# -*- tab-width: 4; indent-tabs-mode: nil; py-indent-offset: 4 -*- # # This file is part of the LibreOffice project. # # 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 change_measurement_unit from uitest.uihelper.common import get_state_as_dict, get_url_for_data_file from uitest.uihelper.common import select_by_text, select_pos from libreoffice.uno.propertyvalue import mkPropertyValues # Chart - X Axis class chartXAxis(UITestCase): def test_chart_x_axis_dialog(self): with self.ui_test.load_file(get_url_for_data_file("tdf122398.ods")) as calc_doc: xCalcDoc = self.xUITest.getTopFocusWindow() gridwin = xCalcDoc.getChild("grid_window") change_measurement_unit(self, "Centimeter") 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") with self.ui_test.execute_dialog_through_action(xSeriesObj, "COMMAND", mkPropertyValues({"COMMAND": "DiagramAxisX"})) as xDialog: #Click on tab "Scale". tabcontrol = xDialog.getChild("tabcontrol") select_pos(tabcontrol, "0") reverseDirection = xDialog.getChild("CBX_REVERSE") logarithmicScale = xDialog.getChild("CBX_LOGARITHM") autoMinimum = xDialog.getChild("CBX_AUTO_MIN") autoMaximum = xDialog.getChild("CBX_AUTO_MAX") majorInterval = xDialog.getChild("CBX_AUTO_STEP_MAIN") minorInterval = xDialog.getChild("CBX_AUTO_STEP_HELP") minimum = xDialog.getChild("EDT_MIN") maximum = xDialog.getChild("EDT_MAX") major = xDialog.getChild("EDT_STEP_MAIN") minor = xDialog.getChild("MT_STEPHELP") reverseDirection.executeAction("CLICK", tuple()) logarithmicScale.executeAction("CLICK", tuple()) autoMinimum.executeAction("CLICK", tuple()) autoMaximum.executeAction("CLICK", tuple()) majorInterval.executeAction("CLICK", tuple()) minorInterval.executeAction("CLICK", tuple()) minimum.executeAction("DOWN", tuple()) #10.12.2017 maximum.executeAction("DOWN", tuple()) #29.04.2018 major.executeAction("DOWN", tuple()) #19 minor.executeAction("UP", tuple()) #3 #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") with self.ui_test.execute_dialog_through_action(xSeriesObj, "COMMAND", mkPropertyValues({"COMMAND": "DiagramAxisX"})) as xDialog: #Click on tab "Scale". tabcontrol = xDialog.getChild("tabcontrol") select_pos(tabcontrol, "0") reverseDirection = xDialog.getChild("CBX_REVERSE") logarithmicScale = xDialog.getChild("CBX_LOGARITHM") autoMinimum = xDialog.getChild("CBX_AUTO_MIN") autoMaximum = xDialog.getChild("CBX_AUTO_MAX") majorInterval = xDialog.getChild("CBX_AUTO_STEP_MAIN") minorInterval = xDialog.getChild("CBX_AUTO_STEP_HELP") minimum = xDialog.getChild("EDT_MIN") maximum = xDialog.getChild("EDT_MAX") major = xDialog.getChild("EDT_STEP_MAIN") minor = xDialog.getChild("MT_STEPHELP") self.assertEqual(get_state_as_dict(reverseDirection)["Selected"], "true") self.assertEqual(get_state_as_dict(logarithmicScale)["Selected"], "true") self.assertEqual(get_state_as_dict(autoMinimum)["Selected"], "false") self.assertEqual(get_state_as_dict(autoMaximum)["Selected"], "false") self.assertEqual(get_state_as_dict(majorInterval)["Selected"], "false") self.assertEqual(get_state_as_dict(minorInterval)["Selected"], "false") self.assertEqual(get_state_as_dict(minimum)["Text"], "10.12.2017") self.assertEqual(get_state_as_dict(maximum)["Text"], "29.04.2018") self.assertEqual(get_state_as_dict(major)["Text"], "19") self.assertEqual(get_state_as_dict(minor)["Text"], "3") #Click on tab "positioning". tabcontrol = xDialog.getChild("tabcontrol") select_pos(tabcontrol, "1") crossAxis = xDialog.getChild("LB_CROSSES_OTHER_AXIS_AT") crossAxisValue = xDialog.getChild("EDT_CROSSES_OTHER_AXIS_AT") #only available when crossAxis = Value placeLabels = xDialog.getChild("LB_PLACE_LABELS") innerMajorTick = xDialog.getChild("CB_TICKS_INNER") outerMajorTick = xDialog.getChild("CB_TICKS_OUTER") innerMinorTick = xDialog.getChild("CB_MINOR_INNER") outerMinorTick = xDialog.getChild("CB_MINOR_OUTER") placeMarks = xDialog.getChild("LB_PLACE_TICKS") select_by_text(crossAxis, "Start") select_by_text(placeLabels, "Outside end") innerMajorTick.executeAction("CLICK", tuple()) outerMajorTick.executeAction("CLICK", tuple()) innerMinorTick.executeAction("CLICK", tuple()) outerMinorTick.executeAction("CLICK", tuple()) select_by_text(placeMarks, "At axis") #reopen and verify tab "positioning". 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") with self.ui_test.execute_dialog_through_action(xSeriesObj, "COMMAND", mkPropertyValues({"COMMAND": "DiagramAxisX"})) as xDialog: tabcontrol = xDialog.getChild("tabcontrol") select_pos(tabcontrol, "1") crossAxis = xDialog.getChild("LB_CROSSES_OTHER_AXIS_AT") crossAxisValue = xDialog.getChild("EDT_CROSSES_OTHER_AXIS_AT") #only available when crossAxis = Value placeLabels = xDialog.getChild("LB_PLACE_LABELS") innerMajorTick = xDialog.getChild("CB_TICKS_INNER") outerMajorTick = xDialog.getChild("CB_TICKS_OUTER") innerMinorTick = xDialog.getChild("CB_MINOR_INNER") outerMinorTick = xDialog.getChild("CB_MINOR_OUTER") placeMarks = xDialog.getChild("LB_PLACE_TICKS") self.assertEqual(get_state_as_dict(crossAxis)["SelectEntryText"], "Start") self.assertEqual(get_state_as_dict(placeLabels)["SelectEntryText"], "Outside end") self.assertEqual(get_state_as_dict(innerMajorTick)["Selected"], "true") self.assertEqual(get_state_as_dict(outerMajorTick)["Selected"], "false") self.assertEqual(get_state_as_dict(innerMinorTick)["Selected"], "true") self.assertEqual(get_state_as_dict(outerMinorTick)["Selected"], "true") self.assertEqual(get_state_as_dict(placeMarks)["SelectEntryText"], "At axis") #change tab "positioning". select_by_text(crossAxis, "Value") crossAxisValue.executeAction("UP", tuple()) #1 #reopen and verify tab "positioning". 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") with self.ui_test.execute_dialog_through_action(xSeriesObj, "COMMAND", mkPropertyValues({"COMMAND": "DiagramAxisX"})) as xDialog: tabcontrol = xDialog.getChild("tabcontrol") select_pos(tabcontrol, "1") crossAxis = xDialog.getChild("LB_CROSSES_OTHER_AXIS_AT") crossAxisValue = xDialog.getChild("EDT_CROSSES_OTHER_AXIS_AT") #only available when crossAxis = Value placeLabels = xDialog.getChild("LB_PLACE_LABELS") innerMajorTick = xDialog.getChild("CB_TICKS_INNER") outerMajorTick = xDialog.getChild("CB_TICKS_OUTER") innerMinorTick = xDialog.getChild("CB_MINOR_INNER") outerMinorTick = xDialog.getChild("CB_MINOR_OUTER") placeMarks = xDialog.getChild("LB_PLACE_TICKS") self.assertEqual(get_state_as_dict(crossAxis)["SelectEntryText"], "Value") self.assertEqual(get_state_as_dict(crossAxisValue)["Text"], "1") self.assertEqual(get_state_as_dict(placeLabels)["SelectEntryText"], "Outside end") self.assertEqual(get_state_as_dict(innerMajorTick)["Selected"], "true") self.assertEqual(get_state_as_dict(outerMajorTick)["Selected"], "false") self.assertEqual(get_state_as_dict(innerMinorTick)["Selected"], "true") self.assertEqual(get_state_as_dict(outerMinorTick)["Selected"], "true") self.assertEqual(get_state_as_dict(placeMarks)["SelectEntryText"], "At axis") #change tab "Line". select_pos(tabcontrol, "2") xWidth = xDialog.getChild("MTR_FLD_LINE_WIDTH") transparency = xDialog.getChild("MTR_LINE_TRANSPARENT") xWidth.executeAction("UP", tuple()) transparency.executeAction("UP", tuple()) #reopen and verify tab "Line". 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") with self.ui_test.execute_dialog_through_action(xSeriesObj, "COMMAND", mkPropertyValues({"COMMAND": "DiagramAxisX"})) as xDialog: tabcontrol = xDialog.getChild("tabcontrol") select_pos(tabcontrol, "2") xWidth = xDialog.getChild("MTR_FLD_LINE_WIDTH") transparency = xDialog.getChild("MTR_LINE_TRANSPARENT") self.assertEqual(get_state_as_dict(xWidth)["Text"], "0.10 cm") self.assertEqual(get_state_as_dict(transparency)["Text"], "5%") #change tab "Label" tabcontrol = xDialog.getChild("tabcontrol") select_pos(tabcontrol, "3") tile = xDialog.getChild("tile") overlapCB = xDialog.getChild("overlapCB") breakCB = xDialog.getChild("breakCB") stackedCB = xDialog.getChild("stackedCB") textdirLB = xDialog.getChild("textdirLB") tile.executeAction("CLICK", tuple()) overlapCB.executeAction("CLICK", tuple()) breakCB.executeAction("CLICK", tuple()) stackedCB.executeAction("CLICK", tuple()) select_by_text(textdirLB, "Right-to-left") #reopen and verify tab "Label". 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") with self.ui_test.execute_dialog_through_action(xSeriesObj, "COMMAND", mkPropertyValues({"COMMAND": "DiagramAxisX"})) as xDialog: tabcontrol = xDialog.getChild("tabcontrol") select_pos(tabcontrol, "3") tile = xDialog.getChild("tile") overlapCB = xDialog.getChild("overlapCB") breakCB = xDialog.getChild("breakCB") stackedCB = xDialog.getChild("stackedCB") textdirLB = xDialog.getChild("textdirLB") self.assertEqual(get_state_as_dict(tile)["Checked"], "true") self.assertEqual(get_state_as_dict(overlapCB)["Selected"], "true") self.assertEqual(get_state_as_dict(breakCB)["Selected"], "true") self.assertEqual(get_state_as_dict(stackedCB)["Selected"], "true") self.assertEqual(get_state_as_dict(textdirLB)["SelectEntryText"], "Right-to-left") # vim: set shiftwidth=4 softtabstop=4 expandtab: