# -*- tab-width: 4; indent-tabs-mode: nil; py-indent-offset: 4 -*- # # This Source Code Form is subject to the terms of the Mozilla Public # License, v. 2.0. If a copy of the MPL was not distributed with this # file, You can obtain one at http://mozilla.org/MPL/2.0/. # from uitest.framework import UITestCase from uitest.uihelper.common import get_state_as_dict from uitest.uihelper.common import select_pos from uitest.uihelper.calc import enter_text_to_cell from libreoffice.calc.document import get_cell_by_position from libreoffice.uno.propertyvalue import mkPropertyValues from uitest.uihelper.common import get_state_as_dict, type_text from uitest.debug import sleep import org.libreoffice.unotest import pathlib def get_url_for_data_file(file_name): return pathlib.Path(org.libreoffice.unotest.makeCopyFromTDOC(file_name)).as_uri() #Bug 93506 - Crash when selecting chart containing a trend line # test all dialog items - trend Line dialog class tdf93506(UITestCase): def test_tdf93506_chart_trendline_dialog(self): calc_doc = self.ui_test.load_file(get_url_for_data_file("tdf93506.ods")) xCalcDoc = self.xUITest.getTopFocusWindow() gridwin = xCalcDoc.getChild("grid_window") document = self.ui_test.get_component() self.ui_test.execute_dialog_through_command(".uno:OptionsTreeDialog") #optionsdialog, set centimeters xDialog = self.xUITest.getTopFocusWindow() xPages = xDialog.getChild("pages") xCalcEntry = xPages.getChild('3') # calc xCalcEntry.executeAction("EXPAND", tuple()) xCalcGeneralEntry = xCalcEntry.getChild('0') xCalcGeneralEntry.executeAction("SELECT", tuple()) #General xMetric = xDialog.getChild("unitlb") props = {"TEXT": "Centimeter"} actionProps = mkPropertyValues(props) xMetric.executeAction("SELECT", actionProps) xOKBtn = xDialog.getChild("ok") self.ui_test.close_dialog_through_button(xOKBtn) gridwin.executeAction("SELECT", mkPropertyValues({"OBJECT": "Object 1"})) gridwin.executeAction("ACTIVATE", tuple()) xChartMainTop = self.xUITest.getTopFocusWindow() xChartMain = xChartMainTop.getChild("chart_window") xSeriesObj = xChartMain.getChild("CID/D=0:CS=0:CT=0:Series=0") self.ui_test.execute_dialog_through_action(xSeriesObj, "COMMAND", mkPropertyValues({"COMMAND": "FormatTrendline"})) xDialog = self.xUITest.getTopFocusWindow() #Click on tab "Type". tabcontrol = xDialog.getChild("tabcontrol") select_pos(tabcontrol, "0") # print(xDialog.getChildren()) #('AttributeDialog', 'CBX_SYNCHRONIZE', 'CB_SYMBOL_RATIO', 'CTL_PREVIEW', 'FL_EDGE_STYLE', 'FL_LINE', 'FL_LINE_ENDS', 'FL_SYMBOL_FORMAT', 'FT_CAP_STYLE', 'FT_COLOR', 'FT_EDGE_STYLE', 'FT_LINE_ENDS_STYLE', 'FT_LINE_END_WIDTH', 'FT_LINE_START_WIDTH', 'FT_LINE_STYLE', 'FT_LINE_WIDTH', 'FT_SYMBOL_HEIGHT', 'FT_SYMBOL_WIDTH', 'FT_TRANSPARENT', 'LB_CAP_STYLE', 'LB_COLOR', 'LB_EDGE_STYLE', 'LB_END_STYLE', 'LB_LINE_STYLE', 'LB_START_STYLE', 'LineTabPage', 'MB_SYMBOL_BITMAP', 'MF_SYMBOL_HEIGHT', 'MF_SYMBOL_WIDTH', 'MTR_FLD_END_WIDTH', 'MTR_FLD_LINE_WIDTH', 'MTR_FLD_START_WIDTH', 'MTR_LINE_TRANSPARENT', 'TP_TRENDLINE', 'TSB_CENTER_END', 'TSB_CENTER_START', 'alignment1', 'alignment2', 'alignment3', 'alignment4', 'alignment6', 'auto_color_button', 'box1', 'box2', 'box3', 'box4', 'box5', 'boxARROW_STYLES', 'boxCOLOR', 'boxEND', 'boxSTART', 'boxTRANSPARENCY', 'boxWIDTH', 'cancel', 'color_picker_button', 'colorset', 'colorsetwin', 'degree', 'dialog-action_area1', 'dialog-vbox1', 'entry_Xname', 'entry_Yname', 'entry_name', 'exponential', 'extrapolateBackward', 'extrapolateForward', 'frame1', 'frame2', 'grid1', 'grid2', 'grid3', 'grid5', 'gridEDGE_CAPS', 'gridICON_SIZE', 'help', 'imageExponential', 'imageLinear', 'imageLogarithmic', 'imageMovingAverage', 'imagePolynomial', 'imagePower', 'interceptValue', 'label1', 'label2', 'label3', 'label4', 'label5', 'label6', 'label7', 'label8', 'label9', 'linear', 'logarithmic', 'movingAverage', 'none_color_button', 'ok', 'palette_listbox', 'palette_popup_window', 'period', 'polynomial', 'power', 'recent_colorset', 'reset', 'separator1', 'separator3', 'separator4', 'setIntercept', 'showCorrelationCoefficient', 'showEquation', 'tabcontrol') logarithmic = xDialog.getChild("logarithmic") #type regression logarithmic xentryname = xDialog.getChild("entry_name") #add name extrapolateForward = xDialog.getChild("extrapolateForward") extrapolateBackward = xDialog.getChild("extrapolateBackward") setIntercept = xDialog.getChild("setIntercept") interceptValue = xDialog.getChild("interceptValue") showEquation = xDialog.getChild("showEquation") showCorrelationCoefficient = xDialog.getChild("showCorrelationCoefficient") xVarname = xDialog.getChild("entry_Xname") yVarName = xDialog.getChild("entry_Yname") logarithmic.executeAction("CLICK", tuple()) xentryname.executeAction("TYPE", mkPropertyValues({"TEXT":"Name"})) extrapolateForward.executeAction("UP", tuple()) extrapolateBackward.executeAction("UP", tuple()) showEquation.executeAction("CLICK", tuple()) showCorrelationCoefficient.executeAction("CLICK", tuple()) xVarname.executeAction("CLEAR", tuple()) xVarname.executeAction("TYPE", mkPropertyValues({"TEXT":"a"})) yVarName.executeAction("CLEAR", tuple()) yVarName.executeAction("TYPE", mkPropertyValues({"TEXT":"f(a)"})) #Click on tab "Line". select_pos(tabcontrol, "1") # print(xDialog.getChildren()) # ('AttributeDialog', 'CBX_SYNCHRONIZE', 'CB_SYMBOL_RATIO', 'CTL_PREVIEW', 'FL_EDGE_STYLE', 'FL_LINE', 'FL_LINE_ENDS', 'FL_SYMBOL_FORMAT', 'FT_CAP_STYLE', 'FT_COLOR', 'FT_EDGE_STYLE', 'FT_LINE_ENDS_STYLE', 'FT_LINE_END_WIDTH', 'FT_LINE_START_WIDTH', 'FT_LINE_STYLE', 'FT_LINE_WIDTH', 'FT_SYMBOL_HEIGHT', 'FT_SYMBOL_WIDTH', 'FT_TRANSPARENT', 'LB_CAP_STYLE', 'LB_COLOR', 'LB_EDGE_STYLE', 'LB_END_STYLE', 'LB_LINE_STYLE', 'LB_START_STYLE', 'LineTabPage', 'MB_SYMBOL_BITMAP', 'MF_SYMBOL_HEIGHT', 'MF_SYMBOL_WIDTH', 'MTR_FLD_END_WIDTH', 'MTR_FLD_LINE_WIDTH', 'MTR_FLD_START_WIDTH', 'MTR_LINE_TRANSPARENT', 'TP_TRENDLINE', 'TSB_CENTER_END', 'TSB_CENTER_START', 'alignment1', 'alignment2', 'alignment3', 'alignment4', 'alignment6', 'auto_color_button', 'box1', 'box2', 'box3', 'box4', 'box5', 'boxARROW_STYLES', 'boxCOLOR', 'boxEND', 'boxSTART', 'boxTRANSPARENCY', 'boxWIDTH', 'cancel', 'color_picker_button', 'colorset', 'colorsetwin', 'degree', 'dialog-action_area1', 'dialog-vbox1', 'entry_Xname', 'entry_Yname', 'entry_name', 'exponential', 'extrapolateBackward', 'extrapolateForward', 'frame1', 'frame2', 'grid1', 'grid2', 'grid3', 'grid5', 'gridEDGE_CAPS', 'gridICON_SIZE', 'help', 'imageExponential', 'imageLinear', 'imageLogarithmic', 'imageMovingAverage', 'imagePolynomial', 'imagePower', 'interceptValue', 'label1', 'label2', 'label3', 'label4', 'label5', 'label6', 'label7', 'label8', 'label9', 'linear', 'logarithmic', 'movingAverage', 'none_color_button', 'ok', 'palette_listbox', 'palette_popup_window', 'period', 'polynomial', 'power', 'recent_colorset', 'reset', 'separator1', 'separator3', 'separator4', 'setIntercept', 'showCorrelationCoefficient', 'showEquation', 'tabcontrol') xWidth = xDialog.getChild("MTR_FLD_LINE_WIDTH") xTransparent = xDialog.getChild("MTR_LINE_TRANSPARENT") xWidth.executeAction("UP", tuple()) xTransparent.executeAction("UP", tuple()) self.assertEqual(get_state_as_dict(xWidth)["Text"], "0.10 cm") self.assertEqual(get_state_as_dict(xTransparent)["Text"], "5%") xOKBtn = xDialog.getChild("ok") self.ui_test.close_dialog_through_button(xOKBtn) #reopen and verify gridwin.executeAction("SELECT", mkPropertyValues({"OBJECT": "Object 1"})) gridwin.executeAction("ACTIVATE", tuple()) xChartMainTop = self.xUITest.getTopFocusWindow() xChartMain = xChartMainTop.getChild("chart_window") xSeriesObj = xChartMain.getChild("CID/D=0:CS=0:CT=0:Series=0") self.ui_test.execute_dialog_through_action(xSeriesObj, "COMMAND", mkPropertyValues({"COMMAND": "FormatTrendline"})) xDialog = self.xUITest.getTopFocusWindow() #Click on tab "Type". tabcontrol = xDialog.getChild("tabcontrol") select_pos(tabcontrol, "0") logarithmic = xDialog.getChild("logarithmic") #type regression logarithmic xentryname = xDialog.getChild("entry_name") #add name extrapolateForward = xDialog.getChild("extrapolateForward") extrapolateBackward = xDialog.getChild("extrapolateBackward") setIntercept = xDialog.getChild("setIntercept") interceptValue = xDialog.getChild("interceptValue") showEquation = xDialog.getChild("showEquation") showCorrelationCoefficient = xDialog.getChild("showCorrelationCoefficient") xVarname = xDialog.getChild("entry_Xname") yVarName = xDialog.getChild("entry_Yname") self.assertEqual(get_state_as_dict(logarithmic)["Checked"], "true") self.assertEqual(get_state_as_dict(xentryname)["Text"], "Name") self.assertEqual(get_state_as_dict(extrapolateForward)["Text"], "1") self.assertEqual(get_state_as_dict(extrapolateBackward)["Text"], "1") self.assertEqual(get_state_as_dict(showEquation)["Selected"], "true") self.assertEqual(get_state_as_dict(showCorrelationCoefficient)["Selected"], "true") self.assertEqual(get_state_as_dict(xVarname)["Text"], "a") self.assertEqual(get_state_as_dict(yVarName)["Text"], "f(a)") #Click on tab "Line". select_pos(tabcontrol, "1") xWidth = xDialog.getChild("MTR_FLD_LINE_WIDTH") xTransparent = xDialog.getChild("MTR_LINE_TRANSPARENT") self.assertEqual(get_state_as_dict(xWidth)["Text"], "0.10 cm") self.assertEqual(get_state_as_dict(xTransparent)["Text"], "5%") xOKBtn = xDialog.getChild("ok") self.ui_test.close_dialog_through_button(xOKBtn) #Now change regression Type to Exponential gridwin.executeAction("SELECT", mkPropertyValues({"OBJECT": "Object 1"})) gridwin.executeAction("ACTIVATE", tuple()) xChartMainTop = self.xUITest.getTopFocusWindow() xChartMain = xChartMainTop.getChild("chart_window") xSeriesObj = xChartMain.getChild("CID/D=0:CS=0:CT=0:Series=0") self.ui_test.execute_dialog_through_action(xSeriesObj, "COMMAND", mkPropertyValues({"COMMAND": "FormatTrendline"})) xDialog = self.xUITest.getTopFocusWindow() #Click on tab "Type". tabcontrol = xDialog.getChild("tabcontrol") select_pos(tabcontrol, "0") logarithmic = xDialog.getChild("logarithmic") #type regression logarithmic exponential = xDialog.getChild("exponential") #type regression exponential xentryname = xDialog.getChild("entry_name") #add name extrapolateForward = xDialog.getChild("extrapolateForward") extrapolateBackward = xDialog.getChild("extrapolateBackward") setIntercept = xDialog.getChild("setIntercept") interceptValue = xDialog.getChild("interceptValue") showEquation = xDialog.getChild("showEquation") showCorrelationCoefficient = xDialog.getChild("showCorrelationCoefficient") xVarname = xDialog.getChild("entry_Xname") yVarName = xDialog.getChild("entry_Yname") exponential.executeAction("CLICK", tuple()) #set exponential #set Force intercept setIntercept.executeAction("CLICK", tuple()) interceptValue.executeAction("UP", tuple()) #Click on tab "Line". select_pos(tabcontrol, "1") xWidth = xDialog.getChild("MTR_FLD_LINE_WIDTH") xTransparent = xDialog.getChild("MTR_LINE_TRANSPARENT") self.assertEqual(get_state_as_dict(xWidth)["Text"], "0.10 cm") self.assertEqual(get_state_as_dict(xTransparent)["Text"], "5%") xOKBtn = xDialog.getChild("ok") self.ui_test.close_dialog_through_button(xOKBtn) #reopen and verify Exponential gridwin.executeAction("SELECT", mkPropertyValues({"OBJECT": "Object 1"})) gridwin.executeAction("ACTIVATE", tuple()) xChartMainTop = self.xUITest.getTopFocusWindow() xChartMain = xChartMainTop.getChild("chart_window") xSeriesObj = xChartMain.getChild("CID/D=0:CS=0:CT=0:Series=0") self.ui_test.execute_dialog_through_action(xSeriesObj, "COMMAND", mkPropertyValues({"COMMAND": "FormatTrendline"})) xDialog = self.xUITest.getTopFocusWindow() #Click on tab "Type". tabcontrol = xDialog.getChild("tabcontrol") select_pos(tabcontrol, "0") logarithmic = xDialog.getChild("logarithmic") #type regression logarithmic exponential = xDialog.getChild("exponential") #type regression exponential xentryname = xDialog.getChild("entry_name") #add name extrapolateForward = xDialog.getChild("extrapolateForward") extrapolateBackward = xDialog.getChild("extrapolateBackward") setIntercept = xDialog.getChild("setIntercept") interceptValue = xDialog.getChild("interceptValue") showEquation = xDialog.getChild("showEquation") showCorrelationCoefficient = xDialog.getChild("showCorrelationCoefficient") xVarname = xDialog.getChild("entry_Xname") yVarName = xDialog.getChild("entry_Yname") self.assertEqual(get_state_as_dict(exponential)["Checked"], "true") self.assertEqual(get_state_as_dict(xentryname)["Text"], "Name") self.assertEqual(get_state_as_dict(extrapolateForward)["Text"], "1") self.assertEqual(get_state_as_dict(extrapolateBackward)["Text"], "1") self.assertEqual(get_state_as_dict(showEquation)["Selected"], "true") self.assertEqual(get_state_as_dict(setIntercept)["Selected"], "true") self.assertEqual(get_state_as_dict(interceptValue)["Text"], "1") self.assertEqual(get_state_as_dict(showCorrelationCoefficient)["Selected"], "true") self.assertEqual(get_state_as_dict(xVarname)["Text"], "a") self.assertEqual(get_state_as_dict(yVarName)["Text"], "f(a)") #Click on tab "Line". select_pos(tabcontrol, "1") xWidth = xDialog.getChild("MTR_FLD_LINE_WIDTH") xTransparent = xDialog.getChild("MTR_LINE_TRANSPARENT") self.assertEqual(get_state_as_dict(xWidth)["Text"], "0.10 cm") self.assertEqual(get_state_as_dict(xTransparent)["Text"], "5%") xOKBtn = xDialog.getChild("ok") self.ui_test.close_dialog_through_button(xOKBtn) #Now change regression Type to Power gridwin.executeAction("SELECT", mkPropertyValues({"OBJECT": "Object 1"})) gridwin.executeAction("ACTIVATE", tuple()) xChartMainTop = self.xUITest.getTopFocusWindow() xChartMain = xChartMainTop.getChild("chart_window") xSeriesObj = xChartMain.getChild("CID/D=0:CS=0:CT=0:Series=0") self.ui_test.execute_dialog_through_action(xSeriesObj, "COMMAND", mkPropertyValues({"COMMAND": "FormatTrendline"})) xDialog = self.xUITest.getTopFocusWindow() #Click on tab "Type". tabcontrol = xDialog.getChild("tabcontrol") select_pos(tabcontrol, "0") logarithmic = xDialog.getChild("logarithmic") #type regression logarithmic exponential = xDialog.getChild("exponential") #type regression exponential power = xDialog.getChild("exponential") #type regression power xentryname = xDialog.getChild("entry_name") #add name extrapolateForward = xDialog.getChild("extrapolateForward") extrapolateBackward = xDialog.getChild("extrapolateBackward") setIntercept = xDialog.getChild("setIntercept") interceptValue = xDialog.getChild("interceptValue") showEquation = xDialog.getChild("showEquation") showCorrelationCoefficient = xDialog.getChild("showCorrelationCoefficient") xVarname = xDialog.getChild("entry_Xname") yVarName = xDialog.getChild("entry_Yname") power.executeAction("CLICK", tuple()) #set power #Click on tab "Line". select_pos(tabcontrol, "1") xWidth = xDialog.getChild("MTR_FLD_LINE_WIDTH") xTransparent = xDialog.getChild("MTR_LINE_TRANSPARENT") self.assertEqual(get_state_as_dict(xWidth)["Text"], "0.10 cm") self.assertEqual(get_state_as_dict(xTransparent)["Text"], "5%") xOKBtn = xDialog.getChild("ok") self.ui_test.close_dialog_through_button(xOKBtn) #reopen and verify Power gridwin.executeAction("SELECT", mkPropertyValues({"OBJECT": "Object 1"})) gridwin.executeAction("ACTIVATE", tuple()) xChartMainTop = self.xUITest.getTopFocusWindow() xChartMain = xChartMainTop.getChild("chart_window") xSeriesObj = xChartMain.getChild("CID/D=0:CS=0:CT=0:Series=0") self.ui_test.execute_dialog_through_action(xSeriesObj, "COMMAND", mkPropertyValues({"COMMAND": "FormatTrendline"})) xDialog = self.xUITest.getTopFocusWindow() #Click on tab "Type". tabcontrol = xDialog.getChild("tabcontrol") select_pos(tabcontrol, "0") logarithmic = xDialog.getChild("logarithmic") #type regression logarithmic exponential = xDialog.getChild("exponential") #type regression exponential power = xDialog.getChild("exponential") #type regression power xentryname = xDialog.getChild("entry_name") #add name extrapolateForward = xDialog.getChild("extrapolateForward") extrapolateBackward = xDialog.getChild("extrapolateBackward") setIntercept = xDialog.getChild("setIntercept") interceptValue = xDialog.getChild("interceptValue") showEquation = xDialog.getChild("showEquation") showCorrelationCoefficient = xDialog.getChild("showCorrelationCoefficient") xVarname = xDialog.getChild("entry_Xname") yVarName = xDialog.getChild("entry_Yname") self.assertEqual(get_state_as_dict(power)["Checked"], "true") self.assertEqual(get_state_as_dict(xentryname)["Text"], "Name") self.assertEqual(get_state_as_dict(extrapolateForward)["Text"], "1") self.assertEqual(get_state_as_dict(extrapolateBackward)["Text"], "1") self.assertEqual(get_state_as_dict(showEquation)["Selected"], "true") # self.assertEqual(get_state_as_dict(setIntercept)["Selected"], "true") # self.assertEqual(get_state_as_dict(interceptValue)["Text"], "1") self.assertEqual(get_state_as_dict(showCorrelationCoefficient)["Selected"], "true") self.assertEqual(get_state_as_dict(xVarname)["Text"], "a") self.assertEqual(get_state_as_dict(yVarName)["Text"], "f(a)") #Click on tab "Line". select_pos(tabcontrol, "1") xWidth = xDialog.getChild("MTR_FLD_LINE_WIDTH") xTransparent = xDialog.getChild("MTR_LINE_TRANSPARENT") self.assertEqual(get_state_as_dict(xWidth)["Text"], "0.10 cm") self.assertEqual(get_state_as_dict(xTransparent)["Text"], "5%") xOKBtn = xDialog.getChild("ok") self.ui_test.close_dialog_through_button(xOKBtn) #Now change regression Type to Polynomial gridwin.executeAction("SELECT", mkPropertyValues({"OBJECT": "Object 1"})) gridwin.executeAction("ACTIVATE", tuple()) xChartMainTop = self.xUITest.getTopFocusWindow() xChartMain = xChartMainTop.getChild("chart_window") xSeriesObj = xChartMain.getChild("CID/D=0:CS=0:CT=0:Series=0") self.ui_test.execute_dialog_through_action(xSeriesObj, "COMMAND", mkPropertyValues({"COMMAND": "FormatTrendline"})) xDialog = self.xUITest.getTopFocusWindow() #Click on tab "Type". tabcontrol = xDialog.getChild("tabcontrol") select_pos(tabcontrol, "0") logarithmic = xDialog.getChild("logarithmic") #type regression logarithmic exponential = xDialog.getChild("exponential") #type regression exponential power = xDialog.getChild("exponential") #type regression power polynomial = xDialog.getChild("polynomial") #type regression polynomial degree = xDialog.getChild("degree") xentryname = xDialog.getChild("entry_name") #add name extrapolateForward = xDialog.getChild("extrapolateForward") extrapolateBackward = xDialog.getChild("extrapolateBackward") setIntercept = xDialog.getChild("setIntercept") interceptValue = xDialog.getChild("interceptValue") showEquation = xDialog.getChild("showEquation") showCorrelationCoefficient = xDialog.getChild("showCorrelationCoefficient") xVarname = xDialog.getChild("entry_Xname") yVarName = xDialog.getChild("entry_Yname") polynomial.executeAction("CLICK", tuple()) #set polynomial degree.executeAction("UP", tuple()) #Click on tab "Line". select_pos(tabcontrol, "1") xWidth = xDialog.getChild("MTR_FLD_LINE_WIDTH") xTransparent = xDialog.getChild("MTR_LINE_TRANSPARENT") self.assertEqual(get_state_as_dict(xWidth)["Text"], "0.10 cm") self.assertEqual(get_state_as_dict(xTransparent)["Text"], "5%") xOKBtn = xDialog.getChild("ok") self.ui_test.close_dialog_through_button(xOKBtn) #reopen and verify Polynomial gridwin.executeAction("SELECT", mkPropertyValues({"OBJECT": "Object 1"})) gridwin.executeAction("ACTIVATE", tuple()) xChartMainTop = self.xUITest.getTopFocusWindow() xChartMain = xChartMainTop.getChild("chart_window") xSeriesObj = xChartMain.getChild("CID/D=0:CS=0:CT=0:Series=0") self.ui_test.execute_dialog_through_action(xSeriesObj, "COMMAND", mkPropertyValues({"COMMAND": "FormatTrendline"})) xDialog = self.xUITest.getTopFocusWindow() #Click on tab "Type". tabcontrol = xDialog.getChild("tabcontrol") select_pos(tabcontrol, "0") logarithmic = xDialog.getChild("logarithmic") #type regression logarithmic exponential = xDialog.getChild("exponential") #type regression exponential power = xDialog.getChild("exponential") #type regression power polynomial = xDialog.getChild("polynomial") #type regression polynomial degree = xDialog.getChild("degree") xentryname = xDialog.getChild("entry_name") #add name extrapolateForward = xDialog.getChild("extrapolateForward") extrapolateBackward = xDialog.getChild("extrapolateBackward") setIntercept = xDialog.getChild("setIntercept") interceptValue = xDialog.getChild("interceptValue") showEquation = xDialog.getChild("showEquation") showCorrelationCoefficient = xDialog.getChild("showCorrelationCoefficient") xVarname = xDialog.getChild("entry_Xname") yVarName = xDialog.getChild("entry_Yname") self.assertEqual(get_state_as_dict(polynomial)["Checked"], "true") self.assertEqual(get_state_as_dict(degree)["Text"], "3") self.assertEqual(get_state_as_dict(xentryname)["Text"], "Name") self.assertEqual(get_state_as_dict(extrapolateForward)["Text"], "1") self.assertEqual(get_state_as_dict(extrapolateBackward)["Text"], "1") self.assertEqual(get_state_as_dict(showEquation)["Selected"], "true") self.assertEqual(get_state_as_dict(setIntercept)["Selected"], "true") self.assertEqual(get_state_as_dict(interceptValue)["Text"], "1") self.assertEqual(get_state_as_dict(showCorrelationCoefficient)["Selected"], "true") self.assertEqual(get_state_as_dict(xVarname)["Text"], "a") self.assertEqual(get_state_as_dict(yVarName)["Text"], "f(a)") #Click on tab "Line". select_pos(tabcontrol, "1") xWidth = xDialog.getChild("MTR_FLD_LINE_WIDTH") xTransparent = xDialog.getChild("MTR_LINE_TRANSPARENT") self.assertEqual(get_state_as_dict(xWidth)["Text"], "0.10 cm") self.assertEqual(get_state_as_dict(xTransparent)["Text"], "5%") xOKBtn = xDialog.getChild("ok") self.ui_test.close_dialog_through_button(xOKBtn) #Now change regression Type to Moving average gridwin.executeAction("SELECT", mkPropertyValues({"OBJECT": "Object 1"})) gridwin.executeAction("ACTIVATE", tuple()) xChartMainTop = self.xUITest.getTopFocusWindow() xChartMain = xChartMainTop.getChild("chart_window") xSeriesObj = xChartMain.getChild("CID/D=0:CS=0:CT=0:Series=0") self.ui_test.execute_dialog_through_action(xSeriesObj, "COMMAND", mkPropertyValues({"COMMAND": "FormatTrendline"})) xDialog = self.xUITest.getTopFocusWindow() #Click on tab "Type". tabcontrol = xDialog.getChild("tabcontrol") select_pos(tabcontrol, "0") logarithmic = xDialog.getChild("logarithmic") #type regression logarithmic exponential = xDialog.getChild("exponential") #type regression exponential power = xDialog.getChild("exponential") #type regression power movingAverage = xDialog.getChild("movingAverage") #type regression Moving average period = xDialog.getChild("period") xentryname = xDialog.getChild("entry_name") #add name extrapolateForward = xDialog.getChild("extrapolateForward") extrapolateBackward = xDialog.getChild("extrapolateBackward") setIntercept = xDialog.getChild("setIntercept") interceptValue = xDialog.getChild("interceptValue") showEquation = xDialog.getChild("showEquation") showCorrelationCoefficient = xDialog.getChild("showCorrelationCoefficient") xVarname = xDialog.getChild("entry_Xname") yVarName = xDialog.getChild("entry_Yname") movingAverage.executeAction("CLICK", tuple()) #set polynomial period.executeAction("UP", tuple()) #Click on tab "Line". select_pos(tabcontrol, "1") xWidth = xDialog.getChild("MTR_FLD_LINE_WIDTH") xTransparent = xDialog.getChild("MTR_LINE_TRANSPARENT") self.assertEqual(get_state_as_dict(xWidth)["Text"], "0.10 cm") self.assertEqual(get_state_as_dict(xTransparent)["Text"], "5%") xOKBtn = xDialog.getChild("ok") self.ui_test.close_dialog_through_button(xOKBtn) #reopen and verify Moving average gridwin.executeAction("SELECT", mkPropertyValues({"OBJECT": "Object 1"})) gridwin.executeAction("ACTIVATE", tuple()) xChartMainTop = self.xUITest.getTopFocusWindow() xChartMain = xChartMainTop.getChild("chart_window") xSeriesObj = xChartMain.getChild("CID/D=0:CS=0:CT=0:Series=0") self.ui_test.execute_dialog_through_action(xSeriesObj, "COMMAND", mkPropertyValues({"COMMAND": "FormatTrendline"})) xDialog = self.xUITest.getTopFocusWindow() #Click on tab "Type". tabcontrol = xDialog.getChild("tabcontrol") select_pos(tabcontrol, "0") logarithmic = xDialog.getChild("logarithmic") #type regression logarithmic exponential = xDialog.getChild("exponential") #type regression exponential power = xDialog.getChild("exponential") #type regression power polynomial = xDialog.getChild("polynomial") #type regression polynomial movingAverage = xDialog.getChild("movingAverage") #type regression Moving average degree = xDialog.getChild("degree") period = xDialog.getChild("period") xentryname = xDialog.getChild("entry_name") #add name extrapolateForward = xDialog.getChild("extrapolateForward") extrapolateBackward = xDialog.getChild("extrapolateBackward") setIntercept = xDialog.getChild("setIntercept") interceptValue = xDialog.getChild("interceptValue") showEquation = xDialog.getChild("showEquation") showCorrelationCoefficient = xDialog.getChild("showCorrelationCoefficient") xVarname = xDialog.getChild("entry_Xname") yVarName = xDialog.getChild("entry_Yname") self.assertEqual(get_state_as_dict(movingAverage)["Checked"], "true") self.assertEqual(get_state_as_dict(period)["Text"], "3") self.assertEqual(get_state_as_dict(xentryname)["Text"], "Name") #Click on tab "Line". select_pos(tabcontrol, "1") xWidth = xDialog.getChild("MTR_FLD_LINE_WIDTH") xTransparent = xDialog.getChild("MTR_LINE_TRANSPARENT") self.assertEqual(get_state_as_dict(xWidth)["Text"], "0.10 cm") self.assertEqual(get_state_as_dict(xTransparent)["Text"], "5%") xOKBtn = xDialog.getChild("ok") self.ui_test.close_dialog_through_button(xOKBtn) self.ui_test.close_doc() # vim: set shiftwidth=4 softtabstop=4 expandtab: