, 0], [0, 0.0654]])/3600.\n cd_rot = rotate_CD_matrix(cd, pa_aper)\n \n h = pyfits.Header()\n \n h['CRVAL1'] = ra\n h['CRVAL2'] = dec\n \n h['WCSAXES'] = 2\n h['CTYPE1'] = 'RA---TAN'\n h['CTYPE2'] = 'DEC--TAN'\n \n for i in range(2):\n h['NAXIS%d' %(i+1)] = naxis[i]\n h['CRPIX%d' %(i+1)] = crpix[i]\n h['CDELT%d' %(i+1)] = 1.0\n for j in range(2):\n h['CD%d_%d' %(i+1, j+1)] = cd_rot[i,j]\n \n ### Backgrounds\n # http://www.stsci.edu/jwst/instruments/niriss/software-tools/wfss-simulations/niriss-wfss-cookbook.pdf\n bg = {'F090W':0.50, 'F115W':0.47, 'F140M':0.23, 'F150W':0.48, 'F158M':0.25, 'F200W':0.44}\n \n h['BACKGR'] = bg[filter], 'Total, e/s'\n h['FILTER'] = filter\n h['INSTRUME'] = 'NIRISS'\n h['READN'] = 6 , 'Rough, per pixel per 1 ks exposure' # e/pix/per\n h['PHOTFLAM'] = 1.\n h['PHOTPLAM'] = 1.\n \n if grism == 'GR150R':\n h['GRISM'] = 'GR150R', 'Spectral trace along X'\n else:\n h['GRISM'] = 'GR150C', 'Spectral trace along Y'\n \n wcs = pywcs.WCS(h)\n h['EXTVER'] = 1\n \n return h, wcs",
"def croscor(self):\n l=self.l\n if len(self.inputs['L0'])>1: \n title ='Align L0 inputs'\n chans0=self.chansl0\n cmddata='take1SSM(1,'\n CorellateGroup(self.vb,title,'1',chans0,'0','0','0','0','15',cmddata)\n if len(self.inputs['L1'])>1: \n title ='Align L1 inputs'\n chans1=self.chansl1\n cmddata='take1SSM(2,'\n CorellateGroup(self.vb,title,'1','0',chans1,'0','0','0','15',cmddata)\n if len(self.inputs['L2'])>1: \n title ='Align L2 inputs'\n chans2=self.chansl2\n cmddata='take1SSM(3,'\n CorellateGroup(self.vb,title,'1','0','0',chans2,'0','0','15',cmddata)\n if len(self.inputs['H0'])>1: \n title ='Align H0 inputs'\n chansh=self.chansh0\n cmddata='takerbSSM('\n CorellateGroup(self.vb,title,'1','0','0','0',chansh,'0','15',cmddata)\n if l==3: \n print \"Correlatin L0-L1 ----------------\"\n title ='Find L0-L1 inputs delay'\n chans0=self.l0anyinp\n chans1=self.l1anyinp\n cmddata='take2SSM(1,2,'\n CorellateGroup(self.vb,title,'1',chans0,chans1,'0','0','250','15',cmddata)\n if l==5: \n title ='Find L0-L2 inputs delay'\n chans0=self.l0anyinp\n chans2=self.l1anyinp\n cmddata='take2SSM(1,3,'\n CorellateGroup(self.vb,title,'1',chans0,'0',chans2,'0','3520','15',cmddata)\n if l==6: \n title ='Find L1-L2 inputs delay'\n chans1=self.l1anyinp\n chans2=self.l2anyinp\n cmddata='take2SSM(2,3,'\n CorellateGroup(self.vb,title,'1','0',chans1,chans2,'0','3312','15',cmddata)\n if l==7: \n chans0=self.l0anyinp\n chans1=self.l1anyinp\n chans2=self.l2anyinp\n title ='Find L0-L1 inputs delay'\n cmddata='take2SSM(1,2,'\n CorellateGroup(self.vb,title,'1',chans0,chans1,'0','0','250','15',cmddata)\n title ='Find L1-L2 inputs delay'\n cmddata='take2SSM(2,3,'\n CorellateGroup(self.vb,title,'1','0',chans1,chans2,'0','3312','15',cmddata)",
"def influence_matrix(self, span: typing.Sequence[int], grid_spacing: typing.Sequence[float],\n components: typing.Sequence[str]):\n pass",
"def main():\n\n #for row_start in np.arange(0, 128):\n # MLC_IDSAT_algorithm_rv1(14, 33, 16, 2, 'ULVT', 1.8, 2.0, 128, [row_start], [71, 55, 46, 35], [0.002, 0.01, 0.04, 0.2], 4, [], '', ['../Data/chip14/MLC_programming_Chip14_Col33_2msPULSE_VG1p8_VD2p0_VAsource_VBdrain_01', '../Data/chip14/MLC_programming_Chip14_Col33_10msPULSE_VG1p8_VD2p0_VAsource_VBdrain_02', '../Data/chip14/MLC_programming_Chip14_Col33_40msPULSE_VG1p8_VD2p0_VAsource_VBdrain_03', '../Data/chip14/MLC_programming_Chip14_Col33_200msPULSE_VG1p8_VD2p0_VAsource_VBdrain_04'], '../Plots/chip14/', 'VG1p8_VD2p0', '_cycle01020304_row'+str(row_start).zfill(3), Imin=12, Imax=136)\n\n Marcov_Chain_MLE(14, 33, 16, 2, 'ULVT', 1.8, 2.0, 128, range(0, 128), [71, 55, 46, 35], [0.002, 0.01, 0.04, 0.2], 4, ['../Data/chip14/MLC_programming_Chip14_Col33_2msPULSE_VG1p8_VD2p0_VAsource_VBdrain_01', '../Data/chip14/MLC_programming_Chip14_Col33_10msPULSE_VG1p8_VD2p0_VAsource_VBdrain_02', '../Data/chip14/MLC_programming_Chip14_Col33_40msPULSE_VG1p8_VD2p0_VAsource_VBdrain_03', '../Data/chip14/MLC_programming_Chip14_Col33_200msPULSE_VG1p8_VD2p0_VAsource_VBdrain_04'], '../Plots/chip14/', 'VG1p8_VD2p0', '', 160.0, [90.0, 70.0, 50.0, 30.0], 0.0, 0.5)\n plt.show()\n #MLC_IDSAT_algorithm_rv1(14, 33, 16, 2, 'ULVT', 1.8, 2.0, 128, range(0, 128), [71, 55, 46, 35], [0.002, 0.01, 0.04, 0.2], 4, [], '', ['../Data/chip14/MLC_programming_Chip14_Col33_2msPULSE_VG1p8_VD2p0_VAsource_VBdrain_01', '../Data/chip14/MLC_programming_Chip14_Col33_10msPULSE_VG1p8_VD2p0_VAsource_VBdrain_02', '../Data/chip14/MLC_programming_Chip14_Col33_40msPULSE_VG1p8_VD2p0_VAsource_VBdrain_03', '../Data/chip14/MLC_programming_Chip14_Col33_200msPULSE_VG1p8_VD2p0_VAsource_VBdrain_04'], '../Plots/chip14/', 'VG1p8_VD2p0', '_cycle01020304_all')\n\n #IDS_VGS(14, 33, 16, 2, 'ULVT', 128, ['../Data/chip14/Fresh_Chip14_Col33_Ids_Vgs_VAsource_VBdrain', '../Data/chip14/MLC_Chip14_Col33_2msPULSE_VG1p8_VD2p0_Ids_Vgs_VAsource_VBdrain_01', '../Data/chip14/MLC_Chip14_Col33_10msPULSE_VG1p8_VD2p0_Ids_Vgs_VAsource_VBdrain_02', '../Data/chip14/MLC_Chip14_Col33_40msPULSE_VG1p8_VD2p0_Ids_Vgs_VAsource_VBdrain_03', '../Data/chip14/MLC_Chip14_Col33_200msPULSE_VG1p8_VD2p0_Ids_Vgs_VAsource_VBdrain_04'], ['b', 'y', 'r', 'k', 'g'], '../Plots/chip14/', 'Fresh_vs_MLC01020304_VG1p8_VD2p0_IDS-VGS_VaS-VbD_', range(0, 128), 'Fresh vs MLC-1-2-3-4 (VG=1.8, VD=2.0)\\nMLC-{1, 2, 3, 4}: {2ms, 10ms, 40ms, 200ms} WL pulses, IDSAT threshold = {90, 70, 50, 30}uA, forward' , 150, ['fresh', 'MLC-01', 'MLC-02', 'MLC-03', 'MLC-04']) \n #IDS_VGS(14, 33, 16, 2, 'ULVT', 128, ['../Data/chip14/Fresh_Chip14_Col33_Ids_Vgs_VAdrain_VBsource', '../Data/chip14/MLC_Chip14_Col33_2msPULSE_VG1p8_VD2p0_Ids_Vgs_VAdrain_VBsource_01', '../Data/chip14/MLC_Chip14_Col33_10msPULSE_VG1p8_VD2p0_Ids_Vgs_VAdrain_VBsource_02', '../Data/chip14/MLC_Chip14_Col33_40msPULSE_VG1p8_VD2p0_Ids_Vgs_VAdrain_VBsource_03', '../Data/chip14/MLC_Chip14_Col33_200msPULSE_VG1p8_VD2p0_Ids_Vgs_VAdrain_VBsource_04'], ['b', 'y', 'r', 'k', 'g'], '../Plots/chip14/', 'Fresh_vs_MLC01020304_VG1p8_VD2p0_IDS-VGS_VaD-VbS_', range(0, 128), 'Fresh vs MLC-1-2-3-4 (VG=1.8, VD=2.0)\\nMLC-{1, 2, 3, 4}: {2ms, 10ms, 40ms, 200ms} WL pulses, IDSAT threshold = {90, 70, 50, 30}uA, reversed', 150, ['fresh', 'MLC-01', 'MLC-02', 'MLC-03', 'MLC-04']) \n\n #hist_IDS_VGS(0, 14, 33, 16, 2, 'ULVT', 128, ['../Data/chip14/Fresh_Chip14_Col33_Ids_Vgs_VAdrain_VBsource', '../Data/chip14/MLC_Chip14_Col33_2msPULSE_VG1p8_VD2p0_Ids_Vgs_VAdrain_VBsource_01', '../Data/chip14/MLC_Chip14_Col33_10msPULSE_VG1p8_VD2p0_Ids_Vgs_VAdrain_VBsource_02', '../Data/chip14/MLC_Chip14_Col33_40msPULSE_VG1p8_VD2p0_Ids_Vgs_VAdrain_VBsource_03', '../Data/chip14/MLC_Chip14_Col33_200msPULSE_VG1p8_VD2p0_Ids_Vgs_VAdrain_VBsource_04'], ['b', 'y', 'r', 'k', 'g'], '../Plots/chip14/', 'Hist-IDSAT_MLC-rv1-01020304_reverse-read_', range(0, 128), 'MLC programming {2ms, 10ms, 40ms, 200ms} pulses, VGS=1.8, VDS=2.0 for level=1-2-3-4\\nhistogram of read-IDSAT (VGS=VDS=0.8V)', 0, 150, 0, 150, 1000)\n #\n #t_label = []\n #for t in np.arange(0, 0.002*(71) + 0.0001, 0.002):\n # t_label.append(str(t))\n #\n ##MLC_IDSAT_algorithm_rv1(14, 33, 16, 2, 'ULVT', 1.8, 2.0, 128, [21], [71], [0.002], 1, np.arange(0, 0.002*(71)+0.0001, 0.002), t_label, ['../Data/chip14/MLC_programming_Chip14_Col33_2msPULSE_VG1p8_VD2p0_VAsource_VBdrain_01'], '../Plots/chip14/', 'VG1p8_VD2p0', '_rv1_cycle01_row-21', Imin=82, Imax=142)\n\n #for row_start in np.arange(0, 128):\n # MLC_IDSAT_algorithm_rv1(14, 33, 16, 2, 'ULVT', 1.8, 2.0, 128, [row_start], [71], [0.002], 1, np.arange(0, 0.002*(71)+0.0001, 0.002), t_label, ['../Data/chip14/MLC_programming_Chip14_Col33_2msPULSE_VG1p8_VD2p0_VAsource_VBdrain_01'], '../Plots/chip14/', 'VG1p8_VD2p0', '_rv1_cycle01_row_'+str(row_start).zfill(3), Imin=80, Imax=142)\n\n #MLC_IDSAT_algorithm_rv1(14, 33, 16, 2, 'ULVT', 1.8, 2.0, 128, range(0, 128), [71], [0.002], 1, np.arange(0, 0.002*(71)+0.0001, 0.002), t_label, ['../Data/chip14/MLC_programming_Chip14_Col33_2msPULSE_VG1p8_VD2p0_VAsource_VBdrain_01'], '../Plots/chip14/', 'VG1p8_VD2p0', '_rv1_cycle01', Imin=80, Imax=142)\n\n #MLC_IDSAT_characterization(11, 30, 16, 2, 'ULVT', 1.8, 1.7, 32, range(0, 16) , [40], [0.01], 1, [0, 0.05, 0.1, 0.15, 0.2, 0.25, 0.3, 0.35, 0.4, 0.5], ['0', '0.05', '0.1', '0.15', '0.2', '0.25', '0.3', '0.35', '0.4', 'recover'], ['../Data/chip11/Chip11_Col30_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01'], '../Plots/chip11/', 'VG1p8_VD1p7', '_cycle01', 50, 160, 1)\n #MLC_IDSAT_characterization(11, 30, 16, 2, 'ULVT', 1.8, 2.0, 32, range(16, 32), [40], [0.01], 1, [0, 0.05, 0.1, 0.15, 0.2, 0.25, 0.3, 0.35, 0.4, 0.5], ['0', '0.05', '0.1', '0.15', '0.2', '0.25', '0.3', '0.35', '0.4', 'recover'], ['../Data/chip11/Chip11_Col30_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01'], '../Plots/chip11/', 'VG1p8_VD2p0', '_cycle01', 20, 160, 1)\n\n #MLC_IDSAT_characterization(11, 30, 16, 2, 'ULVT', 1.8, 1.7, 32, range(0, 16) , [40, 80], [0.01, 0.01], 2, [0, 0.2, 0.4, 0.8, 1.0, 1.2, 1.4, 1.6, 1.7], ['0', '0.2', '0.4', '0.4', '0.6', '0.8', '1.0', '1.2', 'recover'], ['../Data/chip11/Chip11_Col30_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col30_HCI_80x10ms_stress_VG_ConstPulse_VAsource_VBdrain_02'], '../Plots/chip11/', 'VG1p8_VD1p7', '_cycle0102', 50, 160, 1)\n #MLC_IDSAT_characterization(11, 30, 16, 2, 'ULVT', 1.8, 2.0, 32, range(16, 32), [40, 80], [0.01, 0.01], 2, [0, 0.2, 0.4, 0.8, 1.0, 1.2, 1.4, 1.6, 1.7], ['0', '0.2', '0.4', '0.4', '0.6', '0.8', '1.0', '1.2', 'recover'], ['../Data/chip11/Chip11_Col30_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col30_HCI_80x10ms_stress_VG_ConstPulse_VAsource_VBdrain_02'], '../Plots/chip11/', 'VG1p8_VD2p0', '_cycle0102', 20, 160, 1)\n\n #MLC_IDSAT_characterization(11, 30, 16, 2, 'ULVT', 1.8, 1.7, 32, range(0, 16) , [40, 80, 240], [0.01, 0.01, 0.01], 3, [0, 0.4, 0.8, 1.6, 2.0, 2.6, 3.2, 3.8, 4.4], ['0', '0.4', '0.4', '1.2', '1.2', '1.8', '2.4', '3.0', '3.6'], ['../Data/chip11/Chip11_Col30_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col30_HCI_80x10ms_stress_VG_ConstPulse_VAsource_VBdrain_02', '../Data/chip11/Chip11_Col30_HCI_240x10ms_stress_VG_ConstPulse_VAsource_VBdrain_03'], '../Plots/chip11/', 'VG1p8_VD1p7', '_cycle010203', 50, 160, 1)\n #MLC_IDSAT_characterization(11, 30, 16, 2, 'ULVT', 1.8, 2.0, 32, range(16, 32), [40, 80, 240], [0.01, 0.01, 0.01], 3, [0, 0.4, 0.8, 1.6, 2.0, 2.6, 3.2, 3.8, 4.4], ['0', '0.4', '0.4', '1.2', '1.2', '1.8', '2.4', '3.0', '3.6'], ['../Data/chip11/Chip11_Col30_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col30_HCI_80x10ms_stress_VG_ConstPulse_VAsource_VBdrain_02', '../Data/chip11/Chip11_Col30_HCI_240x10ms_stress_VG_ConstPulse_VAsource_VBdrain_03'], '../Plots/chip11/', 'VG1p8_VD2p0', '_cycle010203', 20, 160, 1)\n\n #MLC_IDSAT_characterization(11, 30, 16, 2, 'ULVT', 1.8, 1.7, 32, range(0, 16) , [40, 80, 240, 180], [0.01, 0.01, 0.01, 0.04], 4, [0, 0.4, 0.8, 1.6, 2.0, 2.6, 3.2, 3.8, 4.4, 4.8, 12], ['0', '0.4', '0.4', '1.2', '1.2', '1.8', '2.4', '3.0', '3.6', '3.6', '10.8'], ['../Data/chip11/Chip11_Col30_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col30_HCI_80x10ms_stress_VG_ConstPulse_VAsource_VBdrain_02', '../Data/chip11/Chip11_Col30_HCI_240x10ms_stress_VG_ConstPulse_VAsource_VBdrain_03', '../Data/chip11/Chip11_Col30_HCI_180x40ms_stress_VG_ConstPulse_VAsource_VBdrain_04'], '../Plots/chip11/', 'VG1p8_VD1p7', '_cycle01020304', 40, 160, 1)\n #MLC_IDSAT_characterization(11, 30, 16, 2, 'ULVT', 1.8, 2.0, 32, range(16, 32), [40, 80, 240, 180], [0.01, 0.01, 0.01, 0.04], 4, [0, 0.4, 0.8, 1.6, 2.0, 2.6, 3.2, 3.8, 4.4, 4.8, 12], ['0', '0.4', '0.4', '1.2', '1.2', '1.8', '2.4', '3.0', '3.6', '3.6', '10.8'], ['../Data/chip11/Chip11_Col30_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col30_HCI_80x10ms_stress_VG_ConstPulse_VAsource_VBdrain_02', '../Data/chip11/Chip11_Col30_HCI_240x10ms_stress_VG_ConstPulse_VAsource_VBdrain_03', '../Data/chip11/Chip11_Col30_HCI_180x40ms_stress_VG_ConstPulse_VAsource_VBdrain_04'], '../Plots/chip11/', 'VG1p8_VD2p0', '_cycle01020304', 10, 160, 1)\n\n #MLC_IDSAT_characterization(11, 33, 16, 2, 'ULVT', 1.5, 1.7, 128, range(0, 32) , [40], [0.01], 1, [0, 0.05, 0.1, 0.15, 0.2, 0.25, 0.3, 0.35, 0.4, 0.5], ['0', '0.05', '0.1', '0.15', '0.2', '0.25', '0.3', '0.35', '0.4', 'recover'], ['../Data/chip11/Chip11_Col33_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01'], '../Plots/chip11/', 'VG1p5_VD1p7', '_cycle01', 50, 160, 1)\n #MLC_IDSAT_characterization(11, 33, 16, 2, 'ULVT', 1.8, 1.7, 128, range(32, 64) , [40], [0.01], 1, [0, 0.05, 0.1, 0.15, 0.2, 0.25, 0.3, 0.35, 0.4, 0.5], ['0', '0.05', '0.1', '0.15', '0.2', '0.25', '0.3', '0.35', '0.4', 'recover'], ['../Data/chip11/Chip11_Col33_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01'], '../Plots/chip11/', 'VG1p8_VD1p7', '_cycle01', 50, 160, 1)\n #MLC_IDSAT_characterization(11, 33, 16, 2, 'ULVT', 1.5, 2.0, 128, range(64, 96) , [40], [0.01], 1, [0, 0.05, 0.1, 0.15, 0.2, 0.25, 0.3, 0.35, 0.4, 0.5], ['0', '0.05', '0.1', '0.15', '0.2', '0.25', '0.3', '0.35', '0.4', 'recover'], ['../Data/chip11/Chip11_Col33_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01'], '../Plots/chip11/', 'VG1p5_VD2p0', '_cycle01', 20, 160, 1)\n #MLC_IDSAT_characterization(11, 33, 16, 2, 'ULVT', 1.8, 2.0, 128, range(96, 128), [40], [0.01], 1, [0, 0.05, 0.1, 0.15, 0.2, 0.25, 0.3, 0.35, 0.4, 0.5], ['0', '0.05', '0.1', '0.15', '0.2', '0.25', '0.3', '0.35', '0.4', 'recover'], ['../Data/chip11/Chip11_Col33_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01'], '../Plots/chip11/', 'VG1p8_VD2p0', '_cycle01', 20, 160, 1)\n\n #MLC_IDSAT_characterization(11, 33, 16, 2, 'ULVT', 1.5, 1.7, 128, range(0, 32) , [40, 20], [0.01, 0.04], 2, [0, 0.2, 0.4, 0.8, 1.0, 1.2, 1.4, 1.6, 1.7], ['0', '0.2', '0.4', '0.4', '0.6', '0.8', '1.0', '1.2', 'recover'], ['../Data/chip11/Chip11_Col33_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col33_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02'], '../Plots/chip11/', 'VG1p5_VD1p7', '_cycle0102', 50, 160, 1)\n #MLC_IDSAT_characterization(11, 33, 16, 2, 'ULVT', 1.8, 1.7, 128, range(32, 64) , [40, 20], [0.01, 0.04], 2, [0, 0.2, 0.4, 0.8, 1.0, 1.2, 1.4, 1.6, 1.7], ['0', '0.2', '0.4', '0.4', '0.6', '0.8', '1.0', '1.2', 'recover'], ['../Data/chip11/Chip11_Col33_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col33_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02'], '../Plots/chip11/', 'VG1p8_VD1p7', '_cycle0102', 50, 160, 1)\n #MLC_IDSAT_characterization(11, 33, 16, 2, 'ULVT', 1.5, 2.0, 128, range(64, 96) , [40, 20], [0.01, 0.04], 2, [0, 0.2, 0.4, 0.8, 1.0, 1.2, 1.4, 1.6, 1.7], ['0', '0.2', '0.4', '0.4', '0.6', '0.8', '1.0', '1.2', 'recover'], ['../Data/chip11/Chip11_Col33_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col33_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02'], '../Plots/chip11/', 'VG1p5_VD2p0', '_cycle0102', 20, 160, 1)\n #MLC_IDSAT_characterization(11, 33, 16, 2, 'ULVT', 1.8, 2.0, 128, range(96, 128), [40, 20], [0.01, 0.04], 2, [0, 0.2, 0.4, 0.8, 1.0, 1.2, 1.4, 1.6, 1.7], ['0', '0.2', '0.4', '0.4', '0.6', '0.8', '1.0', '1.2', 'recover'], ['../Data/chip11/Chip11_Col33_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col33_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02'], '../Plots/chip11/', 'VG1p8_VD2p0', '_cycle0102', 20, 160, 1)\n\n #MLC_IDSAT_characterization(11, 33, 16, 2, 'ULVT', 1.5, 1.7, 128, range(0, 32) , [40, 20, 12], [0.01, 0.04, 0.2], 3, [0, 0.4, 0.8, 1.6, 2.0, 2.6, 3.2, 3.8, 4.4], ['0', '0.4', '0.4', '1.2', '1.2', '1.8', '2.4', '3.0', '3.6'], ['../Data/chip11/Chip11_Col33_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col33_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02', '../Data/chip11/Chip11_Col33_HCI_12x200ms_stress_VG_ConstPulse_VAsource_VBdrain_03'], '../Plots/chip11/', 'VG1p5_VD1p7', '_cycle010203', 50, 160, 1)\n #MLC_IDSAT_characterization(11, 33, 16, 2, 'ULVT', 1.8, 1.7, 128, range(32, 64) , [40, 20, 12], [0.01, 0.04, 0.2], 3, [0, 0.4, 0.8, 1.6, 2.0, 2.6, 3.2, 3.8, 4.4], ['0', '0.4', '0.4', '1.2', '1.2', '1.8', '2.4', '3.0', '3.6'], ['../Data/chip11/Chip11_Col33_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col33_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02', '../Data/chip11/Chip11_Col33_HCI_12x200ms_stress_VG_ConstPulse_VAsource_VBdrain_03'], '../Plots/chip11/', 'VG1p8_VD1p7', '_cycle010203', 50, 160, 1)\n #MLC_IDSAT_characterization(11, 33, 16, 2, 'ULVT', 1.5, 2.0, 128, range(64, 96) , [40, 20, 12], [0.01, 0.04, 0.2], 3, [0, 0.4, 0.8, 1.6, 2.0, 2.6, 3.2, 3.8, 4.4], ['0', '0.4', '0.4', '1.2', '1.2', '1.8', '2.4', '3.0', '3.6'], ['../Data/chip11/Chip11_Col33_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col33_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02', '../Data/chip11/Chip11_Col33_HCI_12x200ms_stress_VG_ConstPulse_VAsource_VBdrain_03'], '../Plots/chip11/', 'VG1p5_VD2p0', '_cycle010203', 20, 160, 1)\n #MLC_IDSAT_characterization(11, 33, 16, 2, 'ULVT', 1.8, 2.0, 128, range(96, 128), [40, 20, 12], [0.01, 0.04, 0.2], 3, [0, 0.4, 0.8, 1.6, 2.0, 2.6, 3.2, 3.8, 4.4], ['0', '0.4', '0.4', '1.2', '1.2', '1.8', '2.4', '3.0', '3.6'], ['../Data/chip11/Chip11_Col33_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col33_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02', '../Data/chip11/Chip11_Col33_HCI_12x200ms_stress_VG_ConstPulse_VAsource_VBdrain_03'], '../Plots/chip11/', 'VG1p8_VD2p0', '_cycle010203', 20, 160, 1)\n\n #MLC_IDSAT_characterization(11, 33, 16, 2, 'ULVT', 1.5, 1.7, 128, range(0, 32) , [40, 20, 12, 36], [0.01, 0.04, 0.2, 0.2], 4, [0, 0.4, 0.8, 1.6, 2.0, 2.6, 3.2, 3.8, 4.4, 4.8, 12], ['0', '0.4', '0.4', '1.2', '1.2', '1.8', '2.4', '3.0', '3.6', '3.6', '10.8'], ['../Data/chip11/Chip11_Col33_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col33_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02', '../Data/chip11/Chip11_Col33_HCI_12x200ms_stress_VG_ConstPulse_VAsource_VBdrain_03', '../Data/chip11/Chip11_Col33_HCI_36x200ms_stress_VG_ConstPulse_VAsource_VBdrain_04'], '../Plots/chip11/', 'VG1p5_VD1p7', '_cycle01020304', 40, 160, 1)\n #MLC_IDSAT_characterization(11, 33, 16, 2, 'ULVT', 1.8, 1.7, 128, range(32, 64) , [40, 20, 12, 36], [0.01, 0.04, 0.2, 0.2], 4, [0, 0.4, 0.8, 1.6, 2.0, 2.6, 3.2, 3.8, 4.4, 4.8, 12], ['0', '0.4', '0.4', '1.2', '1.2', '1.8', '2.4', '3.0', '3.6', '3.6', '10.8'], ['../Data/chip11/Chip11_Col33_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col33_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02', '../Data/chip11/Chip11_Col33_HCI_12x200ms_stress_VG_ConstPulse_VAsource_VBdrain_03', '../Data/chip11/Chip11_Col33_HCI_36x200ms_stress_VG_ConstPulse_VAsource_VBdrain_04'], '../Plots/chip11/', 'VG1p8_VD1p7', '_cycle01020304', 40, 160, 1)\n #MLC_IDSAT_characterization(11, 33, 16, 2, 'ULVT', 1.5, 2.0, 128, range(64, 96) , [40, 20, 12, 36], [0.01, 0.04, 0.2, 0.2], 4, [0, 0.4, 0.8, 1.6, 2.0, 2.6, 3.2, 3.8, 4.4, 4.8, 12], ['0', '0.4', '0.4', '1.2', '1.2', '1.8', '2.4', '3.0', '3.6', '3.6', '10.8'], ['../Data/chip11/Chip11_Col33_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col33_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02', '../Data/chip11/Chip11_Col33_HCI_12x200ms_stress_VG_ConstPulse_VAsource_VBdrain_03', '../Data/chip11/Chip11_Col33_HCI_36x200ms_stress_VG_ConstPulse_VAsource_VBdrain_04'], '../Plots/chip11/', 'VG1p5_VD2p0', '_cycle01020304', 10, 160, 1)\n #MLC_IDSAT_characterization(11, 33, 16, 2, 'ULVT', 1.8, 2.0, 128, range(96, 128), [40, 20, 12, 36], [0.01, 0.04, 0.2, 0.2], 4, [0, 0.4, 0.8, 1.6, 2.0, 2.6, 3.2, 3.8, 4.4, 4.8, 12], ['0', '0.4', '0.4', '1.2', '1.2', '1.8', '2.4', '3.0', '3.6', '3.6', '10.8'], ['../Data/chip11/Chip11_Col33_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col33_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02', '../Data/chip11/Chip11_Col33_HCI_12x200ms_stress_VG_ConstPulse_VAsource_VBdrain_03', '../Data/chip11/Chip11_Col33_HCI_36x200ms_stress_VG_ConstPulse_VAsource_VBdrain_04'], '../Plots/chip11/', 'VG1p8_VD2p0', '_cycle01020304', 10, 160, 1)\n\n #MLC_IDSAT_characterization(11, 18, 36, 2, 'ULVT', 1.8, 2.0, 32, range(0, 16) , [40], [0.01], 1, [0, 0.05, 0.1, 0.15, 0.2, 0.25, 0.3, 0.35, 0.4, 0.5], ['0', '0.05', '0.1', '0.15', '0.2', '0.25', '0.3', '0.35', '0.4', 'recover'], ['../Data/chip11/Chip11_Col18_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01'], '../Plots/chip11/', 'VG1p8_VD2p0', '_cycle01', 50, 125, 1)\n #MLC_IDSAT_characterization(11, 18, 36, 2, 'ULVT', 1.8, 2.4, 32, range(16, 32), [40], [0.01], 1, [0, 0.05, 0.1, 0.15, 0.2, 0.25, 0.3, 0.35, 0.4, 0.5], ['0', '0.05', '0.1', '0.15', '0.2', '0.25', '0.3', '0.35', '0.4', 'recover'], ['../Data/chip11/Chip11_Col18_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01'], '../Plots/chip11/', 'VG1p8_VD2p4', '_cycle01', 20, 125, 1)\n\n #MLC_IDSAT_characterization(11, 18, 36, 2, 'ULVT', 1.8, 2.0, 32, range(0, 16) , [40, 80], [0.01, 0.01], 2, [0, 0.2, 0.4, 0.8, 1.0, 1.2, 1.4, 1.6, 1.7], ['0', '0.2', '0.4', '0.4', '0.6', '0.8', '1.0', '1.2', 'recover'], ['../Data/chip11/Chip11_Col18_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col18_HCI_80x10ms_stress_VG_ConstPulse_VAsource_VBdrain_02'], '../Plots/chip11/', 'VG1p8_VD2p0', '_cycle0102', 50, 125, 1)\n #MLC_IDSAT_characterization(11, 18, 36, 2, 'ULVT', 1.8, 2.4, 32, range(16, 32), [40, 80], [0.01, 0.01], 2, [0, 0.2, 0.4, 0.8, 1.0, 1.2, 1.4, 1.6, 1.7], ['0', '0.2', '0.4', '0.4', '0.6', '0.8', '1.0', '1.2', 'recover'], ['../Data/chip11/Chip11_Col18_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col18_HCI_80x10ms_stress_VG_ConstPulse_VAsource_VBdrain_02'], '../Plots/chip11/', 'VG1p8_VD2p4', '_cycle0102', 20, 125, 1)\n\n #MLC_IDSAT_characterization(11, 18, 36, 2, 'ULVT', 1.8, 2.0, 32, range(0, 16) , [40, 80, 240], [0.01, 0.01, 0.01], 3, [0, 0.4, 0.8, 1.6, 2.0, 2.6, 3.2, 3.8, 4.4], ['0', '0.4', '0.4', '1.2', '1.2', '1.8', '2.4', '3.0', '3.6'], ['../Data/chip11/Chip11_Col18_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col18_HCI_80x10ms_stress_VG_ConstPulse_VAsource_VBdrain_02', '../Data/chip11/Chip11_Col18_HCI_240x10ms_stress_VG_ConstPulse_VAsource_VBdrain_03'], '../Plots/chip11/', 'VG1p8_VD2p0', '_cycle010203', 50, 125, 1)\n #MLC_IDSAT_characterization(11, 18, 36, 2, 'ULVT', 1.8, 2.4, 32, range(16, 32), [40, 80, 240], [0.01, 0.01, 0.01], 3, [0, 0.4, 0.8, 1.6, 2.0, 2.6, 3.2, 3.8, 4.4], ['0', '0.4', '0.4', '1.2', '1.2', '1.8', '2.4', '3.0', '3.6'], ['../Data/chip11/Chip11_Col18_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col18_HCI_80x10ms_stress_VG_ConstPulse_VAsource_VBdrain_02', '../Data/chip11/Chip11_Col18_HCI_240x10ms_stress_VG_ConstPulse_VAsource_VBdrain_03'], '../Plots/chip11/', 'VG1p8_VD2p4', '_cycle010203', 20, 125, 1)\n\n #MLC_IDSAT_characterization(11, 18, 36, 2, 'ULVT', 1.8, 2.0, 32, range(0, 16) , [40, 80, 240, 180], [0.01, 0.01, 0.01, 0.04], 4, [0, 0.4, 0.8, 1.6, 2.0, 2.6, 3.2, 3.8, 4.4, 4.8, 12], ['0', '0.4', '0.4', '1.2', '1.2', '1.8', '2.4', '3.0', '3.6', '3.6', '10.8'], ['../Data/chip11/Chip11_Col18_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col18_HCI_80x10ms_stress_VG_ConstPulse_VAsource_VBdrain_02', '../Data/chip11/Chip11_Col18_HCI_240x10ms_stress_VG_ConstPulse_VAsource_VBdrain_03', '../Data/chip11/Chip11_Col18_HCI_180x40ms_stress_VG_ConstPulse_VAsource_VBdrain_04'], '../Plots/chip11/', 'VG1p8_VD2p0', '_cycle01020304', 40, 125, 1)\n #MLC_IDSAT_characterization(11, 18, 36, 2, 'ULVT', 1.8, 2.4, 32, range(16, 32), [40, 80, 240, 180], [0.01, 0.01, 0.01, 0.04], 4, [0, 0.4, 0.8, 1.6, 2.0, 2.6, 3.2, 3.8, 4.4, 4.8, 12], ['0', '0.4', '0.4', '1.2', '1.2', '1.8', '2.4', '3.0', '3.6', '3.6', '10.8'], ['../Data/chip11/Chip11_Col18_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col18_HCI_80x10ms_stress_VG_ConstPulse_VAsource_VBdrain_02', '../Data/chip11/Chip11_Col18_HCI_240x10ms_stress_VG_ConstPulse_VAsource_VBdrain_03', '../Data/chip11/Chip11_Col18_HCI_180x40ms_stress_VG_ConstPulse_VAsource_VBdrain_04'], '../Plots/chip11/', 'VG1p8_VD2p4', '_cycle01020304', 10, 125, 1)\n\n #MLC_IDSAT_characterization(11, 24, 20, 2, 'ULVT', 1.8, 1.8, 32, range(0, 16) , [40], [0.01], 1, [0, 0.05, 0.1, 0.15, 0.2, 0.25, 0.3, 0.35, 0.4, 0.5], ['0', '0.05', '0.1', '0.15', '0.2', '0.25', '0.3', '0.35', '0.4', 'recover'], ['../Data/chip11/Chip11_Col24_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01'], '../Plots/chip11/', 'VG1p8_VD1p8', '_cycle01', 50, 150, 1)\n #MLC_IDSAT_characterization(11, 24, 20, 2, 'ULVT', 1.8, 2.2, 32, range(16, 32), [40], [0.01], 1, [0, 0.05, 0.1, 0.15, 0.2, 0.25, 0.3, 0.35, 0.4, 0.5], ['0', '0.05', '0.1', '0.15', '0.2', '0.25', '0.3', '0.35', '0.4', 'recover'], ['../Data/chip11/Chip11_Col24_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01'], '../Plots/chip11/', 'VG1p8_VD2p2', '_cycle01', 15, 150, 1)\n\n #MLC_IDSAT_characterization(11, 24, 20, 2, 'ULVT', 1.8, 1.8, 32, range(0, 16) , [40, 80], [0.01, 0.01], 2, [0, 0.2, 0.4, 0.8, 1.0, 1.2, 1.4, 1.6, 1.7], ['0', '0.2', '0.4', '0.4', '0.6', '0.8', '1.0', '1.2', 'recover'], ['../Data/chip11/Chip11_Col24_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col24_HCI_80x10ms_stress_VG_ConstPulse_VAsource_VBdrain_02'], '../Plots/chip11/', 'VG1p8_VD1p8', '_cycle0102', 50, 150, 1)\n #MLC_IDSAT_characterization(11, 24, 20, 2, 'ULVT', 1.8, 2.2, 32, range(16, 32), [40, 80], [0.01, 0.01], 2, [0, 0.2, 0.4, 0.8, 1.0, 1.2, 1.4, 1.6, 1.7], ['0', '0.2', '0.4', '0.4', '0.6', '0.8', '1.0', '1.2', 'recover'], ['../Data/chip11/Chip11_Col24_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col24_HCI_80x10ms_stress_VG_ConstPulse_VAsource_VBdrain_02'], '../Plots/chip11/', 'VG1p8_VD2p2', '_cycle0102', 15, 150, 1)\n\n #MLC_IDSAT_characterization(11, 24, 20, 2, 'ULVT', 1.8, 1.8, 32, range(0, 16) , [40, 80, 240], [0.01, 0.01, 0.01], 3, [0, 0.4, 0.8, 1.6, 2.0, 2.6, 3.2, 3.8, 4.4], ['0', '0.4', '0.4', '1.2', '1.2', '1.8', '2.4', '3.0', '3.6'], ['../Data/chip11/Chip11_Col24_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col24_HCI_80x10ms_stress_VG_ConstPulse_VAsource_VBdrain_02', '../Data/chip11/Chip11_Col24_HCI_240x10ms_stress_VG_ConstPulse_VAsource_VBdrain_03'], '../Plots/chip11/', 'VG1p8_VD1p8', '_cycle010203', 50, 150, 1)\n #MLC_IDSAT_characterization(11, 24, 20, 2, 'ULVT', 1.8, 2.2, 32, range(16, 32), [40, 80, 240], [0.01, 0.01, 0.01], 3, [0, 0.4, 0.8, 1.6, 2.0, 2.6, 3.2, 3.8, 4.4], ['0', '0.4', '0.4', '1.2', '1.2', '1.8', '2.4', '3.0', '3.6'], ['../Data/chip11/Chip11_Col24_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col24_HCI_80x10ms_stress_VG_ConstPulse_VAsource_VBdrain_02', '../Data/chip11/Chip11_Col24_HCI_240x10ms_stress_VG_ConstPulse_VAsource_VBdrain_03'], '../Plots/chip11/', 'VG1p8_VD2p2', '_cycle010203', 15, 150, 1)\n\n #MLC_IDSAT_characterization(11, 24, 20, 2, 'ULVT', 1.8, 1.8, 32, range(0, 16) , [40, 80, 240, 180], [0.01, 0.01, 0.01, 0.04], 4, [0, 0.4, 0.8, 1.6, 2.0, 2.6, 3.2, 3.8, 4.4, 4.8, 12], ['0', '0.4', '0.4', '1.2', '1.2', '1.8', '2.4', '3.0', '3.6', '3.6', '10.8'], ['../Data/chip11/Chip11_Col24_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col24_HCI_80x10ms_stress_VG_ConstPulse_VAsource_VBdrain_02', '../Data/chip11/Chip11_Col24_HCI_240x10ms_stress_VG_ConstPulse_VAsource_VBdrain_03', '../Data/chip11/Chip11_Col24_HCI_180x40ms_stress_VG_ConstPulse_VAsource_VBdrain_04'], '../Plots/chip11/', 'VG1p8_VD1p8', '_cycle01020304', 40, 150, 1)\n #MLC_IDSAT_characterization(11, 24, 20, 2, 'ULVT', 1.8, 2.2, 32, range(16, 32), [40, 80, 240, 180], [0.01, 0.01, 0.01, 0.04], 4, [0, 0.4, 0.8, 1.6, 2.0, 2.6, 3.2, 3.8, 4.4, 4.8, 12], ['0', '0.4', '0.4', '1.2', '1.2', '1.8', '2.4', '3.0', '3.6', '3.6', '10.8'], ['../Data/chip11/Chip11_Col24_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col24_HCI_80x10ms_stress_VG_ConstPulse_VAsource_VBdrain_02', '../Data/chip11/Chip11_Col24_HCI_240x10ms_stress_VG_ConstPulse_VAsource_VBdrain_03', '../Data/chip11/Chip11_Col24_HCI_180x40ms_stress_VG_ConstPulse_VAsource_VBdrain_04'], '../Plots/chip11/', 'VG1p8_VD2p2', '_cycle01020304', 5, 150, 1)\n\n\n #MLC_IDSAT_characterization(11, 27, 20, 2, 'ULVT', 1.5, 1.8, 128, range(0, 32) , [40], [0.01], 1, [0, 0.05, 0.1, 0.15, 0.2, 0.25, 0.3, 0.35, 0.4, 0.5], ['0', '0.05', '0.1', '0.15', '0.2', '0.25', '0.3', '0.35', '0.4', 'recover'], ['../Data/chip11/Chip11_Col27_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01'], '../Plots/chip11/', 'VG1p5_VD1p8', '_cycle01', 50, 150, 1)\n #MLC_IDSAT_characterization(11, 27, 20, 2, 'ULVT', 1.8, 1.8, 128, range(32, 64) , [40], [0.01], 1, [0, 0.05, 0.1, 0.15, 0.2, 0.25, 0.3, 0.35, 0.4, 0.5], ['0', '0.05', '0.1', '0.15', '0.2', '0.25', '0.3', '0.35', '0.4', 'recover'], ['../Data/chip11/Chip11_Col27_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01'], '../Plots/chip11/', 'VG1p8_VD1p8', '_cycle01', 50, 150, 1)\n #MLC_IDSAT_characterization(11, 27, 20, 2, 'ULVT', 1.5, 2.2, 128, range(64, 96) , [40], [0.01], 1, [0, 0.05, 0.1, 0.15, 0.2, 0.25, 0.3, 0.35, 0.4, 0.5], ['0', '0.05', '0.1', '0.15', '0.2', '0.25', '0.3', '0.35', '0.4', 'recover'], ['../Data/chip11/Chip11_Col27_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01'], '../Plots/chip11/', 'VG1p5_VD2p2', '_cycle01', 15, 150, 1)\n #MLC_IDSAT_characterization(11, 27, 20, 2, 'ULVT', 1.8, 2.2, 128, range(96, 128), [40], [0.01], 1, [0, 0.05, 0.1, 0.15, 0.2, 0.25, 0.3, 0.35, 0.4, 0.5], ['0', '0.05', '0.1', '0.15', '0.2', '0.25', '0.3', '0.35', '0.4', 'recover'], ['../Data/chip11/Chip11_Col27_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01'], '../Plots/chip11/', 'VG1p8_VD2p2', '_cycle01', 15, 150, 1)\n\n #MLC_IDSAT_characterization(11, 27, 20, 2, 'ULVT', 1.5, 1.8, 128, range(0, 32) , [40, 20], [0.01, 0.04], 2, [0, 0.2, 0.4, 0.8, 1.0, 1.2, 1.4, 1.6, 1.7], ['0', '0.2', '0.4', '0.4', '0.6', '0.8', '1.0', '1.2', 'recover'], ['../Data/chip11/Chip11_Col27_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col27_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02'], '../Plots/chip11/', 'VG1p5_VD1p8', '_cycle0102', 50, 150, 1)\n #MLC_IDSAT_characterization(11, 27, 20, 2, 'ULVT', 1.8, 1.8, 128, range(32, 64) , [40, 20], [0.01, 0.04], 2, [0, 0.2, 0.4, 0.8, 1.0, 1.2, 1.4, 1.6, 1.7], ['0', '0.2', '0.4', '0.4', '0.6', '0.8', '1.0', '1.2', 'recover'], ['../Data/chip11/Chip11_Col27_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col27_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02'], '../Plots/chip11/', 'VG1p8_VD1p8', '_cycle0102', 50, 150, 1)\n #MLC_IDSAT_characterization(11, 27, 20, 2, 'ULVT', 1.5, 2.2, 128, range(64, 96) , [40, 20], [0.01, 0.04], 2, [0, 0.2, 0.4, 0.8, 1.0, 1.2, 1.4, 1.6, 1.7], ['0', '0.2', '0.4', '0.4', '0.6', '0.8', '1.0', '1.2', 'recover'], ['../Data/chip11/Chip11_Col27_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col27_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02'], '../Plots/chip11/', 'VG1p5_VD2p2', '_cycle0102', 15, 150, 1)\n #MLC_IDSAT_characterization(11, 27, 20, 2, 'ULVT', 1.8, 2.2, 128, range(96, 128), [40, 20], [0.01, 0.04], 2, [0, 0.2, 0.4, 0.8, 1.0, 1.2, 1.4, 1.6, 1.7], ['0', '0.2', '0.4', '0.4', '0.6', '0.8', '1.0', '1.2', 'recover'], ['../Data/chip11/Chip11_Col27_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col27_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02'], '../Plots/chip11/', 'VG1p8_VD2p2', '_cycle0102', 15, 150, 1)\n\n #MLC_IDSAT_characterization(11, 27, 20, 2, 'ULVT', 1.5, 1.8, 128, range(0, 32) , [40, 20, 12], [0.01, 0.04, 0.2], 3, [0, 0.4, 0.8, 1.6, 2.0, 2.6, 3.2, 3.8, 4.4], ['0', '0.4', '0.4', '1.2', '1.2', '1.8', '2.4', '3.0', '3.6'], ['../Data/chip11/Chip11_Col27_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col27_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02', '../Data/chip11/Chip11_Col27_HCI_12x200ms_stress_VG_ConstPulse_VAsource_VBdrain_03'], '../Plots/chip11/', 'VG1p5_VD1p8', '_cycle010203', 50, 150, 1)\n #MLC_IDSAT_characterization(11, 27, 20, 2, 'ULVT', 1.8, 1.8, 128, range(32, 64) , [40, 20, 12], [0.01, 0.04, 0.2], 3, [0, 0.4, 0.8, 1.6, 2.0, 2.6, 3.2, 3.8, 4.4], ['0', '0.4', '0.4', '1.2', '1.2', '1.8', '2.4', '3.0', '3.6'], ['../Data/chip11/Chip11_Col27_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col27_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02', '../Data/chip11/Chip11_Col27_HCI_12x200ms_stress_VG_ConstPulse_VAsource_VBdrain_03'], '../Plots/chip11/', 'VG1p8_VD1p8', '_cycle010203', 50, 150, 1)\n #MLC_IDSAT_characterization(11, 27, 20, 2, 'ULVT', 1.5, 2.2, 128, range(64, 96) , [40, 20, 12], [0.01, 0.04, 0.2], 3, [0, 0.4, 0.8, 1.6, 2.0, 2.6, 3.2, 3.8, 4.4], ['0', '0.4', '0.4', '1.2', '1.2', '1.8', '2.4', '3.0', '3.6'], ['../Data/chip11/Chip11_Col27_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col27_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02', '../Data/chip11/Chip11_Col27_HCI_12x200ms_stress_VG_ConstPulse_VAsource_VBdrain_03'], '../Plots/chip11/', 'VG1p5_VD2p2', '_cycle010203', 15, 150, 1)\n #MLC_IDSAT_characterization(11, 27, 20, 2, 'ULVT', 1.8, 2.2, 128, range(96, 128), [40, 20, 12], [0.01, 0.04, 0.2], 3, [0, 0.4, 0.8, 1.6, 2.0, 2.6, 3.2, 3.8, 4.4], ['0', '0.4', '0.4', '1.2', '1.2', '1.8', '2.4', '3.0', '3.6'], ['../Data/chip11/Chip11_Col27_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col27_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02', '../Data/chip11/Chip11_Col27_HCI_12x200ms_stress_VG_ConstPulse_VAsource_VBdrain_03'], '../Plots/chip11/', 'VG1p8_VD2p2', '_cycle010203', 15, 150, 1)\n\n #MLC_IDSAT_characterization(11, 27, 20, 2, 'ULVT', 1.5, 1.8, 128, range(0, 32) , [40, 20, 12, 36], [0.01, 0.04, 0.2, 0.2], 4, [0, 0.4, 0.8, 1.6, 2.0, 2.6, 3.2, 3.8, 4.4, 4.8, 12], ['0', '0.4', '0.4', '1.2', '1.2', '1.8', '2.4', '3.0', '3.6', '3.6', '10.8'], ['../Data/chip11/Chip11_Col27_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col27_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02', '../Data/chip11/Chip11_Col27_HCI_12x200ms_stress_VG_ConstPulse_VAsource_VBdrain_03', '../Data/chip11/Chip11_Col27_HCI_36x200ms_stress_VG_ConstPulse_VAsource_VBdrain_04'], '../Plots/chip11/', 'VG1p5_VD1p8', '_cycle01020304', 40, 150, 1)\n #MLC_IDSAT_characterization(11, 27, 20, 2, 'ULVT', 1.8, 1.8, 128, range(32, 64) , [40, 20, 12, 36], [0.01, 0.04, 0.2, 0.2], 4, [0, 0.4, 0.8, 1.6, 2.0, 2.6, 3.2, 3.8, 4.4, 4.8, 12], ['0', '0.4', '0.4', '1.2', '1.2', '1.8', '2.4', '3.0', '3.6', '3.6', '10.8'], ['../Data/chip11/Chip11_Col27_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col27_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02', '../Data/chip11/Chip11_Col27_HCI_12x200ms_stress_VG_ConstPulse_VAsource_VBdrain_03', '../Data/chip11/Chip11_Col27_HCI_36x200ms_stress_VG_ConstPulse_VAsource_VBdrain_04'], '../Plots/chip11/', 'VG1p8_VD1p8', '_cycle01020304', 20, 150, 1)\n #MLC_IDSAT_characterization(11, 27, 20, 2, 'ULVT', 1.5, 2.2, 128, range(64, 96) , [40, 20, 12, 36], [0.01, 0.04, 0.2, 0.2], 4, [0, 0.4, 0.8, 1.6, 2.0, 2.6, 3.2, 3.8, 4.4, 4.8, 12], ['0', '0.4', '0.4', '1.2', '1.2', '1.8', '2.4', '3.0', '3.6', '3.6', '10.8'], ['../Data/chip11/Chip11_Col27_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col27_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02', '../Data/chip11/Chip11_Col27_HCI_12x200ms_stress_VG_ConstPulse_VAsource_VBdrain_03', '../Data/chip11/Chip11_Col27_HCI_36x200ms_stress_VG_ConstPulse_VAsource_VBdrain_04'], '../Plots/chip11/', 'VG1p5_VD2p2', '_cycle01020304', 5, 150, 1)\n #MLC_IDSAT_characterization(11, 27, 20, 2, 'ULVT', 1.8, 2.2, 128, range(96, 128), [40, 20, 12, 36], [0.01, 0.04, 0.2, 0.2], 4, [0, 0.4, 0.8, 1.6, 2.0, 2.6, 3.2, 3.8, 4.4, 4.8, 12], ['0', '0.4', '0.4', '1.2', '1.2', '1.8', '2.4', '3.0', '3.6', '3.6', '10.8'], ['../Data/chip11/Chip11_Col27_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col27_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02', '../Data/chip11/Chip11_Col27_HCI_12x200ms_stress_VG_ConstPulse_VAsource_VBdrain_03', '../Data/chip11/Chip11_Col27_HCI_36x200ms_stress_VG_ConstPulse_VAsource_VBdrain_04'], '../Plots/chip11/', 'VG1p8_VD2p2', '_cycle01020304', 5, 150, 1)\n\n #MLC_IDSAT_characterization(11, 28, 20, 2, 'LVT', 1.5, 1.8, 128, range(0, 32) , [40], [0.01], 1, [0, 0.05, 0.1, 0.15, 0.2, 0.25, 0.3, 0.35, 0.4, 0.5], ['0', '0.05', '0.1', '0.15', '0.2', '0.25', '0.3', '0.35', '0.4', 'recover'], ['../Data/chip11/Chip11_Col28_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01'], '../Plots/chip11/', 'VG1p5_VD1p8', '_cycle01', 50, 150, 1)\n #MLC_IDSAT_characterization(11, 28, 20, 2, 'LVT', 1.8, 1.8, 128, range(32, 64) , [40], [0.01], 1, [0, 0.05, 0.1, 0.15, 0.2, 0.25, 0.3, 0.35, 0.4, 0.5], ['0', '0.05', '0.1', '0.15', '0.2', '0.25', '0.3', '0.35', '0.4', 'recover'], ['../Data/chip11/Chip11_Col28_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01'], '../Plots/chip11/', 'VG1p8_VD1p8', '_cycle01', 50, 150, 1)\n #MLC_IDSAT_characterization(11, 28, 20, 2, 'LVT', 1.5, 2.2, 128, range(64, 96) , [40], [0.01], 1, [0, 0.05, 0.1, 0.15, 0.2, 0.25, 0.3, 0.35, 0.4, 0.5], ['0', '0.05', '0.1', '0.15', '0.2', '0.25', '0.3', '0.35', '0.4', 'recover'], ['../Data/chip11/Chip11_Col28_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01'], '../Plots/chip11/', 'VG1p5_VD2p2', '_cycle01', 15, 150, 1)\n #MLC_IDSAT_characterization(11, 28, 20, 2, 'LVT', 1.8, 2.2, 128, range(96, 128), [40], [0.01], 1, [0, 0.05, 0.1, 0.15, 0.2, 0.25, 0.3, 0.35, 0.4, 0.5], ['0', '0.05', '0.1', '0.15', '0.2', '0.25', '0.3', '0.35', '0.4', 'recover'], ['../Data/chip11/Chip11_Col28_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01'], '../Plots/chip11/', 'VG1p8_VD2p2', '_cycle01', 15, 150, 1)\n\n #MLC_IDSAT_characterization(11, 28, 20, 2, 'LVT', 1.5, 1.8, 128, range(0, 32) , [40, 20], [0.01, 0.04], 2, [0, 0.2, 0.4, 0.8, 1.0, 1.2, 1.4, 1.6, 1.7], ['0', '0.2', '0.4', '0.4', '0.6', '0.8', '1.0', '1.2', 'recover'], ['../Data/chip11/Chip11_Col28_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col28_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02'], '../Plots/chip11/', 'VG1p5_VD1p8', '_cycle0102', 50, 150, 1)\n #MLC_IDSAT_characterization(11, 28, 20, 2, 'LVT', 1.8, 1.8, 128, range(32, 64) , [40, 20], [0.01, 0.04], 2, [0, 0.2, 0.4, 0.8, 1.0, 1.2, 1.4, 1.6, 1.7], ['0', '0.2', '0.4', '0.4', '0.6', '0.8', '1.0', '1.2', 'recover'], ['../Data/chip11/Chip11_Col28_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col28_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02'], '../Plots/chip11/', 'VG1p8_VD1p8', '_cycle0102', 50, 150, 1)\n #MLC_IDSAT_characterization(11, 28, 20, 2, 'LVT', 1.5, 2.2, 128, range(64, 96) , [40, 20], [0.01, 0.04], 2, [0, 0.2, 0.4, 0.8, 1.0, 1.2, 1.4, 1.6, 1.7], ['0', '0.2', '0.4', '0.4', '0.6', '0.8', '1.0', '1.2', 'recover'], ['../Data/chip11/Chip11_Col28_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col28_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02'], '../Plots/chip11/', 'VG1p5_VD2p2', '_cycle0102', 15, 150, 1)\n #MLC_IDSAT_characterization(11, 28, 20, 2, 'LVT', 1.8, 2.2, 128, range(96, 128), [40, 20], [0.01, 0.04], 2, [0, 0.2, 0.4, 0.8, 1.0, 1.2, 1.4, 1.6, 1.7], ['0', '0.2', '0.4', '0.4', '0.6', '0.8', '1.0', '1.2', 'recover'], ['../Data/chip11/Chip11_Col28_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col28_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02'], '../Plots/chip11/', 'VG1p8_VD2p2', '_cycle0102', 15, 150, 1)\n\n #MLC_IDSAT_characterization(11, 28, 20, 2, 'LVT', 1.5, 1.8, 128, range(0, 32) , [40, 20, 12], [0.01, 0.04, 0.2], 3, [0, 0.4, 0.8, 1.6, 2.0, 2.6, 3.2, 3.8, 4.4], ['0', '0.4', '0.4', '1.2', '1.2', '1.8', '2.4', '3.0', '3.6'], ['../Data/chip11/Chip11_Col28_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col28_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02', '../Data/chip11/Chip11_Col28_HCI_12x200ms_stress_VG_ConstPulse_VAsource_VBdrain_03'], '../Plots/chip11/', 'VG1p5_VD1p8', '_cycle010203', 50, 150, 1)\n #MLC_IDSAT_characterization(11, 28, 20, 2, 'LVT', 1.8, 1.8, 128, range(32, 64) , [40, 20, 12], [0.01, 0.04, 0.2], 3, [0, 0.4, 0.8, 1.6, 2.0, 2.6, 3.2, 3.8, 4.4], ['0', '0.4', '0.4', '1.2', '1.2', '1.8', '2.4', '3.0', '3.6'], ['../Data/chip11/Chip11_Col28_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col28_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02', '../Data/chip11/Chip11_Col28_HCI_12x200ms_stress_VG_ConstPulse_VAsource_VBdrain_03'], '../Plots/chip11/', 'VG1p8_VD1p8', '_cycle010203', 50, 150, 1)\n #MLC_IDSAT_characterization(11, 28, 20, 2, 'LVT', 1.5, 2.2, 128, range(64, 96) , [40, 20, 12], [0.01, 0.04, 0.2], 3, [0, 0.4, 0.8, 1.6, 2.0, 2.6, 3.2, 3.8, 4.4], ['0', '0.4', '0.4', '1.2', '1.2', '1.8', '2.4', '3.0', '3.6'], ['../Data/chip11/Chip11_Col28_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col28_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02', '../Data/chip11/Chip11_Col28_HCI_12x200ms_stress_VG_ConstPulse_VAsource_VBdrain_03'], '../Plots/chip11/', 'VG1p5_VD2p2', '_cycle010203', 15, 150, 1)\n #MLC_IDSAT_characterization(11, 28, 20, 2, 'LVT', 1.8, 2.2, 128, range(96, 128), [40, 20, 12], [0.01, 0.04, 0.2], 3, [0, 0.4, 0.8, 1.6, 2.0, 2.6, 3.2, 3.8, 4.4], ['0', '0.4', '0.4', '1.2', '1.2', '1.8', '2.4', '3.0', '3.6'], ['../Data/chip11/Chip11_Col28_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col28_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02', '../Data/chip11/Chip11_Col28_HCI_12x200ms_stress_VG_ConstPulse_VAsource_VBdrain_03'], '../Plots/chip11/', 'VG1p8_VD2p2', '_cycle010203', 15, 150, 1)\n\n #MLC_IDSAT_characterization(11, 28, 20, 2, 'LVT', 1.5, 1.8, 128, range(0, 32) , [40, 20, 12, 36], [0.01, 0.04, 0.2, 0.2], 4, [0, 0.4, 0.8, 1.6, 2.0, 2.6, 3.2, 3.8, 4.4, 4.8, 12], ['0', '0.4', '0.4', '1.2', '1.2', '1.8', '2.4', '3.0', '3.6', '3.6', '10.8'], ['../Data/chip11/Chip11_Col28_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col28_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02', '../Data/chip11/Chip11_Col28_HCI_12x200ms_stress_VG_ConstPulse_VAsource_VBdrain_03', '../Data/chip11/Chip11_Col28_HCI_36x200ms_stress_VG_ConstPulse_VAsource_VBdrain_04'], '../Plots/chip11/', 'VG1p5_VD1p8', '_cycle01020304', 40, 150, 1)\n #MLC_IDSAT_characterization(11, 28, 20, 2, 'LVT', 1.8, 1.8, 128, range(32, 64) , [40, 20, 12, 36], [0.01, 0.04, 0.2, 0.2], 4, [0, 0.4, 0.8, 1.6, 2.0, 2.6, 3.2, 3.8, 4.4, 4.8, 12], ['0', '0.4', '0.4', '1.2', '1.2', '1.8', '2.4', '3.0', '3.6', '3.6', '10.8'], ['../Data/chip11/Chip11_Col28_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col28_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02', '../Data/chip11/Chip11_Col28_HCI_12x200ms_stress_VG_ConstPulse_VAsource_VBdrain_03', '../Data/chip11/Chip11_Col28_HCI_36x200ms_stress_VG_ConstPulse_VAsource_VBdrain_04'], '../Plots/chip11/', 'VG1p8_VD1p8', '_cycle01020304', 20, 150, 1)\n #MLC_IDSAT_characterization(11, 28, 20, 2, 'LVT', 1.5, 2.2, 128, range(64, 96) , [40, 20, 12, 36], [0.01, 0.04, 0.2, 0.2], 4, [0, 0.4, 0.8, 1.6, 2.0, 2.6, 3.2, 3.8, 4.4, 4.8, 12], ['0', '0.4', '0.4', '1.2', '1.2', '1.8', '2.4', '3.0', '3.6', '3.6', '10.8'], ['../Data/chip11/Chip11_Col28_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col28_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02', '../Data/chip11/Chip11_Col28_HCI_12x200ms_stress_VG_ConstPulse_VAsource_VBdrain_03', '../Data/chip11/Chip11_Col28_HCI_36x200ms_stress_VG_ConstPulse_VAsource_VBdrain_04'], '../Plots/chip11/', 'VG1p5_VD2p2', '_cycle01020304', 5, 150, 1)\n #MLC_IDSAT_characterization(11, 28, 20, 2, 'LVT', 1.8, 2.2, 128, range(96, 128), [40, 20, 12, 36], [0.01, 0.04, 0.2, 0.2], 4, [0, 0.4, 0.8, 1.6, 2.0, 2.6, 3.2, 3.8, 4.4, 4.8, 12], ['0', '0.4', '0.4', '1.2', '1.2', '1.8', '2.4', '3.0', '3.6', '3.6', '10.8'], ['../Data/chip11/Chip11_Col28_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip11/Chip11_Col28_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02', '../Data/chip11/Chip11_Col28_HCI_12x200ms_stress_VG_ConstPulse_VAsource_VBdrain_03', '../Data/chip11/Chip11_Col28_HCI_36x200ms_stress_VG_ConstPulse_VAsource_VBdrain_04'], '../Plots/chip11/', 'VG1p8_VD2p2', '_cycle01020304', 5, 150, 1)\n\n\n # (L, Nfin, VT_flavor, Nrow, Imax)\n col_list = [(36, 1, 'ULVT', 32 , 60 ), (36, 1, 'LVT', 32 , 50 ), (36, 1, 'SVT', 32 , 45 ),\n (36, 1, 'ULVT', 128, 60 ), (36, 1, 'LVT', 128, 50 ), (36, 1, 'SVT', 128, 45 ),\n (20, 1, 'ULVT', 32 , 75 ), (20, 1, 'LVT', 32 , 60 ), (20, 1, 'SVT', 32 , 50 ),\n (20, 1, 'ULVT', 128, 75 ), (20, 1, 'LVT', 128, 60 ), (20, 1, 'SVT', 128, 50 ),\n (16, 1, 'ULVT', 32 , 80 ), (16, 1, 'LVT', 32 , 65 ), (16, 1, 'SVT', 32 , 60 ),\n (16, 1, 'ULVT', 128, 80 ), (16, 1, 'LVT', 128, 65 ), (16, 1, 'SVT', 128, 60 ),\n (36, 2, 'ULVT', 32 , 115), (36, 2, 'LVT', 32 , 95 ), (36, 2, 'SVT', 32 , 85 ),\n (36, 2, 'ULVT', 128, 115), (36, 2, 'LVT', 128, 95 ), (36, 2, 'SVT', 128, 85 ), \n (20, 2, 'ULVT', 32 , 135), (20, 2, 'LVT', 32 , 115), (20, 2, 'SVT', 32 , 100),\n (20, 2, 'ULVT', 128, 135), (20, 2, 'LVT', 128, 120), (20, 2, 'SVT', 128, 100),\n (16, 2, 'ULVT', 32 , 150), (16, 2, 'LVT', 32 , 125), (16, 2, 'SVT', 32 , 115),\n (16, 2, 'ULVT', 128, 150), (16, 2, 'LVT', 128, 125), (16, 2, 'SVT', 128, 115)]\n\n #MLC_IDSAT_algorithm_rv1(11, 21, 36, 2, 'ULVT', 1.8, 2.4, 128, range(0, 128), [135+20], [0.2], 1, np.arange(0, 0.01*16+0.0001, 0.01), '', ['../Data/chip11/MLC_programming_Chip11_Col21_2msPULSE_VG1p8_VD2p4_VAsource_VBdrain_01'], '../Plots/chip11/', 'VG1p8_VD2p4', '_rv1_cycle01_EfficientPython')\n\n #MLC_IDSAT_algorithm_rv1(12, 21, 36, 2, 'ULVT', '0.9-1.2-1.5-1.8', 2.4, 128, range(0, 128), [59+16, 72+40, 80+31, 68+23], [0.2, 0.2, 0.2, 0.2], 4, [0, 15, 15.1, 37.5, 37.6, 59.8, 59.9, 78.1], ['0', '15', '', '37.4', '', '59.6', '', '77.8'], ['../Data/chip12/MLC_programming_Chip12_Col21_200msPULSE_VG0p9_VD2p4_VAsource_VBdrain_01', '../Data/chip12/MLC_programming_Chip12_Col21_200msPULSE_VG1p2_VD2p4_VAsource_VBdrain_02', '../Data/chip12/MLC_programming_Chip12_Col21_200msPULSE_VG1p5_VD2p4_VAsource_VBdrain_03', '../Data/chip12/MLC_programming_Chip12_Col21_200msPULSE_VG1p8_VD2p4_VAsource_VBdrain_04'], '../Plots/chip12/', 'VG-0p9-1p2-1p5-1p8_VD2p4', '_rv1_cycle01020304')\n\n t_ratio_lst = [(0, 0.17), (0.16, 0.34), (0.33, 0.505), (0.495, 0.67), (0.66, 0.84), (0.83, 1)]\n\n #t_label = []\n #for t in np.arange(0, 0.2*(59+16) + 0.0001, 0.2):\n # t_label.append(str(t))\n #MLC_IDSAT_algorithm_rv1(12, 21, 36, 2, 'ULVT', 0.9, 2.4, 128, range(0, 128), [59+16], [0.2], 1, np.arange(0, 0.2*(59+16)+0.0001, 0.2), t_label, ['../Data/chip12/MLC_programming_Chip12_Col21_200msPULSE_VG0p9_VD2p4_VAsource_VBdrain_01'], '../Plots/chip12/', 'VG0p9_VD2p4', '_rv1_cycle01')\n #for row_start in np.arange(0, 128, 8):\n # MLC_IDSAT_algorithm_rv1(12, 21, 36, 2, 'ULVT', 0.9, 2.4, 128, range(row_start, row_start+8), [59+16], [0.2], 1, np.arange(0, 0.2*(59+16)+0.0001, 0.2), t_label, ['../Data/chip12/MLC_programming_Chip12_Col21_200msPULSE_VG0p9_VD2p4_VAsource_VBdrain_01'], '../Plots/chip12/', 'VG0p9_VD2p4', '_rv1_cycle01_row'+str(row_start)+'_to_'+str(row_start+7))\n # segment=0\n # for t_ratio in t_ratio_lst:\n # MLC_IDSAT_algorithm_rv1(12, 21, 36, 2, 'ULVT', 0.9, 2.4, 128, range(row_start, row_start+8), [59+16], [0.2], 1, np.arange(0, 0.2*(59+16)+0.0001, 0.2), t_label, ['../Data/chip12/MLC_programming_Chip12_Col21_200msPULSE_VG0p9_VD2p4_VAsource_VBdrain_01'], '../Plots/chip12/', 'VG0p9_VD2p4', '_rv1_cycle01_row'+str(row_start)+'_to_'+str(row_start+7)+'_'+str(segment), [t_ratio[0]*0.2*(59+16), t_ratio[1]*0.2*(59+16)])\n # segment += 1\n\n #t_label = []\n #for t in np.arange(0, 0.2*(72+40) + 0.0001, 0.2):\n # t_label.append(str(0.2*(59+16) + t))\n #MLC_IDSAT_algorithm_rv1(12, 21, 36, 2, 'ULVT', 1.2, 2.4, 128, range(0, 128), [72+40], [0.2], 1, np.arange(0, 0.2*(72+40)+0.0001, 0.2), t_label, ['../Data/chip12/MLC_programming_Chip12_Col21_200msPULSE_VG1p2_VD2p4_VAsource_VBdrain_02'], '../Plots/chip12/', 'VG1p2_VD2p4', '_rv1_cycle02')\n #for row_start in np.arange(0, 128, 8):\n # MLC_IDSAT_algorithm_rv1(12, 21, 36, 2, 'ULVT', 1.2, 2.4, 128, range(row_start, row_start+8), [72+40], [0.2], 1, np.arange(0, 0.2*(72+40)+0.0001, 0.2), t_label, ['../Data/chip12/MLC_programming_Chip12_Col21_200msPULSE_VG1p2_VD2p4_VAsource_VBdrain_02'], '../Plots/chip12/', 'VG1p2_VD2p4', '_rv1_cycle02_row'+str(row_start)+'_to_'+str(row_start+7))\n # segment=0\n # for t_ratio in t_ratio_lst:\n # MLC_IDSAT_algorithm_rv1(12, 21, 36, 2, 'ULVT', 1.2, 2.4, 128, range(row_start, row_start+8), [72+40], [0.2], 1, np.arange(0, 0.2*(72+40)+0.0001, 0.2), t_label, ['../Data/chip12/MLC_programming_Chip12_Col21_200msPULSE_VG1p2_VD2p4_VAsource_VBdrain_02'], '../Plots/chip12/', 'VG1p2_VD2p4', '_rv1_cycle02_row'+str(row_start)+'_to_'+str(row_start+7)+'_'+str(segment), [t_ratio[0]*0.2*(72+40), t_ratio[1]*0.2*(72+40)])\n # segment += 1\n\n\n #t_label = []\n #for t in np.arange(0, 0.2*(80+31) + 0.0001, 0.2):\n # t_label.append(str(0.2*(59+16) + 0.2*(72+40) + t))\n ##MLC_IDSAT_algorithm_rv1(12, 21, 36, 2, 'ULVT', 1.5, 2.4, 128, range(0, 128), [80+31], [0.2], 1, np.arange(0, 0.2*(80+31)+0.0001, 0.2), t_label, ['../Data/chip12/MLC_programming_Chip12_Col21_200msPULSE_VG1p5_VD2p4_VAsource_VBdrain_03'], '../Plots/chip12/', 'VG1p5_VD2p4', '_rv1_cycle03')\n #for row_start in np.arange(0, 128, 8):\n # MLC_IDSAT_algorithm_rv1(12, 21, 36, 2, 'ULVT', 1.5, 2.4, 128, range(row_start, row_start+8), [80+31], [0.2], 1, np.arange(0, 0.2*(80+31)+0.0001, 0.2), t_label, ['../Data/chip12/MLC_programming_Chip12_Col21_200msPULSE_VG1p5_VD2p4_VAsource_VBdrain_03'], '../Plots/chip12/', 'VG1p5_VD2p4', '_rv1_cycle03_row'+str(row_start)+'_to_'+str(row_start+7))\n # segment=0\n # for t_ratio in t_ratio_lst:\n # MLC_IDSAT_algorithm_rv1(12, 21, 36, 2, 'ULVT', 1.5, 2.4, 128, range(row_start, row_start+8), [80+31], [0.2], 1, np.arange(0, 0.2*(80+31)+0.0001, 0.2), t_label, ['../Data/chip12/MLC_programming_Chip12_Col21_200msPULSE_VG1p5_VD2p4_VAsource_VBdrain_03'], '../Plots/chip12/', 'VG1p5_VD2p4', '_rv1_cycle03_row'+str(row_start)+'_to_'+str(row_start+7)+'_'+str(segment), [t_ratio[0]*0.2*(80+31), t_ratio[1]*0.2*(80+31)])\n # segment += 1\n\n\n #t_label = []\n #for t in np.arange(0, 0.2*(68+23) + 0.0001, 0.2):\n # t_label.append(str(0.2*(59+16) + 0.2*(72+40) + 0.2*(80+31) + t))\n #MLC_IDSAT_algorithm_rv1(12, 21, 36, 2, 'ULVT', 1.8, 2.4, 128, range(0, 128), [68+23], [0.2], 1, np.arange(0, 0.2*(68+23)+0.0001, 0.2), t_label, ['../Data/chip12/MLC_programming_Chip12_Col21_200msPULSE_VG1p8_VD2p4_VAsource_VBdrain_04'], '../Plots/chip12/', 'VG1p8_VD2p4', '_rv1_cycle04')\n #for row_start in np.arange(0, 128, 8):\n # MLC_IDSAT_algorithm_rv1(12, 21, 36, 2, 'ULVT', 1.8, 2.4, 128, range(row_start, row_start+8), [68+23], [0.2], 1, np.arange(0, 0.2*(68+23)+0.0001, 0.2), t_label, ['../Data/chip12/MLC_programming_Chip12_Col21_200msPULSE_VG1p8_VD2p4_VAsource_VBdrain_04'], '../Plots/chip12/', 'VG1p8_VD2p4', '_rv1_cycle04_row'+str(row_start)+'_to_'+str(row_start+7))\n # segment=0\n # for t_ratio in t_ratio_lst:\n # MLC_IDSAT_algorithm_rv1(12, 21, 36, 2, 'ULVT', 1.8, 2.4, 128, range(row_start, row_start+8), [68+23], [0.2], 1, np.arange(0, 0.2*(68+23)+0.0001, 0.2), t_label, ['../Data/chip12/MLC_programming_Chip12_Col21_200msPULSE_VG1p8_VD2p4_VAsource_VBdrain_04'], '../Plots/chip12/', 'VG1p8_VD2p4', '_rv1_cycle04_row'+str(row_start)+'_to_'+str(row_start+7)+'_'+str(segment), [t_ratio[0]*0.2*(68+23), t_ratio[1]*0.2*(68+23)])\n # segment += 1\n\n\n #MLC_IDSAT_characterization(10, 18, 36, 2, 'ULVT', 1.8, 2.0, 32, range(0, 16) , [40, 20, 12], [0.01, 0.04, 0.2], 3, [0, 0.4, 0.8, 1.6, 2.0, 2.6, 3.2, 3.8, 4.4], ['0', '0.4', '0.4', '1.2', '1.2', '1.8', '2.4', '3.0', '3.6'], ['../Data/chip10/Chip10_Col18_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip10/Chip10_Col18_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02', '../Data/chip10/Chip10_Col18_HCI_12x200ms_stress_VG_ConstPulse_VAsource_VBdrain_03'], '../Plots/chip10/', 'VG1p8_VD2p0', '_cycle010203', 38, 112)\n #MLC_IDSAT_characterization(10, 18, 36, 2, 'ULVT', 1.8, 2.4, 32, range(16, 32), [40, 20, 12], [0.01, 0.04, 0.2], 3, [0, 0.4, 0.8, 1.6, 2.0, 2.6, 3.2, 3.8, 4.4], ['0', '0.4', '0.4', '1.2', '1.2', '1.8', '2.4', '3.0', '3.6'], ['../Data/chip10/Chip10_Col18_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip10/Chip10_Col18_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02', '../Data/chip10/Chip10_Col18_HCI_12x200ms_stress_VG_ConstPulse_VAsource_VBdrain_03'], '../Plots/chip10/', 'VG1p8_VD2p4', '_cycle010203', 16, 110)\n\n #MLC_IDSAT_characterization(10, 24, 20, 2, 'ULVT', 1.8, 1.8, 32, range(0, 16) , [40, 20, 12], [0.01, 0.04, 0.2], 3, [0, 0.4, 0.8, 1.6, 2.0, 2.6, 3.2, 3.8, 4.4], ['0', '0.4', '0.4', '1.2', '1.2', '1.8', '2.4', '3.0', '3.6'], ['../Data/chip10/Chip10_Col24_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip10/Chip10_Col24_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02', '../Data/chip10/Chip10_Col24_HCI_12x200ms_stress_VG_ConstPulse_VAsource_VBdrain_03'], '../Plots/chip10/', 'VG1p8_VD1p8', '_cycle010203', 44, 133)\n #MLC_IDSAT_characterization(10, 24, 20, 2, 'ULVT', 1.8, 2.2, 32, range(16, 32), [40, 20, 12], [0.01, 0.04, 0.2], 3, [0, 0.4, 0.8, 1.6, 2.0, 2.6, 3.2, 3.8, 4.4], ['0', '0.4', '0.4', '1.2', '1.2', '1.8', '2.4', '3.0', '3.6'], ['../Data/chip10/Chip10_Col24_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip10/Chip10_Col24_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02', '../Data/chip10/Chip10_Col24_HCI_12x200ms_stress_VG_ConstPulse_VAsource_VBdrain_03'], '../Plots/chip10/', 'VG1p8_VD2p2', '_cycle010203', 14, 133)\n\n #MLC_IDSAT_characterization(10, 30, 16, 2, 'ULVT', 1.8, 1.7, 32, range(0, 16) , [40, 20, 12], [0.01, 0.04, 0.2], 3, [0, 0.4, 0.8, 1.6, 2.0, 2.6, 3.2, 3.8, 4.4], ['0', '0.4', '0.4', '1.2', '1.2', '1.8', '2.4', '3.0', '3.6'], ['../Data/chip10/Chip10_Col30_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip10/Chip10_Col30_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02', '../Data/chip10/Chip10_Col30_HCI_12x200ms_stress_VG_ConstPulse_VAsource_VBdrain_03'], '../Plots/chip10/', 'VG1p8_VD1p7', '_cycle010203', 50, 135)\n #MLC_IDSAT_characterization(10, 30, 16, 2, 'ULVT', 1.8, 2.0, 32, range(16, 32), [40, 20, 12], [0.01, 0.04, 0.2], 3, [0, 0.4, 0.8, 1.6, 2.0, 2.6, 3.2, 3.8, 4.4], ['0', '0.4', '0.4', '1.2', '1.2', '1.8', '2.4', '3.0', '3.6'], ['../Data/chip10/Chip10_Col30_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip10/Chip10_Col30_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02', '../Data/chip10/Chip10_Col30_HCI_12x200ms_stress_VG_ConstPulse_VAsource_VBdrain_03'], '../Plots/chip10/', 'VG1p8_VD2p0', '_cycle010203', 20, 140)\n\n\n\n #MLC_IDSAT_characterization(10, 18, 36, 2, 'ULVT', 1.8, 2.0, 32, range(0, 16) , [40], [0.01], 1, [0, 0.05, 0.1, 0.15, 0.2, 0.25, 0.3, 0.35, 0.4, 0.5], ['0', '0.05', '0.1', '0.15', '0.2', '0.25', '0.3', '0.35', '0.4', 'recover'], ['../Data/chip10/Chip10_Col18_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01'], '../Plots/chip10/', 'VG1p8_VD2p0', '_cycle01', 38, 112)\n #MLC_IDSAT_characterization(10, 18, 36, 2, 'ULVT', 1.8, 2.4, 32, range(16, 32), [40], [0.01], 1, [0, 0.05, 0.1, 0.15, 0.2, 0.25, 0.3, 0.35, 0.4, 0.5], ['0', '0.05', '0.1', '0.15', '0.2', '0.25', '0.3', '0.35', '0.4', 'recover'], ['../Data/chip10/Chip10_Col18_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01'], '../Plots/chip10/', 'VG1p8_VD2p4', '_cycle01', 16, 110)\n\n #MLC_IDSAT_characterization(10, 24, 20, 2, 'ULVT', 1.8, 1.8, 32, range(0, 16) , [40], [0.01], 1, [0, 0.05, 0.1, 0.15, 0.2, 0.25, 0.3, 0.35, 0.4, 0.5], ['0', '0.05', '0.1', '0.15', '0.2', '0.25', '0.3', '0.35', '0.4', 'recover'], ['../Data/chip10/Chip10_Col24_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01'], '../Plots/chip10/', 'VG1p8_VD1p8', '_cycle01', 44, 133)\n #MLC_IDSAT_characterization(10, 24, 20, 2, 'ULVT', 1.8, 2.2, 32, range(16, 32), [40], [0.01], 1, [0, 0.05, 0.1, 0.15, 0.2, 0.25, 0.3, 0.35, 0.4, 0.5], ['0', '0.05', '0.1', '0.15', '0.2', '0.25', '0.3', '0.35', '0.4', 'recover'], ['../Data/chip10/Chip10_Col24_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01'], '../Plots/chip10/', 'VG1p8_VD2p2', '_cycle01', 14, 133)\n\n #MLC_IDSAT_characterization(10, 30, 16, 2, 'ULVT', 1.8, 1.7, 32, range(0, 16) , [40], [0.01], 1, [0, 0.05, 0.1, 0.15, 0.2, 0.25, 0.3, 0.35, 0.4, 0.5], ['0', '0.05', '0.1', '0.15', '0.2', '0.25', '0.3', '0.35', '0.4', 'recover'], ['../Data/chip10/Chip10_Col30_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01'], '../Plots/chip10/', 'VG1p8_VD1p7', '_cycle01', 50, 135)\n #MLC_IDSAT_characterization(10, 30, 16, 2, 'ULVT', 1.8, 2.0, 32, range(16, 32), [40], [0.01], 1, [0, 0.05, 0.1, 0.15, 0.2, 0.25, 0.3, 0.35, 0.4, 0.5], ['0', '0.05', '0.1', '0.15', '0.2', '0.25', '0.3', '0.35', '0.4', 'recover'], ['../Data/chip10/Chip10_Col30_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01'], '../Plots/chip10/', 'VG1p8_VD2p0', '_cycle01', 20, 140)\n\n\n\n #MLC_IDSAT_characterization(10, 18, 36, 2, 'ULVT', 1.8, 2.0, 32, range(0, 16) , [40, 20], [0.01, 0.04], 2, [0, 0.2, 0.4, 0.8, 1.0, 1.2, 1.4, 1.6, 1.7], ['0', '0.2', '0.4', '0.4', '0.6', '0.8', '1.0', '1.2', 'recover'], ['../Data/chip10/Chip10_Col18_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip10/Chip10_Col18_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02'], '../Plots/chip10/', 'VG1p8_VD2p0', '_cycle0102', 38, 112)\n #MLC_IDSAT_characterization(10, 18, 36, 2, 'ULVT', 1.8, 2.4, 32, range(16, 32), [40, 20], [0.01, 0.04], 2, [0, 0.2, 0.4, 0.8, 1.0, 1.2, 1.4, 1.6, 1.7], ['0', '0.2', '0.4', '0.4', '0.6', '0.8', '1.0', '1.2', 'recover'], ['../Data/chip10/Chip10_Col18_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip10/Chip10_Col18_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02'], '../Plots/chip10/', 'VG1p8_VD2p4', '_cycle0102', 16, 110)\n # \n #MLC_IDSAT_characterization(10, 24, 20, 2, 'ULVT', 1.8, 1.8, 32, range(0, 16) , [40, 20], [0.01, 0.04], 2, [0, 0.2, 0.4, 0.8, 1.0, 1.2, 1.4, 1.6, 1.7], ['0', '0.2', '0.4', '0.4', '0.6', '0.8', '1.0', '1.2', 'recover'], ['../Data/chip10/Chip10_Col24_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip10/Chip10_Col24_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02'], '../Plots/chip10/', 'VG1p8_VD1p8', '_cycle0102', 44, 133)\n #MLC_IDSAT_characterization(10, 24, 20, 2, 'ULVT', 1.8, 2.2, 32, range(16, 32), [40, 20], [0.01, 0.04], 2, [0, 0.2, 0.4, 0.8, 1.0, 1.2, 1.4, 1.6, 1.7], ['0', '0.2', '0.4', '0.4', '0.6', '0.8', '1.0', '1.2', 'recover'], ['../Data/chip10/Chip10_Col24_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip10/Chip10_Col24_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02'], '../Plots/chip10/', 'VG1p8_VD2p2', '_cycle0102', 14, 133)\n # \n #MLC_IDSAT_characterization(10, 30, 16, 2, 'ULVT', 1.8, 1.7, 32, range(0, 16) , [40, 20], [0.01, 0.04], 2, [0, 0.2, 0.4, 0.8, 1.0, 1.2, 1.4, 1.6, 1.7], ['0', '0.2', '0.4', '0.4', '0.6', '0.8', '1.0', '1.2', 'recover'], ['../Data/chip10/Chip10_Col30_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip10/Chip10_Col30_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02'], '../Plots/chip10/', 'VG1p8_VD1p7', '_cycle0102', 50, 135)\n #MLC_IDSAT_characterization(10, 30, 16, 2, 'ULVT', 1.8, 2.0, 32, range(16, 32), [40, 20], [0.01, 0.04], 2, [0, 0.2, 0.4, 0.8, 1.0, 1.2, 1.4, 1.6, 1.7], ['0', '0.2', '0.4', '0.4', '0.6', '0.8', '1.0', '1.2', 'recover'], ['../Data/chip10/Chip10_Col30_HCI_40x10ms_stress_VG_ConstPulse_VAsource_VBdrain_01', '../Data/chip10/Chip10_Col30_HCI_20x40ms_stress_VG_ConstPulse_VAsource_VBdrain_02'], '../Plots/chip10/', 'VG1p8_VD2p0', '_cycle0102', 20, 140)",
"def ADM_SM_QCD(nf):\n\n adm_qqp_qqp = np.array([[0, 0, 0, 0, 0, 12, 0, 0],\n [0, 0, 0, 0, 12, 0, 0, 0],\n [0, 0, 0, 0, 0, 0, 0, 12],\n [0, 0, 0, 0, 0, 0, 12, 0],\n [0, 8/3, 0, 0, - 19/3, 5, 0, 0],\n [8/3, 0, 0, 0, 5, - 9, 0, 0],\n [0, 0, 0, 8/3, 0, 0, - 23/3, 5],\n [0, 0, 8/3, 0, 0, 0, 5, - 23/3]])\n\n adm_qqp_qqpp = np.array([[0, 0, 0, 0, 0, 0, 0, 0],\n [0, 0, 0, 0, 0, 0, 0, 0],\n [0, 0, 0, 0, 0, 0, 0, 0],\n [0, 0, 0, 0, 0, 0, 0, 0],\n [0, 0, 0, 0, 4/3, 0, 0, 0],\n [0, 0, 0, 0, 0, 0, 0, 0],\n [0, 0, 0, 0, 0, 0, 4/3, 0],\n [0, 0, 0, 0, 0, 0, 0, 0]])\n\n adm_qpq_qppq = np.array([[0, 0, 0, 0, 0, 0, 0, 0],\n [0, 0, 0, 0, 0, 0, 0, 0],\n [0, 0, 0, 0, 0, 0, 0, 0],\n [0, 0, 0, 0, 0, 0, 0, 0],\n [0, 0, 0, 0, 4/3, 0, 0, 0],\n [0, 0, 0, 0, 0, 0, 0, 0],\n [0, 0, 0, 0, 0, 0, 0, 0],\n [0, 0, 0, 0, 0, 0, 0, 4/3]])\n\n adm_qqp_qppq = np.array([[0, 0, 0, 0, 0, 0, 0, 0],\n [0, 0, 0, 0, 0, 0, 0, 0],\n [0, 0, 0, 0, 0, 0, 0, 0],\n [0, 0, 0, 0, 0, 0, 0, 0],\n [0, 0, 0, 0, 4/3, 0, 0, 0],\n [0, 0, 0, 0, 0, 0, 0, 0],\n [0, 0, 0, 0, 0, 0, 0, 4/3],\n [0, 0, 0, 0, 0, 0, 0, 0]])\n\n adm_qpq_qqpp = np.array([[0, 0, 0, 0, 0, 0, 0, 0],\n [0, 0, 0, 0, 0, 0, 0, 0],\n [0, 0, 0, 0, 0, 0, 0, 0],\n [0, 0, 0, 0, 0, 0, 0, 0],\n [0, 0, 0, 0, 4/3, 0, 0, 0],\n [0, 0, 0, 0, 0, 0, 0, 0],\n [0, 0, 0, 0, 0, 0, 0, 0],\n [0, 0, 0, 0, 0, 0, 4/3, 0]])\n\n adm_q_q = np.array([[4, 4, 0, - 28/3],\n [0, 0, 0, 44/3],\n [0, 0, 44/9, 0],\n [5/3, 13/3, 0, - 106/9]])\n\n adm_qqp_q = np.array([[0, 0, 0, 0],\n [0, 0, 0, 0],\n [0, 0, 0, 0],\n [0, 0, 0, 0],\n [0, 0, 0, 4/3],\n [0, 0, 0, 0],\n [0, 0, 4/9, 0],\n [0, 0, 0, 0]])\n\n\n adm_qpq_q = np.array([[0, 0, 0, 0],\n [0, 0, 0, 0],\n [0, 0, 0, 0],\n [0, 0, 0, 0],\n [0, 0, 0, 4/3],\n [0, 0, 0, 0],\n [0, 0, 0, 0],\n [0, 0, 4/9, 0]])\n\n adm_q_qqp = np.array([[0, 0, 0, 0, 8/3, 0, 0, 0],\n [0, 0, 0, 0, 8/3, 0, 0, 0],\n [0, 0, 0, 0, 0, 0, 8/3, 0],\n [0, 0, 0, 0, 20/9, 0, 0, 0]])\n\n adm_q_qpq = np.array([[0, 0, 0, 0, 8/3, 0, 0, 0],\n [0, 0, 0, 0, 8/3, 0, 0, 0],\n [0, 0, 0, 0, 0, 0, 0, 8/3],\n [0, 0, 0, 0, 20/9, 0, 0, 0]])\n\n adm_ud = np.hstack((adm_qqp_qqp, adm_qqp_qqpp, adm_qqp_qqpp, adm_qqp_qqpp, adm_qpq_qqpp, adm_qpq_qqpp,\\\n adm_qpq_qqpp, np.zeros((8, 24)), adm_qqp_q, adm_qpq_q, np.zeros((8,12))))\n\n adm_us = np.hstack((adm_qqp_qqpp, adm_qqp_qqp, adm_qqp_qqpp, adm_qqp_qqpp, adm_qpq_qppq, np.zeros((8,16)),\\\n adm_qpq_qqpp, adm_qpq_qqpp, np.zeros((8, 8)), adm_qqp_q, np.zeros((8,4)), adm_qpq_q, np.zeros((8,8))))\n\n adm_uc = np.hstack((adm_qqp_qqpp, adm_qqp_qqpp, adm_qqp_qqp, adm_qqp_qqpp, np.zeros((8,8)), adm_qpq_qppq,\\\n np.zeros((8,8)), adm_qpq_qppq, np.zeros((8, 8)), adm_qpq_qqpp, adm_qqp_q, np.zeros((8,8)), adm_qpq_q, np.zeros((8,4))))\n\n adm_ub = np.hstack((adm_qqp_qqpp, adm_qqp_qqpp, adm_qqp_qqpp, adm_qqp_qqp, np.zeros((8,16)), adm_qpq_qppq,\\\n np.zeros((8,8)), adm_qpq_qppq, adm_qpq_qppq, adm_qqp_q, np.zeros((8,12)), adm_qpq_q))\n\n adm_ds = np.hstack((adm_qqp_qppq, adm_qpq_qppq, np.zeros((8,16)), adm_qqp_qqp, adm_qqp_qqpp, adm_qqp_qqpp,\\\n adm_qpq_qqpp, adm_qpq_qqpp, np.zeros((8,8)), np.zeros((8,4)), adm_qqp_q, adm_qpq_q, np.zeros((8,8))))\n\n adm_dc = np.hstack((adm_qqp_qppq, np.zeros((8,8)), adm_qpq_qppq, np.zeros((8,8)), adm_qqp_qqpp, adm_qqp_qqp, adm_qqp_qqpp,\\\n adm_qpq_qppq, np.zeros((8,8)), adm_qpq_qqpp, np.zeros((8,4)), adm_qqp_q, np.zeros((8,4)), adm_qpq_q, np.zeros((8,4))))\n\n adm_db = np.hstack((adm_qqp_qppq, np.zeros((8,16)), adm_qpq_qppq, adm_qqp_qqpp, adm_qqp_qqpp, adm_qqp_qqp,\\\n np.zeros((8,8)), adm_qpq_qppq, adm_qpq_qppq, np.zeros((8,4)), adm_qqp_q, np.zeros((8,8)), adm_qpq_q))\n\n adm_sc = np.hstack((np.zeros((8,8)), adm_qqp_qppq, adm_qpq_qppq, np.zeros((8,8)), adm_qqp_qppq, adm_qpq_qppq, np.zeros((8,8)),\\\n adm_qqp_qqp, adm_qqp_qqpp, adm_qpq_qqpp, np.zeros((8,8)), adm_qqp_q, adm_qpq_q, np.zeros((8,4))))\n\n adm_sb = np.hstack((np.zeros((8,8)), adm_qqp_qppq, np.zeros((8,8)), adm_qpq_qppq, adm_qqp_qppq, np.zeros((8,8)), adm_qpq_qppq,\\\n adm_qqp_qqpp, adm_qqp_qqp, adm_qpq_qppq, np.zeros((8,8)), adm_qqp_q, np.zeros((8,4)), adm_qpq_q))\n\n adm_cb = np.hstack((np.zeros((8,16)), adm_qqp_qppq, adm_qpq_qppq, np.zeros((8,8)), adm_qqp_qppq, adm_qpq_qppq,\\\n adm_qqp_qppq, adm_qpq_qppq, adm_qqp_qqp, np.zeros((8,12)), adm_qqp_q, adm_qpq_q))\n\n adm_u = np.hstack((adm_q_qqp, adm_q_qqp, adm_q_qqp, adm_q_qqp, np.zeros((4,48)), adm_q_q, np.zeros((4,16))))\n\n adm_d = np.hstack((adm_q_qpq, np.zeros((4,24)), adm_q_qqp, adm_q_qqp, adm_q_qqp, np.zeros((4,24)), np.zeros((4,4)), adm_q_q, np.zeros((4,12))))\n\n adm_s = np.hstack((np.zeros((4,8)), adm_q_qpq, np.zeros((4,16)), adm_q_qpq, np.zeros((4,16)), adm_q_qqp, adm_q_qqp, np.zeros((4,8)),\\\n np.zeros((4,8)), adm_q_q, np.zeros((4,8))))\n\n adm_c = np.hstack((np.zeros((4,16)), adm_q_qpq, np.zeros((4,16)), adm_q_qpq, np.zeros((4,8)), adm_q_qpq, np.zeros((4,8)), adm_q_qqp,\\\n np.zeros((4,12)), adm_q_q, np.zeros((4,4))))\n\n adm_b = np.hstack((np.zeros((4,24)), adm_q_qpq, np.zeros((4,16)), adm_q_qpq, np.zeros((4,8)), adm_q_qpq, adm_q_qpq, np.zeros((4,16)), adm_q_q))\n\n\n adm = np.vstack((adm_ud, adm_us, adm_uc, adm_ub, adm_ds, adm_dc, adm_db, adm_sc, adm_sb, adm_cb, adm_u, adm_d, adm_s, adm_c, adm_b))\n\n if nf == 5:\n return adm\n elif nf == 4:\n return np.delete(np.delete(adm, np.r_[np.s_[24:32], np.s_[48:56], np.s_[64:80], np.s_[96:100]], 0),\\\n np.r_[np.s_[24:32], np.s_[48:56], np.s_[64:80], np.s_[96:100]], 1)\n else:\n raise Exception(\"nf has to be 4 or 5\")",
"def cminfo_compute():\n from hera_mc import cm_sysutils \n h = cm_sysutils.Handling()\n cminfo = h.get_cminfo_correlator()\n snap_to_ant = {}\n ant_to_snap = {}\n for antn, ant in enumerate(cminfo['antenna_numbers']):\n name = cminfo['antenna_names'][antn]\n for pol in cminfo['correlator_inputs'][antn]:\n if pol.startswith('e'):\n e_pol = pol\n if pol.startswith('n'):\n n_pol = pol\n ant_to_snap[ant] = {}\n if e_pol != 'None':\n snapi_e, channel_e = snap_part_to_host_input(cminfo['correlator_inputs'][antn][0])\n ant_to_snap[ant]['e'] = {'host': snapi_e, 'channel': channel_e}\n if snapi_e not in snap_to_ant.keys():\n snap_to_ant[snapi_e] = [None] * 6\n snap_to_ant[snapi_e][channel_e] = name + 'E'\n if n_pol != 'None':\n snapi_n, channel_n = snap_part_to_host_input(cminfo['correlator_inputs'][antn][1])\n ant_to_snap[ant]['n'] = {'host': snapi_n, 'channel': channel_n}\n if snapi_n not in snap_to_ant.keys():\n snap_to_ant[snapi_n] = [None] * 6\n snap_to_ant[snapi_n][channel_n] = name + 'N'\n return snap_to_ant, ant_to_snap",
"def mutual_information_3d(self,max_lag,percent_calc=.5,digitize=True):\n\n if digitize:\n M = utilities.mi_digitize(self.X)\n else:\n M = self.X\n\n rs, cs, zs = np.shape(M)\n\n rs_iters = int(rs*percent_calc)\n cs_iters = int(cs*percent_calc)\n\n r_picks = np.random.choice(np.arange(rs),size=rs_iters,replace=False)\n c_picks = np.random.choice(np.arange(cs),size=cs_iters,replace=False)\n\n\n # The r_picks are used to calculate the MI in the columns\n # and the c_picks are used to calculate the MI in the rows\n\n c_mi = np.zeros((rs_iters,max_lag))\n r_mi = np.zeros((cs_iters,max_lag))\n\n for i in range(rs_iters):\n for j in range(max_lag):\n\n rand_z = np.random.randint(0,zs)\n ind = j+1\n unshift = M[r_picks[i],ind:,rand_z]\n shift = M[r_picks[i],:-ind,rand_z]\n c_mi[i,j] = skmetrics.mutual_info_score(unshift,shift)\n\n for i in range(cs_iters):\n for j in range(max_lag):\n\n rand_z = np.random.randint(0,zs)\n ind=j+1\n unshift = M[ind:, c_picks[i],rand_z]\n shift = M[:-ind, c_picks[i],rand_z]\n r_mi[i,j] = skmetrics.mutual_info_score(unshift,shift)\n\n #for the z dimension\n rs,cs = np.where(np.random.rand(rs,cs)<percent_calc)\n z_mi = np.zeros( (len(rs),max_lag) )\n\n for i, (rs,cs) in enumerate(zip(r_picks,c_picks)):\n for j in range(max_lag):\n\n ind=j+1\n\n unshift = M[rs, cs, ind:]\n shift = M[rs, cs, :-ind]\n z_mi[i,j] = skmetrics.mutual_info_score(unshift,shift)\n\n r_mut = np.mean(r_mi,axis=0)\n c_mut = np.mean(c_mi,axis=0)\n z_mut = np.mean(z_mi,axis=0)\n\n return r_mut, c_mut, z_mut",
"def test_get_port_sub_group_by_moid(self):\n pass",
"def _config_md(self):\n self.cntrl[\"imin\"] = 0\n self.cntrl[\"ntx\"] = 1\n self.cntrl[\"irest\"] = 0\n self.cntrl[\"maxcyc\"] = 0\n self.cntrl[\"ncyc\"] = 0\n self.cntrl[\"dt\"] = 0.002\n self.cntrl[\"nstlim\"] = 5000\n self.cntrl[\"ntpr\"] = 500\n self.cntrl[\"ntwe\"] = 500\n self.cntrl[\"ntwr\"] = 5000\n self.cntrl[\"ntwx\"] = 500\n self.cntrl[\"ntxo\"] = 1\n self.cntrl[\"ioutfm\"] = 1\n self.cntrl[\"ntf\"] = 2\n self.cntrl[\"ntc\"] = 2\n self.cntrl[\"ntt\"] = 3\n self.cntrl[\"gamma_ln\"] = 1.0\n self.cntrl[\"ig\"] = -1",
"def correlationZernike():\n Tfile='/home/jghao/research/decamFocus/psf_withseeing/finerGrid_coeff_matrix/zernike_coeff_finerGrid_training.cp'\n b=p.load(open(Tfile))\n x = b[:,0]\n y = b[:,1]\n z = b[:,2]\n theta = b[:,3]\n phi = b[:,4]\n fwhm = b[:,5]\n e1 = b[:,6]\n e2 = b[:,7]\n thetax = theta*np.cos(np.deg2rad(phi))\n thetay = theta*np.sin(np.deg2rad(phi))\n bb = b[:,7:68] #choose only those corresponding to M202\n #idx = np.concatenate((np.arange(9,28),np.arange(29,48),np.arange(49,68)))\n #bb = b[:,idx]\n evalue,evector,pca = getPCA(bb)\n coeff = np.corrcoef(bb.T)\n ok = coeff >= 0.65\n pl.matshow(coeff*ok)\n ind = np.arange(0,60)\n pl.xticks(ind,('Piston','Tip','Tilt','Astignism','Defocus','Astignism','Trefoil','Coma','Coma','Trefoil','Ashtray','Astigm.5th','Spherical','Astigm.5th','Ashtray','16','17','18','19','20','Piston','Tip','Tilt','Astignism','Defocus','Astignism','Trefoil','Coma','Coma','Trefoil','Ashtray','Astigm.5th','Spherical','Astigm.5th','Ashtray','16','17','18','19','20','Piston','Tip','Tilt','Astignism','Defocus','Astignism','Trefoil','Coma','Coma','Trefoil','Ashtray','Astigm.5th','Spherical','Astigm.5th','Ashtray','16','17','18','19','20'),rotation=90,color='black')\n pl.yticks(ind,('Piston','Tip','Tilt','Astignism','Defocus','Astignism','Trefoil','Coma','Coma','Trefoil','Ashtray','Astigm.5th','Spherical','Astigm.5th','Ashtray','16','17','18','19','20','Piston','Tip','Tilt','Astignism','Defocus','Astignism','Trefoil','Coma','Coma','Trefoil','Ashtray','Astigm.5th','Spherical','Astigm.5th','Ashtray','16','17','18','19','20','Piston','Tip','Tilt','Astignism','Defocus','Astignism','Trefoil','Coma','Coma','Trefoil','Ashtray','Astigm.5th','Spherical','Astigm.5th','Ashtray','16','17','18','19','20'))\n pl.grid(color='yellow')",
"def _read_pnm_header(self, data):\r\n bpm = data[1:2] in b\"14\"\r\n regroups = re.search(b\"\".join((\r\n b\"(^(P[123456]|P7 332)\\s+(?:#.*[\\r\\n])*\",\r\n b\"\\s*(\\d+)\\s+(?:#.*[\\r\\n])*\",\r\n b\"\\s*(\\d+)\\s+(?:#.*[\\r\\n])*\" * (not bpm),\r\n b\"\\s*(\\d+)\\s(?:\\s*#.*[\\r\\n]\\s)*)\")), data).groups() + (1, ) * bpm\r\n self.header = regroups[0]\r\n self.magicnum = regroups[1]\r\n self.width = int(regroups[2])\r\n self.height = int(regroups[3])\r\n self.maxval = int(regroups[4])\r\n self.depth = 3 if self.magicnum in b\"P3P6P7 332\" else 1\r\n self.tupltypes = [self._types[self.magicnum]]",
"def test_linear_buckling_iso_CCSS(plot_static=False, plot_lb=False):\n # number of nodes\n nx = 5 # along x\n ny = 5 # along y\n\n # getting integration points\n nint = 4\n points, weights = get_points_weights(nint=nint)\n\n # geometry\n a = 3 # along x\n b = 3 # along y\n\n # material properties\n E = 200e9\n nu = 0.3\n laminaprop = (E, E, nu)\n stack = [0]\n h = 0.001\n lam = read_stack(stack=stack, plyt=h, laminaprop=laminaprop)\n\n # creating mesh\n x = np.linspace(0, a, nx)\n y = np.linspace(0, b, ny)\n xmesh, ymesh = np.meshgrid(x, y)\n\n # node coordinates and position in the global matrix\n ncoords = np.vstack((xmesh.T.flatten(), ymesh.T.flatten())).T\n nids = 1 + np.arange(ncoords.shape[0])\n nid_pos = dict(zip(nids, np.arange(len(nids))))\n\n # identifying nodal connectivity for plate elements\n # similar than Nastran's CQUAD4\n #\n # ^ y\n # |\n #\n # 4 ________ 3\n # | |\n # | | --> x\n # | |\n # |_______|\n # 1 2\n\n\n nids_mesh = nids.reshape(nx, ny)\n n1s = nids_mesh[:-1, :-1].flatten()\n n2s = nids_mesh[1:, :-1].flatten()\n n3s = nids_mesh[1:, 1:].flatten()\n n4s = nids_mesh[:-1, 1:].flatten()\n\n num_elements = len(n1s)\n print('num_elements', num_elements)\n\n N = DOF*nx*ny\n Kr = np.zeros(KC0_SPARSE_SIZE*num_elements, dtype=INT)\n Kc = np.zeros(KC0_SPARSE_SIZE*num_elements, dtype=INT)\n Kv = np.zeros(KC0_SPARSE_SIZE*num_elements, dtype=DOUBLE)\n KGr = np.zeros(KG_SPARSE_SIZE*num_elements, dtype=INT)\n KGc = np.zeros(KG_SPARSE_SIZE*num_elements, dtype=INT)\n KGv = np.zeros(KG_SPARSE_SIZE*num_elements, dtype=DOUBLE)\n init_k_KC0 = 0\n init_k_KG = 0\n\n plates = []\n for n1, n2, n3, n4 in zip(n1s, n2s, n3s, n4s):\n plate = BFSPlate2D()\n plate.n1 = n1\n plate.n2 = n2\n plate.n3 = n3\n plate.n4 = n4\n plate.c1 = DOF*nid_pos[n1]\n plate.c2 = DOF*nid_pos[n2]\n plate.c3 = DOF*nid_pos[n3]\n plate.c4 = DOF*nid_pos[n4]\n plate.ABD = lam.ABD\n plate.lex = a/(nx - 1)\n plate.ley = b/(ny - 1)\n plate.init_k_KC0 = init_k_KC0\n plate.init_k_KG = init_k_KG\n update_KC0(plate, points, weights, Kr, Kc, Kv)\n init_k_KC0 += KC0_SPARSE_SIZE\n init_k_KG += KG_SPARSE_SIZE\n plates.append(plate)\n\n KC0 = coo_matrix((Kv, (Kr, Kc)), shape=(N, N)).tocsc()\n\n # applying boundary conditions\n\n # locating nodes\n bk = np.zeros(KC0.shape[0], dtype=bool) # constrained DOFs, can be used to prescribe displacements\n\n x = ncoords[:, 0]\n y = ncoords[:, 1]\n\n # applying boundary conditions\n # simply supported\n check = isclose(x, 0) | isclose(x, a) | isclose(y, 0) | isclose(y, b)\n bk[2::DOF] = check\n check = isclose(x, 0) | isclose(x, a)\n bk[3::DOF] = check\n # point supports\n check = isclose(x, a/2) & (isclose(y, 0) | isclose(y, b))\n bk[0::DOF] = check\n check = isclose(y, b/2) & (isclose(x, 0) | isclose(x, a))\n bk[1::DOF] = check\n\n # unconstrained nodes\n bu = ~bk # logical_not\n\n # defining external force vector\n fext = np.zeros(KC0.shape[0], dtype=float)\n\n # applying unitary load along u at x=a\n # nodes at vertices get 1/2 the force\n for plate in plates:\n pos1 = nid_pos[plate.n1]\n pos2 = nid_pos[plate.n2]\n pos3 = nid_pos[plate.n3]\n pos4 = nid_pos[plate.n4]\n if isclose(x[pos3], a):\n Nxx = -1\n xi = +1\n elif isclose(x[pos1], 0):\n Nxx = +1\n xi = -1\n else:\n continue\n lex = plate.lex\n ley = plate.ley\n indices = []\n c1 = DOF*pos1\n c2 = DOF*pos2\n c3 = DOF*pos3\n c4 = DOF*pos4\n cs = [c1, c2, c3, c4]\n for ci in cs:\n for i in range(DOF):\n indices.append(ci + i)\n fe = np.zeros(4*DOF, dtype=float)\n for j in range(nint):\n eta = points[j]\n plate.update_Nu(xi, eta)\n Nu = np.asarray(plate.Nu)\n fe += ley/2*weights[j]*Nu*Nxx\n fext[indices] += fe\n\n Kuu = KC0[bu, :][:, bu]\n fextu = fext[bu]\n\n # static solver\n uu = spsolve(Kuu, fextu)\n u = np.zeros(KC0.shape[0], dtype=float)\n u[bu] = uu\n\n if plot_static:\n import matplotlib\n matplotlib.use('TkAgg')\n import matplotlib.pyplot as plt\n plt.gca().set_aspect('equal')\n uplot = u[0::DOF].reshape(nx, ny).T\n vplot = u[1::DOF].reshape(nx, ny).T\n print('u extremes', uplot.min(), uplot.max())\n print('v extremes', vplot.min(), vplot.max())\n levels = np.linspace(uplot.min(), uplot.max(), 300)\n plt.contourf(xmesh, ymesh, uplot, levels=levels)\n plt.colorbar()\n plt.show()\n\n # eigenvalue solver\n\n # getting integration points\n for plate in plates:\n update_KG(u, plate, points, weights, KGr, KGc, KGv)\n KG = coo_matrix((KGv, (KGr, KGc)), shape=(N, N)).tocsc()\n KGuu = KG[bu, :][:, bu]\n\n # solving modified generalized eigenvalue problem\n # Original: (KC0 + lambda*KG)*v = 0\n # Modified: (-1/lambda)*KC0*v = KG*v #NOTE here we find (-1/lambda)\n num_eigenvalues = 5\n eigvals, eigvecsu = eigsh(A=KGuu, k=num_eigenvalues, which='SM', M=Kuu,\n tol=1e-6, sigma=1., mode='cayley')\n eigvals = -1./eigvals\n eigvecs = np.zeros((KC0.shape[0], num_eigenvalues), dtype=float)\n eigvecs[bu, :] = eigvecsu\n\n if plot_lb:\n import matplotlib\n matplotlib.use('TkAgg')\n import matplotlib.pyplot as plt\n plt.gca().set_aspect('equal')\n mode = 0\n wplot = eigvecs[2::DOF, mode].reshape(nx, ny).T\n levels = np.linspace(wplot.min(), wplot.max(), 300)\n plt.contourf(xmesh, ymesh, wplot, levels=levels)\n plt.colorbar()\n plt.show()\n\n kc = eigvals[0]/(E*np.pi**2*(h/b)**2/(12*(1 - nu**2))*h)\n assert isclose(kc, 6.6, rtol=0.05)"
] | [
"0.61781174",
"0.5418176",
"0.53428525",
"0.52969944",
"0.5281734",
"0.5265549",
"0.5199416",
"0.51931274",
"0.5192047",
"0.518112",
"0.51615626",
"0.51364076",
"0.51307964",
"0.5124014",
"0.50993615",
"0.50799686",
"0.5064319",
"0.5056811",
"0.50541306",
"0.50195384",
"0.5016159",
"0.49924555",
"0.49887806",
"0.4987956",
"0.49811035",
"0.49655476",
"0.49502265",
"0.49483836",
"0.49463168",
"0.49418914"
] | 0.67264915 | 0 |
Implementing is country selection criteria field present in re analysis page functionality | def is_country_selection_criteria_field_present_in_re_analysis_page(self):
return self.is_specific_selection_criteria_filter_present(self.re_analysis_page_div_id, self.country_label_name) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def is_country_selection_criteria_field_present_in_view_price_list_details_rate_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_details_rate_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_view_price_list_details_ref_rates_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_ref_rates_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_vendor_profile_page(self):\n return self.is_specific_selection_criteria_filter_present(self.vendor_profile_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_view_price_list_details_dialed_digits_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_dialed_digits_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_vendor_profile_dialed_digits_page(self):\n return self.is_specific_selection_criteria_filter_present(self.vendor_profile_dialed_digits_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_compare_price_list_pop_up(self):\n return self.is_specific_selection_criteria_filter_present(self.compare_price_list_pop_up_div_id, self.country_label_name)",
"def _feature_country_process(self):\n if 'Country' not in self._df_invoice_line.columns:\n return\n\n list_countries_keep = ['United Kingdom']\n rows_before = self._df_invoice_line.shape[0]\n \n df_invoice_line_new = pd.DataFrame()\n for country in list_countries_keep : \n df_invoice_line_new = df_invoice_line_new.append(\\\n self._df_invoice_line[self._df_invoice_line['Country']==country]\\\n , ignore_index=True)\n\n self.df_invoice_line = df_invoice_line_new\n del(df_invoice_line_new)\n \n rows_after = self._df_invoice_line.shape[0] \n _print_stat_rows(\"Countries filtering : \",rows_before, rows_after)\n\n \n #-------------------------------------------------------------------------\n # Due to the fact only one country is used, then this feature is dropped\n #-------------------------------------------------------------------------\n list_col_to_keep = [col for col in self._df_invoice_line.columns \\\n if col not in 'Country']\n \n self._df_invoice_line = self._df_invoice_line[list_col_to_keep] \n\n return",
"def _perContinentChoiceSelector(self, params):\n\n entity = params['entity']\n choices = soc.models.countries.COUNTRIES_TO_CONTINENT\n\n if 'fields' in params:\n fields = params['fields']\n\n for field in fields:\n entity = entity.__getattribute__(field)\n\n return choices[entity.res_country]",
"def is_country_selection_criteria_field_present_in_vendor_profile_destinations_page(self):\n return self.is_specific_selection_criteria_filter_present(self.vendor_profile_destinations_page_div_id, self.country_label_name)",
"def set_country_for_search(self, country_name_list):\n self.multiple_items_selection_from_kendo_dropdown(self.country_dropdown_locator, country_name_list)\n self.wait_for_ajax_spinner_load()",
"def is_country_column_present_in_re_analysis_page(self):\n return self.is_specific_column_present(self.re_analysis_grid_div_id, self.column_name_country)",
"def test_clean_country_flag(self):\n # country_flag = self.cleaned_data.get('country_flag', None)\n # field = self.fields.get(self.country_field_name, None)\n # if not field and hasattr(self, 'computed_fields'):\n # field = self.computed_fields.get(self.country_field_name, None)\n # if field.initial == self.cleaned_data.get(self.country_field_name, None)\n pass",
"def onchange_country(self):\n if self.country_id and self.country_id.code == 'SA':\n self.is_saudi = True\n else:\n self.is_saudi = False",
"def test_country_overrides(self):\n # Retrieve the registration form description\n with override_settings(REGISTRATION_EXTRA_FIELDS={\"country\": \"required\"}):\n response = self.client.get(self.url)\n self.assertHttpOK(response)\n\n self.assertContains(response, 'Kosovo')",
"def test_on_post_display_local_to_foreign(self):\n # data.get('country_flag', None)\n # address_display_version = 'foreign' if country_flag else 'local'\n # form.set_alt_data(name='country_display', field=self.fields['country_display'], value=address_display_version)\n pass",
"def test_default_country_set(self):\n response = self.client.get(reverse(\"billing_info\"))\n self.assertEqual(response.status_code, 200)\n self.assertContains(\n response, '<option value=\"PL\" selected>Poland</option>', html=True\n )",
"def findCountryCode(self):\n RecordsWithCountry = []\n for state in pycountry.subdivisions:\n #print(state.name)\n for record in self.Records: \n if state.name == record.state:\n #print(state.country, record.state)\n r = RecordCountry(date=record.date,\n country=state.country.alpha_3,\n impressions=record.impressions,\n CTR=record.CTR)\n self.Records.remove(record)\n RecordsWithCountry.append(r)\n for record in self.Records: \n r = RecordCountry(date=record.date,\n country=\"XXX\",\n impressions=record.impressions,\n CTR=record.CTR)\n RecordsWithCountry.append(r)\n self.Records = RecordsWithCountry",
"def country_flag(country):\n\tif not country:\n\t\treturn u''\n\tresult = Country.objects.filter(name__icontains=country)\n\tif result:\n\t\tc = result[0]\n\t\tiso = c.iso\n\t\tflag_location = iso_flag(iso)\n\t\treturn flag_location\n\treturn u''",
"def filters(self):\n return self.England_filter",
"def filter_plot(mode, country, continent, start_date, end_date, options):\n # Default is World mode\n chart_data = world_daywise_df\n map_data = countries_daywise_df\n print(country, continent)\n if mode == SelectionMode.Continents.value:\n #Continents mode\n if not isinstance(continent, list):\n continent = [continent]\n\n chart_data = continents_daywise_df[continents_daywise_df['WHO Region'].isin(continent)]\n map_data = map_data[map_data['WHO Region'].isin(continent)]\n elif mode == SelectionMode.Countries.value:\n # Countries mode\n if not isinstance(country, list):\n country = [country]\n\n chart_data = countries_daywise_df[countries_daywise_df['Country/Region'].isin(country)]\n map_data = chart_data\n\n chart_data = chart_data.query('Date >= @start_date & Date <= @end_date')\n map_data = map_data.query('Date >= @start_date & Date <= @end_date')\n\n # fix error when groupby geometry or put it in the aggregate column\n temp = map_data.drop(['geometry', 'country_code', 'Date'], axis=1).groupby(['Country/Region']).agg(metrics).reset_index()\n map_data = join_country_code_data(temp, country_code_data)\n\n if is_perCapita(options):\n for metric in ['Confirmed', 'Deaths', 'Recovered']:\n chart_data[metric + '_per_capita'] = chart_data[metric] / chart_data['Population']\n map_data[metric + '_per_capita'] = map_data[metric] / map_data['Population']\n \n if is_perCapita(options):\n return plot(chart_data, 'Confirmed_per_capita', 'Confirmed Cases Per Capita'), \\\n plot(chart_data, 'Deaths_per_capita', 'Confirmed Deaths Per Capita'), \\\n plot(chart_data, 'Recovered_per_capita', 'Confirmed Recoveries Per Capita'), \\\n generate_map(map_data)\n\n return plot(chart_data, 'Confirmed', 'Confirmed Cases'), \\\n plot(chart_data, 'Deaths', 'Confirmed Deaths'), \\\n plot(chart_data, 'Recovered', 'Confirmed Recoveries'), \\\n generate_map(map_data)",
"def test_on_post_display_foreign_to_foreign(self):\n # data.get('country_flag', None)\n # address_display_version = 'foreign' if country_flag else 'local'\n # form.set_alt_data(name='country_display', field=self.fields['country_display'], value=address_display_version)\n pass",
"def test_on_post_display_foreign_to_local(self):\n # data.get('country_flag', None)\n # address_display_version = 'foreign' if country_flag else 'local'\n # form.set_alt_data(name='country_display', field=self.fields['country_display'], value=address_display_version)\n pass",
"def country_hint(self, value):\n return None",
"def is_country_column_present_in_view_price_list_details_rate_page(self):\n return self.is_specific_column_present(self.vendor_price_list_detail_rates_grid_div_id, self.column_name_country)",
"def __create_country_dropdown(self):\n return dcc.Dropdown(\n id=\"dd_country\",\n options=self.data_reader.get_country_options(),\n value=\"Canada\",\n )",
"def country_codes():\n\n iso_sel = [\n Freedom_short.iso_code,\n Freedom_short.year,\n Freedom_short.country,\n Freedom_short.region,\n Freedom_short.hf_score,\n Freedom_short.hf_rank,\n Freedom_short.hf_quartile,\n ]\n\n # Use Pandas to perform the sql query\n #Grab 2017 Data Only for Dropdown\n codes_stmt = db.session.query(*iso_sel).filter(Freedom_short.year == 2017).order_by(Freedom_short.iso_code).statement\n codes_df = pd.read_sql_query(codes_stmt, db.session.bind)\n\n # Return a list of the column names (sample names)\n return jsonify(list(codes_df[\"iso_code\"]))",
"def country(alpha_2_code: str) -> None:",
"def city_country(city_name, country_name):\n city_country_combo = city_name + ', ' + country_name\n return city_country_combo.title()",
"def test_default_country_set_no_ip(self):\n response = self.client.get(reverse(\"billing_info\"))\n self.assertEqual(response.status_code, 200)\n self.assertContains(\n response, '<option value=\"PL\" selected>Poland</option>', html=True\n )",
"def is_country_column_present_in_view_price_list_details_ref_rates_page(self):\n return self.is_specific_column_present(self.vendor_price_list_detail_reference_rates_grid_div_id, self.column_name_country)"
] | [
"0.706966",
"0.6921643",
"0.66871643",
"0.66374296",
"0.6594408",
"0.6457126",
"0.6018326",
"0.59694034",
"0.5883072",
"0.5879831",
"0.58775175",
"0.58748615",
"0.58267385",
"0.58181703",
"0.5782569",
"0.57072055",
"0.5668345",
"0.560995",
"0.5590671",
"0.55851805",
"0.55201054",
"0.5511492",
"0.5437988",
"0.5423839",
"0.54188234",
"0.53944796",
"0.5375666",
"0.53748983",
"0.5372177",
"0.5363982"
] | 0.7397779 | 0 |
Implementing is country column present in re analysis page functionality | def is_country_column_present_in_re_analysis_page(self):
return self.is_specific_column_present(self.re_analysis_grid_div_id, self.column_name_country) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def is_country_column_present_in_vendor_profile_page(self):\n return self.is_specific_column_present(self.rates_grid_div_id, self.column_name_country)",
"def is_country_column_present_in_view_price_list_details_rate_page(self):\n return self.is_specific_column_present(self.vendor_price_list_detail_rates_grid_div_id, self.column_name_country)",
"def is_country_column_present_in_view_price_list_details_ref_rates_page(self):\n return self.is_specific_column_present(self.vendor_price_list_detail_reference_rates_grid_div_id, self.column_name_country)",
"def is_country_column_present_in_vendor_profile_dialed_digits_page(self):\n return self.is_specific_column_present(self.dialed_digits_grid_div_id, self.column_name_country)",
"def is_country_selection_criteria_field_present_in_re_analysis_page(self):\n return self.is_specific_selection_criteria_filter_present(self.re_analysis_page_div_id, self.country_label_name)",
"def is_country_column_present_in_compare_price_list_pop_up(self):\n return self.is_specific_column_present(self.compare_price_list_rate_grid_div_id, self.column_name_country)",
"def is_country_column_present_in_view_price_list_details_dialed_digits_page(self):\n return self.is_specific_column_present(self.vendor_price_list_detail_dial_digits_grid_div_id, self.column_name_country)",
"def _feature_country_process(self):\n if 'Country' not in self._df_invoice_line.columns:\n return\n\n list_countries_keep = ['United Kingdom']\n rows_before = self._df_invoice_line.shape[0]\n \n df_invoice_line_new = pd.DataFrame()\n for country in list_countries_keep : \n df_invoice_line_new = df_invoice_line_new.append(\\\n self._df_invoice_line[self._df_invoice_line['Country']==country]\\\n , ignore_index=True)\n\n self.df_invoice_line = df_invoice_line_new\n del(df_invoice_line_new)\n \n rows_after = self._df_invoice_line.shape[0] \n _print_stat_rows(\"Countries filtering : \",rows_before, rows_after)\n\n \n #-------------------------------------------------------------------------\n # Due to the fact only one country is used, then this feature is dropped\n #-------------------------------------------------------------------------\n list_col_to_keep = [col for col in self._df_invoice_line.columns \\\n if col not in 'Country']\n \n self._df_invoice_line = self._df_invoice_line[list_col_to_keep] \n\n return",
"def is_country_selection_criteria_field_present_in_view_price_list_details_rate_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_details_rate_page_div_id, self.country_label_name)",
"def country_flag(country):\n\tif not country:\n\t\treturn u''\n\tresult = Country.objects.filter(name__icontains=country)\n\tif result:\n\t\tc = result[0]\n\t\tiso = c.iso\n\t\tflag_location = iso_flag(iso)\n\t\treturn flag_location\n\treturn u''",
"def is_country_selection_criteria_field_present_in_view_price_list_details_ref_rates_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_ref_rates_page_div_id, self.country_label_name)",
"def is_country_column_present_in_vendor_profile_destinations_page(self):\n return self.is_specific_column_present(self.destinations_grid_div_id, self.column_name_country)",
"def is_country_selection_criteria_field_present_in_vendor_profile_page(self):\n return self.is_specific_selection_criteria_filter_present(self.vendor_profile_page_div_id, self.country_label_name)",
"def nativity_race_with_countries(row): \n if row['nativity'] != 'United States':\n return row['nativity']\n else:\n return row['race']",
"def is_country_selection_criteria_field_present_in_view_price_list_details_dialed_digits_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_dialed_digits_page_div_id, self.country_label_name)",
"def test_get_country_by_geo_location(self):\n pass",
"def is_country_selection_criteria_field_present_in_vendor_profile_dialed_digits_page(self):\n return self.is_specific_selection_criteria_filter_present(self.vendor_profile_dialed_digits_page_div_id, self.country_label_name)",
"def country_codes():\n\n iso_sel = [\n Freedom_short.iso_code,\n Freedom_short.year,\n Freedom_short.country,\n Freedom_short.region,\n Freedom_short.hf_score,\n Freedom_short.hf_rank,\n Freedom_short.hf_quartile,\n ]\n\n # Use Pandas to perform the sql query\n #Grab 2017 Data Only for Dropdown\n codes_stmt = db.session.query(*iso_sel).filter(Freedom_short.year == 2017).order_by(Freedom_short.iso_code).statement\n codes_df = pd.read_sql_query(codes_stmt, db.session.bind)\n\n # Return a list of the column names (sample names)\n return jsonify(list(codes_df[\"iso_code\"]))",
"def test_clean_country_flag(self):\n # country_flag = self.cleaned_data.get('country_flag', None)\n # field = self.fields.get(self.country_field_name, None)\n # if not field and hasattr(self, 'computed_fields'):\n # field = self.computed_fields.get(self.country_field_name, None)\n # if field.initial == self.cleaned_data.get(self.country_field_name, None)\n pass",
"def country(self):\n if \"country\" in self._prop_dict:\n return self._prop_dict[\"country\"]\n else:\n return None",
"def country(self):\n if \"country\" in self._prop_dict:\n return self._prop_dict[\"country\"]\n else:\n return None",
"def countries():\r\n\r\n # Use Pandas to perform the sql query\r\n results = db.session.query(Worldmapdata.to_country.distinct().label(\"to_country\"))\r\n country = [row.to_country for row in results.all()]\r\n # Return a list of the column names (sample names)\r\n return jsonify(list(country))",
"def test_on_post_display_local_to_foreign(self):\n # data.get('country_flag', None)\n # address_display_version = 'foreign' if country_flag else 'local'\n # form.set_alt_data(name='country_display', field=self.fields['country_display'], value=address_display_version)\n pass",
"def country() -> str:",
"def onchange_country(self):\n if self.country_id and self.country_id.code == 'SA':\n self.is_saudi = True\n else:\n self.is_saudi = False",
"def user_stats(df, selected_city):",
"def country(self):\n return self.status.place['country']",
"def test_get_country_states(self):\n pass",
"def __extract_series_per_country(self, countries):\n frames = []\n for country in countries:\n country_series = self.series.loc[self.series[COUNTRY_LABEL] == country]\n frames.append(country_series)\n df = pd.concat(frames)\n mask = [False, True, False, False]\n mask = mask + [True for i in range(4, len(list(df)))]\n return df.iloc[:,mask]",
"def test_country_name_in_countries(self):\n\t\tcountry_code = get_country_code('Andorra')\n\t\tself.assertEqual(country_code, 'ad')"
] | [
"0.71546704",
"0.70056826",
"0.6902501",
"0.6772843",
"0.66131485",
"0.6580249",
"0.65591323",
"0.63626254",
"0.61952865",
"0.6129125",
"0.60321045",
"0.60046995",
"0.5950907",
"0.5929295",
"0.5909258",
"0.58920246",
"0.58882",
"0.5860195",
"0.58305174",
"0.5824225",
"0.5824225",
"0.58016366",
"0.579766",
"0.5753723",
"0.57448226",
"0.5707584",
"0.56827605",
"0.5668946",
"0.5667849",
"0.5637747"
] | 0.7722728 | 0 |
Implementing is country selection criteria field present in vendor profile page functionality | def is_country_selection_criteria_field_present_in_vendor_profile_page(self):
return self.is_specific_selection_criteria_filter_present(self.vendor_profile_page_div_id, self.country_label_name) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def is_country_selection_criteria_field_present_in_view_price_list_details_rate_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_details_rate_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_vendor_profile_dialed_digits_page(self):\n return self.is_specific_selection_criteria_filter_present(self.vendor_profile_dialed_digits_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_view_price_list_details_ref_rates_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_ref_rates_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_re_analysis_page(self):\n return self.is_specific_selection_criteria_filter_present(self.re_analysis_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_vendor_profile_destinations_page(self):\n return self.is_specific_selection_criteria_filter_present(self.vendor_profile_destinations_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_compare_price_list_pop_up(self):\n return self.is_specific_selection_criteria_filter_present(self.compare_price_list_pop_up_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_view_price_list_details_dialed_digits_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_dialed_digits_page_div_id, self.country_label_name)",
"def test_country_overrides(self):\n # Retrieve the registration form description\n with override_settings(REGISTRATION_EXTRA_FIELDS={\"country\": \"required\"}):\n response = self.client.get(self.url)\n self.assertHttpOK(response)\n\n self.assertContains(response, 'Kosovo')",
"def is_country_column_present_in_vendor_profile_page(self):\n return self.is_specific_column_present(self.rates_grid_div_id, self.column_name_country)",
"def onchange_country(self):\n if self.country_id and self.country_id.code == 'SA':\n self.is_saudi = True\n else:\n self.is_saudi = False",
"def _perContinentChoiceSelector(self, params):\n\n entity = params['entity']\n choices = soc.models.countries.COUNTRIES_TO_CONTINENT\n\n if 'fields' in params:\n fields = params['fields']\n\n for field in fields:\n entity = entity.__getattribute__(field)\n\n return choices[entity.res_country]",
"def test_clean_country_flag(self):\n # country_flag = self.cleaned_data.get('country_flag', None)\n # field = self.fields.get(self.country_field_name, None)\n # if not field and hasattr(self, 'computed_fields'):\n # field = self.computed_fields.get(self.country_field_name, None)\n # if field.initial == self.cleaned_data.get(self.country_field_name, None)\n pass",
"def test_default_country_set(self):\n response = self.client.get(reverse(\"billing_info\"))\n self.assertEqual(response.status_code, 200)\n self.assertContains(\n response, '<option value=\"PL\" selected>Poland</option>', html=True\n )",
"def country(self):\n if \"country\" in self._prop_dict:\n return self._prop_dict[\"country\"]\n else:\n return None",
"def country(self):\n if \"country\" in self._prop_dict:\n return self._prop_dict[\"country\"]\n else:\n return None",
"def __create_country_dropdown(self):\n return dcc.Dropdown(\n id=\"dd_country\",\n options=self.data_reader.get_country_options(),\n value=\"Canada\",\n )",
"def country_hint(self, value):\n return None",
"def set_country_for_search(self, country_name_list):\n self.multiple_items_selection_from_kendo_dropdown(self.country_dropdown_locator, country_name_list)\n self.wait_for_ajax_spinner_load()",
"def test_on_post_display_local_to_foreign(self):\n # data.get('country_flag', None)\n # address_display_version = 'foreign' if country_flag else 'local'\n # form.set_alt_data(name='country_display', field=self.fields['country_display'], value=address_display_version)\n pass",
"def country_flag(country):\n\tif not country:\n\t\treturn u''\n\tresult = Country.objects.filter(name__icontains=country)\n\tif result:\n\t\tc = result[0]\n\t\tiso = c.iso\n\t\tflag_location = iso_flag(iso)\n\t\treturn flag_location\n\treturn u''",
"def test_default_country_set_no_ip(self):\n response = self.client.get(reverse(\"billing_info\"))\n self.assertEqual(response.status_code, 200)\n self.assertContains(\n response, '<option value=\"PL\" selected>Poland</option>', html=True\n )",
"def default_get(self, cr, uid, fields, context=None):\n context = context or {}\n res = super(res_partner, self).default_get(cr, uid, fields, context=context)\n res.update({'uid_country': self._get_country_code(cr,uid,context=context)})\n return res",
"def country(alpha_2_code: str) -> None:",
"def country(self):\n return self.status.place['country']",
"def _get_country_code(self, cr, uid, context=None):\n context = context or {}\n user_company = self.pool.get('res.users').browse(cr, uid, uid, context=context).company_id\n return user_company.partner_id and user_company.partner_id.country_id \\\n and user_company.partner_id.country_id.code or 'XX'",
"def is_country_column_present_in_view_price_list_details_rate_page(self):\n return self.is_specific_column_present(self.vendor_price_list_detail_rates_grid_div_id, self.column_name_country)",
"def test_get_country_by_geo_location(self):\n pass",
"def country(self) -> Optional[str]:\n return pulumi.get(self, \"country\")",
"def country(self) -> Optional[str]:\n return pulumi.get(self, \"country\")",
"def test_default_country_by_ip_no_settings(self):\n\n response = self.client.get(\n reverse(\"billing_info\"), HTTP_X_FORWARDED_FOR=\"85.214.132.117\"\n )\n self.assertEqual(response.status_code, 200)\n self.assertContains(\n response, '<option value=\"\" selected>---------</option>', html=True\n )"
] | [
"0.71922636",
"0.7153507",
"0.6976449",
"0.6903179",
"0.6878561",
"0.682338",
"0.668221",
"0.6371376",
"0.63000566",
"0.62326133",
"0.6179465",
"0.61512613",
"0.612641",
"0.6037943",
"0.6037943",
"0.603144",
"0.6012983",
"0.6012933",
"0.5880501",
"0.58793664",
"0.58192545",
"0.5814576",
"0.5748352",
"0.57260233",
"0.5701623",
"0.56954116",
"0.5677533",
"0.5673529",
"0.5673529",
"0.5643117"
] | 0.75848794 | 0 |
Implementing is country column present in vendor profile page functionality | def is_country_column_present_in_vendor_profile_page(self):
return self.is_specific_column_present(self.rates_grid_div_id, self.column_name_country) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def is_country_column_present_in_view_price_list_details_rate_page(self):\n return self.is_specific_column_present(self.vendor_price_list_detail_rates_grid_div_id, self.column_name_country)",
"def is_country_column_present_in_vendor_profile_dialed_digits_page(self):\n return self.is_specific_column_present(self.dialed_digits_grid_div_id, self.column_name_country)",
"def is_country_column_present_in_vendor_profile_destinations_page(self):\n return self.is_specific_column_present(self.destinations_grid_div_id, self.column_name_country)",
"def is_country_column_present_in_view_price_list_details_ref_rates_page(self):\n return self.is_specific_column_present(self.vendor_price_list_detail_reference_rates_grid_div_id, self.column_name_country)",
"def is_country_column_present_in_re_analysis_page(self):\n return self.is_specific_column_present(self.re_analysis_grid_div_id, self.column_name_country)",
"def is_country_column_present_in_compare_price_list_pop_up(self):\n return self.is_specific_column_present(self.compare_price_list_rate_grid_div_id, self.column_name_country)",
"def is_country_selection_criteria_field_present_in_vendor_profile_page(self):\n return self.is_specific_selection_criteria_filter_present(self.vendor_profile_page_div_id, self.country_label_name)",
"def is_country_column_present_in_view_price_list_details_dialed_digits_page(self):\n return self.is_specific_column_present(self.vendor_price_list_detail_dial_digits_grid_div_id, self.column_name_country)",
"def country(self):\n if \"country\" in self._prop_dict:\n return self._prop_dict[\"country\"]\n else:\n return None",
"def country(self):\n if \"country\" in self._prop_dict:\n return self._prop_dict[\"country\"]\n else:\n return None",
"def is_country_selection_criteria_field_present_in_vendor_profile_dialed_digits_page(self):\n return self.is_specific_selection_criteria_filter_present(self.vendor_profile_dialed_digits_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_view_price_list_details_rate_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_details_rate_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_vendor_profile_destinations_page(self):\n return self.is_specific_selection_criteria_filter_present(self.vendor_profile_destinations_page_div_id, self.country_label_name)",
"def country_flag(country):\n\tif not country:\n\t\treturn u''\n\tresult = Country.objects.filter(name__icontains=country)\n\tif result:\n\t\tc = result[0]\n\t\tiso = c.iso\n\t\tflag_location = iso_flag(iso)\n\t\treturn flag_location\n\treturn u''",
"def country(self):\n return self.status.place['country']",
"def is_country_selection_criteria_field_present_in_view_price_list_details_ref_rates_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_ref_rates_page_div_id, self.country_label_name)",
"def test_get_country_by_geo_location(self):\n pass",
"def onchange_country(self):\n if self.country_id and self.country_id.code == 'SA':\n self.is_saudi = True\n else:\n self.is_saudi = False",
"def country(self) -> Optional[str]:\n return pulumi.get(self, \"country\")",
"def country(self) -> Optional[str]:\n return pulumi.get(self, \"country\")",
"def _get_country_code(self, cr, uid, context=None):\n context = context or {}\n user_company = self.pool.get('res.users').browse(cr, uid, uid, context=context).company_id\n return user_company.partner_id and user_company.partner_id.country_id \\\n and user_company.partner_id.country_id.code or 'XX'",
"def test_country_overrides(self):\n # Retrieve the registration form description\n with override_settings(REGISTRATION_EXTRA_FIELDS={\"country\": \"required\"}):\n response = self.client.get(self.url)\n self.assertHttpOK(response)\n\n self.assertContains(response, 'Kosovo')",
"def is_country_selection_criteria_field_present_in_re_analysis_page(self):\n return self.is_specific_selection_criteria_filter_present(self.re_analysis_page_div_id, self.country_label_name)",
"def test_clean_country_flag(self):\n # country_flag = self.cleaned_data.get('country_flag', None)\n # field = self.fields.get(self.country_field_name, None)\n # if not field and hasattr(self, 'computed_fields'):\n # field = self.computed_fields.get(self.country_field_name, None)\n # if field.initial == self.cleaned_data.get(self.country_field_name, None)\n pass",
"def is_country_selection_criteria_field_present_in_view_price_list_details_dialed_digits_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_dialed_digits_page_div_id, self.country_label_name)",
"def country(self) -> str:\n return pulumi.get(self, \"country\")",
"def country() -> str:",
"def country_codes():\n\n iso_sel = [\n Freedom_short.iso_code,\n Freedom_short.year,\n Freedom_short.country,\n Freedom_short.region,\n Freedom_short.hf_score,\n Freedom_short.hf_rank,\n Freedom_short.hf_quartile,\n ]\n\n # Use Pandas to perform the sql query\n #Grab 2017 Data Only for Dropdown\n codes_stmt = db.session.query(*iso_sel).filter(Freedom_short.year == 2017).order_by(Freedom_short.iso_code).statement\n codes_df = pd.read_sql_query(codes_stmt, db.session.bind)\n\n # Return a list of the column names (sample names)\n return jsonify(list(codes_df[\"iso_code\"]))",
"def country_hint(self, value):\n return None",
"def is_specific_column_on_vendor_profile_grid_present(self, column_name):\n column_locator = (By.XPATH, \"//div[contains(@id, 'divCustomerDialedDigit')]/descendant::a[text()='%s']\" % column_name)\n return self.is_element_present(column_locator)"
] | [
"0.71314543",
"0.7131048",
"0.70144624",
"0.690676",
"0.6793461",
"0.6720061",
"0.6715845",
"0.6594777",
"0.6312456",
"0.6312456",
"0.6281675",
"0.62194014",
"0.6171364",
"0.6118287",
"0.6063493",
"0.60078406",
"0.60033923",
"0.59671074",
"0.59520704",
"0.59520704",
"0.59248793",
"0.5913884",
"0.58855385",
"0.58500665",
"0.58276486",
"0.58172417",
"0.58105046",
"0.5799715",
"0.57680076",
"0.5748531"
] | 0.7971019 | 0 |
Implementing is country selection criteria field present in vendor profile dialed digits page functionality | def is_country_selection_criteria_field_present_in_vendor_profile_dialed_digits_page(self):
return self.is_specific_selection_criteria_filter_present(self.vendor_profile_dialed_digits_page_div_id, self.country_label_name) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def is_country_selection_criteria_field_present_in_vendor_profile_page(self):\n return self.is_specific_selection_criteria_filter_present(self.vendor_profile_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_view_price_list_details_rate_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_details_rate_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_view_price_list_details_dialed_digits_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_dialed_digits_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_view_price_list_details_ref_rates_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_ref_rates_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_re_analysis_page(self):\n return self.is_specific_selection_criteria_filter_present(self.re_analysis_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_compare_price_list_pop_up(self):\n return self.is_specific_selection_criteria_filter_present(self.compare_price_list_pop_up_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_vendor_profile_destinations_page(self):\n return self.is_specific_selection_criteria_filter_present(self.vendor_profile_destinations_page_div_id, self.country_label_name)",
"def test_clean_country_flag(self):\n # country_flag = self.cleaned_data.get('country_flag', None)\n # field = self.fields.get(self.country_field_name, None)\n # if not field and hasattr(self, 'computed_fields'):\n # field = self.computed_fields.get(self.country_field_name, None)\n # if field.initial == self.cleaned_data.get(self.country_field_name, None)\n pass",
"def country(alpha_2_code: str) -> None:",
"def test_country_overrides(self):\n # Retrieve the registration form description\n with override_settings(REGISTRATION_EXTRA_FIELDS={\"country\": \"required\"}):\n response = self.client.get(self.url)\n self.assertHttpOK(response)\n\n self.assertContains(response, 'Kosovo')",
"def _perContinentChoiceSelector(self, params):\n\n entity = params['entity']\n choices = soc.models.countries.COUNTRIES_TO_CONTINENT\n\n if 'fields' in params:\n fields = params['fields']\n\n for field in fields:\n entity = entity.__getattribute__(field)\n\n return choices[entity.res_country]",
"def onchange_country(self):\n if self.country_id and self.country_id.code == 'SA':\n self.is_saudi = True\n else:\n self.is_saudi = False",
"def is_country_column_present_in_vendor_profile_page(self):\n return self.is_specific_column_present(self.rates_grid_div_id, self.column_name_country)",
"def test_default_country_set(self):\n response = self.client.get(reverse(\"billing_info\"))\n self.assertEqual(response.status_code, 200)\n self.assertContains(\n response, '<option value=\"PL\" selected>Poland</option>', html=True\n )",
"def country_hint(self, value):\n return None",
"def is_country_column_present_in_vendor_profile_dialed_digits_page(self):\n return self.is_specific_column_present(self.dialed_digits_grid_div_id, self.column_name_country)",
"def __create_country_dropdown(self):\n return dcc.Dropdown(\n id=\"dd_country\",\n options=self.data_reader.get_country_options(),\n value=\"Canada\",\n )",
"def country_flag(country):\n\tif not country:\n\t\treturn u''\n\tresult = Country.objects.filter(name__icontains=country)\n\tif result:\n\t\tc = result[0]\n\t\tiso = c.iso\n\t\tflag_location = iso_flag(iso)\n\t\treturn flag_location\n\treturn u''",
"def country() -> str:",
"def set_country_for_search(self, country_name_list):\n self.multiple_items_selection_from_kendo_dropdown(self.country_dropdown_locator, country_name_list)\n self.wait_for_ajax_spinner_load()",
"def findCountryCode(self):\n RecordsWithCountry = []\n for state in pycountry.subdivisions:\n #print(state.name)\n for record in self.Records: \n if state.name == record.state:\n #print(state.country, record.state)\n r = RecordCountry(date=record.date,\n country=state.country.alpha_3,\n impressions=record.impressions,\n CTR=record.CTR)\n self.Records.remove(record)\n RecordsWithCountry.append(r)\n for record in self.Records: \n r = RecordCountry(date=record.date,\n country=\"XXX\",\n impressions=record.impressions,\n CTR=record.CTR)\n RecordsWithCountry.append(r)\n self.Records = RecordsWithCountry",
"def is_country_column_present_in_view_price_list_details_dialed_digits_page(self):\n return self.is_specific_column_present(self.vendor_price_list_detail_dial_digits_grid_div_id, self.column_name_country)",
"def test_default_country_set_no_ip(self):\n response = self.client.get(reverse(\"billing_info\"))\n self.assertEqual(response.status_code, 200)\n self.assertContains(\n response, '<option value=\"PL\" selected>Poland</option>', html=True\n )",
"def country_codes():\n\n iso_sel = [\n Freedom_short.iso_code,\n Freedom_short.year,\n Freedom_short.country,\n Freedom_short.region,\n Freedom_short.hf_score,\n Freedom_short.hf_rank,\n Freedom_short.hf_quartile,\n ]\n\n # Use Pandas to perform the sql query\n #Grab 2017 Data Only for Dropdown\n codes_stmt = db.session.query(*iso_sel).filter(Freedom_short.year == 2017).order_by(Freedom_short.iso_code).statement\n codes_df = pd.read_sql_query(codes_stmt, db.session.bind)\n\n # Return a list of the column names (sample names)\n return jsonify(list(codes_df[\"iso_code\"]))",
"def test_on_post_display_local_to_foreign(self):\n # data.get('country_flag', None)\n # address_display_version = 'foreign' if country_flag else 'local'\n # form.set_alt_data(name='country_display', field=self.fields['country_display'], value=address_display_version)\n pass",
"def country(self):\n if \"country\" in self._prop_dict:\n return self._prop_dict[\"country\"]\n else:\n return None",
"def country(self):\n if \"country\" in self._prop_dict:\n return self._prop_dict[\"country\"]\n else:\n return None",
"def is_country_column_present_in_view_price_list_details_rate_page(self):\n return self.is_specific_column_present(self.vendor_price_list_detail_rates_grid_div_id, self.column_name_country)",
"def test_default_country_by_ip_no_settings(self):\n\n response = self.client.get(\n reverse(\"billing_info\"), HTTP_X_FORWARDED_FOR=\"85.214.132.117\"\n )\n self.assertEqual(response.status_code, 200)\n self.assertContains(\n response, '<option value=\"\" selected>---------</option>', html=True\n )",
"def default_get(self, cr, uid, fields, context=None):\n context = context or {}\n res = super(res_partner, self).default_get(cr, uid, fields, context=context)\n res.update({'uid_country': self._get_country_code(cr,uid,context=context)})\n return res"
] | [
"0.72322047",
"0.7158443",
"0.7100327",
"0.69667214",
"0.68828756",
"0.6558666",
"0.6479019",
"0.6214565",
"0.617564",
"0.6170703",
"0.61343396",
"0.6131674",
"0.60668343",
"0.60442525",
"0.6033413",
"0.60259295",
"0.5960126",
"0.59413826",
"0.587143",
"0.5864113",
"0.5829987",
"0.5797709",
"0.57964724",
"0.5790747",
"0.5783306",
"0.5733751",
"0.5733751",
"0.5721207",
"0.56774014",
"0.5659783"
] | 0.7432043 | 0 |
Implementing is country column present in vendor profile dialed digits page functionality | def is_country_column_present_in_vendor_profile_dialed_digits_page(self):
return self.is_specific_column_present(self.dialed_digits_grid_div_id, self.column_name_country) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def is_country_column_present_in_vendor_profile_page(self):\n return self.is_specific_column_present(self.rates_grid_div_id, self.column_name_country)",
"def is_country_column_present_in_view_price_list_details_rate_page(self):\n return self.is_specific_column_present(self.vendor_price_list_detail_rates_grid_div_id, self.column_name_country)",
"def is_country_column_present_in_view_price_list_details_dialed_digits_page(self):\n return self.is_specific_column_present(self.vendor_price_list_detail_dial_digits_grid_div_id, self.column_name_country)",
"def is_country_column_present_in_view_price_list_details_ref_rates_page(self):\n return self.is_specific_column_present(self.vendor_price_list_detail_reference_rates_grid_div_id, self.column_name_country)",
"def is_country_column_present_in_re_analysis_page(self):\n return self.is_specific_column_present(self.re_analysis_grid_div_id, self.column_name_country)",
"def is_country_selection_criteria_field_present_in_vendor_profile_dialed_digits_page(self):\n return self.is_specific_selection_criteria_filter_present(self.vendor_profile_dialed_digits_page_div_id, self.country_label_name)",
"def is_country_column_present_in_vendor_profile_destinations_page(self):\n return self.is_specific_column_present(self.destinations_grid_div_id, self.column_name_country)",
"def is_country_selection_criteria_field_present_in_vendor_profile_page(self):\n return self.is_specific_selection_criteria_filter_present(self.vendor_profile_page_div_id, self.country_label_name)",
"def is_country_column_present_in_compare_price_list_pop_up(self):\n return self.is_specific_column_present(self.compare_price_list_rate_grid_div_id, self.column_name_country)",
"def is_country_selection_criteria_field_present_in_view_price_list_details_dialed_digits_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_dialed_digits_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_view_price_list_details_rate_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_details_rate_page_div_id, self.country_label_name)",
"def country_flag(country):\n\tif not country:\n\t\treturn u''\n\tresult = Country.objects.filter(name__icontains=country)\n\tif result:\n\t\tc = result[0]\n\t\tiso = c.iso\n\t\tflag_location = iso_flag(iso)\n\t\treturn flag_location\n\treturn u''",
"def country(alpha_2_code: str) -> None:",
"def country() -> str:",
"def country_codes():\n\n iso_sel = [\n Freedom_short.iso_code,\n Freedom_short.year,\n Freedom_short.country,\n Freedom_short.region,\n Freedom_short.hf_score,\n Freedom_short.hf_rank,\n Freedom_short.hf_quartile,\n ]\n\n # Use Pandas to perform the sql query\n #Grab 2017 Data Only for Dropdown\n codes_stmt = db.session.query(*iso_sel).filter(Freedom_short.year == 2017).order_by(Freedom_short.iso_code).statement\n codes_df = pd.read_sql_query(codes_stmt, db.session.bind)\n\n # Return a list of the column names (sample names)\n return jsonify(list(codes_df[\"iso_code\"]))",
"def is_country_selection_criteria_field_present_in_view_price_list_details_ref_rates_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_ref_rates_page_div_id, self.country_label_name)",
"def country(self):\n if \"country\" in self._prop_dict:\n return self._prop_dict[\"country\"]\n else:\n return None",
"def country(self):\n if \"country\" in self._prop_dict:\n return self._prop_dict[\"country\"]\n else:\n return None",
"def test_get_country_by_geo_location(self):\n pass",
"def is_country_selection_criteria_field_present_in_re_analysis_page(self):\n return self.is_specific_selection_criteria_filter_present(self.re_analysis_page_div_id, self.country_label_name)",
"def test_clean_country_flag(self):\n # country_flag = self.cleaned_data.get('country_flag', None)\n # field = self.fields.get(self.country_field_name, None)\n # if not field and hasattr(self, 'computed_fields'):\n # field = self.computed_fields.get(self.country_field_name, None)\n # if field.initial == self.cleaned_data.get(self.country_field_name, None)\n pass",
"def onchange_country(self):\n if self.country_id and self.country_id.code == 'SA':\n self.is_saudi = True\n else:\n self.is_saudi = False",
"def is_country_selection_criteria_field_present_in_vendor_profile_destinations_page(self):\n return self.is_specific_selection_criteria_filter_present(self.vendor_profile_destinations_page_div_id, self.country_label_name)",
"def test_country_name_in_countries(self):\n\t\tcountry_code = get_country_code('Andorra')\n\t\tself.assertEqual(country_code, 'ad')",
"def country_hint(self, value):\n return None",
"def get_country_code(self):\n #method on the class InternationalMelonOrder\n\n return self.country_code\n # international has country code; domestic does not\n # WAI???",
"def country(self):\n return self.status.place['country']",
"def _get_country_code(self, cr, uid, context=None):\n context = context or {}\n user_company = self.pool.get('res.users').browse(cr, uid, uid, context=context).company_id\n return user_company.partner_id and user_company.partner_id.country_id \\\n and user_company.partner_id.country_id.code or 'XX'",
"def nativity_race_with_countries(row): \n if row['nativity'] != 'United States':\n return row['nativity']\n else:\n return row['race']",
"def test_get_country_states(self):\n pass"
] | [
"0.76826054",
"0.7069876",
"0.7052137",
"0.68777025",
"0.68169564",
"0.6742",
"0.6566958",
"0.6491629",
"0.6465478",
"0.6363773",
"0.6273876",
"0.6242083",
"0.621713",
"0.6172398",
"0.6154399",
"0.6086703",
"0.6081316",
"0.6081316",
"0.6028364",
"0.6001775",
"0.5973027",
"0.5919534",
"0.58775455",
"0.58765584",
"0.5872313",
"0.58706176",
"0.5842524",
"0.58229387",
"0.5822057",
"0.5819781"
] | 0.756865 | 1 |
Implementing is country selection criteria field present in vendor profile destinations page functionality | def is_country_selection_criteria_field_present_in_vendor_profile_destinations_page(self):
return self.is_specific_selection_criteria_filter_present(self.vendor_profile_destinations_page_div_id, self.country_label_name) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def is_country_selection_criteria_field_present_in_vendor_profile_page(self):\n return self.is_specific_selection_criteria_filter_present(self.vendor_profile_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_view_price_list_details_rate_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_details_rate_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_view_price_list_details_ref_rates_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_ref_rates_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_vendor_profile_dialed_digits_page(self):\n return self.is_specific_selection_criteria_filter_present(self.vendor_profile_dialed_digits_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_re_analysis_page(self):\n return self.is_specific_selection_criteria_filter_present(self.re_analysis_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_view_price_list_details_dialed_digits_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_dialed_digits_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_compare_price_list_pop_up(self):\n return self.is_specific_selection_criteria_filter_present(self.compare_price_list_pop_up_div_id, self.country_label_name)",
"def is_country_column_present_in_vendor_profile_destinations_page(self):\n return self.is_specific_column_present(self.destinations_grid_div_id, self.column_name_country)",
"def is_country_column_present_in_vendor_profile_page(self):\n return self.is_specific_column_present(self.rates_grid_div_id, self.column_name_country)",
"def test_on_post_display_local_to_foreign(self):\n # data.get('country_flag', None)\n # address_display_version = 'foreign' if country_flag else 'local'\n # form.set_alt_data(name='country_display', field=self.fields['country_display'], value=address_display_version)\n pass",
"def test_country_overrides(self):\n # Retrieve the registration form description\n with override_settings(REGISTRATION_EXTRA_FIELDS={\"country\": \"required\"}):\n response = self.client.get(self.url)\n self.assertHttpOK(response)\n\n self.assertContains(response, 'Kosovo')",
"def _perContinentChoiceSelector(self, params):\n\n entity = params['entity']\n choices = soc.models.countries.COUNTRIES_TO_CONTINENT\n\n if 'fields' in params:\n fields = params['fields']\n\n for field in fields:\n entity = entity.__getattribute__(field)\n\n return choices[entity.res_country]",
"def test_default_country_set(self):\n response = self.client.get(reverse(\"billing_info\"))\n self.assertEqual(response.status_code, 200)\n self.assertContains(\n response, '<option value=\"PL\" selected>Poland</option>', html=True\n )",
"def onchange_country(self):\n if self.country_id and self.country_id.code == 'SA':\n self.is_saudi = True\n else:\n self.is_saudi = False",
"def country_flag(country):\n\tif not country:\n\t\treturn u''\n\tresult = Country.objects.filter(name__icontains=country)\n\tif result:\n\t\tc = result[0]\n\t\tiso = c.iso\n\t\tflag_location = iso_flag(iso)\n\t\treturn flag_location\n\treturn u''",
"def country(self):\n if \"country\" in self._prop_dict:\n return self._prop_dict[\"country\"]\n else:\n return None",
"def country(self):\n if \"country\" in self._prop_dict:\n return self._prop_dict[\"country\"]\n else:\n return None",
"def country_hint(self, value):\n return None",
"def test_on_post_display_foreign_to_local(self):\n # data.get('country_flag', None)\n # address_display_version = 'foreign' if country_flag else 'local'\n # form.set_alt_data(name='country_display', field=self.fields['country_display'], value=address_display_version)\n pass",
"def test_clean_country_flag(self):\n # country_flag = self.cleaned_data.get('country_flag', None)\n # field = self.fields.get(self.country_field_name, None)\n # if not field and hasattr(self, 'computed_fields'):\n # field = self.computed_fields.get(self.country_field_name, None)\n # if field.initial == self.cleaned_data.get(self.country_field_name, None)\n pass",
"def test_on_post_display_foreign_to_foreign(self):\n # data.get('country_flag', None)\n # address_display_version = 'foreign' if country_flag else 'local'\n # form.set_alt_data(name='country_display', field=self.fields['country_display'], value=address_display_version)\n pass",
"def __create_country_dropdown(self):\n return dcc.Dropdown(\n id=\"dd_country\",\n options=self.data_reader.get_country_options(),\n value=\"Canada\",\n )",
"def test_get_country_by_geo_location(self):\n pass",
"def set_country_for_search(self, country_name_list):\n self.multiple_items_selection_from_kendo_dropdown(self.country_dropdown_locator, country_name_list)\n self.wait_for_ajax_spinner_load()",
"def test_default_country_set_no_ip(self):\n response = self.client.get(reverse(\"billing_info\"))\n self.assertEqual(response.status_code, 200)\n self.assertContains(\n response, '<option value=\"PL\" selected>Poland</option>', html=True\n )",
"def test_default_country_by_ip_no_settings(self):\n\n response = self.client.get(\n reverse(\"billing_info\"), HTTP_X_FORWARDED_FOR=\"85.214.132.117\"\n )\n self.assertEqual(response.status_code, 200)\n self.assertContains(\n response, '<option value=\"\" selected>---------</option>', html=True\n )",
"def is_country_column_present_in_view_price_list_details_rate_page(self):\n return self.is_specific_column_present(self.vendor_price_list_detail_rates_grid_div_id, self.column_name_country)",
"def is_country_column_present_in_view_price_list_details_ref_rates_page(self):\n return self.is_specific_column_present(self.vendor_price_list_detail_reference_rates_grid_div_id, self.column_name_country)",
"def test_default_country_by_ip(self):\n\n response = self.client.get(\n reverse(\"billing_info\"), HTTP_X_FORWARDED_FOR=\"85.214.132.117\"\n )\n self.assertEqual(response.status_code, 200)\n self.assertContains(\n response, '<option value=\"DE\" selected>Germany</option>', html=True\n )\n\n response = self.client.get(\n reverse(\"billing_info\"), REMOTE_ADDR=\"85.214.132.117\"\n )\n self.assertEqual(response.status_code, 200)\n self.assertContains(\n response, '<option value=\"DE\" selected>Germany</option>', html=True\n )",
"def country(self):\n return self.status.place['country']"
] | [
"0.7112125",
"0.6904569",
"0.6892878",
"0.6715159",
"0.6515512",
"0.6445115",
"0.633866",
"0.6178034",
"0.6119569",
"0.6085827",
"0.60857064",
"0.60193527",
"0.5969313",
"0.5958169",
"0.5901048",
"0.58811355",
"0.58811355",
"0.58774483",
"0.587081",
"0.5822469",
"0.5818149",
"0.5814082",
"0.57767594",
"0.5773856",
"0.5770494",
"0.5757075",
"0.57400686",
"0.5727232",
"0.57131344",
"0.5705887"
] | 0.7373191 | 0 |
Implementing is country column present in vendor profile destinations page functionality | def is_country_column_present_in_vendor_profile_destinations_page(self):
return self.is_specific_column_present(self.destinations_grid_div_id, self.column_name_country) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def is_country_column_present_in_vendor_profile_page(self):\n return self.is_specific_column_present(self.rates_grid_div_id, self.column_name_country)",
"def is_country_column_present_in_view_price_list_details_rate_page(self):\n return self.is_specific_column_present(self.vendor_price_list_detail_rates_grid_div_id, self.column_name_country)",
"def is_country_column_present_in_view_price_list_details_ref_rates_page(self):\n return self.is_specific_column_present(self.vendor_price_list_detail_reference_rates_grid_div_id, self.column_name_country)",
"def is_country_column_present_in_vendor_profile_dialed_digits_page(self):\n return self.is_specific_column_present(self.dialed_digits_grid_div_id, self.column_name_country)",
"def is_country_selection_criteria_field_present_in_vendor_profile_destinations_page(self):\n return self.is_specific_selection_criteria_filter_present(self.vendor_profile_destinations_page_div_id, self.country_label_name)",
"def is_country_column_present_in_view_price_list_details_dialed_digits_page(self):\n return self.is_specific_column_present(self.vendor_price_list_detail_dial_digits_grid_div_id, self.column_name_country)",
"def is_country_column_present_in_re_analysis_page(self):\n return self.is_specific_column_present(self.re_analysis_grid_div_id, self.column_name_country)",
"def is_country_column_present_in_compare_price_list_pop_up(self):\n return self.is_specific_column_present(self.compare_price_list_rate_grid_div_id, self.column_name_country)",
"def is_country_selection_criteria_field_present_in_vendor_profile_page(self):\n return self.is_specific_selection_criteria_filter_present(self.vendor_profile_page_div_id, self.country_label_name)",
"def country_flag(country):\n\tif not country:\n\t\treturn u''\n\tresult = Country.objects.filter(name__icontains=country)\n\tif result:\n\t\tc = result[0]\n\t\tiso = c.iso\n\t\tflag_location = iso_flag(iso)\n\t\treturn flag_location\n\treturn u''",
"def country(self):\n if \"country\" in self._prop_dict:\n return self._prop_dict[\"country\"]\n else:\n return None",
"def country(self):\n if \"country\" in self._prop_dict:\n return self._prop_dict[\"country\"]\n else:\n return None",
"def test_get_country_by_geo_location(self):\n pass",
"def country(self):\n return self.status.place['country']",
"def is_country_selection_criteria_field_present_in_view_price_list_details_ref_rates_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_ref_rates_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_view_price_list_details_rate_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_details_rate_page_div_id, self.country_label_name)",
"def test_on_post_display_local_to_foreign(self):\n # data.get('country_flag', None)\n # address_display_version = 'foreign' if country_flag else 'local'\n # form.set_alt_data(name='country_display', field=self.fields['country_display'], value=address_display_version)\n pass",
"def is_country_selection_criteria_field_present_in_vendor_profile_dialed_digits_page(self):\n return self.is_specific_selection_criteria_filter_present(self.vendor_profile_dialed_digits_page_div_id, self.country_label_name)",
"def test_on_post_display_foreign_to_local(self):\n # data.get('country_flag', None)\n # address_display_version = 'foreign' if country_flag else 'local'\n # form.set_alt_data(name='country_display', field=self.fields['country_display'], value=address_display_version)\n pass",
"def onchange_country(self):\n if self.country_id and self.country_id.code == 'SA':\n self.is_saudi = True\n else:\n self.is_saudi = False",
"def country(self) -> Optional[str]:\n return pulumi.get(self, \"country\")",
"def country(self) -> Optional[str]:\n return pulumi.get(self, \"country\")",
"def country() -> str:",
"def test_on_post_display_foreign_to_foreign(self):\n # data.get('country_flag', None)\n # address_display_version = 'foreign' if country_flag else 'local'\n # form.set_alt_data(name='country_display', field=self.fields['country_display'], value=address_display_version)\n pass",
"def is_country_selection_criteria_field_present_in_view_price_list_details_dialed_digits_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_dialed_digits_page_div_id, self.country_label_name)",
"def country_hint(self, value):\n return None",
"def validateCountry(self, country_name):\n if country_name in self.travel_db.countries:\n return True\n else:\n return False",
"def _feature_country_process(self):\n if 'Country' not in self._df_invoice_line.columns:\n return\n\n list_countries_keep = ['United Kingdom']\n rows_before = self._df_invoice_line.shape[0]\n \n df_invoice_line_new = pd.DataFrame()\n for country in list_countries_keep : \n df_invoice_line_new = df_invoice_line_new.append(\\\n self._df_invoice_line[self._df_invoice_line['Country']==country]\\\n , ignore_index=True)\n\n self.df_invoice_line = df_invoice_line_new\n del(df_invoice_line_new)\n \n rows_after = self._df_invoice_line.shape[0] \n _print_stat_rows(\"Countries filtering : \",rows_before, rows_after)\n\n \n #-------------------------------------------------------------------------\n # Due to the fact only one country is used, then this feature is dropped\n #-------------------------------------------------------------------------\n list_col_to_keep = [col for col in self._df_invoice_line.columns \\\n if col not in 'Country']\n \n self._df_invoice_line = self._df_invoice_line[list_col_to_keep] \n\n return",
"def test_country_overrides(self):\n # Retrieve the registration form description\n with override_settings(REGISTRATION_EXTRA_FIELDS={\"country\": \"required\"}):\n response = self.client.get(self.url)\n self.assertHttpOK(response)\n\n self.assertContains(response, 'Kosovo')",
"def country_json(request, continent_code, country_code):\n raise Http404(\"Not implemented\")"
] | [
"0.75907654",
"0.7057012",
"0.7027092",
"0.6718865",
"0.6716627",
"0.65055174",
"0.64871365",
"0.6340616",
"0.62852997",
"0.61603993",
"0.61178726",
"0.61178726",
"0.60372865",
"0.60341483",
"0.6015059",
"0.6009993",
"0.599838",
"0.58832526",
"0.58611405",
"0.580058",
"0.5786298",
"0.5786298",
"0.5755348",
"0.5730104",
"0.5662739",
"0.566163",
"0.564975",
"0.5637841",
"0.56301767",
"0.5611008"
] | 0.76371837 | 0 |
Implementing click search rate arrow button functionality | def click_search_rate_arrow_button(self):
self.click_element(self.search_rate_arrow_button_locator) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def click_search_ref_rates_arrow_button(self):\n self.click_element(self.search_ref_rates_arrow_button_locator)",
"def click_search_dialed_digits_arrow_button(self):\n self.click_element(self.search_dialed_digits_arrow_button_locator)",
"def press_R_button(self) -> None: # pylint: disable=invalid-name",
"def click(self):\r\n pass",
"def ranked():\n mouseclick(888, 169)",
"def on_searchButton_clicked(self):\n self.__search()",
"def _press(self, event):",
"def on_mouse_press(self, x, y, button):\n\n pass",
"def handle_mouse_click(self, button: Button) -> None:\n if button.name == 'BACK':\n self._clear_all_input()\n self.current_page -= 1\n self._focused_button = None\n if self.current_page == len(self.pages) - 2:\n self.current_page -= 1\n elif button.name == 'Show Graph':\n self._plot_graph()\n elif button.name == 'Multiple Regression':\n self._selection.handle_selection(self.current_page, button.name)\n self.current_page += 2\n self._update_ghg_coefs()\n elif button.tag == 'normal' and self.current_page < len(self.pages) - 2:\n self._selection.handle_selection(self.current_page, button.name)\n self.current_page += 1\n elif isinstance(button, InputButton):\n self._focused_button = button",
"def on_mouse_press(self, x, y, button, key_modifiers):\r\n pass",
"def mousePressEvent(self, event):\n #sw = self.spw.windows['Sort']\n buttons = event.buttons()\n if buttons == QtCore.Qt.MiddleButton:\n #sw.on_actionSelectRandomSpikes_triggered()\n #sw.spykewindow.plotButton.click() # same as hitting ENTER in nslist\n self.selecting = True\n self.setMouseTracking(True) # while selecting\n self.selectPointsUnderCursor()\n self.lastPressPos = QtCore.QPoint(event.pos())\n self.lastPos = QtCore.QPoint(event.pos())",
"def mousePressEvent(self, event):\n #sw = self.spw.windows['Sort']\n buttons = event.buttons()\n if buttons == QtCore.Qt.MiddleButton:\n #sw.on_actionSelectRandomSpikes_triggered()\n #sw.spykewindow.ui.plotButton.click() # same as hitting ENTER in nslist\n self.selecting = True\n self.setMouseTracking(True) # while selecting\n self.selectPointsUnderCursor()\n self.lastPressPos = QtCore.QPoint(event.pos())\n self.lastPos = QtCore.QPoint(event.pos())",
"def on_click(self, x, y):\n mul_x, mul_y = self.multiplier\n off_x, off_y = self.offset\n x -= off_x\n x /= mul_x\n y -= off_y\n y /= mul_y\n for button in self.button_dict.values():\n button.check_click(x, y)",
"def pressed_op(self, event: Button.Pressed) -> None:\n self.right = Decimal(self.value or \"0\")\n self._do_math()\n assert event.button.id is not None\n self.operator = event.button.id",
"def on_buttonBox_clicked(self, button):\n if button == self.findButton:\n self.__doSearch()\n elif button == self.stopButton:\n self.__stopSearch()",
"def click_search_button(self):\n self.click_element(self.generic_search_button_locator)",
"def clickrate(self, phrase):\r\n params = base.get_params(None, locals())\r\n return self._get('clickrate', params)",
"def ev_mousebuttondown(self, event: MouseButtonDown) -> None:",
"def OnButtonRateHelpButton(self, event):\r\n\t\twebbrowser.open(consts.URL_HELP_RATE)",
"def on_click(self) -> None:\n self.cycle()",
"def OnButtonRateOKButton(self, event):\r\n\t\tself.OnButtonOKButton()",
"def changeValue(self):\n #productive #onUpDnArrow\n profprint()\n widget = slicer.modules.NeedleFinderWidget\n widget.scrollPointButton.setText('Scroll Point for Needle ' + str(widget.editNeedleTxtBox.value)+ ' (pt: '+str(self.ptNumber)+')')",
"def on_click(self) -> None:\n pass",
"def handle_mouse_press(self, event):",
"def __on_click(self):\n if self.enable:\n self.__function_to_activate()",
"def press_refresh(self):\n self.song_list.sort_songs(self.root.ids.spinner.text) #Sort_songs based on the text on the spinner\n self.create_entry_buttons() #Recreate the entry button whenever you click\n #Note & Comment : This Button supposes not to be included in the Gui layout and could be worked independently for each temp button and for the spinner , it does not undo the songs that have been learned.\n #Keeping button helps a more convenient way to show the result after pressing it .",
"def mousePressEventEnabled(self, ev):\n\n self._btns.append(ev.button())\n if QtCore.Qt.MidButton in self._btns or QtCore.Qt.ControlModifier & ev.modifiers():\n self._midButtonPrevious = ev.pos().x()\n elif QtCore.Qt.RightButton in self._btns:\n self._state[1] = max(self._scaleFrom(ev.pos().x() / float(self.width()), 1), self._state[0])\n elif QtCore.Qt.LeftButton in self._btns:\n self._state[0] = min(self._scaleFrom(ev.pos().x() / float(self.width()), 0), self._state[1])\n\n self._param.update()",
"def update_navigation_buttons(self):\n test = self.artist_list.currentIndex() # .row()\n self.prev_artist_button.setEnabled(True)\n self.next_artist_button.setEnabled(True)\n if test == 0:\n self.prev_artist_button.setEnabled(False)\n if test == len(self.c_artists) - 1:\n self.next_artist_button.setEnabled(False)\n self.focus_albums()",
"def _onscreenclick(self, fun, num=1, add=None):\n if fun is None:\n self.cv.unbind(\"<Button-%s>\" % num)\n else:\n def eventfun(event):\n x, y = (self.cv.canvasx(event.x)/self.xscale,\n -self.cv.canvasy(event.y)/self.yscale)\n fun(x, y)\n self.cv.bind(\"<Button-%s>\" % num, eventfun, add)",
"def click_add_disputes_search_button(self):\n self.click_element(self.disputes_search_button_locator, True)"
] | [
"0.7300784",
"0.68422943",
"0.5704636",
"0.5654863",
"0.56265885",
"0.56138486",
"0.5528642",
"0.5505365",
"0.5495169",
"0.5494109",
"0.5489365",
"0.5478657",
"0.5470218",
"0.54480994",
"0.54217017",
"0.54043067",
"0.5397935",
"0.5392768",
"0.53727734",
"0.5359497",
"0.5352376",
"0.5348465",
"0.5328931",
"0.5301835",
"0.5285106",
"0.5285071",
"0.52547157",
"0.5253438",
"0.5230329",
"0.5206132"
] | 0.8045311 | 0 |
Implementing is country selection criteria field present in view price list details rate page functionality | def is_country_selection_criteria_field_present_in_view_price_list_details_rate_page(self):
return self.is_specific_selection_criteria_filter_present(self.view_price_list_details_rate_page_div_id, self.country_label_name) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def is_country_selection_criteria_field_present_in_view_price_list_details_ref_rates_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_ref_rates_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_view_price_list_details_dialed_digits_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_dialed_digits_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_compare_price_list_pop_up(self):\n return self.is_specific_selection_criteria_filter_present(self.compare_price_list_pop_up_div_id, self.country_label_name)",
"def is_country_column_present_in_view_price_list_details_rate_page(self):\n return self.is_specific_column_present(self.vendor_price_list_detail_rates_grid_div_id, self.column_name_country)",
"def is_country_selection_criteria_field_present_in_re_analysis_page(self):\n return self.is_specific_selection_criteria_filter_present(self.re_analysis_page_div_id, self.country_label_name)",
"def is_country_column_present_in_view_price_list_details_ref_rates_page(self):\n return self.is_specific_column_present(self.vendor_price_list_detail_reference_rates_grid_div_id, self.column_name_country)",
"def is_country_selection_criteria_field_present_in_vendor_profile_page(self):\n return self.is_specific_selection_criteria_filter_present(self.vendor_profile_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_vendor_profile_dialed_digits_page(self):\n return self.is_specific_selection_criteria_filter_present(self.vendor_profile_dialed_digits_page_div_id, self.country_label_name)",
"def country(request):\n class Results(object):\n\n def __init__(self, cc):\n self.cc = cc\n self.registered = 0\n self.dns = 0\n self.dnf = 0\n \n def add_rider(self, rider):\n self.registered += 1\n\n if rider.dns:\n self.dns += 1\n\n if rider.dnf:\n self.dnf += 1\n\n def finish_rate(self):\n \n rate = 100*(self.registered-self.dns-self.dnf)/(self.registered-self.dns)\n return rate\n\n results = {}\n for rider in models.Rider.objects.all():\n cc = rider.country.code\n results[cc] = results.get(cc, Results(cc))\n results[cc].add_rider(rider)\n\n results = results.values()\n sort = request.GET.get('sort', 'country')\n\n if sort == \"country\":\n results.sort(key=lambda x: x.cc)\n elif sort == \"registered\":\n results.sort(key=lambda x: x.registered, reverse=True)\n elif sort == \"rate\":\n results.sort(key=lambda x: x.registered, reverse=True)\n results.sort(key=lambda x: x.finish_rate(), reverse=True)\n\n total_registered = sum([r.registered for r in results])\n total_dns = sum([r.dns for r in results])\n total_dnf = sum([r.dnf for r in results])\n overall_finish_rate = 100 * (total_registered-total_dns-total_dnf)/(total_registered-total_dns)\n\n template = env.get_template(\"country.html\")\n rendered = template.render(dict(results=results,\n country_names=countries.OFFICIAL_COUNTRIES,\n registered=total_registered,\n total_dns=total_dns,\n total_dnf=total_dnf,\n overall_finish_rate=overall_finish_rate,\n ))\n\n return HttpResponse(rendered)",
"def set_country_for_search(self, country_name_list):\n self.multiple_items_selection_from_kendo_dropdown(self.country_dropdown_locator, country_name_list)\n self.wait_for_ajax_spinner_load()",
"def onchange_country(self):\n if self.country_id and self.country_id.code == 'SA':\n self.is_saudi = True\n else:\n self.is_saudi = False",
"def is_country_column_present_in_view_price_list_details_dialed_digits_page(self):\n return self.is_specific_column_present(self.vendor_price_list_detail_dial_digits_grid_div_id, self.column_name_country)",
"def test_default_country_set(self):\n response = self.client.get(reverse(\"billing_info\"))\n self.assertEqual(response.status_code, 200)\n self.assertContains(\n response, '<option value=\"PL\" selected>Poland</option>', html=True\n )",
"def _perContinentChoiceSelector(self, params):\n\n entity = params['entity']\n choices = soc.models.countries.COUNTRIES_TO_CONTINENT\n\n if 'fields' in params:\n fields = params['fields']\n\n for field in fields:\n entity = entity.__getattribute__(field)\n\n return choices[entity.res_country]",
"def getActiveCurrency():",
"def is_country_column_present_in_compare_price_list_pop_up(self):\n return self.is_specific_column_present(self.compare_price_list_rate_grid_div_id, self.column_name_country)",
"def _feature_country_process(self):\n if 'Country' not in self._df_invoice_line.columns:\n return\n\n list_countries_keep = ['United Kingdom']\n rows_before = self._df_invoice_line.shape[0]\n \n df_invoice_line_new = pd.DataFrame()\n for country in list_countries_keep : \n df_invoice_line_new = df_invoice_line_new.append(\\\n self._df_invoice_line[self._df_invoice_line['Country']==country]\\\n , ignore_index=True)\n\n self.df_invoice_line = df_invoice_line_new\n del(df_invoice_line_new)\n \n rows_after = self._df_invoice_line.shape[0] \n _print_stat_rows(\"Countries filtering : \",rows_before, rows_after)\n\n \n #-------------------------------------------------------------------------\n # Due to the fact only one country is used, then this feature is dropped\n #-------------------------------------------------------------------------\n list_col_to_keep = [col for col in self._df_invoice_line.columns \\\n if col not in 'Country']\n \n self._df_invoice_line = self._df_invoice_line[list_col_to_keep] \n\n return",
"def test_on_post_display_local_to_foreign(self):\n # data.get('country_flag', None)\n # address_display_version = 'foreign' if country_flag else 'local'\n # form.set_alt_data(name='country_display', field=self.fields['country_display'], value=address_display_version)\n pass",
"def country_hint(self, value):\n return None",
"def is_country_selection_criteria_field_present_in_vendor_profile_destinations_page(self):\n return self.is_specific_selection_criteria_filter_present(self.vendor_profile_destinations_page_div_id, self.country_label_name)",
"def getActiveCurrencies():",
"def test_default_country_set_no_ip(self):\n response = self.client.get(reverse(\"billing_info\"))\n self.assertEqual(response.status_code, 200)\n self.assertContains(\n response, '<option value=\"PL\" selected>Poland</option>', html=True\n )",
"def default_get(self, cr, uid, fields, context=None):\n context = context or {}\n res = super(res_partner, self).default_get(cr, uid, fields, context=context)\n res.update({'uid_country': self._get_country_code(cr,uid,context=context)})\n return res",
"def queryset(self, request, queryset):\n if self.value() is None:\n return queryset\n return queryset.filter(data__qg_location__0__country__icontains=self.value())",
"def is_country_column_present_in_vendor_profile_page(self):\n return self.is_specific_column_present(self.rates_grid_div_id, self.column_name_country)",
"def test_on_post_display_foreign_to_foreign(self):\n # data.get('country_flag', None)\n # address_display_version = 'foreign' if country_flag else 'local'\n # form.set_alt_data(name='country_display', field=self.fields['country_display'], value=address_display_version)\n pass",
"def select_vendor_price_list_detail_reference_rates_tab(self):\n self.click_element(self.vendor_price_list_details_reference_rates_tab_locator, True)",
"def select_pay_conversion(fy_select, pay_norm, view_select) -> int:\n\n st.sidebar.markdown('### Select pay rate conversion:')\n conversion_select = st.sidebar.selectbox('', PAY_CONVERSION, index=0)\n if conversion_select == 'Hourly':\n if view_select != 'Trends':\n pay_norm = FISCAL_HOURS[fy_select] # Number of hours per FY\n else:\n pay_norm = 2080 # Number of hours per FY\n\n return pay_norm",
"def test_on_post_display_foreign_to_local(self):\n # data.get('country_flag', None)\n # address_display_version = 'foreign' if country_flag else 'local'\n # form.set_alt_data(name='country_display', field=self.fields['country_display'], value=address_display_version)\n pass",
"def __create_country_dropdown(self):\n return dcc.Dropdown(\n id=\"dd_country\",\n options=self.data_reader.get_country_options(),\n value=\"Canada\",\n )"
] | [
"0.736834",
"0.6786357",
"0.63799477",
"0.6372364",
"0.62959933",
"0.6099581",
"0.60013956",
"0.5997802",
"0.58004224",
"0.5608407",
"0.55043834",
"0.54738986",
"0.54525805",
"0.54014385",
"0.5347898",
"0.53463256",
"0.5311845",
"0.52974916",
"0.5279226",
"0.5252874",
"0.523723",
"0.5198049",
"0.5169249",
"0.5132353",
"0.51234156",
"0.5073897",
"0.50623745",
"0.50507337",
"0.5044947",
"0.5044729"
] | 0.7587463 | 0 |
Implementing is country column present in view price list details rate page functionality | def is_country_column_present_in_view_price_list_details_rate_page(self):
return self.is_specific_column_present(self.vendor_price_list_detail_rates_grid_div_id, self.column_name_country) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def is_country_column_present_in_view_price_list_details_ref_rates_page(self):\n return self.is_specific_column_present(self.vendor_price_list_detail_reference_rates_grid_div_id, self.column_name_country)",
"def is_country_selection_criteria_field_present_in_view_price_list_details_rate_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_details_rate_page_div_id, self.country_label_name)",
"def is_country_column_present_in_view_price_list_details_dialed_digits_page(self):\n return self.is_specific_column_present(self.vendor_price_list_detail_dial_digits_grid_div_id, self.column_name_country)",
"def is_country_selection_criteria_field_present_in_view_price_list_details_ref_rates_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_ref_rates_page_div_id, self.country_label_name)",
"def is_country_column_present_in_vendor_profile_page(self):\n return self.is_specific_column_present(self.rates_grid_div_id, self.column_name_country)",
"def is_country_column_present_in_compare_price_list_pop_up(self):\n return self.is_specific_column_present(self.compare_price_list_rate_grid_div_id, self.column_name_country)",
"def is_country_selection_criteria_field_present_in_view_price_list_details_dialed_digits_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_dialed_digits_page_div_id, self.country_label_name)",
"def is_country_column_present_in_re_analysis_page(self):\n return self.is_specific_column_present(self.re_analysis_grid_div_id, self.column_name_country)",
"def country(request):\n class Results(object):\n\n def __init__(self, cc):\n self.cc = cc\n self.registered = 0\n self.dns = 0\n self.dnf = 0\n \n def add_rider(self, rider):\n self.registered += 1\n\n if rider.dns:\n self.dns += 1\n\n if rider.dnf:\n self.dnf += 1\n\n def finish_rate(self):\n \n rate = 100*(self.registered-self.dns-self.dnf)/(self.registered-self.dns)\n return rate\n\n results = {}\n for rider in models.Rider.objects.all():\n cc = rider.country.code\n results[cc] = results.get(cc, Results(cc))\n results[cc].add_rider(rider)\n\n results = results.values()\n sort = request.GET.get('sort', 'country')\n\n if sort == \"country\":\n results.sort(key=lambda x: x.cc)\n elif sort == \"registered\":\n results.sort(key=lambda x: x.registered, reverse=True)\n elif sort == \"rate\":\n results.sort(key=lambda x: x.registered, reverse=True)\n results.sort(key=lambda x: x.finish_rate(), reverse=True)\n\n total_registered = sum([r.registered for r in results])\n total_dns = sum([r.dns for r in results])\n total_dnf = sum([r.dnf for r in results])\n overall_finish_rate = 100 * (total_registered-total_dns-total_dnf)/(total_registered-total_dns)\n\n template = env.get_template(\"country.html\")\n rendered = template.render(dict(results=results,\n country_names=countries.OFFICIAL_COUNTRIES,\n registered=total_registered,\n total_dns=total_dns,\n total_dnf=total_dnf,\n overall_finish_rate=overall_finish_rate,\n ))\n\n return HttpResponse(rendered)",
"def is_country_column_present_in_vendor_profile_dialed_digits_page(self):\n return self.is_specific_column_present(self.dialed_digits_grid_div_id, self.column_name_country)",
"def _feature_country_process(self):\n if 'Country' not in self._df_invoice_line.columns:\n return\n\n list_countries_keep = ['United Kingdom']\n rows_before = self._df_invoice_line.shape[0]\n \n df_invoice_line_new = pd.DataFrame()\n for country in list_countries_keep : \n df_invoice_line_new = df_invoice_line_new.append(\\\n self._df_invoice_line[self._df_invoice_line['Country']==country]\\\n , ignore_index=True)\n\n self.df_invoice_line = df_invoice_line_new\n del(df_invoice_line_new)\n \n rows_after = self._df_invoice_line.shape[0] \n _print_stat_rows(\"Countries filtering : \",rows_before, rows_after)\n\n \n #-------------------------------------------------------------------------\n # Due to the fact only one country is used, then this feature is dropped\n #-------------------------------------------------------------------------\n list_col_to_keep = [col for col in self._df_invoice_line.columns \\\n if col not in 'Country']\n \n self._df_invoice_line = self._df_invoice_line[list_col_to_keep] \n\n return",
"def is_country_selection_criteria_field_present_in_compare_price_list_pop_up(self):\n return self.is_specific_selection_criteria_filter_present(self.compare_price_list_pop_up_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_re_analysis_page(self):\n return self.is_specific_selection_criteria_filter_present(self.re_analysis_page_div_id, self.country_label_name)",
"def country_codes():\n\n iso_sel = [\n Freedom_short.iso_code,\n Freedom_short.year,\n Freedom_short.country,\n Freedom_short.region,\n Freedom_short.hf_score,\n Freedom_short.hf_rank,\n Freedom_short.hf_quartile,\n ]\n\n # Use Pandas to perform the sql query\n #Grab 2017 Data Only for Dropdown\n codes_stmt = db.session.query(*iso_sel).filter(Freedom_short.year == 2017).order_by(Freedom_short.iso_code).statement\n codes_df = pd.read_sql_query(codes_stmt, db.session.bind)\n\n # Return a list of the column names (sample names)\n return jsonify(list(codes_df[\"iso_code\"]))",
"def custom_rendering():\r\n countries = CountryTable(MEMORY_DATA)\r\n context = Context({'countries': countries})\r\n\r\n # automatic and manual column verbose names\r\n template = Template('{% for column in countries.columns %}{{ column }}/'\r\n '{{ column.name }} {% endfor %}')\r\n result = ('Name/name Capital/capital Population Size/population '\r\n 'Phone Ext./calling_code ')\r\n assert result == template.render(context)\r\n\r\n # row values\r\n template = Template('{% for row in countries.rows %}{% for value in row %}'\r\n '{{ value }} {% endfor %}{% endfor %}')\r\n result = ('Germany Berlin 83 49 France — 64 33 Netherlands Amsterdam '\r\n '— 31 Austria — 8 43 ')\r\n assert result == template.render(context)",
"def country_json(request, continent_code, country_code):\n raise Http404(\"Not implemented\")",
"def country(self):\n return self.status.place['country']",
"def getActiveCurrency():",
"def onchange_country(self):\n if self.country_id and self.country_id.code == 'SA':\n self.is_saudi = True\n else:\n self.is_saudi = False",
"def test_on_post_display_local_to_foreign(self):\n # data.get('country_flag', None)\n # address_display_version = 'foreign' if country_flag else 'local'\n # form.set_alt_data(name='country_display', field=self.fields['country_display'], value=address_display_version)\n pass",
"def country(self):\n if \"country\" in self._prop_dict:\n return self._prop_dict[\"country\"]\n else:\n return None",
"def country(self):\n if \"country\" in self._prop_dict:\n return self._prop_dict[\"country\"]\n else:\n return None",
"def country() -> str:",
"def country_flag(country):\n\tif not country:\n\t\treturn u''\n\tresult = Country.objects.filter(name__icontains=country)\n\tif result:\n\t\tc = result[0]\n\t\tiso = c.iso\n\t\tflag_location = iso_flag(iso)\n\t\treturn flag_location\n\treturn u''",
"def is_country_selection_criteria_field_present_in_vendor_profile_dialed_digits_page(self):\n return self.is_specific_selection_criteria_filter_present(self.vendor_profile_dialed_digits_page_div_id, self.country_label_name)",
"def country_hint(self, value):\n return None",
"def country(self):\n return self._country",
"def country(self):\n return self._country",
"def country(self) -> Optional[str]:\n return pulumi.get(self, \"country\")",
"def country(self) -> Optional[str]:\n return pulumi.get(self, \"country\")"
] | [
"0.7414367",
"0.6879359",
"0.66778713",
"0.6657065",
"0.65171",
"0.6390232",
"0.6177538",
"0.6008028",
"0.59344506",
"0.5724217",
"0.5644175",
"0.5547985",
"0.55429226",
"0.54663897",
"0.54644173",
"0.5452957",
"0.54483235",
"0.54019034",
"0.53893656",
"0.53569716",
"0.5338283",
"0.5338283",
"0.5332071",
"0.53160113",
"0.52953285",
"0.5282093",
"0.52702355",
"0.52702355",
"0.52666074",
"0.52666074"
] | 0.77311474 | 0 |
Implementing click search dialed digits arrow button functionality | def click_search_dialed_digits_arrow_button(self):
self.click_element(self.search_dialed_digits_arrow_button_locator) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def click_search_rate_arrow_button(self):\n self.click_element(self.search_rate_arrow_button_locator)",
"def click_search_ref_rates_arrow_button(self):\n self.click_element(self.search_ref_rates_arrow_button_locator)",
"def select_dialed_digits_tab(self):\n self.select_static_tab(self.dialed_digits_tab_locator, True)",
"def on_searchButton_clicked(self):\n self.__search()",
"def select_dial_digits_tab(self):\n self.click_element(self.dial_digits_tab_locator, True, True)",
"def search_btn_clicked(self, widget, data=None):\n # Method to handle search here.\n search_text = self.get_text(\"txt_search\")\n print search_text",
"def click_search_mcc_mnc_arrow_button(self):\n self.click_element(self.search_mcc_mnc_arrow_button_locator)",
"def click_search_button(self):\n self.click_element(self.generic_search_button_locator)",
"def _on_keyboard(self, instance, key, scancode, codepoint, modifiers, *args):\r\n # print(\"Keyboard pressed! {}, {}, {}, {}\".format(key, scancode, codepoint, modifiers))\r\n if codepoint == 's' and 'ctrl' in modifiers:\r\n toast('Search by Name, Ingredient, or Tag', 3)\r\n self.search_focus = True",
"def on_buttonBox_clicked(self, button):\n if button == self.findButton:\n self.__doSearch()\n elif button == self.stopButton:\n self.__stopSearch()",
"def _on_key_press(self, event):",
"def press_R_button(self) -> None: # pylint: disable=invalid-name",
"def _press(self, event):",
"def clickNine():\n pie = textbox.get()\n pie += \"9\"\n textbox.set(pie)",
"def on_regex_search_toggle(self, event):\r\n\r\n if self.m_regex_search_checkbox.GetValue():\r\n update_autocomplete(self.m_searchfor_textbox, \"regex_search\")\r\n else:\r\n update_autocomplete(self.m_searchfor_textbox, \"literal_search\")\r\n event.Skip()",
"def addDigit():\n\n #Checks to see if the number bar is a 0; if so, returns an empty string.\n if self.digits[\"text\"] == \"0\" or self.operatorEntered == True or self.digits[\"text\"] == 'Error':\n self.digits[\"text\"] = \"\"\n self.operatorEntered = False\n #Adds the text from the digit button pressed onto the end of the number bar. \n self.digits[\"text\"] += buttonText\n\n #Sets the text on the clear button to AC if the number bar only contains 0.\n if self.digits[\"text\"] == \"0\" and self.operatorEntered == False:\n self.clearButton[\"text\"]= \"AC\"\n\n #Sets the text on the clear button to C if the number bar contains anything other than 0.\n if self.digits[\"text\"] == \"0\" and self.operatorEntered == True:\n self.clearButton[\"text\"]= \" C \"\n else:\n self.clearButton[\"text\"]= \" C \"",
"def _on_hex_selection(self, event) -> None:\r\n self.textbox_ascii.tag_remove(TAG_SELECTION, \"1.0\", tk.END)\r\n try:\r\n hex_start_line, hex_start_char = map(int, self.textbox_hex.index(tk.SEL_FIRST).split(\".\"))\r\n hex_end_line, hex_end_char = map(int, self.textbox_hex.index(tk.SEL_LAST).split(\".\"))\r\n ascii_start = f\"{hex_start_line}.{hex_start_char // self.REPR_CHARS_PER_BYTE_HEX}\"\r\n ascii_end = f\"{hex_end_line}.{( (hex_end_char - 1) // self.REPR_CHARS_PER_BYTE_HEX) + 1}\"\r\n self.textbox_ascii.tag_add(TAG_SELECTION, ascii_start, ascii_end)\r\n except Exception:\r\n pass",
"def click_document_search_button(self):\n self.click_element(self.document_search_button_locator, True)",
"def currently_focused(self) -> int:",
"def changeValue(self):\n #productive #onUpDnArrow\n profprint()\n widget = slicer.modules.NeedleFinderWidget\n widget.scrollPointButton.setText('Scroll Point for Needle ' + str(widget.editNeedleTxtBox.value)+ ' (pt: '+str(self.ptNumber)+')')",
"def __find(self):\n txt = self.textCursor().selectedText()\n self.__mainWindow.showFind(txt)",
"def numberCommand(self, buttonText):\n def addDigit():\n \"\"\"Allows calculator to display number of button pushed.\"\"\"\n\n #Checks to see if the number bar is a 0; if so, returns an empty string.\n if self.digits[\"text\"] == \"0\" or self.operatorEntered == True or self.digits[\"text\"] == 'Error':\n self.digits[\"text\"] = \"\"\n self.operatorEntered = False\n #Adds the text from the digit button pressed onto the end of the number bar. \n self.digits[\"text\"] += buttonText\n\n #Sets the text on the clear button to AC if the number bar only contains 0.\n if self.digits[\"text\"] == \"0\" and self.operatorEntered == False:\n self.clearButton[\"text\"]= \"AC\"\n\n #Sets the text on the clear button to C if the number bar contains anything other than 0.\n if self.digits[\"text\"] == \"0\" and self.operatorEntered == True:\n self.clearButton[\"text\"]= \" C \"\n else:\n self.clearButton[\"text\"]= \" C \"\n\n return addDigit",
"def _command(self, text):\r\n # function for each button\r\n if text == self.list[0]:\r\n # button %\r\n self.current_number = str(float(self.current_number) / 100)\r\n elif text == self.list[1]:\r\n # button CE\r\n self.current_number = '0'\r\n self.storage_number = '0'\r\n self.current_operation = None\r\n elif text == self.list[2]:\r\n # button C\r\n self.current_number = '0'\r\n elif text == self.list[3]:\r\n # button <-\r\n self.current_number = self.current_number[:-1]\r\n if self.current_number == '':\r\n self.current_number = '0'\r\n elif text == self.list[4]:\r\n # button ÷\r\n self._command_operation(self.list[4])\r\n elif text == self.list[5]:\r\n # button √\r\n self.current_number = str(float(self.current_number)**(1/2))\r\n elif text == self.list[6]:\r\n # button 7\r\n self._command_number(self.list[6])\r\n elif text == self.list[7]:\r\n # button 8\r\n self._command_number(self.list[7])\r\n elif text == self.list[8]:\r\n # button 9\r\n self._command_number(self.list[8])\r\n elif text == self.list[9]:\r\n # button ×\r\n self._command_operation(self.list[9])\r\n elif text == self.list[10]:\r\n # button x²\r\n self.current_number = str(float(self.current_number)**2)\r\n elif text == self.list[11]:\r\n # button 4\r\n self._command_number(self.list[11])\r\n elif text == self.list[12]:\r\n # button 5\r\n self._command_number(self.list[12])\r\n elif text == self.list[13]:\r\n # button 6\r\n self._command_number(self.list[13])\r\n elif text == self.list[14]:\r\n # button +\r\n self._command_operation(self.list[14])\r\n elif text == self.list[15]:\r\n # button x³\r\n self.current_number = str(float(self.current_number)**3)\r\n elif text == self.list[16]:\r\n # button 1\r\n self._command_number(self.list[16])\r\n elif text == self.list[17]:\r\n # button 2\r\n self._command_number(self.list[17])\r\n elif text == self.list[18]:\r\n # button 3\r\n self._command_number(self.list[18])\r\n elif text == self.list[19]:\r\n # button -\r\n self._command_operation(self.list[19])\r\n elif text == self.list[20]:\r\n # button 1/x\r\n self.current_number = str(1 / float(self.current_number))\r\n elif text == self.list[21]:\r\n # button +/-\r\n if self.current_number[0] == '-':\r\n self.current_number = self.current_number[1:]\r\n else:\r\n self.current_number = '-' + self.current_number\r\n elif text == self.list[22]:\r\n # button 0\r\n self._command_number(self.list[22])\r\n elif text == self.list[23]:\r\n # button .\r\n self._command_number(self.list[23])\r\n elif text == self.list[24]:\r\n # button =\r\n self._command_equal()",
"def pushButtonClicked(self, but_id, button):\n self.ui.tv_bindings.clearSelection()\n lstMatch = self.ui.tv_bindings.findItems(but_id, QtCore.Qt.MatchExactly, 0)[0]\n lstMatch.setSelected(True)\n lstMatch.setText(1, '[Press a key]')\n button.installEventFilter(self)\n self.efButton = button # Not elegant, but.... works",
"def other_search(self):\n test = self.ask_zoekarg.text()\n if test:\n self.parent().search_arg = test\n self.parent().do_select()",
"def _my_digitize(the_input):\n return np.searchsorted(the_input[1:], the_input[0])",
"def on_click_alphabet_button(event):\n img_alphabet_button_on_click = image_abc_pressed[abc_index]\n a_label = buttons_abc[abc_index]\n a_label.config(image=img_alphabet_button_on_click)\n a_label.image = img_alphabet_button_on_click\n a_label.grid(row=ALPHA_ROW, column=ALPHA_COL, pady=4) # Uses more padding b/c the image is smaller\n alphabet_press(abc_index) # Adds a letter if past the START NEW GAME button has been pressed",
"def onSearch(self):\n self.mainGrid.showSearchPopup()\n self.popupActive = True",
"def __quickSearchEscape(self):\n if self.quickFindtextCombo.lastActive:\n self.quickFindtextCombo.lastActive.setFocus()\n aw = self.activeWindow()\n if aw:\n aw.hideFindIndicator()\n if self.quickFindtextCombo.lastCursorPos:\n aw.setCursorPosition(\n self.quickFindtextCombo.lastCursorPos[0],\n self.quickFindtextCombo.lastCursorPos[1])\n \n if self.__quickSearchToolbarVisibility is not None:\n self.__quickSearchToolbar.setVisible(\n self.__quickSearchToolbarVisibility)\n self.__quickSearchToolbarVisibility = None",
"def add_IN_num(self, newNum):\n # Add one number at a time to target value\n # up to the max Inch allowed\n global DecimalMode\n\n self.newTargetVal = TargetVal\n self.newNum = newNum.strip() # strip off all whitespace\n # Check if button pressed is 1/2\n if self.newNum == '1/2':\n self.newTargetVal = int(self.newTargetVal) + 0.5\n # Check if button pressed is x/4\n elif self.newNum == 'x/4':\n # only display keys 1, 3 and C. i.e. 1/4, 3/4\n self.newKeyLabels=[' 1 ', ' 3 ', ' C ']\n for self.a in range(len(self.newKeyLabels)):\n self.btns[self.a].configure(text=self.newKeyLabels[self.a])\n for self.a in range(len(self.newKeyLabels),self.btnNumber):\n self.btns[self.a].grid_remove()\n DecimalMode = 4\n self.keypad = 'x/4'\n self.title(self.keypad)\n\n elif self.newNum == 'x/8':\n # only display keys 1, 3, 5, 7 and C. i.e. 1/8, 3/8, 5/8, 7/8\n self.newKeyLabels=[' 1 ', ' 3 ', ' 5 ', ' 7 ', ' C ']\n for self.a in range(len(self.newKeyLabels)):\n self.btns[self.a].configure(text=self.newKeyLabels[self.a])\n for self.a in range(len(self.newKeyLabels),self.btnNumber):\n self.btns[self.a].grid_remove()\n DecimalMode = 8\n self.keypad = 'x/8'\n self.title(self.keypad)\n\n elif self.newNum == 'x/16':\n # only display keys 1, 3 and C. i.e. 1/16, 3/16, 5/16, 7/16, 9/16, 11/16, 13/16, 15/16\n self.newKeyLabels=[' 1 ', ' 3 ', ' 5 ', ' 7 ', ' 9 ', '11 ', '13 ', '15 ', ' C ']\n for self.a in range(len(self.newKeyLabels)):\n self.btns[self.a].configure(text=self.newKeyLabels[self.a])\n for self.a in range(len(self.newKeyLabels),self.btnNumber):\n self.btns[self.a].grid_remove()\n DecimalMode = 16\n self.keypad = 'x/16'\n self.title(self.keypad)\n\n elif self.newNum == 'x/32':\n # only display odd keys 1, 3, etc.\n self.newKeyLabels=[' 1 ', '3', '5', '7', '9', '11', '13', '15', '17', '19', '21', '23', '25', '27', '29', '31', 'C']\n for self.a in range(len(self.newKeyLabels)):\n self.btns[self.a].configure(text=self.newKeyLabels[self.a])\n for self.a in range(len(self.newKeyLabels),self.btnNumber):\n self.btns[self.a].grid_remove()\n DecimalMode = 32\n self.keypad = 'x/32'\n self.title(self.keypad)\n\n elif self.newNum == 'x/64' or self.newNum == 'Prev':\n # only display odd keys 1, 3, etc.\n self.newKeyLabels=['1', '3', '5', '7', '9', '11', '13', '15', '17', '19', '21', '23', '25', '27', '29', '31', 'Next', 'C']\n for self.a in range(len(self.newKeyLabels)):\n self.btns[self.a].configure(text=self.newKeyLabels[self.a])\n for self.a in range(len(self.newKeyLabels),self.btnNumber):\n self.btns[self.a].grid_remove()\n DecimalMode = 64\n self.keypad = 'x/64'\n self.title(self.keypad)\n\n elif self.newNum == 'Next':\n # only display odd keys 1, 3, etc.\n self.newKeyLabels=['33', '35', '37', '39', '41', '43', '45', '47', '49', '51', '53', '55', '57', '59', '61', '63', 'Prev', 'C']\n for self.a in range(len(self.newKeyLabels)):\n self.btns[self.a].configure(text=self.newKeyLabels[self.a])\n for self.a in range(len(self.newKeyLabels),self.btnNumber):\n self.btns[self.a].grid_remove()\n DecimalMode = 64\n self.keypad = 'x/64'\n self.title(self.keypad)\n\n # Check if button pressed is Enter, if so return.\n elif self.newNum == 'Enter':\n self.onClose()\n\n # Check if button pressed is blank, if so do nothing.\n elif self.newNum == '':\n pass\n\n # Check if button pressed is C for clear all numbers.\n elif self.newNum == 'C':\n self.newTargetVal = 0.0\n DecimalMode = 0 # reset decimal mode to whole number\n self.redrawButtons()\n\n # Check if character entered is Backspace, delete last character entered\n elif self.newNum == 'Bksp':\n if DecimalMode == 0:\n self.newTargetVal = int(float(self.newTargetVal) / 10)\n else: # in fraction mode\n self.newTargetVal = int(self.newTargetVal)\n DecimalMode = 0 # reset decimal mode to whole number\n # self.redrawButtons()\n\n else:\n # numbers 0-9\n self.newNum = int(self.newNum) # convert to integer\n # intTargetVal = int(float(TargetVal)) # convert to integer\n if DecimalMode == 0:\n # move number (whole) to left and add newNum to right side of number\n self.newTargetVal = (self.newTargetVal*10) + self.newNum\n\n \"\"\"\n # move whole number to left and add newNum to right side of whole number\n # leaving decimal number alone, i.e. 36.0 (newNum=5) becomes 365.0\n self.intTargetVal = int(TargetVal) # just the whole number\n self.newTargetVal = (self.intTargetVal*10) + self.newNum # move whole numbers left\n self.decTargetVal = TargetVal - intTargetVal # only the decimal\n self.newTargetVal = self.newTargetVal + self.decTargetVal # new whole number + decimal\n \"\"\"\n elif DecimalMode == 4: # x/4th mode\n self.newTargetVal = int(self.newTargetVal) + self.newNum/4.0\n self.redrawButtons()\n elif DecimalMode == 8: # x/8th mode\n self.newTargetVal = int(self.newTargetVal) + self.newNum/8.0\n self.redrawButtons()\n elif DecimalMode == 16: # x/16th mode\n self.newTargetVal = int(self.newTargetVal) + self.newNum/16.0\n self.redrawButtons()\n elif DecimalMode == 32: # x/32th mode\n self.newTargetVal = int(self.newTargetVal) + self.newNum/32.0\n self.redrawButtons()\n elif DecimalMode == 64: # x/64th mode\n self.newTargetVal = int(self.newTargetVal) + self.newNum/64.0\n self.redrawButtons()\n else:\n mBox.showerror('Not a defined key', 'Invalid code')\n self.deiconify() # Bring keypad back to focus\n # self.newTargetVal = float(TargetVal) # ????????????\n\n # CHECK IF num > maximum length\n if ( self.newTargetVal >= PARKLOCATION):\n mBox.showerror('Limit Exceeded', 'Value exceeds Park Limit')\n self.deiconify() # Bring keypad back to focus\n else:\n if (TargetVal) != self.newTargetVal:\n setTarget(self.newTargetVal)\n return"
] | [
"0.6336071",
"0.5798419",
"0.5649409",
"0.55909693",
"0.54952455",
"0.54864305",
"0.5391673",
"0.5385313",
"0.5368515",
"0.5364212",
"0.53359216",
"0.52395624",
"0.5156926",
"0.5143971",
"0.5132832",
"0.51022613",
"0.50864697",
"0.50541884",
"0.5043618",
"0.5037757",
"0.50320554",
"0.4997933",
"0.4991505",
"0.4967918",
"0.49675354",
"0.49571455",
"0.49447942",
"0.49413514",
"0.4934253",
"0.49063498"
] | 0.8096891 | 0 |
Implementing is country selection criteria field present in view price list details dialed digits page functionality | def is_country_selection_criteria_field_present_in_view_price_list_details_dialed_digits_page(self):
return self.is_specific_selection_criteria_filter_present(self.view_price_list_dialed_digits_page_div_id, self.country_label_name) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def is_country_selection_criteria_field_present_in_view_price_list_details_rate_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_details_rate_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_view_price_list_details_ref_rates_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_ref_rates_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_vendor_profile_dialed_digits_page(self):\n return self.is_specific_selection_criteria_filter_present(self.vendor_profile_dialed_digits_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_compare_price_list_pop_up(self):\n return self.is_specific_selection_criteria_filter_present(self.compare_price_list_pop_up_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_re_analysis_page(self):\n return self.is_specific_selection_criteria_filter_present(self.re_analysis_page_div_id, self.country_label_name)",
"def is_country_column_present_in_view_price_list_details_dialed_digits_page(self):\n return self.is_specific_column_present(self.vendor_price_list_detail_dial_digits_grid_div_id, self.column_name_country)",
"def is_country_column_present_in_view_price_list_details_rate_page(self):\n return self.is_specific_column_present(self.vendor_price_list_detail_rates_grid_div_id, self.column_name_country)",
"def is_country_selection_criteria_field_present_in_vendor_profile_page(self):\n return self.is_specific_selection_criteria_filter_present(self.vendor_profile_page_div_id, self.country_label_name)",
"def is_country_column_present_in_view_price_list_details_ref_rates_page(self):\n return self.is_specific_column_present(self.vendor_price_list_detail_reference_rates_grid_div_id, self.column_name_country)",
"def test_on_post_display_local_to_foreign(self):\n # data.get('country_flag', None)\n # address_display_version = 'foreign' if country_flag else 'local'\n # form.set_alt_data(name='country_display', field=self.fields['country_display'], value=address_display_version)\n pass",
"def test_default_country_set(self):\n response = self.client.get(reverse(\"billing_info\"))\n self.assertEqual(response.status_code, 200)\n self.assertContains(\n response, '<option value=\"PL\" selected>Poland</option>', html=True\n )",
"def test_on_post_display_foreign_to_foreign(self):\n # data.get('country_flag', None)\n # address_display_version = 'foreign' if country_flag else 'local'\n # form.set_alt_data(name='country_display', field=self.fields['country_display'], value=address_display_version)\n pass",
"def test_clean_country_flag(self):\n # country_flag = self.cleaned_data.get('country_flag', None)\n # field = self.fields.get(self.country_field_name, None)\n # if not field and hasattr(self, 'computed_fields'):\n # field = self.computed_fields.get(self.country_field_name, None)\n # if field.initial == self.cleaned_data.get(self.country_field_name, None)\n pass",
"def test_default_country_set_no_ip(self):\n response = self.client.get(reverse(\"billing_info\"))\n self.assertEqual(response.status_code, 200)\n self.assertContains(\n response, '<option value=\"PL\" selected>Poland</option>', html=True\n )",
"def set_country_for_search(self, country_name_list):\n self.multiple_items_selection_from_kendo_dropdown(self.country_dropdown_locator, country_name_list)\n self.wait_for_ajax_spinner_load()",
"def test_on_post_display_foreign_to_local(self):\n # data.get('country_flag', None)\n # address_display_version = 'foreign' if country_flag else 'local'\n # form.set_alt_data(name='country_display', field=self.fields['country_display'], value=address_display_version)\n pass",
"def is_country_column_present_in_compare_price_list_pop_up(self):\n return self.is_specific_column_present(self.compare_price_list_rate_grid_div_id, self.column_name_country)",
"def onchange_country(self):\n if self.country_id and self.country_id.code == 'SA':\n self.is_saudi = True\n else:\n self.is_saudi = False",
"def _perContinentChoiceSelector(self, params):\n\n entity = params['entity']\n choices = soc.models.countries.COUNTRIES_TO_CONTINENT\n\n if 'fields' in params:\n fields = params['fields']\n\n for field in fields:\n entity = entity.__getattribute__(field)\n\n return choices[entity.res_country]",
"def is_country_column_present_in_vendor_profile_dialed_digits_page(self):\n return self.is_specific_column_present(self.dialed_digits_grid_div_id, self.column_name_country)",
"def country_hint(self, value):\n return None",
"def is_country_selection_criteria_field_present_in_vendor_profile_destinations_page(self):\n return self.is_specific_selection_criteria_filter_present(self.vendor_profile_destinations_page_div_id, self.country_label_name)",
"def test_default_country_by_ip_no_settings(self):\n\n response = self.client.get(\n reverse(\"billing_info\"), HTTP_X_FORWARDED_FOR=\"85.214.132.117\"\n )\n self.assertEqual(response.status_code, 200)\n self.assertContains(\n response, '<option value=\"\" selected>---------</option>', html=True\n )",
"def _feature_country_process(self):\n if 'Country' not in self._df_invoice_line.columns:\n return\n\n list_countries_keep = ['United Kingdom']\n rows_before = self._df_invoice_line.shape[0]\n \n df_invoice_line_new = pd.DataFrame()\n for country in list_countries_keep : \n df_invoice_line_new = df_invoice_line_new.append(\\\n self._df_invoice_line[self._df_invoice_line['Country']==country]\\\n , ignore_index=True)\n\n self.df_invoice_line = df_invoice_line_new\n del(df_invoice_line_new)\n \n rows_after = self._df_invoice_line.shape[0] \n _print_stat_rows(\"Countries filtering : \",rows_before, rows_after)\n\n \n #-------------------------------------------------------------------------\n # Due to the fact only one country is used, then this feature is dropped\n #-------------------------------------------------------------------------\n list_col_to_keep = [col for col in self._df_invoice_line.columns \\\n if col not in 'Country']\n \n self._df_invoice_line = self._df_invoice_line[list_col_to_keep] \n\n return",
"def select_vendor_price_list_detail_dial_digits_tab(self):\n self.click_element(self.vendor_price_list_details_dial_digits_tab_locator, True)",
"def country(alpha_2_code: str) -> None:",
"def __create_country_dropdown(self):\n return dcc.Dropdown(\n id=\"dd_country\",\n options=self.data_reader.get_country_options(),\n value=\"Canada\",\n )",
"def test_default_country_by_ip(self):\n\n response = self.client.get(\n reverse(\"billing_info\"), HTTP_X_FORWARDED_FOR=\"85.214.132.117\"\n )\n self.assertEqual(response.status_code, 200)\n self.assertContains(\n response, '<option value=\"DE\" selected>Germany</option>', html=True\n )\n\n response = self.client.get(\n reverse(\"billing_info\"), REMOTE_ADDR=\"85.214.132.117\"\n )\n self.assertEqual(response.status_code, 200)\n self.assertContains(\n response, '<option value=\"DE\" selected>Germany</option>', html=True\n )",
"def country_flag(country):\n\tif not country:\n\t\treturn u''\n\tresult = Country.objects.filter(name__icontains=country)\n\tif result:\n\t\tc = result[0]\n\t\tiso = c.iso\n\t\tflag_location = iso_flag(iso)\n\t\treturn flag_location\n\treturn u''",
"def country() -> str:"
] | [
"0.7418235",
"0.72210634",
"0.66948366",
"0.65070415",
"0.6415244",
"0.63933665",
"0.6202905",
"0.61455554",
"0.6000096",
"0.5729203",
"0.5669423",
"0.5551671",
"0.5537954",
"0.55056393",
"0.5487448",
"0.5477107",
"0.5457644",
"0.54296917",
"0.5413241",
"0.54048663",
"0.53878164",
"0.5373664",
"0.5358142",
"0.5335448",
"0.5333999",
"0.53270215",
"0.5287872",
"0.528208",
"0.5203293",
"0.51909107"
] | 0.7537553 | 0 |
Implementing is country column present in view price list details dialed digits page functionality | def is_country_column_present_in_view_price_list_details_dialed_digits_page(self):
return self.is_specific_column_present(self.vendor_price_list_detail_dial_digits_grid_div_id, self.column_name_country) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def is_country_column_present_in_view_price_list_details_rate_page(self):\n return self.is_specific_column_present(self.vendor_price_list_detail_rates_grid_div_id, self.column_name_country)",
"def is_country_column_present_in_view_price_list_details_ref_rates_page(self):\n return self.is_specific_column_present(self.vendor_price_list_detail_reference_rates_grid_div_id, self.column_name_country)",
"def is_country_selection_criteria_field_present_in_view_price_list_details_dialed_digits_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_dialed_digits_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_view_price_list_details_rate_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_details_rate_page_div_id, self.country_label_name)",
"def is_country_column_present_in_vendor_profile_dialed_digits_page(self):\n return self.is_specific_column_present(self.dialed_digits_grid_div_id, self.column_name_country)",
"def is_country_selection_criteria_field_present_in_view_price_list_details_ref_rates_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_ref_rates_page_div_id, self.country_label_name)",
"def is_country_column_present_in_vendor_profile_page(self):\n return self.is_specific_column_present(self.rates_grid_div_id, self.column_name_country)",
"def is_country_column_present_in_compare_price_list_pop_up(self):\n return self.is_specific_column_present(self.compare_price_list_rate_grid_div_id, self.column_name_country)",
"def is_country_column_present_in_re_analysis_page(self):\n return self.is_specific_column_present(self.re_analysis_grid_div_id, self.column_name_country)",
"def is_country_selection_criteria_field_present_in_vendor_profile_dialed_digits_page(self):\n return self.is_specific_selection_criteria_filter_present(self.vendor_profile_dialed_digits_page_div_id, self.country_label_name)",
"def test_on_post_display_local_to_foreign(self):\n # data.get('country_flag', None)\n # address_display_version = 'foreign' if country_flag else 'local'\n # form.set_alt_data(name='country_display', field=self.fields['country_display'], value=address_display_version)\n pass",
"def is_country_selection_criteria_field_present_in_compare_price_list_pop_up(self):\n return self.is_specific_selection_criteria_filter_present(self.compare_price_list_pop_up_div_id, self.country_label_name)",
"def country() -> str:",
"def is_country_selection_criteria_field_present_in_re_analysis_page(self):\n return self.is_specific_selection_criteria_filter_present(self.re_analysis_page_div_id, self.country_label_name)",
"def custom_rendering():\r\n countries = CountryTable(MEMORY_DATA)\r\n context = Context({'countries': countries})\r\n\r\n # automatic and manual column verbose names\r\n template = Template('{% for column in countries.columns %}{{ column }}/'\r\n '{{ column.name }} {% endfor %}')\r\n result = ('Name/name Capital/capital Population Size/population '\r\n 'Phone Ext./calling_code ')\r\n assert result == template.render(context)\r\n\r\n # row values\r\n template = Template('{% for row in countries.rows %}{% for value in row %}'\r\n '{{ value }} {% endfor %}{% endfor %}')\r\n result = ('Germany Berlin 83 49 France — 64 33 Netherlands Amsterdam '\r\n '— 31 Austria — 8 43 ')\r\n assert result == template.render(context)",
"def test_on_post_display_foreign_to_foreign(self):\n # data.get('country_flag', None)\n # address_display_version = 'foreign' if country_flag else 'local'\n # form.set_alt_data(name='country_display', field=self.fields['country_display'], value=address_display_version)\n pass",
"def _feature_country_process(self):\n if 'Country' not in self._df_invoice_line.columns:\n return\n\n list_countries_keep = ['United Kingdom']\n rows_before = self._df_invoice_line.shape[0]\n \n df_invoice_line_new = pd.DataFrame()\n for country in list_countries_keep : \n df_invoice_line_new = df_invoice_line_new.append(\\\n self._df_invoice_line[self._df_invoice_line['Country']==country]\\\n , ignore_index=True)\n\n self.df_invoice_line = df_invoice_line_new\n del(df_invoice_line_new)\n \n rows_after = self._df_invoice_line.shape[0] \n _print_stat_rows(\"Countries filtering : \",rows_before, rows_after)\n\n \n #-------------------------------------------------------------------------\n # Due to the fact only one country is used, then this feature is dropped\n #-------------------------------------------------------------------------\n list_col_to_keep = [col for col in self._df_invoice_line.columns \\\n if col not in 'Country']\n \n self._df_invoice_line = self._df_invoice_line[list_col_to_keep] \n\n return",
"def test_on_post_display_foreign_to_local(self):\n # data.get('country_flag', None)\n # address_display_version = 'foreign' if country_flag else 'local'\n # form.set_alt_data(name='country_display', field=self.fields['country_display'], value=address_display_version)\n pass",
"def country_codes():\n\n iso_sel = [\n Freedom_short.iso_code,\n Freedom_short.year,\n Freedom_short.country,\n Freedom_short.region,\n Freedom_short.hf_score,\n Freedom_short.hf_rank,\n Freedom_short.hf_quartile,\n ]\n\n # Use Pandas to perform the sql query\n #Grab 2017 Data Only for Dropdown\n codes_stmt = db.session.query(*iso_sel).filter(Freedom_short.year == 2017).order_by(Freedom_short.iso_code).statement\n codes_df = pd.read_sql_query(codes_stmt, db.session.bind)\n\n # Return a list of the column names (sample names)\n return jsonify(list(codes_df[\"iso_code\"]))",
"def country_flag(country):\n\tif not country:\n\t\treturn u''\n\tresult = Country.objects.filter(name__icontains=country)\n\tif result:\n\t\tc = result[0]\n\t\tiso = c.iso\n\t\tflag_location = iso_flag(iso)\n\t\treturn flag_location\n\treturn u''",
"def country(alpha_2_code: str) -> None:",
"def get_country_code(self):\n #method on the class InternationalMelonOrder\n\n return self.country_code\n # international has country code; domestic does not\n # WAI???",
"def is_country_selection_criteria_field_present_in_vendor_profile_page(self):\n return self.is_specific_selection_criteria_filter_present(self.vendor_profile_page_div_id, self.country_label_name)",
"def test_custom_rendering(self):\n countries = CountryTable(MEMORY_DATA)\n context = Context({\"countries\": countries})\n\n # automatic and manual column verbose names\n template = Template(\n \"{% for column in countries.columns %}{{ column }}/\" \"{{ column.name }} {% endfor %}\"\n )\n result = \"Name/name Capital/capital Population Size/population \" \"Phone Ext./calling_code \"\n assert result == template.render(context)\n\n # row values\n template = Template(\n \"{% for row in countries.rows %}{% for value in row %}\"\n \"{{ value }} {% endfor %}{% endfor %}\"\n )\n result = \"Germany Berlin 83 49 France — 64 33 Netherlands Amsterdam \" \"— 31 Austria — 8 43 \"\n assert result == template.render(context)",
"def test_clean_country_flag(self):\n # country_flag = self.cleaned_data.get('country_flag', None)\n # field = self.fields.get(self.country_field_name, None)\n # if not field and hasattr(self, 'computed_fields'):\n # field = self.computed_fields.get(self.country_field_name, None)\n # if field.initial == self.cleaned_data.get(self.country_field_name, None)\n pass",
"def is_country_column_present_in_vendor_profile_destinations_page(self):\n return self.is_specific_column_present(self.destinations_grid_div_id, self.column_name_country)",
"def test_default_country_by_ip_no_settings(self):\n\n response = self.client.get(\n reverse(\"billing_info\"), HTTP_X_FORWARDED_FOR=\"85.214.132.117\"\n )\n self.assertEqual(response.status_code, 200)\n self.assertContains(\n response, '<option value=\"\" selected>---------</option>', html=True\n )",
"def country_hint(self, value):\n return None",
"def test_default_country_set(self):\n response = self.client.get(reverse(\"billing_info\"))\n self.assertEqual(response.status_code, 200)\n self.assertContains(\n response, '<option value=\"PL\" selected>Poland</option>', html=True\n )",
"def country(self):\n return self.status.place['country']"
] | [
"0.7543017",
"0.730668",
"0.6989714",
"0.67391914",
"0.66788024",
"0.654756",
"0.64973056",
"0.64686465",
"0.62706566",
"0.6022995",
"0.5790531",
"0.5696208",
"0.56703144",
"0.56612366",
"0.56313753",
"0.5609777",
"0.5604428",
"0.5596275",
"0.5568195",
"0.5551154",
"0.54772604",
"0.54306513",
"0.54172355",
"0.54094297",
"0.53449446",
"0.5326749",
"0.5319526",
"0.53183323",
"0.52852714",
"0.52750194"
] | 0.7634008 | 0 |
Implementing click search ref rates arrow button functionality | def click_search_ref_rates_arrow_button(self):
self.click_element(self.search_ref_rates_arrow_button_locator) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def click_search_rate_arrow_button(self):\n self.click_element(self.search_rate_arrow_button_locator)",
"def click_search_dialed_digits_arrow_button(self):\n self.click_element(self.search_dialed_digits_arrow_button_locator)",
"def click_reference_rates_show_search_form_link(self):\n self.click_element(self.reference_rates_show_search_form_link_locator)",
"def click(self):\r\n pass",
"def on_searchButton_clicked(self):\n self.__search()",
"def click_search_button(self):\n self.click_element(self.generic_search_button_locator)",
"def click_search_mcc_mnc_arrow_button(self):\n self.click_element(self.search_mcc_mnc_arrow_button_locator)",
"def on_buttonBox_clicked(self, button):\n if button == self.findButton:\n self.__doSearch()\n elif button == self.stopButton:\n self.__stopSearch()",
"def _press(self, event):",
"def on_click(self, x, y):\n mul_x, mul_y = self.multiplier\n off_x, off_y = self.offset\n x -= off_x\n x /= mul_x\n y -= off_y\n y /= mul_y\n for button in self.button_dict.values():\n button.check_click(x, y)",
"def press_R_button(self) -> None: # pylint: disable=invalid-name",
"def on_click(self) -> None:\n pass",
"def ev_mousebuttondown(self, event: MouseButtonDown) -> None:",
"def click_add_disputes_search_button(self):\n self.click_element(self.disputes_search_button_locator, True)",
"def changeValue(self):\n #productive #onUpDnArrow\n profprint()\n widget = slicer.modules.NeedleFinderWidget\n widget.scrollPointButton.setText('Scroll Point for Needle ' + str(widget.editNeedleTxtBox.value)+ ' (pt: '+str(self.ptNumber)+')')",
"def update_navigation_buttons(self):\n test = self.artist_list.currentIndex() # .row()\n self.prev_artist_button.setEnabled(True)\n self.next_artist_button.setEnabled(True)\n if test == 0:\n self.prev_artist_button.setEnabled(False)\n if test == len(self.c_artists) - 1:\n self.next_artist_button.setEnabled(False)\n self.focus_albums()",
"def handle_mouse_click(self, button: Button) -> None:\n if button.name == 'BACK':\n self._clear_all_input()\n self.current_page -= 1\n self._focused_button = None\n if self.current_page == len(self.pages) - 2:\n self.current_page -= 1\n elif button.name == 'Show Graph':\n self._plot_graph()\n elif button.name == 'Multiple Regression':\n self._selection.handle_selection(self.current_page, button.name)\n self.current_page += 2\n self._update_ghg_coefs()\n elif button.tag == 'normal' and self.current_page < len(self.pages) - 2:\n self._selection.handle_selection(self.current_page, button.name)\n self.current_page += 1\n elif isinstance(button, InputButton):\n self._focused_button = button",
"def mousePressEvent(self, event):\n #sw = self.spw.windows['Sort']\n buttons = event.buttons()\n if buttons == QtCore.Qt.MiddleButton:\n #sw.on_actionSelectRandomSpikes_triggered()\n #sw.spykewindow.plotButton.click() # same as hitting ENTER in nslist\n self.selecting = True\n self.setMouseTracking(True) # while selecting\n self.selectPointsUnderCursor()\n self.lastPressPos = QtCore.QPoint(event.pos())\n self.lastPos = QtCore.QPoint(event.pos())",
"def on_mouse_press(self, x, y, button, key_modifiers):\r\n pass",
"def on_mouse_press(self, x, y, button):\n\n pass",
"def mousePressEvent(self, event):\n #sw = self.spw.windows['Sort']\n buttons = event.buttons()\n if buttons == QtCore.Qt.MiddleButton:\n #sw.on_actionSelectRandomSpikes_triggered()\n #sw.spykewindow.ui.plotButton.click() # same as hitting ENTER in nslist\n self.selecting = True\n self.setMouseTracking(True) # while selecting\n self.selectPointsUnderCursor()\n self.lastPressPos = QtCore.QPoint(event.pos())\n self.lastPos = QtCore.QPoint(event.pos())",
"def on_click(self) -> None:\n self.cycle()",
"def ranked():\n mouseclick(888, 169)",
"def OnButtonRateHelpButton(self, event):\r\n\t\twebbrowser.open(consts.URL_HELP_RATE)",
"def clicked(self, event=None):\n\t\tif event.widget == self.history:\n\t\t\tselection = self.history.curselection()\n\t\t\tif selection:\n\t\t\t\tself.next_generation(self.history.get(selection))\n\t\telse:\n\t\t\tself.next_generation(event.widget['bg'] )",
"def onSearch(self):\n self.mainGrid.showSearchPopup()\n self.popupActive = True",
"def handle_mouse_press(self, event):",
"def click_inbound_statement_search_button(self):\n self.click_element(self.page_header_locator)\n self.click_element(self.inbound_statement_search_button_locator, True)",
"def tool_selection_click_ok_btn(driver, class_name, index):\r\n\r\n proximity_button = driver.find_elements_by_class_name(class_name)\r\n proximity_button[index].click()\r\n time.sleep(2)",
"def rightButtonDown(self):\n\t\tautopy.mouse.toggle(True,autopy.mouse.RIGHT_BUTTON)"
] | [
"0.79214346",
"0.68527734",
"0.57320035",
"0.5679551",
"0.5667455",
"0.556087",
"0.55350196",
"0.5496324",
"0.5429562",
"0.5423241",
"0.54218376",
"0.5373393",
"0.5366374",
"0.5333045",
"0.5330546",
"0.5312981",
"0.5294646",
"0.5281033",
"0.5275112",
"0.5272275",
"0.52684027",
"0.5265915",
"0.52243775",
"0.5181234",
"0.51740724",
"0.5172027",
"0.5165055",
"0.5156811",
"0.5153945",
"0.51537657"
] | 0.8000963 | 0 |
Implementing is country selection criteria field present in view price list details ref rates page functionality | def is_country_selection_criteria_field_present_in_view_price_list_details_ref_rates_page(self):
return self.is_specific_selection_criteria_filter_present(self.view_price_list_ref_rates_page_div_id, self.country_label_name) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def is_country_selection_criteria_field_present_in_view_price_list_details_rate_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_details_rate_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_view_price_list_details_dialed_digits_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_dialed_digits_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_compare_price_list_pop_up(self):\n return self.is_specific_selection_criteria_filter_present(self.compare_price_list_pop_up_div_id, self.country_label_name)",
"def is_country_column_present_in_view_price_list_details_ref_rates_page(self):\n return self.is_specific_column_present(self.vendor_price_list_detail_reference_rates_grid_div_id, self.column_name_country)",
"def is_country_selection_criteria_field_present_in_re_analysis_page(self):\n return self.is_specific_selection_criteria_filter_present(self.re_analysis_page_div_id, self.country_label_name)",
"def is_country_column_present_in_view_price_list_details_rate_page(self):\n return self.is_specific_column_present(self.vendor_price_list_detail_rates_grid_div_id, self.column_name_country)",
"def is_country_selection_criteria_field_present_in_vendor_profile_dialed_digits_page(self):\n return self.is_specific_selection_criteria_filter_present(self.vendor_profile_dialed_digits_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_vendor_profile_page(self):\n return self.is_specific_selection_criteria_filter_present(self.vendor_profile_page_div_id, self.country_label_name)",
"def country(request):\n class Results(object):\n\n def __init__(self, cc):\n self.cc = cc\n self.registered = 0\n self.dns = 0\n self.dnf = 0\n \n def add_rider(self, rider):\n self.registered += 1\n\n if rider.dns:\n self.dns += 1\n\n if rider.dnf:\n self.dnf += 1\n\n def finish_rate(self):\n \n rate = 100*(self.registered-self.dns-self.dnf)/(self.registered-self.dns)\n return rate\n\n results = {}\n for rider in models.Rider.objects.all():\n cc = rider.country.code\n results[cc] = results.get(cc, Results(cc))\n results[cc].add_rider(rider)\n\n results = results.values()\n sort = request.GET.get('sort', 'country')\n\n if sort == \"country\":\n results.sort(key=lambda x: x.cc)\n elif sort == \"registered\":\n results.sort(key=lambda x: x.registered, reverse=True)\n elif sort == \"rate\":\n results.sort(key=lambda x: x.registered, reverse=True)\n results.sort(key=lambda x: x.finish_rate(), reverse=True)\n\n total_registered = sum([r.registered for r in results])\n total_dns = sum([r.dns for r in results])\n total_dnf = sum([r.dnf for r in results])\n overall_finish_rate = 100 * (total_registered-total_dns-total_dnf)/(total_registered-total_dns)\n\n template = env.get_template(\"country.html\")\n rendered = template.render(dict(results=results,\n country_names=countries.OFFICIAL_COUNTRIES,\n registered=total_registered,\n total_dns=total_dns,\n total_dnf=total_dnf,\n overall_finish_rate=overall_finish_rate,\n ))\n\n return HttpResponse(rendered)",
"def test_on_post_display_local_to_foreign(self):\n # data.get('country_flag', None)\n # address_display_version = 'foreign' if country_flag else 'local'\n # form.set_alt_data(name='country_display', field=self.fields['country_display'], value=address_display_version)\n pass",
"def test_default_country_set(self):\n response = self.client.get(reverse(\"billing_info\"))\n self.assertEqual(response.status_code, 200)\n self.assertContains(\n response, '<option value=\"PL\" selected>Poland</option>', html=True\n )",
"def set_country_for_search(self, country_name_list):\n self.multiple_items_selection_from_kendo_dropdown(self.country_dropdown_locator, country_name_list)\n self.wait_for_ajax_spinner_load()",
"def is_country_column_present_in_view_price_list_details_dialed_digits_page(self):\n return self.is_specific_column_present(self.vendor_price_list_detail_dial_digits_grid_div_id, self.column_name_country)",
"def _feature_country_process(self):\n if 'Country' not in self._df_invoice_line.columns:\n return\n\n list_countries_keep = ['United Kingdom']\n rows_before = self._df_invoice_line.shape[0]\n \n df_invoice_line_new = pd.DataFrame()\n for country in list_countries_keep : \n df_invoice_line_new = df_invoice_line_new.append(\\\n self._df_invoice_line[self._df_invoice_line['Country']==country]\\\n , ignore_index=True)\n\n self.df_invoice_line = df_invoice_line_new\n del(df_invoice_line_new)\n \n rows_after = self._df_invoice_line.shape[0] \n _print_stat_rows(\"Countries filtering : \",rows_before, rows_after)\n\n \n #-------------------------------------------------------------------------\n # Due to the fact only one country is used, then this feature is dropped\n #-------------------------------------------------------------------------\n list_col_to_keep = [col for col in self._df_invoice_line.columns \\\n if col not in 'Country']\n \n self._df_invoice_line = self._df_invoice_line[list_col_to_keep] \n\n return",
"def test_on_post_display_foreign_to_foreign(self):\n # data.get('country_flag', None)\n # address_display_version = 'foreign' if country_flag else 'local'\n # form.set_alt_data(name='country_display', field=self.fields['country_display'], value=address_display_version)\n pass",
"def _perContinentChoiceSelector(self, params):\n\n entity = params['entity']\n choices = soc.models.countries.COUNTRIES_TO_CONTINENT\n\n if 'fields' in params:\n fields = params['fields']\n\n for field in fields:\n entity = entity.__getattribute__(field)\n\n return choices[entity.res_country]",
"def onchange_country(self):\n if self.country_id and self.country_id.code == 'SA':\n self.is_saudi = True\n else:\n self.is_saudi = False",
"def test_on_post_display_foreign_to_local(self):\n # data.get('country_flag', None)\n # address_display_version = 'foreign' if country_flag else 'local'\n # form.set_alt_data(name='country_display', field=self.fields['country_display'], value=address_display_version)\n pass",
"def getActiveCurrency():",
"def select_vendor_price_list_detail_reference_rates_tab(self):\n self.click_element(self.vendor_price_list_details_reference_rates_tab_locator, True)",
"def is_country_selection_criteria_field_present_in_vendor_profile_destinations_page(self):\n return self.is_specific_selection_criteria_filter_present(self.vendor_profile_destinations_page_div_id, self.country_label_name)",
"def is_country_column_present_in_compare_price_list_pop_up(self):\n return self.is_specific_column_present(self.compare_price_list_rate_grid_div_id, self.column_name_country)",
"def getActiveCurrencies():",
"def test_default_country_set_no_ip(self):\n response = self.client.get(reverse(\"billing_info\"))\n self.assertEqual(response.status_code, 200)\n self.assertContains(\n response, '<option value=\"PL\" selected>Poland</option>', html=True\n )",
"def default_get(self, cr, uid, fields, context=None):\n context = context or {}\n res = super(res_partner, self).default_get(cr, uid, fields, context=context)\n res.update({'uid_country': self._get_country_code(cr,uid,context=context)})\n return res",
"def country_hint(self, value):\n return None",
"def test_default_country_by_ip(self):\n\n response = self.client.get(\n reverse(\"billing_info\"), HTTP_X_FORWARDED_FOR=\"85.214.132.117\"\n )\n self.assertEqual(response.status_code, 200)\n self.assertContains(\n response, '<option value=\"DE\" selected>Germany</option>', html=True\n )\n\n response = self.client.get(\n reverse(\"billing_info\"), REMOTE_ADDR=\"85.214.132.117\"\n )\n self.assertEqual(response.status_code, 200)\n self.assertContains(\n response, '<option value=\"DE\" selected>Germany</option>', html=True\n )",
"def select_pay_conversion(fy_select, pay_norm, view_select) -> int:\n\n st.sidebar.markdown('### Select pay rate conversion:')\n conversion_select = st.sidebar.selectbox('', PAY_CONVERSION, index=0)\n if conversion_select == 'Hourly':\n if view_select != 'Trends':\n pay_norm = FISCAL_HOURS[fy_select] # Number of hours per FY\n else:\n pay_norm = 2080 # Number of hours per FY\n\n return pay_norm",
"def __create_country_dropdown(self):\n return dcc.Dropdown(\n id=\"dd_country\",\n options=self.data_reader.get_country_options(),\n value=\"Canada\",\n )",
"def test_clean_country_flag(self):\n # country_flag = self.cleaned_data.get('country_flag', None)\n # field = self.fields.get(self.country_field_name, None)\n # if not field and hasattr(self, 'computed_fields'):\n # field = self.computed_fields.get(self.country_field_name, None)\n # if field.initial == self.cleaned_data.get(self.country_field_name, None)\n pass"
] | [
"0.75141954",
"0.6799222",
"0.6401856",
"0.63813007",
"0.63568544",
"0.6286042",
"0.5982292",
"0.5952481",
"0.5724002",
"0.56262624",
"0.55742645",
"0.55550957",
"0.5478644",
"0.5472501",
"0.54625916",
"0.5436547",
"0.542683",
"0.5413746",
"0.5403072",
"0.53684044",
"0.5340469",
"0.53246045",
"0.5302012",
"0.52873707",
"0.5274976",
"0.5256814",
"0.51894945",
"0.5144174",
"0.51298964",
"0.512715"
] | 0.7616693 | 0 |
Implementing is country column present in view price list details ref rates page functionality | def is_country_column_present_in_view_price_list_details_ref_rates_page(self):
return self.is_specific_column_present(self.vendor_price_list_detail_reference_rates_grid_div_id, self.column_name_country) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def is_country_column_present_in_view_price_list_details_rate_page(self):\n return self.is_specific_column_present(self.vendor_price_list_detail_rates_grid_div_id, self.column_name_country)",
"def is_country_selection_criteria_field_present_in_view_price_list_details_ref_rates_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_ref_rates_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_view_price_list_details_rate_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_details_rate_page_div_id, self.country_label_name)",
"def is_country_column_present_in_view_price_list_details_dialed_digits_page(self):\n return self.is_specific_column_present(self.vendor_price_list_detail_dial_digits_grid_div_id, self.column_name_country)",
"def is_country_column_present_in_vendor_profile_page(self):\n return self.is_specific_column_present(self.rates_grid_div_id, self.column_name_country)",
"def is_country_column_present_in_compare_price_list_pop_up(self):\n return self.is_specific_column_present(self.compare_price_list_rate_grid_div_id, self.column_name_country)",
"def is_country_selection_criteria_field_present_in_view_price_list_details_dialed_digits_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_dialed_digits_page_div_id, self.country_label_name)",
"def is_country_column_present_in_re_analysis_page(self):\n return self.is_specific_column_present(self.re_analysis_grid_div_id, self.column_name_country)",
"def country(request):\n class Results(object):\n\n def __init__(self, cc):\n self.cc = cc\n self.registered = 0\n self.dns = 0\n self.dnf = 0\n \n def add_rider(self, rider):\n self.registered += 1\n\n if rider.dns:\n self.dns += 1\n\n if rider.dnf:\n self.dnf += 1\n\n def finish_rate(self):\n \n rate = 100*(self.registered-self.dns-self.dnf)/(self.registered-self.dns)\n return rate\n\n results = {}\n for rider in models.Rider.objects.all():\n cc = rider.country.code\n results[cc] = results.get(cc, Results(cc))\n results[cc].add_rider(rider)\n\n results = results.values()\n sort = request.GET.get('sort', 'country')\n\n if sort == \"country\":\n results.sort(key=lambda x: x.cc)\n elif sort == \"registered\":\n results.sort(key=lambda x: x.registered, reverse=True)\n elif sort == \"rate\":\n results.sort(key=lambda x: x.registered, reverse=True)\n results.sort(key=lambda x: x.finish_rate(), reverse=True)\n\n total_registered = sum([r.registered for r in results])\n total_dns = sum([r.dns for r in results])\n total_dnf = sum([r.dnf for r in results])\n overall_finish_rate = 100 * (total_registered-total_dns-total_dnf)/(total_registered-total_dns)\n\n template = env.get_template(\"country.html\")\n rendered = template.render(dict(results=results,\n country_names=countries.OFFICIAL_COUNTRIES,\n registered=total_registered,\n total_dns=total_dns,\n total_dnf=total_dnf,\n overall_finish_rate=overall_finish_rate,\n ))\n\n return HttpResponse(rendered)",
"def _feature_country_process(self):\n if 'Country' not in self._df_invoice_line.columns:\n return\n\n list_countries_keep = ['United Kingdom']\n rows_before = self._df_invoice_line.shape[0]\n \n df_invoice_line_new = pd.DataFrame()\n for country in list_countries_keep : \n df_invoice_line_new = df_invoice_line_new.append(\\\n self._df_invoice_line[self._df_invoice_line['Country']==country]\\\n , ignore_index=True)\n\n self.df_invoice_line = df_invoice_line_new\n del(df_invoice_line_new)\n \n rows_after = self._df_invoice_line.shape[0] \n _print_stat_rows(\"Countries filtering : \",rows_before, rows_after)\n\n \n #-------------------------------------------------------------------------\n # Due to the fact only one country is used, then this feature is dropped\n #-------------------------------------------------------------------------\n list_col_to_keep = [col for col in self._df_invoice_line.columns \\\n if col not in 'Country']\n \n self._df_invoice_line = self._df_invoice_line[list_col_to_keep] \n\n return",
"def test_on_post_display_local_to_foreign(self):\n # data.get('country_flag', None)\n # address_display_version = 'foreign' if country_flag else 'local'\n # form.set_alt_data(name='country_display', field=self.fields['country_display'], value=address_display_version)\n pass",
"def is_country_column_present_in_vendor_profile_dialed_digits_page(self):\n return self.is_specific_column_present(self.dialed_digits_grid_div_id, self.column_name_country)",
"def is_country_selection_criteria_field_present_in_re_analysis_page(self):\n return self.is_specific_selection_criteria_filter_present(self.re_analysis_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_compare_price_list_pop_up(self):\n return self.is_specific_selection_criteria_filter_present(self.compare_price_list_pop_up_div_id, self.country_label_name)",
"def country(self):\n return self.status.place['country']",
"def test_on_post_display_foreign_to_local(self):\n # data.get('country_flag', None)\n # address_display_version = 'foreign' if country_flag else 'local'\n # form.set_alt_data(name='country_display', field=self.fields['country_display'], value=address_display_version)\n pass",
"def country_flag(country):\n\tif not country:\n\t\treturn u''\n\tresult = Country.objects.filter(name__icontains=country)\n\tif result:\n\t\tc = result[0]\n\t\tiso = c.iso\n\t\tflag_location = iso_flag(iso)\n\t\treturn flag_location\n\treturn u''",
"def test_on_post_display_foreign_to_foreign(self):\n # data.get('country_flag', None)\n # address_display_version = 'foreign' if country_flag else 'local'\n # form.set_alt_data(name='country_display', field=self.fields['country_display'], value=address_display_version)\n pass",
"def country_codes():\n\n iso_sel = [\n Freedom_short.iso_code,\n Freedom_short.year,\n Freedom_short.country,\n Freedom_short.region,\n Freedom_short.hf_score,\n Freedom_short.hf_rank,\n Freedom_short.hf_quartile,\n ]\n\n # Use Pandas to perform the sql query\n #Grab 2017 Data Only for Dropdown\n codes_stmt = db.session.query(*iso_sel).filter(Freedom_short.year == 2017).order_by(Freedom_short.iso_code).statement\n codes_df = pd.read_sql_query(codes_stmt, db.session.bind)\n\n # Return a list of the column names (sample names)\n return jsonify(list(codes_df[\"iso_code\"]))",
"def country_json(request, continent_code, country_code):\n raise Http404(\"Not implemented\")",
"def country(self):\n if \"country\" in self._prop_dict:\n return self._prop_dict[\"country\"]\n else:\n return None",
"def country(self):\n if \"country\" in self._prop_dict:\n return self._prop_dict[\"country\"]\n else:\n return None",
"def custom_rendering():\r\n countries = CountryTable(MEMORY_DATA)\r\n context = Context({'countries': countries})\r\n\r\n # automatic and manual column verbose names\r\n template = Template('{% for column in countries.columns %}{{ column }}/'\r\n '{{ column.name }} {% endfor %}')\r\n result = ('Name/name Capital/capital Population Size/population '\r\n 'Phone Ext./calling_code ')\r\n assert result == template.render(context)\r\n\r\n # row values\r\n template = Template('{% for row in countries.rows %}{% for value in row %}'\r\n '{{ value }} {% endfor %}{% endfor %}')\r\n result = ('Germany Berlin 83 49 France — 64 33 Netherlands Amsterdam '\r\n '— 31 Austria — 8 43 ')\r\n assert result == template.render(context)",
"def getActiveCurrency():",
"def country() -> str:",
"def onchange_country(self):\n if self.country_id and self.country_id.code == 'SA':\n self.is_saudi = True\n else:\n self.is_saudi = False",
"def is_country_selection_criteria_field_present_in_vendor_profile_dialed_digits_page(self):\n return self.is_specific_selection_criteria_filter_present(self.vendor_profile_dialed_digits_page_div_id, self.country_label_name)",
"def country(self) -> Optional[str]:\n return pulumi.get(self, \"country\")",
"def country(self) -> Optional[str]:\n return pulumi.get(self, \"country\")",
"def country(self):\n return self._country"
] | [
"0.76935786",
"0.69653654",
"0.6872103",
"0.67430085",
"0.6449281",
"0.64297163",
"0.6261807",
"0.6077136",
"0.5807377",
"0.5786248",
"0.5721656",
"0.57059026",
"0.5661507",
"0.5642859",
"0.55879855",
"0.55677253",
"0.5558022",
"0.554037",
"0.55348706",
"0.552789",
"0.5523701",
"0.5523701",
"0.5481808",
"0.5443704",
"0.5435136",
"0.5360871",
"0.53399915",
"0.5331813",
"0.5331813",
"0.5318266"
] | 0.77434576 | 0 |
Implementing select reference rates tab functionality | def select_reference_rates_tab(self):
self.select_static_tab(self.reference_rates_tab_locator, True) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def select_rates_tab(self):\n self.select_static_tab(self.rates_tab_locator, True)",
"def select_vendor_price_list_detail_reference_rates_tab(self):\n self.click_element(self.vendor_price_list_details_reference_rates_tab_locator, True)",
"def set_rate_plan(self, item_name):\n self.single_selection_from_kendo_dropdown(self.rate_plan_kendo_dropdown_locator, item_name)",
"def RateSelect(self):\n\t\treturn self._get_attribute('rateSelect')",
"def _fill_rateform(rf, value):\n fill(rf.rate_loc, value[0])\n fill(rf.unit_select_loc, sel.ByValue(value[1]))",
"def tabSelected(self):",
"def tabSelected(self):",
"def getActiveCurrencies():",
"def cb_radio(label):\n global pm_rate\n rate_dict = {'0.2 Step': 0.2, '1.0 Step': 1.0}\n pm_rate = rate_dict[label]",
"def click_reference_rates_show_search_form_link(self):\n self.click_element(self.reference_rates_show_search_form_link_locator)",
"def get_reference_rates_tab_analyzed_rate(self):\n return self.get_text_from_element(self.reference_rates_tab_analyzed_tab_column_locator)",
"def rates(self):\n raise NotImplementedError(\"Must be implemented by subclass.\")",
"def on_CurrentradioButton_clicked(self):\n # TODO: not implemented yet\n # raise NotImplementedError\n print(\"Select current cash deposit. If you select it, cash will be released after 7 days\")\n self.select_actor = \"Month0\"",
"def getActiveCurrency():",
"def select_pay_conversion(fy_select, pay_norm, view_select) -> int:\n\n st.sidebar.markdown('### Select pay rate conversion:')\n conversion_select = st.sidebar.selectbox('', PAY_CONVERSION, index=0)\n if conversion_select == 'Hourly':\n if view_select != 'Trends':\n pay_norm = FISCAL_HOURS[fy_select] # Number of hours per FY\n else:\n pay_norm = 2080 # Number of hours per FY\n\n return pay_norm",
"def set_current_rate(self, rate_to_set):\n pass",
"def presolve_for_rates_set():\n global typevar\n global entrs\n global Rwind\n Rwind=tkinter.Toplevel()\n Rwind.title('__set_h__') \n R_name=tkinter.Label(Rwind, height = 2, text=' Enter list of rates to vary', font='arial 9 bold')\n R_name.grid(row=1, column = 1, columnspan = 2)\n ## entry for rates\n klist = tkinter.StringVar(Rwind, value='')\n klistent = tkinter.Entry(Rwind, width = 35, textvariable = klist)\n klistent.grid(row=2, column=1, columnspan = 4)\n ## min/max vals and N steps\n minvallab, maxvallab = tkinter.Label(Rwind, height = 1, text='min *', font='arial 9 bold'), tkinter.Label(Rwind, height = 1, text='max *', font='arial 9 bold')\n minval, maxval = tkinter.StringVar(Rwind, value=-3), tkinter.StringVar(Rwind, value=1)\n minvalent, maxvalent = tkinter.Entry(Rwind, width = 7, textvariable = minval), tkinter.Entry(Rwind, width = 7, textvariable = maxval)\n minvallab.grid(row=3, column=1)\n maxvallab.grid(row=3, column=2, sticky = 'w')\n minvalent.grid(row=4, column=1)\n maxvalent.grid(row=4, column=2, sticky = 'w')\n #\n nsteplab = tkinter.Label(Rwind, height = 1, text='N steps', font='arial 9 bold')\n nsteps = tkinter.StringVar(Rwind, value = 20)\n nstepent = tkinter.Entry(Rwind, width = 6, textvariable = nsteps)\n nsteplab.grid(row=3, column = 3, sticky = 'w')\n nstepent.grid(row=4, column = 3, sticky = 'w')\n ###\n ## space type\n typevar=tkinter.StringVar(Rwind, value='log')\n type_log=tkinter.Radiobutton(Rwind, variable=typevar, value= 'log', text='log', height=2, highlightthickness=0)\n type_lin=tkinter.Radiobutton(Rwind, variable=typevar, value= 'lin', text='lin', height=2, highlightthickness=0)\n type_log.grid(row = 3, column = 4)\n type_lin.grid(row = 4, column = 4)\n ### parse vars and start calculations\n #\n solvbut = tkinter.Button(Rwind, width=5,bg='wheat',text='solve', font='arial 10 bold',command=lambda *args: presove_for_rates_run(all_kfs, klist.get().strip().split(', '), int(nsteps.get()), float(minval.get()), float(maxval.get()), typevar.get()), bd=1)\n solvbut.grid(row=6, column=2, columnspan = 2)",
"def set_rate_catalog(self, rate_catalog):\n self.single_selection_from_kendo_dropdown(self.rate_catalog_kendo_dropdown_locator, rate_catalog)",
"def on_chosen_currency(self):\n main_currency_title = self.choose_currency.currentText()\n # the string needs to be modified to be compatible with the database values\n main_currency = main_currency_title.replace(\" \", \"_\").lower()\n relation_currency = self.choose_relation_currency.currentText().replace(\" \", \"_\").lower()\n # graph\n if len(load_all(main_currency)) < 2:\n gui_warnings.on_loading_values()\n else:\n try:\n canvas = Canvas(relation_currency, self)\n canvas.plot(main_currency)\n except ValueError:\n pass # plots empty graph if main_currency = relation_currency\n self.clear_graph_layout(self.graph_layout)\n self.graph_layout.addWidget(canvas)\n # title\n self.gui_title.setText(main_currency_title)\n # table\n self.currency_table.setRowCount(0)\n currency_list = [\n \"Brazilian Real\",\n \"American Dollar\",\n \"European Euro\",\n \"British Pound\",\n \"Japanese Yen\",\n \"Swiss Frank\",\n \"Canadian Dollar\",\n \"Australian Dollar\"\n ]\n for currency in currency_list:\n temp = currency_list[currency_list.index(currency)]\n currency_list[currency_list.index(currency)] = currency_list[0]\n currency_list[0] = temp\n if main_currency_title == currency:\n self.currency_table.setHorizontalHeaderLabels((*currency_list[1:], \"Date\"))\n # from https://www.youtube.com/watch?v=l2OoXj1Z2hM&t=411s\n records = enumerate(load_all(main_currency))\n for row_num, row_data in records:\n self.currency_table.insertRow(row_num)\n for column_num, data in enumerate(row_data):\n self.currency_table.setItem(\n row_num, column_num, QTableWidgetItem(str(data))\n )",
"def click_search_ref_rates_arrow_button(self):\n self.click_element(self.search_ref_rates_arrow_button_locator)",
"def switch_function_tab(self):\n fitting_func = self.ui.FittingFunc_comboBox.currentText()\n if fitting_func == \"Stretched Exponential\":\n self.ui.fitting_params_stackedWidget.setCurrentIndex(0)\n elif fitting_func == \"Double Exponential\":\n self.ui.fitting_params_stackedWidget.setCurrentIndex(1)\n elif fitting_func == \"Single Exponential\":\n self.ui.fitting_params_stackedWidget.setCurrentIndex(2)",
"def __init__(self):\n\n super().__init__()\n\n self.rates = dict()\n self.currencies = list()\n self.getData() # Fetch the data from the csv online file\n\n # Initialization of the currencies choice dropdown boxes\n self.from_currency = QComboBox()\n self.from_currency.addItems(self.currencies)\n self.to_currency = QComboBox()\n self.to_currency.addItems(self.currencies)\n\n self.from_amount = QDoubleSpinBox()\n self.from_amount.setRange(0.01, 10000000.00)\n self.from_amount.setValue(1.00)\n self.to_amount = QLabel('1.00')\n self.from_currency_label = QLabel('From Currency:')\n self.to_currency_label = QLabel('To Currency:')\n self.from_amount_label = QLabel('Amount to convert:')\n self.to_amount_label = QLabel('Result of conversion based on most recent rates:')\n\n self.from_calendar = QCalendarWidget()\n self.to_calendar = QCalendarWidget()\n self.rates_plot = pg.PlotWidget()\n self.from_date = QDate()\n self.to_date = QDate()\n self.last_clicked = \"\"\n\n hint_font = QFont()\n hint_font.setItalic(True)\n self.graph_hint = QLabel('Hint: you can interact with the graph using your mouse')\n self.graph_hint.setFont(hint_font)\n\n\n self.initUI()",
"def get_rate(parent=None):\n dialog = RateDialog(parent)\n dialog.exec_()\n rate = dialog.rate\n return rate",
"def select_adjustments_tab(self):\n self.click_element(self.adjustments_tab_locator)",
"def select_dial_digits_tab(self):\n self.click_element(self.dial_digits_tab_locator, True, True)",
"def on_chosen_relation_currency(self):\n main_currency = self.choose_currency.currentText().replace(\" \", \"_\").lower()\n relation_currency = self.choose_relation_currency.currentText().replace(\" \", \"_\").lower()\n if len(load_all(main_currency)) < 2:\n gui_warnings.on_loading_values()\n else:\n try:\n canvas = Canvas(relation_currency, self)\n canvas.plot(main_currency.replace(\" \", \"_\").lower())\n except ValueError:\n pass\n self.clear_graph_layout(self.graph_layout)\n self.graph_layout.addWidget(canvas)",
"def set_vendor_price_list_detail_reference_rates_grid_settings(self, grid_settings):\n self.wait_for_ajax_spinner_load(300)\n self.set_grid_settings(self.vendor_price_list_detail_reference_rates_grid_div_id, grid_settings)",
"def set_rates_destination(self):\n self.set_value_into_input_field(self.rates_tab_destination_textbox_locator, self.buy_page_excel_data_dictionary[\"Destination\"])",
"def updateUI(self):\n\n try:\n # Getting the values selected by the user\n from_ = self.from_currency.currentText()\n to = self.to_currency.currentText()\n from_amt = Decimal(self.getMostRecentRelevantRate(self.rates[from_]))\n to_amt = Decimal(self.getMostRecentRelevantRate(self.rates[to]))\n amt = Decimal(self.from_amount.value())\n\n # Calculating the new conversion value\n amount = (to_amt / from_amt) * amt\n self.to_amount.setText('%.02f' % amount)\n\n # Getting the dates selected by the user\n self.from_date = self.from_calendar.selectedDate().toPyDate()\n self.to_date = self.to_calendar.selectedDate().toPyDate()\n\n # Updating the graph only if something in relationship with it changes\n if self.last_clicked != 'amount':\n # Update the dates selected according to the user selection if the user selects a negative range\n if self.to_date < self.from_date:\n if self.last_clicked == 'from':\n date = self.from_calendar.selectedDate()\n self.to_calendar.setSelectedDate(date)\n self.to_date = date.toPyDate()\n else:\n date = self.to_calendar.selectedDate()\n self.from_calendar.setSelectedDate(date)\n self.from_date = date.toPyDate()\n\n # Getting and calculating the currencies rates according to the range selected by the user\n from_rates = self.getRatesInRange(self.rates[from_])\n to_rates = self.getRatesInRange(self.rates[to])\n conv_rates = self.getConvRates(from_rates, to_rates)\n\n # Getting the number of days included in the range\n nb_days = (self.to_date - self.from_date).days + 1\n date_range = range(0, nb_days)\n\n # Clearing the graph and the legend\n self.rates_plot.clear()\n self.legend.scene().removeItem(self.legend)\n self.legend = self.rates_plot.addLegend()\n\n # Updating the graph with our new values\n self.rates_plot.setXRange(0, nb_days)\n self.rates_plot.setYRange(0, max(from_rates + to_rates + conv_rates))\n self.rates_plot.plot(date_range, from_rates, pen='b', symbol='x', symbolPen='b', symbolBrush=0.2, name=from_)\n self.rates_plot.plot(date_range, to_rates, pen='r', symbol='o', symbolPen='r', symbolBrush=0.2, name=to)\n self.rates_plot.plot(date_range, conv_rates, pen='g', symbol='+', symbolPen='g', symbolBrush=0.2, name='conversion rate')\n except Exception as e:\n print('Failed to update UI')\n print(e)",
"def refreshCredit(self):\n self.mainmenu.updateCR()"
] | [
"0.73650414",
"0.7156338",
"0.60412115",
"0.59502465",
"0.58314073",
"0.5712321",
"0.5712321",
"0.5548297",
"0.5513249",
"0.545872",
"0.5421985",
"0.5417238",
"0.54055107",
"0.54032165",
"0.5380902",
"0.53548723",
"0.5351601",
"0.5341121",
"0.53196627",
"0.53186226",
"0.5272568",
"0.5265886",
"0.5189935",
"0.513224",
"0.50978386",
"0.50742847",
"0.5074137",
"0.5057245",
"0.50444645",
"0.5033752"
] | 0.78635544 | 0 |
Implementing is country selection criteria field present in compare price list pop up functionality | def is_country_selection_criteria_field_present_in_compare_price_list_pop_up(self):
return self.is_specific_selection_criteria_filter_present(self.compare_price_list_pop_up_div_id, self.country_label_name) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def is_country_selection_criteria_field_present_in_view_price_list_details_rate_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_details_rate_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_view_price_list_details_ref_rates_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_ref_rates_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_view_price_list_details_dialed_digits_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_dialed_digits_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_vendor_profile_page(self):\n return self.is_specific_selection_criteria_filter_present(self.vendor_profile_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_re_analysis_page(self):\n return self.is_specific_selection_criteria_filter_present(self.re_analysis_page_div_id, self.country_label_name)",
"def is_country_column_present_in_compare_price_list_pop_up(self):\n return self.is_specific_column_present(self.compare_price_list_rate_grid_div_id, self.column_name_country)",
"def is_country_selection_criteria_field_present_in_vendor_profile_dialed_digits_page(self):\n return self.is_specific_selection_criteria_filter_present(self.vendor_profile_dialed_digits_page_div_id, self.country_label_name)",
"def set_country_for_search(self, country_name_list):\n self.multiple_items_selection_from_kendo_dropdown(self.country_dropdown_locator, country_name_list)\n self.wait_for_ajax_spinner_load()",
"def test_on_post_display_local_to_foreign(self):\n # data.get('country_flag', None)\n # address_display_version = 'foreign' if country_flag else 'local'\n # form.set_alt_data(name='country_display', field=self.fields['country_display'], value=address_display_version)\n pass",
"def test_default_country_set(self):\n response = self.client.get(reverse(\"billing_info\"))\n self.assertEqual(response.status_code, 200)\n self.assertContains(\n response, '<option value=\"PL\" selected>Poland</option>', html=True\n )",
"def is_country_column_present_in_view_price_list_details_rate_page(self):\n return self.is_specific_column_present(self.vendor_price_list_detail_rates_grid_div_id, self.column_name_country)",
"def is_country_column_present_in_view_price_list_details_ref_rates_page(self):\n return self.is_specific_column_present(self.vendor_price_list_detail_reference_rates_grid_div_id, self.column_name_country)",
"def test_on_post_display_foreign_to_local(self):\n # data.get('country_flag', None)\n # address_display_version = 'foreign' if country_flag else 'local'\n # form.set_alt_data(name='country_display', field=self.fields['country_display'], value=address_display_version)\n pass",
"def onchange_country(self):\n if self.country_id and self.country_id.code == 'SA':\n self.is_saudi = True\n else:\n self.is_saudi = False",
"def is_country_selection_criteria_field_present_in_vendor_profile_destinations_page(self):\n return self.is_specific_selection_criteria_filter_present(self.vendor_profile_destinations_page_div_id, self.country_label_name)",
"def test_default_country_set_no_ip(self):\n response = self.client.get(reverse(\"billing_info\"))\n self.assertEqual(response.status_code, 200)\n self.assertContains(\n response, '<option value=\"PL\" selected>Poland</option>', html=True\n )",
"def test_on_post_display_foreign_to_foreign(self):\n # data.get('country_flag', None)\n # address_display_version = 'foreign' if country_flag else 'local'\n # form.set_alt_data(name='country_display', field=self.fields['country_display'], value=address_display_version)\n pass",
"def test_clean_country_flag(self):\n # country_flag = self.cleaned_data.get('country_flag', None)\n # field = self.fields.get(self.country_field_name, None)\n # if not field and hasattr(self, 'computed_fields'):\n # field = self.computed_fields.get(self.country_field_name, None)\n # if field.initial == self.cleaned_data.get(self.country_field_name, None)\n pass",
"def callback_a(radio_button_a_value, tab):\n return f'Country selected: {radio_button_a_value}'",
"def is_country_column_present_in_view_price_list_details_dialed_digits_page(self):\n return self.is_specific_column_present(self.vendor_price_list_detail_dial_digits_grid_div_id, self.column_name_country)",
"def city_country(city_name, country_name):\n city_country_combo = city_name + ', ' + country_name\n return city_country_combo.title()",
"def accept(self):\n # self.selectedoptions = [\"ID\", \"Sub district\"]\n self.selectedoptions = [\"ID\", \"District\"]\n model = self.lstLayers.model()\n for i in range(model.rowCount()):\n item = model.item(i)\n if item.checkState() == Qt.Checked:\n self.selectedoptions.append(item.text())\n QDialog.accept(self)",
"def _perContinentChoiceSelector(self, params):\n\n entity = params['entity']\n choices = soc.models.countries.COUNTRIES_TO_CONTINENT\n\n if 'fields' in params:\n fields = params['fields']\n\n for field in fields:\n entity = entity.__getattribute__(field)\n\n return choices[entity.res_country]",
"def test_default_country_by_ip(self):\n\n response = self.client.get(\n reverse(\"billing_info\"), HTTP_X_FORWARDED_FOR=\"85.214.132.117\"\n )\n self.assertEqual(response.status_code, 200)\n self.assertContains(\n response, '<option value=\"DE\" selected>Germany</option>', html=True\n )\n\n response = self.client.get(\n reverse(\"billing_info\"), REMOTE_ADDR=\"85.214.132.117\"\n )\n self.assertEqual(response.status_code, 200)\n self.assertContains(\n response, '<option value=\"DE\" selected>Germany</option>', html=True\n )",
"def findCountryCode(self):\n RecordsWithCountry = []\n for state in pycountry.subdivisions:\n #print(state.name)\n for record in self.Records: \n if state.name == record.state:\n #print(state.country, record.state)\n r = RecordCountry(date=record.date,\n country=state.country.alpha_3,\n impressions=record.impressions,\n CTR=record.CTR)\n self.Records.remove(record)\n RecordsWithCountry.append(r)\n for record in self.Records: \n r = RecordCountry(date=record.date,\n country=\"XXX\",\n impressions=record.impressions,\n CTR=record.CTR)\n RecordsWithCountry.append(r)\n self.Records = RecordsWithCountry",
"def getActiveCurrencies():",
"def test_default_country_unset(self):\n response = self.client.get(reverse(\"billing_info\"))\n self.assertEqual(response.status_code, 200)\n self.assertContains(\n response, '<option value=\"\" selected>---------</option>', html=True\n )",
"def country_hint(self, value):\n return None",
"def show_popup(self, data):\r\n store = get_store()\r\n self.ids.inlayout.rows = 1\r\n self.ids.inlayout.add_widget(CEToolBoxLabel(text=add_color(\"Conductivity :\", \"FFFFFF\")))\r\n value = round(store.get('Conductivity')[\"value\"], 2)\r\n conductivitytext = str(value)+\" \"+store.get('Conductivity')[\"unit\"]\r\n self.ids.inlayout.add_widget(CEToolBoxLabel(text=add_color(conductivitytext, \"FFFFFF\")))\r\n self.open()",
"def _feature_country_process(self):\n if 'Country' not in self._df_invoice_line.columns:\n return\n\n list_countries_keep = ['United Kingdom']\n rows_before = self._df_invoice_line.shape[0]\n \n df_invoice_line_new = pd.DataFrame()\n for country in list_countries_keep : \n df_invoice_line_new = df_invoice_line_new.append(\\\n self._df_invoice_line[self._df_invoice_line['Country']==country]\\\n , ignore_index=True)\n\n self.df_invoice_line = df_invoice_line_new\n del(df_invoice_line_new)\n \n rows_after = self._df_invoice_line.shape[0] \n _print_stat_rows(\"Countries filtering : \",rows_before, rows_after)\n\n \n #-------------------------------------------------------------------------\n # Due to the fact only one country is used, then this feature is dropped\n #-------------------------------------------------------------------------\n list_col_to_keep = [col for col in self._df_invoice_line.columns \\\n if col not in 'Country']\n \n self._df_invoice_line = self._df_invoice_line[list_col_to_keep] \n\n return"
] | [
"0.7297283",
"0.7223055",
"0.688413",
"0.6327352",
"0.6315461",
"0.627286",
"0.62053317",
"0.59496826",
"0.57748353",
"0.5768479",
"0.56948745",
"0.5651564",
"0.55750716",
"0.55743515",
"0.55244505",
"0.547531",
"0.5460914",
"0.54310465",
"0.53528655",
"0.5348328",
"0.53450745",
"0.5339357",
"0.53134143",
"0.5231874",
"0.5224418",
"0.521808",
"0.52147704",
"0.5181769",
"0.5157877",
"0.5147397"
] | 0.74599653 | 0 |
Implementing is country column present in compare price list pop up functionality | def is_country_column_present_in_compare_price_list_pop_up(self):
return self.is_specific_column_present(self.compare_price_list_rate_grid_div_id, self.column_name_country) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def is_country_column_present_in_view_price_list_details_rate_page(self):\n return self.is_specific_column_present(self.vendor_price_list_detail_rates_grid_div_id, self.column_name_country)",
"def is_country_column_present_in_view_price_list_details_ref_rates_page(self):\n return self.is_specific_column_present(self.vendor_price_list_detail_reference_rates_grid_div_id, self.column_name_country)",
"def is_country_selection_criteria_field_present_in_compare_price_list_pop_up(self):\n return self.is_specific_selection_criteria_filter_present(self.compare_price_list_pop_up_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_view_price_list_details_rate_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_details_rate_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_view_price_list_details_ref_rates_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_ref_rates_page_div_id, self.country_label_name)",
"def is_country_column_present_in_view_price_list_details_dialed_digits_page(self):\n return self.is_specific_column_present(self.vendor_price_list_detail_dial_digits_grid_div_id, self.column_name_country)",
"def is_country_column_present_in_vendor_profile_page(self):\n return self.is_specific_column_present(self.rates_grid_div_id, self.column_name_country)",
"def is_country_selection_criteria_field_present_in_view_price_list_details_dialed_digits_page(self):\n return self.is_specific_selection_criteria_filter_present(self.view_price_list_dialed_digits_page_div_id, self.country_label_name)",
"def is_country_column_present_in_re_analysis_page(self):\n return self.is_specific_column_present(self.re_analysis_grid_div_id, self.column_name_country)",
"def is_country_column_present_in_vendor_profile_dialed_digits_page(self):\n return self.is_specific_column_present(self.dialed_digits_grid_div_id, self.column_name_country)",
"def is_country_selection_criteria_field_present_in_vendor_profile_page(self):\n return self.is_specific_selection_criteria_filter_present(self.vendor_profile_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_re_analysis_page(self):\n return self.is_specific_selection_criteria_filter_present(self.re_analysis_page_div_id, self.country_label_name)",
"def is_country_selection_criteria_field_present_in_vendor_profile_dialed_digits_page(self):\n return self.is_specific_selection_criteria_filter_present(self.vendor_profile_dialed_digits_page_div_id, self.country_label_name)",
"def test_on_post_display_local_to_foreign(self):\n # data.get('country_flag', None)\n # address_display_version = 'foreign' if country_flag else 'local'\n # form.set_alt_data(name='country_display', field=self.fields['country_display'], value=address_display_version)\n pass",
"def compare_vendor_price_list_detail_rates_grid_rate(self):\n self.buy_page_excel_data_dictionary = self.get_excel_data_dictionary()\n is_compared = False\n rates_grid_rate_column_element = self.wait().until(EC.presence_of_element_located(self.rates_grid_rate_column_locator))\n if self.buy_page_excel_data_dictionary[\"Rate1\"] == (rates_grid_rate_column_element.text).strip():\n is_compared = True\n return is_compared",
"def test_on_post_display_foreign_to_local(self):\n # data.get('country_flag', None)\n # address_display_version = 'foreign' if country_flag else 'local'\n # form.set_alt_data(name='country_display', field=self.fields['country_display'], value=address_display_version)\n pass",
"def get_vendor_price_lists_details(self):\n try:\n self.vendor_price_lists_dict = self.get_grid_row_details(self.customer_price_list_grid_div_id, self.vendor_price_lists_dict)\n return True\n except:\n return False",
"def country_codes():\n\n iso_sel = [\n Freedom_short.iso_code,\n Freedom_short.year,\n Freedom_short.country,\n Freedom_short.region,\n Freedom_short.hf_score,\n Freedom_short.hf_rank,\n Freedom_short.hf_quartile,\n ]\n\n # Use Pandas to perform the sql query\n #Grab 2017 Data Only for Dropdown\n codes_stmt = db.session.query(*iso_sel).filter(Freedom_short.year == 2017).order_by(Freedom_short.iso_code).statement\n codes_df = pd.read_sql_query(codes_stmt, db.session.bind)\n\n # Return a list of the column names (sample names)\n return jsonify(list(codes_df[\"iso_code\"]))",
"def checkState(self, state, country):\n if country == 'US':\n # US_STATES is tuple of tuples like (('KY', 'Kentucky'), ...)\n states = [s[0] for s in US_STATES]\n# elif:\n # TODO other countries for which localflavor submodules exist\n else:\n return True # No local flavor data to use \n return state in states",
"def _feature_country_process(self):\n if 'Country' not in self._df_invoice_line.columns:\n return\n\n list_countries_keep = ['United Kingdom']\n rows_before = self._df_invoice_line.shape[0]\n \n df_invoice_line_new = pd.DataFrame()\n for country in list_countries_keep : \n df_invoice_line_new = df_invoice_line_new.append(\\\n self._df_invoice_line[self._df_invoice_line['Country']==country]\\\n , ignore_index=True)\n\n self.df_invoice_line = df_invoice_line_new\n del(df_invoice_line_new)\n \n rows_after = self._df_invoice_line.shape[0] \n _print_stat_rows(\"Countries filtering : \",rows_before, rows_after)\n\n \n #-------------------------------------------------------------------------\n # Due to the fact only one country is used, then this feature is dropped\n #-------------------------------------------------------------------------\n list_col_to_keep = [col for col in self._df_invoice_line.columns \\\n if col not in 'Country']\n \n self._df_invoice_line = self._df_invoice_line[list_col_to_keep] \n\n return",
"def test_top_country(self):\n tabular_format_countries_list = [['Canada', 66, '20'], ['United States', 33, '10']]\n\n result = InstallationStatistics.get_statistics_top_country(tabular_format_countries_list)\n\n self.assertEqual('Canada', result)",
"def test_on_post_display_foreign_to_foreign(self):\n # data.get('country_flag', None)\n # address_display_version = 'foreign' if country_flag else 'local'\n # form.set_alt_data(name='country_display', field=self.fields['country_display'], value=address_display_version)\n pass",
"def onchange_country(self):\n if self.country_id and self.country_id.code == 'SA':\n self.is_saudi = True\n else:\n self.is_saudi = False",
"def test_clean_country_flag(self):\n # country_flag = self.cleaned_data.get('country_flag', None)\n # field = self.fields.get(self.country_field_name, None)\n # if not field and hasattr(self, 'computed_fields'):\n # field = self.computed_fields.get(self.country_field_name, None)\n # if field.initial == self.cleaned_data.get(self.country_field_name, None)\n pass",
"def pays():\r\n df = ouvrir_fichier()\r\n choix_pays = set(df['country'].tolist())\r\n return choix_pays",
"def test_default_country_set(self):\n response = self.client.get(reverse(\"billing_info\"))\n self.assertEqual(response.status_code, 200)\n self.assertContains(\n response, '<option value=\"PL\" selected>Poland</option>', html=True\n )",
"def __top_countries_and_companies(self, df):\n\t\tself.top_countries = set(self.__top_prod_countries(df, self.number_of_countries))\n\t\tself.top_companies = set(self.__top_prod_companies(df, self.number_of_companies))\n\t\tdf['is_top_prod'] = df['production_companies'].apply(\n\t\t\tlambda x: 1 if len(set(x).intersection(self.top_companies)) >= 1 else 0)\n\t\tfor country in self.top_countries:\n\t\t\tdf[country] = df['production_countries'].apply(lambda x: 1 if country in x else 0)\n\t\treturn df",
"def is_country_column_present_in_vendor_profile_destinations_page(self):\n return self.is_specific_column_present(self.destinations_grid_div_id, self.column_name_country)",
"def findCountryCode(self):\n RecordsWithCountry = []\n for state in pycountry.subdivisions:\n #print(state.name)\n for record in self.Records: \n if state.name == record.state:\n #print(state.country, record.state)\n r = RecordCountry(date=record.date,\n country=state.country.alpha_3,\n impressions=record.impressions,\n CTR=record.CTR)\n self.Records.remove(record)\n RecordsWithCountry.append(r)\n for record in self.Records: \n r = RecordCountry(date=record.date,\n country=\"XXX\",\n impressions=record.impressions,\n CTR=record.CTR)\n RecordsWithCountry.append(r)\n self.Records = RecordsWithCountry",
"def binarize_production_countries(df):\n df['production_countries'] = df['production_countries'].apply(lambda x: get_literal_eval(x))\n countries = {\n 'United States of America': 'usa',\n 'United Kingdom': 'uk',\n 'France': 'france'\n }\n\n for country, short in countries.iteritems():\n df['prod_{}'.format(short)] = df['production_countries'].apply(lambda x: 1 if country in x else 0)\n\n def check_other(prod_countries):\n for c in prod_countries:\n if c not in countries:\n return 1\n return 0\n\n df['prod_other'] = df['production_countries'].apply(check_other)\n\n return df"
] | [
"0.719618",
"0.71424043",
"0.71195227",
"0.6913383",
"0.686165",
"0.6684673",
"0.66132224",
"0.65688515",
"0.60993725",
"0.5981732",
"0.59183455",
"0.5900235",
"0.5840328",
"0.5736276",
"0.56583965",
"0.5596312",
"0.55294955",
"0.55274665",
"0.55097234",
"0.54713756",
"0.54687387",
"0.5437563",
"0.5410364",
"0.5376396",
"0.5374745",
"0.535458",
"0.5332809",
"0.5322637",
"0.53198963",
"0.53135496"
] | 0.7796664 | 0 |
Implementing select mcc mnc tab functionality | def select_mcc_mnc_tab(self):
self.select_static_tab(self.mcc_mnc_tab_locator, True) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def tabSelected(self):",
"def tabSelected(self):",
"def pressMCV(self):\n\t\t\n\t\tm_name = self.ui.findChild(QWidget, \"m_name\")\n\t\tm_name.setText(\"Motorinen neurografia\")\n\t\t\n\t\tprint \"MCV button pressed\"\t\t\n\t\t# update graph and distribution\n\t\t# o set parameters to defaults (length, sd, medianus T)\n\t\t# o clear regression checkbox\n\t\t# o draw the MCV verrokki graph and distribution (set graph as default tab)\n\t\t\n\t\t# set comboboxes back to the default state \n\t\t# Default: summary of the patient MCV data\n\t\tif self.patient_chosen:\n\t\t\tprint \"showing patient MCV data\"\t\t\n\t\t\n\t\tself.current_measurement = \"MCV\"\n\t\treturn",
"def varTabChange(*args):\n tab = cmds.tabLayout(widgets[\"anmLgtTLO\"], q=True, st=True)\n if tab == \"ANM\":\n cmds.tabLayout(widgets[\"shotActionTypeTLO\"], e=True, st=\"Anm\")\n if tab == \"LGT\":\n cmds.tabLayout(widgets[\"shotActionTypeTLO\"], e=True, st=\"Lgt\")\n if tab == \"FX\":\n cmds.tabLayout(widgets[\"shotActionTypeTLO\"], e=True, st=\"Fx\")",
"def __selectMS(self):\n \n if self._msTool is None:\n self._msTool = mstool()\n self._msTool.open(self._arg['vis']) \n else:\n self._msTool.reset()\n \n # It returns a dictionary if there was any selection otherwise None\n self.__selectionFilter = self.__getSelectionFilter()\n\n if self.__selectionFilter is not None:\n self._msTool.msselect(self.__selectionFilter)",
"def tabSelected(self):\r\n self.transactionMenuWidget.tabSelected()",
"def select_tab(self, selected_tab):\r\n for tab in self.tabs:\r\n if tab == selected_tab:\r\n tab.selected = True\r\n else:\r\n tab.selected = False",
"async def select_cmode(self, cmode: str) -> None:\n await self._projector.send_command(CMODE_LIST_SET[cmode])",
"async def connect_to_tab(self) -> None:",
"def select_qos_tab(self):\n self.click_element(self.qos_tab_locator, True)",
"def dlgMM(parser, args):\n dlgCompositeManager(parser, args, MasterManager, 'MM', MASTER_DEFAULT_REST_PORT, MasterManagerRestServer)",
"def OnSwitchTab(self, event):\n canvas_HDV = self.dicom_navigation.parent.dicom_right_window.top_info.canvas_HDV\n canvas_dicom = self.dicom_navigation.parent.dicom_right_window.top_info.canvas_dicom\n \n if (self.dicom_navigation.display_settings['miniature'] == 1):\n canvas_HDV.get_tk_widget().pack_forget()\n canvas_dicom.get_tk_widget().pack(side=tk.RIGHT, fill=tk.Y, expand=False)\n # Tricky hack pour ne pas avoir le probleme de zoom lorsqu'on met les mignatures (on retrace les canvas initiaux)\n self.dicom_navigation.parent.dicom_right_window.dicom_hdv.canvas.get_tk_widget().update_idletasks()\n self.dicom_navigation.parent.dicom_right_window.dicom_view.canvas.get_tk_widget().update_idletasks()",
"def OnTabSelected(self, event):\r\n \r\n if self._masterManager:\r\n self._masterManager.OnTabSelected(event)\r\n return\r\n \r\n obj = event.GetEventObject()\r\n\r\n if obj and isinstance(obj, auibook.AuiNotebook):\r\n \r\n notebook = obj\r\n page = notebook.GetPage(event.GetSelection())\r\n paneInfo = self.GetPane(page)\r\n\r\n if paneInfo.IsOk():\r\n notebookRoot = GetNotebookRoot(self._panes, paneInfo.notebook_id)\r\n if notebookRoot:\r\n \r\n notebookRoot.Caption(paneInfo.caption)\r\n self.RefreshCaptions()\r\n \r\n event.Skip()",
"def care_color_membrane(selection='all'):\n membrane = \"{} and (resn CHL or resn LA or resn MY or resn OL or resn PA \\\n or resn PC or resn PE or resn POPC)\".format(selection)\n water = \"{} and solvent\".format(selection)\n ions = \"{} and (resn 'K*' or resn 'Cl*' or resn 'Na*')\".format(selection)\n cmd.color(\"gray50\", membrane)\n cmd.select(\"{}_memb\".format(selection), membrane)\n cmd.select(\"{}_water\".format(selection), water)\n cmd.select(\"{}_ions\".format(selection), ions)\n util.cnc(selection)",
"def select_disputes_tab(self):\n self.click_element(self.disputes_tab_locator)",
"def cmnd_stage():\n pass",
"def OnTabClicked(self, event):\r\n\r\n if self._textCtrl is not None:\r\n self._textCtrl.StopEditing()\r\n \r\n ctrl = event.GetEventObject()\r\n assert ctrl != None\r\n\r\n wnd = ctrl.GetWindowFromIdx(event.GetSelection())\r\n assert wnd != None\r\n\r\n self.SetSelectionToWindow(wnd)",
"def on_Fixed3MradioButton_clicked(self):\n # TODO: not implemented yet\n # raise NotImplementedError\n print(\"Select 3 Month cash fixed deposit.\")\n self.select_actor = \"Month3\"",
"def hook_frame_selected(self):",
"def select_action(self):\n pass",
"def selectAndUpdateDefinedVarTab(self, tabName, cdmsFile, var):\n if (not self.tabExists(tabName)):\n raise NameError(\"Error: tab '%s' was not found\" % tabName)\n\n tabIndex = self.getTabIndexFromName(tabName)\n self.setCurrentIndex(tabIndex)\n\n if (tabName == 'quickplot'):\n axisList = QAxisList(cdmsFile, var, self) \n self.setupQuickplotTab(axisList)\n axisList.setupVariableAxes()\n else:\n axisList = self.currentWidget()\n axisList.setupVariableAxes()\n\n self.emit(QtCore.SIGNAL('updateVarInfo'), axisList)",
"def startSelectedMode(self):\n selectedBtn = self.buttons_group.checkedButton()\n if selectedBtn is None:\n QMessageBox.information(self, 'Attention', 'Aucun mode selectionné.\\n'\n 'Vous devez choisir un mode avant de le lancer.')\n return\n\n user = self.mainwindow.currentUser\n try:\n widget = selectedBtn.constructor(user.get_mode(selectedBtn.id))\n except:\n widget = selectedBtn.constructor(None)\n widget.closeRequested.connect(self.closeWidget)\n\n self.mainwindow.setWindowTitle(\"Consmaster\" +\n ' [' + selectedBtn.text().replace('\\n', '') + ']')\n\n self.mainwindow.central_widget.addWidget(widget)\n self.mainwindow.central_widget.setCurrentWidget(widget)",
"def select(self):\r\n pass",
"def select_info_tab(self):\n self.click_submenu_entry(\"Info\")\n time.sleep(2)\n self.wait_for_ajax()",
"def selectChannel(self,asic,chan, hsmode= 1 ):\n pass",
"def test_click_MonthOptions(self):\n self.tc_id = \"Ts_015\"\n self.tc_desc = \"Verify user is able to click Location types\"\n self.tc_step = \"TC Start\"\n\n clickLocationTypes = clickMonthOptions(self.driver)\n\n self.tc_step = \"Launch the url\"\n clickLocationTypes.launchUrl(\"https://massdtaiot.com/dtahip/\")\n self.tc_step = \"Select all cities\"\n clickLocationTypes.allcities()\n self.tc_step = \"Click the HIP CSA filter\"\n clickLocationTypes.clickMonthOption()\n clickLocationTypes.unselectMonthOptions()",
"def init_tab(self):",
"def select_line_item_mapping_tab(self):\n self.click_element(self.line_item_mapping_tab_locator)",
"def on_Fixed1MradioButton_clicked(self):\n # TODO: not implemented yet\n # raise NotImplementedError\n print(\"Select 6 Month cash fixed deposit. If you select it, cash will be released after 6 month\")\n self.select_actor = \"Month1\"",
"def on_Fixed12Mradiobutton_clicked(self):\n # TODO: not implemented yet\n # raise NotImplementedError\n print(\"Select 6 Month cash fixed deposit. If you select it, cash will be released after 6 month\")\n self.select_actor = \"Month12\""
] | [
"0.6304856",
"0.6304856",
"0.56283164",
"0.54911035",
"0.54896456",
"0.5447759",
"0.5379527",
"0.53107405",
"0.5279159",
"0.5276944",
"0.5238461",
"0.52207434",
"0.521924",
"0.520028",
"0.51659185",
"0.5151261",
"0.5133854",
"0.5075717",
"0.5041095",
"0.5027785",
"0.5021146",
"0.49923912",
"0.4989126",
"0.49889666",
"0.49850452",
"0.49717686",
"0.49556118",
"0.49512208",
"0.49473137",
"0.49087608"
] | 0.8315985 | 0 |
Implementing click search mcc mnc arrow button functionality | def click_search_mcc_mnc_arrow_button(self):
self.click_element(self.search_mcc_mnc_arrow_button_locator) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def on_searchButton_clicked(self):\n self.__search()",
"def on_buttonBox_clicked(self, button):\n if button == self.findButton:\n self.__doSearch()\n elif button == self.stopButton:\n self.__stopSearch()",
"def click_search_button(self):\n self.click_element(self.generic_search_button_locator)",
"def onSearch(self):\n self.mainGrid.showSearchPopup()\n self.popupActive = True",
"def search_btn_clicked(self, widget, data=None):\n # Method to handle search here.\n search_text = self.get_text(\"txt_search\")\n print search_text",
"def click_search_dialed_digits_arrow_button(self):\n self.click_element(self.search_dialed_digits_arrow_button_locator)",
"def click(self):\r\n pass",
"def click_inbound_statement_search_button(self):\n self.click_element(self.page_header_locator)\n self.click_element(self.inbound_statement_search_button_locator, True)",
"def __initSearchActions(self):\n self.searchActGrp = createActionGroup(self)\n \n self.searchAct = E5Action(\n QCoreApplication.translate('ViewManager', 'Search'),\n UI.PixmapCache.getIcon(\"find.png\"),\n QCoreApplication.translate('ViewManager', '&Search...'),\n QKeySequence(QCoreApplication.translate(\n 'ViewManager', \"Ctrl+F\", \"Search|Search\")),\n 0,\n self.searchActGrp, 'vm_search')\n self.searchAct.setStatusTip(QCoreApplication.translate(\n 'ViewManager', 'Search for a text'))\n self.searchAct.setWhatsThis(QCoreApplication.translate(\n 'ViewManager',\n \"\"\"<b>Search</b>\"\"\"\n \"\"\"<p>Search for some text in the current editor. A\"\"\"\n \"\"\" dialog is shown to enter the searchtext and options\"\"\"\n \"\"\" for the search.</p>\"\"\"\n ))\n self.searchAct.triggered.connect(self.showSearchWidget)\n self.searchActions.append(self.searchAct)\n \n self.searchNextAct = E5Action(\n QCoreApplication.translate(\n 'ViewManager', 'Search next'),\n UI.PixmapCache.getIcon(\"findNext.png\"),\n QCoreApplication.translate('ViewManager', 'Search &next'),\n QKeySequence(QCoreApplication.translate(\n 'ViewManager', \"F3\", \"Search|Search next\")),\n 0,\n self.searchActGrp, 'vm_search_next')\n self.searchNextAct.setStatusTip(QCoreApplication.translate(\n 'ViewManager', 'Search next occurrence of text'))\n self.searchNextAct.setWhatsThis(QCoreApplication.translate(\n 'ViewManager',\n \"\"\"<b>Search next</b>\"\"\"\n \"\"\"<p>Search the next occurrence of some text in the current\"\"\"\n \"\"\" editor. The previously entered searchtext and options are\"\"\"\n \"\"\" reused.</p>\"\"\"\n ))\n self.searchNextAct.triggered.connect(self.__searchNext)\n self.searchActions.append(self.searchNextAct)\n \n self.searchPrevAct = E5Action(\n QCoreApplication.translate('ViewManager', 'Search previous'),\n UI.PixmapCache.getIcon(\"findPrev.png\"),\n QCoreApplication.translate('ViewManager', 'Search &previous'),\n QKeySequence(QCoreApplication.translate(\n 'ViewManager', \"Shift+F3\", \"Search|Search previous\")),\n 0,\n self.searchActGrp, 'vm_search_previous')\n self.searchPrevAct.setStatusTip(QCoreApplication.translate(\n 'ViewManager', 'Search previous occurrence of text'))\n self.searchPrevAct.setWhatsThis(QCoreApplication.translate(\n 'ViewManager',\n \"\"\"<b>Search previous</b>\"\"\"\n \"\"\"<p>Search the previous occurrence of some text in the current\"\"\"\n \"\"\" editor. The previously entered searchtext and options are\"\"\"\n \"\"\" reused.</p>\"\"\"\n ))\n self.searchPrevAct.triggered.connect(self.__searchPrev)\n self.searchActions.append(self.searchPrevAct)\n \n self.searchClearMarkersAct = E5Action(\n QCoreApplication.translate('ViewManager', 'Clear search markers'),\n UI.PixmapCache.getIcon(\"findClear.png\"),\n QCoreApplication.translate('ViewManager', 'Clear search markers'),\n QKeySequence(QCoreApplication.translate(\n 'ViewManager', \"Ctrl+3\", \"Search|Clear search markers\")),\n 0,\n self.searchActGrp, 'vm_clear_search_markers')\n self.searchClearMarkersAct.setStatusTip(QCoreApplication.translate(\n 'ViewManager', 'Clear all displayed search markers'))\n self.searchClearMarkersAct.setWhatsThis(QCoreApplication.translate(\n 'ViewManager',\n \"\"\"<b>Clear search markers</b>\"\"\"\n \"\"\"<p>Clear all displayed search markers.</p>\"\"\"\n ))\n self.searchClearMarkersAct.triggered.connect(\n self.__searchClearMarkers)\n self.searchActions.append(self.searchClearMarkersAct)\n \n self.searchNextWordAct = E5Action(\n QCoreApplication.translate(\n 'ViewManager', 'Search current word forward'),\n UI.PixmapCache.getIcon(\"findWordNext.png\"),\n QCoreApplication.translate(\n 'ViewManager', 'Search current word forward'),\n QKeySequence(QCoreApplication.translate(\n 'ViewManager',\n \"Ctrl+.\", \"Search|Search current word forward\")),\n 0,\n self.searchActGrp, 'vm_search_word_next')\n self.searchNextWordAct.setStatusTip(QCoreApplication.translate(\n 'ViewManager',\n 'Search next occurrence of the current word'))\n self.searchNextWordAct.setWhatsThis(QCoreApplication.translate(\n 'ViewManager',\n \"\"\"<b>Search current word forward</b>\"\"\"\n \"\"\"<p>Search the next occurrence of the current word of the\"\"\"\n \"\"\" current editor.</p>\"\"\"\n ))\n self.searchNextWordAct.triggered.connect(self.__findNextWord)\n self.searchActions.append(self.searchNextWordAct)\n \n self.searchPrevWordAct = E5Action(\n QCoreApplication.translate(\n 'ViewManager', 'Search current word backward'),\n UI.PixmapCache.getIcon(\"findWordPrev.png\"),\n QCoreApplication.translate(\n 'ViewManager', 'Search current word backward'),\n QKeySequence(QCoreApplication.translate(\n 'ViewManager',\n \"Ctrl+,\", \"Search|Search current word backward\")),\n 0,\n self.searchActGrp, 'vm_search_word_previous')\n self.searchPrevWordAct.setStatusTip(QCoreApplication.translate(\n 'ViewManager',\n 'Search previous occurrence of the current word'))\n self.searchPrevWordAct.setWhatsThis(QCoreApplication.translate(\n 'ViewManager',\n \"\"\"<b>Search current word backward</b>\"\"\"\n \"\"\"<p>Search the previous occurrence of the current word of the\"\"\"\n \"\"\" current editor.</p>\"\"\"\n ))\n self.searchPrevWordAct.triggered.connect(self.__findPrevWord)\n self.searchActions.append(self.searchPrevWordAct)\n \n self.replaceAct = E5Action(\n QCoreApplication.translate('ViewManager', 'Replace'),\n QCoreApplication.translate('ViewManager', '&Replace...'),\n QKeySequence(QCoreApplication.translate(\n 'ViewManager', \"Ctrl+R\", \"Search|Replace\")),\n 0,\n self.searchActGrp, 'vm_search_replace')\n self.replaceAct.setStatusTip(QCoreApplication.translate(\n 'ViewManager', 'Replace some text'))\n self.replaceAct.setWhatsThis(QCoreApplication.translate(\n 'ViewManager',\n \"\"\"<b>Replace</b>\"\"\"\n \"\"\"<p>Search for some text in the current editor and replace it.\"\"\"\n \"\"\" A dialog is shown to enter the searchtext, the replacement\"\"\"\n \"\"\" text and options for the search and replace.</p>\"\"\"\n ))\n self.replaceAct.triggered.connect(self.showReplaceWidget)\n self.searchActions.append(self.replaceAct)\n \n self.replaceAndSearchAct = E5Action(\n QCoreApplication.translate(\n 'ViewManager', 'Replace and Search'),\n UI.PixmapCache.getIcon(\"editReplaceSearch.png\"),\n QCoreApplication.translate(\n 'ViewManager', 'Replace and Search'),\n QKeySequence(QCoreApplication.translate(\n 'ViewManager', \"Meta+R\", \"Search|Replace and Search\")),\n 0,\n self.searchActGrp, 'vm_replace_search')\n self.replaceAndSearchAct.setStatusTip(QCoreApplication.translate(\n 'ViewManager',\n 'Replace the found text and search the next occurrence'))\n self.replaceAndSearchAct.setWhatsThis(QCoreApplication.translate(\n 'ViewManager',\n \"\"\"<b>Replace and Search</b>\"\"\"\n \"\"\"<p>Replace the found occurrence of text in the current\"\"\"\n \"\"\" editor and search for the next one. The previously entered\"\"\"\n \"\"\" search text and options are reused.</p>\"\"\"\n ))\n self.replaceAndSearchAct.triggered.connect(\n self.__replaceWidget.replaceSearch)\n self.searchActions.append(self.replaceAndSearchAct)\n \n self.replaceSelectionAct = E5Action(\n QCoreApplication.translate(\n 'ViewManager', 'Replace Occurrence'),\n UI.PixmapCache.getIcon(\"editReplace.png\"),\n QCoreApplication.translate(\n 'ViewManager', 'Replace Occurrence'),\n QKeySequence(QCoreApplication.translate(\n 'ViewManager', \"Ctrl+Meta+R\", \"Search|Replace Occurrence\")),\n 0,\n self.searchActGrp, 'vm_replace_occurrence')\n self.replaceSelectionAct.setStatusTip(QCoreApplication.translate(\n 'ViewManager', 'Replace the found text'))\n self.replaceSelectionAct.setWhatsThis(QCoreApplication.translate(\n 'ViewManager',\n \"\"\"<b>Replace Occurrence</b>\"\"\"\n \"\"\"<p>Replace the found occurrence of the search text in the\"\"\"\n \"\"\" current editor.</p>\"\"\"\n ))\n self.replaceSelectionAct.triggered.connect(\n self.__replaceWidget.replace)\n self.searchActions.append(self.replaceSelectionAct)\n \n self.replaceAllAct = E5Action(\n QCoreApplication.translate(\n 'ViewManager', 'Replace All'),\n UI.PixmapCache.getIcon(\"editReplaceAll.png\"),\n QCoreApplication.translate(\n 'ViewManager', 'Replace All'),\n QKeySequence(QCoreApplication.translate(\n 'ViewManager', \"Shift+Meta+R\", \"Search|Replace All\")),\n 0,\n self.searchActGrp, 'vm_replace_all')\n self.replaceAllAct.setStatusTip(QCoreApplication.translate(\n 'ViewManager', 'Replace search text occurrences'))\n self.replaceAllAct.setWhatsThis(QCoreApplication.translate(\n 'ViewManager',\n \"\"\"<b>Replace All</b>\"\"\"\n \"\"\"<p>Replace all occurrences of the search text in the current\"\"\"\n \"\"\" editor.</p>\"\"\"\n ))\n self.replaceAllAct.triggered.connect(\n self.__replaceWidget.replaceAll)\n self.searchActions.append(self.replaceAllAct)\n \n self.quickSearchAct = E5Action(\n QCoreApplication.translate('ViewManager', 'Quicksearch'),\n UI.PixmapCache.getIcon(\"quickFindNext.png\"),\n QCoreApplication.translate('ViewManager', '&Quicksearch'),\n QKeySequence(QCoreApplication.translate(\n 'ViewManager', \"Ctrl+Shift+K\", \"Search|Quicksearch\")),\n 0,\n self.searchActGrp, 'vm_quicksearch')\n self.quickSearchAct.setStatusTip(QCoreApplication.translate(\n 'ViewManager', 'Perform a quicksearch'))\n self.quickSearchAct.setWhatsThis(QCoreApplication.translate(\n 'ViewManager',\n \"\"\"<b>Quicksearch</b>\"\"\"\n \"\"\"<p>This activates the quicksearch function of the IDE by\"\"\"\n \"\"\" giving focus to the quicksearch entry field. If this field\"\"\"\n \"\"\" is already active and contains text, it searches for the\"\"\"\n \"\"\" next occurrence of this text.</p>\"\"\"\n ))\n self.quickSearchAct.triggered.connect(self.__quickSearch)\n self.searchActions.append(self.quickSearchAct)\n \n self.quickSearchBackAct = E5Action(\n QCoreApplication.translate(\n 'ViewManager', 'Quicksearch backwards'),\n UI.PixmapCache.getIcon(\"quickFindPrev.png\"),\n QCoreApplication.translate(\n 'ViewManager', 'Quicksearch &backwards'),\n QKeySequence(QCoreApplication.translate(\n 'ViewManager',\n \"Ctrl+Shift+J\", \"Search|Quicksearch backwards\")),\n 0, self.searchActGrp, 'vm_quicksearch_backwards')\n self.quickSearchBackAct.setStatusTip(QCoreApplication.translate(\n 'ViewManager',\n 'Perform a quicksearch backwards'))\n self.quickSearchBackAct.setWhatsThis(QCoreApplication.translate(\n 'ViewManager',\n \"\"\"<b>Quicksearch backwards</b>\"\"\"\n \"\"\"<p>This searches the previous occurrence of the quicksearch\"\"\"\n \"\"\" text.</p>\"\"\"\n ))\n self.quickSearchBackAct.triggered.connect(self.__quickSearchPrev)\n self.searchActions.append(self.quickSearchBackAct)\n \n self.quickSearchExtendAct = E5Action(\n QCoreApplication.translate('ViewManager', 'Quicksearch extend'),\n UI.PixmapCache.getIcon(\"quickFindExtend.png\"),\n QCoreApplication.translate('ViewManager', 'Quicksearch e&xtend'),\n QKeySequence(QCoreApplication.translate(\n 'ViewManager', \"Ctrl+Shift+H\", \"Search|Quicksearch extend\")),\n 0,\n self.searchActGrp, 'vm_quicksearch_extend')\n self.quickSearchExtendAct.setStatusTip(QCoreApplication.translate(\n 'ViewManager',\n 'Extend the quicksearch to the end of the current word'))\n self.quickSearchExtendAct.setWhatsThis(QCoreApplication.translate(\n 'ViewManager',\n \"\"\"<b>Quicksearch extend</b>\"\"\"\n \"\"\"<p>This extends the quicksearch text to the end of the word\"\"\"\n \"\"\" currently found.</p>\"\"\"\n ))\n self.quickSearchExtendAct.triggered.connect(\n self.__quickSearchExtend)\n self.searchActions.append(self.quickSearchExtendAct)\n \n self.gotoAct = E5Action(\n QCoreApplication.translate('ViewManager', 'Goto Line'),\n UI.PixmapCache.getIcon(\"goto.png\"),\n QCoreApplication.translate('ViewManager', '&Goto Line...'),\n QKeySequence(QCoreApplication.translate(\n 'ViewManager', \"Ctrl+G\", \"Search|Goto Line\")),\n 0,\n self.searchActGrp, 'vm_search_goto_line')\n self.gotoAct.setStatusTip(QCoreApplication.translate(\n 'ViewManager', 'Goto Line'))\n self.gotoAct.setWhatsThis(QCoreApplication.translate(\n 'ViewManager',\n \"\"\"<b>Goto Line</b>\"\"\"\n \"\"\"<p>Go to a specific line of text in the current editor.\"\"\"\n \"\"\" A dialog is shown to enter the linenumber.</p>\"\"\"\n ))\n self.gotoAct.triggered.connect(self.__goto)\n self.searchActions.append(self.gotoAct)\n \n self.gotoBraceAct = E5Action(\n QCoreApplication.translate('ViewManager', 'Goto Brace'),\n UI.PixmapCache.getIcon(\"gotoBrace.png\"),\n QCoreApplication.translate('ViewManager', 'Goto &Brace'),\n QKeySequence(QCoreApplication.translate(\n 'ViewManager', \"Ctrl+L\", \"Search|Goto Brace\")),\n 0,\n self.searchActGrp, 'vm_search_goto_brace')\n self.gotoBraceAct.setStatusTip(QCoreApplication.translate(\n 'ViewManager', 'Goto Brace'))\n self.gotoBraceAct.setWhatsThis(QCoreApplication.translate(\n 'ViewManager',\n \"\"\"<b>Goto Brace</b>\"\"\"\n \"\"\"<p>Go to the matching brace in the current editor.</p>\"\"\"\n ))\n self.gotoBraceAct.triggered.connect(self.__gotoBrace)\n self.searchActions.append(self.gotoBraceAct)\n \n self.gotoLastEditAct = E5Action(\n QCoreApplication.translate(\n 'ViewManager', 'Goto Last Edit Location'),\n UI.PixmapCache.getIcon(\"gotoLastEditPosition.png\"),\n QCoreApplication.translate(\n 'ViewManager', 'Goto Last &Edit Location'),\n QKeySequence(QCoreApplication.translate(\n 'ViewManager',\n \"Ctrl+Shift+G\", \"Search|Goto Last Edit Location\")),\n 0,\n self.searchActGrp, 'vm_search_goto_last_edit_location')\n self.gotoLastEditAct.setStatusTip(\n QCoreApplication.translate(\n 'ViewManager', 'Goto Last Edit Location'))\n self.gotoLastEditAct.setWhatsThis(QCoreApplication.translate(\n 'ViewManager',\n \"\"\"<b>Goto Last Edit Location</b>\"\"\"\n \"\"\"<p>Go to the location of the last edit in the current\"\"\"\n \"\"\" editor.</p>\"\"\"\n ))\n self.gotoLastEditAct.triggered.connect(self.__gotoLastEditPosition)\n self.searchActions.append(self.gotoLastEditAct)\n \n self.gotoPreviousDefAct = E5Action(\n QCoreApplication.translate(\n 'ViewManager', 'Goto Previous Method or Class'),\n QCoreApplication.translate(\n 'ViewManager', 'Goto Previous Method or Class'),\n QKeySequence(QCoreApplication.translate(\n 'ViewManager',\n \"Ctrl+Shift+Up\", \"Search|Goto Previous Method or Class\")),\n 0,\n self.searchActGrp, 'vm_search_goto_previous_method_or_class')\n self.gotoPreviousDefAct.setStatusTip(\n QCoreApplication.translate(\n 'ViewManager',\n 'Go to the previous method or class definition'))\n self.gotoPreviousDefAct.setWhatsThis(QCoreApplication.translate(\n 'ViewManager',\n \"\"\"<b>Goto Previous Method or Class</b>\"\"\"\n \"\"\"<p>Goes to the line of the previous method or class\"\"\"\n \"\"\" definition and highlights the name.</p>\"\"\"\n ))\n self.gotoPreviousDefAct.triggered.connect(\n self.__gotoPreviousMethodClass)\n self.searchActions.append(self.gotoPreviousDefAct)\n \n self.gotoNextDefAct = E5Action(\n QCoreApplication.translate(\n 'ViewManager', 'Goto Next Method or Class'),\n QCoreApplication.translate(\n 'ViewManager', 'Goto Next Method or Class'),\n QKeySequence(QCoreApplication.translate(\n 'ViewManager',\n \"Ctrl+Shift+Down\", \"Search|Goto Next Method or Class\")),\n 0,\n self.searchActGrp, 'vm_search_goto_next_method_or_class')\n self.gotoNextDefAct.setStatusTip(QCoreApplication.translate(\n 'ViewManager', 'Go to the next method or class definition'))\n self.gotoNextDefAct.setWhatsThis(QCoreApplication.translate(\n 'ViewManager',\n \"\"\"<b>Goto Next Method or Class</b>\"\"\"\n \"\"\"<p>Goes to the line of the next method or class definition\"\"\"\n \"\"\" and highlights the name.</p>\"\"\"\n ))\n self.gotoNextDefAct.triggered.connect(self.__gotoNextMethodClass)\n self.searchActions.append(self.gotoNextDefAct)\n \n self.searchActGrp.setEnabled(False)\n \n self.searchFilesAct = E5Action(\n QCoreApplication.translate('ViewManager', 'Search in Files'),\n UI.PixmapCache.getIcon(\"projectFind.png\"),\n QCoreApplication.translate('ViewManager', 'Search in &Files...'),\n QKeySequence(QCoreApplication.translate(\n 'ViewManager', \"Shift+Ctrl+F\", \"Search|Search Files\")),\n 0,\n self, 'vm_search_in_files')\n self.searchFilesAct.setStatusTip(QCoreApplication.translate(\n 'ViewManager', 'Search for a text in files'))\n self.searchFilesAct.setWhatsThis(QCoreApplication.translate(\n 'ViewManager',\n \"\"\"<b>Search in Files</b>\"\"\"\n \"\"\"<p>Search for some text in the files of a directory tree\"\"\"\n \"\"\" or the project. A dialog is shown to enter the searchtext\"\"\"\n \"\"\" and options for the search and to display the result.</p>\"\"\"\n ))\n self.searchFilesAct.triggered.connect(self.__searchFiles)\n self.searchActions.append(self.searchFilesAct)\n \n self.replaceFilesAct = E5Action(\n QCoreApplication.translate('ViewManager', 'Replace in Files'),\n QCoreApplication.translate('ViewManager', 'Replace in F&iles...'),\n QKeySequence(QCoreApplication.translate(\n 'ViewManager', \"Shift+Ctrl+R\", \"Search|Replace in Files\")),\n 0,\n self, 'vm_replace_in_files')\n self.replaceFilesAct.setStatusTip(QCoreApplication.translate(\n 'ViewManager', 'Search for a text in files and replace it'))\n self.replaceFilesAct.setWhatsThis(QCoreApplication.translate(\n 'ViewManager',\n \"\"\"<b>Replace in Files</b>\"\"\"\n \"\"\"<p>Search for some text in the files of a directory tree\"\"\"\n \"\"\" or the project and replace it. A dialog is shown to enter\"\"\"\n \"\"\" the searchtext, the replacement text and options for the\"\"\"\n \"\"\" search and to display the result.</p>\"\"\"\n ))\n self.replaceFilesAct.triggered.connect(self.__replaceFiles)\n self.searchActions.append(self.replaceFilesAct)\n \n self.searchOpenFilesAct = E5Action(\n QCoreApplication.translate(\n 'ViewManager', 'Search in Open Files'),\n UI.PixmapCache.getIcon(\"documentFind.png\"),\n QCoreApplication.translate(\n 'ViewManager', 'Search in Open Files...'),\n QKeySequence(QCoreApplication.translate(\n 'ViewManager',\n \"Meta+Ctrl+Alt+F\", \"Search|Search Open Files\")),\n 0,\n self.searchActGrp, 'vm_search_in_open_files')\n self.searchOpenFilesAct.setStatusTip(QCoreApplication.translate(\n 'ViewManager', 'Search for a text in open files'))\n self.searchOpenFilesAct.setWhatsThis(QCoreApplication.translate(\n 'ViewManager',\n \"\"\"<b>Search in Open Files</b>\"\"\"\n \"\"\"<p>Search for some text in the currently opened files.\"\"\"\n \"\"\" A dialog is shown to enter the searchtext\"\"\"\n \"\"\" and options for the search and to display the result.</p>\"\"\"\n ))\n self.searchOpenFilesAct.triggered.connect(self.__searchOpenFiles)\n self.searchActions.append(self.searchOpenFilesAct)\n \n self.replaceOpenFilesAct = E5Action(\n QCoreApplication.translate(\n 'ViewManager', 'Replace in Open Files'),\n QCoreApplication.translate(\n 'ViewManager', 'Replace in Open Files...'),\n QKeySequence(QCoreApplication.translate(\n 'ViewManager',\n \"Meta+Ctrl+Alt+R\", \"Search|Replace in Open Files\")),\n 0,\n self.searchActGrp, 'vm_replace_in_open_files')\n self.replaceOpenFilesAct.setStatusTip(QCoreApplication.translate(\n 'ViewManager', 'Search for a text in open files and replace it'))\n self.replaceOpenFilesAct.setWhatsThis(QCoreApplication.translate(\n 'ViewManager',\n \"\"\"<b>Replace in Open Files</b>\"\"\"\n \"\"\"<p>Search for some text in the currently opened files\"\"\"\n \"\"\" and replace it. A dialog is shown to enter\"\"\"\n \"\"\" the searchtext, the replacement text and options for the\"\"\"\n \"\"\" search and to display the result.</p>\"\"\"\n ))\n self.replaceOpenFilesAct.triggered.connect(self.__replaceOpenFiles)\n self.searchActions.append(self.replaceOpenFilesAct)",
"def click_search_rate_arrow_button(self):\n self.click_element(self.search_rate_arrow_button_locator)",
"def tool_selection_click_ok_btn(driver, class_name, index):\r\n\r\n proximity_button = driver.find_elements_by_class_name(class_name)\r\n proximity_button[index].click()\r\n time.sleep(2)",
"def actionObject(self):\n\t\t# Example : action.key_down(Keys.CONTROL).send_keys('F').key_up(Keys.CONTROL).perform() # CTRL-F # Brings up search bar\n\t\treturn ActionChains(self.driver)",
"def select_and_go(self):\n item = self.clementine_artists.currentItem()\n if not item:\n return\n search = item.text(0)\n if not self.artist_map[search]:\n qtw.QMessageBox.information(self, self.appname, \"Not possible - \"\n \"artist hasn't been matched yet\")\n return\n self._parent.current_data = search\n self._parent.nb.setCurrentIndex(1)",
"def click_outbound_statement_search_button(self):\n self.click_element(self.page_header_locator)\n self.click_element(self.outbound_statement_search_button_locator, True)",
"def click_search_ref_rates_arrow_button(self):\n self.click_element(self.search_ref_rates_arrow_button_locator)",
"def menu_find_next(self, event=None):\n self.parentPanel.onFind(event)",
"def __quickSearchEnter(self):\n if self.quickFindtextCombo.lastActive:\n self.quickFindtextCombo.lastActive.setFocus()\n if self.__quickSearchToolbarVisibility is not None:\n self.__quickSearchToolbar.setVisible(\n self.__quickSearchToolbarVisibility)\n self.__quickSearchToolbarVisibility = None",
"def run_search(self, evt):\n search_input = self.search_input_txtctrl.GetValue()\n self.execute_google_search(str(search_input))\n self.set_result_to_dict_for_page_scroller()\n self.clear_result_screen()\n self.trigger_scroller_event()",
"def _on_keyboard(self, instance, key, scancode, codepoint, modifiers, *args):\r\n # print(\"Keyboard pressed! {}, {}, {}, {}\".format(key, scancode, codepoint, modifiers))\r\n if codepoint == 's' and 'ctrl' in modifiers:\r\n toast('Search by Name, Ingredient, or Tag', 3)\r\n self.search_focus = True",
"def click_add_disputes_search_button(self):\n self.click_element(self.disputes_search_button_locator, True)",
"def on_click(self) -> None:\n pass",
"def on_filterCheckBox_clicked(self):\n self.__enableFindButton()",
"def aoi_button_clicked(self):\n # can't run search during export\n if self.is_exporting():\n self.iface.messageBar().pushMessage(\"Error\", \"Cannot run search while export is running.\",\n level=QgsMessageBar.CRITICAL)\n # can't run multiple search\n elif self.is_searching():\n self.iface.messageBar().pushMessage(\"Error\", \"Cannot run a new search while a search is running.\",\n level=QgsMessageBar.CRITICAL)\n else:\n self.bbox_tool.reset()\n self.iface.mapCanvas().setMapTool(self.bbox_tool)",
"def click_document_search_button(self):\n self.click_element(self.document_search_button_locator, True)",
"def processElementClick(self, *argv):\n if argv[0]: #argv[0] is 0 for a click on an atom\n return\n hits = argv[:-1]\n event = argv[-1]\n if event.button() == QtCore.Qt.LeftButton:\n if event.modifiers() & QtCore.Qt.CTRL: #Multiple selection mode\n atom = CAlphaRenderer.getAtomFromHitStack(self.renderer, hits[0], False, *hits[1:])\n if atom.getResSeq() in self.main_chain.getSelection():\n self.main_chain.setSelection(removeOne=atom.getResSeq())\n else:\n self.main_chain.setSelection(addOne=atom.getResSeq())\n print self.main_chain.getSelection()\n else:\n atom = CAlphaRenderer.getAtomFromHitStack(self.renderer, hits[0], True, *hits[1:])\n print 'Residue #:', atom.getResSeq()\n self.main_chain.setSelection([atom.getResSeq()])\n self.emitAtomSelectionUpdated(self.main_chain.getSelection())\n \n if event.button() == QtCore.Qt.RightButton and self.centerOnRMB:\n self.centerOnSelectedAtoms(argv[0], argv[1], argv[2], argv[3], argv[4], argv[5], argv[6])",
"def pressMCV(self):\n\t\t\n\t\tm_name = self.ui.findChild(QWidget, \"m_name\")\n\t\tm_name.setText(\"Motorinen neurografia\")\n\t\t\n\t\tprint \"MCV button pressed\"\t\t\n\t\t# update graph and distribution\n\t\t# o set parameters to defaults (length, sd, medianus T)\n\t\t# o clear regression checkbox\n\t\t# o draw the MCV verrokki graph and distribution (set graph as default tab)\n\t\t\n\t\t# set comboboxes back to the default state \n\t\t# Default: summary of the patient MCV data\n\t\tif self.patient_chosen:\n\t\t\tprint \"showing patient MCV data\"\t\t\n\t\t\n\t\tself.current_measurement = \"MCV\"\n\t\treturn",
"def _click_function( self, event ):\n if self.click_function is None:\n print( \"ListboxScroll -- click_function not set\" )\n else:\n # sending the selection get, but perhaps should\n # send the event and let click function ....!!!\n # a_key = event.widget.selection_get()\n #rint( a_key )\n # self.click_function( a_key )\n self.click_function( event )",
"def other_search(self):\n test = self.ask_zoekarg.text()\n if test:\n self.parent().search_arg = test\n self.parent().do_select()",
"def m_press(self, button: MButton):\n pass",
"def testMclSearch(self):\n driver = self.driver\n #finds the Mutant Cell Line field and enters a mutant cell line, tabs out of the field then clicks the Search button\n driver.find_element(By.ID, \"cellLine\").send_keys('CT45')\n time.sleep(2)\n actions = ActionChains(driver) \n actions.send_keys(Keys.TAB)\n actions.perform()\n time.sleep(2)\n driver.find_element(By.ID, 'searchButton').click()\n time.sleep(2)\n #find the search results table\n results_table = self.driver.find_element(By.ID, \"resultsTable\")\n table = Table(results_table)\n #Iterate and print the search results headers\n cell1 = table.get_row_cells(0)\n symbol1 = iterate.getTextAsList(cell1)\n print(symbol1)\n #Assert the correct mutant cell line is returned\n self.assertEqual(symbol1, ['CT45'])"
] | [
"0.6371997",
"0.6186964",
"0.6055495",
"0.6001658",
"0.5785772",
"0.5596053",
"0.5531374",
"0.5530945",
"0.55154306",
"0.5509755",
"0.54290336",
"0.54191434",
"0.53792226",
"0.5354867",
"0.5352001",
"0.5342027",
"0.5317267",
"0.5253407",
"0.5247059",
"0.5237732",
"0.5222681",
"0.52103966",
"0.5200052",
"0.51944095",
"0.51891106",
"0.51749563",
"0.5171",
"0.51604295",
"0.5145505",
"0.5142808"
] | 0.8056399 | 0 |
Implementing set re analysis status functionality | def set_re_analysis_status(self, status_list):
self.multiple_items_selection_from_kendo_dropdown(self.multiselect_status_dropdown_locator, status_list) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def setstatus(self,statusin):\n if self.status in self.statuserrors:\n print \"Action forbidden.\"\n self.inputstatus.setEntry(self.status)\n return \n if statusin == None: status=self.inputstatus.getEntry()\n else: status=statusin\n if status not in self.statuses:\n print \"Unknown status:\",status\n #self.inputstatus.setEntry(self.status)\n return\n option=status[0]\n cmd=\"setStatus(\"+'\"'+self.detector+'\"'+\",\"+self.inpnumDIM +\",\"+\"'\"+option+\"'\"+\")\"\n output=self.vb.io.execute(cmd,log=\"out\",applout=\"<>\")\n #self.getstatus()",
"def status(self):",
"def refresh_status() -> None:\n ...",
"def refresh_status(self):\n\n pass",
"def _set_status(self, action, status):\n raise NotImplementedError(\"Base class: cannot be called directly\")",
"def test_set_scan_status(self):\n pass",
"async def set_status(event, gh, *args, **kwargs):\n issue_number_found = ISSUE_RE.search(event.data[\"pull_request\"][\"title\"])\n if not issue_number_found:\n issue_url = event.data[\"pull_request\"][\"issue_url\"]\n data = await gh.getitem(issue_url)\n for label in data[\"labels\"]:\n if label[\"name\"] == TRIVIAL_LABEL:\n status = TRIVIAL_STATUS\n break\n else:\n status = FAILURE_STATUS\n else:\n status = create_success_status(issue_number_found)\n await _post_status(event, gh, status)",
"def status():\n pass",
"def _updateStatus(self, result):\n\n if result.status is not None:\n # status was explicitly set\n self.target.localStatus = result.status\n if self.target.present and self.target.created is None:\n self.target.created = self.configSpec.operation not in [\n \"check\",\n \"discover\",\n ]\n elif not result.success:\n # if any task failed and (maybe) modified, target.status will be set to error or unknown\n if result.modified:\n self.target.localStatus = (\n Status.error if self.required else Status.degraded\n )\n elif result.modified is None:\n self.target.localStatus = Status.unknown\n # otherwise doesn't modify target status",
"def _process(self):\n self.kwargs[\"collect\"].change_status(self.kwargs[\"collect\"].FINALIZED)",
"def set_status( code ):",
"def getStatus():",
"def test_update_activity_occurrence_status(self):\n pass",
"def test_extra_status(self):\n\n def handle(event):\n status = Dataset()\n status.Status = 0xFFF0\n status.ErrorComment = \"Some comment\"\n status.ErrorID = 12\n status.AttributeIdentifierList = [0x00100010]\n return status, event.modification_list\n\n self.ae = ae = AE()\n ae.acse_timeout = 5\n ae.dimse_timeout = 5\n ae.network_timeout = 5\n ae.add_supported_context(ModalityPerformedProcedureStep)\n scp = ae.start_server(\n (\"localhost\", 11112), block=False, evt_handlers=[(evt.EVT_N_SET, handle)]\n )\n\n ae.add_requested_context(ModalityPerformedProcedureStep)\n assoc = ae.associate(\"localhost\", 11112)\n assert assoc.is_established\n\n ds = Dataset()\n ds.PatientName = \"Test^test\"\n status, ds = assoc.send_n_set(\n ds, ModalityPerformedProcedureStep, \"1.2.840.10008.5.1.1.40.1\"\n )\n assert status.Status == 0xFFF0\n assert status.ErrorComment == \"Some comment\"\n assert status.ErrorID == 12\n assert status.AttributeIdentifierList == Tag(0x00100010)\n assert ds is None\n assoc.release()\n assert assoc.is_released\n\n scp.shutdown()",
"def check_status(self):",
"def set_status(self, status):\n # TODO log to db\n self.status = status",
"def status(self, status: dict):\n pass",
"def update_remediation_status(self, status):\n self.remediation_status = status",
"def thread_status(self,status): # general function to get datas/infos from all threads back to the main\n if status[0]==\"Update_Status\":\n if len(status)>2:\n self.update_status(status[1],wait_time=self.wait_time,log_type=status[2])\n else:\n self.update_status(status[1],wait_time=self.wait_time)\n\n elif status[0]==\"Update_scan_index\":\n #status[1] = [ind_scan,ind_average]\n self.ind_scan=status[1][0]\n self.ui.indice_scan_sb.setValue(status[1][0])\n self.ind_average = status[1][1]\n self.ui.indice_average_sb.setValue(status[1][1])\n\n elif status[0]==\"Scan_done\":\n self.ui.scan_done_LED.set_as_true()\n self.save_scan()\n if not self.overshoot:\n self.set_ini_positions()\n self.ui.set_scan_pb.setEnabled(True)\n self.ui.set_ini_positions_pb.setEnabled(True)\n self.ui.start_scan_pb.setEnabled(True)\n elif status[0]==\"Timeout\":\n self.ui.log_message.setText('Timeout occurred')",
"def SetStatus(self, status):\r\n self.status = status",
"def change_status(self, status, application_id):",
"def updateStatus(self, status):\n pass",
"def set_status(self, status: Status) -> None:\n if status.status_code == StatusCode.ERROR:\n self.elastic_span.outcome = constants.OUTCOME.FAILURE\n elif status.status_code == StatusCode.OK:\n self.elastic_span.outcome = constants.OUTCOME.SUCCESS\n else:\n self.elastic_span.outcome = constants.OUTCOME.UNKNOWN",
"def _analyze(self):\r\n if self.value is None or self.value == self.previous:\r\n pass\r\n elif self._operation == \"add\":\r\n self._additions = self.value\r\n elif self._operation == \"remove\":\r\n self._removals = self.value\r\n elif self.previous is None:\r\n self._assignments = self.value\r\n else:\r\n # partial update time\r\n self._additions = (self.value - self.previous) or None\r\n self._removals = (self.previous - self.value) or None\r\n self._analyzed = True",
"def set_recon_all_status(subject_dir):\n\n path = context.gear_dict['output_analysisid_dir'] + '/' + \\\n subject_dir + '/scripts/recon-all-status.log'\n if os.path.exists(path):\n with open(path, 'r') as fh:\n for line in fh:\n pass\n last_line = line\n else:\n last_line = 'recon-all-status.log is missing'\n update_gear_status(subject_dir, last_line)",
"def set_recon_all_status(subject_dir):\n\n path = context.gear_dict['output_analysisid_dir'] + '/' + \\\n subject_dir + '/scripts/recon-all-status.log'\n if os.path.exists(path):\n with open(path, 'r') as fh:\n for line in fh:\n pass\n last_line = line\n else:\n last_line = 'recon-all-status.log is missing'\n update_gear_status(subject_dir, last_line)",
"def _init_status(self):\n\n status = self._get_status_obj()\n\n for i, step in enumerate(self._run_list):\n\n for module in step.keys():\n module_dict = {module: {'pipeline_index': i}}\n status.data = status.update_dict(status.data, module_dict)\n\n status._dump()",
"def status(self):\n pass",
"def status(self):\n pass",
"def change_status(self):\n if self.status == 'in progress':\n self.status = 'done'\n return self.status\n elif self.status == 'done':\n self.status = 'in progress'\n self.eisenhower_priority()\n return self.status"
] | [
"0.6575618",
"0.65225047",
"0.6484868",
"0.64133173",
"0.63916427",
"0.614029",
"0.6041141",
"0.6034125",
"0.60246044",
"0.6024098",
"0.5972976",
"0.59332144",
"0.5930427",
"0.59262615",
"0.5920301",
"0.5840434",
"0.5831588",
"0.5831115",
"0.58151436",
"0.5813346",
"0.5801746",
"0.57951874",
"0.57856417",
"0.576404",
"0.57366824",
"0.57366824",
"0.573534",
"0.5728442",
"0.5728442",
"0.5705129"
] | 0.6583831 | 0 |
Implementing click buy and sell deal management link functionality | def click_buy_and_sell_deal_management_link(self):
self.select_static_tab(self.buy_and_sell_deal_management_locator, message="buy and sell deal management locator not found before specified time out") | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def click_buy_and_sell_deal_bulk_edit_button(self):\n self.click_element(self.buy_and_sell_deal_bulk_edit_button_lcoator, True)",
"def click_buy_and_sell_deal_create_button(self):\n self.click_element(self.save_vendor_profile_locator)",
"async def _vis_buy(self, ctx, *args):\n if has_post_permission(ctx.guild.id, ctx.channel.id):\n number, item = ch.parse_number_and_name(args)\n if item:\n await ctx.send(vis_helpers.shop_buy(ctx.user_object, item, number))",
"def sellshares():\n # Initialise buy and sell share forms\n sellform = SellShareForm()\n # Validate and process form data\n if(sellform.validate_on_submit()):\n # Buys shares\n issuerID = sellform.sellsharecode.data\n quantity = sellform.sellquantity.data\n userID = current_user.userID\n # Call buyshare API\n sellshare = gdb.sellshare(userID, issuerID, quantity)\n if(sellshare):\n # Flash with success message\n flash(\"Share sale successful!\", category=\"success\")\n else:\n # Flash with warning message\n flash(\"Share sale unsuccessful!\", category=\"error\")\n # Redirect to reffering page or dashboard\n return redirect(request.referrer or url_for('main.dashboard'))",
"def sell():\n\n # if user reached route via GET return them an input form\n if request.method == \"GET\":\n return render_template(\"sell.html\")\n\n # if user reached route via POST (as by submitting a form via POST)\n elif request.method == \"POST\":\n\n # get id as it is used many times\n id = session[\"user_id\"]\n\n # get symbol input\n symbol = request.form.get(\"symbol\")\n\n # get share volume requested\n volume = int(request.form.get(\"volume\"))\n\n # ensure stock symbol was submitted\n if not symbol:\n return apology(\"you must provide a stock symbol\")\n\n # ensure positive volume (integer rule handled elsewhere)\n elif volume <= 0:\n return apology(\"volume must be integer greater than 0\")\n\n # lookup stock on yahoo\n stock_info = lookup(symbol)\n\n # if error looking stock up\n if not stock_info:\n return apology(\"that stock symbol doesn't exist\")\n\n # check if user already owns any stock in this company\n existing = db.execute(\"SELECT num_shares FROM portfolio WHERE id = :id AND symbol = :symbol\", id=id, symbol=symbol)\n\n # if sufficient cash, make purchase, else return apology\n if not existing:\n return apology(\"you don't own this stock\")\n else:\n if existing[0]['num_shares'] < volume:\n return apology('you cannot sell more shares than you own')\n else:\n # query database for\n cash = db.execute(\"SELECT cash FROM users WHERE id = :id\", id=id)\n cash = cash[0]['cash']\n\n minus = db.execute(\"UPDATE portfolio SET num_shares = :num_shares WHERE id = :id AND symbol = :symbol\", num_shares=existing[0]['num_shares'] - volume, id=id, symbol=symbol)\n\n # set date string\n dstring = str(datetime.datetime.utcnow())\n\n # update transaction history\n result2 = db.execute(\"INSERT INTO `transaction` (id, symbol, volume, share_price, dtstamp) VALUES(:id, :symbol, :volume, :share_price, :dtstamp)\", id=id, symbol=symbol, volume=-volume, share_price=stock_info['price'], dtstamp=dstring)\n\n # calculate sale price\n sale_price = stock_info['price'] * volume\n\n # increase cash balance\n result = db.execute(\"UPDATE users SET cash = :cash WHERE id = :id\", cash=cash+sale_price, id=id)\n\n # redirect user to home page\n return redirect(url_for(\"index\"))",
"def buy():\n\n # User reached route via GET (as by clicking a link or via redirect)\n if request.method == \"GET\":\n return render_template(\"buy.html\")\n else:\n symbol = request.form.get(\"symbol\")\n if not symbol:\n return apology(\"must provide symbol\", 400)\n\n # Check if symbol exist in lookup(symbol)\n symbol = lookup(symbol)\n\n if not symbol :\n return apology(\"symbol doesn't exist,sorry\", 400)\n else:\n name = symbol.get(\"name\")\n price = symbol.get(\"price\")\n symbol = symbol.get(\"symbol\")\n\n # Check if shares of name is a integer\n shares = request.form.get(\"shares\")\n\n # https://www.geeksforgeeks.org/program-check-input-integer-string/\n n = len(shares)\n for i in range(n) :\n if shares[i].isdigit() != True :\n return apology(\"shares need to be a number\", 400)\n\n shares = int(shares)\n\n # if positive number\n if shares > 0:\n\n # Query database for user's cash\n cash = db.execute(\"SELECT cash FROM users WHERE id = :userID\",\n userID=session[\"user_id\"])\n\n # Get cash\n cash = cash[0][\"cash\"]\n\n # Check user if have enough money\n buyNeed = shares*price\n if cash > buyNeed:\n\n # Update csah in users TABLE\n db.execute(\"UPDATE users SET cash = :cash WHERE id = :userID\", cash=cash-buyNeed, userID=session[\"user_id\"])\n\n # Check purchase time\n now = datetime.now(timezone('Asia/Shanghai'))\n\n # Add to buy table\n db.execute(\"INSERT INTO buy (date, symbol, name, price, shares, costmoney, userID) VALUES (:date, :symbol, :name, :price, :shares, :costmoney, :userID)\",\n date=now, symbol=symbol, name=name, price=price, shares=shares, costmoney=buyNeed, userID=session[\"user_id\"])\n\n # Add to buy-sell table\n db.execute(\"INSERT INTO bs (symbol, price, shares, date, userID) VALUES (:symbol, :price, :shares, :date, :userID)\", symbol=symbol, price=usd(price), shares=shares, date=now, userID=session[\"user_id\"])\n\n # Count finally cash\n endCash=cash-buyNeed\n\n # Count total shares and costmoney by buy\n sharesTotal = db.execute(\"SELECT shares FROM buy WHERE userID = :userID and name = :name\", userID=session[\"user_id\"], name=name)\n costmoneyTotal = db.execute(\"SELECT costmoney FROM buy WHERE userID = :userID and name = :name\", userID=session[\"user_id\"], name=name)\n\n # len(sharesTotal)\n st = len(sharesTotal)\n\n # Sum shares\n sumItem = 0\n for item in range(st):\n sumItem = sharesTotal[item][\"shares\"] + sumItem\n sharesTotal_2 = sumItem\n\n # Sum cost money\n sumItem2 = 0\n for item2 in range(st):\n sumItem2 = costmoneyTotal[item2][\"costmoney\"] + sumItem2\n costmoneyTotal_2 = sumItem2\n\n\n # Ensure return total number and totalGet by sell\n sharesTotalSell = db.execute(\"SELECT shares FROM sell WHERE userID = :userID and name = :name\", userID=session[\"user_id\"], name=name)\n costmoneyTotalSell = db.execute(\"SELECT totalGet FROM sell WHERE userID = :userID and name = :name\", userID=session[\"user_id\"], name=name)\n\n # Len of sharesTotalSell\n stS = len(sharesTotalSell)\n\n # Sum of sell shares\n sumItem3 = 0\n for item3 in range(stS):\n sumItem3 = sharesTotalSell[item3][\"shares\"] + sumItem3\n\n # Buy - sell shares\n sharesTotal_2 = sharesTotal_2-sumItem3\n\n # Sum of sell totalGet\n sumItem4 = 0\n for item4 in range(stS):\n sumItem4= costmoneyTotalSell[item4][\"totalGet\"] + sumItem4\n\n # Buy -sell totalGet\n costmoneyTotal_2 = costmoneyTotal_2-sumItem4\n\n # Test if can update total though shares\n total = db.execute(\"SELECT sharesTotal FROM total WHERE userID = :userID and name = :name\", userID=session[\"user_id\"], name=name)\n\n # Insert total TABLE\n if not total:\n db.execute(\"INSERT INTO total (name, symbol, price, sharesTotal, costmoneyTotal, userID) VALUES (:name, :symbol, :price, :sharesTotal, :costmoneyTotal, :userID)\",\n name=name, symbol=symbol, price=price, sharesTotal=sharesTotal_2, costmoneyTotal=costmoneyTotal_2, userID=session[\"user_id\"])\n # Update total TABLE\n else:\n db.execute(\"UPDATE total SET sharesTotal = :sharesTotal, costmoneyTotal = :costmoneyTotal WHERE userID = :userID and name = :name\", sharesTotal=sharesTotal_2, costmoneyTotal=costmoneyTotal_2, userID=session[\"user_id\"], name=name)\n\n # SELECT all rows from total TABLE WHERE userID = session[\"user_id\"]\n total = db.execute(\"SELECT * FROM total WHERE userID = :userID\", userID=session[\"user_id\"])\n\n # Len of total\n tlen = len(total)\n\n # Get user cash\n cash = db.execute(\"SELECT cash FROM users WHERE id = :userID\",\n userID=session[\"user_id\"])\n\n cash = usd(cash[0][\"cash\"])\n\n # Change price, costmoney to usd format\n for n in range(tlen):\n total[n][\"price\"] = usd(total[n][\"price\"])\n total[n][\"costmoneyTotal\"] = usd(total[n][\"costmoneyTotal\"])\n total = list(reversed(total))\n\n # Flash\n flash(\"buy\")\n return render_template(\"buyed.html\", total=total, tlen=tlen, cash=cash)\n\n else:\n # Else cash not enough\n return apology(\"cash not enough\", 400)\n\n else:\n # Else not positive number\n return apology(\"not positive number\", 400)",
"def buy():\n\n # if user reached route via GET return them an input form\n if request.method == \"GET\":\n return render_template(\"buy.html\")\n\n # if user reached route via POST (as by submitting a form via POST)\n elif request.method == \"POST\":\n\n # get id as it is used many times\n id = session[\"user_id\"]\n\n # get symbol as it is used many times\n symbol = request.form.get(\"symbol\")\n\n # get share volume requested\n volume = int(request.form.get(\"volume\"))\n\n # ensure stock symbol was submitted\n if not symbol:\n return apology(\"you must provide a stock symbol\")\n\n # ensure positive volume (integer rule handled elsewhere)\n elif volume <= 0:\n return apology(\"volume must be integer greater than 0\")\n\n # lookup stock on yahoo\n stock_info = lookup(symbol)\n\n # if error looking stock up\n if not stock_info:\n return apology(\"that stock symbol doesn't exist\")\n\n # query database for cash balance\n cash = db.execute(\"SELECT cash FROM users WHERE id = :id\", id=id)\n cash = cash[0]['cash']\n\n # cost of requested shares\n purchase_cost = volume * stock_info['price']\n\n # if sufficient cash, make purchase, else return apology\n if purchase_cost <= cash:\n\n # check if user already owns any stock in this company\n existing = db.execute(\"SELECT num_shares FROM portfolio WHERE id = :id AND symbol = :symbol\", id=id, symbol=symbol)\n\n # if no existing shares, add them\n if not existing:\n new = db.execute(\"INSERT INTO portfolio (id, symbol, num_shares) VALUES(:id, :symbol, :num_shares)\", id=id, symbol=symbol, num_shares=volume)\n\n # if there are existing shares, add new volume to them\n else:\n add = db.execute(\"UPDATE portfolio SET num_shares = :num_shares WHERE id = :id AND symbol = :symbol\", num_shares=existing[0]['num_shares'] + volume, id=id, symbol=symbol)\n\n # set date string\n dstring = time(str(datetime.datetime.utcnow()))\n\n # update transaction history\n result2 = db.execute(\"INSERT INTO `transaction` (id, symbol, volume, share_price, dtstamp) VALUES(:id, :symbol, :volume, :share_price, :dtstamp)\", id=id, symbol=symbol, volume=volume, share_price=stock_info['price'], dtstamp=dstring)\n\n # reduce cash balance\n result = db.execute(\"UPDATE users SET cash = :cash WHERE id = :id\", cash=cash-purchase_cost, id=id)\n\n # redirect user to home page\n return redirect(url_for(\"index\"))\n else:\n return apology(\"insufficient funds\")",
"def buyshares():\n # Initialise buy form\n buyform = BuyShareForm()\n # Validate and process form data\n if(buyform.validate_on_submit()):\n # Buys shares\n issuerID = buyform.buysharecode.data\n quantity = buyform.buyquantity.data\n userID = current_user.userID\n # Call buyshare API\n buyshare = gdb.buyshare(userID, issuerID, quantity)\n if(buyshare):\n # Flash with success message\n flash(\"Share purchase successful!\", category=\"success\")\n else:\n # Flash with warning message\n flash(\"Share purchase unsuccessful!\", category=\"error\")\n # Redirect to reffering page or dashboard\n return redirect(request.referrer or url_for('main.dashboard'))",
"def buy():\n\n # User reached route via POST (as by submitting a form via POST)\n if request.method == \"POST\":\n\n # Access form data\n symbol = request.form.get(\"symbol\")\n shares = request.form.get(\"shares\")\n\n # Access user's id\n user_id = session[\"user_id\"]\n\n # Ensure symbol was submitted\n if not symbol:\n return apology(\"must provide symbol\", 400)\n\n # Ensure shares was submitted\n if not shares:\n return apology(\"must provide shares\", 400)\n\n # Check if submitted shares string is a positive integer\n if not shares.isdigit() :\n return apology(\"shares is not a number\", 400)\n # Shares is valid\n else:\n shares = int(shares)\n\n # Obtain quote using lookup function\n QUOTED = lookup(symbol)\n\n # Ensure valid symbol was submitted\n if QUOTED is None:\n return apology(\"invalid symbol\", 400)\n\n # Check if user has enough cash to buy shares\n cash = db.execute(\"SELECT cash FROM users WHERE id = ?\", user_id)[0][\"cash\"]\n cost = QUOTED[\"price\"] * shares\n if cash < cost:\n return apology(\"can't afford\", 400)\n\n # New amount of cash user has after buying shares\n new_cash_total = cash - cost\n\n # Update cash in users table for user\n db.execute(\"UPDATE users SET cash = ? WHERE id = ?\", new_cash_total, user_id)\n\n # Insert buy log into history table\n db.execute(\"INSERT INTO history (user_id, symbol, shares, price, transacted) VALUES (?, ?, ?, ?, datetime('now'))\",\n user_id, QUOTED[\"symbol\"], shares, QUOTED[\"price\"])\n\n # Keep track of shares in shares table\n current_shares = db.execute(\"SELECT shares_count FROM shares WHERE user_id = ? AND symbol = ?\", user_id, QUOTED[\"symbol\"])\n\n # If shares have not been bought before\n if not current_shares:\n db.execute(\"INSERT INTO shares VALUES (?, ?, ?, ?, ?, ?)\",\n user_id, QUOTED[\"symbol\"], QUOTED[\"name\"], shares, QUOTED[\"price\"], QUOTED[\"price\"])\n\n # If shares have been bought before\n else:\n new_shares_total = current_shares[0][\"shares_count\"] + shares\n shares_value_total = new_shares_total * QUOTED[\"price\"]\n db.execute(\"UPDATE shares SET shares_count = ?, price = ?, total = ? WHERE user_id = ? AND symbol = ?\",\n new_shares_total, QUOTED[\"price\"], shares_value_total, user_id, QUOTED[\"symbol\"])\n\n # Redirect user to home page\n flash(\"Bought!\", \"info\")\n return redirect(\"/\")\n\n # User reached route via GET (as by clicking a link or via redirect)\n else:\n return render_template(\"buy.html\")",
"def click_request_new_buy_and_sell_deal(self):\n self.click_element(self.request_new_buy_and_sell_deal_locator, error_message=\"request new buy and sell deal locator not found before specified time out\")",
"def sell():\n if request.method == \"GET\":\n return render_template('sell.html')\n \n if request.method == \"POST\":\n symbol = request.form['symbol']\n shares = request.form['shares']\n stock = lookup(symbol)\n \n if not stock:\n return apology('Invalid symbol')\n \n user_shares = db.execute(\"SELECT shares FROM profile \\\n WHERE id = :id AND symbol=:symbol\", \\\n id=session[\"user_id\"], symbol=stock[\"symbol\"])\n if not user_shares or int(user_shares[0][\"shares\"]) < int(shares):\n return apology(\"Not enough shares\")\n db.execute(\"INSERT INTO history (company, shares, value, id, date) \\\n VALUES(:symbol, :shares, :price, :id, :date)\", \\\n symbol=stock[\"symbol\"], shares=-int(shares), \\\n price=stock[\"price\"], id=session[\"user_id\"], date = str(date.today())) \n db.execute(\"UPDATE users SET cash = cash + :purchase WHERE id = :id\", \\\n id=session[\"user_id\"], \\\n purchase=stock[\"price\"] * float(shares))\n \n shares_total = user_shares[0][\"shares\"] - int(shares)\n if shares_total == 0:\n db.execute(\"DELETE FROM profile \\\n WHERE id=:id AND symbol=:symbol\", \\\n id=session[\"user_id\"], \\\n symbol=stock[\"symbol\"])\n \n else:\n db.execute(\"UPDATE profile SET shares=:shares \\\n WHERE id=:id AND symbol=:symbol\", \\\n shares=shares_total, id=session[\"user_id\"], \\\n symbol=stock[\"symbol\"])\n \n return redirect(url_for(\"index\"))",
"def buy():\n # User reached route via POST (as by submitting a form via POST)\n if request.method == \"POST\":\n # Ensure symbol was submitted\n if not request.form.get(\"symbol\"):\n return apology(\"must provide symbol\", 403)\n\n # Ensure positive number of shares was submitted\n elif not request.form.get(\"shares\") or int(request.form.get(\"shares\")) < 0:\n return apology(\"must provide positive number of shares\", 403)\n\n else:\n returned_quote = lookup(request.form.get(\"symbol\"))\n row = db.execute(\"SELECT * FROM users WHERE id = :user_id\", user_id = session[\"user_id\"])\n if returned_quote == None:\n return apology(\"symbol does not exist\", 403)\n\n elif returned_quote[\"price\"] * int(request.form.get(\"shares\")) > row[0][\"cash\"]:\n return apology(\"cannot afford number of shares at current price\", 403)\n\n else:\n db.execute(\"INSERT INTO 'transaction' ('t_id','u_id','symbol','shares','price') VALUES (NULL,:u_id,:symbol,:shares,:price)\",\n u_id = session[\"user_id\"], symbol = returned_quote[\"symbol\"], shares = int(request.form.get(\"shares\")), price = returned_quote[\"price\"])\n db.execute(\"UPDATE users SET cash = cash - :price * :shares WHERE id = :user_id\",\n price = returned_quote[\"price\"], shares = int(request.form.get(\"shares\")), user_id = session[\"user_id\"])\n\n flash(\"Bought\")\n return redirect(\"/\")\n # User reached route via GET (as by clicking a link or via redirect)\n else:\n return render_template(\"buy.html\")",
"def sell():\n return apology(\"TODO\")\n if request.method == \"POST\":\n # Ensure symbol was submitted\n symbol = request.form.get(\"symbol\")\n if not symbol:\n return apology(\"must provide symbol\", 403)\n symbol = symbol.upper()\n\n # Ensure number of shares was submitted\n shares = request.form.get(\"shares\")\n if not shares:\n return apology(\"must provide shares\", 403)\n\n return render_template(\"sell.html\")",
"def buy():\n if request.method == \"GET\":\n return render_template(\"buy.html\")\n else:\n tick = request.form.get(\"ticker\")\n quote = lookup(tick)\n if not quote:\n return apology(\"Ticker does not exist\")\n shares = int(request.form.get(\"shares\"))\n if shares <= 0:\n return apology(\"Please input a valid number of shares\")\n money = db.execute(\"SELECT cash FROM users WHERE id = :id\", id=session[\"user_id\"])\n if float(money[0][\"cash\"]) < quote[\"price\"] * shares:\n return apology(\"Not enough money\")\n db.execute(\"UPDATE users SET cash = cash - :purchase WHERE id = :id\", id=session[\"user_id\"], purchase=(quote[\"price\"] * float(shares)))\n findshares = db.execute(\"SELECT shares FROM purchases WHERE user_id = :id AND ticker=:ticker\", id=session[\"user_id\"], ticker=quote[\"symbol\"])\n\n if not findshares:\n db.execute(\"INSERT INTO purchases (username, shares, price, total, ticker, user_id) VALUES(:username, :shares, :price, :total, :ticker, :id)\", username=quote[\"name\"], shares=shares, price=usd(quote[\"price\"]), total=usd(shares * quote[\"price\"]), ticker=quote[\"symbol\"], id=session[\"user_id\"])\n else:\n db.execute(\"UPDATE purchases SET shares=:number, total=:total WHERE user_id=:id AND ticker=:ticker\", id=session[\"user_id\"], ticker=quote[\"symbol\"], total=(float(quote[\"price\"])*float(shares)), number=int(findshares[0][\"shares\"]) + int(shares))\n return redirect(url_for(\"index\"))",
"def sell():\n \n user_id = session[\"user_id\"]\n\n if request.method == \"GET\":\n return render_template(\"sell.html\")\n \n if request.method == \"POST\":\n \n # get required symbol\n symbol = request.form.get(\"symbol\").upper()\n try:\n qty = int(request.form.get(\"qty\"))\n except ValueError:\n return apology(\"QTY is empty!\", 403)\n \n # proceed buy function\n sell_result: Tuple[float, str] = sell_shares(db, user_id, symbol, qty )\n if sell_result[0] == -1:\n return apology(sell_result[1], 403)\n\n return redirect(\"/\")",
"def purchase(self, item_type):",
"def buy():\n if request.method == \"GET\":\n return render_template(\"buy.html\")\n\n elif request.method == \"POST\":\n shares = request.form.get(\"shares\")\n symbol = request.form.get(\"symbol\")\n try:\n float(shares)\n except ValueError:\n return apology(\"please input a valid number of shares\")\n try:\n int(shares)\n except ValueError:\n return apology(\"please input a valid number of shares\")\n shares = int(shares)\n\n if not shares or not float(shares) or not float(shares).is_integer() or float(shares) <= 0:\n return apology(\"input a valid number of shares to buy\")\n\n elif not symbol or not lookup(symbol):\n return apology(\"input a valid symbol\")\n\n elif type(shares) != int:\n return apology(\"How did you even get this error?!\")\n\n else:\n quote = lookup(symbol)\n current_price = float(quote[\"price\"])\n company = quote[\"name\"]\n shares_num = int(request.form.get(\"shares\"))\n shares_tcost = float(shares_num * current_price)\n balance = db.execute(\"SELECT cash FROM users WHERE id = :id\", id=session['user_id'])\n\n # balance[0] b/c the returned value of balance is a dict of multiple lists\n flbal = [float(i) for i in list(balance[0].values())]\n for bal in flbal:\n if bal - shares_tcost < 0:\n return apology(\"Sorry, you don't have enough money\")\n else:\n newshares = bal - shares_tcost\n newbalance = db.execute(\"UPDATE users SET cash = :cash WHERE id = :id\", cash=newshares, id=session['user_id'])\n newpurchase = db.execute(\"INSERT INTO History ('symbol', 'company', 'shares', 'price', 'totalprice', 'id', 'transaction_type') VALUES (:symbol, :company, :shares, :price, :totalprice, :id, :transaction_type)\",\n symbol=symbol, company=company, shares=shares_num, price=current_price, totalprice=shares_tcost, id=session['user_id'], transaction_type=\"BUY\")\n\n return redirect('/')",
"def sell():\n if request.method == \"POST\":\n # Ensure data is inputted\n if not request.form.get(\"symbol\"):\n return apology(\"Insert symbol\", 403)\n \n if not request.form.get(\"shares\"):\n return apology(\"Insert number of shares to sell\", 403)\n \n # Ensure shares value is valid\n try:\n if not int(request.form.get(\"shares\")) > 0:\n return apology(\"invalid value\", 403)\n except ValueError:\n return apology(\"invalid value\", 403)\n \n # Ensure there's enough shares to sell \n share_count_dict = db.execute(\"SELECT share_count FROM shares WHERE user_id=:usid AND share=:share\", usid=session[\"user_id\"], share=request.form.get(\"symbol\").upper())\n share_count = int(share_count_dict[0][\"share_count\"])\n \n if int(request.form.get(\"shares\")) > share_count:\n return apology(\"You don't own enough shares\", 403)\n \n # Create variables\n symbol = request.form.get(\"symbol\").upper()\n quantity = int(request.form.get(\"shares\"))\n \n # Add cash to user data\n new_cash = float(lookup(symbol)[\"price\"]) * quantity\n db.execute(\"UPDATE users SET cash= cash + :cash WHERE id=:usid\", cash=new_cash, usid=session[\"user_id\"]) \n \n # Remove shares of user data\n db.execute(\"UPDATE shares SET share_count = share_count - :shares WHERE user_id=:usid AND share = :share\", shares=quantity,share=symbol, usid=session[\"user_id\"])\n db.execute(\"DELETE FROM shares WHERE user_id=:usid AND share_count = :shares\", usid=session[\"user_id\"], shares=0)\n \n # Record transaction\n db.execute(\"INSERT INTO history (user_id, symbol, shares, time, price) VALUES (:usid, :symbol, :shares, :time, :price)\", usid=session[\"user_id\"], symbol=symbol, shares='-' + str(quantity), time=str(db.execute(\"SELECT CURRENT_TIMESTAMP\")[0][\"CURRENT_TIMESTAMP\"]), price=str(lookup(symbol)[\"price\"]))\n \n return redirect(\"/\")\n \n else:\n # Create list with purchased symbols\n symbol_dicts = db.execute(\"SELECT share FROM shares WHERE user_id=:usid\", usid=session[\"user_id\"])\n symbol_list = [None] * len(symbol_dicts)\n \n # Insert symbols into list\n for i in range(len(symbol_dicts)):\n symbol_list[i] = symbol_dicts[i][\"share\"]\n \n return render_template(\"sell.html\", longitude=len(symbol_dicts), symbols=symbol_list)",
"def buy():\n\n if request.method == \"GET\":\n return render_template(\"buy.html\")\n\n # User reached route via POST (as by submitting a form via POST)\n shares = int(request.form.get(\"shares\"))\n symbol = request.form.get(\"symbol\")\n quote = lookup(symbol)\n\n if not quote:\n return apology(\"invalid symbol\", 404)\n\n price = quote['price']\n value = round(shares * price, 2)\n user = Users.query.get(session.get(\"user_id\"))\n\n if value > user.cash:\n return apology(\"You don't have enough cash\", 406)\n\n record = Records(symbol=quote['symbol'], company_name=quote['name'],\n transact_type=\"buy\", shares=shares, price=price, user_id=user.id)\n user.cash -= value\n db.session.add(record)\n db.session.commit()\n\n flash(\"Bought\")\n return redirect(url_for('index'))",
"def sell():\n if request.method == \"GET\":\n return render_template(\"sell.html\")\n else:\n tick = request.form.get(\"ticker\")\n quote = lookup(tick)\n if not quote:\n return apology(\"Ticker does not exist\")\n shares = int(request.form.get(\"shares\"))\n if shares <= 0:\n return apology(\"Please input a valid number of shares\")\n money = db.execute(\"SELECT cash FROM users WHERE id = :id\", id=session[\"user_id\"])\n #if shares < int(money[0][\"shares\"]):\n # return apology(\"You don\"t have those shares >:(\")\n db.execute(\"UPDATE users SET cash = cash + :purchase WHERE id = :id\", id=session[\"user_id\"], purchase=(quote[\"price\"] * float(shares)))\n findshares = db.execute(\"SELECT shares FROM purchases WHERE user_id = :id AND ticker=:ticker\", id=session[\"user_id\"], ticker=quote[\"symbol\"])\n \n \n if not findshares:\n return apology(\"You don\"t have those shares >:(\")\n else:\n if int(findshares[0][\"shares\"]) < int(shares):\n return apology(\"You don\"t have those shares >:(\")\n db.execute(\"UPDATE purchases SET shares=:number, total=:total WHERE user_id=:id AND ticker=:ticker\", id=session[\"user_id\"], ticker=quote[\"symbol\"], total=(float(quote[\"price\"])*float(shares)), number=int(findshares[0][\"shares\"]) - int(shares))\n return redirect(url_for(\"index\"))\n\nif __name__ == \"__main__\":",
"async def buy(self, ctx, *args):\n if has_post_permission(ctx.guild.id, ctx.channel.id):\n number, item = ch.parse_number_and_name(args)\n if number and item:\n out = item_helpers.buy(ctx.author.id, item, number=number)\n await ctx.send(out)",
"def buy():\n if request.method == \"POST\":\n\n # get share symbol from form\n symb = request.form.get(\"symbol\")\n # check if there is text and that it is a symbol\n if symb is None:\n return apology(\"Invalid symbol\", 400)\n else:\n # retrieve stock price, symbol and stock name via lookup function\n quote = lookup(request.form.get(\"symbol\"))\n\n # retrieve number of shares wanted as an int\n try:\n shares = int(request.form.get(\"shares\"))\n except ValueError:\n # return apology if not int\n return apology(\"Invalid amount\", 400)\n\n # if stock does not exist or is blank or if there is no quantity then apologise\n if quote is not None and shares > 0 :\n # get current user's cash. query session dict for current user logged in\n cash = db.execute(\"SELECT cash FROM users WHERE id=:id\", id=session[\"user_id\"])\n cash = cash[0][\"cash\"]\n\n # check that user has enough cash to purchase shares\n if cash > shares * quote[\"price\"]:\n # insert transaction into portfolio table if user has enough cash\n db.execute(\"INSERT INTO portfolio (name, userid, price, quantity) VALUES (:name, :userid, :price, :quantity)\",name=quote[\"symbol\"],userid=session[\"user_id\"], price=quote[\"price\"], quantity=shares)\n # update user's cash in the users table\n db.execute(\"UPDATE users SET cash = :cash WHERE id = :id\", cash=cash-shares*quote[\"price\"], id=session[\"user_id\"])\n # return user to index summary page after purchase\n return redirect(\"/\")\n else:\n flash(\"Not enough cash!\")\n return redirect(\"/buy\")\n else:\n return apology(\"Stock does not exist or quantity not given\", 400)\n\n # User reached route via GET (as by clicking a link or via redirect)\n else:\n return render_template(\"buy.html\")\n\n return apology(\"Buy failed\", 400)",
"def buy():\n \n user_id = session[\"user_id\"]\n\n if request.method == \"GET\":\n return render_template(\"buy.html\")\n \n if request.method == \"POST\":\n \n # get required symbol\n symbol = request.form.get(\"symbol\").upper()\n try:\n qty = int(request.form.get(\"qty\"))\n except ValueError:\n return apology(\"QTY is empty!\", 400)\n \n # proceed buy function\n buy_result: Tuple[float, str] = buy_share(db, user_id, symbol, qty )\n if buy_result[0] == -1:\n return apology(buy_result[1], 400)\n\n return redirect(\"/\", 200)",
"def sell():\n userid = session[\"user_id\"]\n if request.method == \"GET\":\n symbol = db.execute(\"SELECT symbol FROM purchase WHERE id=:uid\",uid=userid)\n # print(symbol)\n symbols = []\n for s in symbol:\n temp = s[\"symbol\"]\n symbols.append(temp)\n # print(symbols)\n return render_template(\"sell.html\", symbols=symbols)\n else:\n symbol_entry = request.form.get(\"symbol\")\n shares_entry = int(request.form.get(\"shares\"))\n if not symbol_entry or not shares_entry:\n return apology(\"Please select both symbol and shares\")\n\n data = db.execute(\"SELECT symbol, shares FROM purchase WHERE id=:uid\",uid=userid)\n share_check = 0\n\n for s in data:\n if(s[\"symbol\"] == symbol_entry):\n share_check = s[\"shares\"]\n # print(share_check)\n if shares_entry > share_check:\n return apology(\"You don't have this many shares of this company\")\n\n current_cash = (db.execute(\"SELECT cash FROM users WHERE id=:uid\", uid=userid))[0].get(\"cash\")\n query = lookup(symbol_entry)\n share_price = query[\"price\"]\n sold_price = share_price * shares_entry\n\n db.execute(\"UPDATE users SET cash=:sold WHERE id=:uid\",sold=sold_price+current_cash, uid=userid)\n if shares_entry == share_check:\n db.execute(\"DELETE FROM purchase WHERE symbol=:symbol AND id=:uid\", symbol=symbol_entry, uid=userid)\n else:\n db.execute(\"UPDATE purchase SET shares=:shares WHERE symbol=:symbol AND id=:uid\",shares=share_check-shares_entry,symbol=symbol_entry, uid=userid)\n\n nshare = -shares_entry\n dt = datetime.now(timezone(timedelta(hours=6)))\n dt = dt.strftime(\"%d-%m-%Y %H:%M:%S\")\n db.execute(\"INSERT INTO history (id, symbol, shares, price, time) VALUES (:userid, :symbol, :shares, :price, :time)\", userid=userid, symbol=symbol_entry,shares=nshare,price=share_price, time=dt)\n return render_template(\"sell.html\", message=\"Sold!\")\n print(data)",
"def buy():\n\n\n if request.method == \"GET\":\n return render_template(\"buy.html\")\n else:\n # ensure proper symbol\n stock = lookup(request.form.get(\"symbol\"))\n if not stock:\n return apology(\"Invalid Symbol\")\n\n # ensure that user requests for correct number of shares\n try:\n shares = int(request.form.get(\"shares\"))\n if shares < 0:\n return apology(\"Amount of shares must be greater than 0\")\n except:\n return apology(\"Amount of shares must be greater than 0\")\n\n # Retrieve the cash a user has\n dollars = db.execute(\"SELECT cash FROM users WHERE id = :id\", \\\n id=session[\"user_id\"])\n\n # check if enough cash to buy\n if not dollars or float(dollars[0][\"cash\"]) < stock[\"price\"] * shares:\n return apology(\"You cannot buy shares! Please add more cash\")\n\n now = datetime.now()\n date_time = now.strftime(\"%Y-%m-%d %H:%M\")\n\n\n # update history of shares bought\n db.execute(\"INSERT INTO history (symbol, shares, price, id, method, times, totaltrans) \\\n VALUES(:symbol, :shares, :price, :id, :method, :times, :totaltrans)\", \\\n symbol=stock[\"symbol\"], shares=shares, \\\n price=usd(stock[\"price\"]), id=session[\"user_id\"], method = \"Buy\", times= date_time, totaltrans = shares * stock[\"price\"] )\n\n # update user cash\n db.execute(\"UPDATE users SET cash = cash - :purchase WHERE id = :id\", \\\n id=session[\"user_id\"], \\\n purchase=stock[\"price\"] * float(shares))\n\n # Select user shares of that symbol\n user_shares = db.execute(\"SELECT shares FROM portfolio \\\n WHERE id = :id AND symbol=:symbol\", \\\n id=session[\"user_id\"], symbol=stock[\"symbol\"])\n\n # if user doesn't has shares of that symbol, create new stock object\n if not user_shares:\n db.execute(\"INSERT INTO portfolio (id, name, shares, symbol, price, total) \\\n VALUES(:id, :name, :shares, :symbol, :price, :total)\", \\\n id=session[\"user_id\"] , name=stock[\"name\"], \\\n shares=shares, symbol=stock[\"symbol\"], price=usd(stock[\"price\"]), \\\n total=usd(shares * stock[\"price\"]))\n\n # Else increment the shares count\n else:\n shares_total = user_shares[0][\"shares\"] + shares\n db.execute(\"UPDATE portfolio SET shares=:shares \\\n WHERE id=:id AND symbol=:symbol\", \\\n shares=shares_total, id=session[\"user_id\"], \\\n symbol=stock[\"symbol\"])\n\n # return to index\n return redirect(url_for(\"index\"))",
"def get_buy_and_sell_deal_name(self):\n global buy_and_sell_deal\n return buy_and_sell_deal",
"def buy():\n\n def price_check(cash, price, shares):\n \"\"\"check affordability of stock vs cash on hand\"\"\"\n affordable = (cash - (price * shares)) > 0\n\n if affordable:\n return affordable\n\n else:\n return False\n\n if request.method == \"POST\":\n\n stock = lookup(request.form.get(\"symbol\"))\n\n # check symbol and share # are valid\n if not stock:\n return apology(\"Missing or Incorrect Symbol\", 400)\n\n try:\n shares = int(request.form.get(\"shares\"))\n except ValueError:\n return apology(\"Input at least 1 share\", 400)\n\n if shares < 0:\n return apology(\"Input at least 1 share\", 400)\n\n\n # cast shares to int & fetch users cash on hand\n shares = int(request.form.get(\"shares\"))\n user_cash = db.execute(\"SELECT cash FROM users WHERE id = :user_id\", user_id=session[\"user_id\"])[0][\"cash\"]\n\n if price_check(user_cash, stock[\"price\"], shares) == False:\n return apology(\"Sorry, you can't afford this purchase.\", 400)\n\n else:\n # define variables for inserting into transactions table\n purchase_date = datetime.now().strftime(\"%Y-%m-%d %H:%M:%S\")\n\n # update user cash\n user_cash = user_cash - (stock[\"price\"]*shares)\n db.execute(\"UPDATE users SET cash = :user_cash WHERE id = :user_id\", user_id=session[\"user_id\"], user_cash=user_cash)\n\n # update transactions table with most recent transaction\n db.execute(\"\"\"\n INSERT INTO transactions(user_id, date, symbol, shares, price)\n VALUES(:user_id, :date, :symbol, :shares, :price)\n \"\"\",\n user_id=session[\"user_id\"],\n date=purchase_date,\n symbol=stock[\"symbol\"],\n shares=shares,\n price=stock[\"price\"]\n )\n\n return redirect(\"/\")\n\n else:\n return render_template(\"buy.html\")",
"def sell():\n\n if request.method == \"POST\":\n symbol = request.form.get(\"symbol\")\n if not symbol:\n return apology(\"Must enter a symbol\", 400)\n num_shares = request.form.get(\"shares\")\n if not num_shares:\n return apology(\"Must enter some number of shares to sell\", 400)\n company_quote = lookup(symbol)\n if company_quote == None:\n return apology(\"Invalid Symbol\", 400)\n num_shares = int(num_shares)\n if num_shares <= 0:\n return apology(\"Must enter a positve number of shares to sell\", 400)\n\n rows = db.execute(\"SELECT id, symbol, numshares FROM totalshares WHERE id = :id AND symbol = :symbol\",\n id=session[\"user_id\"], symbol=company_quote[\"symbol\"])\n if len(rows) != 1:\n return apology(\"You do not have shares of \" + symbol, 400)\n if num_shares > rows[0][\"numshares\"]:\n return apology(\"You cannot sell more shares than you have\", 400)\n\n sale_value = num_shares * company_quote[\"price\"]\n\n balance = db.execute(\"SELECT cash FROM users WHERE id = :id\",\n id=session['user_id'])\n balance = balance[0][\"cash\"]\n new_balance = balance + sale_value\n date_time = datetime.now().strftime(\"%d/%m/%Y %H:%M:%S\")\n # Update history in history table\n return_val = db.execute(\"INSERT INTO 'history' (id, symbol, shares, price, transacted) VALUES (:id, :symbol, :shares, :price, :transacted)\",\n id=session[\"user_id\"], symbol=company_quote[\"symbol\"], shares=num_shares*-1, price=company_quote[\"price\"], transacted = date_time)\n if return_val == None:\n return apology(\"something went wrong\", 403)\n\n #Update total number and value of each shares (symbol) held in totalshares table\n rows = db.execute(\"SELECT id, symbol, numshares, totalvalue FROM totalshares WHERE id = :id AND symbol = :symbol\",\n id=session[\"user_id\"], symbol=company_quote[\"symbol\"])\n new_numshares = rows[0][\"numshares\"] - num_shares\n new_totalvalue = rows[0][\"totalvalue\"] - sale_value\n return_val = db.execute(\"UPDATE totalshares SET numshares = :new_numshares, totalvalue = :new_totalvalue WHERE id = :id AND symbol = :symbol\",\n new_numshares=new_numshares, new_totalvalue=new_totalvalue, id=session[\"user_id\"], symbol=company_quote[\"symbol\"])\n if return_val == None:\n return apology(\"something went wrong\", 403)\n\n #Update balance in users table\n return_val = db.execute(\"UPDATE users SET cash = :cash WHERE id = :id\", cash=new_balance, id=session[\"user_id\"])\n if return_val != None:\n return redirect(\"/\")\n else:\n return apology(\"something went wrong\", 403)\n else:\n rows = db.execute(\"SELECT symbol, numshares FROM totalshares WHERE id = :id\", id=session[\"user_id\"])\n symbol_options = []\n if rows != None and len(rows) > 0:\n for row in rows:\n if row[\"numshares\"] > 0:\n symbol_options.append(row[\"symbol\"])\n return render_template(\"sell.html\", symbol_options=symbol_options)",
"def sell():\n\n if request.method == \"GET\":\n return render_template(\"sell.html\")\n else:\n # ensure proper symbol\n stock = lookup(request.form.get(\"symbol\"))\n if not stock:\n return apology(\"Invalid Symbol\")\n\n # ensure proper number of shares\n try:\n shares = int(request.form.get(\"shares\"))\n if shares < 0:\n return apology(\"Amount of shares must be greater than 0\")\n except:\n return apology(\"Amount of shares must be greater than 0\")\n\n # select the symbol shares of that user\n user_shares = db.execute(\"SELECT shares FROM portfolio \\\n WHERE id = :id AND symbol=:symbol\", \\\n id=session[\"user_id\"], symbol=stock[\"symbol\"])\n\n # check if enough shares to sell\n if not user_shares or int(user_shares[0][\"shares\"]) < shares:\n return apology(\"You don't hold enough shares\")\n\n now = datetime.now()\n date_time = now.strftime(\"%Y-%m-%d %H:%M\")\n\n # update history of a sell\n db.execute(\"INSERT INTO history (symbol, shares, price, id, method, times, totaltarns) \\\n VALUES(:symbol, :shares, :price, :id, :method, :times, :totaltrans)\", \\\n symbol=stock[\"symbol\"], shares=-shares, \\\n price=usd(stock[\"price\"]), id=session[\"user_id\"], method= \"sell\", times= date_time, totaltrans = shares * stock[\"price\"])\n\n # update user cash (increase)\n db.execute(\"UPDATE users SET cash = cash + :purchase WHERE id = :id\", \\\n id=session[\"user_id\"], \\\n purchase=stock[\"price\"] * float(shares))\n\n # decrement the shares count\n amountshares = user_shares[0][\"shares\"] - shares\n\n # if after decrement is zero, delete shares from portfolio\n if amountshares == 0:\n db.execute(\"DELETE FROM portfolio \\\n WHERE id=:id AND symbol=:symbol\", \\\n id=session[\"user_id\"], \\\n symbol=stock[\"symbol\"])\n # otherwise, update portfolio shares count\n else:\n db.execute(\"UPDATE portfolio SET shares=:shares \\\n WHERE id=:id AND symbol=:symbol\", \\\n shares=amountshares, id=session[\"user_id\"], \\\n symbol=stock[\"symbol\"])\n\n # return to index\n return redirect(url_for(\"index\"))",
"def sell():\n # User reached route via POST (as by submitting a form via POST)\n if request.method == \"POST\":\n # Ensure symbol was submitted\n if not request.form.get(\"symbol\"):\n return apology(\"must provide symbol\", 403)\n\n # Ensure positive number of shares was submitted\n elif not request.form.get(\"shares\") or int(request.form.get(\"shares\")) < 0:\n return apology(\"must provide positive number of shares\", 403)\n\n elif int(request.form.get(\"shares\")) > (db.execute(\"SELECT sum(shares) as shares FROM 'transaction' WHERE u_id = :user_id and symbol = :symbol\", user_id = session[\"user_id\"], symbol = request.form.get(\"symbol\")))[0][\"shares\"]:\n return apology(\"cannot sell more shares than owned\", 403)\n\n else:\n returned_quote = lookup(request.form.get(\"symbol\"))\n row = db.execute(\"SELECT * FROM users WHERE id = :user_id\", user_id = session[\"user_id\"])\n\n db.execute(\"INSERT INTO 'transaction' ('t_id','u_id','symbol','shares','price') VALUES (NULL,:u_id,:symbol,:shares,:price)\",\n u_id = session[\"user_id\"], symbol = returned_quote[\"symbol\"], shares = -1*int(request.form.get(\"shares\")), price = returned_quote[\"price\"])\n db.execute(\"UPDATE users SET cash = cash + :price * :shares WHERE id = :user_id\",\n price = returned_quote[\"price\"], shares = int(request.form.get(\"shares\")), user_id = session[\"user_id\"])\n\n flash(\"Sold\")\n return redirect(\"/\")\n\n # User reached route via GET (as by clicking a link or via redirect)\n else:\n rows = db.execute(\"SELECT symbol, SUM(shares) as shares FROM 'transaction' WHERE u_id = :user_id GROUP BY symbol\", user_id = session[\"user_id\"])\n\n if len(rows) > 0:\n return render_template(\"sell.html\", rows = rows)\n else:\n return apology(\"no shares to sell\", 403)"
] | [
"0.6623686",
"0.65005696",
"0.6355012",
"0.6187685",
"0.61218",
"0.6110256",
"0.6095317",
"0.6083086",
"0.6050374",
"0.6044662",
"0.60265183",
"0.60156727",
"0.6004226",
"0.6000957",
"0.59800345",
"0.59759986",
"0.59748304",
"0.5967851",
"0.59404165",
"0.5937776",
"0.5934514",
"0.59248364",
"0.5915361",
"0.5904493",
"0.5902335",
"0.5895699",
"0.5887057",
"0.5881057",
"0.58690906",
"0.58476126"
] | 0.71786714 | 0 |
Implementing click request new buy and sell deal functionality | def click_request_new_buy_and_sell_deal(self):
self.click_element(self.request_new_buy_and_sell_deal_locator, error_message="request new buy and sell deal locator not found before specified time out") | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def click_buy_and_sell_deal_create_button(self):\n self.click_element(self.save_vendor_profile_locator)",
"def buy():\n if request.method == \"GET\":\n return render_template(\"buy.html\")\n\n elif request.method == \"POST\":\n shares = request.form.get(\"shares\")\n symbol = request.form.get(\"symbol\")\n try:\n float(shares)\n except ValueError:\n return apology(\"please input a valid number of shares\")\n try:\n int(shares)\n except ValueError:\n return apology(\"please input a valid number of shares\")\n shares = int(shares)\n\n if not shares or not float(shares) or not float(shares).is_integer() or float(shares) <= 0:\n return apology(\"input a valid number of shares to buy\")\n\n elif not symbol or not lookup(symbol):\n return apology(\"input a valid symbol\")\n\n elif type(shares) != int:\n return apology(\"How did you even get this error?!\")\n\n else:\n quote = lookup(symbol)\n current_price = float(quote[\"price\"])\n company = quote[\"name\"]\n shares_num = int(request.form.get(\"shares\"))\n shares_tcost = float(shares_num * current_price)\n balance = db.execute(\"SELECT cash FROM users WHERE id = :id\", id=session['user_id'])\n\n # balance[0] b/c the returned value of balance is a dict of multiple lists\n flbal = [float(i) for i in list(balance[0].values())]\n for bal in flbal:\n if bal - shares_tcost < 0:\n return apology(\"Sorry, you don't have enough money\")\n else:\n newshares = bal - shares_tcost\n newbalance = db.execute(\"UPDATE users SET cash = :cash WHERE id = :id\", cash=newshares, id=session['user_id'])\n newpurchase = db.execute(\"INSERT INTO History ('symbol', 'company', 'shares', 'price', 'totalprice', 'id', 'transaction_type') VALUES (:symbol, :company, :shares, :price, :totalprice, :id, :transaction_type)\",\n symbol=symbol, company=company, shares=shares_num, price=current_price, totalprice=shares_tcost, id=session['user_id'], transaction_type=\"BUY\")\n\n return redirect('/')",
"def buy():\n\n # User reached route via GET (as by clicking a link or via redirect)\n if request.method == \"GET\":\n return render_template(\"buy.html\")\n else:\n symbol = request.form.get(\"symbol\")\n if not symbol:\n return apology(\"must provide symbol\", 400)\n\n # Check if symbol exist in lookup(symbol)\n symbol = lookup(symbol)\n\n if not symbol :\n return apology(\"symbol doesn't exist,sorry\", 400)\n else:\n name = symbol.get(\"name\")\n price = symbol.get(\"price\")\n symbol = symbol.get(\"symbol\")\n\n # Check if shares of name is a integer\n shares = request.form.get(\"shares\")\n\n # https://www.geeksforgeeks.org/program-check-input-integer-string/\n n = len(shares)\n for i in range(n) :\n if shares[i].isdigit() != True :\n return apology(\"shares need to be a number\", 400)\n\n shares = int(shares)\n\n # if positive number\n if shares > 0:\n\n # Query database for user's cash\n cash = db.execute(\"SELECT cash FROM users WHERE id = :userID\",\n userID=session[\"user_id\"])\n\n # Get cash\n cash = cash[0][\"cash\"]\n\n # Check user if have enough money\n buyNeed = shares*price\n if cash > buyNeed:\n\n # Update csah in users TABLE\n db.execute(\"UPDATE users SET cash = :cash WHERE id = :userID\", cash=cash-buyNeed, userID=session[\"user_id\"])\n\n # Check purchase time\n now = datetime.now(timezone('Asia/Shanghai'))\n\n # Add to buy table\n db.execute(\"INSERT INTO buy (date, symbol, name, price, shares, costmoney, userID) VALUES (:date, :symbol, :name, :price, :shares, :costmoney, :userID)\",\n date=now, symbol=symbol, name=name, price=price, shares=shares, costmoney=buyNeed, userID=session[\"user_id\"])\n\n # Add to buy-sell table\n db.execute(\"INSERT INTO bs (symbol, price, shares, date, userID) VALUES (:symbol, :price, :shares, :date, :userID)\", symbol=symbol, price=usd(price), shares=shares, date=now, userID=session[\"user_id\"])\n\n # Count finally cash\n endCash=cash-buyNeed\n\n # Count total shares and costmoney by buy\n sharesTotal = db.execute(\"SELECT shares FROM buy WHERE userID = :userID and name = :name\", userID=session[\"user_id\"], name=name)\n costmoneyTotal = db.execute(\"SELECT costmoney FROM buy WHERE userID = :userID and name = :name\", userID=session[\"user_id\"], name=name)\n\n # len(sharesTotal)\n st = len(sharesTotal)\n\n # Sum shares\n sumItem = 0\n for item in range(st):\n sumItem = sharesTotal[item][\"shares\"] + sumItem\n sharesTotal_2 = sumItem\n\n # Sum cost money\n sumItem2 = 0\n for item2 in range(st):\n sumItem2 = costmoneyTotal[item2][\"costmoney\"] + sumItem2\n costmoneyTotal_2 = sumItem2\n\n\n # Ensure return total number and totalGet by sell\n sharesTotalSell = db.execute(\"SELECT shares FROM sell WHERE userID = :userID and name = :name\", userID=session[\"user_id\"], name=name)\n costmoneyTotalSell = db.execute(\"SELECT totalGet FROM sell WHERE userID = :userID and name = :name\", userID=session[\"user_id\"], name=name)\n\n # Len of sharesTotalSell\n stS = len(sharesTotalSell)\n\n # Sum of sell shares\n sumItem3 = 0\n for item3 in range(stS):\n sumItem3 = sharesTotalSell[item3][\"shares\"] + sumItem3\n\n # Buy - sell shares\n sharesTotal_2 = sharesTotal_2-sumItem3\n\n # Sum of sell totalGet\n sumItem4 = 0\n for item4 in range(stS):\n sumItem4= costmoneyTotalSell[item4][\"totalGet\"] + sumItem4\n\n # Buy -sell totalGet\n costmoneyTotal_2 = costmoneyTotal_2-sumItem4\n\n # Test if can update total though shares\n total = db.execute(\"SELECT sharesTotal FROM total WHERE userID = :userID and name = :name\", userID=session[\"user_id\"], name=name)\n\n # Insert total TABLE\n if not total:\n db.execute(\"INSERT INTO total (name, symbol, price, sharesTotal, costmoneyTotal, userID) VALUES (:name, :symbol, :price, :sharesTotal, :costmoneyTotal, :userID)\",\n name=name, symbol=symbol, price=price, sharesTotal=sharesTotal_2, costmoneyTotal=costmoneyTotal_2, userID=session[\"user_id\"])\n # Update total TABLE\n else:\n db.execute(\"UPDATE total SET sharesTotal = :sharesTotal, costmoneyTotal = :costmoneyTotal WHERE userID = :userID and name = :name\", sharesTotal=sharesTotal_2, costmoneyTotal=costmoneyTotal_2, userID=session[\"user_id\"], name=name)\n\n # SELECT all rows from total TABLE WHERE userID = session[\"user_id\"]\n total = db.execute(\"SELECT * FROM total WHERE userID = :userID\", userID=session[\"user_id\"])\n\n # Len of total\n tlen = len(total)\n\n # Get user cash\n cash = db.execute(\"SELECT cash FROM users WHERE id = :userID\",\n userID=session[\"user_id\"])\n\n cash = usd(cash[0][\"cash\"])\n\n # Change price, costmoney to usd format\n for n in range(tlen):\n total[n][\"price\"] = usd(total[n][\"price\"])\n total[n][\"costmoneyTotal\"] = usd(total[n][\"costmoneyTotal\"])\n total = list(reversed(total))\n\n # Flash\n flash(\"buy\")\n return render_template(\"buyed.html\", total=total, tlen=tlen, cash=cash)\n\n else:\n # Else cash not enough\n return apology(\"cash not enough\", 400)\n\n else:\n # Else not positive number\n return apology(\"not positive number\", 400)",
"def click_request_new_deal_button(self):\n self.click_element(self.request_new_deal_button_locator)",
"def sell():\n\n # if user reached route via GET return them an input form\n if request.method == \"GET\":\n return render_template(\"sell.html\")\n\n # if user reached route via POST (as by submitting a form via POST)\n elif request.method == \"POST\":\n\n # get id as it is used many times\n id = session[\"user_id\"]\n\n # get symbol input\n symbol = request.form.get(\"symbol\")\n\n # get share volume requested\n volume = int(request.form.get(\"volume\"))\n\n # ensure stock symbol was submitted\n if not symbol:\n return apology(\"you must provide a stock symbol\")\n\n # ensure positive volume (integer rule handled elsewhere)\n elif volume <= 0:\n return apology(\"volume must be integer greater than 0\")\n\n # lookup stock on yahoo\n stock_info = lookup(symbol)\n\n # if error looking stock up\n if not stock_info:\n return apology(\"that stock symbol doesn't exist\")\n\n # check if user already owns any stock in this company\n existing = db.execute(\"SELECT num_shares FROM portfolio WHERE id = :id AND symbol = :symbol\", id=id, symbol=symbol)\n\n # if sufficient cash, make purchase, else return apology\n if not existing:\n return apology(\"you don't own this stock\")\n else:\n if existing[0]['num_shares'] < volume:\n return apology('you cannot sell more shares than you own')\n else:\n # query database for\n cash = db.execute(\"SELECT cash FROM users WHERE id = :id\", id=id)\n cash = cash[0]['cash']\n\n minus = db.execute(\"UPDATE portfolio SET num_shares = :num_shares WHERE id = :id AND symbol = :symbol\", num_shares=existing[0]['num_shares'] - volume, id=id, symbol=symbol)\n\n # set date string\n dstring = str(datetime.datetime.utcnow())\n\n # update transaction history\n result2 = db.execute(\"INSERT INTO `transaction` (id, symbol, volume, share_price, dtstamp) VALUES(:id, :symbol, :volume, :share_price, :dtstamp)\", id=id, symbol=symbol, volume=-volume, share_price=stock_info['price'], dtstamp=dstring)\n\n # calculate sale price\n sale_price = stock_info['price'] * volume\n\n # increase cash balance\n result = db.execute(\"UPDATE users SET cash = :cash WHERE id = :id\", cash=cash+sale_price, id=id)\n\n # redirect user to home page\n return redirect(url_for(\"index\"))",
"def buy():\n\n # if user reached route via GET return them an input form\n if request.method == \"GET\":\n return render_template(\"buy.html\")\n\n # if user reached route via POST (as by submitting a form via POST)\n elif request.method == \"POST\":\n\n # get id as it is used many times\n id = session[\"user_id\"]\n\n # get symbol as it is used many times\n symbol = request.form.get(\"symbol\")\n\n # get share volume requested\n volume = int(request.form.get(\"volume\"))\n\n # ensure stock symbol was submitted\n if not symbol:\n return apology(\"you must provide a stock symbol\")\n\n # ensure positive volume (integer rule handled elsewhere)\n elif volume <= 0:\n return apology(\"volume must be integer greater than 0\")\n\n # lookup stock on yahoo\n stock_info = lookup(symbol)\n\n # if error looking stock up\n if not stock_info:\n return apology(\"that stock symbol doesn't exist\")\n\n # query database for cash balance\n cash = db.execute(\"SELECT cash FROM users WHERE id = :id\", id=id)\n cash = cash[0]['cash']\n\n # cost of requested shares\n purchase_cost = volume * stock_info['price']\n\n # if sufficient cash, make purchase, else return apology\n if purchase_cost <= cash:\n\n # check if user already owns any stock in this company\n existing = db.execute(\"SELECT num_shares FROM portfolio WHERE id = :id AND symbol = :symbol\", id=id, symbol=symbol)\n\n # if no existing shares, add them\n if not existing:\n new = db.execute(\"INSERT INTO portfolio (id, symbol, num_shares) VALUES(:id, :symbol, :num_shares)\", id=id, symbol=symbol, num_shares=volume)\n\n # if there are existing shares, add new volume to them\n else:\n add = db.execute(\"UPDATE portfolio SET num_shares = :num_shares WHERE id = :id AND symbol = :symbol\", num_shares=existing[0]['num_shares'] + volume, id=id, symbol=symbol)\n\n # set date string\n dstring = time(str(datetime.datetime.utcnow()))\n\n # update transaction history\n result2 = db.execute(\"INSERT INTO `transaction` (id, symbol, volume, share_price, dtstamp) VALUES(:id, :symbol, :volume, :share_price, :dtstamp)\", id=id, symbol=symbol, volume=volume, share_price=stock_info['price'], dtstamp=dstring)\n\n # reduce cash balance\n result = db.execute(\"UPDATE users SET cash = :cash WHERE id = :id\", cash=cash-purchase_cost, id=id)\n\n # redirect user to home page\n return redirect(url_for(\"index\"))\n else:\n return apology(\"insufficient funds\")",
"def buy():\n\n # User reached route via POST (as by submitting a form via POST)\n if request.method == \"POST\":\n\n # Access form data\n symbol = request.form.get(\"symbol\")\n shares = request.form.get(\"shares\")\n\n # Access user's id\n user_id = session[\"user_id\"]\n\n # Ensure symbol was submitted\n if not symbol:\n return apology(\"must provide symbol\", 400)\n\n # Ensure shares was submitted\n if not shares:\n return apology(\"must provide shares\", 400)\n\n # Check if submitted shares string is a positive integer\n if not shares.isdigit() :\n return apology(\"shares is not a number\", 400)\n # Shares is valid\n else:\n shares = int(shares)\n\n # Obtain quote using lookup function\n QUOTED = lookup(symbol)\n\n # Ensure valid symbol was submitted\n if QUOTED is None:\n return apology(\"invalid symbol\", 400)\n\n # Check if user has enough cash to buy shares\n cash = db.execute(\"SELECT cash FROM users WHERE id = ?\", user_id)[0][\"cash\"]\n cost = QUOTED[\"price\"] * shares\n if cash < cost:\n return apology(\"can't afford\", 400)\n\n # New amount of cash user has after buying shares\n new_cash_total = cash - cost\n\n # Update cash in users table for user\n db.execute(\"UPDATE users SET cash = ? WHERE id = ?\", new_cash_total, user_id)\n\n # Insert buy log into history table\n db.execute(\"INSERT INTO history (user_id, symbol, shares, price, transacted) VALUES (?, ?, ?, ?, datetime('now'))\",\n user_id, QUOTED[\"symbol\"], shares, QUOTED[\"price\"])\n\n # Keep track of shares in shares table\n current_shares = db.execute(\"SELECT shares_count FROM shares WHERE user_id = ? AND symbol = ?\", user_id, QUOTED[\"symbol\"])\n\n # If shares have not been bought before\n if not current_shares:\n db.execute(\"INSERT INTO shares VALUES (?, ?, ?, ?, ?, ?)\",\n user_id, QUOTED[\"symbol\"], QUOTED[\"name\"], shares, QUOTED[\"price\"], QUOTED[\"price\"])\n\n # If shares have been bought before\n else:\n new_shares_total = current_shares[0][\"shares_count\"] + shares\n shares_value_total = new_shares_total * QUOTED[\"price\"]\n db.execute(\"UPDATE shares SET shares_count = ?, price = ?, total = ? WHERE user_id = ? AND symbol = ?\",\n new_shares_total, QUOTED[\"price\"], shares_value_total, user_id, QUOTED[\"symbol\"])\n\n # Redirect user to home page\n flash(\"Bought!\", \"info\")\n return redirect(\"/\")\n\n # User reached route via GET (as by clicking a link or via redirect)\n else:\n return render_template(\"buy.html\")",
"def buy():\n\n def price_check(cash, price, shares):\n \"\"\"check affordability of stock vs cash on hand\"\"\"\n affordable = (cash - (price * shares)) > 0\n\n if affordable:\n return affordable\n\n else:\n return False\n\n if request.method == \"POST\":\n\n stock = lookup(request.form.get(\"symbol\"))\n\n # check symbol and share # are valid\n if not stock:\n return apology(\"Missing or Incorrect Symbol\", 400)\n\n try:\n shares = int(request.form.get(\"shares\"))\n except ValueError:\n return apology(\"Input at least 1 share\", 400)\n\n if shares < 0:\n return apology(\"Input at least 1 share\", 400)\n\n\n # cast shares to int & fetch users cash on hand\n shares = int(request.form.get(\"shares\"))\n user_cash = db.execute(\"SELECT cash FROM users WHERE id = :user_id\", user_id=session[\"user_id\"])[0][\"cash\"]\n\n if price_check(user_cash, stock[\"price\"], shares) == False:\n return apology(\"Sorry, you can't afford this purchase.\", 400)\n\n else:\n # define variables for inserting into transactions table\n purchase_date = datetime.now().strftime(\"%Y-%m-%d %H:%M:%S\")\n\n # update user cash\n user_cash = user_cash - (stock[\"price\"]*shares)\n db.execute(\"UPDATE users SET cash = :user_cash WHERE id = :user_id\", user_id=session[\"user_id\"], user_cash=user_cash)\n\n # update transactions table with most recent transaction\n db.execute(\"\"\"\n INSERT INTO transactions(user_id, date, symbol, shares, price)\n VALUES(:user_id, :date, :symbol, :shares, :price)\n \"\"\",\n user_id=session[\"user_id\"],\n date=purchase_date,\n symbol=stock[\"symbol\"],\n shares=shares,\n price=stock[\"price\"]\n )\n\n return redirect(\"/\")\n\n else:\n return render_template(\"buy.html\")",
"def buy():\n if request.method == \"POST\":\n symbol = request.form.get(\"symbol\")\n if not symbol:\n return apology(\"Must enter a symbol\", 400)\n num_shares = request.form.get(\"shares\")\n if not num_shares:\n return apology(\"Must enter some number of shares to buy\", 400)\n company_quote = lookup(symbol)\n if company_quote == None:\n return apology(\"Invalid Symbol\", 400)\n num_shares = int(num_shares)\n if num_shares <= 0:\n return apology(\"Must enter a positve number of shares to buy\", 400)\n balance = db.execute(\"SELECT cash FROM users WHERE id = :id\",\n id=session['user_id'])\n balance = balance[0][\"cash\"]\n cost = num_shares * company_quote[\"price\"]\n if balance < cost:\n return apology(\"Insufficient cash\", 400)\n else:\n new_balance = balance - cost\n date_time = datetime.now().strftime(\"%d/%m/%Y %H:%M:%S\")\n # Update history in history table\n return_val = db.execute(\"INSERT INTO 'history' (id, symbol, shares, price, transacted) VALUES (:id, :symbol, :shares, :price, :transacted)\",\n id=session[\"user_id\"], symbol=company_quote[\"symbol\"], shares=num_shares, price=company_quote[\"price\"], transacted = date_time)\n if return_val == None:\n return apology(\"something went wrong\", 403)\n\n\n #Update total number and value of each shares (symbol) held in totalshares table\n rows = db.execute(\"SELECT id, symbol, numshares, totalvalue FROM totalshares WHERE id = :id AND symbol = :symbol\",\n id=session[\"user_id\"], symbol=company_quote[\"symbol\"])\n if len(rows) != 1: #if nothing is returned i.e id and symbol combination does not already exist, insert it\n return_val = db.execute(\"INSERT INTO totalshares (id, symbol, numshares, totalvalue) VALUES (:id, :symbol, :numshares, :totalvalue)\",\n id=session[\"user_id\"], symbol=company_quote[\"symbol\"], numshares=num_shares, totalvalue=cost)\n if return_val == None:\n return apology(\"something went wrong\", 403)\n else: #if id, symbol combination exists already, update numshares and totalvalue\n new_numshares = rows[0][\"numshares\"] + num_shares\n new_totalvalue = rows[0][\"totalvalue\"] + cost\n return_val = db.execute(\"UPDATE totalshares SET numshares = :new_numshares, totalvalue = :new_totalvalue WHERE id = :id AND symbol = :symbol\",\n new_numshares=new_numshares, new_totalvalue=new_totalvalue, id=session[\"user_id\"], symbol=company_quote[\"symbol\"])\n if return_val == None:\n return apology(\"something went wrong\", 403)\n\n #Update balance in users table\n return_val = db.execute(\"UPDATE users SET cash = :cash WHERE id = :id\", cash=new_balance, id=session[\"user_id\"])\n if return_val != None:\n return redirect(\"/\")\n else:\n return apology(\"something went wrong\", 403)\n\n else:\n return render_template(\"buy.html\")",
"def buy():\n if request.method == \"POST\":\n\n if not request.form.get(\"shares\"):\n return apology(\"gimme share\", 400)\n if not lookup(request.form.get(\"symbol\")):\n return apology(\"not correct stock\", 400)\n if not request.form.get(\"shares\").isdigit():\n return apology(\"sorry bro\", 400)\n\n quote = lookup(request.form.get(\"symbol\"))\n\n money_list = db.execute(\"SELECT cash FROM users WHERE id = :current_id\", current_id=session[\"user_id\"])\n available_money = money_list[0][\"cash\"]\n\n total_price = int(request.form.get(\"shares\")) * float(quote[\"price\"])\n\n if available_money < total_price:\n return apology(\"no money bro\", 400)\n\n insertion = db.execute(\"INSERT INTO transactions (id, stock, units, price, time, type) VALUES (:current_id, :stock, :units, :price, :now, :type)\",\n current_id=session[\"user_id\"], stock=request.form.get(\"symbol\"), units=request.form.get(\"shares\"), price=float(quote[\"price\"]), now=datetime.datetime.now(), type=\"B\")\n updating = db.execute(\"UPDATE users SET cash = cash - :upd_price WHERE id = :current_id\",\n upd_price=total_price, current_id=session[\"user_id\"])\n\n money_upd_list = db.execute(\"SELECT cash FROM users WHERE id = :current_id\", current_id=session[\"user_id\"])\n available_money_upd = money_upd_list[0][\"cash\"]\n\n return render_template(\"buy_result.html\",\n shares=request.form.get(\"shares\"),\n symbol=request.form.get(\"symbol\"),\n price=usd(total_price),\n cash=usd(available_money_upd))\n else:\n return render_template(\"buy.html\")",
"def sell():\n\n if request.method == \"POST\":\n symbol = request.form.get(\"symbol\")\n if not symbol:\n return apology(\"Must enter a symbol\", 400)\n num_shares = request.form.get(\"shares\")\n if not num_shares:\n return apology(\"Must enter some number of shares to sell\", 400)\n company_quote = lookup(symbol)\n if company_quote == None:\n return apology(\"Invalid Symbol\", 400)\n num_shares = int(num_shares)\n if num_shares <= 0:\n return apology(\"Must enter a positve number of shares to sell\", 400)\n\n rows = db.execute(\"SELECT id, symbol, numshares FROM totalshares WHERE id = :id AND symbol = :symbol\",\n id=session[\"user_id\"], symbol=company_quote[\"symbol\"])\n if len(rows) != 1:\n return apology(\"You do not have shares of \" + symbol, 400)\n if num_shares > rows[0][\"numshares\"]:\n return apology(\"You cannot sell more shares than you have\", 400)\n\n sale_value = num_shares * company_quote[\"price\"]\n\n balance = db.execute(\"SELECT cash FROM users WHERE id = :id\",\n id=session['user_id'])\n balance = balance[0][\"cash\"]\n new_balance = balance + sale_value\n date_time = datetime.now().strftime(\"%d/%m/%Y %H:%M:%S\")\n # Update history in history table\n return_val = db.execute(\"INSERT INTO 'history' (id, symbol, shares, price, transacted) VALUES (:id, :symbol, :shares, :price, :transacted)\",\n id=session[\"user_id\"], symbol=company_quote[\"symbol\"], shares=num_shares*-1, price=company_quote[\"price\"], transacted = date_time)\n if return_val == None:\n return apology(\"something went wrong\", 403)\n\n #Update total number and value of each shares (symbol) held in totalshares table\n rows = db.execute(\"SELECT id, symbol, numshares, totalvalue FROM totalshares WHERE id = :id AND symbol = :symbol\",\n id=session[\"user_id\"], symbol=company_quote[\"symbol\"])\n new_numshares = rows[0][\"numshares\"] - num_shares\n new_totalvalue = rows[0][\"totalvalue\"] - sale_value\n return_val = db.execute(\"UPDATE totalshares SET numshares = :new_numshares, totalvalue = :new_totalvalue WHERE id = :id AND symbol = :symbol\",\n new_numshares=new_numshares, new_totalvalue=new_totalvalue, id=session[\"user_id\"], symbol=company_quote[\"symbol\"])\n if return_val == None:\n return apology(\"something went wrong\", 403)\n\n #Update balance in users table\n return_val = db.execute(\"UPDATE users SET cash = :cash WHERE id = :id\", cash=new_balance, id=session[\"user_id\"])\n if return_val != None:\n return redirect(\"/\")\n else:\n return apology(\"something went wrong\", 403)\n else:\n rows = db.execute(\"SELECT symbol, numshares FROM totalshares WHERE id = :id\", id=session[\"user_id\"])\n symbol_options = []\n if rows != None and len(rows) > 0:\n for row in rows:\n if row[\"numshares\"] > 0:\n symbol_options.append(row[\"symbol\"])\n return render_template(\"sell.html\", symbol_options=symbol_options)",
"def purchase(self, item_type):",
"def buy():\n\n\n if request.method == \"GET\":\n return render_template(\"buy.html\")\n else:\n # ensure proper symbol\n stock = lookup(request.form.get(\"symbol\"))\n if not stock:\n return apology(\"Invalid Symbol\")\n\n # ensure that user requests for correct number of shares\n try:\n shares = int(request.form.get(\"shares\"))\n if shares < 0:\n return apology(\"Amount of shares must be greater than 0\")\n except:\n return apology(\"Amount of shares must be greater than 0\")\n\n # Retrieve the cash a user has\n dollars = db.execute(\"SELECT cash FROM users WHERE id = :id\", \\\n id=session[\"user_id\"])\n\n # check if enough cash to buy\n if not dollars or float(dollars[0][\"cash\"]) < stock[\"price\"] * shares:\n return apology(\"You cannot buy shares! Please add more cash\")\n\n now = datetime.now()\n date_time = now.strftime(\"%Y-%m-%d %H:%M\")\n\n\n # update history of shares bought\n db.execute(\"INSERT INTO history (symbol, shares, price, id, method, times, totaltrans) \\\n VALUES(:symbol, :shares, :price, :id, :method, :times, :totaltrans)\", \\\n symbol=stock[\"symbol\"], shares=shares, \\\n price=usd(stock[\"price\"]), id=session[\"user_id\"], method = \"Buy\", times= date_time, totaltrans = shares * stock[\"price\"] )\n\n # update user cash\n db.execute(\"UPDATE users SET cash = cash - :purchase WHERE id = :id\", \\\n id=session[\"user_id\"], \\\n purchase=stock[\"price\"] * float(shares))\n\n # Select user shares of that symbol\n user_shares = db.execute(\"SELECT shares FROM portfolio \\\n WHERE id = :id AND symbol=:symbol\", \\\n id=session[\"user_id\"], symbol=stock[\"symbol\"])\n\n # if user doesn't has shares of that symbol, create new stock object\n if not user_shares:\n db.execute(\"INSERT INTO portfolio (id, name, shares, symbol, price, total) \\\n VALUES(:id, :name, :shares, :symbol, :price, :total)\", \\\n id=session[\"user_id\"] , name=stock[\"name\"], \\\n shares=shares, symbol=stock[\"symbol\"], price=usd(stock[\"price\"]), \\\n total=usd(shares * stock[\"price\"]))\n\n # Else increment the shares count\n else:\n shares_total = user_shares[0][\"shares\"] + shares\n db.execute(\"UPDATE portfolio SET shares=:shares \\\n WHERE id=:id AND symbol=:symbol\", \\\n shares=shares_total, id=session[\"user_id\"], \\\n symbol=stock[\"symbol\"])\n\n # return to index\n return redirect(url_for(\"index\"))",
"def buy():\n if request.method == \"POST\":\n\n stock = lookup(request.form.get(\"symbol\"))\n\n # This took a while for check to confirm. First check that user input is digit.\n if not request.form.get(\"shares\").isdigit():\n return apology(\"Inavalid number of shares\")\n numOfShares = request.form.get(\"shares\")\n\n # If request is POST firstly check if anything has been submitted.\n if not request.form.get(\"symbol\"):\n return apology(\"You haven't typed a symbol\")\n # if stock lookup request is None or if the numOfShares is not a number of 1 or higher return apologies.\n if stock is None:\n return apology(\"This doesn't seem to be a valid symbol, try again\")\n # userID and user serparate in case both are required.\n userID = session[\"user_id\"]\n user = db.execute(\"SELECT * FROM users WHERE id = :id\", id=userID)\n #funds is a float and can be multiplied by number of shares\n funds = float(user[0][\"cash\"])\n purchasePrice = stock[\"price\"] * int(numOfShares)\n\n date_time = datetime.now().strftime('%d-%m-%Y %H:%M:%S')\n\n\n if funds < purchasePrice:\n return apology(\"You don't have sufficient funds to make this purchase\")\n else:\n # Take price off total cash for current user.\n db.execute(\"UPDATE users SET cash = cash - :purchasePrice WHERE id = :userID\", purchasePrice=purchasePrice, userID=userID)\n # Insert into transactions table the id, symbol, number of share bought, price per share, the time,date and the BUY order.\n db.execute(\"INSERT INTO transactions (id, symbol, num_shares, price_ps, date_time, buy_or_sell) VALUES (:id, :symbol, :num_shares, :price_ps, :date_time, :buy_or_sell)\",\n id=userID, symbol=stock[\"symbol\"], num_shares=numOfShares, price_ps=stock[\"price\"], date_time=date_time, buy_or_sell=\"BUY\")\n # stockowned allows search of portfolio table for results that have userID and the bought stock.\n stockOwned = db.execute(\"SELECT * FROM portfolio WHERE symbol=:symbol AND id=:userID\", symbol=stock[\"symbol\"], userID=userID)\n # If there are nor results (not stockowned) then insert into portfolio\n if not stockOwned:\n db.execute(\"INSERT INTO portfolio (id, symbol, numOwned, pricePerShare, totalValue) VALUES (:userID, :symbol, :numOwned, :pricePerShare, :totalValue)\",\n userID=userID, symbol=stock[\"symbol\"], numOwned=numOfShares, pricePerShare=stock[\"price\"], totalValue=purchasePrice)\n # Other wise update the current results. Had to ensuer numOf Share was floas was sotred as a str. Using indexes of stockowned for values.\n else:\n newNumOwned = stockOwned[0][\"numOwned\"] + float(numOfShares)\n newTotalValue = stockOwned[0][\"totalValue\"] + purchasePrice\n newPPS = \"%.2f\"%(newTotalValue / newNumOwned)\n db.execute(\"UPDATE portfolio SET numOwned = :newNumOwned, totalValue = :newTotalValue, pricePerShare = :newPPS WHERE symbol=:symbol AND id=:userID\",\n newNumOwned=newNumOwned, newTotalValue=newTotalValue, newPPS=newPPS, symbol=stock[\"symbol\"], userID=userID)\n\n return redirect(\"/\")\n\n # If a GET request, return the buy.html template.\n else:\n return render_template(\"buy.html\")",
"def buy():\n if request.method == \"GET\":\n return render_template(\"buy.html\")\n elif request.method == \"POST\":\n\n symbolInput = request.form.get(\"symbol\")\n shares = float(request.form.get(\"shares\"))\n\n symbolName = lookup(symbolInput)[\"name\"]\n symbolPrice = lookup(symbolInput)[\"price\"]\n symbolTicker = lookup(symbolInput)[\"symbol\"]\n\n if symbolInput != symbolTicker or symbolInput == \"\" or shares == \"\" or shares < 1:\n return apology(\"No buy for you senpai!\")\n\n else:\n userId = session[\"user_id\"]\n totalPrice = shares * symbolPrice\n availableCash = float(db.execute(f\"SELECT cash FROM users WHERE id={userId}\")[0][\"cash\"])\n\n if totalPrice > availableCash:\n return apology(\"Not enough available tendies\")\n else:\n now = datetime.now()\n transTime = now.strftime(\"%d/%m/%Y %H:%M:%S\")\n availableCash -= totalPrice\n\n db.execute(f\"UPDATE users SET cash = '{availableCash}' WHERE id = '{userId}'\")\n\n db.execute(f\"INSERT INTO transactions (trans_time, trans_type, user_id, symbol, price, shares, value, name, current_price) VALUES ('{transTime}','BUY','{userId}','{symbolTicker}','{symbolPrice}','{shares}','{totalPrice}','{symbolName}','{symbolPrice}')\")\n\n return redirect(\"/\")",
"def buy():\n if request.method == \"POST\":\n\n # Ensure symbol was submitted\n if not request.form.get(\"symbol\"):\n return apology(\"must provide symbol\", 400)\n\n # Ensure shares was submitted\n elif not request.form.get(\"shares\"):\n return apology(\"must provide shares\", 400)\n\n if not request.form.get(\"shares\").isdigit():\n return apology(\"must be integer\",400)\n\n elif int(request.form.get(\"shares\"))<1 :\n return apology(\"must be positive integer\", 400)\n\n elif lookup(request.form.get(\"symbol\"))==None:\n return apology(\"Must be a valid symbol\",400)\n\n #ensure money>price\n quote=lookup(request.form.get(\"symbol\"))\n shares=request.form.get(\"shares\")\n cash=db.execute(\"SELECT cash FROM users WHERE id=?\",session[\"user_id\"])\n if cash[0][\"cash\"]<int(quote[\"price\"])*int(shares):\n return apology(\"You can't affort this/these\",400)\n\n #BUY, STORE DATA IN REPOSITORY AND RECORD\n\n #record this transaction\n db.execute(\"INSERT INTO record(userID,transactions,symbol,price,t1) VALUES(?,?,?,?,strftime('%Y-%m-%d %H:%M:%S','now'))\",session[\"user_id\"],int(shares),quote[\"symbol\"],float(quote[\"price\"]))\n\n #deduct the cash\n total=int(quote[\"price\"])*int(shares)\n db.execute(\"UPDATE users SET cash=cash- (?) WHERE id=?\",total,session[\"user_id\"])\n\n return redirect(\"/\")\n\n else:\n return render_template(\"buy.html\")",
"def sell():\n if request.method == \"POST\":\n # Ensure data is inputted\n if not request.form.get(\"symbol\"):\n return apology(\"Insert symbol\", 403)\n \n if not request.form.get(\"shares\"):\n return apology(\"Insert number of shares to sell\", 403)\n \n # Ensure shares value is valid\n try:\n if not int(request.form.get(\"shares\")) > 0:\n return apology(\"invalid value\", 403)\n except ValueError:\n return apology(\"invalid value\", 403)\n \n # Ensure there's enough shares to sell \n share_count_dict = db.execute(\"SELECT share_count FROM shares WHERE user_id=:usid AND share=:share\", usid=session[\"user_id\"], share=request.form.get(\"symbol\").upper())\n share_count = int(share_count_dict[0][\"share_count\"])\n \n if int(request.form.get(\"shares\")) > share_count:\n return apology(\"You don't own enough shares\", 403)\n \n # Create variables\n symbol = request.form.get(\"symbol\").upper()\n quantity = int(request.form.get(\"shares\"))\n \n # Add cash to user data\n new_cash = float(lookup(symbol)[\"price\"]) * quantity\n db.execute(\"UPDATE users SET cash= cash + :cash WHERE id=:usid\", cash=new_cash, usid=session[\"user_id\"]) \n \n # Remove shares of user data\n db.execute(\"UPDATE shares SET share_count = share_count - :shares WHERE user_id=:usid AND share = :share\", shares=quantity,share=symbol, usid=session[\"user_id\"])\n db.execute(\"DELETE FROM shares WHERE user_id=:usid AND share_count = :shares\", usid=session[\"user_id\"], shares=0)\n \n # Record transaction\n db.execute(\"INSERT INTO history (user_id, symbol, shares, time, price) VALUES (:usid, :symbol, :shares, :time, :price)\", usid=session[\"user_id\"], symbol=symbol, shares='-' + str(quantity), time=str(db.execute(\"SELECT CURRENT_TIMESTAMP\")[0][\"CURRENT_TIMESTAMP\"]), price=str(lookup(symbol)[\"price\"]))\n \n return redirect(\"/\")\n \n else:\n # Create list with purchased symbols\n symbol_dicts = db.execute(\"SELECT share FROM shares WHERE user_id=:usid\", usid=session[\"user_id\"])\n symbol_list = [None] * len(symbol_dicts)\n \n # Insert symbols into list\n for i in range(len(symbol_dicts)):\n symbol_list[i] = symbol_dicts[i][\"share\"]\n \n return render_template(\"sell.html\", longitude=len(symbol_dicts), symbols=symbol_list)",
"def click_buy_and_sell_deal_bulk_edit_button(self):\n self.click_element(self.buy_and_sell_deal_bulk_edit_button_lcoator, True)",
"def buy():\n # User reached route via POST (as by submitting a form via POST)\n if request.method == \"POST\":\n # Ensure symbol was submitted\n if not request.form.get(\"symbol\"):\n return apology(\"must provide symbol\", 403)\n\n # Ensure positive number of shares was submitted\n elif not request.form.get(\"shares\") or int(request.form.get(\"shares\")) < 0:\n return apology(\"must provide positive number of shares\", 403)\n\n else:\n returned_quote = lookup(request.form.get(\"symbol\"))\n row = db.execute(\"SELECT * FROM users WHERE id = :user_id\", user_id = session[\"user_id\"])\n if returned_quote == None:\n return apology(\"symbol does not exist\", 403)\n\n elif returned_quote[\"price\"] * int(request.form.get(\"shares\")) > row[0][\"cash\"]:\n return apology(\"cannot afford number of shares at current price\", 403)\n\n else:\n db.execute(\"INSERT INTO 'transaction' ('t_id','u_id','symbol','shares','price') VALUES (NULL,:u_id,:symbol,:shares,:price)\",\n u_id = session[\"user_id\"], symbol = returned_quote[\"symbol\"], shares = int(request.form.get(\"shares\")), price = returned_quote[\"price\"])\n db.execute(\"UPDATE users SET cash = cash - :price * :shares WHERE id = :user_id\",\n price = returned_quote[\"price\"], shares = int(request.form.get(\"shares\")), user_id = session[\"user_id\"])\n\n flash(\"Bought\")\n return redirect(\"/\")\n # User reached route via GET (as by clicking a link or via redirect)\n else:\n return render_template(\"buy.html\")",
"def buy():\n\n if request.method == \"POST\":\n numShares = 0\n try:\n numShares = float(request.form.get(\"shares\"))\n except ValueError:\n return apology(\"Enter a numerical value!\", 400)\n if numShares % 1 != 0:\n return apology(\"Fractional Shares not allowed!\", 400)\n if numShares <= 0:\n return apology(\"Enter a number greater than 0!\", 400)\n if not request.form.get(\"symbol\"):\n return apology(\"Enter a symbol!\", 400)\n if not request.form.get(\"shares\"):\n return apology(\"Enter a number of shares!\", 400)\n\n company = lookup(request.form.get(\"symbol\"))\n if not company:\n return apology(\"Invalid ticker symbol\", 400)\n price = float(company[\"price\"])\n total = float(price * numShares)\n symbl = company[\"symbol\"]\n userRows = db.execute(\"SELECT cash FROM users WHERE id = :userid\", userid=session.get(\"user_id\"))\n remainingCash = float(userRows[0][\"cash\"])\n if total > remainingCash:\n return apology(\"You cannot afford the stock(s)!\", 400)\n else:\n currentUser = session.get(\"user_id\")\n purchased = db.execute(\"INSERT INTO portfolio (UserID, Symbol, Company, NumberOfShares, UnitPrice, TotalPrice) VALUES(:userid, :symbol, :name, :shares, :unitPrice, :totalPrice)\", userid=currentUser, symbol=symbl, name=company['name'], shares=numShares, unitPrice=price, totalPrice=total)\n\n\n if not purchased:\n return apology(\"Unable to purchase\", 400)\n else:\n remainingCash = remainingCash - total\n db.execute(\"UPDATE users set cash=:balance WHERE id=:userid\", balance=remainingCash, userid=currentUser)\n '''Update history'''\n dateNow = datetime.datetime.now()\n historized = db.execute(\"INSERT INTO history (Symbol, Shares, Price, Date, UserID) VALUES(:symbol, :shares, :price, :date, :userid)\", symbol = symbl, shares = numShares, price = total, date = dateNow, userid = session.get(\"user_id\"))\n '''Update history end'''\n return redirect(\"/\")\n\n\n else:\n return render_template(\"buy.html\")",
"def sell():\n if request.method == \"POST\":\n\n if not request.form.get(\"shares\"):\n return apology(\"gimme share\", 400)\n if not lookup(request.form.get(\"symbol\")):\n return apology(\"not correct stock\", 400)\n if not request.form.get(\"shares\").isdigit():\n return apology(\"sorry bro\", 400)\n\n quote = lookup(request.form.get(\"symbol\"))\n\n money_list = db.execute(\"SELECT cash FROM users WHERE id = :current_id\", current_id=session[\"user_id\"])\n available_money = money_list[0][\"cash\"]\n\n total_price = int(request.form.get(\"shares\")) * float(quote[\"price\"])\n\n units_list = db.execute(\"SELECT SUM(units) FROM transactions WHERE id = :current_id AND stock = :stock_code\",\n current_id=session[\"user_id\"], stock_code=request.form.get(\"symbol\"))\n available_units = units_list[0][\"SUM(units)\"]\n\n if available_units < int(request.form.get(\"shares\")):\n return apology(\"no units bro\", 400)\n\n new_cash = available_money + total_price\n\n updating = db.execute(\"UPDATE users SET cash = :upd_cash WHERE id = :current_id\",\n upd_cash=new_cash, current_id=session[\"user_id\"])\n insertion = db.execute(\"INSERT INTO transactions (id, stock, units, price, time, type) VALUES (:current_id, :stock, :units, :price, :now, :type)\",\n current_id=session[\"user_id\"], stock=request.form.get(\"symbol\"), units=request.form.get(\"shares\"), price=float(quote[\"price\"]), now=datetime.datetime.now(), type=\"S\")\n\n money_upd_list = db.execute(\"SELECT cash FROM users WHERE id = :current_id\", current_id=session[\"user_id\"])\n available_money_upd = money_upd_list[0][\"cash\"]\n\n return render_template(\"sell_result.html\", shares=request.form.get(\"shares\"),\n symbol=request.form.get(\"symbol\"),\n price=usd(total_price),\n cash=usd(new_cash))\n else:\n available_stocks_info = db.execute(\"SELECT stock FROM transactions WHERE id = :current_id\", current_id=session[\"user_id\"])\n available_stocks_list = []\n for element in available_stocks_info:\n if element[\"stock\"] not in available_stocks_list:\n available_stocks_list.append(element[\"stock\"])\n\n return render_template(\"sell.html\", available_stocks=available_stocks_list)",
"def buy():\n # User reached route via POST (as by submitting a form via POST)\n if request.method == \"POST\":\n # Ensure the user inputs a symbol\n symbol = request.form.get(\"symbol\").upper()\n if not symbol:\n return apology(\"must provide a symbol\", 403)\n\n # ensure number of shares is submitted\n shares = request.form.get(\"shares\")\n if not shares:\n return apology(\"must provide number of shares\", 403)\n\n\n # do a try except for handling negative values or empty spaces in shares input box\n try:\n shares = int(shares)\n if shares < 0:\n return apology(\"Enter a positive integer for shares\", 403)\n except ValueError:\n return apology(\"No empty spaces allowed enter a positive integer\", 403)\n\n # call lookup in helpers.py to look up a stock’s current price.\n stockPriceDetail = lookup(symbol)\n\n # render apology for invalid symbol input by user\n if stockPriceDetail == None:\n return apology(\"Invalid symbol\", 403)\n else:\n price = stockPriceDetail[\"price\"]\n\n # calculate the total price of the number of shares\n totalCost = price * shares\n print(totalCost)\n\n\n # based on user's input check if they have enough cash to buy stocks\n rows = db.execute(\"SELECT cash FROM users WHERE id = :id\", id=session[\"user_id\"])\n print(\"rows= \" , rows)\n\n cash = rows[0] [\"cash\"]\n\n # Check for sufficient cash\n if cash < totalCost:\n return apology(\"you have insufficient cash balance\", 403)\n\n balance = cash - totalCost\n\n # insert row in transactions table\n result = db.execute(\"\"\"insert into transactions\n (user_id,stock_code,stock_quantity,stock_price,\n start_balance,end_balance,transaction_type)\n values(:userid, :symbol, :shares, :price, :cash,\n :balance,:ttype)\"\"\",\n userid=session[\"user_id\"],shares=shares,\n symbol=symbol,price=price,\n cash=cash,balance=balance,ttype=\"BOUGHT\")\n\n # update users balance\n result = db.execute(\"update users set cash = :balance where id = :userid\",\n userid=session[\"user_id\"],balance=balance)\n\n # Redirect user to index page\n return redirect(\"/\")\n\n else:\n symbol = request.args.get('symbol')\n return render_template(\"buy.html\",symbol=symbol)",
"def buy():\n if request.method == \"POST\":\n if not request.form.get(\"symbol\"):\n return apology(\"must provide symbol\")\n elif not request.form.get(\"sharesnumber\"):\n return apology(\"must provide no of shares\")\n elif '.' in request.form.get(\"sharesnumber\"):\n return apology(\"No of shares is positive integer Invalid!!\")\n elif not request.form.get(\"sharesnumber\").isdigit():\n return apology(\"No of shares is positive integer Invalid!!\")\n elif not int(request.form.get(\"sharesnumber\")) > 0:\n return apology(\"No of shares is positive value Invalid!!\")\n \n result_dict = lookup(request.form.get(\"symbol\"))\n \n if result_dict == None:\n return apology(\"Symbol does not exist\")\n \n result_cash = db.execute(\"SELECT * from users where id = :id\",id=session[\"user_id\"])\n net_cash = result_cash[0][\"cash\"]\n net_required = int(request.form.get(\"sharesnumber\")) * result_dict['price']\n if net_required > net_cash:\n return apology(\"Oops Don't Have enough Cash!!\")\n \n \n #Update Cash\n net_cash = net_cash - net_required\n db.execute(\"UPDATE users SET cash = :cash WHERE id = :id\",cash= net_cash,id=session[\"user_id\"])\n \n #Update History Tables\n \n db.execute(\"INSERT INTO history(user_id,symbol,price,shares) VALUES(:id,:symbol,:price,:shares) \",id=session[\"user_id\"],symbol=result_dict['symbol'],price=result_dict['price'],shares=request.form.get(\"sharesnumber\"))\n \n #Check Whether user has shares for same symbol\n rows = db.execute(\"SELECT * FROM netshares WHERE user_id = :id AND symbol=:symbol\",id=session[\"user_id\"],symbol=result_dict['symbol'])\n #Update NetShares Table\n if len(rows) == 0:\n db.execute(\"INSERT INTO netshares(user_id,symbol,shares) VALUES(:id,:symbol,:shares)\",id=session[\"user_id\"],symbol=result_dict['symbol'],shares=request.form.get(\"sharesnumber\"))\n else:\n db.execute(\"UPDATE netshares SET shares=:shares WHERE user_id = :id AND symbol=:symbol\",shares= int(request.form.get(\"sharesnumber\"))+int(rows[0]['shares']),id=session[\"user_id\"],symbol=result_dict['symbol'])\n return redirect(url_for(\"index\"))\n \n else:\n return render_template(\"buy.html\")\n \n \n #return apology(\"TODO\")",
"def buy():\n username = session.get(\"username\")\n # print(f'username: {username}')\n\n if request.method==\"POST\":\n symbol = request.form.get(\"symbol\")\n quantity = request.form.get(\"shares\")\n if not quantity.isdigit() or int(quantity)<=0:\n return apology(\"Quantity must be a positive integer\", 400)\n quantity = int(quantity)\n price = 0\n message = \"\"\n time = datetime.datetime.now().strftime(\"%Y-%m-%d %H:%M:%S\")\n response = lookup(symbol)\n if not response:\n return apology(\"Invalid symbol\", 400)\n\n price = response[\"price\"]\n name = response[\"name\"]\n cash = db.execute(\"SELECT cash FROM users WHERE username=:username\", username=username)[0][\"cash\"]\n cost = price * float(quantity)\n status = \"bought\"\n if cash >= cost:\n cash -= cost\n db.execute(\"UPDATE users SET cash=:cash WHERE username=:username\", cash=cash, username=username)\n db.execute(\"INSERT INTO history (username, stock_symbol, unit_price, time, quantity, stock_name, status) VALUES (:username, :stock_symbol, :unit_price, :time, :quantity, :name, :status)\",\n username = username, stock_symbol=symbol, unit_price=price, time=time, quantity=quantity, name=name, status=status)\n message = f'Recorded purchase {quantity} share(s) of {name} for total of {usd(cost)}, your remaining cash is {usd(cash)}'\n return render_template(\"buy.html\", message=message)\n else:\n return apology(\"Not enough cash\", 400)\n else:\n return render_template(\"buy.html\")",
"def sell():\n\n if request.method == \"POST\":\n\n # define stock variables\n symbol = request.form.get(\"symbol\")\n stock = lookup(request.form.get(\"symbol\"))\n\n # error checking\n if not stock:\n return apology(\"Missing or Incorrect Symbol\", 400)\n\n # check if stock is owned\n try:\n sold_stock = db.execute(\n \"SELECT symbol, SUM(shares) AS shares, price FROM transactions WHERE user_id = :user_id AND symbol = :symbol GROUP BY symbol\", user_id=session[\"user_id\"], symbol=symbol)[0]\n except IndexError:\n return apology(\"Stock not owned\", 400)\n\n # check for shares input\n try:\n shares = int(request.form.get(\"shares\"))\n except ValueError:\n return apology(\"Input at least 1 share\", 400)\n\n if shares < 0:\n return apology(\"Input at least 1 Share\", 400)\n\n if int(sold_stock[\"shares\"]) < shares:\n return apology(\"Not enough shares to sell\", 400)\n\n else:\n # define variables for inserting into transactions table and updating cash\n purchase_date = datetime.now().strftime(\"%Y-%m-%d %H:%M:%S\")\n\n # update user cash\n user_cash = db.execute(\"SELECT cash FROM users WHERE id = :user_id\", user_id=session[\"user_id\"])[0][\"cash\"]\n user_cash = user_cash + (stock[\"price\"]*shares)\n db.execute(\"UPDATE users SET cash = :user_cash WHERE id = :user_id\", user_id=session[\"user_id\"], user_cash=user_cash)\n\n # update transactions table with selling transaction\n db.execute(\"\"\"\n INSERT INTO transactions(user_id, date, symbol, shares, price)\n VALUES(:user_id, :date, :symbol, :shares, :price)\n \"\"\",\n user_id=session[\"user_id\"],\n date=purchase_date,\n symbol=stock[\"symbol\"],\n shares=-shares,\n price=stock[\"price\"]\n )\n\n flash(\"You paper-handed that one!\")\n return redirect(\"/\")\n\n else:\n # query db for current holdings\n stocks = db.execute(\n \"SELECT symbol, SUM(shares) AS shares, price FROM transactions WHERE user_id = :user_id GROUP BY symbol\", user_id=session[\"user_id\"])\n stocks[:] = [stock for stock in stocks if stock.get('shares') > 0]\n return render_template(\"sell.html\", stocks=stocks)",
"def buy():\n\n # User reached route via POST (as by submitting a form via POST)\n if request.method == \"POST\":\n\n # Ensure stock symbol and share validity\n if lookup(request.form.get(\"symbol\")) == None:\n return apology(\"invalid stock symbol\", 403)\n elif int(request.form.get(\"shares\")) < 1:\n return apology(\"must purchase at least one stock\", 403)\n\n # Compute the value of the purchase\n price = lookup(request.form.get(\"symbol\"))[\"price\"]\n cash = db.execute(\"SELECT cash FROM users WHERE id = :id\", id = session[\"user_id\"])[0][\"cash\"]\n total = price * int(request.form.get(\"shares\"))\n\n # Ensure the user has enough cash to pay for the stocks\n if total > cash:\n return apology(\"not enough cash to purchase\", 403)\n\n # Insert into database that is used to retrieve history\n db.execute(\"INSERT INTO purchase (id, symbol, shares, price, created_at) VALUES(:id,:symbol,:shares,:value, datetime('now'))\", id=session[\"user_id\"], symbol=request.form.get(\"symbol\"), shares=request.form.get(\"shares\"), value=price)\n\n # Insert into database that is used for the index page\n number = db.execute(\"SELECT COUNT(*) FROM purchase WHERE id=:id AND symbol=:symbol\", id=session[\"user_id\"], symbol=request.form.get(\"symbol\"))[0][\"COUNT(*)\"]\n\n # Insert into database if the current stock has not been purchased before\n if number == 1:\n db.execute(\"INSERT INTO summary (id, symbol, shares, price) VALUES(:id,:symbol,:shares,:value)\", id=session[\"user_id\"], symbol=request.form.get(\"symbol\"), shares=request.form.get(\"shares\"), value=price)\n\n # Update database if the stock has been purchased before\n else:\n share = db.execute(\"SELECT SUM(shares) FROM purchase WHERE id = :username AND symbol= :symbol\", username=session[\"user_id\"], symbol=request.form.get(\"symbol\"))[0][\"SUM(shares)\"]\n db.execute(\"UPDATE summary SET shares= :shares WHERE (id = :username AND symbol= :symbol)\", shares=share, username=session[\"user_id\"], symbol=request.form.get(\"symbol\"))\n db.execute(\"UPDATE users SET cash = :new\", new = cash - total)\n\n # Redirect users to the index page\n return redirect(\"/\")\n\n # User reached route via GET (as by submitting a form via GET)\n else:\n return render_template(\"buy.html\")",
"def sell():\n \n user_id = session[\"user_id\"]\n\n if request.method == \"GET\":\n return render_template(\"sell.html\")\n \n if request.method == \"POST\":\n \n # get required symbol\n symbol = request.form.get(\"symbol\").upper()\n try:\n qty = int(request.form.get(\"qty\"))\n except ValueError:\n return apology(\"QTY is empty!\", 403)\n \n # proceed buy function\n sell_result: Tuple[float, str] = sell_shares(db, user_id, symbol, qty )\n if sell_result[0] == -1:\n return apology(sell_result[1], 403)\n\n return redirect(\"/\")",
"def sell():\n return apology(\"TODO\")\n if request.method == \"POST\":\n # Ensure symbol was submitted\n symbol = request.form.get(\"symbol\")\n if not symbol:\n return apology(\"must provide symbol\", 403)\n symbol = symbol.upper()\n\n # Ensure number of shares was submitted\n shares = request.form.get(\"shares\")\n if not shares:\n return apology(\"must provide shares\", 403)\n\n return render_template(\"sell.html\")",
"def buy():\n if request.method == \"POST\":\n if not request.form.get(\"symbol\") or not lookup(request.form.get(\"symbol\")):\n return apology(\"must provide valid symbol\",400)\n if not request.form.get(\"shares\") or int(request.form.get(\"shares\")) <= 0:\n return apology(\"shares must be positive integer!\",400)\n row=db.execute(\"SELECT * FROM users WHERE id=:s\",s=session[\"user_id\"])\n dict=lookup(request.form.get(\"symbol\"))\n cost=dict[\"price\"]* int(request.form.get(\"shares\"))\n if row[0][\"cash\"]>cost:\n db.execute(\"INSERT INTO history(symbol,shares,price,transacted,user_id,status) VALUES (:s,:sh,:p,:t,:u_i,:status)\",s=dict[\"symbol\"],sh=int(request.form.get(\"shares\")),p=dict[\"price\"],t=time.asctime( time.localtime(time.time())),u_i=session[\"user_id\"],status='bought')\n row[0][\"cash\"]=row[0][\"cash\"]-cost\n db.execute(\"UPDATE users SET cash = :cash WHERE id=:s\",cash=row[0][\"cash\"],s=session[\"user_id\"])\n exist=db.execute(\"SELECT * FROM portofolio WHERE symbol=:s AND user_id=:u_i\",s=dict[\"symbol\"],u_i=session[\"user_id\"])\n if len(exist) == 0 :\n db.execute(\"INSERT INTO portofolio(symbol,name,shares,price,total,user_id) VALUES (:s,:n,:sh,:p,:t,:u_i)\",s=dict[\"symbol\"],n=dict[\"name\"],sh=int(request.form.get(\"shares\")),p=dict[\"price\"],t=cost,u_i=session[\"user_id\"])\n else:\n db.execute(\"UPDATE portofolio SET shares =shares+:sh, price=:p, total=total+:t WHERE symbol=:s AND user_id=:u_i\",sh=int(request.form.get(\"shares\")),p=dict[\"price\"],t=dict[\"price\"] * int(request.form.get(\"shares\")),s=dict[\"symbol\"],u_i=session[\"user_id\"])\n else:\n return apology(\"Can't afford!\",400)\n\n\n\n return redirect(\"/\")\n else:\n return render_template(\"buy.html\")",
"async def _vis_buy(self, ctx, *args):\n if has_post_permission(ctx.guild.id, ctx.channel.id):\n number, item = ch.parse_number_and_name(args)\n if item:\n await ctx.send(vis_helpers.shop_buy(ctx.user_object, item, number))"
] | [
"0.6792708",
"0.6688898",
"0.66822076",
"0.66695726",
"0.665037",
"0.66328114",
"0.65946347",
"0.6559178",
"0.6555499",
"0.6541252",
"0.65217865",
"0.64972323",
"0.64518225",
"0.6450742",
"0.64448273",
"0.6431724",
"0.6425324",
"0.64239854",
"0.64005756",
"0.639548",
"0.6394808",
"0.6393634",
"0.6381633",
"0.63784146",
"0.6377612",
"0.6374634",
"0.6360619",
"0.6358628",
"0.6353426",
"0.63525665"
] | 0.73403764 | 0 |
Implementing is buy and sell deal details screen status dropdown visible functionality | def is_buy_and_sell_deal_details_screen_status_dropdown_visible(self):
return self.is_element_present(self.buy_and_sell_deal_details_screen_status_dropdown_locator) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def set_vendor_price_list_status(self, status_items):\n self.multiple_items_selection_from_kendo_dropdown(self.vendor_price_list_status_kendo_dropdown_locator, status_items)\n self.wait_for_ajax_spinner_load()",
"def onToSystemSelected(self, item):\n if not item:\n self.btnAddTradeRoute.disable()\n self.btnTradeAllRoute.disable()\n self.btnAddOneTimeTrade.disable()\n else:\n self.btnAddTradeRoute.enable()\n self.btnTradeAllRoute.enable()\n self.btnAddOneTimeTrade.enable()",
"def click_buy_and_sell_deal_management_link(self):\n self.select_static_tab(self.buy_and_sell_deal_management_locator, message=\"buy and sell deal management locator not found before specified time out\")",
"def is_expected_dropdown_list_control_visible_in_target_buy_overrides_screen(self, expected_list_control_name):\n list_control_locator = (By.XPATH, \"//select[@name='%s']\" %(expected_list_control_name))\n return self.is_element_present(list_control_locator)",
"def set_vendor_profile_status(self, item_name):\n self.single_selection_from_kendo_dropdown(self.vendor_profile_status_kendo_dropdown_locator, item_name)\n self.wait_for_ajax_spinner_load()",
"def __aboutToShowMenu(self):\n self.hgFetchAct.setEnabled(self.vcs.canPull())",
"def _test_display_up_button(self):\n return (self.product_displays.top_index > 0)",
"def option_two():\n if ADD_PRODUCTS == {}:\n print \"\\n**No products availabe**\" #Cannot to buy\n press_enter()\n reset()\n main_menu()\n else:\n ask_if_want()",
"def click_buy_and_sell_deal_bulk_edit_button(self):\n self.click_element(self.buy_and_sell_deal_bulk_edit_button_lcoator, True)",
"def onIndustrySelected(self, item):\n if self.lstIndustry.getMultiSelectedItems() == []:\n self.btnRemoveIndustry.disable()\n self.btnUpgradeIndustry.disable()\n else:\n self.enableButtons(self.lstIndustry, [self.btnRemoveIndustry, self.btnUpgradeIndustry])",
"def __showMenuCheck(self):\n if not self.__showMenuActions:\n self.__showMenuUpdate()",
"def select_client_id_availability_item(self):\n self.driver.click(\"get_client_advertising_id_availability_btn\")",
"def check_combobox_selection(self, value):\n if self.sender() == self.cmbDepReqAction:\n if value != 0: self.cmbDepInstState.setCurrentIndex(0)\n elif self.sender() == self.cmbDepInstState:\n if value != 0: self.cmbDepReqAction.setCurrentIndex(0)\n elif self.sender() == self.cmbPropType:\n if value == 1:\n self.inpPropVal.setText(\"\")\n self.inpPropDef.setText(\"\")\n self.datamapper_properties.addMapping(self.cmbPropDef, 6)\n self.datamapper_properties.removeMapping(self.inpPropDef)\n self.cmbPropMulti.setCurrentIndex(0)\n self.cmbPropEdit.setCurrentIndex(0)\n self.inpPropVal.setEnabled(False)\n self.inpPropDef.setEnabled(False)\n self.cmbPropMulti.setEnabled(False)\n self.cmbPropEdit.setEnabled(False)\n self.cmbPropDef.setEnabled(True)\n self.cmbPropDef.setCurrentIndex(0)\n else:\n self.datamapper_properties.addMapping(self.inpPropDef, 6)\n self.datamapper_properties.removeMapping(self.cmbPropDef)\n self.inpPropVal.setEnabled(True)\n self.inpPropDef.setEnabled(True)\n self.cmbPropMulti.setEnabled(True)\n self.cmbPropEdit.setEnabled(True)\n self.cmbPropDef.setEnabled(False)",
"def handle_selection_main(self):\n choice = self.get_input()\n if choice == '1':\n self.display_cust()\n elif choice == '2':\n self.is_user = False\n self.display_eng()",
"def battle_screen_menu_display(ai_settings, screen, buttons,screen_status, button_status, card_database_filter, user, player2):\n if button_status.battle_screen_menu_display == True:\n\n button = Button('','', (0,0,0), 580, 30, 420, 340, alpha = 200)\n button.update()\n button.draw(screen)\n # Sound settings\n button_sound = Button('Sound: ','', (0,0,0), 601, 51, 105, 35, font_size = 28, alpha = 0)\n button_sound.update()\n button_sound.draw(screen)\n\n if ai_settings.sound_indicator == True:\n button_1 = Button('On','', (50,150,50), 447+280, 323-270, 28, 28)\n button_1.update()\n button_1.draw(screen)\n\n button_2 = Button('Off','', (150,150,150), 482+280, 323-270, 28, 28)\n button_2.update()\n button_2.draw(screen)\n\n else:\n button_1 = Button('On','', (150,150,150), 447+280, 323-270, 28, 28)\n button_1.update()\n button_1.draw(screen)\n\n button_2 = Button('Off','', (150,50,50), 482+280, 323-270, 28, 28)\n button_2.update()\n button_2.draw(screen)\n\n\n # Music settings\n button_music = Button('Music: ','', (0,0,0), 321+280, 370-270, 105, 35, font_size = 28, alpha = 0)\n button_music.update()\n button_music.draw(screen)\n\n if ai_settings.music_indicator == True:\n button_1 = Button('On','', (50,150,50), 447+280, 372-270, 28, 28)\n button_1.update()\n button_1.draw(screen)\n\n button_2 = Button('Off','', (150,150,150), 482+280, 372-270, 28, 28)\n button_2.update()\n button_2.draw(screen)\n\n else:\n button_1 = Button('On','', (150,150,150), 447+280, 372-270, 28, 28)\n button_1.update()\n button_1.draw(screen)\n\n button_2 = Button('Off','', (150,50,50), 482+280, 372-270, 28, 28)\n button_2.update()\n button_2.draw(screen)\n\n # Theme settings\n button_theme = Button('Theme: ','', (0,0,0), 321+280, 419-270, 112, 35, font_size = 28, alpha = 0)\n button_theme.update()\n button_theme.draw(screen)\n\n if ai_settings.theme_indicator == 'Lith Harbor':\n button_1 = Button('Lith Harbor','', (50,150,50), 447+280, 419-270, 98, 35, font_size = 16)\n button_1.update()\n button_1.draw(screen)\n else:\n button_1 = Button('Lith Harbor','', (150,150,150), 447+280, 419-270, 98, 35, font_size = 16)\n button_1.update()\n button_1.draw(screen)\n\n if ai_settings.theme_indicator == 'Leafre':\n button_1 = Button('Leafre','', (50,150,50), 559+280, 419-270, 98, 35, font_size = 16)\n button_1.update()\n button_1.draw(screen)\n else:\n button_1 = Button('Leafre','', (150,150,150), 559+280, 419-270, 98, 35, font_size = 16)\n button_1.update()\n button_1.draw(screen)\n\n if ai_settings.theme_indicator == 'Pantheon':\n button_1 = Button('Pantheon','', (50,150,50), 447+280, 468-270, 98, 35, font_size = 16)\n button_1.update()\n button_1.draw(screen)\n else:\n button_1 = Button('Pantheon','', (150,150,150), 447+280, 468-270, 98, 35, font_size = 16)\n button_1.update()\n button_1.draw(screen)\n\n if ai_settings.theme_indicator == 'Ellinia':\n button_1 = Button('Ellinia','', (50,150,50), 559+280, 468-270, 98, 35, font_size = 16)\n button_1.update()\n button_1.draw(screen)\n else:\n button_1 = Button('Ellinia','', (150,150,150), 559+280, 468-270, 98, 35, font_size = 16)\n button_1.update()\n button_1.draw(screen)\n\n # AI speeding settings\n button_ai_speed = Button('AI Speed: ','', (0,0,0), 321+280, 524-270, 140, 35, font_size = 28, alpha = 0)\n button_ai_speed.update()\n button_ai_speed.draw(screen)\n\n if ai_settings.AI_speed_indicator == '1000':\n button_1 = Button('Fast','', (50,150,50), 475+280, 524-270, 56, 35, font_size = 15)\n button_1.update()\n button_1.draw(screen)\n else:\n button_1 = Button('Fast','', (150,150,150), 475+280, 524-270, 56, 35, font_size = 15)\n button_1.update()\n button_1.draw(screen)\n\n if ai_settings.AI_speed_indicator == '2000':\n button_1 = Button('Normal','', (50,150,50), 545+280, 524-270, 56, 35, font_size = 15)\n button_1.update()\n button_1.draw(screen)\n else:\n button_1 = Button('Normal','', (150,150,150), 545+280, 524-270, 56, 35, font_size = 15)\n button_1.update()\n button_1.draw(screen)\n\n if ai_settings.AI_speed_indicator == '3000':\n button_1 = Button('Slow','', (50,150,50), 615+280, 524-270, 56, 35, font_size = 15)\n button_1.update()\n button_1.draw(screen)\n else:\n button_1 = Button('Slow','', (150,150,150), 615+280, 524-270, 56, 35, font_size = 15)\n button_1.update()\n button_1.draw(screen)\n\n # Closed settings window button\n button_1 = Button('X','', (250,100,100), 699+280, 300-270, 21, 21, font_size = 16)\n button_1.update()\n button_1.draw(screen)\n\n\n button_1 = Button('Concede and Quit!','', (170,70,70), 700, 310, 180, 40)\n button_1.update()\n button_1.draw(screen)",
"def show_selected_option(self, item):\n\n if item:\n if item.text() == \"ALL\":\n self.dlg.uStackedWidget.setCurrentIndex(0)\n self.curr_list_wid_index = self.dlg.uListOptions.findItems(\n item.text(), Qt.MatchExactly\n )[0]\n self.proxy_model.set_service_type((\"WMTS\", \"WFS\"))\n elif item.text() == \"WFS\":\n self.proxy_model.set_service_type((item.text()))\n self.curr_list_wid_index = self.dlg.uListOptions.findItems(\n item.text(), Qt.MatchExactly\n )[0]\n self.dlg.uStackedWidget.setCurrentIndex(0)\n elif item.text() == \"WMTS\":\n self.proxy_model.set_service_type((item.text()))\n self.curr_list_wid_index = self.dlg.uListOptions.findItems(\n item.text(), Qt.MatchExactly\n )[0]\n self.dlg.uStackedWidget.setCurrentIndex(0)\n elif item.text() == \"Settings\":\n self.dlg.uStackedWidget.setCurrentIndex(1)\n elif item.text() == \"Help\":\n self.dlg.uStackedWidget.setCurrentIndex(2)\n elif item.text() == \"About\":\n self.dlg.uStackedWidget.setCurrentIndex(3)",
"def is_visible(self):",
"def show(self, *args):\n\n super().show(*args)\n\n show_all = len(args) == 0 or args[0] == \"all\"\n\n if show_all or \"combobox\" in args:\n self.combobox.grid(row=0, column=0, sticky=tk.EW)\n else:\n self.combobox.grid_forget()",
"def is_status_dropdown_visible(self):\n return self.is_element_visible(self.status_dropdown_locator)",
"def is_target_buy_list_overrides_screen_loaded(self):\n return self.is_element_visible(self.target_buy_list_overrides_page_header_locator)",
"def set_multiple_status(self, status_list):\n self.multiple_items_selection_from_kendo_dropdown(self.status_kendo_dropdown_locator, status_list)\n self.wait_for_ajax_spinner_load()\n buy_page_title_element = self.wait().until(EC.element_to_be_clickable(self.buy_page_title_locator), 'buy page title locator not found before specified time out')\n buy_page_title_element.click()",
"def _test_display_down_button(self):\n return (self.product_displays.top_index + self.limits.screen_products) < len(self.product_displays)",
"def ShowWindowMenu(self):\r\n \r\n tabCtrl = self.GetActiveTabCtrl()\r\n idx = tabCtrl.GetArtProvider().ShowDropDown(tabCtrl, tabCtrl.GetPages(), tabCtrl.GetActivePage())\r\n\r\n if not self.GetEnabled(idx):\r\n return False\r\n\r\n if idx != -1:\r\n e = AuiNotebookEvent(wxEVT_COMMAND_AUINOTEBOOK_PAGE_CHANGING, tabCtrl.GetId())\r\n e.SetSelection(idx)\r\n e.SetOldSelection(tabCtrl.GetActivePage())\r\n e.SetEventObject(tabCtrl)\r\n self.GetEventHandler().ProcessEvent(e)\r\n\r\n return True\r\n \r\n else:\r\n \r\n return False",
"def showGUI(self,**kwargs):\n self.baxter.menu.select(self.modes[0])",
"def verify_status_filter(self, status_list):\n is_verified = True\n self.click_element(self.multiselect_status_dropdown_locator)\n for item in status_list:\n dropdown_item_locator = (By.XPATH, \"//li[text()='%s']\" % item)\n if self.is_element_visible(dropdown_item_locator) is False:\n is_verified = False\n break\n self.script_executor(\"var elements = document.getElementsByClassName('k-list-container k-popup k-group k-reset multiselect'); for (var i = 0, len = elements.length; i < len; i++) { elements[i].style.display = 'none';}\")\n self.script_executor(\"var elements = document.getElementsByClassName('k-list k-reset'); for (var i = 0, len = elements.length; i < len; i++) { elements[i].setAttribute('aria-hidden', 'true');}\")\n return is_verified",
"def edit_tools(self, e):\n #GETTING SELECTION\n\n self.selected_item = self.user_inventory.selection()\n self.select_name = self.user_inventory.item([i for i in self.selected_item], \"values\")[0]\n self.select_entdate = self.user_inventory.item([i for i in self.selected_item], \"values\")[3]\n\n self.df_same_name = self.df_user.query(\"title == @self.select_name\")\n #this is the selected one for sure\n self.df_the_selected_item = self.df_same_name.loc[self.df_same_name[\"entry date\"] == self.select_entdate]\n\n #GETTING THE INDEX NUMBER OF THE SELECTION IN .CSV FILE\n self.index_select = self.df_the_selected_item.index\n self.index_select_number = self.index_select.tolist()\n\n #bottom buttons appear:\n self.changing_item_label.config(text=\"Now editing \"+self.select_name+\" that added on \"+self.select_entdate+\":\")\n\n self.delete_but = Button (self.bottom_frame, text=\"DELETE\", command=self.delete_button)\n self.delete_but.place(relx=0.1, rely=0.7, relwidth=0.28, anchor=\"w\")\n\n self.servings_list = [1, 2, 3, 4, 5, 6, 7, 8, 9, 10]\n self.serv_drop = Combobox(self.bottom_frame, value=self.servings_list, state=\"readonly\")\n self.serv_drop.place(relx=0.5, rely=0.7, relwidth=0.2, anchor=CENTER)\n\n \n self.serv_but = Button(self.bottom_frame, text=\"CHANGE AMOUNT\", command=self.change_amount_button, state=\"disabled\")\n self.serv_but.place(relx=0.9, rely=0.7, relwidth=0.28, anchor=\"e\")\n\n self.serv_drop.bind(\"<<ComboboxSelected>>\", self.activate_button)",
"def show_give_buttons(self):\n #\n # Show the give buttons, but only if we have some water\n if self.vessel.value > 0:\n self.log.debug('Showing give buttons with vessel water at {0}'.format(self.water_container.amount))\n for panel in self.health_panels.values():\n panel.show_button()",
"def buy_or_sell(self, debug=True):\n if self.will_plot:\n self.plot()\n self.predict()\n self.check_sma()\n self.check_bollinger()\n self.volume()\n self.rsi()\n self.sharpe()\n self.extrema()\n self.net_gains()\n self.beta_and_alpha()\n self.decision()\n if debug: print(self.debug)\n if self.will_plot:\n plt.show()",
"def on_resultList_itemSelectionChanged(self):\n self.__installButton.setEnabled(\n len(self.resultList.selectedItems()) > 0)\n self.__showDetailsButton.setEnabled(\n len(self.resultList.selectedItems()) == 1)",
"def visible(self, show):"
] | [
"0.56746906",
"0.5669259",
"0.5657115",
"0.5642586",
"0.5548772",
"0.5518705",
"0.5481736",
"0.54544234",
"0.54465276",
"0.54455775",
"0.54390544",
"0.5387691",
"0.53675115",
"0.53674585",
"0.5345141",
"0.53434074",
"0.53319836",
"0.5330894",
"0.5330883",
"0.5276681",
"0.5270023",
"0.52661973",
"0.52625346",
"0.52561814",
"0.5251204",
"0.52454644",
"0.5242699",
"0.5240734",
"0.5228729",
"0.5225926"
] | 0.754112 | 0 |
Implementing is end date date picker visible functionality | def is_end_date_text_box_visible(self):
return self.is_element_visible(self.end_date_date_picker_locator) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def set_end_date(self, date):\n pass",
"def test_charter_form_end_date(self):\n\n data = {\n \"language\": 1,\n \"countries\": 1,\n \"start_date_month\": \"1\",\n \"start_date_day\": \"1\",\n \"start_date_year\": \"2015\",\n \"end_date_month\": \"1\",\n \"end_date_day\": \"1\",\n \"end_date_year\": \"2015\",\n \"number\": \"12345\",\n \"lead_dept\": 1,\n \"contact_person\": \"Vicky Leong\",\n \"created_by\": \"Vicky Leong\"\n }\n charter_form = CharterForm(data=data)\n result = charter_form.is_valid()\n self.assertFalse(result)",
"def showSelectedDate(self):\n pass",
"def end_dt_display(self):\n return self.end_dt_poster or self.end_dt",
"def set_bulk_edit_end_date(self, end_date, future_date):\n if future_date is True:\n end_date = self.get_date(future_date=True, number_of_days_to_add=30)\n self.set_value_into_input_field(self.bulk_edit_end_date_inputbox_locator, end_date)",
"def enddate_display(self):\n if self.enddate:\n return self.enddate.strftime(self.format)",
"def set_end_date_for_search(self, end_date, allow_past_date):\n if allow_past_date is True and end_date != \"\":\n end_date_to_set = end_date\n else:\n if (end_date == \"\" or time.strptime(end_date, \"%m/%d/%Y\") < time.strptime(self.get_current_date(), \"%m/%d/%Y\")):\n end_date_to_set = self.get_date(current_date=True)\n else:\n end_date_to_set = end_date\n self.set_value_into_input_field(self.end_date_locator, end_date_to_set)",
"def end_date(self, end_date):\n self._end_date = end_date",
"def _select_date_changed(self):\n self.model.edit_traits(view=View(\n UCustom('date'),\n buttons=['OK'],\n title=u'数据生成日期选择',\n kind='panel',\n ))",
"def set_bulk_add_end_date(self, end_date):\n global bulk_add_begin_date\n if end_date != \"\" and datetime.datetime.strptime(end_date, \"%m/%d/%Y\") > bulk_add_begin_date:\n self.set_value_into_input_field(self.bulk_add_end_date_inputbox_locator, str(end_date))\n elif end_date == \"\":\n end_date = self.get_date(last_day_of_current_month=True)\n self.set_value_into_input_field(self.bulk_add_end_date_inputbox_locator, str(end_date))\n else:\n end_date = bulk_add_begin_date + datetime.timedelta(days=7)\n end_date = \"%d/%d/%d\" % (end_date.month, end_date.day, end_date.year)\n self.set_value_into_input_field(self.bulk_add_end_date_inputbox_locator, str(end_date))\n return str(end_date)",
"def test_end_date(self):\n self.assertEqual(self.active.end_date, self.active.start_date + timedelta(3))",
"def other_date(self, bot, update):\n logger.info(\"PICK OTHER DATE\")\n update.message.reply_text(\"Please select a date: \",\n reply_markup=telegramcalendar.create_calendar())\n\n return 2",
"def change_end_date(self, new_end_date):\n self.end_date = new_end_date",
"def end_date(self, end_date):\n\n self._end_date = end_date",
"def end_date(self, end_date):\n\n self._end_date = end_date",
"def end_date(self, end_date):\n\n self._end_date = end_date",
"def end_date(self, end_date):\n\n self._end_date = end_date",
"def end_date(self, end_date):\n\n self._end_date = end_date",
"def end_date(self, end_date):\n\n self._end_date = end_date",
"def end_date(self, end_date):\n\n self._end_date = end_date",
"def end_date(self, end_date):\n\n self._end_date = end_date",
"def __init__(self, *args, **kwargs):\n super().__init__(*args, **kwargs)\n set_fields_to_required(self, ['end_date'])",
"def test_charter_form_date_widgets(self):\n\n cf = CharterForm()\n self.assertIsInstance(cf.fields[\"start_date\"].widget, SelectDateWidget)\n self.assertIsInstance(cf.fields[\"end_date\"].widget, SelectDateWidget)\n self.assertEqual(cf.fields[\"start_date\"].widget.attrs[\"class\"], \"date-input\")\n self.assertEqual(cf.fields[\"end_date\"].widget.attrs[\"class\"], \"date-input\")",
"def set_adjustment_charge_end_date(self, end_date):\n self.set_value_into_input_field(self.end_date_locator, end_date)",
"def date_range(self, start, end, check_date):\n if start <= end:\n return start <= check_date <= end\n else:\n return start <= check_date or check_date <= end",
"def on_btnCalendarResIn_clicked(self,widget):\n try:\n variables.semaforo = 2\n variables.vencalendar.connect('delete-event', lambda w, e: w.hide() or True)\n variables.vencalendar.show()\n except:\n print('error abrir calendario')",
"def end_date(self):\n return self.__end_date",
"def checkIfDate(event):\n if var.get() == \"Date\":\n dateBox.grid()\n else:\n dateBox.grid_remove()",
"def on_btnCalendarResOut_clicked(self, widget):\n try:\n variables.semaforo = 3\n variables.vencalendar.connect('delete-event', lambda w, e: w.hide() or True)\n variables.vencalendar.show()\n except:\n print('error abrir calendario')",
"def set_non_recurring_charge_end_date(self, end_date):\n if end_date is None:\n statement_summary_end_date_element = self.wait().until(EC.presence_of_element_located(self.statement_details_end_date_locator), 'statement details end date locator not found before specified time out')\n non_recurring_charge_end_date = str(statement_summary_end_date_element.text)\n elif end_date == \"\":\n current_date = datetime.date.today()\n next_month = current_date.replace(day=28) + datetime.timedelta(days=4)\n last_day_of_current_month = next_month - datetime.timedelta(days=next_month.day)\n non_recurring_charge_end_date = \"%d/%d/%d\" % (last_day_of_current_month.month, last_day_of_current_month.day, last_day_of_current_month.year)\n else:\n non_recurring_charge_end_date = end_date\n self.set_value_into_input_field(self.non_recurring_charge_end_date_locator, non_recurring_charge_end_date)\n return non_recurring_charge_end_date"
] | [
"0.6253928",
"0.6129645",
"0.61150646",
"0.60924506",
"0.6063385",
"0.5992654",
"0.59314823",
"0.59217846",
"0.58765405",
"0.5826251",
"0.57792395",
"0.5750014",
"0.57296556",
"0.5729398",
"0.5729398",
"0.5729398",
"0.5729398",
"0.5729398",
"0.5729398",
"0.5729398",
"0.5729398",
"0.56842196",
"0.5670102",
"0.56407285",
"0.56013864",
"0.5595297",
"0.5584868",
"0.5534529",
"0.5533379",
"0.5523"
] | 0.7767456 | 0 |
Implementing is auto expire checkbox visible functionality | def is_auto_expire_checkbox_visible(self):
return self.is_element_visible(self.auto_expire_checkbox_locator) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def action_checkbox(self):\n self.checkbox_online_var = not self.checkbox_online_var",
"def check_content_expiry_date(self):\n\n if self.expire_date < datetime.now():\n self.state = 'disabled'",
"def is_visible(self):",
"def show_box(self):\n self.permanent_show = not self.permanent_show",
"def is_visible(self):\n return self.visible_date < timezone.now()",
"def visible(self, show):",
"def isEnabled(self):",
"def is_enabled(self):",
"def autoExposureChk(self, state):\n if state == Qt.Checked and self.kinect.kinectConnected == True:\n self.kinect.toggleExposure(True)\n else:\n self.kinect.toggleExposure(False)",
"def on_reencryptCheckBox_toggled(self, on):\n self.__updateUI()",
"def __grid_visibility_checkbox(self, c):\n self.grid_visibility(c.checked)\n self.__grid_visibility = c.checked",
"def __grid_visibility_checkbox(self, c):\n self.grid_visibility(c.checked)\n self.__grid_visibility = c.checked",
"def should_show_check_button(self):\r\n submitted_without_reset = (self.is_submitted() and self.rerandomize == \"always\")\r\n\r\n # If the problem is closed (past due / too many attempts)\r\n # then we do NOT show the \"check\" button\r\n # Also, do not show the \"check\" button if we're waiting\r\n # for the user to reset a randomized problem\r\n if self.closed() or submitted_without_reset:\r\n return False\r\n else:\r\n return True",
"def _check_state(self):\n if (self.stock_checker.isChecked() or self.future_checker.isChecked()) and self.name.buddy.text():\n self.btn_ok.setEnabled(True)\n self.btn_ok.setDefault(True)\n else:\n self.btn_ok.setEnabled(False)",
"def is_active(self) -> bool:",
"def set_visible(self):\n\t\tself.hide()\n\t\tself.__sys_tray_icon.setVisible(True)",
"def action_checkbox(self, obj):\n if self.check_concurrent_action:\n return helpers.checkbox.render(helpers.ACTION_CHECKBOX_NAME,\n force_str(\"%s,%s\" % (obj.pk, get_revision_of_object(obj))))\n else: # pragma: no cover\n return super().action_checkbox(obj)",
"def click_automate_generation_checkbox(self):\n self.click_element(self.automate_generation_checkbox_locator)",
"def isVisible(self):\n\t\treturn True",
"def is_visible(self):\n return self.real > 0",
"def is_auto_editable ( self, object ):\n return self.auto_editable",
"def is_staff_lock_visible(self):\n return self.find_css('input[name=content-visibility]').visible",
"def user_has_selected_nickname(self):\n if self.fresh is None:\n delta = self.created - self.modified\n # Simulate delta = abs(delta)\n if delta.days < 0:\n delta = -delta\n self.fresh = (delta.days == 0 and delta.seconds < 2)\n return not self.fresh",
"def hide_expiration_date(self, hide_expiration_date):\n\n self._hide_expiration_date = hide_expiration_date",
"def _is_visible(self, key) -> bool:\n return self._get_DecoSetting(key).visible",
"def XPIsWidgetVisible(inWidget):\n pass",
"def is_visible(self, is_visible):\n\n self.container['is_visible'] = is_visible",
"def on_chkenable_change(self):\n logger.debug(\"Enabled checkbox changed\")\n if self.vars[\"enabled\"].get():\n self.subnotebook_show()\n else:\n self.subnotebook_hide()\n self.set_info_text()",
"def OnCheckFlyTimer(self, event):\r\n \r\n if self._owner_mgr:\r\n pane = self._mgr.GetPane(self._pane_window)\r\n if pane.IsFlyOut():\r\n if self.IsShownOnScreen():\r\n self.FlyOut()",
"def Enabled(self) -> bool:"
] | [
"0.6403017",
"0.6231814",
"0.61269903",
"0.60578424",
"0.58041734",
"0.57829446",
"0.5755703",
"0.5679162",
"0.5662751",
"0.56016046",
"0.55983967",
"0.55983967",
"0.55268806",
"0.5493397",
"0.5439454",
"0.5422668",
"0.54093957",
"0.5385225",
"0.537106",
"0.53606",
"0.5345185",
"0.53391165",
"0.533188",
"0.5322323",
"0.52958477",
"0.5291721",
"0.52888054",
"0.5285521",
"0.5284046",
"0.5280025"
] | 0.75331426 | 0 |
Implementing proposed deal summary table column name verification functionality | def verify_proposed_deal_summary_table_column_name(self, column_name):
column_name_locator = (By.XPATH, "//div[@id='grdProposedDealSummary']/descendant::span[text()='%s']" %(column_name.strip()))
return self.is_element_visible(column_name_locator) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def test_column_name(self):\n field = self.base_field\n sch = SchemaField(field)\n self.assertEqual(sch.name, sch.column_name)\n self.assertNotEqual(sch.column_name, sch.title)",
"def check_col(self):\n return (set(map(lambda x: x.lower(),\n self.config['dtypes'])) -\n set(self.metadata.name.values))",
"def check_cols_methane(name):\n return True if name in ['SampleDay', 'SampleHour', 'Decimal Year',\n 'Peak Area 1', 'Peak Area 2', 'Run median', 'Daily Median'] else False",
"def test_validation_column(self):\n assert self.check.validation_column == \"foo_bar_is_unique_identifier\"",
"def test_column_presence(self):\n\n columns = [\"feature_is_filtered\", \"feature_biotype\"]\n\n for component_name in [\"var\", \"raw.var\"]:\n for column in columns:\n if column == \"feature_is_filtered\" and component_name == \"raw.var\":\n continue\n with self.subTest(component_name=component_name, column=column):\n\n # Resetting validator\n self.validator.errors = []\n self.validator.adata = examples.adata.copy()\n\n component = Validator.getattr_anndata(\n self.validator.adata, component_name\n )\n component.drop(column, axis=1, inplace=True)\n\n self.validator.validate_adata()\n self.assertEqual(\n self.validator.errors,\n [\n f\"ERROR: Dataframe '{component_name}' is missing \"\n f\"column '{column}'.\"\n ],\n )",
"def test_column_presence(self):\n\n columns = [\n \"assay_ontology_term_id\",\n \"development_stage_ontology_term_id\",\n \"disease_ontology_term_id\",\n \"ethnicity_ontology_term_id\",\n \"is_primary_data\",\n \"sex_ontology_term_id\",\n \"tissue_ontology_term_id\",\n ]\n\n for column in columns:\n with self.subTest(column=column):\n self.validator.errors = []\n self.validator.adata = examples.adata.copy()\n\n self.validator.adata.obs.drop(column, axis=1, inplace=True)\n # Remove batch condition because it has a dependency with is_primary_data\n self.validator.adata.uns.pop(\"batch_condition\")\n\n self.validator.validate_adata()\n self.assertEqual(\n self.validator.errors,\n [f\"ERROR: Dataframe 'obs' is missing \" f\"column '{column}'.\"],\n )",
"def verify(self):\n for col in self.columns:\n if col not in self.table_obj.columns.keys():\n raise Exception('{} column not found in {}'.format(\n col, self.table_obj))",
"def test_analyze_columns(self):\n\t\t\n\n\t\tdetails = self.watcher.analyze()\n\t\tself.assertEqual(isinstance(details, pd.DataFrame), True, \"details is a pandas DataFrame\")\n\n\t\tcolumns = \"layer_id,name,D,M,N,alpha,alpha_weighted,has_esd,lambda_max,layer_type,log_alpha_norm,log_norm,log_spectral_norm,norm,num_evals,rank_loss,rf,sigma,spectral_norm,stable_rank,sv_max,sv_min,xmax,xmin,num_pl_spikes,weak_rank_loss\".split(',')\n\t\tprint(details.columns)\n\t\tfor key in columns:\n\t\t\tself.assertTrue(key in details.columns, \"{} in details. Columns are {}\".format(key, details.columns))",
"def pool_exam(pool, colname):\n tbl = Table.read(pool, format='ascii')\n try:\n logger.info('\\n'.join([' ', tbl[colname].__str__()]))\n except KeyError:\n logger.error('No column \"{}\" in pool \"{}\"'.format(colname, pool))",
"def test_table_widget_parser_with_single_columns_as_unique_key():\n execute_table_widget_parser_test('bh-management_operations_single-property_detailed-resident-records')",
"def test_clean_columns():\n assert clean_columns('Id, AdCampaignId, CampaignId') == ['id', 'adCampaignId', 'campaignId']",
"def _check_headers(cursor, headers):\n all_columns = set(chain.from_iterable(_columns(cursor, table) for table in DATA_TABLES))\n for header in headers:\n if header not in all_columns:\n raise ValueError('column {} not recognized'.format(header))",
"def test_table_name(self):\n with self.assertRaises(IncompetentQiitaDeveloperError):\n MetadataTemplate._table_name(self.study)",
"def _check_columns(df: pd.DataFrame, names: typing.Sequence[str]) -> None:\n for expected in names:\n if expected not in df.columns:\n raise ValueError(f\"'{expected}' column not found in input\")\n return",
"def _validate_column_name(col_name : str) -> str:\n\n if col_name[0].isdigit():\n return f'\"{col_name}\"'\n return col_name",
"def test_analyze_columns_with_model(self):\n\t\t\n\n\t\tdetails = self.watcher.analyze(model=self.model)\n\t\tself.assertEqual(isinstance(details, pd.DataFrame), True, \"details is a pandas DataFrame\")\n\n\t\tcolumns = \"layer_id,name,D,M,N,alpha,alpha_weighted,has_esd,lambda_max,layer_type,log_alpha_norm,log_norm,log_spectral_norm,norm,num_evals,rank_loss,rf,sigma,spectral_norm,stable_rank,sv_max,sv_min,xmax,xmin,num_pl_spikes,weak_rank_loss\".split(',')\n\t\tprint(details.columns)\n\t\tfor key in columns:\n\t\t\tself.assertTrue(key in details.columns, \"{} in details. Columns are {}\".format(key, details.columns))",
"def test_attempting_to_make_duplicate_column_names_fails(self):\r\n\r\n with self.assertRaises(ModelException):\r\n class BadNames(Model):\r\n words = columns.Text()\r\n content = columns.Text(db_field='words')",
"def _valid_column(column_name):\n return str(column_name)",
"def column_verbose_name():\r\n class PersonTable(tables.Table):\r\n \"\"\"\r\n The test_colX columns are to test that the accessor is used to\r\n determine the field on the model, rather than the column name.\r\n \"\"\"\r\n first_name = tables.Column()\r\n fn1 = tables.Column(accessor='first_name')\r\n fn2 = tables.Column(accessor='first_name.upper')\r\n fn3 = tables.Column(accessor='last_name', verbose_name='OVERRIDE')\r\n last_name = tables.Column()\r\n ln1 = tables.Column(accessor='last_name')\r\n ln2 = tables.Column(accessor='last_name.upper')\r\n ln3 = tables.Column(accessor='last_name', verbose_name='OVERRIDE')\r\n region = tables.Column(accessor='occupation.region.name')\r\n r1 = tables.Column(accessor='occupation.region.name')\r\n r2 = tables.Column(accessor='occupation.region.name.upper')\r\n r3 = tables.Column(accessor='occupation.region.name', verbose_name='OVERRIDE')\r\n trans_test = tables.Column()\r\n trans_test_lazy = tables.Column()\r\n\r\n # The Person model has a ``first_name`` and ``last_name`` field, but only\r\n # the ``last_name`` field has an explicit ``verbose_name`` set. This means\r\n # that we should expect that the two columns that use the ``last_name``\r\n # field should both use the model's ``last_name`` field's ``verbose_name``,\r\n # however both fields that use the ``first_name`` field should just use a\r\n # capitalized version of the column name as the column header.\r\n table = PersonTable(Person.objects.all())\r\n # Should be generated (capitalized column name)\r\n assert 'first name' == table.columns['first_name'].verbose_name\r\n assert 'first name' == table.columns['fn1'].verbose_name\r\n assert 'first name' == table.columns['fn2'].verbose_name\r\n assert 'OVERRIDE' == table.columns['fn3'].verbose_name\r\n # Should use the model field's verbose_name\r\n assert 'surname' == table.columns['last_name'].verbose_name\r\n assert 'surname' == table.columns['ln1'].verbose_name\r\n assert 'surname' == table.columns['ln2'].verbose_name\r\n assert 'OVERRIDE' == table.columns['ln3'].verbose_name\r\n assert 'name' == table.columns['region'].verbose_name\r\n assert 'name' == table.columns['r1'].verbose_name\r\n assert 'name' == table.columns['r2'].verbose_name\r\n assert 'OVERRIDE' == table.columns['r3'].verbose_name\r\n assert \"translation test\" == table.columns[\"trans_test\"].verbose_name\r\n assert \"translation test lazy\" == table.columns[\"trans_test_lazy\"].verbose_name\r\n\r\n # -------------------------------------------------------------------------\r\n\r\n # Now we'll try using a table with Meta.model\r\n class PersonTable(tables.Table):\r\n class Meta:\r\n model = Person\r\n # Issue #16\r\n table = PersonTable([])\r\n assert \"translation test\" == table.columns[\"trans_test\"].verbose_name\r\n assert \"translation test lazy\" == table.columns[\"trans_test_lazy\"].verbose_name",
"def _is_trivial_description(col_name, col_description):\n # type: (str, str) -> bool\n return col_description == col_name or \\\n col_description == \"Property \" + col_name or \\\n col_description == col_name.replace(\"_\", \" \")",
"def check_dataframe_columns(df):\r\n if len(set(df.columns).intersection(\r\n set([constants.CASE_CONCEPT_NAME, xes_constants.DEFAULT_NAME_KEY,\r\n xes_constants.DEFAULT_TIMESTAMP_KEY]))) < 3:\r\n raise Exception(\r\n \"please format your dataframe accordingly! df = pm4py.format_dataframe(df, case_id='<name of the case ID column>', activity_key='<name of the activity column>', timestamp_key='<name of the timestamp column>')\")",
"def test_field_names(self):\n\n for mb_model in self.mb_model_list:\n mb_fields = mb_model._meta.fields\n db_cols = connection.introspection.get_table_description(\n self.cursor, mb_model._meta.db_table)\n\n for i in range(0, len(mb_model._meta.fields)):\n self.assertEqual(\n mb_fields[i].column,\n db_cols[i].name\n )",
"def test_invalid_columns():\n train = ((\"Lorem ipsum dolor sit amet\", 3),\n (\"Sed ut perspiciatis unde\", 5.5))\n with pytest.raises(ValueError):\n TabularDataset(train, named_columns=['some_random_col'])",
"def clean_table(self):\n return False",
"def check_meatadata_row(validated, input_validate_dict, row, idx):\n\n if row['RealCrystalName'].isspace() or row['RealCrystalName'] == 'nan':\n add_tset_warning(input_validate_dict, 'Metadata.csv', 'RealCrystalName spaces or null', idx + 2)\n validated = False\n if row['crystal_name'].isspace() or row['RealCrystalName'] == 'nan':\n add_tset_warning(input_validate_dict, 'Metadata.csv', 'Crystal name spaces or null', idx + 2)\n validated = False\n if row['RealCrystalName'] not in row['crystal_name']:\n add_tset_warning(input_validate_dict, 'Metadata.csv', 'Crystal name does not contain RealCrystalName', idx + 2)\n validated = False\n if row['smiles'] == 'nan':\n add_tset_warning(input_validate_dict, 'Metadata.csv', 'Smiles null', idx + 2)\n validated = False\n\n return validated, input_validate_dict",
"def verify(self):\n for col in self._columns:\n if col not in self._table_obj.columns.keys():\n raise GaiaException('{} column not found in {}'.format(\n col, self._table_obj))",
"def test_slice_name(self):\n self.insert()\n data = self.tbl['name']\n assert self.check(self.idata[:, [0, 1]], data)",
"def test_extract_invalid_column(self):\n self.dicom.extract_keywords([\"invalid\"])\n\n # ensure column was added\n columns = self.dicom.metadata.column_names\n if u'invalid' not in columns:\n raise Exception(\"Invalid column not added\")\n\n # compare expected and actual result\n invalid_column = self.dicom.metadata.take(self.count, columns=[u'invalid'])\n expected_result = [[None] for x in range(0, self.count)]\n self.assertEqual(invalid_column, expected_result)",
"def check_column_names(expected_headings, found_headings):\n column_missing = False\n column_additional = False\n\n # Check if column headings exist\n logging.info(\"Checking column headers are correct.\")\n diff_columns = set(expected_headings) - set(found_headings)\n if len(diff_columns) > 0:\n column_missing = True\n\n # Check whether there are any additional columns (could need renaming)\n extra_columns = set(found_headings) - set(expected_headings)\n if len(extra_columns) > 0:\n column_additional = True\n\n # Check for duplicate headings\n # NOTE: As mangle_dupe_cols=True, any duplicate columns will be stored in the form column.1.... column.N\n # We use this to avoid overwriting data. However, to identify duplicate original columns, we need to remove\n # these prior to checking for dups\n main_column_names = [i.split(\".\")[0] for i in found_headings]\n duplicate_headings = len(main_column_names) > len(set(main_column_names))\n if duplicate_headings:\n logging.error(\"Duplicate headings identified.\")\n if column_missing:\n logging.error(\"Missing headers identified:\")\n print(diff_columns)\n if column_additional:\n logging.error(\"Additional headers identified:\")\n print(extra_columns)\n if column_missing or column_additional or duplicate_headings:\n logging.info(\n \"File will not pass checks as I am unable to tell \"\n \"what to do with the columns on my own.\"\n )\n return False\n return True",
"def test_column_presence_organism(self):\n\n self.validator.adata.obs.drop(\"organism_ontology_term_id\", axis=1, inplace=True)\n self.validator.validate_adata()\n self.assertEqual(\n self.validator.errors,\n [\n \"ERROR: Dataframe 'obs' is missing column \"\n \"'organism_ontology_term_id'.\",\n \"ERROR: Checking values with dependencies failed for \"\n \"adata.obs['ethnicity_ontology_term_id'], this is likely due \"\n \"to missing dependent column in adata.obs.\",\n \"ERROR: Checking values with dependencies failed for \"\n \"adata.obs['development_stage_ontology_term_id'], this is likely due \"\n \"to missing dependent column in adata.obs.\",\n ],\n )"
] | [
"0.63351345",
"0.6197434",
"0.61581904",
"0.6042078",
"0.5980687",
"0.591806",
"0.57640886",
"0.5763686",
"0.5736904",
"0.57290286",
"0.57053614",
"0.56968915",
"0.56865937",
"0.56721854",
"0.5672158",
"0.5633161",
"0.5619841",
"0.5617922",
"0.56095105",
"0.5598771",
"0.5582352",
"0.5571858",
"0.55499154",
"0.5517173",
"0.54890144",
"0.54887336",
"0.54826224",
"0.5468654",
"0.5455791",
"0.5454457"
] | 0.6456253 | 0 |
Implementing click request new deal button functionality | def click_request_new_deal_button(self):
self.click_element(self.request_new_deal_button_locator) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def click_request_deal_button(self):\n self.click_element(self.request_deal_button_locator)\n try:\n self.wait().until(EC.visibility_of_element_located(self.confirmation_popup_locator), 'confirmation popup locator not found before specified time out')\n self.click_element(self.ok_button_locator, True)\n except:\n raise",
"def click_request_new_buy_and_sell_deal(self):\n self.click_element(self.request_new_buy_and_sell_deal_locator, error_message=\"request new buy and sell deal locator not found before specified time out\")",
"def click_buy_and_sell_deal_create_button(self):\n self.click_element(self.save_vendor_profile_locator)",
"def add_deal(self):\n if not self._parent.connected():\n return\n self._parent.deal_adder.reset_fields() # clean all fields\n self._parent.deal_adder.update_adder() # set the posible accounts and so on\n self._parent.deal_adder.set_current_datetime()\n ret = self._parent.deal_adder.run()\n if ret == gtk.RESPONSE_ACCEPT:\n data = self._parent.deal_adder.get_data()\n self._parent.model.tacreate_deal(data[\"account_id\"], data)\n self._parent.call_update_callback()",
"def newDeal(self):\n self.card1 = Card(1, 'c')\n self.card2 = Card(4, 'd')\n self.stateLabel[\"text\"] = \"\"\n self.refreshImages()",
"def click(self):\r\n pass",
"def btn_follow_clicked(self, widget, data=None):\n print \"follow clicked\"\n #Going to put random stuff here.",
"def click_buy_and_sell_deal_bulk_edit_button(self):\n self.click_element(self.buy_and_sell_deal_bulk_edit_button_lcoator, True)",
"def on_click ( self, object ):\n pass",
"def click_add_related_dispute_button(self):\n add_related_dispute_button_element = self.wait().until(EC.element_to_be_clickable(self.add_related_dispute_button_locator), 'add related dispute button locator not found before specified time out')\n add_related_dispute_button_element.click()\n self.wait_for_ajax_spinner_load()",
"def on_Deposit_clicked(self):\n # TODO: not implemented yet\n raise NotImplementedError",
"def click_buy_and_sell_deal_management_link(self):\n self.select_static_tab(self.buy_and_sell_deal_management_locator, message=\"buy and sell deal management locator not found before specified time out\")",
"def on_click(self) -> None:\n pass",
"def handle_remote_button(self, request):\n self._verify_auth_parameters(request)\n content = yield from request.content.read()\n parsed = dmap.parse(content, tag_definitions.lookup_tag)\n self.last_button_pressed = dmap.first(parsed, 'cmbe')\n return web.Response(status=200)",
"def btn_create_reco(self):\n\t\tprint()\n\t\tprint('OH - btn_create_reco')\n\n\t\t# Init\n\t\tres_id = self.id\n\t\tres_model = _model_treatment\n\t\tview_id = self.env.ref('openhealth.treatment_2_form_view').id\n\n\t\t# Open\n\t\treturn {\n\t\t\t# Mandatory\n\t\t\t'type': _model_action,\n\t\t\t'name': 'Open Treatment Current',\n\t\t\t# Window action\n\t\t\t'priority': 1,\n\t\t\t'res_id': res_id,\n\t\t\t'res_model': res_model,\n\t\t\t#'view_id': view_id,\n\t\t\t# Views\n\t\t\t#\"views\": [[False, \"form\"]],\n\t\t\t\"views\": [[view_id, \"form\"]],\n\t\t\t'view_mode': 'form',\n\t\t\t'target': 'current',\n\t\t\t#\"domain\": [[\"patient\", \"=\", self.patient.name]],\n\t\t\t#'auto_search': False,\n\t\t\t'flags': {\n\t\t\t\t\t\t#'form': {'action_buttons': True, 'options': {'mode': 'edit'}}\n\t\t\t\t\t\t'form': {'action_buttons': False, }\n\t\t\t\t\t},\n\t\t\t'context': {\n\t\t\t\t\t\t#'default_treatment': treatment_id,\n\t\t\t\t\t}\n\t\t}",
"def goto_create(self):\n\n self.create.click()",
"def click_add_new_adjustment_charge_button(self):\n add_new_adjustment_charge_button_element = self.wait().until(EC.element_to_be_clickable(self.add_new_adjustment_charge_button_locator), 'add new adjustment button locator not found before specified time out')\n add_new_adjustment_charge_button_element.click()\n self.wait_for_ajax_spinner_load()",
"def post_another_try(self, request): # SECOND EXAMPLE\n model = self.create_booking(request)\n client.historio().push(model, get_current_user_id(), source='assignment', source_id=model.id) # Magic happens\n # Magic is done",
"def post(self):\n pass",
"def post(self):\n pass",
"def post(self):\n pass",
"def post(self):\n pass",
"def post(self):\n pass",
"def post(self):\n pass",
"def post(self):\n pass",
"def post(self):\n pass",
"def post(self):\n pass",
"def post(self):\n pass",
"def post(self):\n pass",
"def post(self):\n pass"
] | [
"0.64982593",
"0.64945984",
"0.62229306",
"0.6113815",
"0.6040907",
"0.6033035",
"0.5992185",
"0.5971876",
"0.58393395",
"0.5838752",
"0.5820641",
"0.57878286",
"0.57819945",
"0.5768136",
"0.5719641",
"0.5626854",
"0.56200135",
"0.5542692",
"0.5468175",
"0.5468175",
"0.5468175",
"0.5468175",
"0.5468175",
"0.5468175",
"0.5468175",
"0.5468175",
"0.5468175",
"0.5468175",
"0.5468175",
"0.5468175"
] | 0.81743026 | 0 |
Implementing set buy and sell deal name functionality | def set_buy_and_sell_deal_name(self, buy_and_sell_deal_prefix):
global buy_and_sell_deal
buy_and_sell_deal = buy_and_sell_deal_prefix + self.random_string_generator(size=4)
self.set_value_into_input_field(self.buy_and_sell_deal_textbox_locator, buy_and_sell_deal) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def get_buy_and_sell_deal_name(self):\n global buy_and_sell_deal\n return buy_and_sell_deal",
"def buy_commodity(umid, id1, val1, cur=tradeables.find_one({'baseCurrency': True})['name']):\n # todo: rework for DJango and new Classes\n currency = tradeables.find_one({'name': cur})['_id']\n valBase = tradeables.find_one({'_id': id1})['priceBase'] * val1 * -1 # todo: remove\n valCur = valBase * tradeables.find_one({'name': cur})['base2this']\n\n if val1 >= 0:\n action = 'Bought'\n else:\n action = 'Sold'\n\n trade(umid, id1, val1, currency, valCur, action)\n print()\n print(' {} {:.2f} {} for {}'.format(action, val1, id1.split('_')[1], cur))\n print(' {:<3} Unit price: {:.2f} Total: {:.2f}'.format('USD', valBase/-val1, valBase))\n print(' {:<3} Unit price: {:.2f} Total: {:.2f} <-- final'.format(cur, valCur/-val1, valCur))",
"def Trading(Seller,Buyer):\n if Seller.has_sold == False:\n if Buyer.like_buy >= Seller.like_sell:\n Seller.has_sold = True\n Buyer.has_bought = True\n Seller.sold_objects += 1\n Buyer.bought_objects += 1\n print('A trade has been made')\n else:\n Buyer.has_bought = False\n Seller.has_sold = False\n print('There was no deal')\n else:\n Buyer.has_bought = False",
"async def trade(self, ctx, *args):\n if has_post_permission(ctx.guild.id, ctx.channel.id):\n if len(args) < 4:\n await ctx.send('Arguments missing. '\n 'Syntax is `~trade [name] [number] [item] [offer]`.')\n return\n\n try:\n trade = {'user1': ctx.author.id,\n 'user2': args[0],\n 'amount1': args[1],\n 'amount2': args[-1],\n 'item1': ' '.join(args[2:-1]),\n 'item2': 'coins'}\n ctx.bot.trade_manager.add_trade(ctx, trade)\n except TradeError as e:\n await ctx.send(e.msg)\n return\n\n name = args[0]\n for member in ctx.guild.members:\n if name.lower() in member.name.lower():\n name_member = member\n break\n\n offer = users.parse_int(args[-1])\n number = users.parse_int(args[1])\n itemid = items.find_by_name(' '.join(args[2:-1]))\n name = get_display_name(ctx.author)\n offer_formatted = '{:,}'.format(offer)\n out = (f'{items.SHOP_HEADER}{name.title()} wants to sell {name_member.mention} '\n f'{items.add_plural(number, itemid)} for {offer_formatted} coins. '\n f'To accept this offer, reply to this post with a :thumbsup:. '\n f'Otherwise, this offer will expire in one minute.')\n msg = await ctx.send(out)\n\n if await self.confirm(ctx, msg, out, timeout=60):\n price = {\"0\": offer}\n users.update_inventory(name_member.id, price, remove=True)\n users.update_inventory(ctx.author.id, price)\n loot = {itemid: number}\n users.update_inventory(ctx.author.id, loot, remove=True)\n users.update_inventory(name_member.id, loot)\n\n buyer_name = get_display_name(name_member)\n await ctx.send(f'{items.SHOP_HEADER}{name.title()} successfully sold '\n f'{items.add_plural(number, itemid)} to {buyer_name} for '\n f'{offer_formatted} coins!')\n ctx.bot.trade_manager.reset_trade(trade, ctx.author.id, name_member.id)",
"def set_buy_sell_deal_account(self, account_list):\n self.multiple_items_selection_from_kendo_dropdown(self.buy_sell_deal_account_dropdown_locator, account_list)\n self.wait_for_ajax_spinner_load()",
"def sell():\n return apology(\"TODO\")",
"def click_buy_and_sell_deal_create_button(self):\n self.click_element(self.save_vendor_profile_locator)",
"async def buy(self, ctx, name, shares: int):\n\t\tplural = 's' if shares != 1 else ''\n\t\tcurrency = await bank.get_currency_name(ctx.guild)\n\t\tif shares < 1:\n\t\t\tawait ctx.send('You cannot buy less than one share.')\n\t\t\treturn\n\t\tname = name.upper()\n\t\ttry:\n\t\t\tstock_data = await self._get_stock_data([name])\n\t\texcept ValueError as e:\n\t\t\treturn await ctx.send(e)\n\t\tif name not in stock_data:\n\t\t\tawait ctx.send(f'I couldn\\'t find any data for the stock {name}. Please try another stock.')\n\t\t\treturn\n\t\tprice = stock_data[name]['price']\n\t\ttry:\n\t\t\tbal = await bank.withdraw_credits(ctx.author, shares * price)\n\t\texcept ValueError:\n\t\t\tbal = await bank.get_balance(ctx.author)\n\t\t\tawait ctx.send(\n\t\t\t\tf'You cannot afford {shares} share{plural} of {name}. '\n\t\t\t\tf'It would cost {price * shares} {currency} ({price} {currency} each). '\n\t\t\t\tf'You only have {bal} {currency}.'\n\t\t\t)\n\t\t\treturn\n\t\tasync with self.config.user(ctx.author).stocks() as user_stocks:\n\t\t\tif name in user_stocks:\n\t\t\t\tuser_stocks[name]['count'] += shares\n\t\t\telse:\n\t\t\t\tuser_stocks[name] = {'count': shares, 'total_count': stock_data[name]['total_count']}\n\t\tawait ctx.send(\n\t\t\tf'You purchased {shares} share{plural} of {name} for {price * shares} {currency} '\n\t\t\tf'({price} {currency} each).\\nYou now have {bal} {currency}.'\n\t\t)",
"def set_target_buy_list(self, item_name, is_first_item):\n if is_first_item is True:\n self.single_selection_from_static_kendo_dropdown(self.target_buy_list_kendo_dropdown_arrow_locator, first_item=True)\n else:\n self.single_selection_from_static_kendo_dropdown(self.target_buy_list_kendo_dropdown_arrow_locator, item_name)",
"async def _vis_buy(self, ctx, *args):\n if has_post_permission(ctx.guild.id, ctx.channel.id):\n number, item = ch.parse_number_and_name(args)\n if item:\n await ctx.send(vis_helpers.shop_buy(ctx.user_object, item, number))",
"def sell(self):\n self.status = \"sold\"\n return self",
"def sells(self, sells):\n\n self._sells = sells",
"async def sell(self, ctx, name, shares: int):\n\t\tplural = 's' if shares != 1 else ''\n\t\tif shares < 1:\n\t\t\tawait ctx.send('You cannot sell less than one share.')\n\t\t\treturn\n\t\tname = name.upper()\n\t\ttry:\n\t\t\tstock_data = await self._get_stock_data([name])\n\t\texcept ValueError as e:\n\t\t\treturn await ctx.send(e)\n\t\tif name not in stock_data:\n\t\t\tawait ctx.send(f'I couldn\\'t find any data for the stock {name}. Please try another stock.')\n\t\t\treturn\n\t\tprice = stock_data[name]['price']\n\t\tasync with self.config.user(ctx.author).stocks() as user_stocks:\n\t\t\tif name not in user_stocks:\n\t\t\t\tawait ctx.send(f'You do not have any shares of {name}.')\n\t\t\t\treturn\n\t\t\tif shares > user_stocks[name]['count']:\n\t\t\t\tawait ctx.send(\n\t\t\t\t\tf'You do not have enough shares of {name}. '\n\t\t\t\t\tf'You only have {user_stocks[name]} share{plural}.'\n\t\t\t\t)\n\t\t\t\treturn\n\t\t\tuser_stocks[name]['count'] -= shares\n\t\t\tif user_stocks[name]['count'] == 0:\n\t\t\t\tdel user_stocks[name]\n\t\tbal = await bank.deposit_credits(ctx.author, shares * price)\n\t\tcurrency = await bank.get_currency_name(ctx.guild)\n\t\tawait ctx.send(\n\t\t\tf'You sold {shares} share{plural} of {name} for {price * shares} {currency} '\n\t\t\tf'({price} {currency} each).\\nYou now have {bal} {currency}.'\n\t\t)",
"def purchase(self, item_type):",
"def trade_action(self, BUY_QTY):\n BUY_QTY = 4500\n self.trade(BUY_QTY)\n #self.show()",
"def before_trading_start(context, data):\n pipe_bbands = algo.pipeline_output('pipe_bbands') \n\n # Find list of symbols to buy/sell.\n context.buy = pipe_bbands[pipe_bbands['buy']].index.tolist()\n context.sell = pipe_bbands[pipe_bbands['sell']].index.tolist()",
"def buy(self, buyDate, sellDate, buyLimit, unitLimit, repeat):\n\t\tstartDate, startPrice = self.getOpeningPrice()\n\t\tmaxAmount = int(buyLimit)/int(startPrice)\n\t\t\t\t\n\t\t# If you've selected a one-off stock purchase\n\t\tif repeat == 'never' and maxAmount > 0:\n\t\t\tself.purchased = (maxAmount * startPrice)\n\t\t\tself.units = maxAmount\n\t\t\tself.purchasedList.append(maxAmount * startPrice)\n\t\t\tself.unitsList.append(maxAmount)\n\t\t\tself.dateList = [startDate]\t\n\t\t\t\n\t\t# Otherwise there's some iteration required\n\t\telse:\n\t\t\tcurrentDate = startDate\n\t\t\tendDate, endPrice = self.getClosingPrice()\n\t\t\t\n\t\t\t# Iterate on the date value\n\t\t\twhile currentDate <= endDate:\n\t\t\t\tdate, price = self.getPrice(currentDate)\n\n\t\t\t\tif date is not None and price is not None:\n\t\t\t\t\tmaxAmount = int(buyLimit)/int(price)\n\t\t\t\t\t\n\t\t\t\t\t# Check there's no unit limit\t\t\t\t\n\t\t\t\t\tif maxAmount > unitLimit and unitLimit > 0:\n\t\t\t\t\t\tmaxAmount = unitLimit\n\t\t\t\t\t\n\t\t\t\t\t# If you can afford it, but the stock, otherwise skip it\n\t\t\t\t\tif maxAmount > 0:\n\t\t\t\t\t\tself.purchased += (maxAmount * price)\n\t\t\t\t\t\tself.units += maxAmount\n\t\t\t\t\t\tself.purchasedList.append(maxAmount * price)\n\t\t\t\t\t\tself.unitsList.append(maxAmount)\n\t\t\t\t\t\tself.dateList.append(date)\t\n\t\t\t\t\n\t\t\t\t# If there's no later stock data remaining break the loop\n\t\t\t\tcurrentDate = self.getNextDate(currentDate, startDate, repeat)\n\t\t\t\tif currentDate is None:\n\t\t\t\t\tbreak",
"def buy_item(product_name, buy_price, expiration_date, buy_date):\r\n product_name = product_name.lower()\r\n with open('bought.csv', 'r+', newline='') as file:\r\n reader = csv.reader(file)\r\n next(reader) \r\n find_buy_id = [0]\r\n for row in reader:\r\n bought_id = int(row[0])\r\n find_buy_id.append(bought_id)\r\n bought_id = max(find_buy_id)+1\r\n if buy_date == 'today':\r\n date_bought = helper.get_date()\r\n else:\r\n date_bought = buy_date\r\n bought_item = csv.writer(file)\r\n bought_item.writerow([bought_id, product_name, date_bought, buy_price, expiration_date])",
"def qualified_item(self):\n # Price check with base item\n self.log.info(\"Price checking Qual 1 via PLU\")\n pos.click(\"Price Check\")\n pos.enter_keypad(\"030\", after='enter')\n if self.selection_list_visible():\n pos.select_list_item(\"Qual 1 ($5.00)\")\n pos.click(\"enter\")\n else:\n tc_fail(\"Selection list didn't appear.\")\n\n # Confirm the right item, at the right price\n self.read_price_check(\"Qual 1\", \"$5.00\")\n # Add the item\n pos.click(\"Sell Item\")\n\n # Price check with qualifier\n self.log.info(\"Price checking Qual 1 via PLU\")\n pos.click(\"Price Check\")\n pos.enter_keypad(\"030\", after='enter')\n if self.selection_list_visible():\n pos.select_list_item(\"Test Type ($10.00)\")\n pos.click(\"enter\")\n else:\n tc_fail(\"Selection list didn't appear.\")\n\n # Confirm the right item, at the right price\n self.read_price_check(\"Qualifier 1\", \"$10.00\")\n # Add the item\n pos.click(\"Sell Item\")\n\n # Confirm we are in a transaction\n if not self.in_transaction():\n self.tc_fail(\"POS did not start a transaction; can not confirm item was added\")\n else:\n self.log.info(\"Confirmed we are in a transaction\")\n \n # Confirm we added the item\n ret1 = self.confirm_line(-2, \"Qual 1\", \"$5.00\")\n if ret1:\n self.log.info(\"Confirmed Qual 1 item added\")\n else:\n self.tc_fail(ret1)\n \n # Confirm we added the linked item\n ret2 = self.confirm_line(-1, \"Qualifier 1\", \"$10.00\")\n if ret2:\n self.log.info(\"Confirmed Qualifier 1 item added\")\n else:\n self.tc_fail(ret2)\n \n # Setup for next test\n self.recover()",
"async def update(self, *args, **kwargs):\n if not self.__bought:\n random_stock = 1\n stock_price = self.priceindicator[random_stock].price\n if stock_price != 0:\n random_const = float(decimal.Decimal(random.randrange(-5,5))/100)\n stock_price = stock_price + stock_price*random_const\n stock_price = int(stock_price)\n await self.place_buy_order(random_stock, self.settings[\"stocks_per_company\"], stock_price, 1)\n log_message = \"StockBuyerBot(\" + self.name + \") bought \" + str(random_stock)\n print(log_message)\n else:\n log_message = \"StockBuyerBot(\" + self.name + \") bought nothing\"\n print(log_message)\n self.add_to_log(self.id, log_message)",
"async def _register_trade_buy(self, pair: str, label: str, detection_name: str,\n trigger_data: Dict[str, Any], rebuy=False):\n\n current_time = self.market.close_times[pair][-1]\n current_value = self.market.adjusted_close_values[pair][-1]\n\n if rebuy:\n last_closed_trade = self.trades[pair]['closed'][-1]\n followed_time_str = common.utctime_str(last_closed_trade['detection_time'], config['time_format'])\n followed_name = last_closed_trade['detection_name']\n followed_prefix = 'RE-BUY ' if last_closed_trade['rebuy'] else 'BUY '\n followed_norm_value = last_closed_trade['open_value'] / current_value\n followed_delta = 1.0 - followed_norm_value\n\n metadata = trigger_data.copy()\n metadata['followed'].append({\n 'snapshot': '{} {} {}'.format(pair, followed_prefix + followed_name, followed_time_str),\n 'name': followed_prefix + followed_name,\n 'time': last_closed_trade['detection_time'],\n 'delta': followed_delta\n })\n\n else:\n metadata = trigger_data\n\n await self.reporter.send_alert(pair, metadata, detection_name, prefix=label,\n color=config['buy_color'], sound=config['buy_sound'])\n\n self.trades[pair]['last_open_time'] = current_time\n self.last_trades[pair]['buy'] = {'value': current_value, 'time': current_time}\n\n if rebuy:\n self.trades[pair]['rebuy_count'] += 1\n self.last_trades[pair]['most_recent'] = 'rebuy'\n self.last_trades[pair]['rebuy'] = {'value': current_value, 'time': current_time}\n else:\n self.trades[pair]['rebuy_count'] = 0\n self.last_trades[pair]['most_recent'] = 'buy'\n\n buy_stat = 'rebuys' if rebuy else 'buys'\n self.trade_stats[self.time_prefix][pair][buy_stat] += 1",
"def set_sell_amount_from_buy_amount(self, *args, **kwargs):\n self._sell_amount = self.get_sell_amount_from_buy_amount(*args, **kwargs)",
"def click_buy_and_sell_deal_bulk_edit_button(self):\n self.click_element(self.buy_and_sell_deal_bulk_edit_button_lcoator, True)",
"def set_target_buy_policy_name(self, prefix):\n global target_buy_policy\n target_buy_policy = (prefix + self.random_string_generator(size=4))\n self.set_value_into_input_field(self.target_buy_policy_input_field_locator, value=target_buy_policy)",
"def place_sell_order(self):\n price = request.form[\"price\"]\n stocks = request.form[\"stocks\"]\n trader_id = request.form[\"trader_id\"]\n self.market.place_sell_order(trader_id, price, stocks)\n return \"\"",
"def set_name(self, item_name):\r\n self.name = item_name",
"async def price(self, ctx, name):\n\t\tname = name.upper()\n\t\ttry:\n\t\t\tstock_data = await self._get_stock_data([name])\n\t\texcept ValueError as e:\n\t\t\treturn await ctx.send(e)\n\t\tif name not in stock_data:\n\t\t\tawait ctx.send(f'I couldn\\'t find any data for the stock {name}. Please try another stock.')\n\t\t\treturn\n\t\tprice = stock_data[name]['price']\n\t\treal = str(price)\n\t\treal = ('0' * (3 - max(len(real), 0))) + real\n\t\treal = '$' + real[:-2] + '.' + real[-2:]\n\t\tcurrency = await bank.get_currency_name(ctx.guild)\n\t\tawait ctx.send(f'**{name}:** {price} {currency} per share ({real}).')",
"async def buybait(self, ctx:commands.Context, quantity:int, *bait_type:str):\r\n\r\n if not await self.IsSpecialized(ctx.guild, ctx.channel.id, SHOP_CHANNEL):\r\n await ctx.send('Cannot buy bait here\\nUse `add shop` to turn this channel into a shop')\r\n return\r\n\r\n bait_type = ' '.join(bait_type)\r\n if not bait_type in fishing_bait:\r\n await ctx.send(f'{bait_type} is not a valid form of bait')\r\n\r\n bulk_mod = await self.GetModifier(ctx.guild, 'bulk_purchase_mod')\r\n bulk_requirement = await self.GetSetting(ctx.guild, 'bulk_minimum')\r\n total = int(bait_prices[bait_type] * quantity * await self.GetModifier(ctx.guild, \"bait_price\") * (1 if quantity < bulk_requirement else 1 - bulk_mod))\r\n\r\n if not bank.can_spend(ctx.message.author, total):\r\n await ctx.send(f'You don\\'t have enough {await bank.get_currency_name(ctx.guild)}')\r\n return\r\n\r\n msg = await ctx.send(f'Are you sure you want to buy {bait_type} x{quantity} ({total} {await bank.get_currency_name(ctx.guild)})'\r\n + (f'\\n*-{100 * bulk_mod}% for buying in bulk*' if quantity >= bulk_requirement else ''))\r\n\r\n start_adding_reactions(msg, ReactionPredicate.YES_OR_NO_EMOJIS)\r\n pred = ReactionPredicate.yes_or_no(msg, ctx.author)\r\n try:\r\n await ctx.bot.wait_for(\"reaction_add\", check=pred, timeout=15)\r\n except asyncio.TimeoutError:\r\n await msg.clear_reactions()\r\n return\r\n\r\n if pred.result is True:\r\n member_bait = await self.config.member(ctx.message.author).bait()\r\n member_bait[bait_type] += quantity\r\n await self.config.member(ctx.message.author).bait.set(member_bait)\r\n await msg.edit(content=f'{quantity} {bait_type} bought for {total} {await bank.get_currency_name(ctx.guild)}')\r\n await bank.withdraw_credits(ctx.message.author, total)\r\n else:\r\n await msg.edit(content='Sale cancelled')\r\n\r\n await msg.clear_reactions()",
"def slot_trade(self, gox, (date, price, volume, typ, own)):\r\n pass",
"def processMarketTransaction(self, buyOrder, sellOrder, resolvedPrice):\n try:\n buyOrderAmountLeft = buyOrder.amount - buyOrder.amountUsed\n sellOrderAmountLeft = sellOrder.amount - sellOrder.amountUsed\n myMarketStat = self.marketStats[str(self.currentRound)]\n # go through transaction rules\n if sellOrderAmountLeft == 0:\n return '(%s)seller:%s out of Resources' % (buyOrder.value, sellOrder.id)\n if buyOrder.amountUsed == buyOrder.amount:\n return '(%s)buyer:%s Already has completed transaction' % (buyOrder.value, buyOrder.id)\n elif buyOrderAmountLeft > sellOrderAmountLeft and buyOrder.type == 'buy-all':\n return '(%s)buyer:%s wants to buy all-or-none, buy=%d, sell=%d' % (buyOrder.value, buyOrder.id, buyOrder.amount, sellOrder.amount)\n elif buyOrder.type == 'buy-any' or buyOrderAmountLeft <= sellOrderAmountLeft:\n if resolvedPrice >= sellOrder.min and resolvedPrice <= buyOrder.max:\n # process Transaction\n buySystem = self.systems[buyOrder.system]\n sellSystem = self.systems[sellOrder.system]\n # determine amount to transact\n if sellOrderAmountLeft >= buyOrderAmountLeft:\n actualAmount = buyOrderAmountLeft\n else:\n actualAmount = sellOrderAmountLeft\n # store data for galactic market records\n setattr(myMarketStat, 'sumSold%s' % buyOrder.value, getattr(myMarketStat, 'sumSold%s' % buyOrder.value) + (actualAmount*resolvedPrice))\n setattr(myMarketStat, 'volSold%s' % buyOrder.value, getattr(myMarketStat, 'volSold%s' % buyOrder.value) + actualAmount)\n # remove amount from orders\n buyOrder.amountUsed += actualAmount\n sellOrder.amountUsed += actualAmount\n # calculate credits and refund\n credits = actualAmount * resolvedPrice\n refund = (buyOrder.max-resolvedPrice)*actualAmount\n # give credits to seller\n sellSystem.payResources(-credits,0,0,0)\n # give resource and refund to buyer\n buySystem.payResources(-refund,0,0,0)\n buySystem.modifyResource(buyOrder.value, actualAmount)\n # mail Empires result\n sellSystem.myEmpire.genMail({'fromEmpire':sellSystem.myEmpire.id, 'round':self.currentRound+1, \n 'messageType':'market', 'subject':'(%s) - Resource:%s - SOLD: (%d units at %d)' % (sellSystem.name, sellOrder.value, actualAmount, resolvedPrice),\n 'body':['Remaining Unsold %s from this Order:%d' % (sellOrder.value, sellOrder.amount-sellOrder.amountUsed)]})\n buySystem.myEmpire.genMail({'fromEmpire':buySystem.myEmpire.id, 'round':self.currentRound+1, \n 'messageType':'market', 'subject':'(%s) - Resource:%s - BOUGHT: (%d units at %d)' % (buySystem.name, buyOrder.value, actualAmount, resolvedPrice),\n 'body':['Remaining Unbought %s from this Order:%d' % (buyOrder.value, buyOrder.amount-buyOrder.amountUsed)]})\n\n return 'transaction completed: %s SOLD %d %s to %s for %d price' % (sellSystem.name, actualAmount, sellOrder.value, buySystem.name, resolvedPrice)\n else:\n return '(%s)resolved price=%d, not in range, seller=%s, buyer=%s' % (buyOrder.value, resolvedPrice, sellOrder.id, buyOrder.id)\n else:\n return 'unknown order type'\n\n except:\n return 'galaxy->processMarketTransaction error'"
] | [
"0.7454981",
"0.6259474",
"0.61827135",
"0.5870432",
"0.5813875",
"0.57941747",
"0.5766047",
"0.56989807",
"0.5688304",
"0.55938613",
"0.5579945",
"0.55488634",
"0.5538724",
"0.55373",
"0.5512377",
"0.5476217",
"0.54712945",
"0.5469959",
"0.54647005",
"0.54523146",
"0.5440085",
"0.5436764",
"0.54262096",
"0.54224914",
"0.5407306",
"0.53957677",
"0.53881073",
"0.5382526",
"0.53393155",
"0.5339044"
] | 0.77173007 | 0 |
Implementing set buy sell deal account functionality | def set_buy_sell_deal_account(self, account_list):
self.multiple_items_selection_from_kendo_dropdown(self.buy_sell_deal_account_dropdown_locator, account_list)
self.wait_for_ajax_spinner_load() | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def Trading(Seller,Buyer):\n if Seller.has_sold == False:\n if Buyer.like_buy >= Seller.like_sell:\n Seller.has_sold = True\n Buyer.has_bought = True\n Seller.sold_objects += 1\n Buyer.bought_objects += 1\n print('A trade has been made')\n else:\n Buyer.has_bought = False\n Seller.has_sold = False\n print('There was no deal')\n else:\n Buyer.has_bought = False",
"def click_buy_and_sell_deal_create_button(self):\n self.click_element(self.save_vendor_profile_locator)",
"async def trade(self, ctx, *args):\n if has_post_permission(ctx.guild.id, ctx.channel.id):\n if len(args) < 4:\n await ctx.send('Arguments missing. '\n 'Syntax is `~trade [name] [number] [item] [offer]`.')\n return\n\n try:\n trade = {'user1': ctx.author.id,\n 'user2': args[0],\n 'amount1': args[1],\n 'amount2': args[-1],\n 'item1': ' '.join(args[2:-1]),\n 'item2': 'coins'}\n ctx.bot.trade_manager.add_trade(ctx, trade)\n except TradeError as e:\n await ctx.send(e.msg)\n return\n\n name = args[0]\n for member in ctx.guild.members:\n if name.lower() in member.name.lower():\n name_member = member\n break\n\n offer = users.parse_int(args[-1])\n number = users.parse_int(args[1])\n itemid = items.find_by_name(' '.join(args[2:-1]))\n name = get_display_name(ctx.author)\n offer_formatted = '{:,}'.format(offer)\n out = (f'{items.SHOP_HEADER}{name.title()} wants to sell {name_member.mention} '\n f'{items.add_plural(number, itemid)} for {offer_formatted} coins. '\n f'To accept this offer, reply to this post with a :thumbsup:. '\n f'Otherwise, this offer will expire in one minute.')\n msg = await ctx.send(out)\n\n if await self.confirm(ctx, msg, out, timeout=60):\n price = {\"0\": offer}\n users.update_inventory(name_member.id, price, remove=True)\n users.update_inventory(ctx.author.id, price)\n loot = {itemid: number}\n users.update_inventory(ctx.author.id, loot, remove=True)\n users.update_inventory(name_member.id, loot)\n\n buyer_name = get_display_name(name_member)\n await ctx.send(f'{items.SHOP_HEADER}{name.title()} successfully sold '\n f'{items.add_plural(number, itemid)} to {buyer_name} for '\n f'{offer_formatted} coins!')\n ctx.bot.trade_manager.reset_trade(trade, ctx.author.id, name_member.id)",
"def buy_commodity(umid, id1, val1, cur=tradeables.find_one({'baseCurrency': True})['name']):\n # todo: rework for DJango and new Classes\n currency = tradeables.find_one({'name': cur})['_id']\n valBase = tradeables.find_one({'_id': id1})['priceBase'] * val1 * -1 # todo: remove\n valCur = valBase * tradeables.find_one({'name': cur})['base2this']\n\n if val1 >= 0:\n action = 'Bought'\n else:\n action = 'Sold'\n\n trade(umid, id1, val1, currency, valCur, action)\n print()\n print(' {} {:.2f} {} for {}'.format(action, val1, id1.split('_')[1], cur))\n print(' {:<3} Unit price: {:.2f} Total: {:.2f}'.format('USD', valBase/-val1, valBase))\n print(' {:<3} Unit price: {:.2f} Total: {:.2f} <-- final'.format(cur, valCur/-val1, valCur))",
"async def buybait(self, ctx:commands.Context, quantity:int, *bait_type:str):\r\n\r\n if not await self.IsSpecialized(ctx.guild, ctx.channel.id, SHOP_CHANNEL):\r\n await ctx.send('Cannot buy bait here\\nUse `add shop` to turn this channel into a shop')\r\n return\r\n\r\n bait_type = ' '.join(bait_type)\r\n if not bait_type in fishing_bait:\r\n await ctx.send(f'{bait_type} is not a valid form of bait')\r\n\r\n bulk_mod = await self.GetModifier(ctx.guild, 'bulk_purchase_mod')\r\n bulk_requirement = await self.GetSetting(ctx.guild, 'bulk_minimum')\r\n total = int(bait_prices[bait_type] * quantity * await self.GetModifier(ctx.guild, \"bait_price\") * (1 if quantity < bulk_requirement else 1 - bulk_mod))\r\n\r\n if not bank.can_spend(ctx.message.author, total):\r\n await ctx.send(f'You don\\'t have enough {await bank.get_currency_name(ctx.guild)}')\r\n return\r\n\r\n msg = await ctx.send(f'Are you sure you want to buy {bait_type} x{quantity} ({total} {await bank.get_currency_name(ctx.guild)})'\r\n + (f'\\n*-{100 * bulk_mod}% for buying in bulk*' if quantity >= bulk_requirement else ''))\r\n\r\n start_adding_reactions(msg, ReactionPredicate.YES_OR_NO_EMOJIS)\r\n pred = ReactionPredicate.yes_or_no(msg, ctx.author)\r\n try:\r\n await ctx.bot.wait_for(\"reaction_add\", check=pred, timeout=15)\r\n except asyncio.TimeoutError:\r\n await msg.clear_reactions()\r\n return\r\n\r\n if pred.result is True:\r\n member_bait = await self.config.member(ctx.message.author).bait()\r\n member_bait[bait_type] += quantity\r\n await self.config.member(ctx.message.author).bait.set(member_bait)\r\n await msg.edit(content=f'{quantity} {bait_type} bought for {total} {await bank.get_currency_name(ctx.guild)}')\r\n await bank.withdraw_credits(ctx.message.author, total)\r\n else:\r\n await msg.edit(content='Sale cancelled')\r\n\r\n await msg.clear_reactions()",
"def buy():\n if request.method == \"POST\":\n symbol = request.form.get(\"symbol\")\n if not symbol:\n return apology(\"Must enter a symbol\", 400)\n num_shares = request.form.get(\"shares\")\n if not num_shares:\n return apology(\"Must enter some number of shares to buy\", 400)\n company_quote = lookup(symbol)\n if company_quote == None:\n return apology(\"Invalid Symbol\", 400)\n num_shares = int(num_shares)\n if num_shares <= 0:\n return apology(\"Must enter a positve number of shares to buy\", 400)\n balance = db.execute(\"SELECT cash FROM users WHERE id = :id\",\n id=session['user_id'])\n balance = balance[0][\"cash\"]\n cost = num_shares * company_quote[\"price\"]\n if balance < cost:\n return apology(\"Insufficient cash\", 400)\n else:\n new_balance = balance - cost\n date_time = datetime.now().strftime(\"%d/%m/%Y %H:%M:%S\")\n # Update history in history table\n return_val = db.execute(\"INSERT INTO 'history' (id, symbol, shares, price, transacted) VALUES (:id, :symbol, :shares, :price, :transacted)\",\n id=session[\"user_id\"], symbol=company_quote[\"symbol\"], shares=num_shares, price=company_quote[\"price\"], transacted = date_time)\n if return_val == None:\n return apology(\"something went wrong\", 403)\n\n\n #Update total number and value of each shares (symbol) held in totalshares table\n rows = db.execute(\"SELECT id, symbol, numshares, totalvalue FROM totalshares WHERE id = :id AND symbol = :symbol\",\n id=session[\"user_id\"], symbol=company_quote[\"symbol\"])\n if len(rows) != 1: #if nothing is returned i.e id and symbol combination does not already exist, insert it\n return_val = db.execute(\"INSERT INTO totalshares (id, symbol, numshares, totalvalue) VALUES (:id, :symbol, :numshares, :totalvalue)\",\n id=session[\"user_id\"], symbol=company_quote[\"symbol\"], numshares=num_shares, totalvalue=cost)\n if return_val == None:\n return apology(\"something went wrong\", 403)\n else: #if id, symbol combination exists already, update numshares and totalvalue\n new_numshares = rows[0][\"numshares\"] + num_shares\n new_totalvalue = rows[0][\"totalvalue\"] + cost\n return_val = db.execute(\"UPDATE totalshares SET numshares = :new_numshares, totalvalue = :new_totalvalue WHERE id = :id AND symbol = :symbol\",\n new_numshares=new_numshares, new_totalvalue=new_totalvalue, id=session[\"user_id\"], symbol=company_quote[\"symbol\"])\n if return_val == None:\n return apology(\"something went wrong\", 403)\n\n #Update balance in users table\n return_val = db.execute(\"UPDATE users SET cash = :cash WHERE id = :id\", cash=new_balance, id=session[\"user_id\"])\n if return_val != None:\n return redirect(\"/\")\n else:\n return apology(\"something went wrong\", 403)\n\n else:\n return render_template(\"buy.html\")",
"def purchase(self, item_type):",
"def buy(self,\n currency_pair,\n rate,\n amount):\n pass",
"def click_buy_and_sell_deal_bulk_edit_button(self):\n self.click_element(self.buy_and_sell_deal_bulk_edit_button_lcoator, True)",
"def sell():\n if request.method == \"POST\":\n # Ensure data is inputted\n if not request.form.get(\"symbol\"):\n return apology(\"Insert symbol\", 403)\n \n if not request.form.get(\"shares\"):\n return apology(\"Insert number of shares to sell\", 403)\n \n # Ensure shares value is valid\n try:\n if not int(request.form.get(\"shares\")) > 0:\n return apology(\"invalid value\", 403)\n except ValueError:\n return apology(\"invalid value\", 403)\n \n # Ensure there's enough shares to sell \n share_count_dict = db.execute(\"SELECT share_count FROM shares WHERE user_id=:usid AND share=:share\", usid=session[\"user_id\"], share=request.form.get(\"symbol\").upper())\n share_count = int(share_count_dict[0][\"share_count\"])\n \n if int(request.form.get(\"shares\")) > share_count:\n return apology(\"You don't own enough shares\", 403)\n \n # Create variables\n symbol = request.form.get(\"symbol\").upper()\n quantity = int(request.form.get(\"shares\"))\n \n # Add cash to user data\n new_cash = float(lookup(symbol)[\"price\"]) * quantity\n db.execute(\"UPDATE users SET cash= cash + :cash WHERE id=:usid\", cash=new_cash, usid=session[\"user_id\"]) \n \n # Remove shares of user data\n db.execute(\"UPDATE shares SET share_count = share_count - :shares WHERE user_id=:usid AND share = :share\", shares=quantity,share=symbol, usid=session[\"user_id\"])\n db.execute(\"DELETE FROM shares WHERE user_id=:usid AND share_count = :shares\", usid=session[\"user_id\"], shares=0)\n \n # Record transaction\n db.execute(\"INSERT INTO history (user_id, symbol, shares, time, price) VALUES (:usid, :symbol, :shares, :time, :price)\", usid=session[\"user_id\"], symbol=symbol, shares='-' + str(quantity), time=str(db.execute(\"SELECT CURRENT_TIMESTAMP\")[0][\"CURRENT_TIMESTAMP\"]), price=str(lookup(symbol)[\"price\"]))\n \n return redirect(\"/\")\n \n else:\n # Create list with purchased symbols\n symbol_dicts = db.execute(\"SELECT share FROM shares WHERE user_id=:usid\", usid=session[\"user_id\"])\n symbol_list = [None] * len(symbol_dicts)\n \n # Insert symbols into list\n for i in range(len(symbol_dicts)):\n symbol_list[i] = symbol_dicts[i][\"share\"]\n \n return render_template(\"sell.html\", longitude=len(symbol_dicts), symbols=symbol_list)",
"def buy():\n if request.method == \"GET\":\n return render_template(\"buy.html\")\n\n elif request.method == \"POST\":\n shares = request.form.get(\"shares\")\n symbol = request.form.get(\"symbol\")\n try:\n float(shares)\n except ValueError:\n return apology(\"please input a valid number of shares\")\n try:\n int(shares)\n except ValueError:\n return apology(\"please input a valid number of shares\")\n shares = int(shares)\n\n if not shares or not float(shares) or not float(shares).is_integer() or float(shares) <= 0:\n return apology(\"input a valid number of shares to buy\")\n\n elif not symbol or not lookup(symbol):\n return apology(\"input a valid symbol\")\n\n elif type(shares) != int:\n return apology(\"How did you even get this error?!\")\n\n else:\n quote = lookup(symbol)\n current_price = float(quote[\"price\"])\n company = quote[\"name\"]\n shares_num = int(request.form.get(\"shares\"))\n shares_tcost = float(shares_num * current_price)\n balance = db.execute(\"SELECT cash FROM users WHERE id = :id\", id=session['user_id'])\n\n # balance[0] b/c the returned value of balance is a dict of multiple lists\n flbal = [float(i) for i in list(balance[0].values())]\n for bal in flbal:\n if bal - shares_tcost < 0:\n return apology(\"Sorry, you don't have enough money\")\n else:\n newshares = bal - shares_tcost\n newbalance = db.execute(\"UPDATE users SET cash = :cash WHERE id = :id\", cash=newshares, id=session['user_id'])\n newpurchase = db.execute(\"INSERT INTO History ('symbol', 'company', 'shares', 'price', 'totalprice', 'id', 'transaction_type') VALUES (:symbol, :company, :shares, :price, :totalprice, :id, :transaction_type)\",\n symbol=symbol, company=company, shares=shares_num, price=current_price, totalprice=shares_tcost, id=session['user_id'], transaction_type=\"BUY\")\n\n return redirect('/')",
"def set_buy_and_sell_deal_name(self, buy_and_sell_deal_prefix):\n global buy_and_sell_deal\n buy_and_sell_deal = buy_and_sell_deal_prefix + self.random_string_generator(size=4)\n self.set_value_into_input_field(self.buy_and_sell_deal_textbox_locator, buy_and_sell_deal)",
"def processMarketTransaction(self, buyOrder, sellOrder, resolvedPrice):\n try:\n buyOrderAmountLeft = buyOrder.amount - buyOrder.amountUsed\n sellOrderAmountLeft = sellOrder.amount - sellOrder.amountUsed\n myMarketStat = self.marketStats[str(self.currentRound)]\n # go through transaction rules\n if sellOrderAmountLeft == 0:\n return '(%s)seller:%s out of Resources' % (buyOrder.value, sellOrder.id)\n if buyOrder.amountUsed == buyOrder.amount:\n return '(%s)buyer:%s Already has completed transaction' % (buyOrder.value, buyOrder.id)\n elif buyOrderAmountLeft > sellOrderAmountLeft and buyOrder.type == 'buy-all':\n return '(%s)buyer:%s wants to buy all-or-none, buy=%d, sell=%d' % (buyOrder.value, buyOrder.id, buyOrder.amount, sellOrder.amount)\n elif buyOrder.type == 'buy-any' or buyOrderAmountLeft <= sellOrderAmountLeft:\n if resolvedPrice >= sellOrder.min and resolvedPrice <= buyOrder.max:\n # process Transaction\n buySystem = self.systems[buyOrder.system]\n sellSystem = self.systems[sellOrder.system]\n # determine amount to transact\n if sellOrderAmountLeft >= buyOrderAmountLeft:\n actualAmount = buyOrderAmountLeft\n else:\n actualAmount = sellOrderAmountLeft\n # store data for galactic market records\n setattr(myMarketStat, 'sumSold%s' % buyOrder.value, getattr(myMarketStat, 'sumSold%s' % buyOrder.value) + (actualAmount*resolvedPrice))\n setattr(myMarketStat, 'volSold%s' % buyOrder.value, getattr(myMarketStat, 'volSold%s' % buyOrder.value) + actualAmount)\n # remove amount from orders\n buyOrder.amountUsed += actualAmount\n sellOrder.amountUsed += actualAmount\n # calculate credits and refund\n credits = actualAmount * resolvedPrice\n refund = (buyOrder.max-resolvedPrice)*actualAmount\n # give credits to seller\n sellSystem.payResources(-credits,0,0,0)\n # give resource and refund to buyer\n buySystem.payResources(-refund,0,0,0)\n buySystem.modifyResource(buyOrder.value, actualAmount)\n # mail Empires result\n sellSystem.myEmpire.genMail({'fromEmpire':sellSystem.myEmpire.id, 'round':self.currentRound+1, \n 'messageType':'market', 'subject':'(%s) - Resource:%s - SOLD: (%d units at %d)' % (sellSystem.name, sellOrder.value, actualAmount, resolvedPrice),\n 'body':['Remaining Unsold %s from this Order:%d' % (sellOrder.value, sellOrder.amount-sellOrder.amountUsed)]})\n buySystem.myEmpire.genMail({'fromEmpire':buySystem.myEmpire.id, 'round':self.currentRound+1, \n 'messageType':'market', 'subject':'(%s) - Resource:%s - BOUGHT: (%d units at %d)' % (buySystem.name, buyOrder.value, actualAmount, resolvedPrice),\n 'body':['Remaining Unbought %s from this Order:%d' % (buyOrder.value, buyOrder.amount-buyOrder.amountUsed)]})\n\n return 'transaction completed: %s SOLD %d %s to %s for %d price' % (sellSystem.name, actualAmount, sellOrder.value, buySystem.name, resolvedPrice)\n else:\n return '(%s)resolved price=%d, not in range, seller=%s, buyer=%s' % (buyOrder.value, resolvedPrice, sellOrder.id, buyOrder.id)\n else:\n return 'unknown order type'\n\n except:\n return 'galaxy->processMarketTransaction error'",
"def buy():\n\n if request.method == \"POST\":\n numShares = 0\n try:\n numShares = float(request.form.get(\"shares\"))\n except ValueError:\n return apology(\"Enter a numerical value!\", 400)\n if numShares % 1 != 0:\n return apology(\"Fractional Shares not allowed!\", 400)\n if numShares <= 0:\n return apology(\"Enter a number greater than 0!\", 400)\n if not request.form.get(\"symbol\"):\n return apology(\"Enter a symbol!\", 400)\n if not request.form.get(\"shares\"):\n return apology(\"Enter a number of shares!\", 400)\n\n company = lookup(request.form.get(\"symbol\"))\n if not company:\n return apology(\"Invalid ticker symbol\", 400)\n price = float(company[\"price\"])\n total = float(price * numShares)\n symbl = company[\"symbol\"]\n userRows = db.execute(\"SELECT cash FROM users WHERE id = :userid\", userid=session.get(\"user_id\"))\n remainingCash = float(userRows[0][\"cash\"])\n if total > remainingCash:\n return apology(\"You cannot afford the stock(s)!\", 400)\n else:\n currentUser = session.get(\"user_id\")\n purchased = db.execute(\"INSERT INTO portfolio (UserID, Symbol, Company, NumberOfShares, UnitPrice, TotalPrice) VALUES(:userid, :symbol, :name, :shares, :unitPrice, :totalPrice)\", userid=currentUser, symbol=symbl, name=company['name'], shares=numShares, unitPrice=price, totalPrice=total)\n\n\n if not purchased:\n return apology(\"Unable to purchase\", 400)\n else:\n remainingCash = remainingCash - total\n db.execute(\"UPDATE users set cash=:balance WHERE id=:userid\", balance=remainingCash, userid=currentUser)\n '''Update history'''\n dateNow = datetime.datetime.now()\n historized = db.execute(\"INSERT INTO history (Symbol, Shares, Price, Date, UserID) VALUES(:symbol, :shares, :price, :date, :userid)\", symbol = symbl, shares = numShares, price = total, date = dateNow, userid = session.get(\"user_id\"))\n '''Update history end'''\n return redirect(\"/\")\n\n\n else:\n return render_template(\"buy.html\")",
"def buy():\n\n def price_check(cash, price, shares):\n \"\"\"check affordability of stock vs cash on hand\"\"\"\n affordable = (cash - (price * shares)) > 0\n\n if affordable:\n return affordable\n\n else:\n return False\n\n if request.method == \"POST\":\n\n stock = lookup(request.form.get(\"symbol\"))\n\n # check symbol and share # are valid\n if not stock:\n return apology(\"Missing or Incorrect Symbol\", 400)\n\n try:\n shares = int(request.form.get(\"shares\"))\n except ValueError:\n return apology(\"Input at least 1 share\", 400)\n\n if shares < 0:\n return apology(\"Input at least 1 share\", 400)\n\n\n # cast shares to int & fetch users cash on hand\n shares = int(request.form.get(\"shares\"))\n user_cash = db.execute(\"SELECT cash FROM users WHERE id = :user_id\", user_id=session[\"user_id\"])[0][\"cash\"]\n\n if price_check(user_cash, stock[\"price\"], shares) == False:\n return apology(\"Sorry, you can't afford this purchase.\", 400)\n\n else:\n # define variables for inserting into transactions table\n purchase_date = datetime.now().strftime(\"%Y-%m-%d %H:%M:%S\")\n\n # update user cash\n user_cash = user_cash - (stock[\"price\"]*shares)\n db.execute(\"UPDATE users SET cash = :user_cash WHERE id = :user_id\", user_id=session[\"user_id\"], user_cash=user_cash)\n\n # update transactions table with most recent transaction\n db.execute(\"\"\"\n INSERT INTO transactions(user_id, date, symbol, shares, price)\n VALUES(:user_id, :date, :symbol, :shares, :price)\n \"\"\",\n user_id=session[\"user_id\"],\n date=purchase_date,\n symbol=stock[\"symbol\"],\n shares=shares,\n price=stock[\"price\"]\n )\n\n return redirect(\"/\")\n\n else:\n return render_template(\"buy.html\")",
"def sell():\n\n if request.method == \"POST\":\n symbol = request.form.get(\"symbol\")\n if not symbol:\n return apology(\"Must enter a symbol\", 400)\n num_shares = request.form.get(\"shares\")\n if not num_shares:\n return apology(\"Must enter some number of shares to sell\", 400)\n company_quote = lookup(symbol)\n if company_quote == None:\n return apology(\"Invalid Symbol\", 400)\n num_shares = int(num_shares)\n if num_shares <= 0:\n return apology(\"Must enter a positve number of shares to sell\", 400)\n\n rows = db.execute(\"SELECT id, symbol, numshares FROM totalshares WHERE id = :id AND symbol = :symbol\",\n id=session[\"user_id\"], symbol=company_quote[\"symbol\"])\n if len(rows) != 1:\n return apology(\"You do not have shares of \" + symbol, 400)\n if num_shares > rows[0][\"numshares\"]:\n return apology(\"You cannot sell more shares than you have\", 400)\n\n sale_value = num_shares * company_quote[\"price\"]\n\n balance = db.execute(\"SELECT cash FROM users WHERE id = :id\",\n id=session['user_id'])\n balance = balance[0][\"cash\"]\n new_balance = balance + sale_value\n date_time = datetime.now().strftime(\"%d/%m/%Y %H:%M:%S\")\n # Update history in history table\n return_val = db.execute(\"INSERT INTO 'history' (id, symbol, shares, price, transacted) VALUES (:id, :symbol, :shares, :price, :transacted)\",\n id=session[\"user_id\"], symbol=company_quote[\"symbol\"], shares=num_shares*-1, price=company_quote[\"price\"], transacted = date_time)\n if return_val == None:\n return apology(\"something went wrong\", 403)\n\n #Update total number and value of each shares (symbol) held in totalshares table\n rows = db.execute(\"SELECT id, symbol, numshares, totalvalue FROM totalshares WHERE id = :id AND symbol = :symbol\",\n id=session[\"user_id\"], symbol=company_quote[\"symbol\"])\n new_numshares = rows[0][\"numshares\"] - num_shares\n new_totalvalue = rows[0][\"totalvalue\"] - sale_value\n return_val = db.execute(\"UPDATE totalshares SET numshares = :new_numshares, totalvalue = :new_totalvalue WHERE id = :id AND symbol = :symbol\",\n new_numshares=new_numshares, new_totalvalue=new_totalvalue, id=session[\"user_id\"], symbol=company_quote[\"symbol\"])\n if return_val == None:\n return apology(\"something went wrong\", 403)\n\n #Update balance in users table\n return_val = db.execute(\"UPDATE users SET cash = :cash WHERE id = :id\", cash=new_balance, id=session[\"user_id\"])\n if return_val != None:\n return redirect(\"/\")\n else:\n return apology(\"something went wrong\", 403)\n else:\n rows = db.execute(\"SELECT symbol, numshares FROM totalshares WHERE id = :id\", id=session[\"user_id\"])\n symbol_options = []\n if rows != None and len(rows) > 0:\n for row in rows:\n if row[\"numshares\"] > 0:\n symbol_options.append(row[\"symbol\"])\n return render_template(\"sell.html\", symbol_options=symbol_options)",
"def sell():\n # Moved userID outside of 'if' as could not be accessed in 'else' for html.\n userID = session[\"user_id\"]\n\n if request.method == \"POST\":\n\n user = db.execute(\"SELECT * FROM users WHERE id = :id\", id=userID)\n cash = user[0][\"cash\"]\n\n stock = lookup(request.form.get(\"symbol\"))\n\n numOfShares = float(request.form.get(\"shares\"))\n if not request.form.get(\"symbol\"):\n return apology(\"You haven't typed a symbol\")\n if stock is None:\n return apology(\"This doesn't seem to be a valid symbol, try again\")\n if numOfShares < 0:\n return apology(\"You must state how many shares you want to sell\")\n\n salePrice = stock[\"price\"] * numOfShares\n date_time = datetime.now().strftime('%d-%m-%Y %H:%M:%S')\n\n stockOwned = db.execute(\"SELECT * FROM portfolio WHERE id=:userID AND symbol=:symbol\", userID=userID, symbol=stock[\"symbol\"])\n if not stockOwned:\n return apology(\"You don't own any of this stock\")\n if stockOwned[0][\"numOwned\"] < numOfShares:\n return apology(\"You are trying to sell more shares than you own!\")\n else:\n newNumOwned = float(stockOwned[0][\"numOwned\"]) - numOfShares\n newTotalValue = newNumOwned * stock[\"price\"]\n db.execute(\"UPDATE users SET cash=cash+:salePrice WHERE id=:userID\", salePrice=salePrice, userID=userID)\n db.execute(\"INSERT INTO transactions (id, symbol, num_shares, price_ps, date_time, buy_or_sell) VALUES (:userID, :symbol, :num_shares, :price_ps, :date_time, :buy_or_sell)\",\n userID=userID, symbol=stock[\"symbol\"], num_shares=numOfShares, price_ps=stock[\"price\"], date_time=date_time, buy_or_sell=\"SELL\")\n db.execute(\"UPDATE portfolio SET numOwned=:newNumOwned, totalValue=:newTotalValue WHERE id=:userID AND symbol=:symbol\",\n newNumOwned=newNumOwned, newTotalValue=newTotalValue, userID=userID, symbol=stock[\"symbol\"])\n\n return redirect(\"/\")\n else:\n symbols = db.execute(\"SELECT symbol FROM portfolio WHERE id=:userID\", userID=userID)\n return render_template(\"sell.html\", symbols=symbols)",
"def doBuyIn(self):\n self.protocol.sendPacket(networkpackets.PacketPokerBuyIn(amount=self.max_buy_in, **self._serial_and_game_id))\n self.protocol.sendPacket(networkpackets.PacketPokerAutoBlindAnte(**self._serial_and_game_id))",
"def buy():\n if request.method == \"GET\":\n return render_template(\"buy.html\")\n if request.method == \"POST\":\n symbol = request.form[\"symbol\"]\n shares = request.form[\"shares\"]\n quote = lookup(symbol)\n \n if not quote:\n return apology(\"Invalid Symbol\")\n tot_price = float(quote.get('price')) * int(shares)\n rows = db.execute(\"SELECT username FROM users WHERE id = :id\", id=session[\"user_id\"])\n cash = db.execute(\"SELECT cash FROM users WHERE id = :id\", id = session[\"user_id\"])\n if not cash[0][\"cash\"] > tot_price:\n return apology(\"not enough money\")\n result2 = db.execute(\"INSERT INTO history (id, username, company, shares, value, date) VALUES(:id, :username, :symbol, :shares, :value, :date )\", username = rows[0].get('username'), shares = shares, symbol = quote.get('symbol'), id = session[\"user_id\"], value = quote.get('price'), date = str(date.today()))\n\n exists = db.execute(\"SELECT company FROM profile WHERE id = :id\", id = session[\"user_id\"])\n if exists: \n if exists[0]['company'] != quote.get('name'):\n result = db.execute(\"INSERT INTO profile (id, username, company, shares, value, date, symbol, one_value) VALUES(:id, :username, :company, :shares, :value, :date, :symbol, :one_value )\", username = rows[0].get('username'), shares = shares, company = quote.get('name'), id = session[\"user_id\"], value =tot_price, date = str(date.today()), symbol = quote.get('symbol'), one_value = quote.get('price'))\n new_cash = cash[0].get('cash') - tot_price\n ne = db.execute(\"UPDATE users SET cash= :cash WHERE id= :id\", cash = new_cash, id = session[\"user_id\"])\n \n else: \n values = db.execute(\"SELECT * FROM profile WHERE id = :id\", id = session[\"user_id\"])\n result = db.execute(\"UPDATE profile SET shares = :tot_shares, value = :tot_value WHERE symbol = :symbol\", tot_shares = int (shares) + int(values[0].get('shares')), tot_value =tot_price + values[0].get('value') , symbol = quote.get('symbol'))\n else:\n result = db.execute(\"INSERT INTO profile (id, username, company, shares, value, date, symbol, one_value) VALUES(:id, :username, :company, :shares, :value, :date, :symbol, :one_value )\", username = rows[0].get('username'), shares = shares, company = quote.get('name'), id = session[\"user_id\"], value = tot_price, date = str(date.today()), symbol = quote.get('symbol'), one_value = quote.get('price'))\n new_cash = cash[0].get('cash') - tot_price\n ne = db.execute(\"UPDATE users SET cash= :cash WHERE id= :id\", cash = new_cash, id = session[\"user_id\"])\n \n \n return redirect(url_for(\"index\"))",
"def buy():\n if request.method == \"POST\":\n if not request.form.get(\"symbol\"):\n return apology(\"must provide symbol\")\n elif not request.form.get(\"sharesnumber\"):\n return apology(\"must provide no of shares\")\n elif '.' in request.form.get(\"sharesnumber\"):\n return apology(\"No of shares is positive integer Invalid!!\")\n elif not request.form.get(\"sharesnumber\").isdigit():\n return apology(\"No of shares is positive integer Invalid!!\")\n elif not int(request.form.get(\"sharesnumber\")) > 0:\n return apology(\"No of shares is positive value Invalid!!\")\n \n result_dict = lookup(request.form.get(\"symbol\"))\n \n if result_dict == None:\n return apology(\"Symbol does not exist\")\n \n result_cash = db.execute(\"SELECT * from users where id = :id\",id=session[\"user_id\"])\n net_cash = result_cash[0][\"cash\"]\n net_required = int(request.form.get(\"sharesnumber\")) * result_dict['price']\n if net_required > net_cash:\n return apology(\"Oops Don't Have enough Cash!!\")\n \n \n #Update Cash\n net_cash = net_cash - net_required\n db.execute(\"UPDATE users SET cash = :cash WHERE id = :id\",cash= net_cash,id=session[\"user_id\"])\n \n #Update History Tables\n \n db.execute(\"INSERT INTO history(user_id,symbol,price,shares) VALUES(:id,:symbol,:price,:shares) \",id=session[\"user_id\"],symbol=result_dict['symbol'],price=result_dict['price'],shares=request.form.get(\"sharesnumber\"))\n \n #Check Whether user has shares for same symbol\n rows = db.execute(\"SELECT * FROM netshares WHERE user_id = :id AND symbol=:symbol\",id=session[\"user_id\"],symbol=result_dict['symbol'])\n #Update NetShares Table\n if len(rows) == 0:\n db.execute(\"INSERT INTO netshares(user_id,symbol,shares) VALUES(:id,:symbol,:shares)\",id=session[\"user_id\"],symbol=result_dict['symbol'],shares=request.form.get(\"sharesnumber\"))\n else:\n db.execute(\"UPDATE netshares SET shares=:shares WHERE user_id = :id AND symbol=:symbol\",shares= int(request.form.get(\"sharesnumber\"))+int(rows[0]['shares']),id=session[\"user_id\"],symbol=result_dict['symbol'])\n return redirect(url_for(\"index\"))\n \n else:\n return render_template(\"buy.html\")\n \n \n #return apology(\"TODO\")",
"def deposit(account, amount):\n pass",
"def get_buy_and_sell_deal_name(self):\n global buy_and_sell_deal\n return buy_and_sell_deal",
"def buy():\n # User reached route via POST (as by submitting a form via POST)\n if request.method == \"POST\":\n\n # Ensure symbol was submitted\n if not request.form.get(\"symbol\"):\n return apology(\"must provide symbol\", 403)\n \n # Creates dict\n symbol_info = lookup(request.form.get(\"symbol\"))\n \n # Checks that symbol exists\n if symbol_info == None:\n return apology(\"Invalid Symbol\", 403)\n \n # Ensure number of shares was submitted\n if not request.form.get(\"shares\"):\n return apology(\"must provide number of shares\", 403)\n \n # Ensure shares is valid\n try:\n if not int(request.form.get(\"shares\")) > 0:\n return apology(\"invalid value\", 403)\n except ValueError:\n return apology(\"invalid value\", 403)\n \n # Ensure there's enough money to buy share\n user_money = db.execute(\"SELECT cash FROM users WHERE id=:userid\", userid=session[\"user_id\"])\n cash = float(user_money[0][\"cash\"])\n if cash < float(symbol_info[\"price\"]) * float(request.form.get(\"shares\")):\n return apology(\"Not enough money\", 403)\n \n # Update user\n updated_money = cash - (float(symbol_info[\"price\"]) * float(request.form.get(\"shares\")))\n db.execute(\"UPDATE users SET cash = :updated WHERE id=:usid\", updated=updated_money, usid=session[\"user_id\"])\n \n # Update shares table\n symbol_dicts = db.execute(\"SELECT share FROM shares WHERE user_id = :usid\", usid=session[\"user_id\"])\n exist = 0\n for i in range(len(symbol_dicts)):\n if symbol_dicts[i][\"share\"].upper() == request.form.get(\"symbol\").upper():\n exist = 1\n break\n \n if exist == 0:\n db.execute(\"INSERT INTO shares (user_id, share, share_count) VALUES (:usid, :symbol, :count)\", usid=session[\"user_id\"], symbol=request.form.get(\"symbol\").upper(), count=int(request.form.get(\"shares\")))\n else:\n db.execute(\"UPDATE shares SET share_count = share_count + :count WHERE share = :symbol AND user_id = :usid\", count=int(request.form.get(\"shares\")), symbol=request.form.get(\"symbol\").upper(), usid=session[\"user_id\"])\n \n # Record transaction\n db.execute(\"INSERT INTO history (user_id, symbol, shares, time, price) VALUES (:usid, :symbol, :shares, :time, :price)\", usid=session[\"user_id\"], symbol=symbol_info[\"symbol\"], shares=request.form.get(\"shares\"), time=str(db.execute(\"SELECT CURRENT_TIMESTAMP\")[0][\"CURRENT_TIMESTAMP\"]), price=str(symbol_info[\"price\"]))\n \n return redirect(\"/\")\n\n # User reached route via GET (as by clicking a link or via redirect)\n else:\n return render_template(\"buy.html\")",
"def buy():\n # User reached route via POST (as by submitting a form via POST)\n if request.method == \"POST\":\n # Ensure the user inputs a symbol\n symbol = request.form.get(\"symbol\").upper()\n if not symbol:\n return apology(\"must provide a symbol\", 403)\n\n # ensure number of shares is submitted\n shares = request.form.get(\"shares\")\n if not shares:\n return apology(\"must provide number of shares\", 403)\n\n\n # do a try except for handling negative values or empty spaces in shares input box\n try:\n shares = int(shares)\n if shares < 0:\n return apology(\"Enter a positive integer for shares\", 403)\n except ValueError:\n return apology(\"No empty spaces allowed enter a positive integer\", 403)\n\n # call lookup in helpers.py to look up a stock’s current price.\n stockPriceDetail = lookup(symbol)\n\n # render apology for invalid symbol input by user\n if stockPriceDetail == None:\n return apology(\"Invalid symbol\", 403)\n else:\n price = stockPriceDetail[\"price\"]\n\n # calculate the total price of the number of shares\n totalCost = price * shares\n print(totalCost)\n\n\n # based on user's input check if they have enough cash to buy stocks\n rows = db.execute(\"SELECT cash FROM users WHERE id = :id\", id=session[\"user_id\"])\n print(\"rows= \" , rows)\n\n cash = rows[0] [\"cash\"]\n\n # Check for sufficient cash\n if cash < totalCost:\n return apology(\"you have insufficient cash balance\", 403)\n\n balance = cash - totalCost\n\n # insert row in transactions table\n result = db.execute(\"\"\"insert into transactions\n (user_id,stock_code,stock_quantity,stock_price,\n start_balance,end_balance,transaction_type)\n values(:userid, :symbol, :shares, :price, :cash,\n :balance,:ttype)\"\"\",\n userid=session[\"user_id\"],shares=shares,\n symbol=symbol,price=price,\n cash=cash,balance=balance,ttype=\"BOUGHT\")\n\n # update users balance\n result = db.execute(\"update users set cash = :balance where id = :userid\",\n userid=session[\"user_id\"],balance=balance)\n\n # Redirect user to index page\n return redirect(\"/\")\n\n else:\n symbol = request.args.get('symbol')\n return render_template(\"buy.html\",symbol=symbol)",
"def withdraw(account, amount):\n pass",
"def buy(self, buyDate, sellDate, buyLimit, unitLimit, repeat):\n\t\tstartDate, startPrice = self.getOpeningPrice()\n\t\tmaxAmount = int(buyLimit)/int(startPrice)\n\t\t\t\t\n\t\t# If you've selected a one-off stock purchase\n\t\tif repeat == 'never' and maxAmount > 0:\n\t\t\tself.purchased = (maxAmount * startPrice)\n\t\t\tself.units = maxAmount\n\t\t\tself.purchasedList.append(maxAmount * startPrice)\n\t\t\tself.unitsList.append(maxAmount)\n\t\t\tself.dateList = [startDate]\t\n\t\t\t\n\t\t# Otherwise there's some iteration required\n\t\telse:\n\t\t\tcurrentDate = startDate\n\t\t\tendDate, endPrice = self.getClosingPrice()\n\t\t\t\n\t\t\t# Iterate on the date value\n\t\t\twhile currentDate <= endDate:\n\t\t\t\tdate, price = self.getPrice(currentDate)\n\n\t\t\t\tif date is not None and price is not None:\n\t\t\t\t\tmaxAmount = int(buyLimit)/int(price)\n\t\t\t\t\t\n\t\t\t\t\t# Check there's no unit limit\t\t\t\t\n\t\t\t\t\tif maxAmount > unitLimit and unitLimit > 0:\n\t\t\t\t\t\tmaxAmount = unitLimit\n\t\t\t\t\t\n\t\t\t\t\t# If you can afford it, but the stock, otherwise skip it\n\t\t\t\t\tif maxAmount > 0:\n\t\t\t\t\t\tself.purchased += (maxAmount * price)\n\t\t\t\t\t\tself.units += maxAmount\n\t\t\t\t\t\tself.purchasedList.append(maxAmount * price)\n\t\t\t\t\t\tself.unitsList.append(maxAmount)\n\t\t\t\t\t\tself.dateList.append(date)\t\n\t\t\t\t\n\t\t\t\t# If there's no later stock data remaining break the loop\n\t\t\t\tcurrentDate = self.getNextDate(currentDate, startDate, repeat)\n\t\t\t\tif currentDate is None:\n\t\t\t\t\tbreak",
"def trade_action(self, BUY_QTY):\n BUY_QTY = 4500\n self.trade(BUY_QTY)\n #self.show()",
"def buy():\n\n # User reached route via POST (as by submitting a form via POST)\n if request.method == \"POST\":\n\n # Access form data\n symbol = request.form.get(\"symbol\")\n shares = request.form.get(\"shares\")\n\n # Access user's id\n user_id = session[\"user_id\"]\n\n # Ensure symbol was submitted\n if not symbol:\n return apology(\"must provide symbol\", 400)\n\n # Ensure shares was submitted\n if not shares:\n return apology(\"must provide shares\", 400)\n\n # Check if submitted shares string is a positive integer\n if not shares.isdigit() :\n return apology(\"shares is not a number\", 400)\n # Shares is valid\n else:\n shares = int(shares)\n\n # Obtain quote using lookup function\n QUOTED = lookup(symbol)\n\n # Ensure valid symbol was submitted\n if QUOTED is None:\n return apology(\"invalid symbol\", 400)\n\n # Check if user has enough cash to buy shares\n cash = db.execute(\"SELECT cash FROM users WHERE id = ?\", user_id)[0][\"cash\"]\n cost = QUOTED[\"price\"] * shares\n if cash < cost:\n return apology(\"can't afford\", 400)\n\n # New amount of cash user has after buying shares\n new_cash_total = cash - cost\n\n # Update cash in users table for user\n db.execute(\"UPDATE users SET cash = ? WHERE id = ?\", new_cash_total, user_id)\n\n # Insert buy log into history table\n db.execute(\"INSERT INTO history (user_id, symbol, shares, price, transacted) VALUES (?, ?, ?, ?, datetime('now'))\",\n user_id, QUOTED[\"symbol\"], shares, QUOTED[\"price\"])\n\n # Keep track of shares in shares table\n current_shares = db.execute(\"SELECT shares_count FROM shares WHERE user_id = ? AND symbol = ?\", user_id, QUOTED[\"symbol\"])\n\n # If shares have not been bought before\n if not current_shares:\n db.execute(\"INSERT INTO shares VALUES (?, ?, ?, ?, ?, ?)\",\n user_id, QUOTED[\"symbol\"], QUOTED[\"name\"], shares, QUOTED[\"price\"], QUOTED[\"price\"])\n\n # If shares have been bought before\n else:\n new_shares_total = current_shares[0][\"shares_count\"] + shares\n shares_value_total = new_shares_total * QUOTED[\"price\"]\n db.execute(\"UPDATE shares SET shares_count = ?, price = ?, total = ? WHERE user_id = ? AND symbol = ?\",\n new_shares_total, QUOTED[\"price\"], shares_value_total, user_id, QUOTED[\"symbol\"])\n\n # Redirect user to home page\n flash(\"Bought!\", \"info\")\n return redirect(\"/\")\n\n # User reached route via GET (as by clicking a link or via redirect)\n else:\n return render_template(\"buy.html\")",
"def buy():\n if request.method == \"POST\":\n\n # Ensure symbol was submitted\n if not request.form.get(\"symbol\"):\n return apology(\"must provide symbol\", 400)\n\n # Ensure shares was submitted\n elif not request.form.get(\"shares\"):\n return apology(\"must provide shares\", 400)\n\n if not request.form.get(\"shares\").isdigit():\n return apology(\"must be integer\",400)\n\n elif int(request.form.get(\"shares\"))<1 :\n return apology(\"must be positive integer\", 400)\n\n elif lookup(request.form.get(\"symbol\"))==None:\n return apology(\"Must be a valid symbol\",400)\n\n #ensure money>price\n quote=lookup(request.form.get(\"symbol\"))\n shares=request.form.get(\"shares\")\n cash=db.execute(\"SELECT cash FROM users WHERE id=?\",session[\"user_id\"])\n if cash[0][\"cash\"]<int(quote[\"price\"])*int(shares):\n return apology(\"You can't affort this/these\",400)\n\n #BUY, STORE DATA IN REPOSITORY AND RECORD\n\n #record this transaction\n db.execute(\"INSERT INTO record(userID,transactions,symbol,price,t1) VALUES(?,?,?,?,strftime('%Y-%m-%d %H:%M:%S','now'))\",session[\"user_id\"],int(shares),quote[\"symbol\"],float(quote[\"price\"]))\n\n #deduct the cash\n total=int(quote[\"price\"])*int(shares)\n db.execute(\"UPDATE users SET cash=cash- (?) WHERE id=?\",total,session[\"user_id\"])\n\n return redirect(\"/\")\n\n else:\n return render_template(\"buy.html\")",
"def attempt_market_buy(self, decision: Decision, available_capital: float, state: Series, is_backtest: bool = False, crypto: bool = False) -> Transaction:\n try: latest_price = self.latest_price(decision.symbol, state, is_backtest, crypto)\n except:\n print('Error retrieving latest price')\n return Transaction(False, TransactionType.MarketBuy, 0, 0, decision, state['date'])\n\n # Determine how many shares we can/should purchase given a decision\n share_quantity = 0\n if isinstance(decision.quantity, BuyQuantity):\n diviser = 1 if decision.quantity == BuyQuantity.Max else 2\n share_quantity = ((available_capital * .9) / diviser) / latest_price\n else:\n max_purchase_quantity = (available_capital * .9) / latest_price\n if not self.allow_fractional and not crypto: max_purchase_quantity = math.floor(max_purchase_quantity)\n\n if decision.quantity < max_purchase_quantity: # decision is valid quantity\n share_quantity = decision.quantity\n else: # Can't afford requested amount, instead buy as much as possible\n share_quantity = max_purchase_quantity\n\n if not self.allow_fractional and not crypto:\n try: share_quantity = math.floor(share_quantity)\n except: print('Error getting share quantity:', share_quantity, decision.quantity, available_capital, self.latest_price(decision.symbol, state, is_backtest, crypto))\n\n strike_price: float\n succeeded = True\n \n if share_quantity == 0 or (not self.allow_fractional and not crypto and share_quantity < 0):\n print('share_quantity=0 error - returning')\n strike_price = 0\n share_quantity = 0\n succeeded = False\n elif is_backtest:\n c_type = 'crypto' if crypto else 'stock'\n # spread = .01 if c_type == 'stock' else 0\n spread = 0\n buy_fee = state['close'] * self.get_fee_pct(c_type)[0] + self.get_fixed_fee(c_type, state[\"close\"], share_quantity)\n self.total_fees += buy_fee\n self.trade_volume_shares += share_quantity\n print(f'unadjusted price: {state[\"close\"]} | fee: {buy_fee} | trade volume: {self.trade_volume} | total fees: {self.total_fees}')\n strike_price = state['close'] + buy_fee + spread\n else:\n try:\n if crypto:\n try:\n print('attempting crypto market buy @ ', latest_price)\n res = asyncio.get_event_loop().run_until_complete(wait_for_cb_order_fill(self.cb_client, decision.contract, 'buy', share_quantity, latest_price))\n (strike_price, share_quantity, succeeded) = res\n except Exception as e:\n print('asnycio wait_for_cb_order_fill error:', e)\n strike_price = 0\n succeeded = False\n else:\n print(f'attempting {decision.symbol} ib market buy @ {latest_price}')\n # buy_order = MarketOrder('BUY', share_quantity)\n buy_order = LimitOrder('BUY', share_quantity, latest_price)\n res = asyncio.get_event_loop().run_until_complete(wait_for_ib_order_fill(self.ib_client.ib, buy_order, decision.contract))\n \n print('market buy res:', res)\n (strike_price, share_quantity, succeeded) = res\n\n except Exception as e: # Failed to purchase at limit price\n print('market buy error:', e)\n succeeded = False\n strike_price = 0\n share_quantity = 0\n\n self.trade_volume += (strike_price * share_quantity)\n return Transaction(succeeded, TransactionType.MarketBuy, strike_price, share_quantity, decision, state['date'])"
] | [
"0.6445233",
"0.6413449",
"0.6269509",
"0.61719674",
"0.61377376",
"0.60943884",
"0.6090972",
"0.60790056",
"0.6075911",
"0.60327494",
"0.6020972",
"0.60124266",
"0.59813756",
"0.59656405",
"0.59601235",
"0.59371483",
"0.5922628",
"0.5903026",
"0.58998966",
"0.58923525",
"0.5891653",
"0.589165",
"0.5887256",
"0.5879849",
"0.5877685",
"0.5874243",
"0.58596486",
"0.58536613",
"0.5851567",
"0.5847607"
] | 0.74209785 | 0 |
Implementing set vendor functionality | def set_vendor(self, vendor_list):
self.multiple_items_selection_from_kendo_dropdown(self.vendor_dropdown_locator, vendor_list)
self.wait_for_ajax_spinner_load() | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def vendor(self, vendor):\n\n self._vendor = vendor",
"def vendor_list():\n return ['nxos', 'eos', 'cumulus']",
"def vendorid(self, vendorid):\n\n self._vendorid = vendorid",
"def vendor(self):\n return self._vendor",
"def set_vendor_specific(self, vendor_dict):\n\n ds = xr.Dataset({\n 'digitization_rate': (['frequency'], vendor_dict['digitization_rate']),\n 'lockout_index': (['frequency'], vendor_dict['lockout_index']),\n 'number_of_bins_per_channel': (['frequency'], vendor_dict['num_bins']),\n 'number_of_samples_per_average_bin': (['frequency'], vendor_dict['range_samples_per_bin']),\n 'board_number': (['frequency'], vendor_dict['board_number']),\n 'data_type': (['frequency'], vendor_dict['data_type']),\n 'ping_status': (['ping_time'], vendor_dict['ping_status']),\n 'number_of_acquired_pings': (['ping_time'], vendor_dict['number_of_acquired_pings']),\n 'first_ping': (['ping_time'], vendor_dict['first_ping']),\n 'last_ping': (['ping_time'], vendor_dict['last_ping']),\n 'data_error': (['ping_time'], vendor_dict['data_error']),\n 'sensor_flag': (['ping_time'], vendor_dict['sensor_flag']),\n 'ancillary': (['ping_time', 'ancillary_len'], vendor_dict['ancillary']),\n 'ad_channels': (['ping_time', 'ad_len'], vendor_dict['ad_channels']),\n 'battery_main': (['ping_time'], vendor_dict['battery_main']),\n 'battery_tx': (['ping_time'], vendor_dict['battery_tx'])},\n coords={\n 'frequency': (['frequency'], vendor_dict['frequency'],\n {'units': 'Hz',\n 'valid_min': 0.0}),\n 'ping_time': (['ping_time'], vendor_dict['ping_time'],\n {'axis': 'T',\n 'calendar': 'gregorian',\n 'long_name': 'Timestamp of each ping',\n 'standard_name': 'time',\n 'units': 'seconds since 1970-01-01'}),\n 'ancillary_len': (['ancillary_len'], vendor_dict['ancillary_len']),\n 'ad_len': (['ad_len'], vendor_dict['ad_len'])},\n attrs={\n 'profile_flag': vendor_dict['profile_flag'],\n 'profile_number': vendor_dict['profile_number'],\n 'burst_interval': vendor_dict['burst_interval'],\n 'ping_per_profile': vendor_dict['ping_per_profile'],\n 'average_pings_flag': vendor_dict['average_pings_flag'],\n 'spare_channel': vendor_dict['spare_channel'],\n 'ping_period': vendor_dict['ping_period'],\n 'phase': vendor_dict['phase'],\n 'number_of_channels': vendor_dict['number_of_channels']}\n )\n\n if self.format == '.nc':\n ds.to_netcdf(path=self.file_path, mode='a', group='Vendor')\n elif self.format == '.zarr':\n if not self.append_zarr:\n ds.to_zarr(store=self.file_path, mode='a', group='Vendor')\n else:\n ds.to_zarr(store=self.file_path, mode='a', group='Vendor', append_dim='ping_time')",
"def setup_vendor(\n vendor_str,\n bucket=None,\n use_encryption=True,\n ignore_prefix=False,\n profile=None,\n **other\n):\n vendor = vendor_str.lower()\n try:\n vendor = ALIASES[vendor]\n except KeyError:\n raise ValueError(\"datacenter: {}, is not supported\".format(vendor))\n return vendor(\n bucket=bucket,\n use_encryption=use_encryption,\n ignore_prefix=ignore_prefix,\n profile=profile,\n **other\n )",
"def set_vendors(self, vendors_list):\n self.multiple_items_selection_from_kendo_dropdown(self.vendors_kendo_dropdown_locator, vendors_list)\n self.wait_for_ajax_spinner_load()",
"def vendor_id(self, vendor_id):\n\n self._vendor_id = vendor_id",
"def supported_vendor_interfaces(self):\n return [\n fake.FakeVendorB, fake.FakeVendorA\n ] + super().supported_vendor_interfaces",
"def vendor_reference(self, vendor_reference):\n\n self._vendor_reference = vendor_reference",
"def set_vendor_name(self, vendor_name_prefix):\n global vendor_name\n self.vendor_unique_id = self.random_string_generator(6)\n vendor_name = vendor_name_prefix + self.vendor_unique_id\n self.set_value_into_input_field(self.vendor_name_textbox_locator, vendor_name)\n return vendor_name",
"def test_get_software_set(self):\n pass",
"def test_avp_vendor(self):\n # Vendor specific flags means you need a non default vendor ID\n with self.assertRaises(CodecException):\n avp_val = avp.UnknownAVP(\n 0, b'',\n flags=avp.FLAG_VENDOR,\n vendor=avp.VendorId.DEFAULT,\n )\n out_buf = bytearray(avp_val.length)\n avp_val.encode(out_buf, 0)\n\n avp_val = avp.UnknownAVP(\n 0, b'',\n flags=avp.FLAG_VENDOR,\n vendor=1,\n )\n out_buf = bytearray(avp_val.length)\n avp_val.encode(out_buf, 0)\n self._compare_avp(avp_val, out_buf)\n\n avp_val = avp.UnknownAVP(\n 0, b'',\n flags=avp.FLAG_VENDOR,\n vendor=0x00FFFFFF,\n )\n out_buf = bytearray(avp_val.length)\n avp_val.encode(out_buf, 0)\n self._compare_avp(avp_val, out_buf)\n\n # Avp vendor in range\n with self.assertRaises(CodecException):\n avp_val = avp.UnknownAVP(\n 0, b'',\n flags=avp.FLAG_VENDOR,\n vendor=-1,\n )\n out_buf = bytearray(avp_val.length)\n avp_val.encode(out_buf, 0)\n\n # Avp vendor in range\n with self.assertRaises(CodecException):\n avp_val = avp.UnknownAVP(\n 0, b'',\n flags=avp.FLAG_VENDOR,\n vendor=0xFFFFFFFF + 1,\n )\n out_buf = bytearray(avp_val.length)\n avp_val.encode(out_buf, 0)",
"def vendor(self) -> str:\n return self.properties[DBUS_ATTR_VENDOR]",
"def __init__(self, vendor_id, product_id):\n self.vendor_id = vendor_id\n self.product_id = product_id",
"def do_command(self, args):\n vendorops = dbops.Vendors()\n vendorops.add(args)",
"def get_vendor(self, result, host, mac):\n if \"vendor\" in result['scan'][host] and mac in result['scan'][host]['vendor']:\n return result['scan'][host]['vendor'][mac]\n else:\n return \"\"",
"def _vendor_request(self, direction, request, length_or_data=0, value=0, index=0, timeout=1000):\n return self.device.ctrl_transfer(\n direction | usb.TYPE_VENDOR | usb.RECIP_DEVICE,\n request, value, index, length_or_data, timeout)",
"def get_vendor(mac):\r\n return p.get_manuf(mac) or 'None'",
"def set_vendor_grid_settings(self, grid_settings):\n self.set_grid_settings(self.vendors_div_id, grid_settings)",
"def __str__(self):\n return '%s' % (self.vendor)",
"def onVendor(self, action):\n\n if not self.graphicsView.hasImage():\n self.actionVendor.setChecked(False)\n self.showImageSelectionMessageBox()\n return\n\n self.actionVendor.setChecked(True)\n if not hasattr(self.actionVendor, 'tag'):\n self.actionVendor.tag = PlacePolygonCommand.PlacePolygonCommand(self.graphicsView)\n self.actionVendor.tag.onSuccess.connect(self.onVendorCreated)\n self.actionVendor.tag.onRejected.connect(self.onCommandRejected)\n\n self.graphicsView.command = self.actionVendor.tag",
"def is_vendor(self) -> bool:\n return self._is_vendor",
"def fix_vendor_id(font):\n if font['OS/2'].achVendID != 'GOOG':\n font['OS/2'].achVendID = 'GOOG'\n print('Changed font vendor ID to GOOG')\n return True\n return False",
"def get_vendor_list_v1(self, **kwargs):\n # type: (**Any) -> Union[ApiResponse, object, Error_fbe913d9, Vendors_f5f1b90b]\n operation_name = \"get_vendor_list_v1\"\n params = locals()\n for key, val in six.iteritems(params['kwargs']):\n params[key] = val\n del params['kwargs']\n\n resource_path = '/v1/vendors'\n resource_path = resource_path.replace('{format}', 'json')\n\n path_params = {} # type: Dict\n\n query_params = [] # type: List\n\n header_params = [] # type: List\n\n body_params = None\n header_params.append(('Content-type', 'application/json'))\n header_params.append(('User-Agent', self.user_agent))\n\n # Response Type\n full_response = False\n if 'full_response' in params:\n full_response = params['full_response']\n\n # Authentication setting\n access_token = self._lwa_service_client.get_access_token_from_refresh_token()\n authorization_value = \"Bearer \" + access_token\n header_params.append(('Authorization', authorization_value))\n\n error_definitions = [] # type: List\n error_definitions.append(ServiceClientResponse(response_type=\"ask_smapi_model.v1.vendor_management.vendors.Vendors\", status_code=200, message=\"Return vendor information on success.\"))\n error_definitions.append(ServiceClientResponse(response_type=\"ask_smapi_model.v1.error.Error\", status_code=401, message=\"The auth token is invalid/expired or doesn't have access to the resource.\"))\n error_definitions.append(ServiceClientResponse(response_type=\"ask_smapi_model.v1.error.Error\", status_code=429, message=\"Exceed the permitted request limit. Throttling criteria includes total requests, per API, ClientId, and CustomerId.\"))\n error_definitions.append(ServiceClientResponse(response_type=\"ask_smapi_model.v1.error.Error\", status_code=500, message=\"Internal Server Error.\"))\n error_definitions.append(ServiceClientResponse(response_type=\"ask_smapi_model.v1.error.Error\", status_code=503, message=\"Service Unavailable.\"))\n\n api_response = self.invoke(\n method=\"GET\",\n endpoint=self._api_endpoint,\n path=resource_path,\n path_params=path_params,\n query_params=query_params,\n header_params=header_params,\n body=body_params,\n response_definitions=error_definitions,\n response_type=\"ask_smapi_model.v1.vendor_management.vendors.Vendors\")\n\n if full_response:\n return api_response\n return api_response.body",
"def set_vendor_names(self, vendor_names):\n if not all(isinstance(vendor_name, str) for vendor_name in vendor_names):\n raise ApiError(\"One or more invalid vendor names\")\n self._update_criteria(\"vendor_name\", vendor_names)\n return self",
"def set_vendor_names(self, vendor_names):\n if not all(isinstance(vendor_name, str) for vendor_name in vendor_names):\n raise ApiError(\"One or more invalid vendor names\")\n self._update_criteria(\"vendor_name\", vendor_names)\n return self",
"def test_post_activate_marketplace_vendor_v3(self):\n pass",
"def bios_vendor(self):\n\t\treturn self.__info_dict['info']['bios_vendor']['value']",
"def onVendorCreated(self):\n\n try:\n count = len(self.actionVendor.tag._polyline._vertices)\n if count > 2:\n points = []\n for point in self.actionVendor.tag._polyline._vertices:\n points.append(QPoint(round(point[0]), round(point[1])))\n polygon = QPolygonF(points)\n item = QEngineeringVendorItem(polygon, pack_type=self.packageComboBox.currentText())\n item.area = 'Drawing'\n item.transfer.onRemoved.connect(self.itemRemoved)\n self.graphicsView.scene().addItem(item)\n finally:\n self.graphicsView.scene().removeItem(self.actionVendor.tag._polyline)\n self.actionVendor.tag.reset()"
] | [
"0.7222287",
"0.6403538",
"0.630762",
"0.62553227",
"0.62217903",
"0.620997",
"0.61020625",
"0.6084132",
"0.59344214",
"0.5922468",
"0.58317804",
"0.5783661",
"0.5765108",
"0.5727027",
"0.57049346",
"0.5685642",
"0.5679784",
"0.5652456",
"0.56487244",
"0.56167257",
"0.55752695",
"0.55591655",
"0.5555614",
"0.5521548",
"0.55085635",
"0.5488118",
"0.5488118",
"0.54804087",
"0.54798037",
"0.54397273"
] | 0.6906274 | 1 |
Implementing click buy and sell deal create button functionality | def click_buy_and_sell_deal_create_button(self):
self.click_element(self.save_vendor_profile_locator) | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def click_buy_and_sell_deal_bulk_edit_button(self):\n self.click_element(self.buy_and_sell_deal_bulk_edit_button_lcoator, True)",
"def click_request_new_deal_button(self):\n self.click_element(self.request_new_deal_button_locator)",
"async def _vis_buy(self, ctx, *args):\n if has_post_permission(ctx.guild.id, ctx.channel.id):\n number, item = ch.parse_number_and_name(args)\n if item:\n await ctx.send(vis_helpers.shop_buy(ctx.user_object, item, number))",
"def click_request_new_buy_and_sell_deal(self):\n self.click_element(self.request_new_buy_and_sell_deal_locator, error_message=\"request new buy and sell deal locator not found before specified time out\")",
"def buy():\n\n # if user reached route via GET return them an input form\n if request.method == \"GET\":\n return render_template(\"buy.html\")\n\n # if user reached route via POST (as by submitting a form via POST)\n elif request.method == \"POST\":\n\n # get id as it is used many times\n id = session[\"user_id\"]\n\n # get symbol as it is used many times\n symbol = request.form.get(\"symbol\")\n\n # get share volume requested\n volume = int(request.form.get(\"volume\"))\n\n # ensure stock symbol was submitted\n if not symbol:\n return apology(\"you must provide a stock symbol\")\n\n # ensure positive volume (integer rule handled elsewhere)\n elif volume <= 0:\n return apology(\"volume must be integer greater than 0\")\n\n # lookup stock on yahoo\n stock_info = lookup(symbol)\n\n # if error looking stock up\n if not stock_info:\n return apology(\"that stock symbol doesn't exist\")\n\n # query database for cash balance\n cash = db.execute(\"SELECT cash FROM users WHERE id = :id\", id=id)\n cash = cash[0]['cash']\n\n # cost of requested shares\n purchase_cost = volume * stock_info['price']\n\n # if sufficient cash, make purchase, else return apology\n if purchase_cost <= cash:\n\n # check if user already owns any stock in this company\n existing = db.execute(\"SELECT num_shares FROM portfolio WHERE id = :id AND symbol = :symbol\", id=id, symbol=symbol)\n\n # if no existing shares, add them\n if not existing:\n new = db.execute(\"INSERT INTO portfolio (id, symbol, num_shares) VALUES(:id, :symbol, :num_shares)\", id=id, symbol=symbol, num_shares=volume)\n\n # if there are existing shares, add new volume to them\n else:\n add = db.execute(\"UPDATE portfolio SET num_shares = :num_shares WHERE id = :id AND symbol = :symbol\", num_shares=existing[0]['num_shares'] + volume, id=id, symbol=symbol)\n\n # set date string\n dstring = time(str(datetime.datetime.utcnow()))\n\n # update transaction history\n result2 = db.execute(\"INSERT INTO `transaction` (id, symbol, volume, share_price, dtstamp) VALUES(:id, :symbol, :volume, :share_price, :dtstamp)\", id=id, symbol=symbol, volume=volume, share_price=stock_info['price'], dtstamp=dstring)\n\n # reduce cash balance\n result = db.execute(\"UPDATE users SET cash = :cash WHERE id = :id\", cash=cash-purchase_cost, id=id)\n\n # redirect user to home page\n return redirect(url_for(\"index\"))\n else:\n return apology(\"insufficient funds\")",
"def buy():\n\n # User reached route via GET (as by clicking a link or via redirect)\n if request.method == \"GET\":\n return render_template(\"buy.html\")\n else:\n symbol = request.form.get(\"symbol\")\n if not symbol:\n return apology(\"must provide symbol\", 400)\n\n # Check if symbol exist in lookup(symbol)\n symbol = lookup(symbol)\n\n if not symbol :\n return apology(\"symbol doesn't exist,sorry\", 400)\n else:\n name = symbol.get(\"name\")\n price = symbol.get(\"price\")\n symbol = symbol.get(\"symbol\")\n\n # Check if shares of name is a integer\n shares = request.form.get(\"shares\")\n\n # https://www.geeksforgeeks.org/program-check-input-integer-string/\n n = len(shares)\n for i in range(n) :\n if shares[i].isdigit() != True :\n return apology(\"shares need to be a number\", 400)\n\n shares = int(shares)\n\n # if positive number\n if shares > 0:\n\n # Query database for user's cash\n cash = db.execute(\"SELECT cash FROM users WHERE id = :userID\",\n userID=session[\"user_id\"])\n\n # Get cash\n cash = cash[0][\"cash\"]\n\n # Check user if have enough money\n buyNeed = shares*price\n if cash > buyNeed:\n\n # Update csah in users TABLE\n db.execute(\"UPDATE users SET cash = :cash WHERE id = :userID\", cash=cash-buyNeed, userID=session[\"user_id\"])\n\n # Check purchase time\n now = datetime.now(timezone('Asia/Shanghai'))\n\n # Add to buy table\n db.execute(\"INSERT INTO buy (date, symbol, name, price, shares, costmoney, userID) VALUES (:date, :symbol, :name, :price, :shares, :costmoney, :userID)\",\n date=now, symbol=symbol, name=name, price=price, shares=shares, costmoney=buyNeed, userID=session[\"user_id\"])\n\n # Add to buy-sell table\n db.execute(\"INSERT INTO bs (symbol, price, shares, date, userID) VALUES (:symbol, :price, :shares, :date, :userID)\", symbol=symbol, price=usd(price), shares=shares, date=now, userID=session[\"user_id\"])\n\n # Count finally cash\n endCash=cash-buyNeed\n\n # Count total shares and costmoney by buy\n sharesTotal = db.execute(\"SELECT shares FROM buy WHERE userID = :userID and name = :name\", userID=session[\"user_id\"], name=name)\n costmoneyTotal = db.execute(\"SELECT costmoney FROM buy WHERE userID = :userID and name = :name\", userID=session[\"user_id\"], name=name)\n\n # len(sharesTotal)\n st = len(sharesTotal)\n\n # Sum shares\n sumItem = 0\n for item in range(st):\n sumItem = sharesTotal[item][\"shares\"] + sumItem\n sharesTotal_2 = sumItem\n\n # Sum cost money\n sumItem2 = 0\n for item2 in range(st):\n sumItem2 = costmoneyTotal[item2][\"costmoney\"] + sumItem2\n costmoneyTotal_2 = sumItem2\n\n\n # Ensure return total number and totalGet by sell\n sharesTotalSell = db.execute(\"SELECT shares FROM sell WHERE userID = :userID and name = :name\", userID=session[\"user_id\"], name=name)\n costmoneyTotalSell = db.execute(\"SELECT totalGet FROM sell WHERE userID = :userID and name = :name\", userID=session[\"user_id\"], name=name)\n\n # Len of sharesTotalSell\n stS = len(sharesTotalSell)\n\n # Sum of sell shares\n sumItem3 = 0\n for item3 in range(stS):\n sumItem3 = sharesTotalSell[item3][\"shares\"] + sumItem3\n\n # Buy - sell shares\n sharesTotal_2 = sharesTotal_2-sumItem3\n\n # Sum of sell totalGet\n sumItem4 = 0\n for item4 in range(stS):\n sumItem4= costmoneyTotalSell[item4][\"totalGet\"] + sumItem4\n\n # Buy -sell totalGet\n costmoneyTotal_2 = costmoneyTotal_2-sumItem4\n\n # Test if can update total though shares\n total = db.execute(\"SELECT sharesTotal FROM total WHERE userID = :userID and name = :name\", userID=session[\"user_id\"], name=name)\n\n # Insert total TABLE\n if not total:\n db.execute(\"INSERT INTO total (name, symbol, price, sharesTotal, costmoneyTotal, userID) VALUES (:name, :symbol, :price, :sharesTotal, :costmoneyTotal, :userID)\",\n name=name, symbol=symbol, price=price, sharesTotal=sharesTotal_2, costmoneyTotal=costmoneyTotal_2, userID=session[\"user_id\"])\n # Update total TABLE\n else:\n db.execute(\"UPDATE total SET sharesTotal = :sharesTotal, costmoneyTotal = :costmoneyTotal WHERE userID = :userID and name = :name\", sharesTotal=sharesTotal_2, costmoneyTotal=costmoneyTotal_2, userID=session[\"user_id\"], name=name)\n\n # SELECT all rows from total TABLE WHERE userID = session[\"user_id\"]\n total = db.execute(\"SELECT * FROM total WHERE userID = :userID\", userID=session[\"user_id\"])\n\n # Len of total\n tlen = len(total)\n\n # Get user cash\n cash = db.execute(\"SELECT cash FROM users WHERE id = :userID\",\n userID=session[\"user_id\"])\n\n cash = usd(cash[0][\"cash\"])\n\n # Change price, costmoney to usd format\n for n in range(tlen):\n total[n][\"price\"] = usd(total[n][\"price\"])\n total[n][\"costmoneyTotal\"] = usd(total[n][\"costmoneyTotal\"])\n total = list(reversed(total))\n\n # Flash\n flash(\"buy\")\n return render_template(\"buyed.html\", total=total, tlen=tlen, cash=cash)\n\n else:\n # Else cash not enough\n return apology(\"cash not enough\", 400)\n\n else:\n # Else not positive number\n return apology(\"not positive number\", 400)",
"def click_buy_and_sell_deal_save_button(self):\n self.click_element(self.save_vendor_profile_locator, True)\n try:\n self.wait().until(EC.visibility_of_element_located(self.confirmation_popup_locator), 'confirmation popup locator not found before specified time out')\n self.click_element(self.ok_button_locator, True)\n except:\n raise",
"def buy():\n if request.method == \"GET\":\n return render_template(\"buy.html\")\n\n elif request.method == \"POST\":\n shares = request.form.get(\"shares\")\n symbol = request.form.get(\"symbol\")\n try:\n float(shares)\n except ValueError:\n return apology(\"please input a valid number of shares\")\n try:\n int(shares)\n except ValueError:\n return apology(\"please input a valid number of shares\")\n shares = int(shares)\n\n if not shares or not float(shares) or not float(shares).is_integer() or float(shares) <= 0:\n return apology(\"input a valid number of shares to buy\")\n\n elif not symbol or not lookup(symbol):\n return apology(\"input a valid symbol\")\n\n elif type(shares) != int:\n return apology(\"How did you even get this error?!\")\n\n else:\n quote = lookup(symbol)\n current_price = float(quote[\"price\"])\n company = quote[\"name\"]\n shares_num = int(request.form.get(\"shares\"))\n shares_tcost = float(shares_num * current_price)\n balance = db.execute(\"SELECT cash FROM users WHERE id = :id\", id=session['user_id'])\n\n # balance[0] b/c the returned value of balance is a dict of multiple lists\n flbal = [float(i) for i in list(balance[0].values())]\n for bal in flbal:\n if bal - shares_tcost < 0:\n return apology(\"Sorry, you don't have enough money\")\n else:\n newshares = bal - shares_tcost\n newbalance = db.execute(\"UPDATE users SET cash = :cash WHERE id = :id\", cash=newshares, id=session['user_id'])\n newpurchase = db.execute(\"INSERT INTO History ('symbol', 'company', 'shares', 'price', 'totalprice', 'id', 'transaction_type') VALUES (:symbol, :company, :shares, :price, :totalprice, :id, :transaction_type)\",\n symbol=symbol, company=company, shares=shares_num, price=current_price, totalprice=shares_tcost, id=session['user_id'], transaction_type=\"BUY\")\n\n return redirect('/')",
"def buy():\n if request.method == \"POST\":\n\n # Ensure symbol was submitted\n if not request.form.get(\"symbol\"):\n return apology(\"must provide symbol\", 400)\n\n # Ensure shares was submitted\n elif not request.form.get(\"shares\"):\n return apology(\"must provide shares\", 400)\n\n if not request.form.get(\"shares\").isdigit():\n return apology(\"must be integer\",400)\n\n elif int(request.form.get(\"shares\"))<1 :\n return apology(\"must be positive integer\", 400)\n\n elif lookup(request.form.get(\"symbol\"))==None:\n return apology(\"Must be a valid symbol\",400)\n\n #ensure money>price\n quote=lookup(request.form.get(\"symbol\"))\n shares=request.form.get(\"shares\")\n cash=db.execute(\"SELECT cash FROM users WHERE id=?\",session[\"user_id\"])\n if cash[0][\"cash\"]<int(quote[\"price\"])*int(shares):\n return apology(\"You can't affort this/these\",400)\n\n #BUY, STORE DATA IN REPOSITORY AND RECORD\n\n #record this transaction\n db.execute(\"INSERT INTO record(userID,transactions,symbol,price,t1) VALUES(?,?,?,?,strftime('%Y-%m-%d %H:%M:%S','now'))\",session[\"user_id\"],int(shares),quote[\"symbol\"],float(quote[\"price\"]))\n\n #deduct the cash\n total=int(quote[\"price\"])*int(shares)\n db.execute(\"UPDATE users SET cash=cash- (?) WHERE id=?\",total,session[\"user_id\"])\n\n return redirect(\"/\")\n\n else:\n return render_template(\"buy.html\")",
"def btn_create_order_pro(self):\n\t\tprint()\n\t\tprint('treatment - btn_create_order_pro')\n\n\t\t# Search Partner\n\t\tpartner = tre_funcs.get_partner(self, self.patient.name)\n\n\t\t# Search pricelist\n\t\tpricelist = tre_funcs.get_pricelist(self)\n\n\t\t# Search product\n\t\t# Create Product tuple\n\t\tproduct_tup = []\n\t\t#for service in self.service_all_ids:\n\t\tfor service in self.service_ids:\n\t\t\t#print()\n\t\t\t#print('* Create Product tuple')\n\t\t\t#print(service)\n\t\t\t#print(service.service)\n\t\t\t#print(service.service.name)\n\t\t\t#print(service.qty)\n\t\t\t#print(service.service.list_price)\n\t\t\t\n\t\t\t# Init\n\t\t\tproduct_template = service.service\n\t\t\tname = service.service.name\n\t\t\tqty = service.qty\n\t\t\tprice = service.service.list_price\n\t\t\t\n\t\t\t# Check Exceptions\n\t\t\ttry:\n\t\t\t\tprice_list = '2019'\n\t\t\t\tproduct = tre_funcs.get_product_product(self, name, price_list)\n\t\t\t\tproduct_tup.append((product, qty, price))\n\n\t\t\texcept Exception:\n\t\t\t\tprint('ERROR - Treatment - Product not in 2019 price_list !')\n\t\t\t\tprint('Search in other price_lists')\n\n\t\t\t\ttry:\n\t\t\t\t\tprice_list = False\n\t\t\t\t\tproduct = tre_funcs.get_product(self, name, price_list)\n\t\t\t\t\tprint(product)\n\t\t\t\t\tproduct_tup.append((product, qty, price))\n\n\t\t\t\texcept Exception:\n\t\t\t\t\tprint('ERROR - Treatment - Product Not Available at all !!!!!')\n\n\t\t\t#else:\n\t\t\t#\tprint('jx - Else !')\n\t\t\t\t#pass\n\n\n\t\t\t# Check \n\t\t\ttre_funcs.check_product(self, '2019', product, product_template)\n\t\t\n\t\t# Create order \n\t\torder = pl_creates.create_order(self, partner.id, pricelist.id, product_tup)\n\t\tprint(order)\n\n\t\t# Open Order\n\t\treturn action_funcs.open_order(order)",
"def buy():\n\n if request.method == 'GET':\n return render_template('buy.html')\n\n elif request.method == 'POST':\n try:\n shares = int(request.form.get('shares'))\n except:\n return apology('Quantidade de ações não inteira')\n\n if shares < 0:\n return apology('Quantidade de ações não positiva')\n elif not lookup(request.form.get('symbol')):\n return apology('Código de ação inválido')\n\n stock_symbol = request.form.get('symbol')\n price = lookup(stock_symbol)['price']\n total_purchase_cost = round((price * shares), 2)\n user_id = session.get('user_id')\n user_money = db.execute('SELECT dinheiro FROM users WHERE id = ?', user_id)[0]['dinheiro']\n\n if total_purchase_cost > user_money:\n return apology(\"Dinheiro insuficiente\")\n\n table_name = f'stocks_user{user_id}'\n db.execute(\"CREATE TABLE IF NOT EXISTS ? (stock_symbol TEXT NOT NULL, shares NUMBER NOT NULL, price NUMBER NOT NULL, time TEXT NOT NULL)\", table_name)\n db.execute(\"INSERT INTO ? (stock_symbol, shares, price, time) VALUES(?, ?, ?, ?)\", table_name, stock_symbol, shares, price, time_date())\n db.execute(\"UPDATE users SET dinheiro = ? WHERE id = ?\", (user_money - total_purchase_cost), user_id)\n\n return redirect('/')",
"def purchase(self, item_type):",
"def sell():\n\n # if user reached route via GET return them an input form\n if request.method == \"GET\":\n return render_template(\"sell.html\")\n\n # if user reached route via POST (as by submitting a form via POST)\n elif request.method == \"POST\":\n\n # get id as it is used many times\n id = session[\"user_id\"]\n\n # get symbol input\n symbol = request.form.get(\"symbol\")\n\n # get share volume requested\n volume = int(request.form.get(\"volume\"))\n\n # ensure stock symbol was submitted\n if not symbol:\n return apology(\"you must provide a stock symbol\")\n\n # ensure positive volume (integer rule handled elsewhere)\n elif volume <= 0:\n return apology(\"volume must be integer greater than 0\")\n\n # lookup stock on yahoo\n stock_info = lookup(symbol)\n\n # if error looking stock up\n if not stock_info:\n return apology(\"that stock symbol doesn't exist\")\n\n # check if user already owns any stock in this company\n existing = db.execute(\"SELECT num_shares FROM portfolio WHERE id = :id AND symbol = :symbol\", id=id, symbol=symbol)\n\n # if sufficient cash, make purchase, else return apology\n if not existing:\n return apology(\"you don't own this stock\")\n else:\n if existing[0]['num_shares'] < volume:\n return apology('you cannot sell more shares than you own')\n else:\n # query database for\n cash = db.execute(\"SELECT cash FROM users WHERE id = :id\", id=id)\n cash = cash[0]['cash']\n\n minus = db.execute(\"UPDATE portfolio SET num_shares = :num_shares WHERE id = :id AND symbol = :symbol\", num_shares=existing[0]['num_shares'] - volume, id=id, symbol=symbol)\n\n # set date string\n dstring = str(datetime.datetime.utcnow())\n\n # update transaction history\n result2 = db.execute(\"INSERT INTO `transaction` (id, symbol, volume, share_price, dtstamp) VALUES(:id, :symbol, :volume, :share_price, :dtstamp)\", id=id, symbol=symbol, volume=-volume, share_price=stock_info['price'], dtstamp=dstring)\n\n # calculate sale price\n sale_price = stock_info['price'] * volume\n\n # increase cash balance\n result = db.execute(\"UPDATE users SET cash = :cash WHERE id = :id\", cash=cash+sale_price, id=id)\n\n # redirect user to home page\n return redirect(url_for(\"index\"))",
"def buy():\n if request.method == \"GET\":\n return render_template(\"buy.html\")\n elif request.method == \"POST\":\n\n symbolInput = request.form.get(\"symbol\")\n shares = float(request.form.get(\"shares\"))\n\n symbolName = lookup(symbolInput)[\"name\"]\n symbolPrice = lookup(symbolInput)[\"price\"]\n symbolTicker = lookup(symbolInput)[\"symbol\"]\n\n if symbolInput != symbolTicker or symbolInput == \"\" or shares == \"\" or shares < 1:\n return apology(\"No buy for you senpai!\")\n\n else:\n userId = session[\"user_id\"]\n totalPrice = shares * symbolPrice\n availableCash = float(db.execute(f\"SELECT cash FROM users WHERE id={userId}\")[0][\"cash\"])\n\n if totalPrice > availableCash:\n return apology(\"Not enough available tendies\")\n else:\n now = datetime.now()\n transTime = now.strftime(\"%d/%m/%Y %H:%M:%S\")\n availableCash -= totalPrice\n\n db.execute(f\"UPDATE users SET cash = '{availableCash}' WHERE id = '{userId}'\")\n\n db.execute(f\"INSERT INTO transactions (trans_time, trans_type, user_id, symbol, price, shares, value, name, current_price) VALUES ('{transTime}','BUY','{userId}','{symbolTicker}','{symbolPrice}','{shares}','{totalPrice}','{symbolName}','{symbolPrice}')\")\n\n return redirect(\"/\")",
"def buy():\n if request.method == \"POST\":\n\n if not request.form.get(\"shares\"):\n return apology(\"gimme share\", 400)\n if not lookup(request.form.get(\"symbol\")):\n return apology(\"not correct stock\", 400)\n if not request.form.get(\"shares\").isdigit():\n return apology(\"sorry bro\", 400)\n\n quote = lookup(request.form.get(\"symbol\"))\n\n money_list = db.execute(\"SELECT cash FROM users WHERE id = :current_id\", current_id=session[\"user_id\"])\n available_money = money_list[0][\"cash\"]\n\n total_price = int(request.form.get(\"shares\")) * float(quote[\"price\"])\n\n if available_money < total_price:\n return apology(\"no money bro\", 400)\n\n insertion = db.execute(\"INSERT INTO transactions (id, stock, units, price, time, type) VALUES (:current_id, :stock, :units, :price, :now, :type)\",\n current_id=session[\"user_id\"], stock=request.form.get(\"symbol\"), units=request.form.get(\"shares\"), price=float(quote[\"price\"]), now=datetime.datetime.now(), type=\"B\")\n updating = db.execute(\"UPDATE users SET cash = cash - :upd_price WHERE id = :current_id\",\n upd_price=total_price, current_id=session[\"user_id\"])\n\n money_upd_list = db.execute(\"SELECT cash FROM users WHERE id = :current_id\", current_id=session[\"user_id\"])\n available_money_upd = money_upd_list[0][\"cash\"]\n\n return render_template(\"buy_result.html\",\n shares=request.form.get(\"shares\"),\n symbol=request.form.get(\"symbol\"),\n price=usd(total_price),\n cash=usd(available_money_upd))\n else:\n return render_template(\"buy.html\")",
"def buy():\n\n def price_check(cash, price, shares):\n \"\"\"check affordability of stock vs cash on hand\"\"\"\n affordable = (cash - (price * shares)) > 0\n\n if affordable:\n return affordable\n\n else:\n return False\n\n if request.method == \"POST\":\n\n stock = lookup(request.form.get(\"symbol\"))\n\n # check symbol and share # are valid\n if not stock:\n return apology(\"Missing or Incorrect Symbol\", 400)\n\n try:\n shares = int(request.form.get(\"shares\"))\n except ValueError:\n return apology(\"Input at least 1 share\", 400)\n\n if shares < 0:\n return apology(\"Input at least 1 share\", 400)\n\n\n # cast shares to int & fetch users cash on hand\n shares = int(request.form.get(\"shares\"))\n user_cash = db.execute(\"SELECT cash FROM users WHERE id = :user_id\", user_id=session[\"user_id\"])[0][\"cash\"]\n\n if price_check(user_cash, stock[\"price\"], shares) == False:\n return apology(\"Sorry, you can't afford this purchase.\", 400)\n\n else:\n # define variables for inserting into transactions table\n purchase_date = datetime.now().strftime(\"%Y-%m-%d %H:%M:%S\")\n\n # update user cash\n user_cash = user_cash - (stock[\"price\"]*shares)\n db.execute(\"UPDATE users SET cash = :user_cash WHERE id = :user_id\", user_id=session[\"user_id\"], user_cash=user_cash)\n\n # update transactions table with most recent transaction\n db.execute(\"\"\"\n INSERT INTO transactions(user_id, date, symbol, shares, price)\n VALUES(:user_id, :date, :symbol, :shares, :price)\n \"\"\",\n user_id=session[\"user_id\"],\n date=purchase_date,\n symbol=stock[\"symbol\"],\n shares=shares,\n price=stock[\"price\"]\n )\n\n return redirect(\"/\")\n\n else:\n return render_template(\"buy.html\")",
"async def buy(self, ctx, *args):\n if has_post_permission(ctx.guild.id, ctx.channel.id):\n number, item = ch.parse_number_and_name(args)\n if number and item:\n out = item_helpers.buy(ctx.author.id, item, number=number)\n await ctx.send(out)",
"def place_buy_order(self):\n price = request.form[\"price\"]\n stocks = request.form[\"stocks\"]\n trader_id = request.form[\"trader_id\"]\n self.market.place_buy_order(trader_id, price, stocks)\n return \"\"",
"def click_buy_and_sell_deal_management_link(self):\n self.select_static_tab(self.buy_and_sell_deal_management_locator, message=\"buy and sell deal management locator not found before specified time out\")",
"def btn_create_order_con(self):\n\t\tprint()\n\t\tprint('btn_create_order_con')\n\n\t\t# Init\n\t\t\n\t\t# Search Partner\n\t\tpartner = tre_funcs.get_partner(self, self.patient.name)\n\n\t\t# Search pricelist\n\t\tpricelist = tre_funcs.get_pricelist(self)\n\n\t\t# Search product\n\t\tname = 'CONSULTA MEDICA'\n\t\tprice_list = '2019'\n\t\tproduct = tre_funcs.get_product_product(self, name, price_list)\n\n\t\t# Check \n\t\tproduct_template = tre_funcs.get_product_template(self, name, price_list)\n\t\ttre_funcs.check_product(self, '2019', product, product_template)\n\n\t\t# Create order \n\t\torder = pl_creates.create_order_con(self, partner.id, pricelist.id, product)\n\t\t\n\t\t# Open Order\n\t\treturn action_funcs.open_order(order)",
"def buy():\n if request.method == \"POST\":\n\n stock = lookup(request.form.get(\"symbol\"))\n\n # This took a while for check to confirm. First check that user input is digit.\n if not request.form.get(\"shares\").isdigit():\n return apology(\"Inavalid number of shares\")\n numOfShares = request.form.get(\"shares\")\n\n # If request is POST firstly check if anything has been submitted.\n if not request.form.get(\"symbol\"):\n return apology(\"You haven't typed a symbol\")\n # if stock lookup request is None or if the numOfShares is not a number of 1 or higher return apologies.\n if stock is None:\n return apology(\"This doesn't seem to be a valid symbol, try again\")\n # userID and user serparate in case both are required.\n userID = session[\"user_id\"]\n user = db.execute(\"SELECT * FROM users WHERE id = :id\", id=userID)\n #funds is a float and can be multiplied by number of shares\n funds = float(user[0][\"cash\"])\n purchasePrice = stock[\"price\"] * int(numOfShares)\n\n date_time = datetime.now().strftime('%d-%m-%Y %H:%M:%S')\n\n\n if funds < purchasePrice:\n return apology(\"You don't have sufficient funds to make this purchase\")\n else:\n # Take price off total cash for current user.\n db.execute(\"UPDATE users SET cash = cash - :purchasePrice WHERE id = :userID\", purchasePrice=purchasePrice, userID=userID)\n # Insert into transactions table the id, symbol, number of share bought, price per share, the time,date and the BUY order.\n db.execute(\"INSERT INTO transactions (id, symbol, num_shares, price_ps, date_time, buy_or_sell) VALUES (:id, :symbol, :num_shares, :price_ps, :date_time, :buy_or_sell)\",\n id=userID, symbol=stock[\"symbol\"], num_shares=numOfShares, price_ps=stock[\"price\"], date_time=date_time, buy_or_sell=\"BUY\")\n # stockowned allows search of portfolio table for results that have userID and the bought stock.\n stockOwned = db.execute(\"SELECT * FROM portfolio WHERE symbol=:symbol AND id=:userID\", symbol=stock[\"symbol\"], userID=userID)\n # If there are nor results (not stockowned) then insert into portfolio\n if not stockOwned:\n db.execute(\"INSERT INTO portfolio (id, symbol, numOwned, pricePerShare, totalValue) VALUES (:userID, :symbol, :numOwned, :pricePerShare, :totalValue)\",\n userID=userID, symbol=stock[\"symbol\"], numOwned=numOfShares, pricePerShare=stock[\"price\"], totalValue=purchasePrice)\n # Other wise update the current results. Had to ensuer numOf Share was floas was sotred as a str. Using indexes of stockowned for values.\n else:\n newNumOwned = stockOwned[0][\"numOwned\"] + float(numOfShares)\n newTotalValue = stockOwned[0][\"totalValue\"] + purchasePrice\n newPPS = \"%.2f\"%(newTotalValue / newNumOwned)\n db.execute(\"UPDATE portfolio SET numOwned = :newNumOwned, totalValue = :newTotalValue, pricePerShare = :newPPS WHERE symbol=:symbol AND id=:userID\",\n newNumOwned=newNumOwned, newTotalValue=newTotalValue, newPPS=newPPS, symbol=stock[\"symbol\"], userID=userID)\n\n return redirect(\"/\")\n\n # If a GET request, return the buy.html template.\n else:\n return render_template(\"buy.html\")",
"def buy():\n if request.method == \"POST\":\n if not request.form.get(\"symbol\") or not lookup(request.form.get(\"symbol\")):\n return apology(\"must provide valid symbol\",400)\n if not request.form.get(\"shares\") or int(request.form.get(\"shares\")) <= 0:\n return apology(\"shares must be positive integer!\",400)\n row=db.execute(\"SELECT * FROM users WHERE id=:s\",s=session[\"user_id\"])\n dict=lookup(request.form.get(\"symbol\"))\n cost=dict[\"price\"]* int(request.form.get(\"shares\"))\n if row[0][\"cash\"]>cost:\n db.execute(\"INSERT INTO history(symbol,shares,price,transacted,user_id,status) VALUES (:s,:sh,:p,:t,:u_i,:status)\",s=dict[\"symbol\"],sh=int(request.form.get(\"shares\")),p=dict[\"price\"],t=time.asctime( time.localtime(time.time())),u_i=session[\"user_id\"],status='bought')\n row[0][\"cash\"]=row[0][\"cash\"]-cost\n db.execute(\"UPDATE users SET cash = :cash WHERE id=:s\",cash=row[0][\"cash\"],s=session[\"user_id\"])\n exist=db.execute(\"SELECT * FROM portofolio WHERE symbol=:s AND user_id=:u_i\",s=dict[\"symbol\"],u_i=session[\"user_id\"])\n if len(exist) == 0 :\n db.execute(\"INSERT INTO portofolio(symbol,name,shares,price,total,user_id) VALUES (:s,:n,:sh,:p,:t,:u_i)\",s=dict[\"symbol\"],n=dict[\"name\"],sh=int(request.form.get(\"shares\")),p=dict[\"price\"],t=cost,u_i=session[\"user_id\"])\n else:\n db.execute(\"UPDATE portofolio SET shares =shares+:sh, price=:p, total=total+:t WHERE symbol=:s AND user_id=:u_i\",sh=int(request.form.get(\"shares\")),p=dict[\"price\"],t=dict[\"price\"] * int(request.form.get(\"shares\")),s=dict[\"symbol\"],u_i=session[\"user_id\"])\n else:\n return apology(\"Can't afford!\",400)\n\n\n\n return redirect(\"/\")\n else:\n return render_template(\"buy.html\")",
"def buy():\n \n # User reached route via GET (as by clicking a link or via redirect)\n if request.method == 'GET':\n return render_template(\"buy.html\")\n\n # User reached route via POST (as by submitting a form via POST)\n else:\n # Ensure input is valid\n if not lookup(request.form.get('symbol')):\n return apology(\"Invalid Symbol\", 403)\n \n if not request.form.get('shares'):\n return apology('Enter Number of Shares', 403)\n \n # Try to store shares variable and continue input validation\n try:\n shares = int(request.form.get('shares'))\n except ValueError:\n return apology('Invalid Entry', 403)\n\n if shares <= 0:\n return apology(\"Shares Must Be Positive Number\", 403)\n\n # Lookup stock and store stock variable\n stock = lookup(request.form.get('symbol'))\n\n # Ensure user has funds to buy\n user = Users.query.filter_by(id=session['user_id']).first()\n\n if user.cash < (stock['price'] * shares):\n return apology(\"Insufficient Funds\", 400)\n\n # Add transaction to db\n trans = Transactions(symbol=request.form.get('symbol').upper(), shares=shares,\n price=stock['price'], transacted=datetime.now(), owner=session['user_id'])\n db.session.add(trans)\n db.session.commit()\n\n # Update User's cash\n user.cash -= (trans.price * trans.shares)\n db.session.commit()\n\n # Redirect to home\n return redirect('/')",
"def buy():\n\n if request.method == \"POST\":\n numShares = 0\n try:\n numShares = float(request.form.get(\"shares\"))\n except ValueError:\n return apology(\"Enter a numerical value!\", 400)\n if numShares % 1 != 0:\n return apology(\"Fractional Shares not allowed!\", 400)\n if numShares <= 0:\n return apology(\"Enter a number greater than 0!\", 400)\n if not request.form.get(\"symbol\"):\n return apology(\"Enter a symbol!\", 400)\n if not request.form.get(\"shares\"):\n return apology(\"Enter a number of shares!\", 400)\n\n company = lookup(request.form.get(\"symbol\"))\n if not company:\n return apology(\"Invalid ticker symbol\", 400)\n price = float(company[\"price\"])\n total = float(price * numShares)\n symbl = company[\"symbol\"]\n userRows = db.execute(\"SELECT cash FROM users WHERE id = :userid\", userid=session.get(\"user_id\"))\n remainingCash = float(userRows[0][\"cash\"])\n if total > remainingCash:\n return apology(\"You cannot afford the stock(s)!\", 400)\n else:\n currentUser = session.get(\"user_id\")\n purchased = db.execute(\"INSERT INTO portfolio (UserID, Symbol, Company, NumberOfShares, UnitPrice, TotalPrice) VALUES(:userid, :symbol, :name, :shares, :unitPrice, :totalPrice)\", userid=currentUser, symbol=symbl, name=company['name'], shares=numShares, unitPrice=price, totalPrice=total)\n\n\n if not purchased:\n return apology(\"Unable to purchase\", 400)\n else:\n remainingCash = remainingCash - total\n db.execute(\"UPDATE users set cash=:balance WHERE id=:userid\", balance=remainingCash, userid=currentUser)\n '''Update history'''\n dateNow = datetime.datetime.now()\n historized = db.execute(\"INSERT INTO history (Symbol, Shares, Price, Date, UserID) VALUES(:symbol, :shares, :price, :date, :userid)\", symbol = symbl, shares = numShares, price = total, date = dateNow, userid = session.get(\"user_id\"))\n '''Update history end'''\n return redirect(\"/\")\n\n\n else:\n return render_template(\"buy.html\")",
"def trade_action(self, BUY_QTY):\n BUY_QTY = 4500\n self.trade(BUY_QTY)\n #self.show()",
"def buy():\n\n\n if request.method == \"GET\":\n return render_template(\"buy.html\")\n else:\n # ensure proper symbol\n stock = lookup(request.form.get(\"symbol\"))\n if not stock:\n return apology(\"Invalid Symbol\")\n\n # ensure that user requests for correct number of shares\n try:\n shares = int(request.form.get(\"shares\"))\n if shares < 0:\n return apology(\"Amount of shares must be greater than 0\")\n except:\n return apology(\"Amount of shares must be greater than 0\")\n\n # Retrieve the cash a user has\n dollars = db.execute(\"SELECT cash FROM users WHERE id = :id\", \\\n id=session[\"user_id\"])\n\n # check if enough cash to buy\n if not dollars or float(dollars[0][\"cash\"]) < stock[\"price\"] * shares:\n return apology(\"You cannot buy shares! Please add more cash\")\n\n now = datetime.now()\n date_time = now.strftime(\"%Y-%m-%d %H:%M\")\n\n\n # update history of shares bought\n db.execute(\"INSERT INTO history (symbol, shares, price, id, method, times, totaltrans) \\\n VALUES(:symbol, :shares, :price, :id, :method, :times, :totaltrans)\", \\\n symbol=stock[\"symbol\"], shares=shares, \\\n price=usd(stock[\"price\"]), id=session[\"user_id\"], method = \"Buy\", times= date_time, totaltrans = shares * stock[\"price\"] )\n\n # update user cash\n db.execute(\"UPDATE users SET cash = cash - :purchase WHERE id = :id\", \\\n id=session[\"user_id\"], \\\n purchase=stock[\"price\"] * float(shares))\n\n # Select user shares of that symbol\n user_shares = db.execute(\"SELECT shares FROM portfolio \\\n WHERE id = :id AND symbol=:symbol\", \\\n id=session[\"user_id\"], symbol=stock[\"symbol\"])\n\n # if user doesn't has shares of that symbol, create new stock object\n if not user_shares:\n db.execute(\"INSERT INTO portfolio (id, name, shares, symbol, price, total) \\\n VALUES(:id, :name, :shares, :symbol, :price, :total)\", \\\n id=session[\"user_id\"] , name=stock[\"name\"], \\\n shares=shares, symbol=stock[\"symbol\"], price=usd(stock[\"price\"]), \\\n total=usd(shares * stock[\"price\"]))\n\n # Else increment the shares count\n else:\n shares_total = user_shares[0][\"shares\"] + shares\n db.execute(\"UPDATE portfolio SET shares=:shares \\\n WHERE id=:id AND symbol=:symbol\", \\\n shares=shares_total, id=session[\"user_id\"], \\\n symbol=stock[\"symbol\"])\n\n # return to index\n return redirect(url_for(\"index\"))",
"def buy():\n if request.method == \"POST\":\n if not request.form.get(\"symbol\"):\n return apology(\"Please specify which stock to buy\", 403)\n if not request.form.get(\"nos\"):\n return apology(\"Please specify how many stocks you want to buy\", 403)\n if int(request.form.get(\"nos\")) < 1:\n return apology(\"Please input a positive integer\", 403)\n if request.form.get(\"nos\").isnumeric() != True:\n return apology(\"Please input a positive integer\", 403)\n symbol = request.form.get(\"symbol\")\n if not lookup(symbol):\n return apology(\"Invalid symbol\", 403)\n cost = (lookup(symbol)[\"price\"]) * int(request.form.get(\"nos\"))\n bro = db.execute(\"SELECT cash FROM users WHERE id = ?\", session[\"user_id\"])\n money = bro[0][\"cash\"]\n if cost > money:\n return apology(\"Cannot afford\", 400)\n money = money - cost\n bef = db.execute(\"SELECT COUNT (?) FROM ind WHERE user_id = ?\", lookup(symbol)[\"symbol\"], session[\"user_id\"])\n if len(bef):\n tot = 0\n nob = 0\n tota = cost\n\n else:\n tot = db.execute(\"SELECT total FROM ind where symbol = ?\", lookup(symbol)[\"symbol\"])\n no = db.execute(\"SELECT nos FROM ind where symbol = ?\", lookup(symbol)[\"symbol\"])\n nob = no[0][\"nos\"]\n tota = tot[0][\"total\"] - cost\n\n\n\n\n nos = int(request.form.get(\"nos\"))\n db.execute(\"UPDATE users SET cash = ? WHERE id = ?\", money, session[\"user_id\"])\n db.execute(\"CREATE TABLE IF NOT EXISTS buys (user_id INTEGER NOT NULL, symbol TEXT NOT NULL, name TEXT NOT NULL, price NUMERIC NOT NULL, nos INTEGER NOT NULL, cost NUMERIC NOT NULL, time datetime NOT NULL, FOREIGN KEY(user_id) REFERENCES users(id))\")\n db.execute(\"INSERT INTO hist(user_id, typ, symbol, name, price, nos, cost, time) VALUES (:user_id, :typ, :symbol, :name, :price, :nos, :cost, :time)\", user_id = session[\"user_id\"], typ = \"BOUGHT\", symbol = lookup(symbol)[\"symbol\"], name = lookup(symbol)[\"name\"], price = lookup(symbol)[\"price\"], nos = nos, cost = cost, time = datetime.datetime.now())\n db.execute(\"INSERT INTO buys(user_id, symbol, name, price, nos, cost, time) VALUES (:user_id, :symbol, :name, :price, :nos, :cost, :time)\", user_id = session[\"user_id\"], symbol = lookup(symbol)[\"symbol\"], name = lookup(symbol)[\"name\"], price = lookup(symbol)[\"price\"], nos = nos, cost = cost, time = datetime.datetime.now())\n bef = db.execute(\"SELECT symbol FROM ind WHERE symbol=:symbol AND user_id=:id\", symbol=lookup(symbol)[\"symbol\"], id=session[\"user_id\"])\n\n # add to portfolio database\n # if symbol is new, add to portfolio\n if not bef:\n db.execute(\"INSERT INTO ind (symbol, name, nos, user_id, price, total) VALUES (:symbol, :name, :nos, :id, :price, :total)\",\n name = lookup(symbol)[\"name\"], symbol=lookup(symbol)[\"symbol\"], nos=int(request.form.get(\"nos\")), id = session[\"user_id\"], price = lookup(symbol)[\"price\"], total = cost)\n\n # if symbol is already in portfolio, update quantity of shares and total\n else:\n db.execute(\"UPDATE ind SET nos=nos+:nos WHERE symbol=:symbol AND user_id=:id\",\n nos=int(request.form.get(\"nos\")), symbol=lookup(symbol)[\"symbol\"], id = session[\"user_id\"]);\n return redirect(\"/\")\n\n\n else:\n return render_template(\"buy.html\")",
"def buy():\n if request.method == \"POST\":\n symbol = request.form.get(\"symbol\")\n if not symbol:\n return apology(\"Must enter a symbol\", 400)\n num_shares = request.form.get(\"shares\")\n if not num_shares:\n return apology(\"Must enter some number of shares to buy\", 400)\n company_quote = lookup(symbol)\n if company_quote == None:\n return apology(\"Invalid Symbol\", 400)\n num_shares = int(num_shares)\n if num_shares <= 0:\n return apology(\"Must enter a positve number of shares to buy\", 400)\n balance = db.execute(\"SELECT cash FROM users WHERE id = :id\",\n id=session['user_id'])\n balance = balance[0][\"cash\"]\n cost = num_shares * company_quote[\"price\"]\n if balance < cost:\n return apology(\"Insufficient cash\", 400)\n else:\n new_balance = balance - cost\n date_time = datetime.now().strftime(\"%d/%m/%Y %H:%M:%S\")\n # Update history in history table\n return_val = db.execute(\"INSERT INTO 'history' (id, symbol, shares, price, transacted) VALUES (:id, :symbol, :shares, :price, :transacted)\",\n id=session[\"user_id\"], symbol=company_quote[\"symbol\"], shares=num_shares, price=company_quote[\"price\"], transacted = date_time)\n if return_val == None:\n return apology(\"something went wrong\", 403)\n\n\n #Update total number and value of each shares (symbol) held in totalshares table\n rows = db.execute(\"SELECT id, symbol, numshares, totalvalue FROM totalshares WHERE id = :id AND symbol = :symbol\",\n id=session[\"user_id\"], symbol=company_quote[\"symbol\"])\n if len(rows) != 1: #if nothing is returned i.e id and symbol combination does not already exist, insert it\n return_val = db.execute(\"INSERT INTO totalshares (id, symbol, numshares, totalvalue) VALUES (:id, :symbol, :numshares, :totalvalue)\",\n id=session[\"user_id\"], symbol=company_quote[\"symbol\"], numshares=num_shares, totalvalue=cost)\n if return_val == None:\n return apology(\"something went wrong\", 403)\n else: #if id, symbol combination exists already, update numshares and totalvalue\n new_numshares = rows[0][\"numshares\"] + num_shares\n new_totalvalue = rows[0][\"totalvalue\"] + cost\n return_val = db.execute(\"UPDATE totalshares SET numshares = :new_numshares, totalvalue = :new_totalvalue WHERE id = :id AND symbol = :symbol\",\n new_numshares=new_numshares, new_totalvalue=new_totalvalue, id=session[\"user_id\"], symbol=company_quote[\"symbol\"])\n if return_val == None:\n return apology(\"something went wrong\", 403)\n\n #Update balance in users table\n return_val = db.execute(\"UPDATE users SET cash = :cash WHERE id = :id\", cash=new_balance, id=session[\"user_id\"])\n if return_val != None:\n return redirect(\"/\")\n else:\n return apology(\"something went wrong\", 403)\n\n else:\n return render_template(\"buy.html\")",
"def buy():\n\n # User reached route via POST (as by submitting a form via POST)\n if request.method == \"POST\":\n\n # Access form data\n symbol = request.form.get(\"symbol\")\n shares = request.form.get(\"shares\")\n\n # Access user's id\n user_id = session[\"user_id\"]\n\n # Ensure symbol was submitted\n if not symbol:\n return apology(\"must provide symbol\", 400)\n\n # Ensure shares was submitted\n if not shares:\n return apology(\"must provide shares\", 400)\n\n # Check if submitted shares string is a positive integer\n if not shares.isdigit() :\n return apology(\"shares is not a number\", 400)\n # Shares is valid\n else:\n shares = int(shares)\n\n # Obtain quote using lookup function\n QUOTED = lookup(symbol)\n\n # Ensure valid symbol was submitted\n if QUOTED is None:\n return apology(\"invalid symbol\", 400)\n\n # Check if user has enough cash to buy shares\n cash = db.execute(\"SELECT cash FROM users WHERE id = ?\", user_id)[0][\"cash\"]\n cost = QUOTED[\"price\"] * shares\n if cash < cost:\n return apology(\"can't afford\", 400)\n\n # New amount of cash user has after buying shares\n new_cash_total = cash - cost\n\n # Update cash in users table for user\n db.execute(\"UPDATE users SET cash = ? WHERE id = ?\", new_cash_total, user_id)\n\n # Insert buy log into history table\n db.execute(\"INSERT INTO history (user_id, symbol, shares, price, transacted) VALUES (?, ?, ?, ?, datetime('now'))\",\n user_id, QUOTED[\"symbol\"], shares, QUOTED[\"price\"])\n\n # Keep track of shares in shares table\n current_shares = db.execute(\"SELECT shares_count FROM shares WHERE user_id = ? AND symbol = ?\", user_id, QUOTED[\"symbol\"])\n\n # If shares have not been bought before\n if not current_shares:\n db.execute(\"INSERT INTO shares VALUES (?, ?, ?, ?, ?, ?)\",\n user_id, QUOTED[\"symbol\"], QUOTED[\"name\"], shares, QUOTED[\"price\"], QUOTED[\"price\"])\n\n # If shares have been bought before\n else:\n new_shares_total = current_shares[0][\"shares_count\"] + shares\n shares_value_total = new_shares_total * QUOTED[\"price\"]\n db.execute(\"UPDATE shares SET shares_count = ?, price = ?, total = ? WHERE user_id = ? AND symbol = ?\",\n new_shares_total, QUOTED[\"price\"], shares_value_total, user_id, QUOTED[\"symbol\"])\n\n # Redirect user to home page\n flash(\"Bought!\", \"info\")\n return redirect(\"/\")\n\n # User reached route via GET (as by clicking a link or via redirect)\n else:\n return render_template(\"buy.html\")",
"def buy():\n if request.method == \"GET\":\n return render_template(\"buy.html\")\n else:\n symbol = request.form.get(\"symbol\")\n shares = int(request.form.get(\"shares\"))\n # run lookup function\n dict_3 = lookup(symbol)\n if not dict_3:\n return apology(\"invalid symbol\")\n else:\n symbol = dict_3[\"symbol\"].upper()\n name = dict_3[\"name\"]\n price = dict_3[\"price\"]\n row_stock = db.execute(\"SELECT id FROM stocks WHERE symbol==:symbol\", symbol=symbol)\n row_cash = db.execute(\"SELECT cash FROM users WHERE id==:user_id\", user_id=session[\"user_id\"])\n new_cash = row_cash[0][\"cash\"] - (price*shares)\n if new_cash < 0:\n return apology(\"Not enough cash\")\n # Add new stock symbol to table stocks\n if not row_stock:\n db.execute(\"INSERT INTO stocks(symbol, name) VALUES(:symbol, :name)\", symbol=symbol, name=name )\n # Get id from new inserted stock\n row_stock = db.execute(\"SELECT id FROM stocks WHERE symbol==:symbol\", symbol=symbol)\n # Insert new transaction in 'history' table\n db.execute(\"INSERT INTO history(user_id, stock_id, price, shares, buy) VALUES(:user_id, :stock_id, :price, :shares, :buy)\", user_id=session[\"user_id\"], stock_id=row_stock[0][\"id\"], price=price, shares=shares, buy=1)\n # INSERT information in 'portfolio' table\n row_portfolio = db.execute(\"SELECT stock_id FROM portfolio WHERE user_id==:user_id and stock_id=:stock_id\", user_id=session[\"user_id\"], stock_id=row_stock[0][\"id\"])\n if not row_portfolio:\n db.execute(\"INSERT INTO portfolio(user_id, stock_id, shares) VALUES(:user_id, :stock_id, :shares)\", user_id=session[\"user_id\"], stock_id=row_stock[0][\"id\"], shares=shares)\n else:\n # UPDATE shares in 'portfolio' table\n shares_db = db.execute(\"SELECT shares FROM portfolio WHERE user_id==:user_id and stock_id==:stock_id\", user_id=session[\"user_id\"], stock_id=row_stock[0][\"id\"])\n if shares_db:\n new_shares = shares_db[0][\"shares\"]+shares\n db.execute(\"UPDATE portfolio SET shares==:shares WHERE user_id==:user_id and stock_id==:stock_id\", user_id=session[\"user_id\"], stock_id=row_stock[0][\"id\"], shares=new_shares)\n # Update cash in 'users' table\n db.execute(\"UPDATE users SET cash==:cash WHERE id==:user_id\", user_id=session[\"user_id\"], cash=new_cash)\n # message to be retrieved in portfolio.html when user buys stock\n flash('Bought!')\n return redirect(\"/\")"
] | [
"0.688306",
"0.63619286",
"0.6302916",
"0.62475187",
"0.62253845",
"0.6183532",
"0.6155078",
"0.61283386",
"0.6127857",
"0.6119427",
"0.610177",
"0.60882276",
"0.60569257",
"0.60507286",
"0.6028283",
"0.60277146",
"0.60111076",
"0.6001032",
"0.5991747",
"0.5989623",
"0.59850574",
"0.59547055",
"0.59484094",
"0.5945391",
"0.594233",
"0.5930393",
"0.5928245",
"0.5914662",
"0.58951944",
"0.5887669"
] | 0.7983313 | 0 |
Implementing get buy and sell deal name functionality | def get_buy_and_sell_deal_name(self):
global buy_and_sell_deal
return buy_and_sell_deal | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def set_buy_and_sell_deal_name(self, buy_and_sell_deal_prefix):\n global buy_and_sell_deal\n buy_and_sell_deal = buy_and_sell_deal_prefix + self.random_string_generator(size=4)\n self.set_value_into_input_field(self.buy_and_sell_deal_textbox_locator, buy_and_sell_deal)",
"def buy_commodity(umid, id1, val1, cur=tradeables.find_one({'baseCurrency': True})['name']):\n # todo: rework for DJango and new Classes\n currency = tradeables.find_one({'name': cur})['_id']\n valBase = tradeables.find_one({'_id': id1})['priceBase'] * val1 * -1 # todo: remove\n valCur = valBase * tradeables.find_one({'name': cur})['base2this']\n\n if val1 >= 0:\n action = 'Bought'\n else:\n action = 'Sold'\n\n trade(umid, id1, val1, currency, valCur, action)\n print()\n print(' {} {:.2f} {} for {}'.format(action, val1, id1.split('_')[1], cur))\n print(' {:<3} Unit price: {:.2f} Total: {:.2f}'.format('USD', valBase/-val1, valBase))\n print(' {:<3} Unit price: {:.2f} Total: {:.2f} <-- final'.format(cur, valCur/-val1, valCur))",
"def sell():\n return apology(\"TODO\")",
"def buy():\n lookedup = []\n if request.method == \"POST\":\n if not request.form.get(\"buy_symbol\"):\n return apology(\"Must provide stock symbol\", 403)\n shares_to_buy = request.form.get(\"buy_amount\")\n if not shares_to_buy:\n return apology(\"Must provide number of shares to buy\", 403)\n\n shares_to_buy = int(shares_to_buy)\n\n if shares_to_buy <= 0:\n return apology(\"Must provide positive number of shares to buy\", 403)\n\n else:\n lookedup = lookup(request.form.get(\"buy_symbol\"))\n\n if not lookedup:\n return apology(\"Not a stock symbol\", 403)\n\n\n current_user = session[\"user_id\"]\n user_cash = db.execute(\"SELECT cash FROM users WHERE id = :id\", id=current_user)\n\n # see if properly selecting cash amount\n if not user_cash:\n return apology(\"Didn't find user's current balance\", 000)\n\n\n current_cash = user_cash[0][\"cash\"]\n current_cash = int(current_cash)\n\n stock_name = lookedup.get(\"name\")\n stock_price = lookedup.get(\"price\")\n stock_symbol = lookedup.get(\"symbol\")\n\n total_cost = shares_to_buy * stock_price\n if current_cash < total_cost:\n return apology(\"You do not have enough money for this purchase\", 000)\n\n new_balance = current_cash - total_cost\n\n db.execute(\"UPDATE users SET cash = :new_balance WHERE id = :id\", new_balance=new_balance, id=current_user)\n\n db.execute(\"INSERT INTO purchases (id,stock_symbol,volume_purchased,price,date_purchased) VALUES(:id,:symbol,:amount,:price,datetime('now'))\", id=current_user, symbol=stock_symbol, amount=shares_to_buy, price=stock_price)\n\n check_holdings = db.execute(\"SELECT volume FROM portfolio WHERE id = :id AND stock_symbol=:stock_symbol\", id=current_user, stock_symbol=stock_symbol)\n\n if not check_holdings:\n db.execute(\"INSERT INTO portfolio (id,stock_symbol,volume) VALUES(:id,:stock_symbol,:volume)\", id=current_user, stock_symbol=stock_symbol, volume=shares_to_buy)\n else:\n old_volume = check_holdings[0][\"volume\"]\n old_volume = int(old_volume)\n new_volume = old_volume+shares_to_buy\n db.execute(\"UPDATE portfolio SET volume = :new_volume\", new_volume=new_volume)\n\n\n\n return render_template(\"bought.html\", stock_name=stock_name,stock_price=stock_price, stock_symbol=stock_symbol, shares_to_buy=shares_to_buy, total_cost= total_cost)\n\n\n\n else:\n return render_template(\"buy.html\")\n\n\n return apology(\"TODO BUY\")",
"def Trading(Seller,Buyer):\n if Seller.has_sold == False:\n if Buyer.like_buy >= Seller.like_sell:\n Seller.has_sold = True\n Buyer.has_bought = True\n Seller.sold_objects += 1\n Buyer.bought_objects += 1\n print('A trade has been made')\n else:\n Buyer.has_bought = False\n Seller.has_sold = False\n print('There was no deal')\n else:\n Buyer.has_bought = False",
"def test_get_order_items_buyer_info(self):\n pass",
"async def price(self, ctx, name):\n\t\tname = name.upper()\n\t\ttry:\n\t\t\tstock_data = await self._get_stock_data([name])\n\t\texcept ValueError as e:\n\t\t\treturn await ctx.send(e)\n\t\tif name not in stock_data:\n\t\t\tawait ctx.send(f'I couldn\\'t find any data for the stock {name}. Please try another stock.')\n\t\t\treturn\n\t\tprice = stock_data[name]['price']\n\t\treal = str(price)\n\t\treal = ('0' * (3 - max(len(real), 0))) + real\n\t\treal = '$' + real[:-2] + '.' + real[-2:]\n\t\tcurrency = await bank.get_currency_name(ctx.guild)\n\t\tawait ctx.send(f'**{name}:** {price} {currency} per share ({real}).')",
"def find_drink(self, order_name):\n for item in self.menu:\n if item.name == order_name:\n return item\n print(\"Sorry that item is not available.\")",
"def inspect_inventory(sell=False):\r\n choice = 'poop'\r\n\r\n if sell:\r\n while choice != 'done':\r\n choices = list(player.get_inventory())\r\n choices += ['done']\r\n choice = helpful.pick_item(choices,'Sell something?','done')\r\n # if choice == 'done':\r\n if str(choice) == 'mythical kumquat':\r\n raw_input(\"You can't sell your \" + str(choice) + \"!\\n\")\r\n elif choice == 'done':\r\n return\r\n else:\r\n cost = choice.get_cost()\r\n question = 'Sell your ' + str(choice) + ' for $' + str(cost) + '?'\r\n sell_yn = helpful.pick_item(['yes','no'],question)\r\n if sell_yn == 'yes':\r\n cost = choice.get_cost()\r\n player.gain_money(cost)\r\n player.drop(choice)\r\n raw_input('You sold your ' + str(choice) + '. ' + \\\r\n \"That's $\" + str(cost) + ' more in your pocket.\\n')\r\n\r\n else: #if not selling\r\n while choice != 'done':\r\n choices = list(player.get_inventory())\r\n choices += ['done']\r\n intro = 'Type item name/number for more info...\\n\\nInventory:' \r\n choice = helpful.pick_item(choices,intro,'done')\r\n if choice == 'done':\r\n return\r\n raw_input(choice.advanced_str())\r\n if choice.get_health() > 0:\r\n use_yn = helpful.pick_item(['yes','no'],'Use this item?')\r\n if use_yn == 'yes':\r\n player.use(choice)",
"async def trade(self, ctx, *args):\n if has_post_permission(ctx.guild.id, ctx.channel.id):\n if len(args) < 4:\n await ctx.send('Arguments missing. '\n 'Syntax is `~trade [name] [number] [item] [offer]`.')\n return\n\n try:\n trade = {'user1': ctx.author.id,\n 'user2': args[0],\n 'amount1': args[1],\n 'amount2': args[-1],\n 'item1': ' '.join(args[2:-1]),\n 'item2': 'coins'}\n ctx.bot.trade_manager.add_trade(ctx, trade)\n except TradeError as e:\n await ctx.send(e.msg)\n return\n\n name = args[0]\n for member in ctx.guild.members:\n if name.lower() in member.name.lower():\n name_member = member\n break\n\n offer = users.parse_int(args[-1])\n number = users.parse_int(args[1])\n itemid = items.find_by_name(' '.join(args[2:-1]))\n name = get_display_name(ctx.author)\n offer_formatted = '{:,}'.format(offer)\n out = (f'{items.SHOP_HEADER}{name.title()} wants to sell {name_member.mention} '\n f'{items.add_plural(number, itemid)} for {offer_formatted} coins. '\n f'To accept this offer, reply to this post with a :thumbsup:. '\n f'Otherwise, this offer will expire in one minute.')\n msg = await ctx.send(out)\n\n if await self.confirm(ctx, msg, out, timeout=60):\n price = {\"0\": offer}\n users.update_inventory(name_member.id, price, remove=True)\n users.update_inventory(ctx.author.id, price)\n loot = {itemid: number}\n users.update_inventory(ctx.author.id, loot, remove=True)\n users.update_inventory(name_member.id, loot)\n\n buyer_name = get_display_name(name_member)\n await ctx.send(f'{items.SHOP_HEADER}{name.title()} successfully sold '\n f'{items.add_plural(number, itemid)} to {buyer_name} for '\n f'{offer_formatted} coins!')\n ctx.bot.trade_manager.reset_trade(trade, ctx.author.id, name_member.id)",
"def test_get_order_buyer_info(self):\n pass",
"def buy_item(product_name, buy_price, expiration_date, buy_date):\r\n product_name = product_name.lower()\r\n with open('bought.csv', 'r+', newline='') as file:\r\n reader = csv.reader(file)\r\n next(reader) \r\n find_buy_id = [0]\r\n for row in reader:\r\n bought_id = int(row[0])\r\n find_buy_id.append(bought_id)\r\n bought_id = max(find_buy_id)+1\r\n if buy_date == 'today':\r\n date_bought = helper.get_date()\r\n else:\r\n date_bought = buy_date\r\n bought_item = csv.writer(file)\r\n bought_item.writerow([bought_id, product_name, date_bought, buy_price, expiration_date])",
"def get_seller_name(self, id):\n try:\n MySQLConnector().execute_query('select name from salemen where id = {0};'.format(id))\n name = MySQLConnector().get_results()[0][0]\n MySQLConnector().execute_query('select surname from salemen where id = {0};'.format(id))\n surname = MySQLConnector().get_results()[0][0]\n MySQLConnector().execute_query('select surname from salemen where id = {0};'.format(id))\n surname = MySQLConnector().get_results()[0][0]\n name_surname = name +', ' + surname\n except Error as er:\n logging.getLogger(__name__).error(\"Something went wrong with database %s\" % er)\n return name_surname",
"def buy():\n\n # User reached route via GET (as by clicking a link or via redirect)\n if request.method == \"GET\":\n return render_template(\"buy.html\")\n else:\n symbol = request.form.get(\"symbol\")\n if not symbol:\n return apology(\"must provide symbol\", 400)\n\n # Check if symbol exist in lookup(symbol)\n symbol = lookup(symbol)\n\n if not symbol :\n return apology(\"symbol doesn't exist,sorry\", 400)\n else:\n name = symbol.get(\"name\")\n price = symbol.get(\"price\")\n symbol = symbol.get(\"symbol\")\n\n # Check if shares of name is a integer\n shares = request.form.get(\"shares\")\n\n # https://www.geeksforgeeks.org/program-check-input-integer-string/\n n = len(shares)\n for i in range(n) :\n if shares[i].isdigit() != True :\n return apology(\"shares need to be a number\", 400)\n\n shares = int(shares)\n\n # if positive number\n if shares > 0:\n\n # Query database for user's cash\n cash = db.execute(\"SELECT cash FROM users WHERE id = :userID\",\n userID=session[\"user_id\"])\n\n # Get cash\n cash = cash[0][\"cash\"]\n\n # Check user if have enough money\n buyNeed = shares*price\n if cash > buyNeed:\n\n # Update csah in users TABLE\n db.execute(\"UPDATE users SET cash = :cash WHERE id = :userID\", cash=cash-buyNeed, userID=session[\"user_id\"])\n\n # Check purchase time\n now = datetime.now(timezone('Asia/Shanghai'))\n\n # Add to buy table\n db.execute(\"INSERT INTO buy (date, symbol, name, price, shares, costmoney, userID) VALUES (:date, :symbol, :name, :price, :shares, :costmoney, :userID)\",\n date=now, symbol=symbol, name=name, price=price, shares=shares, costmoney=buyNeed, userID=session[\"user_id\"])\n\n # Add to buy-sell table\n db.execute(\"INSERT INTO bs (symbol, price, shares, date, userID) VALUES (:symbol, :price, :shares, :date, :userID)\", symbol=symbol, price=usd(price), shares=shares, date=now, userID=session[\"user_id\"])\n\n # Count finally cash\n endCash=cash-buyNeed\n\n # Count total shares and costmoney by buy\n sharesTotal = db.execute(\"SELECT shares FROM buy WHERE userID = :userID and name = :name\", userID=session[\"user_id\"], name=name)\n costmoneyTotal = db.execute(\"SELECT costmoney FROM buy WHERE userID = :userID and name = :name\", userID=session[\"user_id\"], name=name)\n\n # len(sharesTotal)\n st = len(sharesTotal)\n\n # Sum shares\n sumItem = 0\n for item in range(st):\n sumItem = sharesTotal[item][\"shares\"] + sumItem\n sharesTotal_2 = sumItem\n\n # Sum cost money\n sumItem2 = 0\n for item2 in range(st):\n sumItem2 = costmoneyTotal[item2][\"costmoney\"] + sumItem2\n costmoneyTotal_2 = sumItem2\n\n\n # Ensure return total number and totalGet by sell\n sharesTotalSell = db.execute(\"SELECT shares FROM sell WHERE userID = :userID and name = :name\", userID=session[\"user_id\"], name=name)\n costmoneyTotalSell = db.execute(\"SELECT totalGet FROM sell WHERE userID = :userID and name = :name\", userID=session[\"user_id\"], name=name)\n\n # Len of sharesTotalSell\n stS = len(sharesTotalSell)\n\n # Sum of sell shares\n sumItem3 = 0\n for item3 in range(stS):\n sumItem3 = sharesTotalSell[item3][\"shares\"] + sumItem3\n\n # Buy - sell shares\n sharesTotal_2 = sharesTotal_2-sumItem3\n\n # Sum of sell totalGet\n sumItem4 = 0\n for item4 in range(stS):\n sumItem4= costmoneyTotalSell[item4][\"totalGet\"] + sumItem4\n\n # Buy -sell totalGet\n costmoneyTotal_2 = costmoneyTotal_2-sumItem4\n\n # Test if can update total though shares\n total = db.execute(\"SELECT sharesTotal FROM total WHERE userID = :userID and name = :name\", userID=session[\"user_id\"], name=name)\n\n # Insert total TABLE\n if not total:\n db.execute(\"INSERT INTO total (name, symbol, price, sharesTotal, costmoneyTotal, userID) VALUES (:name, :symbol, :price, :sharesTotal, :costmoneyTotal, :userID)\",\n name=name, symbol=symbol, price=price, sharesTotal=sharesTotal_2, costmoneyTotal=costmoneyTotal_2, userID=session[\"user_id\"])\n # Update total TABLE\n else:\n db.execute(\"UPDATE total SET sharesTotal = :sharesTotal, costmoneyTotal = :costmoneyTotal WHERE userID = :userID and name = :name\", sharesTotal=sharesTotal_2, costmoneyTotal=costmoneyTotal_2, userID=session[\"user_id\"], name=name)\n\n # SELECT all rows from total TABLE WHERE userID = session[\"user_id\"]\n total = db.execute(\"SELECT * FROM total WHERE userID = :userID\", userID=session[\"user_id\"])\n\n # Len of total\n tlen = len(total)\n\n # Get user cash\n cash = db.execute(\"SELECT cash FROM users WHERE id = :userID\",\n userID=session[\"user_id\"])\n\n cash = usd(cash[0][\"cash\"])\n\n # Change price, costmoney to usd format\n for n in range(tlen):\n total[n][\"price\"] = usd(total[n][\"price\"])\n total[n][\"costmoneyTotal\"] = usd(total[n][\"costmoneyTotal\"])\n total = list(reversed(total))\n\n # Flash\n flash(\"buy\")\n return render_template(\"buyed.html\", total=total, tlen=tlen, cash=cash)\n\n else:\n # Else cash not enough\n return apology(\"cash not enough\", 400)\n\n else:\n # Else not positive number\n return apology(\"not positive number\", 400)",
"def buy():\n if request.method == \"POST\":\n if not request.form.get(\"symbol\"):\n return apology(\"Please specify which stock to buy\", 403)\n if not request.form.get(\"nos\"):\n return apology(\"Please specify how many stocks you want to buy\", 403)\n if int(request.form.get(\"nos\")) < 1:\n return apology(\"Please input a positive integer\", 403)\n if request.form.get(\"nos\").isnumeric() != True:\n return apology(\"Please input a positive integer\", 403)\n symbol = request.form.get(\"symbol\")\n if not lookup(symbol):\n return apology(\"Invalid symbol\", 403)\n cost = (lookup(symbol)[\"price\"]) * int(request.form.get(\"nos\"))\n bro = db.execute(\"SELECT cash FROM users WHERE id = ?\", session[\"user_id\"])\n money = bro[0][\"cash\"]\n if cost > money:\n return apology(\"Cannot afford\", 400)\n money = money - cost\n bef = db.execute(\"SELECT COUNT (?) FROM ind WHERE user_id = ?\", lookup(symbol)[\"symbol\"], session[\"user_id\"])\n if len(bef):\n tot = 0\n nob = 0\n tota = cost\n\n else:\n tot = db.execute(\"SELECT total FROM ind where symbol = ?\", lookup(symbol)[\"symbol\"])\n no = db.execute(\"SELECT nos FROM ind where symbol = ?\", lookup(symbol)[\"symbol\"])\n nob = no[0][\"nos\"]\n tota = tot[0][\"total\"] - cost\n\n\n\n\n nos = int(request.form.get(\"nos\"))\n db.execute(\"UPDATE users SET cash = ? WHERE id = ?\", money, session[\"user_id\"])\n db.execute(\"CREATE TABLE IF NOT EXISTS buys (user_id INTEGER NOT NULL, symbol TEXT NOT NULL, name TEXT NOT NULL, price NUMERIC NOT NULL, nos INTEGER NOT NULL, cost NUMERIC NOT NULL, time datetime NOT NULL, FOREIGN KEY(user_id) REFERENCES users(id))\")\n db.execute(\"INSERT INTO hist(user_id, typ, symbol, name, price, nos, cost, time) VALUES (:user_id, :typ, :symbol, :name, :price, :nos, :cost, :time)\", user_id = session[\"user_id\"], typ = \"BOUGHT\", symbol = lookup(symbol)[\"symbol\"], name = lookup(symbol)[\"name\"], price = lookup(symbol)[\"price\"], nos = nos, cost = cost, time = datetime.datetime.now())\n db.execute(\"INSERT INTO buys(user_id, symbol, name, price, nos, cost, time) VALUES (:user_id, :symbol, :name, :price, :nos, :cost, :time)\", user_id = session[\"user_id\"], symbol = lookup(symbol)[\"symbol\"], name = lookup(symbol)[\"name\"], price = lookup(symbol)[\"price\"], nos = nos, cost = cost, time = datetime.datetime.now())\n bef = db.execute(\"SELECT symbol FROM ind WHERE symbol=:symbol AND user_id=:id\", symbol=lookup(symbol)[\"symbol\"], id=session[\"user_id\"])\n\n # add to portfolio database\n # if symbol is new, add to portfolio\n if not bef:\n db.execute(\"INSERT INTO ind (symbol, name, nos, user_id, price, total) VALUES (:symbol, :name, :nos, :id, :price, :total)\",\n name = lookup(symbol)[\"name\"], symbol=lookup(symbol)[\"symbol\"], nos=int(request.form.get(\"nos\")), id = session[\"user_id\"], price = lookup(symbol)[\"price\"], total = cost)\n\n # if symbol is already in portfolio, update quantity of shares and total\n else:\n db.execute(\"UPDATE ind SET nos=nos+:nos WHERE symbol=:symbol AND user_id=:id\",\n nos=int(request.form.get(\"nos\")), symbol=lookup(symbol)[\"symbol\"], id = session[\"user_id\"]);\n return redirect(\"/\")\n\n\n else:\n return render_template(\"buy.html\")",
"def sell():\n return apology(\"TODO\")\n if request.method == \"POST\":\n # Ensure symbol was submitted\n symbol = request.form.get(\"symbol\")\n if not symbol:\n return apology(\"must provide symbol\", 403)\n symbol = symbol.upper()\n\n # Ensure number of shares was submitted\n shares = request.form.get(\"shares\")\n if not shares:\n return apology(\"must provide shares\", 403)\n\n return render_template(\"sell.html\")",
"async def buy(self, ctx, name, shares: int):\n\t\tplural = 's' if shares != 1 else ''\n\t\tcurrency = await bank.get_currency_name(ctx.guild)\n\t\tif shares < 1:\n\t\t\tawait ctx.send('You cannot buy less than one share.')\n\t\t\treturn\n\t\tname = name.upper()\n\t\ttry:\n\t\t\tstock_data = await self._get_stock_data([name])\n\t\texcept ValueError as e:\n\t\t\treturn await ctx.send(e)\n\t\tif name not in stock_data:\n\t\t\tawait ctx.send(f'I couldn\\'t find any data for the stock {name}. Please try another stock.')\n\t\t\treturn\n\t\tprice = stock_data[name]['price']\n\t\ttry:\n\t\t\tbal = await bank.withdraw_credits(ctx.author, shares * price)\n\t\texcept ValueError:\n\t\t\tbal = await bank.get_balance(ctx.author)\n\t\t\tawait ctx.send(\n\t\t\t\tf'You cannot afford {shares} share{plural} of {name}. '\n\t\t\t\tf'It would cost {price * shares} {currency} ({price} {currency} each). '\n\t\t\t\tf'You only have {bal} {currency}.'\n\t\t\t)\n\t\t\treturn\n\t\tasync with self.config.user(ctx.author).stocks() as user_stocks:\n\t\t\tif name in user_stocks:\n\t\t\t\tuser_stocks[name]['count'] += shares\n\t\t\telse:\n\t\t\t\tuser_stocks[name] = {'count': shares, 'total_count': stock_data[name]['total_count']}\n\t\tawait ctx.send(\n\t\t\tf'You purchased {shares} share{plural} of {name} for {price * shares} {currency} '\n\t\t\tf'({price} {currency} each).\\nYou now have {bal} {currency}.'\n\t\t)",
"def purchase(self, item_type):",
"def sell():\n if request.method == \"POST\":\n bef = db.execute(\"SELECT symbol FROM ind WHERE user_id = ?\", session[\"user_id\"])\n if not request.form.get(\"symbol\"):\n return apology(\"Please specify which valid stock to sell\", 403)\n symbol = request.form.get(\"symbol\")\n p = db.execute(\"SELECT COUNT(symbol) FROM ind WHERE user_id = ?\", session[\"user_id\"])\n q = 0\n\n for i in range(int(p[0][\"COUNT(symbol)\"])):\n if symbol == bef[i][\"symbol\"]:\n q = 1\n if q == 0:\n return apology(\"Please specify which valid stock to sell\", 403)\n if not request.form.get(\"shares\"):\n return apology(\"Please specify how many stocks you want to sell\", 403)\n if int(request.form.get(\"shares\")) < 1:\n return apology(\"Please input a positive integer\", 403)\n if request.form.get(\"shares\").isnumeric() != True:\n return apology(\"Please input a positive integer\", 403)\n hav = db.execute(\"SELECT nos FROM ind WHERE symbol = ? AND user_id = ?\", request.form.get(\"symbol\"), session[\"user_id\"])\n if int(hav[0][\"nos\"]) < int(request.form.get(\"shares\")):\n return apology(\"You do not own that many shares\", 403)\n shares = int(request.form.get(\"shares\"))\n db.execute(\"CREATE TABLE IF NOT EXISTS sells (user_id INTEGER NOT NULL, symbol TEXT NOT NULL, name TEXT NOT NULL, price NUMERIC NOT NULL, shares INTEGER NOT NULL, cost NUMERIC NOT NULL, time datetime NOT NULL, FOREIGN KEY(user_id) REFERENCES users(id))\")\n bro = db.execute(\"SELECT cash FROM users WHERE id = ?\", session[\"user_id\"])\n cost = (lookup(symbol)[\"price\"]) * int(request.form.get(\"shares\"))\n money = bro[0][\"cash\"]\n money = money + cost\n db.execute(\"UPDATE users SET cash = ? WHERE id = ?\", money, session[\"user_id\"])\n db.execute(\"INSERT INTO sells(user_id, symbol, name, price, shares, cost, time) VALUES (:user_id, :symbol, :name, :price, :shares, :cost, :time)\", user_id = session[\"user_id\"], symbol = lookup(symbol)[\"symbol\"], name = lookup(symbol)[\"name\"], price = lookup(symbol)[\"price\"], shares = shares, cost = cost, time = datetime.datetime.now())\n db.execute(\"INSERT INTO hist(user_id, typ, symbol, name, price, nos, cost, time) VALUES (:user_id, :typ, :symbol, :name, :price, :nos, :cost, :time)\", user_id = session[\"user_id\"], typ = \"SOLD\", symbol = lookup(symbol)[\"symbol\"], name = lookup(symbol)[\"name\"], price = lookup(symbol)[\"price\"], nos = shares, cost = cost, time = datetime.datetime.now())\n\n db.execute(\"UPDATE ind SET nos = ? WHERE symbol = ? AND user_id = ?\", int(hav[0][\"nos\"]) - shares, request.form.get(\"symbol\"), session[\"user_id\"])\n hav = db.execute(\"SELECT nos FROM ind WHERE symbol = ? AND user_id = ?\", request.form.get(\"symbol\"), session[\"user_id\"])\n if int(hav[0][\"nos\"]) == 0:\n db.execute(\"DELETE FROM ind WHERE symbol = ? AND user_id = ?\", request.form.get(\"symbol\"), session[\"user_id\"])\n return redirect(\"/\")\n\n else:\n stocks = db.execute(\"SELECT * FROM ind WHERE user_id = ?\", session[\"user_id\"])\n\n return render_template(\"sell.html\", stocks = stocks)",
"def get_put_data(stock_name, expire_time, strike_price):\n date = time.mktime(datetime.datetime.strptime(expire_time, \"%d/%m/%Y\").timetuple())+(16*3600)\n url = 'https://finance.yahoo.com/quote/'+stock_name+'/options?date='+str(int(date))+'&p='+stock_name\n print(url)\n response = requests.get(url)\n soup = BeautifulSoup(response.text, \"html.parser\")\n values = soup.findAll(\"table\")[1].findAll(\"td\")\n\n for i in range(2,len(values),11):\n x = float(str(values[i].contents[0].contents[0]))\n if x == float(strike_price):\n option_link = 'https://finance.yahoo.com/'+str(values[i-2].contents[0])[61:109]\n bid = float(values[i+2].contents[0])\n ask = float(values[i+3].contents[0])\n return bid, ask",
"def processMarketTransaction(self, buyOrder, sellOrder, resolvedPrice):\n try:\n buyOrderAmountLeft = buyOrder.amount - buyOrder.amountUsed\n sellOrderAmountLeft = sellOrder.amount - sellOrder.amountUsed\n myMarketStat = self.marketStats[str(self.currentRound)]\n # go through transaction rules\n if sellOrderAmountLeft == 0:\n return '(%s)seller:%s out of Resources' % (buyOrder.value, sellOrder.id)\n if buyOrder.amountUsed == buyOrder.amount:\n return '(%s)buyer:%s Already has completed transaction' % (buyOrder.value, buyOrder.id)\n elif buyOrderAmountLeft > sellOrderAmountLeft and buyOrder.type == 'buy-all':\n return '(%s)buyer:%s wants to buy all-or-none, buy=%d, sell=%d' % (buyOrder.value, buyOrder.id, buyOrder.amount, sellOrder.amount)\n elif buyOrder.type == 'buy-any' or buyOrderAmountLeft <= sellOrderAmountLeft:\n if resolvedPrice >= sellOrder.min and resolvedPrice <= buyOrder.max:\n # process Transaction\n buySystem = self.systems[buyOrder.system]\n sellSystem = self.systems[sellOrder.system]\n # determine amount to transact\n if sellOrderAmountLeft >= buyOrderAmountLeft:\n actualAmount = buyOrderAmountLeft\n else:\n actualAmount = sellOrderAmountLeft\n # store data for galactic market records\n setattr(myMarketStat, 'sumSold%s' % buyOrder.value, getattr(myMarketStat, 'sumSold%s' % buyOrder.value) + (actualAmount*resolvedPrice))\n setattr(myMarketStat, 'volSold%s' % buyOrder.value, getattr(myMarketStat, 'volSold%s' % buyOrder.value) + actualAmount)\n # remove amount from orders\n buyOrder.amountUsed += actualAmount\n sellOrder.amountUsed += actualAmount\n # calculate credits and refund\n credits = actualAmount * resolvedPrice\n refund = (buyOrder.max-resolvedPrice)*actualAmount\n # give credits to seller\n sellSystem.payResources(-credits,0,0,0)\n # give resource and refund to buyer\n buySystem.payResources(-refund,0,0,0)\n buySystem.modifyResource(buyOrder.value, actualAmount)\n # mail Empires result\n sellSystem.myEmpire.genMail({'fromEmpire':sellSystem.myEmpire.id, 'round':self.currentRound+1, \n 'messageType':'market', 'subject':'(%s) - Resource:%s - SOLD: (%d units at %d)' % (sellSystem.name, sellOrder.value, actualAmount, resolvedPrice),\n 'body':['Remaining Unsold %s from this Order:%d' % (sellOrder.value, sellOrder.amount-sellOrder.amountUsed)]})\n buySystem.myEmpire.genMail({'fromEmpire':buySystem.myEmpire.id, 'round':self.currentRound+1, \n 'messageType':'market', 'subject':'(%s) - Resource:%s - BOUGHT: (%d units at %d)' % (buySystem.name, buyOrder.value, actualAmount, resolvedPrice),\n 'body':['Remaining Unbought %s from this Order:%d' % (buyOrder.value, buyOrder.amount-buyOrder.amountUsed)]})\n\n return 'transaction completed: %s SOLD %d %s to %s for %d price' % (sellSystem.name, actualAmount, sellOrder.value, buySystem.name, resolvedPrice)\n else:\n return '(%s)resolved price=%d, not in range, seller=%s, buyer=%s' % (buyOrder.value, resolvedPrice, sellOrder.id, buyOrder.id)\n else:\n return 'unknown order type'\n\n except:\n return 'galaxy->processMarketTransaction error'",
"def buy_or_sell(stock):\n if upper_bound(stock)>lower_bound(stock):\n output=print('Buy')\n elif upper_bound(stock)==lower_bound(stock):\n output=print('Hold')\n elif upper_bound(stock)<lower_bound(stock):\n output=print('Sell')\n return output",
"def buy():\n if request.method == \"GET\":\n return render_template(\"buy.html\")\n else:\n stock = lookup(request.form.get(\"symbol\"))\n\n if stock == None:\n return apology(\"Symbol not found. Please re-check the symbol and try again!\")\n\n shares = int(request.form.get(\"shares\"))\n if not shares or int(shares) <= 0:\n return apology(\"Invalid shares. Please re-check and try again!\")\n\n company_name = stock[\"name\"]\n price = float(stock[\"price\"])\n symbol = stock[\"symbol\"]\n userid = session[\"user_id\"]\n available_cash = (db.execute(\"SELECT cash FROM users WHERE id=:id\", id = userid))[0].get(\"cash\")\n total = shares*price\n if total > available_cash:\n return apology(\"Sorry! You do not have sufficient balance\")\n else:\n check = (db.execute(\"SELECT symbol FROM purchase WHERE symbol=:symbol AND id=:uid\", symbol=symbol, uid=userid))\n dt = datetime.now(timezone(timedelta(hours=6)))\n dt = dt.strftime(\"%d-%m-%Y %H:%M:%S\")\n db.execute(\"INSERT INTO history (id, symbol, shares, price, time) VALUES (:userid, :symbol, :shares, :price, :time)\", userid=userid, symbol=symbol,shares=shares,price=price, time=dt)\n db.execute(\"UPDATE users SET cash=:cash WHERE id=:uid\", cash=available_cash-shares*price, uid=userid)\n\n # check = (db.execute(\"SELECT symbol FROM history WHERE symbol=:symbol\", symbol=symbol))[0].get(\"symbol\")\n print(len(check))\n if len(check) == 0:\n db.execute(\"INSERT INTO purchase (id, symbol, name, shares) VALUES (:userid, :symbol, :name, :shares)\", userid=userid, symbol=symbol, name=company_name, shares=shares)\n else:\n exshares = int((db.execute(\"SELECT shares FROM purchase WHERE symbol=:symbol AND id=:uid\", symbol=symbol,uid=userid))[0].get(\"shares\"))\n # print(exshares+\" \"+type(exshares))\n extotal = float((db.execute(\"SELECT total FROM purchase WHERE symbol=:symbol AND id=:uid\", symbol=symbol,uid=userid))[0].get(\"total\"))\n db.execute(\"UPDATE purchase SET shares=:newshares WHERE symbol=:symbol AND id=:uid\", newshares=shares+exshares, symbol=symbol, uid=userid)\n return render_template(\"bought.html\", company_name=company_name, shares=shares, symbol=symbol, usd=usd(shares*price), balance=usd(available_cash-shares*price))",
"def buy():\n if request.method == \"POST\":\n # Ensures symbol was submitted\n if not request.form.get(\"symbol\"):\n return apology(\"Must provide symbol\", 400)\n # Ensures shares was submitted\n if not request.form.get(\"shares\"):\n return apology(\"Must provide amount of shares\", 400)\n # Ensures what is inputed for shares is numeric\n if not request.form.get(\"shares\").isdigit():\n return apology(\"Must provide a valid amount of shares\", 400)\n\n # Sets quote to the information about symbol inputed by user\n quote = lookup(request.form.get(\"symbol\"))\n # Ensures symbol is a valid symbol that has a quote\n if not quote:\n return apology(\"Symbol invalid\", 400)\n # Cost of stock\n cost = quote[\"price\"]\n # Symbol of stock\n symbol = quote[\"symbol\"]\n # Name of stock\n name = quote[\"name\"]\n # Finds the amount of money user has to spend on stocks\n amount = db.execute(\"SELECT cash FROM users WHERE id = :userid\", userid=session[\"user_id\"])\n # The virst value in the array is the amount of money user can spend\n money = amount[0][\"cash\"]\n # Total amount of money needed to buy the amount and type of stock user has inputed\n total = float(request.form.get(\"shares\")) * cost\n # If user is able to afford the stock(s), update the cash colomn and add info to portfolio table\n if money >= total:\n # Remaining is the amount of cash a user has left after buying the stock\n remaining = money - total\n # Inserts amount remaining into the cash field\n db.execute(\"UPDATE users SET cash = ':remaining' WHERE id=:userid\", remaining=remaining, userid=session[\"user_id\"])\n # Logs stock transaction in portfolio\n db.execute(\"INSERT INTO portfolio (userid, symbol, price, shares, TOTAL, transacted, name) VALUES(:userid, :symbol, :price, :shares, :TOTAL, :transacted, :name)\",\n userid=session[\"user_id\"], symbol=symbol, price=cost, shares=request.form.get(\"shares\"), TOTAL=total, transacted=datetime.datetime.now(), name=name)\n\n # If user cannot afford stock(s), return apology\n else:\n return apology(\"You do not have enough money\", 400)\n\n # Return back to index page\n return redirect(\"/\")\n\n # User reached route via GET (as by clicking a link or via redirect)\n else:\n return render_template(\"buy.html\")",
"def handlenames():\n\n while True:\n name = input(\"Please enter full name or list> \")\n if name == \"\":\n print(\"Please enter valid name.\\n\")\n elif name == \"list\":\n printdonorlist()\n break\n elif name in donor_db:\n getdonationamount(name)\n printthankyou(name)\n break\n else:\n addnewdonordonation(name)\n getdonationamount(name)\n printthankyou(name)\n break",
"def before_trading_start(context, data):\n pipe_bbands = algo.pipeline_output('pipe_bbands') \n\n # Find list of symbols to buy/sell.\n context.buy = pipe_bbands[pipe_bbands['buy']].index.tolist()\n context.sell = pipe_bbands[pipe_bbands['sell']].index.tolist()",
"def field_buy(self, symbol):\r\n\r\n end_percent = 150\r\n current_price = 15#self.get_price()\r\n self.log(current_price)\r\n buys = {}\r\n new_price = current_price * 1.05\r\n while (new_price / current_price) > 150:\r\n self.log(\"New sell at: {}\".format(new_price))\r\n new_price *= 1.05\r\n\r\n self.log(buys)\r\n\r\n return buys",
"def deal_demo():\n deck = get_deck()\n print(hand_to_string(deck))\n print(hand_to_string(get_hand(deck)))\n print(hand_to_string(get_hand(deck)))",
"def after_purchase():\n\n return [\"MCAR\", \"MD\", \"NI\", \"MAR\",\"MAR\"]",
"def names_and_prices():\n # Just an example\n cg = CoinGeckoAPI()\n data = cg.get_price(ids='bitcoin,ethereum', vs_currencies='usd,eur')\n # Flatten\n names = list()\n prices = list()\n for coin, fx in data.items():\n for currency, price in fx.items():\n name = coin+'_'+currency\n names.append(name)\n prices.append(price)\n\n return names, prices"
] | [
"0.6696783",
"0.6224842",
"0.61127037",
"0.5885977",
"0.58507454",
"0.5779713",
"0.5724441",
"0.57045215",
"0.56503594",
"0.562514",
"0.5597653",
"0.5589393",
"0.5585691",
"0.553237",
"0.5506362",
"0.5504986",
"0.5480954",
"0.5470787",
"0.54650915",
"0.5447669",
"0.5447065",
"0.5404992",
"0.5404937",
"0.53928626",
"0.53788334",
"0.5374137",
"0.5365425",
"0.5362965",
"0.53595686",
"0.53335476"
] | 0.8101306 | 0 |
Implementing click buy and sell deal save button functionality | def click_buy_and_sell_deal_save_button(self):
self.click_element(self.save_vendor_profile_locator, True)
try:
self.wait().until(EC.visibility_of_element_located(self.confirmation_popup_locator), 'confirmation popup locator not found before specified time out')
self.click_element(self.ok_button_locator, True)
except:
raise | {
"objective": {
"self": [],
"paired": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
} | [
"def click_buy_and_sell_deal_create_button(self):\n self.click_element(self.save_vendor_profile_locator)",
"def click_buy_and_sell_deal_bulk_edit_button(self):\n self.click_element(self.buy_and_sell_deal_bulk_edit_button_lcoator, True)",
"def sell():\n\n # if user reached route via GET return them an input form\n if request.method == \"GET\":\n return render_template(\"sell.html\")\n\n # if user reached route via POST (as by submitting a form via POST)\n elif request.method == \"POST\":\n\n # get id as it is used many times\n id = session[\"user_id\"]\n\n # get symbol input\n symbol = request.form.get(\"symbol\")\n\n # get share volume requested\n volume = int(request.form.get(\"volume\"))\n\n # ensure stock symbol was submitted\n if not symbol:\n return apology(\"you must provide a stock symbol\")\n\n # ensure positive volume (integer rule handled elsewhere)\n elif volume <= 0:\n return apology(\"volume must be integer greater than 0\")\n\n # lookup stock on yahoo\n stock_info = lookup(symbol)\n\n # if error looking stock up\n if not stock_info:\n return apology(\"that stock symbol doesn't exist\")\n\n # check if user already owns any stock in this company\n existing = db.execute(\"SELECT num_shares FROM portfolio WHERE id = :id AND symbol = :symbol\", id=id, symbol=symbol)\n\n # if sufficient cash, make purchase, else return apology\n if not existing:\n return apology(\"you don't own this stock\")\n else:\n if existing[0]['num_shares'] < volume:\n return apology('you cannot sell more shares than you own')\n else:\n # query database for\n cash = db.execute(\"SELECT cash FROM users WHERE id = :id\", id=id)\n cash = cash[0]['cash']\n\n minus = db.execute(\"UPDATE portfolio SET num_shares = :num_shares WHERE id = :id AND symbol = :symbol\", num_shares=existing[0]['num_shares'] - volume, id=id, symbol=symbol)\n\n # set date string\n dstring = str(datetime.datetime.utcnow())\n\n # update transaction history\n result2 = db.execute(\"INSERT INTO `transaction` (id, symbol, volume, share_price, dtstamp) VALUES(:id, :symbol, :volume, :share_price, :dtstamp)\", id=id, symbol=symbol, volume=-volume, share_price=stock_info['price'], dtstamp=dstring)\n\n # calculate sale price\n sale_price = stock_info['price'] * volume\n\n # increase cash balance\n result = db.execute(\"UPDATE users SET cash = :cash WHERE id = :id\", cash=cash+sale_price, id=id)\n\n # redirect user to home page\n return redirect(url_for(\"index\"))",
"def buy():\n if request.method == \"POST\":\n\n # Ensure symbol was submitted\n if not request.form.get(\"symbol\"):\n return apology(\"must provide symbol\", 400)\n\n # Ensure shares was submitted\n elif not request.form.get(\"shares\"):\n return apology(\"must provide shares\", 400)\n\n if not request.form.get(\"shares\").isdigit():\n return apology(\"must be integer\",400)\n\n elif int(request.form.get(\"shares\"))<1 :\n return apology(\"must be positive integer\", 400)\n\n elif lookup(request.form.get(\"symbol\"))==None:\n return apology(\"Must be a valid symbol\",400)\n\n #ensure money>price\n quote=lookup(request.form.get(\"symbol\"))\n shares=request.form.get(\"shares\")\n cash=db.execute(\"SELECT cash FROM users WHERE id=?\",session[\"user_id\"])\n if cash[0][\"cash\"]<int(quote[\"price\"])*int(shares):\n return apology(\"You can't affort this/these\",400)\n\n #BUY, STORE DATA IN REPOSITORY AND RECORD\n\n #record this transaction\n db.execute(\"INSERT INTO record(userID,transactions,symbol,price,t1) VALUES(?,?,?,?,strftime('%Y-%m-%d %H:%M:%S','now'))\",session[\"user_id\"],int(shares),quote[\"symbol\"],float(quote[\"price\"]))\n\n #deduct the cash\n total=int(quote[\"price\"])*int(shares)\n db.execute(\"UPDATE users SET cash=cash- (?) WHERE id=?\",total,session[\"user_id\"])\n\n return redirect(\"/\")\n\n else:\n return render_template(\"buy.html\")",
"def sell():\n\n if request.method == \"POST\":\n symbol = request.form.get(\"symbol\")\n if not symbol:\n return apology(\"Must enter a symbol\", 400)\n num_shares = request.form.get(\"shares\")\n if not num_shares:\n return apology(\"Must enter some number of shares to sell\", 400)\n company_quote = lookup(symbol)\n if company_quote == None:\n return apology(\"Invalid Symbol\", 400)\n num_shares = int(num_shares)\n if num_shares <= 0:\n return apology(\"Must enter a positve number of shares to sell\", 400)\n\n rows = db.execute(\"SELECT id, symbol, numshares FROM totalshares WHERE id = :id AND symbol = :symbol\",\n id=session[\"user_id\"], symbol=company_quote[\"symbol\"])\n if len(rows) != 1:\n return apology(\"You do not have shares of \" + symbol, 400)\n if num_shares > rows[0][\"numshares\"]:\n return apology(\"You cannot sell more shares than you have\", 400)\n\n sale_value = num_shares * company_quote[\"price\"]\n\n balance = db.execute(\"SELECT cash FROM users WHERE id = :id\",\n id=session['user_id'])\n balance = balance[0][\"cash\"]\n new_balance = balance + sale_value\n date_time = datetime.now().strftime(\"%d/%m/%Y %H:%M:%S\")\n # Update history in history table\n return_val = db.execute(\"INSERT INTO 'history' (id, symbol, shares, price, transacted) VALUES (:id, :symbol, :shares, :price, :transacted)\",\n id=session[\"user_id\"], symbol=company_quote[\"symbol\"], shares=num_shares*-1, price=company_quote[\"price\"], transacted = date_time)\n if return_val == None:\n return apology(\"something went wrong\", 403)\n\n #Update total number and value of each shares (symbol) held in totalshares table\n rows = db.execute(\"SELECT id, symbol, numshares, totalvalue FROM totalshares WHERE id = :id AND symbol = :symbol\",\n id=session[\"user_id\"], symbol=company_quote[\"symbol\"])\n new_numshares = rows[0][\"numshares\"] - num_shares\n new_totalvalue = rows[0][\"totalvalue\"] - sale_value\n return_val = db.execute(\"UPDATE totalshares SET numshares = :new_numshares, totalvalue = :new_totalvalue WHERE id = :id AND symbol = :symbol\",\n new_numshares=new_numshares, new_totalvalue=new_totalvalue, id=session[\"user_id\"], symbol=company_quote[\"symbol\"])\n if return_val == None:\n return apology(\"something went wrong\", 403)\n\n #Update balance in users table\n return_val = db.execute(\"UPDATE users SET cash = :cash WHERE id = :id\", cash=new_balance, id=session[\"user_id\"])\n if return_val != None:\n return redirect(\"/\")\n else:\n return apology(\"something went wrong\", 403)\n else:\n rows = db.execute(\"SELECT symbol, numshares FROM totalshares WHERE id = :id\", id=session[\"user_id\"])\n symbol_options = []\n if rows != None and len(rows) > 0:\n for row in rows:\n if row[\"numshares\"] > 0:\n symbol_options.append(row[\"symbol\"])\n return render_template(\"sell.html\", symbol_options=symbol_options)",
"def buy():\n\n # if user reached route via GET return them an input form\n if request.method == \"GET\":\n return render_template(\"buy.html\")\n\n # if user reached route via POST (as by submitting a form via POST)\n elif request.method == \"POST\":\n\n # get id as it is used many times\n id = session[\"user_id\"]\n\n # get symbol as it is used many times\n symbol = request.form.get(\"symbol\")\n\n # get share volume requested\n volume = int(request.form.get(\"volume\"))\n\n # ensure stock symbol was submitted\n if not symbol:\n return apology(\"you must provide a stock symbol\")\n\n # ensure positive volume (integer rule handled elsewhere)\n elif volume <= 0:\n return apology(\"volume must be integer greater than 0\")\n\n # lookup stock on yahoo\n stock_info = lookup(symbol)\n\n # if error looking stock up\n if not stock_info:\n return apology(\"that stock symbol doesn't exist\")\n\n # query database for cash balance\n cash = db.execute(\"SELECT cash FROM users WHERE id = :id\", id=id)\n cash = cash[0]['cash']\n\n # cost of requested shares\n purchase_cost = volume * stock_info['price']\n\n # if sufficient cash, make purchase, else return apology\n if purchase_cost <= cash:\n\n # check if user already owns any stock in this company\n existing = db.execute(\"SELECT num_shares FROM portfolio WHERE id = :id AND symbol = :symbol\", id=id, symbol=symbol)\n\n # if no existing shares, add them\n if not existing:\n new = db.execute(\"INSERT INTO portfolio (id, symbol, num_shares) VALUES(:id, :symbol, :num_shares)\", id=id, symbol=symbol, num_shares=volume)\n\n # if there are existing shares, add new volume to them\n else:\n add = db.execute(\"UPDATE portfolio SET num_shares = :num_shares WHERE id = :id AND symbol = :symbol\", num_shares=existing[0]['num_shares'] + volume, id=id, symbol=symbol)\n\n # set date string\n dstring = time(str(datetime.datetime.utcnow()))\n\n # update transaction history\n result2 = db.execute(\"INSERT INTO `transaction` (id, symbol, volume, share_price, dtstamp) VALUES(:id, :symbol, :volume, :share_price, :dtstamp)\", id=id, symbol=symbol, volume=volume, share_price=stock_info['price'], dtstamp=dstring)\n\n # reduce cash balance\n result = db.execute(\"UPDATE users SET cash = :cash WHERE id = :id\", cash=cash-purchase_cost, id=id)\n\n # redirect user to home page\n return redirect(url_for(\"index\"))\n else:\n return apology(\"insufficient funds\")",
"def save_change(self):\n try:\n income = abs(float(self.listOfIncomeSEK.item(1).text()))\n fixed_expenses = {\n \"rent\": abs(float(self.listOfExpensesSEK.item(4).text())),\n \"subscription\": abs(float(self.listOfExpensesSEK.item(2).text())),\n \"insurance\": abs(float(self.listOfExpensesSEK.item(3).text())),\n \"others\": abs(float(self.listOfExpensesSEK.item(5).text()))\n }\n variable_expenses = {\n \"food\": abs(float(self.listOfExpensesSEK.item(11).text())),\n \"bills\": abs(float(self.listOfExpensesSEK.item(12).text())),\n \"transportation\": abs(float(self.listOfExpensesSEK.item(13).text())),\n \"hygien\": abs(float(self.listOfExpensesSEK.item(14).text())),\n \"clothes\": abs(float(self.listOfExpensesSEK.item(15).text())),\n \"entertainment\": abs(float(self.listOfExpensesSEK.item(16).text())),\n \"others\": abs(float(self.listOfExpensesSEK.item(17).text()))\n }\n self.customer.budget.set_budget(income, variable_expenses, fixed_expenses)\n DB.set_variable_expenses(self.customer.email, variable_expenses)\n DB.set_fixed_expenses(self.customer.email, fixed_expenses)\n DB.not_new_customer(self.customer.email)\n DB.update_income(income, self.customer.email)\n\n self.displayUi = MenuScreen()\n self.hide()\n self.displayUi.show()\n except Exception:\n self.popUp.exec_()",
"def sell():\n if request.method == \"POST\":\n symbol = request.form.get('symbol')\n shares = request.form.get('shares')\n\n if not symbol or not shares or symbol == \"Select Stock\":\n return apology(\"Please input a valid symbol and number of shares\")\n elif int(shares) <= 0:\n return apology(\"Please input a positive number for shares\")\n else:\n symbol = symbol.lower()\n shares = int(shares)\n get_cur_shares = db.execute(\n \"SELECT SUM(shares) FROM History WHERE id = :id AND symbol = :symbol GROUP BY symbol\", id=session['user_id'], symbol=symbol)\n try:\n cur_shares = [share['SUM(shares)'] for share in get_cur_shares][0]\n except IndexError:\n return apology(\"Please input a valid number of shares\")\n if shares > cur_shares:\n return apology(\"Sorry, you don't have enough shares to sell\")\n else:\n cur_price = float(lookup(symbol)['price'])\n sell_val = cur_price * float(shares)\n sell_val = float(sell_val)\n get_bal = db.execute(\"SELECT cash FROM users WHERE id = :id\", id=session['user_id'])\n balance = [bal['cash'] for bal in get_bal][0]\n balance = float(balance)\n new_balance = balance + sell_val\n company = lookup(symbol)['name']\n new_database_balance = db.execute(\"UPDATE users SET cash = :cash WHERE id = :id\",\n cash=new_balance, id=session['user_id'])\n new_database_transaction = db.execute(\"INSERT INTO History ('symbol', 'company', 'shares', 'price', 'totalprice', 'id', 'transaction_type') VALUES (:symbol, :company, :shares, :price, :totalprice, :id, :transaction_type)\",\n symbol=symbol, company=company, shares=-shares, price=cur_price,\n totalprice=sell_val, id=session['user_id'], transaction_type=\"SELL\")\n return redirect(\"/\")\n else:\n get_symbols = db.execute(\n \"SELECT symbol FROM History WHERE id = :id GROUP BY symbol HAVING SUM(shares) > 0\", id=session['user_id'])\n if not get_symbols:\n return apology(\"Sorry, could not find valid symbol\")\n else:\n symbols = [symbol['symbol'] for symbol in get_symbols]\n return render_template(\"sell.html\", symbols=symbols)",
"def click_save_edited_target_buy_policy_button(self):\n self.click_element(self.save_edited_target_buy_policy_button_locator)\n self.click_element(self.confirmation_popup_locator, error_message='success message locator not found before specified time out')\n self.click_element(self.ok_button_locator, error_message='ok button locator not found before specified time out')\n self.wait_for_ajax_spinner_load()",
"def buy():\n if request.method == \"POST\":\n symbol = request.form.get(\"symbol\")\n if not symbol:\n return apology(\"Must enter a symbol\", 400)\n num_shares = request.form.get(\"shares\")\n if not num_shares:\n return apology(\"Must enter some number of shares to buy\", 400)\n company_quote = lookup(symbol)\n if company_quote == None:\n return apology(\"Invalid Symbol\", 400)\n num_shares = int(num_shares)\n if num_shares <= 0:\n return apology(\"Must enter a positve number of shares to buy\", 400)\n balance = db.execute(\"SELECT cash FROM users WHERE id = :id\",\n id=session['user_id'])\n balance = balance[0][\"cash\"]\n cost = num_shares * company_quote[\"price\"]\n if balance < cost:\n return apology(\"Insufficient cash\", 400)\n else:\n new_balance = balance - cost\n date_time = datetime.now().strftime(\"%d/%m/%Y %H:%M:%S\")\n # Update history in history table\n return_val = db.execute(\"INSERT INTO 'history' (id, symbol, shares, price, transacted) VALUES (:id, :symbol, :shares, :price, :transacted)\",\n id=session[\"user_id\"], symbol=company_quote[\"symbol\"], shares=num_shares, price=company_quote[\"price\"], transacted = date_time)\n if return_val == None:\n return apology(\"something went wrong\", 403)\n\n\n #Update total number and value of each shares (symbol) held in totalshares table\n rows = db.execute(\"SELECT id, symbol, numshares, totalvalue FROM totalshares WHERE id = :id AND symbol = :symbol\",\n id=session[\"user_id\"], symbol=company_quote[\"symbol\"])\n if len(rows) != 1: #if nothing is returned i.e id and symbol combination does not already exist, insert it\n return_val = db.execute(\"INSERT INTO totalshares (id, symbol, numshares, totalvalue) VALUES (:id, :symbol, :numshares, :totalvalue)\",\n id=session[\"user_id\"], symbol=company_quote[\"symbol\"], numshares=num_shares, totalvalue=cost)\n if return_val == None:\n return apology(\"something went wrong\", 403)\n else: #if id, symbol combination exists already, update numshares and totalvalue\n new_numshares = rows[0][\"numshares\"] + num_shares\n new_totalvalue = rows[0][\"totalvalue\"] + cost\n return_val = db.execute(\"UPDATE totalshares SET numshares = :new_numshares, totalvalue = :new_totalvalue WHERE id = :id AND symbol = :symbol\",\n new_numshares=new_numshares, new_totalvalue=new_totalvalue, id=session[\"user_id\"], symbol=company_quote[\"symbol\"])\n if return_val == None:\n return apology(\"something went wrong\", 403)\n\n #Update balance in users table\n return_val = db.execute(\"UPDATE users SET cash = :cash WHERE id = :id\", cash=new_balance, id=session[\"user_id\"])\n if return_val != None:\n return redirect(\"/\")\n else:\n return apology(\"something went wrong\", 403)\n\n else:\n return render_template(\"buy.html\")",
"def sell():\n if request.method == \"POST\":\n # Ensure data is inputted\n if not request.form.get(\"symbol\"):\n return apology(\"Insert symbol\", 403)\n \n if not request.form.get(\"shares\"):\n return apology(\"Insert number of shares to sell\", 403)\n \n # Ensure shares value is valid\n try:\n if not int(request.form.get(\"shares\")) > 0:\n return apology(\"invalid value\", 403)\n except ValueError:\n return apology(\"invalid value\", 403)\n \n # Ensure there's enough shares to sell \n share_count_dict = db.execute(\"SELECT share_count FROM shares WHERE user_id=:usid AND share=:share\", usid=session[\"user_id\"], share=request.form.get(\"symbol\").upper())\n share_count = int(share_count_dict[0][\"share_count\"])\n \n if int(request.form.get(\"shares\")) > share_count:\n return apology(\"You don't own enough shares\", 403)\n \n # Create variables\n symbol = request.form.get(\"symbol\").upper()\n quantity = int(request.form.get(\"shares\"))\n \n # Add cash to user data\n new_cash = float(lookup(symbol)[\"price\"]) * quantity\n db.execute(\"UPDATE users SET cash= cash + :cash WHERE id=:usid\", cash=new_cash, usid=session[\"user_id\"]) \n \n # Remove shares of user data\n db.execute(\"UPDATE shares SET share_count = share_count - :shares WHERE user_id=:usid AND share = :share\", shares=quantity,share=symbol, usid=session[\"user_id\"])\n db.execute(\"DELETE FROM shares WHERE user_id=:usid AND share_count = :shares\", usid=session[\"user_id\"], shares=0)\n \n # Record transaction\n db.execute(\"INSERT INTO history (user_id, symbol, shares, time, price) VALUES (:usid, :symbol, :shares, :time, :price)\", usid=session[\"user_id\"], symbol=symbol, shares='-' + str(quantity), time=str(db.execute(\"SELECT CURRENT_TIMESTAMP\")[0][\"CURRENT_TIMESTAMP\"]), price=str(lookup(symbol)[\"price\"]))\n \n return redirect(\"/\")\n \n else:\n # Create list with purchased symbols\n symbol_dicts = db.execute(\"SELECT share FROM shares WHERE user_id=:usid\", usid=session[\"user_id\"])\n symbol_list = [None] * len(symbol_dicts)\n \n # Insert symbols into list\n for i in range(len(symbol_dicts)):\n symbol_list[i] = symbol_dicts[i][\"share\"]\n \n return render_template(\"sell.html\", longitude=len(symbol_dicts), symbols=symbol_list)",
"def sell():\n\n if request.method == \"POST\":\n\n # define stock variables\n symbol = request.form.get(\"symbol\")\n stock = lookup(request.form.get(\"symbol\"))\n\n # error checking\n if not stock:\n return apology(\"Missing or Incorrect Symbol\", 400)\n\n # check if stock is owned\n try:\n sold_stock = db.execute(\n \"SELECT symbol, SUM(shares) AS shares, price FROM transactions WHERE user_id = :user_id AND symbol = :symbol GROUP BY symbol\", user_id=session[\"user_id\"], symbol=symbol)[0]\n except IndexError:\n return apology(\"Stock not owned\", 400)\n\n # check for shares input\n try:\n shares = int(request.form.get(\"shares\"))\n except ValueError:\n return apology(\"Input at least 1 share\", 400)\n\n if shares < 0:\n return apology(\"Input at least 1 Share\", 400)\n\n if int(sold_stock[\"shares\"]) < shares:\n return apology(\"Not enough shares to sell\", 400)\n\n else:\n # define variables for inserting into transactions table and updating cash\n purchase_date = datetime.now().strftime(\"%Y-%m-%d %H:%M:%S\")\n\n # update user cash\n user_cash = db.execute(\"SELECT cash FROM users WHERE id = :user_id\", user_id=session[\"user_id\"])[0][\"cash\"]\n user_cash = user_cash + (stock[\"price\"]*shares)\n db.execute(\"UPDATE users SET cash = :user_cash WHERE id = :user_id\", user_id=session[\"user_id\"], user_cash=user_cash)\n\n # update transactions table with selling transaction\n db.execute(\"\"\"\n INSERT INTO transactions(user_id, date, symbol, shares, price)\n VALUES(:user_id, :date, :symbol, :shares, :price)\n \"\"\",\n user_id=session[\"user_id\"],\n date=purchase_date,\n symbol=stock[\"symbol\"],\n shares=-shares,\n price=stock[\"price\"]\n )\n\n flash(\"You paper-handed that one!\")\n return redirect(\"/\")\n\n else:\n # query db for current holdings\n stocks = db.execute(\n \"SELECT symbol, SUM(shares) AS shares, price FROM transactions WHERE user_id = :user_id GROUP BY symbol\", user_id=session[\"user_id\"])\n stocks[:] = [stock for stock in stocks if stock.get('shares') > 0]\n return render_template(\"sell.html\", stocks=stocks)",
"def sell():\n if request.method == \"POST\":\n\n if not request.form.get(\"shares\"):\n return apology(\"gimme share\", 400)\n if not lookup(request.form.get(\"symbol\")):\n return apology(\"not correct stock\", 400)\n if not request.form.get(\"shares\").isdigit():\n return apology(\"sorry bro\", 400)\n\n quote = lookup(request.form.get(\"symbol\"))\n\n money_list = db.execute(\"SELECT cash FROM users WHERE id = :current_id\", current_id=session[\"user_id\"])\n available_money = money_list[0][\"cash\"]\n\n total_price = int(request.form.get(\"shares\")) * float(quote[\"price\"])\n\n units_list = db.execute(\"SELECT SUM(units) FROM transactions WHERE id = :current_id AND stock = :stock_code\",\n current_id=session[\"user_id\"], stock_code=request.form.get(\"symbol\"))\n available_units = units_list[0][\"SUM(units)\"]\n\n if available_units < int(request.form.get(\"shares\")):\n return apology(\"no units bro\", 400)\n\n new_cash = available_money + total_price\n\n updating = db.execute(\"UPDATE users SET cash = :upd_cash WHERE id = :current_id\",\n upd_cash=new_cash, current_id=session[\"user_id\"])\n insertion = db.execute(\"INSERT INTO transactions (id, stock, units, price, time, type) VALUES (:current_id, :stock, :units, :price, :now, :type)\",\n current_id=session[\"user_id\"], stock=request.form.get(\"symbol\"), units=request.form.get(\"shares\"), price=float(quote[\"price\"]), now=datetime.datetime.now(), type=\"S\")\n\n money_upd_list = db.execute(\"SELECT cash FROM users WHERE id = :current_id\", current_id=session[\"user_id\"])\n available_money_upd = money_upd_list[0][\"cash\"]\n\n return render_template(\"sell_result.html\", shares=request.form.get(\"shares\"),\n symbol=request.form.get(\"symbol\"),\n price=usd(total_price),\n cash=usd(new_cash))\n else:\n available_stocks_info = db.execute(\"SELECT stock FROM transactions WHERE id = :current_id\", current_id=session[\"user_id\"])\n available_stocks_list = []\n for element in available_stocks_info:\n if element[\"stock\"] not in available_stocks_list:\n available_stocks_list.append(element[\"stock\"])\n\n return render_template(\"sell.html\", available_stocks=available_stocks_list)",
"def place_sell_order(self):\n price = request.form[\"price\"]\n stocks = request.form[\"stocks\"]\n trader_id = request.form[\"trader_id\"]\n self.market.place_sell_order(trader_id, price, stocks)\n return \"\"",
"def sell():\n if request.method == \"GET\":\n return render_template('sell.html')\n \n if request.method == \"POST\":\n symbol = request.form['symbol']\n shares = request.form['shares']\n stock = lookup(symbol)\n \n if not stock:\n return apology('Invalid symbol')\n \n user_shares = db.execute(\"SELECT shares FROM profile \\\n WHERE id = :id AND symbol=:symbol\", \\\n id=session[\"user_id\"], symbol=stock[\"symbol\"])\n if not user_shares or int(user_shares[0][\"shares\"]) < int(shares):\n return apology(\"Not enough shares\")\n db.execute(\"INSERT INTO history (company, shares, value, id, date) \\\n VALUES(:symbol, :shares, :price, :id, :date)\", \\\n symbol=stock[\"symbol\"], shares=-int(shares), \\\n price=stock[\"price\"], id=session[\"user_id\"], date = str(date.today())) \n db.execute(\"UPDATE users SET cash = cash + :purchase WHERE id = :id\", \\\n id=session[\"user_id\"], \\\n purchase=stock[\"price\"] * float(shares))\n \n shares_total = user_shares[0][\"shares\"] - int(shares)\n if shares_total == 0:\n db.execute(\"DELETE FROM profile \\\n WHERE id=:id AND symbol=:symbol\", \\\n id=session[\"user_id\"], \\\n symbol=stock[\"symbol\"])\n \n else:\n db.execute(\"UPDATE profile SET shares=:shares \\\n WHERE id=:id AND symbol=:symbol\", \\\n shares=shares_total, id=session[\"user_id\"], \\\n symbol=stock[\"symbol\"])\n \n return redirect(url_for(\"index\"))",
"def sell():\n\n # User submits information\n if request.method == \"POST\":\n\n # Ensure user entered a stock\n if not request.form.get(\"symbol\"):\n return apology(\"must choose a stock\")\n\n # Get stock selected\n symbol = request.form.get(\"symbol\")\n \n # Ensure is a valid stock symbol\n if not lookup(symbol):\n return apology(\"Invalid stock symbol\")\n\n # Ensure user owns the stock requested\n test = db.execute(\"SELECT * FROM portfolios WHERE user_id = ? AND stocks = ?\", session[\"user_id\"], symbol)\n\n if not test:\n return apology(\"you have 0 shares of this stock\")\n\n owns = db.execute(\"SELECT * FROM portfolios WHERE user_id = ? AND stocks = ?\", session[\"user_id\"], symbol)\n\n # Ensure user entered a number in shares\n if not request.form.get(\"shares\") or not isinstance(request.form.get(\"shares\"), int):\n return apology(\"must enter postive whole number of shares\")\n\n shares = request.form.get(\"shares\")\n\n # Ensure number is positive\n if shares <= 0:\n return apology(\"must enter a positive number\")\n\n # Ensure user owns the amount of stock entered to sell\n if shares > owns[0]['shares']:\n return apology(\"you don't own that much of this stock\")\n\n # Get date and time for transaction\n day = datetime.now()\n time = datetime.now().time()\n\n # Get total and stock name for transaction\n price = lookup(symbol)['price']\n total = price * shares\n name = lookup(symbol)['name']\n\n # Sell shares of the stock and add to transactions history\n db.execute(\"INSERT INTO transactions (user_id, date, time, price, shares, total, stock, name, type) VALUES (?, ?, ?, ?, ?, ?, ?, ?, ?)\",\n session[\"user_id\"], day, time, price, shares * -1, total, symbol, name, \"sell\")\n\n # Update portfolios table\n db.execute(\"UPDATE portfolios SET shares = shares - ? WHERE user_id = ? AND stocks = ?\", shares, session[\"user_id\"], symbol)\n\n # If stock shares is 0, delete from portfolio\n db.execute(\"DELETE FROM portfolios WHERE shares = ? \", 0)\n\n return redirect(\"/\")\n\n # If user reached page via link or redirect\n else:\n\n # Get list of stocks owned\n owns = db.execute(\"SELECT stocks FROM portfolios WHERE user_id = ? ORDER BY stocks\", session[\"user_id\"])\n\n return render_template(\"sell.html\", owns=owns)",
"def buy():\n if request.method == \"POST\":\n\n if not request.form.get(\"shares\"):\n return apology(\"gimme share\", 400)\n if not lookup(request.form.get(\"symbol\")):\n return apology(\"not correct stock\", 400)\n if not request.form.get(\"shares\").isdigit():\n return apology(\"sorry bro\", 400)\n\n quote = lookup(request.form.get(\"symbol\"))\n\n money_list = db.execute(\"SELECT cash FROM users WHERE id = :current_id\", current_id=session[\"user_id\"])\n available_money = money_list[0][\"cash\"]\n\n total_price = int(request.form.get(\"shares\")) * float(quote[\"price\"])\n\n if available_money < total_price:\n return apology(\"no money bro\", 400)\n\n insertion = db.execute(\"INSERT INTO transactions (id, stock, units, price, time, type) VALUES (:current_id, :stock, :units, :price, :now, :type)\",\n current_id=session[\"user_id\"], stock=request.form.get(\"symbol\"), units=request.form.get(\"shares\"), price=float(quote[\"price\"]), now=datetime.datetime.now(), type=\"B\")\n updating = db.execute(\"UPDATE users SET cash = cash - :upd_price WHERE id = :current_id\",\n upd_price=total_price, current_id=session[\"user_id\"])\n\n money_upd_list = db.execute(\"SELECT cash FROM users WHERE id = :current_id\", current_id=session[\"user_id\"])\n available_money_upd = money_upd_list[0][\"cash\"]\n\n return render_template(\"buy_result.html\",\n shares=request.form.get(\"shares\"),\n symbol=request.form.get(\"symbol\"),\n price=usd(total_price),\n cash=usd(available_money_upd))\n else:\n return render_template(\"buy.html\")",
"def buy():\n\n def price_check(cash, price, shares):\n \"\"\"check affordability of stock vs cash on hand\"\"\"\n affordable = (cash - (price * shares)) > 0\n\n if affordable:\n return affordable\n\n else:\n return False\n\n if request.method == \"POST\":\n\n stock = lookup(request.form.get(\"symbol\"))\n\n # check symbol and share # are valid\n if not stock:\n return apology(\"Missing or Incorrect Symbol\", 400)\n\n try:\n shares = int(request.form.get(\"shares\"))\n except ValueError:\n return apology(\"Input at least 1 share\", 400)\n\n if shares < 0:\n return apology(\"Input at least 1 share\", 400)\n\n\n # cast shares to int & fetch users cash on hand\n shares = int(request.form.get(\"shares\"))\n user_cash = db.execute(\"SELECT cash FROM users WHERE id = :user_id\", user_id=session[\"user_id\"])[0][\"cash\"]\n\n if price_check(user_cash, stock[\"price\"], shares) == False:\n return apology(\"Sorry, you can't afford this purchase.\", 400)\n\n else:\n # define variables for inserting into transactions table\n purchase_date = datetime.now().strftime(\"%Y-%m-%d %H:%M:%S\")\n\n # update user cash\n user_cash = user_cash - (stock[\"price\"]*shares)\n db.execute(\"UPDATE users SET cash = :user_cash WHERE id = :user_id\", user_id=session[\"user_id\"], user_cash=user_cash)\n\n # update transactions table with most recent transaction\n db.execute(\"\"\"\n INSERT INTO transactions(user_id, date, symbol, shares, price)\n VALUES(:user_id, :date, :symbol, :shares, :price)\n \"\"\",\n user_id=session[\"user_id\"],\n date=purchase_date,\n symbol=stock[\"symbol\"],\n shares=shares,\n price=stock[\"price\"]\n )\n\n return redirect(\"/\")\n\n else:\n return render_template(\"buy.html\")",
"def sell():\n return apology(\"TODO\")\n if request.method == \"POST\":\n # Ensure symbol was submitted\n symbol = request.form.get(\"symbol\")\n if not symbol:\n return apology(\"must provide symbol\", 403)\n symbol = symbol.upper()\n\n # Ensure number of shares was submitted\n shares = request.form.get(\"shares\")\n if not shares:\n return apology(\"must provide shares\", 403)\n\n return render_template(\"sell.html\")",
"def buy():\n if request.method == \"POST\":\n\n if not request.form.get(\"symbol\"):\n return apology(\"Missing symbol\")\n\n elif not request.form.get(\"shares\"):\n return apology(\"Missing shares\")\n # Проверка поля внутри формы, число или нет.\n elif not request.form.get(\"shares\").isdigit():\n return apology(\"Please chose integer\")\n # проверка числа на позитивность.\n elif int(request.form.get(\"shares\")) < 1:\n return apology(\"number of stocks is less zero\", 400)\n\n # проверка цены по символу\n symbol = request.form.get(\"symbol\")\n quote = lookup(symbol)\n # Проверка на валидность символа\n if quote == None :\n return apology(\"The stock does not exist\", 400)\n # Сохраняем цену данного символа в переменную\n price = quote[\"price\"]\n # Вибираем кеш пользователя из базы данных.\n cash = db.execute(\"SELECT cash FROM users WHERE id=:id\", id=session[\"user_id\"])\n # цену символа умножаем на число пользователя, если оно больше чем бюджет,вернуть apology\n if float(price) * int(request.form.get(\"shares\")) > float(cash[0][\"cash\"]):\n return apology(\"You don't have enough cash\", 400)\n #\n else:\n # обновляем кеш\n rows3 = db.execute(\"UPDATE users SET cash =:update_cash WHERE id=:id\", update_cash = float(cash[0][\"cash\"]) - (float(price)*int(request.form.get(\"shares\"))), id=session[\"user_id\"])\n # Вибираем в портфеле все символы, для проверки на наличие shares (кол-во) акций\n rows2 = db.execute(\"SELECT * FROM portfolio WHERE id=:id AND symbol=:symbol\",id=session[\"user_id\"], symbol=symbol )\n # Если нету shares в определенном символе,тогда добавить.\n if len(rows2) == 0:\n db.execute(\"INSERT INTO partfolio ( id, symbol, shares) VALUES (:id, :symbol, :shares)\",id=session[\"user_id\"] )\n else:\n #Если есть уже кол-во акций,тогда обновить старое кол-во на новое кол-во.\n db.execute(\"UPDATE partfolio SET shares= shares + :shares\",shares = shares)\n\n\n else:\n\n return render_template(\"buy.html\")",
"def buy():\n if request.method == \"POST\":\n if not request.form.get(\"symbol\") or not lookup(request.form.get(\"symbol\")):\n return apology(\"must provide valid symbol\",400)\n if not request.form.get(\"shares\") or int(request.form.get(\"shares\")) <= 0:\n return apology(\"shares must be positive integer!\",400)\n row=db.execute(\"SELECT * FROM users WHERE id=:s\",s=session[\"user_id\"])\n dict=lookup(request.form.get(\"symbol\"))\n cost=dict[\"price\"]* int(request.form.get(\"shares\"))\n if row[0][\"cash\"]>cost:\n db.execute(\"INSERT INTO history(symbol,shares,price,transacted,user_id,status) VALUES (:s,:sh,:p,:t,:u_i,:status)\",s=dict[\"symbol\"],sh=int(request.form.get(\"shares\")),p=dict[\"price\"],t=time.asctime( time.localtime(time.time())),u_i=session[\"user_id\"],status='bought')\n row[0][\"cash\"]=row[0][\"cash\"]-cost\n db.execute(\"UPDATE users SET cash = :cash WHERE id=:s\",cash=row[0][\"cash\"],s=session[\"user_id\"])\n exist=db.execute(\"SELECT * FROM portofolio WHERE symbol=:s AND user_id=:u_i\",s=dict[\"symbol\"],u_i=session[\"user_id\"])\n if len(exist) == 0 :\n db.execute(\"INSERT INTO portofolio(symbol,name,shares,price,total,user_id) VALUES (:s,:n,:sh,:p,:t,:u_i)\",s=dict[\"symbol\"],n=dict[\"name\"],sh=int(request.form.get(\"shares\")),p=dict[\"price\"],t=cost,u_i=session[\"user_id\"])\n else:\n db.execute(\"UPDATE portofolio SET shares =shares+:sh, price=:p, total=total+:t WHERE symbol=:s AND user_id=:u_i\",sh=int(request.form.get(\"shares\")),p=dict[\"price\"],t=dict[\"price\"] * int(request.form.get(\"shares\")),s=dict[\"symbol\"],u_i=session[\"user_id\"])\n else:\n return apology(\"Can't afford!\",400)\n\n\n\n return redirect(\"/\")\n else:\n return render_template(\"buy.html\")",
"def sell():\n\n if request.method == \"POST\":\n sellstock = request.form.get(\"symbol\")\n sellq = int(request.form.get(\"shares\"))\n if sellstock == None:\n return apology(\"Please select a stock symbol to sell.\")\n if sellq < 0:\n return apology(\"Please enter a valid quantity of stocks to sell\")\n invq = db.execute(\"SELECT quantity FROM inventory WHERE userid = :uid AND symbol = :sy\",\n {\"uid\":session[\"user_id\"],\"sy\":sellstock})[0][\"quantity\"]\n if sellq > invq:\n return apology(\"You don't have enough shares.\")\n stock = lookup(sellstock)\n cost = round(sellq*stock[\"price\"], 2)\n db.execute(\"INSERT INTO shares (stock,symbol,value,quantity,cost,userid) VALUES(:st,:sy,:va,:qu,:co,:uid)\",\n {\"st\":stock[\"name\"],\"sy\":sellstock,\"va\":stock[\"price\"],\"qu\":sellq,\"co\":cost,\"uid\":session[\"user_id\"]})\n db.execute(\"UPDATE inventory SET quantity = :qu WHERE userid =:uid AND symbol = :sy\",\n {\"qu\":(invq-sellq),\"uid\":session[\"user_id\"],\"sy\":sellstock})\n db.execute(\"UPDATE users SET cash = cash + :cash WHERE id =:uid\", {\"cash\":cost,\"uid\":session[\"user_id\"]})\n flash(\"Shares successfully sold!\")\n return redirect(\"/\")\n inventory = db.execute(\"SELECT symbol FROM inventory WHERE userid = :uid\", uid=session[\"user_id\"])\n return render_template(\"sell.html\", context = inventory)",
"def trade_action(self, BUY_QTY):\n BUY_QTY = 4500\n self.trade(BUY_QTY)\n #self.show()",
"def buy():\n if request.method == \"POST\":\n\n stock = lookup(request.form.get(\"symbol\"))\n\n # This took a while for check to confirm. First check that user input is digit.\n if not request.form.get(\"shares\").isdigit():\n return apology(\"Inavalid number of shares\")\n numOfShares = request.form.get(\"shares\")\n\n # If request is POST firstly check if anything has been submitted.\n if not request.form.get(\"symbol\"):\n return apology(\"You haven't typed a symbol\")\n # if stock lookup request is None or if the numOfShares is not a number of 1 or higher return apologies.\n if stock is None:\n return apology(\"This doesn't seem to be a valid symbol, try again\")\n # userID and user serparate in case both are required.\n userID = session[\"user_id\"]\n user = db.execute(\"SELECT * FROM users WHERE id = :id\", id=userID)\n #funds is a float and can be multiplied by number of shares\n funds = float(user[0][\"cash\"])\n purchasePrice = stock[\"price\"] * int(numOfShares)\n\n date_time = datetime.now().strftime('%d-%m-%Y %H:%M:%S')\n\n\n if funds < purchasePrice:\n return apology(\"You don't have sufficient funds to make this purchase\")\n else:\n # Take price off total cash for current user.\n db.execute(\"UPDATE users SET cash = cash - :purchasePrice WHERE id = :userID\", purchasePrice=purchasePrice, userID=userID)\n # Insert into transactions table the id, symbol, number of share bought, price per share, the time,date and the BUY order.\n db.execute(\"INSERT INTO transactions (id, symbol, num_shares, price_ps, date_time, buy_or_sell) VALUES (:id, :symbol, :num_shares, :price_ps, :date_time, :buy_or_sell)\",\n id=userID, symbol=stock[\"symbol\"], num_shares=numOfShares, price_ps=stock[\"price\"], date_time=date_time, buy_or_sell=\"BUY\")\n # stockowned allows search of portfolio table for results that have userID and the bought stock.\n stockOwned = db.execute(\"SELECT * FROM portfolio WHERE symbol=:symbol AND id=:userID\", symbol=stock[\"symbol\"], userID=userID)\n # If there are nor results (not stockowned) then insert into portfolio\n if not stockOwned:\n db.execute(\"INSERT INTO portfolio (id, symbol, numOwned, pricePerShare, totalValue) VALUES (:userID, :symbol, :numOwned, :pricePerShare, :totalValue)\",\n userID=userID, symbol=stock[\"symbol\"], numOwned=numOfShares, pricePerShare=stock[\"price\"], totalValue=purchasePrice)\n # Other wise update the current results. Had to ensuer numOf Share was floas was sotred as a str. Using indexes of stockowned for values.\n else:\n newNumOwned = stockOwned[0][\"numOwned\"] + float(numOfShares)\n newTotalValue = stockOwned[0][\"totalValue\"] + purchasePrice\n newPPS = \"%.2f\"%(newTotalValue / newNumOwned)\n db.execute(\"UPDATE portfolio SET numOwned = :newNumOwned, totalValue = :newTotalValue, pricePerShare = :newPPS WHERE symbol=:symbol AND id=:userID\",\n newNumOwned=newNumOwned, newTotalValue=newTotalValue, newPPS=newPPS, symbol=stock[\"symbol\"], userID=userID)\n\n return redirect(\"/\")\n\n # If a GET request, return the buy.html template.\n else:\n return render_template(\"buy.html\")",
"def buy():\n if request.method == \"GET\":\n return render_template(\"buy.html\")\n\n elif request.method == \"POST\":\n shares = request.form.get(\"shares\")\n symbol = request.form.get(\"symbol\")\n try:\n float(shares)\n except ValueError:\n return apology(\"please input a valid number of shares\")\n try:\n int(shares)\n except ValueError:\n return apology(\"please input a valid number of shares\")\n shares = int(shares)\n\n if not shares or not float(shares) or not float(shares).is_integer() or float(shares) <= 0:\n return apology(\"input a valid number of shares to buy\")\n\n elif not symbol or not lookup(symbol):\n return apology(\"input a valid symbol\")\n\n elif type(shares) != int:\n return apology(\"How did you even get this error?!\")\n\n else:\n quote = lookup(symbol)\n current_price = float(quote[\"price\"])\n company = quote[\"name\"]\n shares_num = int(request.form.get(\"shares\"))\n shares_tcost = float(shares_num * current_price)\n balance = db.execute(\"SELECT cash FROM users WHERE id = :id\", id=session['user_id'])\n\n # balance[0] b/c the returned value of balance is a dict of multiple lists\n flbal = [float(i) for i in list(balance[0].values())]\n for bal in flbal:\n if bal - shares_tcost < 0:\n return apology(\"Sorry, you don't have enough money\")\n else:\n newshares = bal - shares_tcost\n newbalance = db.execute(\"UPDATE users SET cash = :cash WHERE id = :id\", cash=newshares, id=session['user_id'])\n newpurchase = db.execute(\"INSERT INTO History ('symbol', 'company', 'shares', 'price', 'totalprice', 'id', 'transaction_type') VALUES (:symbol, :company, :shares, :price, :totalprice, :id, :transaction_type)\",\n symbol=symbol, company=company, shares=shares_num, price=current_price, totalprice=shares_tcost, id=session['user_id'], transaction_type=\"BUY\")\n\n return redirect('/')",
"def buy():\n if request.method == \"POST\":\n if not request.form.get(\"symbol\"):\n return apology(\"must provide symbol\")\n elif not request.form.get(\"sharesnumber\"):\n return apology(\"must provide no of shares\")\n elif '.' in request.form.get(\"sharesnumber\"):\n return apology(\"No of shares is positive integer Invalid!!\")\n elif not request.form.get(\"sharesnumber\").isdigit():\n return apology(\"No of shares is positive integer Invalid!!\")\n elif not int(request.form.get(\"sharesnumber\")) > 0:\n return apology(\"No of shares is positive value Invalid!!\")\n \n result_dict = lookup(request.form.get(\"symbol\"))\n \n if result_dict == None:\n return apology(\"Symbol does not exist\")\n \n result_cash = db.execute(\"SELECT * from users where id = :id\",id=session[\"user_id\"])\n net_cash = result_cash[0][\"cash\"]\n net_required = int(request.form.get(\"sharesnumber\")) * result_dict['price']\n if net_required > net_cash:\n return apology(\"Oops Don't Have enough Cash!!\")\n \n \n #Update Cash\n net_cash = net_cash - net_required\n db.execute(\"UPDATE users SET cash = :cash WHERE id = :id\",cash= net_cash,id=session[\"user_id\"])\n \n #Update History Tables\n \n db.execute(\"INSERT INTO history(user_id,symbol,price,shares) VALUES(:id,:symbol,:price,:shares) \",id=session[\"user_id\"],symbol=result_dict['symbol'],price=result_dict['price'],shares=request.form.get(\"sharesnumber\"))\n \n #Check Whether user has shares for same symbol\n rows = db.execute(\"SELECT * FROM netshares WHERE user_id = :id AND symbol=:symbol\",id=session[\"user_id\"],symbol=result_dict['symbol'])\n #Update NetShares Table\n if len(rows) == 0:\n db.execute(\"INSERT INTO netshares(user_id,symbol,shares) VALUES(:id,:symbol,:shares)\",id=session[\"user_id\"],symbol=result_dict['symbol'],shares=request.form.get(\"sharesnumber\"))\n else:\n db.execute(\"UPDATE netshares SET shares=:shares WHERE user_id = :id AND symbol=:symbol\",shares= int(request.form.get(\"sharesnumber\"))+int(rows[0]['shares']),id=session[\"user_id\"],symbol=result_dict['symbol'])\n return redirect(url_for(\"index\"))\n \n else:\n return render_template(\"buy.html\")\n \n \n #return apology(\"TODO\")",
"def sell():\n if request.method=='POST':\n #parameter is not filled\n if not request.form.get(\"shares\"):\n return apology(\"Please enter how much u want to sell\",400)\n #check if shares(amount) that are going to be sell less than owner's share.\n sell=request.form.get(\"symbol\")\n shares=request.form.get(\"shares\")\n amount=db.execute(\"SELECT SUM(transactions) as amount FROM record WHERE userID=? AND symbol=? GROUP BY symbol HAVING transactions\",session[\"user_id\"],sell)\n if amount[0][\"amount\"]<int(shares):\n return apology(\"You dont own that much shares\",400)\n\n #record sell and add cash amount\n quote=lookup(sell)\n price=quote[\"price\"]\n total=int(price)*int(shares)\n\n db.execute(\"INSERT INTO record(userID,transactions,symbol,price,t1) VALUES(?,?,?,?,strftime('%s','now'))\",session[\"user_id\"],(int(shares)*-1),quote[\"symbol\"],price)\n db.execute(\"UPDATE users SET cash=cash+ (?) WHERE id=?\",total,session[\"user_id\"])\n\n return redirect(\"/\")\n\n else:\n rows=db.execute(\"SELECT symbol, SUM(transactions) as amount FROM record WHERE userID=? GROUP BY symbol HAVING transactions\",session[\"user_id\"])\n\n return render_template(\"sell.html\",rows=rows)",
"def on_Deposit_clicked(self):\n # TODO: not implemented yet\n raise NotImplementedError",
"def buy():\n\n if request.method == \"POST\":\n numShares = 0\n try:\n numShares = float(request.form.get(\"shares\"))\n except ValueError:\n return apology(\"Enter a numerical value!\", 400)\n if numShares % 1 != 0:\n return apology(\"Fractional Shares not allowed!\", 400)\n if numShares <= 0:\n return apology(\"Enter a number greater than 0!\", 400)\n if not request.form.get(\"symbol\"):\n return apology(\"Enter a symbol!\", 400)\n if not request.form.get(\"shares\"):\n return apology(\"Enter a number of shares!\", 400)\n\n company = lookup(request.form.get(\"symbol\"))\n if not company:\n return apology(\"Invalid ticker symbol\", 400)\n price = float(company[\"price\"])\n total = float(price * numShares)\n symbl = company[\"symbol\"]\n userRows = db.execute(\"SELECT cash FROM users WHERE id = :userid\", userid=session.get(\"user_id\"))\n remainingCash = float(userRows[0][\"cash\"])\n if total > remainingCash:\n return apology(\"You cannot afford the stock(s)!\", 400)\n else:\n currentUser = session.get(\"user_id\")\n purchased = db.execute(\"INSERT INTO portfolio (UserID, Symbol, Company, NumberOfShares, UnitPrice, TotalPrice) VALUES(:userid, :symbol, :name, :shares, :unitPrice, :totalPrice)\", userid=currentUser, symbol=symbl, name=company['name'], shares=numShares, unitPrice=price, totalPrice=total)\n\n\n if not purchased:\n return apology(\"Unable to purchase\", 400)\n else:\n remainingCash = remainingCash - total\n db.execute(\"UPDATE users set cash=:balance WHERE id=:userid\", balance=remainingCash, userid=currentUser)\n '''Update history'''\n dateNow = datetime.datetime.now()\n historized = db.execute(\"INSERT INTO history (Symbol, Shares, Price, Date, UserID) VALUES(:symbol, :shares, :price, :date, :userid)\", symbol = symbl, shares = numShares, price = total, date = dateNow, userid = session.get(\"user_id\"))\n '''Update history end'''\n return redirect(\"/\")\n\n\n else:\n return render_template(\"buy.html\")",
"def sell():\n if request.method == \"POST\":\n bef = db.execute(\"SELECT symbol FROM ind WHERE user_id = ?\", session[\"user_id\"])\n if not request.form.get(\"symbol\"):\n return apology(\"Please specify which valid stock to sell\", 403)\n symbol = request.form.get(\"symbol\")\n p = db.execute(\"SELECT COUNT(symbol) FROM ind WHERE user_id = ?\", session[\"user_id\"])\n q = 0\n\n for i in range(int(p[0][\"COUNT(symbol)\"])):\n if symbol == bef[i][\"symbol\"]:\n q = 1\n if q == 0:\n return apology(\"Please specify which valid stock to sell\", 403)\n if not request.form.get(\"shares\"):\n return apology(\"Please specify how many stocks you want to sell\", 403)\n if int(request.form.get(\"shares\")) < 1:\n return apology(\"Please input a positive integer\", 403)\n if request.form.get(\"shares\").isnumeric() != True:\n return apology(\"Please input a positive integer\", 403)\n hav = db.execute(\"SELECT nos FROM ind WHERE symbol = ? AND user_id = ?\", request.form.get(\"symbol\"), session[\"user_id\"])\n if int(hav[0][\"nos\"]) < int(request.form.get(\"shares\")):\n return apology(\"You do not own that many shares\", 403)\n shares = int(request.form.get(\"shares\"))\n db.execute(\"CREATE TABLE IF NOT EXISTS sells (user_id INTEGER NOT NULL, symbol TEXT NOT NULL, name TEXT NOT NULL, price NUMERIC NOT NULL, shares INTEGER NOT NULL, cost NUMERIC NOT NULL, time datetime NOT NULL, FOREIGN KEY(user_id) REFERENCES users(id))\")\n bro = db.execute(\"SELECT cash FROM users WHERE id = ?\", session[\"user_id\"])\n cost = (lookup(symbol)[\"price\"]) * int(request.form.get(\"shares\"))\n money = bro[0][\"cash\"]\n money = money + cost\n db.execute(\"UPDATE users SET cash = ? WHERE id = ?\", money, session[\"user_id\"])\n db.execute(\"INSERT INTO sells(user_id, symbol, name, price, shares, cost, time) VALUES (:user_id, :symbol, :name, :price, :shares, :cost, :time)\", user_id = session[\"user_id\"], symbol = lookup(symbol)[\"symbol\"], name = lookup(symbol)[\"name\"], price = lookup(symbol)[\"price\"], shares = shares, cost = cost, time = datetime.datetime.now())\n db.execute(\"INSERT INTO hist(user_id, typ, symbol, name, price, nos, cost, time) VALUES (:user_id, :typ, :symbol, :name, :price, :nos, :cost, :time)\", user_id = session[\"user_id\"], typ = \"SOLD\", symbol = lookup(symbol)[\"symbol\"], name = lookup(symbol)[\"name\"], price = lookup(symbol)[\"price\"], nos = shares, cost = cost, time = datetime.datetime.now())\n\n db.execute(\"UPDATE ind SET nos = ? WHERE symbol = ? AND user_id = ?\", int(hav[0][\"nos\"]) - shares, request.form.get(\"symbol\"), session[\"user_id\"])\n hav = db.execute(\"SELECT nos FROM ind WHERE symbol = ? AND user_id = ?\", request.form.get(\"symbol\"), session[\"user_id\"])\n if int(hav[0][\"nos\"]) == 0:\n db.execute(\"DELETE FROM ind WHERE symbol = ? AND user_id = ?\", request.form.get(\"symbol\"), session[\"user_id\"])\n return redirect(\"/\")\n\n else:\n stocks = db.execute(\"SELECT * FROM ind WHERE user_id = ?\", session[\"user_id\"])\n\n return render_template(\"sell.html\", stocks = stocks)"
] | [
"0.7297728",
"0.715392",
"0.6314758",
"0.6237061",
"0.62175316",
"0.6208546",
"0.6186244",
"0.61780924",
"0.6158734",
"0.61187",
"0.6107623",
"0.61025167",
"0.6087814",
"0.60843027",
"0.6078598",
"0.6073275",
"0.6062028",
"0.60600346",
"0.6055075",
"0.60517657",
"0.6045317",
"0.60450685",
"0.6043942",
"0.6042272",
"0.6035914",
"0.6034942",
"0.6034351",
"0.60336286",
"0.60162354",
"0.6013519"
] | 0.7188054 | 1 |
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