forked from amazingfate/loongoffice
9547d9f7ac
SwChartDataProvider's XML conversion methods were untested. Also add tests for SwChartDataSequence's clone method and its get/ set property value methods. Change-Id: I6323a7af1eae747592f5016b13fb5e2e3f0b71d1 Reviewed-on: https://gerrit.libreoffice.org/26995 Tested-by: Jenkins <ci@libreoffice.org> Reviewed-by: jan iversen <jani@documentfoundation.org>
581 lines
27 KiB
Python
581 lines
27 KiB
Python
import math
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import unittest
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from org.libreoffice.unotest import UnoInProcess
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from com.sun.star.beans import PropertyValue
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from com.sun.star.uno import RuntimeException
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from com.sun.star.table import BorderLine
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from com.sun.star.table import BorderLine2
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from com.sun.star.table.BorderLineStyle import (DOUBLE, SOLID, EMBOSSED,
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THICKTHIN_LARGEGAP, DASHED, DOTTED)
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from com.sun.star.util import XNumberFormats
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from com.sun.star.lang import Locale
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class CheckTable(unittest.TestCase):
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def _fill_table(self, xTable):
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for x in range(3):
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for y in range(3):
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xTable.getCellByPosition(x, y).String = 'Cell %d %d' % (x, y)
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def _check_table(self, xTable):
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for x in range(3):
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for y in range(3):
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self.assertEqual('Cell %d %d' % (x, y), xTable.getCellByPosition(x, y).String)
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@classmethod
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def setUpClass(cls):
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cls._uno = UnoInProcess()
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cls._uno.setUp()
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cls.OOLineHairline = 2
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@classmethod
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def tearDownClass(cls):
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cls._uno.tearDown()
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def __test_borderAsserts(self, xBorderLine, lineValid):
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self.assertTrue(lineValid)
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self.assertEqual(0, xBorderLine.InnerLineWidth)
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self.assertEqual(self.OOLineHairline, xBorderLine.OuterLineWidth)
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self.assertEqual(0, xBorderLine.LineDistance)
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self.assertEqual(0, xBorderLine.Color)
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def __test_borderAssertsWithLineStyle(self, xBorderLine, lineValid):
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self.__test_borderAsserts(xBorderLine, lineValid)
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self.assertEqual(self.OOLineHairline, xBorderLine.LineWidth)
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self.assertEqual(SOLID, xBorderLine.LineStyle)
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def __test_borderDistance(self, border):
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self.assertTrue(border.IsDistanceValid)
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self.assertEqual(97, border.Distance)
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def test_tableborder(self):
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xDoc = CheckTable._uno.openEmptyWriterDoc()
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# insert table
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xTable = xDoc.createInstance("com.sun.star.text.TextTable")
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xTable.initialize(3, 3)
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xText = xDoc.getText()
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xCursor = xText.createTextCursor()
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xText.insertTextContent(xCursor, xTable, False)
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borderDistances = xTable.TableBorderDistances
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self.assertEqual(97, borderDistances.TopDistance)
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self.assertEqual(97, borderDistances.BottomDistance)
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self.assertEqual(97, borderDistances.LeftDistance)
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self.assertEqual(97, borderDistances.RightDistance)
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self.assertEqual(True, borderDistances.IsTopDistanceValid)
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self.assertEqual(True, borderDistances.IsBottomDistanceValid)
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self.assertEqual(True, borderDistances.IsLeftDistanceValid)
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self.assertEqual(True, borderDistances.IsRightDistanceValid)
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border = xTable.getPropertyValue("TableBorder")
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self.__test_borderAsserts(border.TopLine, border.IsTopLineValid)
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self.__test_borderAsserts(border.BottomLine, border.IsBottomLineValid)
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self.__test_borderAsserts(border.LeftLine, border.IsLeftLineValid)
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self.__test_borderAsserts(border.RightLine, border.IsRightLineValid)
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self.__test_borderAsserts(border.HorizontalLine, border.IsHorizontalLineValid)
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self.__test_borderAsserts(border.VerticalLine, border.IsVerticalLineValid)
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self.__test_borderDistance(border)
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# set border
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border.TopLine = BorderLine(0, 11, 19, 19)
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border.BottomLine = BorderLine(0xFF, 00, 11, 00)
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border.HorizontalLine = BorderLine(0xFF00, 00, 90, 00)
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xTable.setPropertyValue("TableBorder", border)
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# read set border
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border = xTable.getPropertyValue("TableBorder")
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self.assertTrue(border.IsTopLineValid)
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self.assertEqual(11, border.TopLine.InnerLineWidth)
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self.assertEqual(19, border.TopLine.OuterLineWidth)
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self.assertEqual(19, border.TopLine.LineDistance)
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self.assertEqual(0, border.TopLine.Color)
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self.assertTrue(border.IsBottomLineValid)
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self.assertEqual(0, border.BottomLine.InnerLineWidth)
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self.assertEqual(11, border.BottomLine.OuterLineWidth)
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self.assertEqual(0, border.BottomLine.LineDistance)
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self.assertEqual(0xFF, border.BottomLine.Color)
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self.__test_borderAsserts(border.LeftLine, border.IsLeftLineValid)
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self.__test_borderAsserts(border.RightLine, border.IsRightLineValid)
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self.assertTrue(border.IsHorizontalLineValid)
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self.assertEqual(0, border.HorizontalLine.InnerLineWidth)
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self.assertEqual(90, border.HorizontalLine.OuterLineWidth)
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self.assertEqual(0, border.HorizontalLine.LineDistance)
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self.assertEqual(0xFF00, border.HorizontalLine.Color)
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self.__test_borderAsserts(border.VerticalLine, border.IsVerticalLineValid)
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self.__test_borderDistance(border)
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border2 = xTable.getPropertyValue("TableBorder2")
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self.assertTrue(border2.IsTopLineValid)
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self.assertEqual(11, border2.TopLine.InnerLineWidth)
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self.assertEqual(19, border2.TopLine.OuterLineWidth)
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self.assertEqual(19, border2.TopLine.LineDistance)
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self.assertEqual(0, border2.TopLine.Color)
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self.assertEqual(DOUBLE, border2.TopLine.LineStyle)
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self.assertEqual(49, border2.TopLine.LineWidth)
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self.assertTrue(border2.IsBottomLineValid)
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self.assertEqual(0, border2.BottomLine.InnerLineWidth)
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self.assertEqual(11, border2.BottomLine.OuterLineWidth)
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self.assertEqual(0, border2.BottomLine.LineDistance)
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self.assertEqual(0xFF, border2.BottomLine.Color)
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self.assertEqual(SOLID, border2.BottomLine.LineStyle)
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self.assertEqual(11, border2.BottomLine.LineWidth)
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self.__test_borderAssertsWithLineStyle(border2.LeftLine, border2.IsLeftLineValid)
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self.__test_borderAssertsWithLineStyle(border2.RightLine, border2.IsRightLineValid)
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self.assertTrue(border2.IsHorizontalLineValid)
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self.assertEqual(0, border2.HorizontalLine.InnerLineWidth)
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self.assertEqual(90, border2.HorizontalLine.OuterLineWidth)
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self.assertEqual(0, border2.HorizontalLine.LineDistance)
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self.assertEqual(0xFF00, border2.HorizontalLine.Color)
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self.assertEqual(SOLID, border2.HorizontalLine.LineStyle)
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self.assertEqual(90, border2.HorizontalLine.LineWidth)
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self.__test_borderAssertsWithLineStyle(border2.VerticalLine, border2.IsVerticalLineValid)
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self.__test_borderDistance(border2)
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# set border2
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border2.RightLine = BorderLine2(0, 0, 0, 0, THICKTHIN_LARGEGAP, 120)
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border2.LeftLine = BorderLine2(0, 0, 0, 0, EMBOSSED, 90)
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border2.VerticalLine = BorderLine2(0xFF, 0, 90, 0, DOTTED, 0)
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border2.HorizontalLine = BorderLine2(0xFF00, 0, 0, 0, DASHED, 11)
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xTable.setPropertyValue("TableBorder2", border2)
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# read set border2
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border2 = xTable.getPropertyValue("TableBorder2")
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self.assertTrue(border2.IsTopLineValid)
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self.assertEqual(11, border2.TopLine.InnerLineWidth)
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self.assertEqual(19, border2.TopLine.OuterLineWidth)
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self.assertEqual(19, border2.TopLine.LineDistance)
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self.assertEqual(0, border2.TopLine.Color)
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self.assertEqual(DOUBLE, border2.TopLine.LineStyle)
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self.assertEqual(49, border2.TopLine.LineWidth)
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self.assertTrue(border2.IsBottomLineValid)
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self.assertEqual(0, border2.BottomLine.InnerLineWidth)
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self.assertEqual(11, border2.BottomLine.OuterLineWidth)
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self.assertEqual(0, border2.BottomLine.LineDistance)
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self.assertEqual(0xFF, border2.BottomLine.Color)
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self.assertEqual(SOLID, border2.BottomLine.LineStyle)
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self.assertEqual(11, border2.BottomLine.LineWidth)
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self.assertTrue(border2.IsLeftLineValid)
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self.assertEqual(23, border2.LeftLine.InnerLineWidth)
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self.assertEqual(23, border2.LeftLine.OuterLineWidth)
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self.assertEqual(46, border2.LeftLine.LineDistance)
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self.assertEqual(0, border2.LeftLine.Color)
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self.assertEqual(EMBOSSED, border2.LeftLine.LineStyle)
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self.assertEqual(90, border2.LeftLine.LineWidth)
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self.assertTrue(border2.IsRightLineValid)
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self.assertEqual(53, border2.RightLine.InnerLineWidth)
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self.assertEqual(26, border2.RightLine.OuterLineWidth)
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self.assertEqual(41, border2.RightLine.LineDistance)
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self.assertEqual(0, border2.RightLine.Color)
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self.assertEqual(THICKTHIN_LARGEGAP, border2.RightLine.LineStyle)
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self.assertEqual(120, border2.RightLine.LineWidth)
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self.assertTrue(border2.IsHorizontalLineValid)
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self.assertEqual(0, border2.HorizontalLine.InnerLineWidth)
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self.assertEqual(11, border2.HorizontalLine.OuterLineWidth)
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self.assertEqual(0, border2.HorizontalLine.LineDistance)
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self.assertEqual(0xFF00, border2.HorizontalLine.Color)
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self.assertEqual(DASHED, border2.HorizontalLine.LineStyle)
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self.assertEqual(11, border2.HorizontalLine.LineWidth)
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self.assertTrue(border2.IsVerticalLineValid)
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self.assertEqual(0, border2.VerticalLine.InnerLineWidth)
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self.assertEqual(90, border2.VerticalLine.OuterLineWidth)
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self.assertEqual(0, border2.VerticalLine.LineDistance)
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self.assertEqual(0xFF, border2.VerticalLine.Color)
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self.assertEqual(DOTTED, border2.VerticalLine.LineStyle)
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self.assertEqual(90, border2.VerticalLine.LineWidth)
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self.__test_borderDistance(border2)
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# close document
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xDoc.dispose()
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def test_fdo58242(self):
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xDoc = CheckTable._uno.openEmptyWriterDoc()
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# insert table
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xTable = xDoc.createInstance("com.sun.star.text.TextTable")
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xTable.initialize(3, 3)
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xText = xDoc.getText()
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xCursor = xText.createTextCursor()
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xText.insertTextContent(xCursor, xTable, False)
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# get anchor
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xAnchor = xTable.getAnchor()
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# check all properties on the anchor - shouldn't crash despite
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# pointing to a non-SwTextNode
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xPropsInfo = xAnchor.getPropertySetInfo()
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for i in xPropsInfo.getProperties():
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try:
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xAnchor.getPropertyValue(i.Name)
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except RuntimeException:
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pass
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# close document
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xDoc.dispose()
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def test_descriptions(self):
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xDoc = CheckTable._uno.openEmptyWriterDoc()
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# insert table
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xTable = xDoc.createInstance("com.sun.star.text.TextTable")
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xTable.initialize(3, 3)
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xCursor = xDoc.Text.createTextCursor()
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xDoc.Text.insertTextContent(xCursor, xTable, False)
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self.assertEqual(3, xTable.Rows.Count)
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self.assertEqual(3, xTable.Columns.Count)
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xTable.TableName = "foo"
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self.assertEqual("foo", xTable.TableName)
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xTable.TableTemplateName = "bar"
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self.assertEqual("bar", xTable.TableTemplateName)
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# fill table
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self._fill_table(xTable)
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self._check_table(xTable)
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# check without labels first
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xTable.ChartColumnAsLabel = False
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xTable.ChartRowAsLabel = False
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self.assertEqual(0, len(xTable.RowDescriptions))
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self.assertEqual(0, len(xTable.ColumnDescriptions))
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self.RowDescriptions = ('foo', 'bar', 'baz') # no labels, thus noop
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self.ColumnDescriptions = ('foo', 'bar', 'baz') # no labels, thus noop
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self._check_table(xTable)
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# now check with labels
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xTable.ChartColumnAsLabel = True
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xTable.ChartRowAsLabel = True
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self.assertEqual(2, len(xTable.RowDescriptions))
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self.assertEqual('Cell 0 1', xTable.RowDescriptions[0])
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self.assertEqual('Cell 0 2', xTable.RowDescriptions[1])
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self.assertEqual(2, len(xTable.ColumnDescriptions))
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self.assertEqual('Cell 1 0', xTable.ColumnDescriptions[0])
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self.assertEqual('Cell 2 0', xTable.ColumnDescriptions[1])
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with self.assertRaises(Exception):
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xTable.RowDescriptions = ('foo',) # too short
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with self.assertRaises(Exception):
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xTable.ColumnDescriptions = ('foo',) # too short
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self._check_table(xTable)
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xTable.RowDescriptions = ('fooRow', 'bazRow')
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xTable.ColumnDescriptions = ('fooColumn', 'bazColumn')
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self.assertEqual('fooRow', xTable.getCellByPosition(0, 1).String)
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self.assertEqual('bazRow', xTable.getCellByPosition(0, 2).String)
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self.assertEqual('fooColumn', xTable.getCellByPosition(1, 0).String)
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self.assertEqual('bazColumn', xTable.getCellByPosition(2, 0).String)
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xTable.getCellByPosition(0, 1).String = 'Cell 0 1' # reset changes values ...
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xTable.getCellByPosition(0, 2).String = 'Cell 0 2'
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xTable.getCellByPosition(1, 0).String = 'Cell 1 0'
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xTable.getCellByPosition(2, 0).String = 'Cell 2 0'
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self._check_table(xTable) # ... to ensure the rest was untouched
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# check disconnected table excepts, but doesnt crash
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xTable2 = xDoc.createInstance("com.sun.star.text.TextTable")
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xTable2.initialize(3, 3)
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with self.assertRaises(Exception):
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foo = xTable2.RowDescriptions
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with self.assertRaises(Exception):
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foo = xTable2.ColumnDescriptions
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xDoc.dispose()
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def test_getset_data(self):
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xDoc = CheckTable._uno.openEmptyWriterDoc()
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# insert table
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xTable = xDoc.createInstance("com.sun.star.text.TextTable")
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xTable.initialize(4, 3)
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xCursor = xDoc.Text.createTextCursor()
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xDoc.Text.insertTextContent(xCursor, xTable, False)
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xTable.ChartColumnAsLabel = False
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xTable.ChartRowAsLabel = False
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# roundtrip
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xTable.Data = ((1, 2, 3), (4, 5, 6), (7, 8, 9), (10, 11, 12))
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self.assertEqual(xTable.Data, ((1, 2, 3), (4, 5, 6), (7, 8, 9), (10, 11, 12)))
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# missing row
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with self.assertRaises(Exception):
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xTable.Data = ((1, 2, 3), (4, 5, 6), (7, 8, 9))
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# missing column
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with self.assertRaises(Exception):
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xTable.Data = ((1, 2), (4, 5), (7, 8), (10, 11))
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# with labels
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xTable.ChartColumnAsLabel = True
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xTable.ChartRowAsLabel = True
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self.assertEqual(xTable.Data, ((5, 6), (8, 9), (11, 12)))
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xTable.Data = ((55, 66), (88, 99), (1111, 1212))
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xTable.ChartColumnAsLabel = True
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xTable.ChartRowAsLabel = False
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self.assertEqual(xTable.Data, ((2, 3), (55, 66), (88, 99), (1111, 1212)))
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xTable.ChartColumnAsLabel = False
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xTable.ChartRowAsLabel = True
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self.assertEqual(xTable.Data, ((4, 55, 66), (7, 88, 99), (10, 1111, 1212)))
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xTable.ChartColumnAsLabel = False
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xTable.ChartRowAsLabel = False
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self.assertEqual(xTable.Data, ((1, 2, 3), (4, 55, 66), (7, 88, 99), (10, 1111, 1212)))
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xDoc.dispose()
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def test_remove_colrow(self):
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xDoc = CheckTable._uno.openEmptyWriterDoc()
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xTable = xDoc.createInstance("com.sun.star.text.TextTable")
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xTable.initialize(4, 3)
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xCursor = xDoc.Text.createTextCursor()
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xDoc.Text.insertTextContent(xCursor, xTable, False)
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xTable.ChartColumnAsLabel = False
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xTable.ChartRowAsLabel = False
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xTable.Data = ((1, 2, 3), (4, 5, 6), (7, 8, 9), (10, 11, 12))
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xRows = xTable.Rows
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self.assertEqual(xRows.ImplementationName, 'SwXTableRows')
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self.assertTrue(xRows.supportsService('com.sun.star.text.TableRows'))
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self.assertFalse(xRows.supportsService('foo'))
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self.assertIn('com.sun.star.text.TableRows', xRows.SupportedServiceNames)
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self.assertNotIn('foo', xRows.SupportedServiceNames)
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xRows.removeByIndex(1, 2)
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self.assertEqual(xTable.Data, ((1, 2, 3), (10, 11, 12)))
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xCols = xTable.Columns
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self.assertEqual(xCols.ImplementationName, 'SwXTableColumns')
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self.assertTrue(xCols.supportsService('com.sun.star.text.TableColumns'))
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self.assertFalse(xCols.supportsService('foo'))
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self.assertIn('com.sun.star.text.TableColumns', xCols.SupportedServiceNames)
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self.assertNotIn('foo', xCols.SupportedServiceNames)
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xCols.removeByIndex(1, 1)
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self.assertEqual(xTable.Data, ((1, 3), (10, 12)))
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xDoc.dispose()
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def test_insert_colrow(self):
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xDoc = CheckTable._uno.openEmptyWriterDoc()
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xTable = xDoc.createInstance("com.sun.star.text.TextTable")
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xTable.initialize(4, 3)
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xCursor = xDoc.Text.createTextCursor()
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xDoc.Text.insertTextContent(xCursor, xTable, False)
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xTable.ChartColumnAsLabel = False
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xTable.ChartRowAsLabel = False
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xTable.Data = ((1, 2, 3), (4, 5, 6), (7, 8, 9), (10, 11, 12))
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xRows = xTable.Rows
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xRows.insertByIndex(1, 2)
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nan = float('nan')
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self.assertEqual(xTable.Data[0], (1, 2, 3))
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self.assertEqual(xTable.Data[3], (4, 5, 6))
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self.assertEqual(xTable.Data[4], (7, 8, 9))
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self.assertEqual(xTable.Data[5], (10, 11, 12))
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for x in range(3):
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self.assertTrue(math.isnan(xTable.Data[1][x]))
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self.assertTrue(math.isnan(xTable.Data[2][x]))
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xCols = xTable.Columns
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xCols.insertByIndex(1, 1)
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self.assertEqual(xTable.Data[0][0], 1)
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self.assertTrue(math.isnan(xTable.Data[0][1]))
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self.assertEqual(xTable.Data[0][2], 2)
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self.assertEqual(xTable.Data[0][3], 3)
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self.assertEqual(xTable.Data[3][0], 4)
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self.assertTrue(math.isnan(xTable.Data[3][1]))
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self.assertEqual(xTable.Data[3][2], 5)
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self.assertEqual(xTable.Data[3][3], 6)
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self.assertEqual(xTable.Data[4][0], 7)
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self.assertTrue(math.isnan(xTable.Data[4][1]))
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self.assertEqual(xTable.Data[4][2], 8)
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self.assertEqual(xTable.Data[4][3], 9)
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self.assertEqual(xTable.Data[5][0], 10)
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self.assertTrue(math.isnan(xTable.Data[5][1]))
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self.assertEqual(xTable.Data[5][2], 11)
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self.assertEqual(xTable.Data[5][3], 12)
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for x in range(4):
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self.assertTrue(math.isnan(xTable.Data[1][x]))
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self.assertTrue(math.isnan(xTable.Data[2][x]))
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xDoc.dispose()
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def test_chartdataprovider(self):
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xDoc = CheckTable._uno.openEmptyWriterDoc()
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xTable = xDoc.createInstance("com.sun.star.text.TextTable")
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xTable.initialize(4, 3)
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xCursor = xDoc.Text.createTextCursor()
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xDoc.Text.insertTextContent(xCursor, xTable, False)
|
|
xTable.ChartColumnAsLabel = False
|
|
xTable.ChartRowAsLabel = False
|
|
xTable.Data = ((1, 2, 3), (4, 5, 6), (7, 8, 9), (10, 11, 12))
|
|
self.assertTrue(xTable.Name == 'Table1')
|
|
self.assertIn('com.sun.star.text.GenericTextDocument', xDoc.SupportedServiceNames)
|
|
xChartdataprovider = xDoc.createInstance('com.sun.star.chart2.data.DataProvider')
|
|
self.assertEqual(xChartdataprovider.ImplementationName, 'SwChartDataProvider')
|
|
self.assertTrue(xChartdataprovider.supportsService('com.sun.star.chart2.data.DataProvider'))
|
|
self.assertFalse(xChartdataprovider.supportsService('foo'))
|
|
self.assertIn('com.sun.star.chart2.data.DataProvider', xChartdataprovider.SupportedServiceNames)
|
|
pv = PropertyValue()
|
|
pv.Name = 'CellRangeRepresentation'
|
|
pv.Value = 'Table1.A1:C2'
|
|
xDataSource = xChartdataprovider.createDataSource((pv,))
|
|
self.assertEqual(len(xDataSource.DataSequences), 3)
|
|
expectedValues = ((1, 4), (2, 5), (3, 6))
|
|
expectedCellrange = ('A1:A2', 'B1:B2', 'C1:C2')
|
|
|
|
for col in range(3):
|
|
xSeq = xDataSource.DataSequences[col].Values
|
|
self.assertEqual(xSeq.ImplementationName, 'SwChartDataSequence')
|
|
self.assertTrue(xSeq.supportsService('com.sun.star.chart2.data.DataSequence'))
|
|
self.assertFalse(xSeq.supportsService('foo'))
|
|
self.assertIn('com.sun.star.chart2.data.DataSequence', xSeq.SupportedServiceNames)
|
|
self.assertEqual(xSeq.SourceRangeRepresentation, 'Table1.%s' % expectedCellrange[col])
|
|
self.assertEqual(xSeq.Data, expectedValues[col])
|
|
self.assertEqual(xSeq.NumericalData, expectedValues[col])
|
|
self.assertEqual(
|
|
[int(txtval) for txtval in xSeq.TextualData],
|
|
[val for val in expectedValues[col]])
|
|
|
|
xSeq.Role = "One xSeq to rule them all"
|
|
self.assertEqual("One xSeq to rule them all", xSeq.Role)
|
|
|
|
xSeqClone = xSeq.createClone()
|
|
self.assertEqual(xSeq.Role, xSeqClone.Role)
|
|
|
|
xDoc.dispose()
|
|
|
|
def test_tdf32082(self):
|
|
xDoc = CheckTable._uno.openEmptyWriterDoc()
|
|
xDocFrame = xDoc.CurrentController.Frame
|
|
xContext = CheckTable._uno.getContext()
|
|
xServiceManager = xContext.ServiceManager
|
|
xDispatcher = xServiceManager.createInstanceWithContext(
|
|
'com.sun.star.frame.DispatchHelper', xContext)
|
|
xTable = xDoc.createInstance("com.sun.star.text.TextTable")
|
|
xTable.initialize(1, 1)
|
|
xCursor = xDoc.Text.createTextCursor()
|
|
xDoc.Text.insertTextContent(xCursor, xTable, False)
|
|
# Setup numberformat for the cell
|
|
xNumberFormats = xDoc.NumberFormats
|
|
xLocale = Locale('en', 'US', '')
|
|
formatString = '#,##0.00 [$€-407];[RED]-#,##0.00 [$€-407]'
|
|
key = xNumberFormats.queryKey(formatString, xLocale, True)
|
|
if key == -1:
|
|
key = xNumberFormats.addNew(formatString, xLocale)
|
|
# Apply the format on the first cell
|
|
xTable.getCellByPosition(0, 0).NumberFormat = key
|
|
xDispatcher.executeDispatch(xDocFrame, '.uno:GoToStartOfDoc', '', 0, ())
|
|
xDispatcher.executeDispatch(xDocFrame, '.uno:InsertText', '', 0,
|
|
(PropertyValue('Text', 0, '3', 0),))
|
|
xDispatcher.executeDispatch(xDocFrame, '.uno:JumpToNextCell', '', 0, ())
|
|
# Check that the formatting we set up is not destroyed
|
|
self.assertEqual(xTable.getCellByPosition(0, 0).getString(), '3.00 €')
|
|
self.assertEqual(xTable.getCellByPosition(0, 0).getValue(), 3)
|
|
# Verify that it works with number recognition turned on as well
|
|
xDispatcher.executeDispatch(xDocFrame, '.uno:TableNumberRecognition', '', 0,
|
|
(PropertyValue('TableNumberRecognition', 0, True, 0),))
|
|
xDispatcher.executeDispatch(xDocFrame, '.uno:InsertText', '', 0,
|
|
(PropertyValue('Text', 0, '4', 0),))
|
|
xDispatcher.executeDispatch(xDocFrame, '.uno:JumpToNextCell', '', 0, ())
|
|
self.assertEqual(xTable.getCellByPosition(0, 1).getString(), '4.00 €')
|
|
self.assertEqual(xTable.getCellByPosition(0, 1).getValue(), 4)
|
|
xDoc.dispose()
|
|
|
|
def test_numberRecognition(self):
|
|
xDoc = CheckTable._uno.openEmptyWriterDoc()
|
|
xDocFrame = xDoc.CurrentController.Frame
|
|
xContext = CheckTable._uno.getContext()
|
|
xServiceManager = xContext.ServiceManager
|
|
xDispatcher = xServiceManager.createInstanceWithContext(
|
|
'com.sun.star.frame.DispatchHelper', xContext)
|
|
xTable = xDoc.createInstance('com.sun.star.text.TextTable')
|
|
xTable.initialize(2, 1)
|
|
xCursor = xDoc.Text.createTextCursor()
|
|
xDoc.Text.insertTextContent(xCursor, xTable, False)
|
|
xDispatcher.executeDispatch(xDocFrame, '.uno:GoToStartOfDoc', '', 0, ())
|
|
xDispatcher.executeDispatch(xDocFrame, '.uno:InsertText', '', 0,
|
|
(PropertyValue('Text', 0, '15-10-30', 0),))
|
|
xDispatcher.executeDispatch(xDocFrame, '.uno:JumpToNextCell', '', 0, ())
|
|
# Without number recognition 15-10-30 should not be interpretated as a date
|
|
self.assertEqual(xTable.getCellByPosition(0, 0).getString(), '15-10-30')
|
|
self.assertEqual(xTable.getCellByPosition(0, 0).getValue(), 0)
|
|
# Activate number recognition
|
|
xDispatcher.executeDispatch(xDocFrame, '.uno:TableNumberRecognition', '', 0,
|
|
(PropertyValue('TableNumberRecognition', 0, True, 0),))
|
|
xDispatcher.executeDispatch(xDocFrame, '.uno:InsertText', '', 0,
|
|
(PropertyValue('Text', 0, '15-10-30', 0),))
|
|
xDispatcher.executeDispatch(xDocFrame, '.uno:JumpToNextCell', '', 0, ())
|
|
# With number recognition it should now be a date, confirm by checking
|
|
# the string and value of the cell.
|
|
self.assertEqual(xTable.getCellByPosition(0, 1).getString(), '2015-10-30')
|
|
self.assertEqual(xTable.getCellByPosition(0, 1).getValue(), 42307.0)
|
|
xDoc.dispose()
|
|
|
|
def test_tableTemplate(self):
|
|
xDoc = CheckTable._uno.openEmptyWriterDoc()
|
|
xTable = xDoc.createInstance("com.sun.star.text.TextTable")
|
|
xTable.initialize(1, 1)
|
|
xTable.setPropertyValue("TableTemplateName", "Default")
|
|
self.assertEqual(xTable.getPropertyValue("TableTemplateName"), "Default")
|
|
xTable.setPropertyValue("TableTemplateName", "other_style")
|
|
self.assertEqual(xTable.getPropertyValue("TableTemplateName"), "other_style")
|
|
xTable.setPropertyValue("TableTemplateName", "")
|
|
self.assertEqual(xTable.getPropertyValue("TableTemplateName"), "")
|
|
xDoc.dispose()
|
|
|
|
|
|
def test_unoNames(self):
|
|
xDoc = CheckTable._uno.openEmptyWriterDoc()
|
|
xTable = xDoc.createInstance("com.sun.star.text.TextTable")
|
|
xTable.initialize(3, 3)
|
|
xText = xDoc.getText()
|
|
xCursor = xText.createTextCursor()
|
|
xText.insertTextContent(xCursor, xTable, False)
|
|
|
|
self.assertEqual("SwXTextTable", xTable.ImplementationName)
|
|
self.assertEqual(("com.sun.star.document.LinkTarget",
|
|
"com.sun.star.text.TextTable",
|
|
"com.sun.star.text.TextContent",
|
|
"com.sun.star.text.TextSortable"), xTable.SupportedServiceNames)
|
|
self.assertEqual(b'', xTable.ImplementationId.value)
|
|
|
|
xCell = xTable.getCellByPosition(1, 1)
|
|
self.assertEqual("SwXCell", xCell.ImplementationName)
|
|
self.assertEqual(("com.sun.star.text.CellProperties",), xCell.SupportedServiceNames)
|
|
self.assertEqual(b'', xCell.ImplementationId.value)
|
|
|
|
xRow = xTable.Rows[0]
|
|
self.assertEqual("SwXTextTableRow", xRow.ImplementationName)
|
|
self.assertEqual(("com.sun.star.text.TextTableRow",), xRow.SupportedServiceNames)
|
|
self.assertEqual(b'', xRow.ImplementationId.value)
|
|
|
|
xTableCursor = xTable.createCursorByCellName("A1")
|
|
self.assertEqual("SwXTextTableCursor", xTableCursor.ImplementationName)
|
|
self.assertEqual(("com.sun.star.text.TextTableCursor",), xTableCursor.SupportedServiceNames)
|
|
self.assertEqual(b'', xTableCursor.ImplementationId.value)
|
|
|
|
xDoc.dispose()
|
|
|
|
def test_xmlRangeConversions(self):
|
|
xDoc = CheckTable._uno.openEmptyWriterDoc()
|
|
xTable = xDoc.createInstance("com.sun.star.text.TextTable")
|
|
xTable.initialize(4, 3)
|
|
xCursor = xDoc.Text.createTextCursor()
|
|
xDoc.Text.insertTextContent(xCursor, xTable, False)
|
|
xTable.ChartColumnAsLabel = False
|
|
xTable.ChartRowAsLabel = False
|
|
xTable.Data = ((1, 2, 3), (4, 5, 6), (7, 8, 9), (10, 11, 12))
|
|
|
|
xChartDataProvider = xDoc.createInstance('com.sun.star.chart2.data.DataProvider')
|
|
|
|
self.assertEqual('', xChartDataProvider.convertRangeToXML(''))
|
|
self.assertEqual('', xChartDataProvider.convertRangeFromXML(''))
|
|
self.assertEqual('.A1;.A1', xChartDataProvider.convertRangeFromXML('<some xml>'))
|
|
|
|
xml = xChartDataProvider.convertRangeToXML('Table1.A1:C3')
|
|
|
|
self.assertEqual("Table1.$A$1:.$C$3", xml)
|
|
|
|
xCellRangeString = xChartDataProvider.convertRangeFromXML("Table1.$A$1:.$C$3")
|
|
self.assertEqual("Table1.A1:C3", xCellRangeString)
|
|
|
|
if __name__ == '__main__':
|
|
unittest.main()
|
|
|
|
# /* vim:set shiftwidth=4 softtabstop=4 expandtab: */
|