#!/usr/bin/env python3 # -*- coding: utf-8 -*- # @file simpleTests.py # Requires Python 2.7 or later from __future__ import with_statement from __future__ import unicode_literals import ctypes, string, sys, unittest import XiteWin as Xite # Unicode line ends are only available for lexers that support the feature so requires lexers lexersAvailable = Xite.lexillaAvailable or Xite.scintillaIncludesLexers unicodeLineEndsAvailable = lexersAvailable class TestSimple(unittest.TestCase): def setUp(self): self.xite = Xite.xiteFrame self.ed = self.xite.ed self.ed.ClearAll() self.ed.EmptyUndoBuffer() def testStatus(self): self.assertEqual(self.ed.GetStatus(), 0) self.ed.SetStatus(1) self.assertEqual(self.ed.GetStatus(), 1) self.ed.SetStatus(0) self.assertEqual(self.ed.GetStatus(), 0) def testLength(self): self.assertEqual(self.ed.Length, 0) def testAddText(self): self.ed.AddText(1, b"x") self.assertEqual(self.ed.Length, 1) self.assertEqual(self.ed.GetCharAt(0), ord("x")) self.assertEqual(self.ed.GetStyleAt(0), 0) self.ed.ClearAll() self.assertEqual(self.ed.Length, 0) def testDeleteRange(self): self.ed.AddText(5, b"abcde") self.assertEqual(self.ed.Length, 5) self.ed.DeleteRange(1, 2) self.assertEqual(self.ed.Length, 3) self.assertEqual(self.ed.Contents(), b"ade") def testAddStyledText(self): self.assertEqual(self.ed.EndStyled, 0) self.ed.AddStyledText(4, b"x\002y\377") self.assertEqual(self.ed.Length, 2) self.assertEqual(self.ed.GetCharAt(0), ord("x")) self.assertEqual(self.ed.GetStyleAt(0), 2) self.assertEqual(self.ed.GetStyleIndexAt(0), 2) self.assertEqual(self.ed.GetStyleIndexAt(1), 255) self.assertEqual(self.ed.StyledTextRange(0, 1), b"x\002") self.assertEqual(self.ed.StyledTextRange(1, 2), b"y\377") self.ed.ClearDocumentStyle() self.assertEqual(self.ed.Length, 2) self.assertEqual(self.ed.GetCharAt(0), ord("x")) self.assertEqual(self.ed.GetStyleAt(0), 0) self.assertEqual(self.ed.StyledTextRange(0, 1), b"x\0") def testStyledTextRangeFull(self): self.assertEqual(self.ed.EndStyled, 0) self.ed.AddStyledText(4, b"x\002y\377") self.assertEqual(self.ed.StyledTextRangeFull(0, 1), b"x\002") self.assertEqual(self.ed.StyledTextRangeFull(1, 2), b"y\377") self.ed.ClearDocumentStyle() self.assertEqual(self.ed.Length, 2) self.assertEqual(self.ed.StyledTextRangeFull(0, 1), b"x\0") def testStyling(self): self.assertEqual(self.ed.EndStyled, 0) self.ed.AddStyledText(4, b"x\002y\003") self.assertEqual(self.ed.StyledTextRange(0, 2), b"x\002y\003") self.ed.StartStyling(0,0xf) self.ed.SetStyling(1, 5) self.assertEqual(self.ed.StyledTextRange(0, 2), b"x\005y\003") self.ed.StartStyling(0,0xff) self.ed.SetStylingEx(2, b"\100\101") self.assertEqual(self.ed.StyledTextRange(0, 2), b"x\100y\101") def testPosition(self): self.assertEqual(self.ed.CurrentPos, 0) self.assertEqual(self.ed.Anchor, 0) self.ed.AddText(1, b"x") # Caret has automatically moved self.assertEqual(self.ed.CurrentPos, 1) self.assertEqual(self.ed.Anchor, 1) self.ed.SelectAll() self.assertEqual(self.ed.CurrentPos, 0) self.assertEqual(self.ed.Anchor, 1) self.ed.Anchor = 0 self.assertEqual(self.ed.Anchor, 0) # Check line positions self.assertEqual(self.ed.PositionFromLine(0), 0) self.assertEqual(self.ed.GetLineEndPosition(0), 1) self.assertEqual(self.ed.PositionFromLine(1), 1) self.ed.CurrentPos = 1 self.assertEqual(self.ed.Anchor, 0) self.assertEqual(self.ed.CurrentPos, 1) def testBeyonEnd(self): self.ed.AddText(1, b"x") self.assertEqual(self.ed.GetLineEndPosition(0), 1) self.assertEqual(self.ed.GetLineEndPosition(1), 1) self.assertEqual(self.ed.GetLineEndPosition(2), 1) def testSelection(self): self.assertEqual(self.ed.CurrentPos, 0) self.assertEqual(self.ed.Anchor, 0) self.assertEqual(self.ed.SelectionStart, 0) self.assertEqual(self.ed.SelectionEnd, 0) self.ed.AddText(1, b"x") self.ed.SelectionStart = 0 self.assertEqual(self.ed.CurrentPos, 1) self.assertEqual(self.ed.Anchor, 0) self.assertEqual(self.ed.SelectionStart, 0) self.assertEqual(self.ed.SelectionEnd, 1) self.ed.SelectionStart = 1 self.assertEqual(self.ed.CurrentPos, 1) self.assertEqual(self.ed.Anchor, 1) self.assertEqual(self.ed.SelectionStart, 1) self.assertEqual(self.ed.SelectionEnd, 1) self.ed.SelectionEnd = 0 self.assertEqual(self.ed.CurrentPos, 0) self.assertEqual(self.ed.Anchor, 0) def testSetSelection(self): self.ed.AddText(4, b"abcd") self.ed.SetSel(1, 3) self.assertEqual(self.ed.SelectionStart, 1) self.assertEqual(self.ed.SelectionEnd, 3) result = self.ed.GetSelText(0) self.assertEqual(result, b"bc") self.ed.ReplaceSel(0, b"1234") self.assertEqual(self.ed.Length, 6) self.assertEqual(self.ed.Contents(), b"a1234d") def testReadOnly(self): self.ed.AddText(1, b"x") self.assertEqual(self.ed.ReadOnly, 0) self.assertEqual(self.ed.Contents(), b"x") self.ed.ReadOnly = 1 self.assertEqual(self.ed.ReadOnly, 1) self.ed.AddText(1, b"x") self.assertEqual(self.ed.Contents(), b"x") self.ed.ReadOnly = 0 self.ed.AddText(1, b"x") self.assertEqual(self.ed.Contents(), b"xx") self.ed.Null() self.assertEqual(self.ed.Contents(), b"xx") def testAddLine(self): data = b"x" * 70 + b"\n" for i in range(5): self.ed.AddText(len(data), data) self.assertEqual(self.ed.LineCount, i + 2) self.assertTrue(self.ed.Length > 0) def testInsertText(self): data = b"xy" self.ed.InsertText(0, data) self.assertEqual(self.ed.Length, 2) self.assertEqual(data, self.ed.ByteRange(0,2)) self.ed.InsertText(1, data) # Should now be "xxyy" self.assertEqual(self.ed.Length, 4) self.assertEqual(b"xxyy", self.ed.ByteRange(0,4)) def testTextRangeFull(self): data = b"xy" self.ed.InsertText(0, data) self.assertEqual(self.ed.Length, 2) self.assertEqual(data, self.ed.ByteRangeFull(0,2)) self.ed.InsertText(1, data) # Should now be "xxyy" self.assertEqual(self.ed.Length, 4) self.assertEqual(b"xxyy", self.ed.ByteRangeFull(0,4)) def testInsertNul(self): data = b"\0" self.ed.AddText(1, data) self.assertEqual(self.ed.Length, 1) self.assertEqual(data, self.ed.ByteRange(0,1)) def testNewLine(self): self.ed.SetContents(b"12") self.ed.SetSel(1, 1) self.ed.NewLine() self.assertEqual(self.ed.Contents(), b"1\r\n2") def testUndoRedo(self): data = b"xy" self.assertEqual(self.ed.Modify, 0) self.assertEqual(self.ed.UndoCollection, 1) self.assertEqual(self.ed.CanRedo(), 0) self.assertEqual(self.ed.CanUndo(), 0) self.ed.InsertText(0, data) self.assertEqual(self.ed.Length, 2) self.assertEqual(self.ed.Modify, 1) self.assertEqual(self.ed.CanRedo(), 0) self.assertEqual(self.ed.CanUndo(), 1) self.ed.Undo() self.assertEqual(self.ed.Length, 0) self.assertEqual(self.ed.Modify, 0) self.assertEqual(self.ed.CanRedo(), 1) self.assertEqual(self.ed.CanUndo(), 0) self.ed.Redo() self.assertEqual(self.ed.Length, 2) self.assertEqual(self.ed.Modify, 1) self.assertEqual(data, self.ed.Contents()) self.assertEqual(self.ed.CanRedo(), 0) self.assertEqual(self.ed.CanUndo(), 1) def testUndoSavePoint(self): data = b"xy" self.assertEqual(self.ed.Modify, 0) self.ed.InsertText(0, data) self.assertEqual(self.ed.Modify, 1) self.ed.SetSavePoint() self.assertEqual(self.ed.Modify, 0) self.ed.InsertText(0, data) self.assertEqual(self.ed.Modify, 1) def testUndoCollection(self): data = b"xy" self.assertEqual(self.ed.UndoCollection, 1) self.ed.UndoCollection = 0 self.assertEqual(self.ed.UndoCollection, 0) self.ed.InsertText(0, data) self.assertEqual(self.ed.CanRedo(), 0) self.assertEqual(self.ed.CanUndo(), 0) self.ed.UndoCollection = 1 def testGetColumn(self): self.ed.AddText(1, b"x") self.assertEqual(self.ed.GetColumn(0), 0) self.assertEqual(self.ed.GetColumn(1), 1) # Next line caused infinite loop in 1.71 self.assertEqual(self.ed.GetColumn(2), 1) self.assertEqual(self.ed.GetColumn(3), 1) def testTabWidth(self): self.assertEqual(self.ed.TabWidth, 8) self.ed.AddText(3, b"x\tb") self.assertEqual(self.ed.GetColumn(0), 0) self.assertEqual(self.ed.GetColumn(1), 1) self.assertEqual(self.ed.GetColumn(2), 8) for col in range(10): if col == 0: self.assertEqual(self.ed.FindColumn(0, col), 0) elif col == 1: self.assertEqual(self.ed.FindColumn(0, col), 1) elif col == 8: self.assertEqual(self.ed.FindColumn(0, col), 2) elif col == 9: self.assertEqual(self.ed.FindColumn(0, col), 3) else: self.assertEqual(self.ed.FindColumn(0, col), 1) self.ed.TabWidth = 4 self.assertEqual(self.ed.TabWidth, 4) self.assertEqual(self.ed.GetColumn(0), 0) self.assertEqual(self.ed.GetColumn(1), 1) self.assertEqual(self.ed.GetColumn(2), 4) def testIndent(self): self.assertEqual(self.ed.Indent, 0) self.assertEqual(self.ed.UseTabs, 1) self.ed.Indent = 8 self.ed.UseTabs = 0 self.assertEqual(self.ed.Indent, 8) self.assertEqual(self.ed.UseTabs, 0) self.ed.AddText(3, b"x\tb") self.assertEqual(self.ed.GetLineIndentation(0), 0) self.ed.InsertText(0, b" ") self.assertEqual(self.ed.GetLineIndentation(0), 1) self.assertEqual(self.ed.GetLineIndentPosition(0), 1) self.assertEqual(self.ed.Contents(), b" x\tb") self.ed.SetLineIndentation(0,2) self.assertEqual(self.ed.Contents(), b" x\tb") self.assertEqual(self.ed.GetLineIndentPosition(0), 2) self.ed.UseTabs = 1 self.ed.SetLineIndentation(0,8) self.assertEqual(self.ed.Contents(), b"\tx\tb") self.assertEqual(self.ed.GetLineIndentPosition(0), 1) def testGetCurLine(self): self.ed.AddText(1, b"x") data = ctypes.create_string_buffer(b"\0" * 100) caret = self.ed.GetCurLine(len(data), data) self.assertEqual(caret, 1) self.assertEqual(data.value, b"x") def testGetLine(self): self.ed.AddText(1, b"x") data = ctypes.create_string_buffer(b"\0" * 100) self.ed.GetLine(0, data) self.assertEqual(data.value, b"x") def testLineEnds(self): self.ed.AddText(3, b"x\ny") self.assertEqual(self.ed.GetLineEndPosition(0), 1) self.assertEqual(self.ed.GetLineEndPosition(1), 3) self.assertEqual(self.ed.LineLength(0), 2) self.assertEqual(self.ed.LineLength(1), 1) # Test lines out of range. self.assertEqual(self.ed.LineLength(2), 0) self.assertEqual(self.ed.LineLength(-1), 0) if sys.platform == "win32": self.assertEqual(self.ed.EOLMode, self.ed.SC_EOL_CRLF) else: self.assertEqual(self.ed.EOLMode, self.ed.SC_EOL_LF) lineEnds = [b"\r\n", b"\r", b"\n"] for lineEndType in [self.ed.SC_EOL_CR, self.ed.SC_EOL_LF, self.ed.SC_EOL_CRLF]: self.ed.EOLMode = lineEndType self.assertEqual(self.ed.EOLMode, lineEndType) self.ed.ConvertEOLs(lineEndType) self.assertEqual(self.ed.Contents(), b"x" + lineEnds[lineEndType] + b"y") self.assertEqual(self.ed.LineLength(0), 1 + len(lineEnds[lineEndType])) # Several tests for unicode line ends U+2028 and U+2029 @unittest.skipUnless(unicodeLineEndsAvailable, "can not test Unicode line ends") def testUnicodeLineEnds(self): # Add two lines separated with U+2028 and ensure it is seen as two lines # Then remove U+2028 and should be just 1 lines self.xite.ChooseLexer(b"cpp") self.ed.SetCodePage(65001) self.ed.SetLineEndTypesAllowed(1) self.ed.AddText(5, b"x\xe2\x80\xa8y") self.assertEqual(self.ed.LineCount, 2) self.assertEqual(self.ed.GetLineEndPosition(0), 1) self.assertEqual(self.ed.GetLineEndPosition(1), 5) self.assertEqual(self.ed.LineLength(0), 4) self.assertEqual(self.ed.LineLength(1), 1) self.ed.TargetStart = 1 self.ed.TargetEnd = 4 self.ed.ReplaceTarget(0, b"") self.assertEqual(self.ed.LineCount, 1) self.assertEqual(self.ed.LineLength(0), 2) self.assertEqual(self.ed.GetLineEndPosition(0), 2) self.assertEqual(self.ed.LineEndTypesSupported, 1) def testUnicodeLineEndsWithCodePage0(self): # Try the Unicode line ends when not in Unicode mode -> should remain 1 line self.ed.SetCodePage(0) self.ed.AddText(5, b"x\xe2\x80\xa8y") self.assertEqual(self.ed.LineCount, 1) self.ed.AddText(4, b"x\xc2\x85y") self.assertEqual(self.ed.LineCount, 1) @unittest.skipUnless(unicodeLineEndsAvailable, "can not test Unicode line ends") def testUnicodeLineEndsSwitchToUnicodeAndBack(self): # Add the Unicode line ends when not in Unicode mode self.ed.SetCodePage(0) self.ed.AddText(5, b"x\xe2\x80\xa8y") self.assertEqual(self.ed.LineCount, 1) # Into UTF-8 mode - should now be interpreting as two lines self.xite.ChooseLexer(b"cpp") self.ed.SetCodePage(65001) self.ed.SetLineEndTypesAllowed(1) self.assertEqual(self.ed.LineCount, 2) # Back to code page 0 and 1 line self.ed.SetCodePage(0) self.assertEqual(self.ed.LineCount, 1) @unittest.skipUnless(unicodeLineEndsAvailable, "can not test Unicode line ends") def testUFragmentedEOLCompletion(self): # Add 2 starting bytes of UTF-8 line end then complete it self.ed.ClearAll() self.ed.AddText(4, b"x\xe2\x80y") self.assertEqual(self.ed.LineCount, 1) self.assertEqual(self.ed.GetLineEndPosition(0), 4) self.ed.SetSel(3,3) self.ed.AddText(1, b"\xa8") self.assertEqual(self.ed.Contents(), b"x\xe2\x80\xa8y") self.assertEqual(self.ed.LineCount, 2) # Add 1 starting bytes of UTF-8 line end then complete it self.ed.ClearAll() self.ed.AddText(3, b"x\xe2y") self.assertEqual(self.ed.LineCount, 1) self.assertEqual(self.ed.GetLineEndPosition(0), 3) self.ed.SetSel(2,2) self.ed.AddText(2, b"\x80\xa8") self.assertEqual(self.ed.Contents(), b"x\xe2\x80\xa8y") self.assertEqual(self.ed.LineCount, 2) @unittest.skipUnless(unicodeLineEndsAvailable, "can not test Unicode line ends") def testUFragmentedEOLStart(self): # Add end of UTF-8 line end then insert start self.xite.ChooseLexer(b"cpp") self.ed.SetCodePage(65001) self.ed.SetLineEndTypesAllowed(1) self.assertEqual(self.ed.LineCount, 1) self.ed.AddText(4, b"x\x80\xa8y") self.assertEqual(self.ed.LineCount, 1) self.ed.SetSel(1,1) self.ed.AddText(1, b"\xe2") self.assertEqual(self.ed.LineCount, 2) @unittest.skipUnless(unicodeLineEndsAvailable, "can not test Unicode line ends") def testUBreakApartEOL(self): # Add two lines separated by U+2029 then remove and add back each byte ensuring # only one line after each removal of any byte in line end and 2 lines after reinsertion self.xite.ChooseLexer(b"cpp") self.ed.SetCodePage(65001) self.ed.SetLineEndTypesAllowed(1) text = b"x\xe2\x80\xa9y" self.ed.AddText(5, text) self.assertEqual(self.ed.LineCount, 2) for i in range(len(text)): self.ed.TargetStart = i self.ed.TargetEnd = i + 1 self.ed.ReplaceTarget(0, b"") if i in [0, 4]: # Removing text characters does not change number of lines self.assertEqual(self.ed.LineCount, 2) else: # Removing byte from line end, removes 1 line self.assertEqual(self.ed.LineCount, 1) self.ed.TargetEnd = i self.ed.ReplaceTarget(1, text[i:i+1]) self.assertEqual(self.ed.LineCount, 2) @unittest.skipUnless(unicodeLineEndsAvailable, "can not test Unicode line ends") def testURemoveEOLFragment(self): # Add UTF-8 line end then delete each byte causing line end to disappear self.xite.ChooseLexer(b"cpp") self.ed.SetCodePage(65001) self.ed.SetLineEndTypesAllowed(1) for i in range(3): self.ed.ClearAll() self.ed.AddText(5, b"x\xe2\x80\xa8y") self.assertEqual(self.ed.LineCount, 2) self.ed.TargetStart = i+1 self.ed.TargetEnd = i+2 self.ed.ReplaceTarget(0, b"") self.assertEqual(self.ed.LineCount, 1) # Several tests for unicode NEL line ends U+0085 @unittest.skipUnless(unicodeLineEndsAvailable, "can not test Unicode line ends") def testNELLineEnds(self): # Add two lines separated with U+0085 and ensure it is seen as two lines # Then remove U+0085 and should be just 1 lines self.xite.ChooseLexer(b"cpp") self.ed.SetCodePage(65001) self.ed.SetLineEndTypesAllowed(1) self.ed.AddText(4, b"x\xc2\x85y") self.assertEqual(self.ed.LineCount, 2) self.assertEqual(self.ed.GetLineEndPosition(0), 1) self.assertEqual(self.ed.GetLineEndPosition(1), 4) self.assertEqual(self.ed.LineLength(0), 3) self.assertEqual(self.ed.LineLength(1), 1) self.ed.TargetStart = 1 self.ed.TargetEnd = 3 self.ed.ReplaceTarget(0, b"") self.assertEqual(self.ed.LineCount, 1) self.assertEqual(self.ed.LineLength(0), 2) self.assertEqual(self.ed.GetLineEndPosition(0), 2) @unittest.skipUnless(unicodeLineEndsAvailable, "can not test Unicode line ends") def testNELFragmentedEOLCompletion(self): # Add starting byte of UTF-8 NEL then complete it self.ed.AddText(3, b"x\xc2y") self.assertEqual(self.ed.LineCount, 1) self.assertEqual(self.ed.GetLineEndPosition(0), 3) self.ed.SetSel(2,2) self.ed.AddText(1, b"\x85") self.assertEqual(self.ed.Contents(), b"x\xc2\x85y") self.assertEqual(self.ed.LineCount, 2) @unittest.skipUnless(unicodeLineEndsAvailable, "can not test Unicode line ends") def testNELFragmentedEOLStart(self): # Add end of UTF-8 NEL then insert start self.xite.ChooseLexer(b"cpp") self.ed.SetCodePage(65001) self.ed.SetLineEndTypesAllowed(1) self.assertEqual(self.ed.LineCount, 1) self.ed.AddText(4, b"x\x85y") self.assertEqual(self.ed.LineCount, 1) self.ed.SetSel(1,1) self.ed.AddText(1, b"\xc2") self.assertEqual(self.ed.LineCount, 2) @unittest.skipUnless(unicodeLineEndsAvailable, "can not test Unicode line ends") def testNELBreakApartEOL(self): # Add two lines separated by U+0085 then remove and add back each byte ensuring # only one line after each removal of any byte in line end and 2 lines after reinsertion self.xite.ChooseLexer(b"cpp") self.ed.SetCodePage(65001) self.ed.SetLineEndTypesAllowed(1) text = b"x\xc2\x85y" self.ed.AddText(4, text) self.assertEqual(self.ed.LineCount, 2) for i in range(len(text)): self.ed.TargetStart = i self.ed.TargetEnd = i + 1 self.ed.ReplaceTarget(0, b"") if i in [0, 3]: # Removing text characters does not change number of lines self.assertEqual(self.ed.LineCount, 2) else: # Removing byte from line end, removes 1 line self.assertEqual(self.ed.LineCount, 1) self.ed.TargetEnd = i self.ed.ReplaceTarget(1, text[i:i+1]) self.assertEqual(self.ed.LineCount, 2) @unittest.skipUnless(unicodeLineEndsAvailable, "can not test Unicode line ends") def testNELRemoveEOLFragment(self): # Add UTF-8 NEL then delete each byte causing line end to disappear self.ed.SetCodePage(65001) for i in range(2): self.ed.ClearAll() self.ed.AddText(4, b"x\xc2\x85y") self.assertEqual(self.ed.LineCount, 2) self.ed.TargetStart = i+1 self.ed.TargetEnd = i+2 self.ed.ReplaceTarget(0, b"") self.assertEqual(self.ed.LineCount, 1) def testGoto(self): self.ed.AddText(5, b"a\nb\nc") self.assertEqual(self.ed.CurrentPos, 5) self.ed.GotoLine(1) self.assertEqual(self.ed.CurrentPos, 2) self.ed.GotoPos(4) self.assertEqual(self.ed.CurrentPos, 4) def testCutCopyPaste(self): self.ed.AddText(5, b"a1b2c") self.ed.SetSel(1,3) self.ed.Cut() # Clipboard = "1b" self.assertEqual(self.ed.Contents(), b"a2c") self.assertEqual(self.ed.CanPaste(), 1) self.ed.SetSel(0, 0) self.ed.Paste() self.assertEqual(self.ed.Contents(), b"1ba2c") self.ed.SetSel(4,5) self.ed.Copy() # Clipboard = "c" self.ed.SetSel(1,3) self.ed.Paste() self.assertEqual(self.ed.Contents(), b"1c2c") self.ed.SetSel(2,4) self.ed.Clear() self.assertEqual(self.ed.Contents(), b"1c") def testReplaceRectangular(self): self.ed.AddText(5, b"a\nb\nc") self.ed.SetSel(0,0) self.ed.ReplaceRectangular(3, b"1\n2") self.assertEqual(self.ed.Contents(), b"1a\n2b\nc") def testCopyAllowLine(self): lineEndType = self.ed.EOLMode self.ed.EOLMode = self.ed.SC_EOL_LF self.ed.AddText(5, b"a1\nb2") self.ed.SetSel(1,1) self.ed.CopyAllowLine() # Clipboard = "a1\n" self.assertEqual(self.ed.CanPaste(), 1) self.ed.SetSel(0, 0) self.ed.Paste() self.ed.EOLMode = lineEndType self.assertEqual(self.ed.Contents(), b"a1\na1\nb2") def testDuplicate(self): self.ed.AddText(3, b"1b2") self.ed.SetSel(1,2) self.ed.SelectionDuplicate() self.assertEqual(self.ed.Contents(), b"1bb2") def testLineDuplicate(self): self.ed.SetContents(b"1\r\nb\r\n2") self.ed.SetSel(3, 3) # Duplicates the second line containing 'b' self.ed.LineDuplicate() self.assertEqual(self.ed.Contents(), b"1\r\nb\r\nb\r\n2") def testLineDuplicateDifferentLineEnd(self): self.ed.SetContents(b"1\nb\n2") self.ed.SetSel(3, 3) # Duplicates the second line containing 'b' self.ed.LineDuplicate() # Same as above but end of duplicated line is \r\n self.assertEqual(self.ed.Contents(), b"1\nb\r\nb\n2") def testTransposeLines(self): self.ed.AddText(8, b"a1\nb2\nc3") self.ed.SetSel(3,3) self.ed.LineTranspose() self.assertEqual(self.ed.Contents(), b"b2\na1\nc3") def testReverseLines(self): self.ed.SetContents(b"a1\nb2\nc3") self.ed.SetSel(0, 8) self.ed.LineReverse() self.assertEqual(self.ed.Contents(), b"c3\nb2\na1") self.ed.SetContents(b"a1\nb2\nc3\n") self.ed.SetSel(0, 9) self.ed.LineReverse() self.assertEqual(self.ed.Contents(), b"c3\nb2\na1\n") def testMoveSelectedLines(self): lineEndType = self.ed.EOLMode self.ed.EOLMode = self.ed.SC_EOL_LF self.ed.SetContents(b"a1\nb2\nc3") self.ed.SetSel(3, 6) self.ed.MoveSelectedLinesDown() self.assertEqual(self.ed.Contents(), b"a1\nc3\nb2") self.ed.SetContents(b"a1\nb2\nc3") self.ed.SetSel(3, 6) self.ed.MoveSelectedLinesUp() self.assertEqual(self.ed.Contents(), b"b2\na1\nc3") # Exercise the 'appendEol' case as the last line has no EOL characters to copy self.ed.SetContents(b"a1\nb2\nc3") self.ed.SetSel(4, 7) self.ed.MoveSelectedLinesUp() self.assertEqual(self.ed.Contents(), b"b2\nc3\na1") # Testing extreme lines self.ed.SetContents(b"a1\nb2\nc3") self.ed.SetSel(6, 7) self.ed.MoveSelectedLinesDown() # No change as moving last line down self.assertEqual(self.ed.Contents(), b"a1\nb2\nc3") self.ed.SetContents(b"a1\nb2\nc3") self.ed.SetSel(1, 2) self.ed.MoveSelectedLinesUp() # No change as moving first line up self.assertEqual(self.ed.Contents(), b"a1\nb2\nc3") # Moving line to end with different line end uses that line end self.ed.EOLMode = self.ed.SC_EOL_CRLF self.ed.SetContents(b"a1\nb2\nc3") self.ed.SetSel(3, 6) self.ed.MoveSelectedLinesDown() self.assertEqual(self.ed.Contents(), b"a1\nc3\r\nb2") # Exercise 'appendEol' self.ed.SetContents(b"a1\nb2\nc3") self.ed.SetSel(4, 7) self.ed.MoveSelectedLinesUp() self.assertEqual(self.ed.Contents(), b"b2\nc3\r\na1") self.ed.SetContents(b"a1\nb2\nc3") self.ed.SetSel(1, 2) self.ed.MoveSelectedLinesDown() self.assertEqual(self.ed.Contents(), b"b2\na1\nc3") # Exercise rectangular selection self.ed.EOLMode = self.ed.SC_EOL_LF self.ed.SetContents(b"a1\nb2\nc3") self.ed.RectangularSelectionAnchor = 1 self.ed.RectangularSelectionCaret = 4 # Check rectangular not stream self.assertEqual(self.ed.GetSelectionMode(), self.ed.SC_SEL_RECTANGLE) self.assertEqual(self.ed.Selections, 2) self.ed.MoveSelectedLinesDown() self.assertEqual(self.ed.Contents(), b"c3\na1\nb2") # Restore line end self.ed.EOLMode = lineEndType def testGetSet(self): self.ed.SetContents(b"abc") self.assertEqual(self.ed.TextLength, 3) # String buffer containing exactly 5 digits result = ctypes.create_string_buffer(b"12345", 5) self.assertEqual(result.raw, b"12345") length = self.ed.GetText(4, result) self.assertEqual(length, 3) self.assertEqual(result.value, b"abc") # GetText has written the 3 bytes of text and a terminating NUL but left the final digit 5 self.assertEqual(result.raw, b"abc\x005") def testAppend(self): self.ed.SetContents(b"abc") self.assertEqual(self.ed.SelectionStart, 0) self.assertEqual(self.ed.SelectionEnd, 0) text = b"12" self.ed.AppendText(len(text), text) self.assertEqual(self.ed.SelectionStart, 0) self.assertEqual(self.ed.SelectionEnd, 0) self.assertEqual(self.ed.Contents(), b"abc12") def testTarget(self): self.ed.SetContents(b"abcd") self.ed.TargetStart = 1 self.ed.TargetEnd = 3 self.assertEqual(self.ed.TargetStart, 1) self.assertEqual(self.ed.TargetEnd, 3) rep = b"321" self.ed.ReplaceTarget(len(rep), rep) self.assertEqual(self.ed.Contents(), b"a321d") self.ed.SearchFlags = self.ed.SCFIND_REGEXP self.assertEqual(self.ed.SearchFlags, self.ed.SCFIND_REGEXP) searchString = rb"\([1-9]+\)" pos = self.ed.SearchInTarget(len(searchString), searchString) self.assertEqual(1, pos) tagString = self.ed.GetTag(1) self.assertEqual(tagString, b"321") rep = b"\\1" self.ed.TargetStart = 0 self.ed.TargetEnd = 0 self.ed.ReplaceTargetRE(len(rep), rep) self.assertEqual(self.ed.Contents(), b"321a321d") self.ed.SetSel(4,5) self.ed.TargetFromSelection() self.assertEqual(self.ed.TargetStart, 4) self.assertEqual(self.ed.TargetEnd, 5) def testReplaceTargetMinimal(self): # 1: No common characters self.ed.SetContents(b"abcd") self.ed.TargetStart = 1 self.ed.TargetEnd = 3 self.assertEqual(self.ed.TargetStart, 1) self.assertEqual(self.ed.TargetEnd, 3) rep = b"321" self.ed.ReplaceTargetMinimal(len(rep), rep) self.assertEqual(self.ed.Contents(), b"a321d") # 2: New characters with common prefix and suffix self.ed.TargetStart = 1 self.ed.TargetEnd = 4 rep = b"3<>1" self.ed.ReplaceTargetMinimal(len(rep), rep) self.assertEqual(self.ed.Contents(), b"a3<>1d") # 3: Remove characters with common prefix and suffix self.ed.TargetStart = 1 self.ed.TargetEnd = 5 rep = b"31" self.ed.ReplaceTargetMinimal(len(rep), rep) self.assertEqual(self.ed.Contents(), b"a31d") # 4: Common prefix self.ed.TargetStart = 1 self.ed.TargetEnd = 3 rep = b"3bc" self.ed.ReplaceTargetMinimal(len(rep), rep) self.assertEqual(self.ed.Contents(), b"a3bcd") # 5: Common suffix self.ed.TargetStart = 2 self.ed.TargetEnd = 5 rep = b"cd" self.ed.ReplaceTargetMinimal(len(rep), rep) self.assertEqual(self.ed.Contents(), b"a3cd") def testTargetWhole(self): self.ed.SetContents(b"abcd") self.ed.TargetStart = 1 self.ed.TargetEnd = 3 self.ed.TargetWholeDocument() self.assertEqual(self.ed.TargetStart, 0) self.assertEqual(self.ed.TargetEnd, 4) def testTargetEscape(self): # Checks that a literal \ can be in the replacement. Bug #2959876 self.ed.SetContents(b"abcd") self.ed.TargetStart = 1 self.ed.TargetEnd = 3 rep = b"\\\\n" self.ed.ReplaceTargetRE(len(rep), rep) self.assertEqual(self.ed.Contents(), b"a\\nd") def testTargetVirtualSpace(self): self.ed.SetContents(b"a\nbcd") self.assertEqual(self.ed.TargetStart, 0) self.assertEqual(self.ed.TargetStartVirtualSpace, 0) self.assertEqual(self.ed.TargetEnd, 5) self.assertEqual(self.ed.TargetEndVirtualSpace, 0) self.ed.TargetStart = 1 self.ed.TargetStartVirtualSpace = 2 self.ed.TargetEnd = 3 self.ed.TargetEndVirtualSpace = 4 # Adds 2 spaces to first line due to virtual space, and replace 2 characters with 3 rep = b"12\n" self.ed.ReplaceTarget(len(rep), rep) self.assertEqual(self.ed.Contents(), b"a 12\ncd") # 1+2v realized to 3 self.assertEqual(self.ed.TargetStart, 3) self.assertEqual(self.ed.TargetStartVirtualSpace, 0) self.assertEqual(self.ed.TargetEnd, 6) self.assertEqual(self.ed.TargetEndVirtualSpace, 0) def testPointsAndPositions(self): self.ed.SetContents(b"xyz") # Inter-character positions # Start of text self.assertEqual(self.ed.PositionFromPoint(1,1), 0) # End of text self.assertEqual(self.ed.PositionFromPoint(100, 1), 3) self.assertEqual(self.ed.PositionFromPointClose(100, 1), -1) # Character positions # Start of text self.assertEqual(self.ed.CharPositionFromPoint(0,0), 0) # End of text self.assertEqual(self.ed.CharPositionFromPoint(100, 0), 3) self.assertEqual(self.ed.CharPositionFromPointClose(100, 0), -1) def testSelectionFromPoint(self): self.ed.SetContents(b"xxxxxx") self.ed.SetSelection(3, 2) self.ed.AddSelection(0, 1) self.ed.AddSelection(5, 5) # Empty xStart = self.ed.PointXFromPosition(0, 0) xEnd = self.ed.PointXFromPosition(0, 5) width = xEnd-xStart charWidth = width // 5 widthMid = charWidth // 2 posMid1 = xStart+widthMid self.assertEqual(self.ed.SelectionFromPoint(posMid1, 1), 1) posMid2 = xStart+charWidth+widthMid self.assertEqual(self.ed.SelectionFromPoint(posMid2, 1), -1) posMid3 = xStart+charWidth*2+widthMid self.assertEqual(self.ed.SelectionFromPoint(posMid3, 1), 0) # Empty selection at 5. Exact and then a few pixels either side self.assertEqual(self.ed.SelectionFromPoint(xEnd, 1), 2) self.assertEqual(self.ed.SelectionFromPoint(xEnd-2, 1), 2) self.assertEqual(self.ed.SelectionFromPoint(xEnd+2, 1), 2) self.assertEqual(self.ed.SelectionFromPoint(100, 0), -1) def testLinePositions(self): text = b"ab\ncd\nef" nl = b"\n" if sys.version_info[0] == 3: nl = ord(b"\n") self.ed.AddText(len(text), text) self.assertEqual(self.ed.LineFromPosition(-1), 0) line = 0 for pos in range(len(text)+1): self.assertEqual(self.ed.LineFromPosition(pos), line) if pos < len(text) and text[pos] == nl: line += 1 def testWordPositions(self): text = b"ab cd\tef" self.ed.AddText(len(text), text) self.assertEqual(self.ed.WordStartPosition(3, 0), 2) self.assertEqual(self.ed.WordStartPosition(4, 0), 3) self.assertEqual(self.ed.WordStartPosition(5, 0), 3) self.assertEqual(self.ed.WordStartPosition(6, 0), 5) self.assertEqual(self.ed.WordEndPosition(2, 0), 3) self.assertEqual(self.ed.WordEndPosition(3, 0), 5) self.assertEqual(self.ed.WordEndPosition(4, 0), 5) self.assertEqual(self.ed.WordEndPosition(5, 0), 6) self.assertEqual(self.ed.WordEndPosition(6, 0), 8) def testWordRange(self): text = b"ab cd\t++" self.ed.AddText(len(text), text) self.assertEqual(self.ed.IsRangeWord(0, 0), 0) self.assertEqual(self.ed.IsRangeWord(0, 1), 0) self.assertEqual(self.ed.IsRangeWord(0, 2), 1) self.assertEqual(self.ed.IsRangeWord(0, 3), 0) self.assertEqual(self.ed.IsRangeWord(0, 4), 0) self.assertEqual(self.ed.IsRangeWord(0, 5), 1) self.assertEqual(self.ed.IsRangeWord(6, 7), 0) self.assertEqual(self.ed.IsRangeWord(6, 8), 1) class TestChangeHistory(unittest.TestCase): def setUp(self): self.xite = Xite.xiteFrame self.ed = self.xite.ed self.ed.ClearAll() self.ed.EmptyUndoBuffer() self.data = b"xy" def testChangeHistory(self): self.assertEqual(self.ed.ChangeHistory, 0) self.assertEqual(self.ed.UndoCollection, 1) self.ed.UndoCollection = 0 self.assertEqual(self.ed.UndoCollection, 0) self.ed.InsertText(0, self.data) self.ed.UndoCollection = 1 self.ed.ChangeHistory = 1 self.assertEqual(self.ed.ChangeHistory, 1) self.ed.InsertText(0, self.data) self.ed.DeleteRange(0, 2) self.ed.ChangeHistory = 0 self.assertEqual(self.ed.ChangeHistory, 0) self.ed.ChangeHistory = 1 self.assertEqual(self.ed.ChangeHistory, 1) self.ed.Undo() MODI = 1 UNDO = 2 REDO = 4 class TestContainerUndo(unittest.TestCase): def setUp(self): self.xite = Xite.xiteFrame self.ed = self.xite.ed self.ed.ClearAll() self.ed.EmptyUndoBuffer() self.data = b"xy" def UndoState(self): return (MODI if self.ed.Modify else 0) | \ (UNDO if self.ed.CanUndo() else 0) | \ (REDO if self.ed.CanRedo() else 0) def testContainerActNoCoalesce(self): self.ed.InsertText(0, self.data) self.assertEqual(self.ed.Length, 2) self.assertEqual(self.UndoState(), MODI | UNDO) self.ed.AddUndoAction(5, 0) self.ed.Undo() self.assertEqual(self.ed.Length, 2) self.assertEqual(self.UndoState(), MODI | UNDO | REDO) self.ed.Redo() self.assertEqual(self.ed.Length, 2) self.assertEqual(self.UndoState(), MODI | UNDO) self.ed.Undo() def testContainerActCoalesce(self): self.ed.InsertText(0, self.data) self.ed.AddUndoAction(5, 1) self.ed.Undo() self.assertEqual(self.ed.Length, 0) self.assertEqual(self.UndoState(), REDO) self.ed.Redo() self.assertEqual(self.ed.Length, 2) self.assertEqual(self.UndoState(), MODI | UNDO) def testContainerMultiStage(self): self.ed.InsertText(0, self.data) self.ed.AddUndoAction(5, 1) self.ed.AddUndoAction(5, 1) self.assertEqual(self.ed.Length, 2) self.assertEqual(self.UndoState(), MODI | UNDO) self.ed.Undo() self.assertEqual(self.ed.Length, 0) self.assertEqual(self.UndoState(), REDO) self.ed.Redo() self.assertEqual(self.ed.Length, 2) self.assertEqual(self.UndoState(), MODI | UNDO) self.ed.AddUndoAction(5, 1) self.assertEqual(self.ed.Length, 2) self.assertEqual(self.UndoState(), MODI | UNDO) self.ed.Undo() self.assertEqual(self.ed.Length, 0) self.assertEqual(self.UndoState(), REDO) def testContainerMultiStageNoText(self): self.ed.AddUndoAction(5, 1) self.ed.AddUndoAction(5, 1) self.assertEqual(self.UndoState(), MODI | UNDO) self.ed.Undo() self.assertEqual(self.UndoState(), REDO) self.ed.Redo() self.assertEqual(self.UndoState(), MODI | UNDO) self.ed.AddUndoAction(5, 1) self.assertEqual(self.UndoState(), MODI | UNDO) self.ed.Undo() self.assertEqual(self.UndoState(), REDO) def testContainerActCoalesceEnd(self): self.ed.AddUndoAction(5, 1) self.assertEqual(self.ed.Length, 0) self.assertEqual(self.UndoState(), MODI | UNDO) self.ed.InsertText(0, self.data) self.assertEqual(self.ed.Length, 2) self.assertEqual(self.UndoState(), MODI | UNDO) self.ed.Undo() self.assertEqual(self.ed.Length, 0) self.assertEqual(self.UndoState(), REDO) self.ed.Redo() self.assertEqual(self.ed.Length, 2) self.assertEqual(self.UndoState(), MODI | UNDO) def testContainerBetweenInsertAndInsert(self): self.assertEqual(self.ed.Length, 0) self.ed.InsertText(0, self.data) self.assertEqual(self.ed.Length, 2) self.assertEqual(self.UndoState(), MODI | UNDO) self.ed.AddUndoAction(5, 1) self.assertEqual(self.ed.Length, 2) self.assertEqual(self.UndoState(), MODI | UNDO) self.ed.InsertText(2, self.data) self.assertEqual(self.ed.Length, 4) self.assertEqual(self.UndoState(), MODI | UNDO) # Undoes both insertions and the containerAction in the middle self.ed.Undo() self.assertEqual(self.ed.Length, 0) self.assertEqual(self.UndoState(), REDO) def testContainerNoCoalesceBetweenInsertAndInsert(self): self.assertEqual(self.ed.Length, 0) self.ed.InsertText(0, self.data) self.assertEqual(self.ed.Length, 2) self.assertEqual(self.UndoState(), MODI | UNDO) self.ed.AddUndoAction(5, 0) self.assertEqual(self.ed.Length, 2) self.assertEqual(self.UndoState(), MODI | UNDO) self.ed.InsertText(2, self.data) self.assertEqual(self.ed.Length, 4) self.assertEqual(self.UndoState(), MODI | UNDO) # Undo last insertion self.ed.Undo() self.assertEqual(self.ed.Length, 2) self.assertEqual(self.UndoState(), MODI | UNDO | REDO) # Undo container self.ed.Undo() self.assertEqual(self.ed.Length, 2) self.assertEqual(self.UndoState(), MODI | UNDO | REDO) # Undo first insertion self.ed.Undo() self.assertEqual(self.ed.Length, 0) self.assertEqual(self.UndoState(), REDO) def testContainerBetweenDeleteAndDelete(self): self.ed.InsertText(0, self.data) self.ed.EmptyUndoBuffer() self.assertEqual(self.ed.Length, 2) self.assertEqual(self.UndoState(), 0) self.ed.SetSel(2,2) self.ed.DeleteBack() self.assertEqual(self.ed.Length, 1) self.ed.AddUndoAction(5, 1) self.ed.DeleteBack() self.assertEqual(self.ed.Length, 0) # Undoes both deletions and the containerAction in the middle self.ed.Undo() self.assertEqual(self.ed.Length, 2) self.assertEqual(self.UndoState(), REDO) def testContainerBetweenInsertAndDelete(self): self.assertEqual(self.ed.Length, 0) self.ed.InsertText(0, self.data) self.assertEqual(self.ed.Length, 2) self.assertEqual(self.UndoState(), MODI | UNDO) self.ed.AddUndoAction(5, 1) self.assertEqual(self.UndoState(), MODI | UNDO) self.ed.SetSel(0,1) self.ed.Cut() self.assertEqual(self.ed.Length, 1) self.assertEqual(self.UndoState(), MODI | UNDO) self.ed.Undo() # Only undoes the deletion self.assertEqual(self.ed.Length, 2) self.assertEqual(self.UndoState(), MODI | UNDO | REDO) class TestKeyCommands(unittest.TestCase): """ These commands are normally assigned to keys and take no arguments """ def setUp(self): self.xite = Xite.xiteFrame self.ed = self.xite.ed self.ed.ClearAll() self.ed.EmptyUndoBuffer() def selRange(self): return self.ed.CurrentPos, self.ed.Anchor def testLineMove(self): self.ed.AddText(8, b"x1\ny2\nz3") self.ed.SetSel(0,0) self.ed.ChooseCaretX() self.ed.LineDown() self.ed.LineDown() self.assertEqual(self.selRange(), (6, 6)) self.ed.LineUp() self.assertEqual(self.selRange(), (3, 3)) self.ed.LineDownExtend() self.assertEqual(self.selRange(), (6, 3)) self.ed.LineUpExtend() self.ed.LineUpExtend() self.assertEqual(self.selRange(), (0, 3)) def testCharMove(self): self.ed.AddText(8, b"x1\ny2\nz3") self.ed.SetSel(0,0) self.ed.CharRight() self.ed.CharRight() self.assertEqual(self.selRange(), (2, 2)) self.ed.CharLeft() self.assertEqual(self.selRange(), (1, 1)) self.ed.CharRightExtend() self.assertEqual(self.selRange(), (2, 1)) self.ed.CharLeftExtend() self.ed.CharLeftExtend() self.assertEqual(self.selRange(), (0, 1)) def testWordMove(self): self.ed.AddText(10, b"a big boat") self.ed.SetSel(3,3) self.ed.WordRight() self.ed.WordRight() self.assertEqual(self.selRange(), (10, 10)) self.ed.WordLeft() self.assertEqual(self.selRange(), (6, 6)) self.ed.WordRightExtend() self.assertEqual(self.selRange(), (10, 6)) self.ed.WordLeftExtend() self.ed.WordLeftExtend() self.assertEqual(self.selRange(), (2, 6)) def testHomeEndMove(self): self.ed.AddText(10, b"a big boat") self.ed.SetSel(3,3) self.ed.Home() self.assertEqual(self.selRange(), (0, 0)) self.ed.LineEnd() self.assertEqual(self.selRange(), (10, 10)) self.ed.SetSel(3,3) self.ed.HomeExtend() self.assertEqual(self.selRange(), (0, 3)) self.ed.LineEndExtend() self.assertEqual(self.selRange(), (10, 3)) def testVCHome(self): # Goes to the indent unless there already when goes to origin self.ed.AddText(10, b" a big boat") self.ed.SetSel(6,6) self.ed.VCHome() self.assertEqual(self.selRange(), (3, 3)) self.ed.VCHome() self.assertEqual(self.selRange(), (0, 0)) self.ed.VCHome() self.assertEqual(self.selRange(), (3, 3)) def testStartEndMove(self): self.ed.AddText(10, b"a\nbig\nboat") self.ed.SetSel(3,3) self.ed.DocumentStart() self.assertEqual(self.selRange(), (0, 0)) self.ed.DocumentEnd() self.assertEqual(self.selRange(), (10, 10)) self.ed.SetSel(3,3) self.ed.DocumentStartExtend() self.assertEqual(self.selRange(), (0, 3)) self.ed.DocumentEndExtend() self.assertEqual(self.selRange(), (10, 3)) def testParagraphMove(self): example = b"a\n\nbig\n\n\n\nboat" self.ed.AddText(len(example), example) start1 = 0 # Before 'a' start2 = 3 # Before 'big' start3 = 10 # Before 'boat' # Paragraph 2 to 1 self.ed.SetSel(start2, start2) self.ed.ParaUp() self.assertEqual(self.selRange(), (start1, start1)) self.ed.ParaDown() self.assertEqual(self.selRange(), (start2, start2)) self.ed.SetSel(start2, start2) self.ed.ParaUpExtend() self.assertEqual(self.selRange(), (start1, start2)) self.ed.ParaDownExtend() self.assertEqual(self.selRange(), (start2, start2)) # Inside paragraph 2 to start paragraph 2 mid2 = start2+1 self.ed.SetSel(mid2, mid2) # Next line behaved differently before change for bug #2363 self.ed.ParaUp() self.assertEqual(self.selRange(), (start2, start2)) self.ed.ParaDown() self.assertEqual(self.selRange(), (start3, start3)) self.ed.SetSel(mid2, mid2) self.ed.ParaUpExtend() self.assertEqual(self.selRange(), (start2, mid2)) self.ed.ParaDownExtend() self.assertEqual(self.selRange(), (start3, mid2)) # Paragraph 3 to 2 self.ed.SetSel(start3, start3) self.ed.ParaUp() self.assertEqual(self.selRange(), (start2, start2)) self.ed.ParaDown() self.assertEqual(self.selRange(), (start3, start3)) class TestMarkers(unittest.TestCase): def setUp(self): self.xite = Xite.xiteFrame self.ed = self.xite.ed self.ed.ClearAll() self.ed.EmptyUndoBuffer() self.ed.AddText(5, b"x\ny\nz") def testMarker(self): handle = self.ed.MarkerAdd(1,1) self.assertEqual(self.ed.MarkerLineFromHandle(handle), 1) self.ed.MarkerDelete(1,1) self.assertEqual(self.ed.MarkerLineFromHandle(handle), -1) def testTwiceAddedDelete(self): handle = self.ed.MarkerAdd(1,1) self.assertNotEqual(handle, -1) self.assertEqual(self.ed.MarkerGet(1), 2) handle2 = self.ed.MarkerAdd(1,1) self.assertNotEqual(handle2, -1) self.assertEqual(self.ed.MarkerGet(1), 2) self.ed.MarkerDelete(1,1) self.assertEqual(self.ed.MarkerGet(1), 2) self.ed.MarkerDelete(1,1) self.assertEqual(self.ed.MarkerGet(1), 0) def testMarkerDeleteAll(self): h1 = self.ed.MarkerAdd(0,1) h2 = self.ed.MarkerAdd(1,2) self.assertEqual(self.ed.MarkerLineFromHandle(h1), 0) self.assertEqual(self.ed.MarkerLineFromHandle(h2), 1) self.ed.MarkerDeleteAll(1) self.assertEqual(self.ed.MarkerLineFromHandle(h1), -1) self.assertEqual(self.ed.MarkerLineFromHandle(h2), 1) self.ed.MarkerDeleteAll(-1) self.assertEqual(self.ed.MarkerLineFromHandle(h1), -1) self.assertEqual(self.ed.MarkerLineFromHandle(h2), -1) def testMarkerDeleteHandle(self): handle = self.ed.MarkerAdd(0,1) self.assertEqual(self.ed.MarkerLineFromHandle(handle), 0) self.ed.MarkerDeleteHandle(handle) self.assertEqual(self.ed.MarkerLineFromHandle(handle), -1) def testMarkerBits(self): self.assertEqual(self.ed.MarkerGet(0), 0) self.ed.MarkerAdd(0,1) self.assertEqual(self.ed.MarkerGet(0), 2) self.ed.MarkerAdd(0,2) self.assertEqual(self.ed.MarkerGet(0), 6) def testMarkerAddSet(self): self.assertEqual(self.ed.MarkerGet(0), 0) self.ed.MarkerAddSet(0,5) self.assertEqual(self.ed.MarkerGet(0), 5) self.ed.MarkerDeleteAll(-1) def testMarkerNext(self): self.assertEqual(self.ed.MarkerNext(0, 2), -1) h1 = self.ed.MarkerAdd(0,1) self.assertNotEqual(h1, -1) h2 = self.ed.MarkerAdd(2,1) self.assertNotEqual(h2, -1) self.assertEqual(self.ed.MarkerNext(0, 2), 0) self.assertEqual(self.ed.MarkerNext(1, 2), 2) self.assertEqual(self.ed.MarkerNext(2, 2), 2) self.assertEqual(self.ed.MarkerPrevious(0, 2), 0) self.assertEqual(self.ed.MarkerPrevious(1, 2), 0) self.assertEqual(self.ed.MarkerPrevious(2, 2), 2) def testMarkerNegative(self): self.assertEqual(self.ed.MarkerNext(-1, 2), -1) def testLineState(self): self.assertEqual(self.ed.MaxLineState, 0) self.assertEqual(self.ed.GetLineState(0), 0) self.assertEqual(self.ed.GetLineState(1), 0) self.assertEqual(self.ed.GetLineState(2), 0) self.ed.SetLineState(1, 100) self.assertNotEqual(self.ed.MaxLineState, 0) self.assertEqual(self.ed.GetLineState(0), 0) self.assertEqual(self.ed.GetLineState(1), 100) self.assertEqual(self.ed.GetLineState(2), 0) def testSymbolRetrieval(self): self.ed.MarkerDefine(1,3) self.assertEqual(self.ed.MarkerSymbolDefined(1), 3) def markerFromLineIndex(self, line, index): """ Helper that returns (handle, number) """ return (self.ed.MarkerHandleFromLine(line, index), self.ed.MarkerNumberFromLine(line, index)) def markerSetFromLine(self, line): """ Helper that returns set of (handle, number) """ markerSet = set() index = 0 while 1: marker = self.markerFromLineIndex(line, index) if marker[0] == -1: return markerSet markerSet.add(marker) index += 1 def testMarkerFromLine(self): self.assertEqual(self.ed.MarkerHandleFromLine(1, 0), -1) self.assertEqual(self.ed.MarkerNumberFromLine(1, 0), -1) self.assertEqual(self.markerFromLineIndex(1, 0), (-1, -1)) self.assertEqual(self.markerSetFromLine(1), set()) handle = self.ed.MarkerAdd(1,10) self.assertEqual(self.markerFromLineIndex(1, 0), (handle, 10)) self.assertEqual(self.markerFromLineIndex(1, 1), (-1, -1)) self.assertEqual(self.markerSetFromLine(1), {(handle, 10)}) handle2 = self.ed.MarkerAdd(1,11) # Don't want to depend on ordering so check as sets self.assertEqual(self.markerSetFromLine(1), {(handle, 10), (handle2, 11)}) self.ed.MarkerDeleteHandle(handle2) self.assertEqual(self.markerSetFromLine(1), {(handle, 10)}) class TestIndicators(unittest.TestCase): def setUp(self): self.xite = Xite.xiteFrame self.ed = self.xite.ed self.ed.ClearAll() self.ed.EmptyUndoBuffer() def indicatorValueString(self, indicator): # create a string with -/X where indicator off/on to make checks simple return "".join("-X"[self.ed.IndicatorValueAt(indicator, index)] for index in range(self.ed.TextLength)) def testSetIndicator(self): self.assertEqual(self.ed.IndicGetStyle(0), 1) self.assertEqual(self.ed.IndicGetFore(0), 0x007f00) self.ed.IndicSetStyle(0, 2) self.ed.IndicSetFore(0, 0xff0080) self.assertEqual(self.ed.IndicGetStyle(0), 2) self.assertEqual(self.ed.IndicGetFore(0), 0xff0080) def testIndicatorFill(self): self.ed.InsertText(0, b"abc") self.ed.IndicatorCurrent = 3 self.ed.IndicatorFillRange(1,1) self.assertEqual(self.indicatorValueString(3), "-X-") self.assertEqual(self.ed.IndicatorStart(3, 0), 0) self.assertEqual(self.ed.IndicatorEnd(3, 0), 1) self.assertEqual(self.ed.IndicatorStart(3, 1), 1) self.assertEqual(self.ed.IndicatorEnd(3, 1), 2) self.assertEqual(self.ed.IndicatorStart(3, 2), 2) self.assertEqual(self.ed.IndicatorEnd(3, 2), 3) def testIndicatorAtEnd(self): self.ed.InsertText(0, b"ab") self.ed.IndicatorCurrent = 3 self.ed.IndicatorFillRange(1,1) self.assertEqual(self.ed.IndicatorValueAt(3, 0), 0) self.assertEqual(self.ed.IndicatorValueAt(3, 1), 1) self.assertEqual(self.ed.IndicatorStart(3, 0), 0) self.assertEqual(self.ed.IndicatorEnd(3, 0), 1) self.assertEqual(self.ed.IndicatorStart(3, 1), 1) self.assertEqual(self.ed.IndicatorEnd(3, 1), 2) self.ed.DeleteRange(1, 1) # Now only one character left and does not have indicator so indicator 3 is null self.assertEqual(self.ed.IndicatorValueAt(3, 0), 0) # Since null, remaining calls return 0 self.assertEqual(self.ed.IndicatorStart(3, 0), 0) self.assertEqual(self.ed.IndicatorEnd(3, 0), 0) self.assertEqual(self.ed.IndicatorStart(3, 1), 0) self.assertEqual(self.ed.IndicatorEnd(3, 1), 0) def testIndicatorMovement(self): # Create a two character indicator over "BC" in "aBCd" and ensure that it doesn't # leak onto surrounding characters when insertions made at either end but # insertion inside indicator does extend length self.ed.InsertText(0, b"aBCd") self.ed.IndicatorCurrent = 3 self.ed.IndicatorFillRange(1,2) self.assertEqual(self.indicatorValueString(3), "-XX-") # Insertion 1 before self.ed.InsertText(0, b"1") self.assertEqual(b"1aBCd", self.ed.Contents()) self.assertEqual(self.indicatorValueString(3), "--XX-") # Insertion at start of indicator self.ed.InsertText(2, b"2") self.assertEqual(b"1a2BCd", self.ed.Contents()) self.assertEqual(self.indicatorValueString(3), "---XX-") # Insertion inside indicator self.ed.InsertText(4, b"3") self.assertEqual(b"1a2B3Cd", self.ed.Contents()) self.assertEqual(self.indicatorValueString(3), "---XXX-") # Insertion at end of indicator self.ed.InsertText(6, b"4") self.assertEqual(b"1a2B3C4d", self.ed.Contents()) self.assertEqual(self.indicatorValueString(3), "---XXX--") # Insertion 1 after self.ed.InsertText(8, b"5") self.assertEqual(self.indicatorValueString(3), "---XXX---") self.assertEqual(b"1a2B3C4d5", self.ed.Contents()) class TestScrolling(unittest.TestCase): def setUp(self): self.xite = Xite.xiteFrame self.ed = self.xite.ed self.ed.ClearAll() self.ed.EmptyUndoBuffer() # 150 should be enough lines self.ed.InsertText(0, b"a" * 150 + b"\n" * 150) def testTop(self): self.ed.GotoLine(0) self.assertEqual(self.ed.FirstVisibleLine, 0) def testLineScroll(self): self.ed.GotoLine(0) self.ed.LineScroll(0, 3) self.assertEqual(self.ed.FirstVisibleLine, 3) self.ed.LineScroll(0, -2) self.assertEqual(self.ed.FirstVisibleLine, 1) self.assertEqual(self.ed.XOffset, 0) self.ed.LineScroll(10, 0) self.assertGreater(self.ed.XOffset, 0) scroll_width = float(self.ed.XOffset) / 10 self.ed.LineScroll(-2, 0) self.assertEqual(self.ed.XOffset, scroll_width * 8) def testVisibleLine(self): self.ed.FirstVisibleLine = 7 self.assertEqual(self.ed.FirstVisibleLine, 7) class TestSearch(unittest.TestCase): def setUp(self): self.xite = Xite.xiteFrame self.ed = self.xite.ed self.ed.ClearAll() self.ed.EmptyUndoBuffer() self.ed.InsertText(0, b"a\tbig boat\t") def testFind(self): pos = self.ed.FindBytes(0, self.ed.Length, b"zzz", 0) self.assertEqual(pos, -1) pos = self.ed.FindBytes(0, self.ed.Length, b"big", 0) self.assertEqual(pos, 2) def testFindFull(self): pos = self.ed.FindBytesFull(0, self.ed.Length, b"zzz", 0) self.assertEqual(pos, -1) pos = self.ed.FindBytesFull(0, self.ed.Length, b"big", 0) self.assertEqual(pos, 2) def testFindEmpty(self): pos = self.ed.FindBytes(0, self.ed.Length, b"", 0) self.assertEqual(pos, 0) def testCaseFind(self): self.assertEqual(self.ed.FindBytes(0, self.ed.Length, b"big", 0), 2) self.assertEqual(self.ed.FindBytes(0, self.ed.Length, b"bIg", 0), 2) self.assertEqual(self.ed.FindBytes(0, self.ed.Length, b"bIg", self.ed.SCFIND_MATCHCASE), -1) def testWordFind(self): self.assertEqual(self.ed.FindBytes(0, self.ed.Length, b"bi", 0), 2) self.assertEqual(self.ed.FindBytes(0, self.ed.Length, b"bi", self.ed.SCFIND_WHOLEWORD), -1) def testWordStartFind(self): self.assertEqual(self.ed.FindBytes(0, self.ed.Length, b"bi", 0), 2) self.assertEqual(self.ed.FindBytes(0, self.ed.Length, b"bi", self.ed.SCFIND_WORDSTART), 2) self.assertEqual(self.ed.FindBytes(0, self.ed.Length, b"ig", 0), 3) self.assertEqual(self.ed.FindBytes(0, self.ed.Length, b"ig", self.ed.SCFIND_WORDSTART), -1) def testREFind(self): flags = self.ed.SCFIND_REGEXP self.assertEqual(-1, self.ed.FindBytes(0, self.ed.Length, b"b.g", 0)) self.assertEqual(2, self.ed.FindBytes(0, self.ed.Length, b"b.g", flags)) self.assertEqual(2, self.ed.FindBytes(0, self.ed.Length, rb"\", flags)) self.assertEqual(-1, self.ed.FindBytes(0, self.ed.Length, b"b[A-Z]g", flags | self.ed.SCFIND_MATCHCASE)) self.assertEqual(2, self.ed.FindBytes(0, self.ed.Length, b"b[a-z]g", flags)) self.assertEqual(6, self.ed.FindBytes(0, self.ed.Length, b"b[a-z]*t", flags)) self.assertEqual(0, self.ed.FindBytes(0, self.ed.Length, b"^a", flags)) self.assertEqual(10, self.ed.FindBytes(0, self.ed.Length, b"\t$", flags)) self.assertEqual(0, self.ed.FindBytes(0, self.ed.Length, b"\\([a]\\).*\0", flags)) def testPosixREFind(self): flags = self.ed.SCFIND_REGEXP | self.ed.SCFIND_POSIX self.assertEqual(-1, self.ed.FindBytes(0, self.ed.Length, b"b.g", 0)) self.assertEqual(2, self.ed.FindBytes(0, self.ed.Length, b"b.g", flags)) self.assertEqual(2, self.ed.FindBytes(0, self.ed.Length, rb"\", flags)) self.assertEqual(-1, self.ed.FindBytes(0, self.ed.Length, b"b[A-Z]g", flags | self.ed.SCFIND_MATCHCASE)) self.assertEqual(2, self.ed.FindBytes(0, self.ed.Length, b"b[a-z]g", flags)) self.assertEqual(6, self.ed.FindBytes(0, self.ed.Length, b"b[a-z]*t", flags)) self.assertEqual(0, self.ed.FindBytes(0, self.ed.Length, b"^a", flags)) self.assertEqual(10, self.ed.FindBytes(0, self.ed.Length, b"\t$", flags)) self.assertEqual(0, self.ed.FindBytes(0, self.ed.Length, b"([a]).*\0", flags)) def testCxx11REFind(self): flags = self.ed.SCFIND_REGEXP | self.ed.SCFIND_CXX11REGEX self.assertEqual(-1, self.ed.FindBytes(0, self.ed.Length, b"b.g", 0)) self.assertEqual(2, self.ed.FindBytes(0, self.ed.Length, b"b.g", flags)) self.assertEqual(2, self.ed.FindBytes(0, self.ed.Length, rb"\bb.g\b", flags)) self.assertEqual(-1, self.ed.FindBytes(0, self.ed.Length, b"b[A-Z]g", flags | self.ed.SCFIND_MATCHCASE)) self.assertEqual(2, self.ed.FindBytes(0, self.ed.Length, b"b[a-z]g", flags)) self.assertEqual(6, self.ed.FindBytes(0, self.ed.Length, b"b[a-z]*t", flags)) self.assertEqual(0, self.ed.FindBytes(0, self.ed.Length, b"^a", flags)) self.assertEqual(10, self.ed.FindBytes(0, self.ed.Length, b"\t$", flags)) self.assertEqual(0, self.ed.FindBytes(0, self.ed.Length, b"([a]).*\0", flags)) def testCxx11RETooMany(self): # For bug #2281 self.ed.InsertText(0, b"3ringsForTheElvenKing") flags = self.ed.SCFIND_REGEXP | self.ed.SCFIND_CXX11REGEX # Only MAXTAG (10) matches allocated, but doesn't modify a vulnerable address until 15 pattern = b"(.)" * 15 self.assertEqual(0, self.ed.FindBytes(0, self.ed.Length, pattern, flags)) self.assertEqual(0, self.ed.FindBytes(0, self.ed.Length, pattern, flags)) def testPhilippeREFind(self): # Requires 1.,72 flags = self.ed.SCFIND_REGEXP self.assertEqual(0, self.ed.FindBytes(0, self.ed.Length, rb"\w", flags)) self.assertEqual(1, self.ed.FindBytes(0, self.ed.Length, rb"\W", flags)) self.assertEqual(-1, self.ed.FindBytes(0, self.ed.Length, rb"\d", flags)) self.assertEqual(0, self.ed.FindBytes(0, self.ed.Length, rb"\D", flags)) self.assertEqual(1, self.ed.FindBytes(0, self.ed.Length, rb"\s", flags)) self.assertEqual(0, self.ed.FindBytes(0, self.ed.Length, rb"\S", flags)) self.assertEqual(2, self.ed.FindBytes(0, self.ed.Length, b"\x62", flags)) def testRENonASCII(self): self.ed.InsertText(0, b"\xAD") flags = self.ed.SCFIND_REGEXP self.assertEqual(-1, self.ed.FindBytes(0, self.ed.Length, b"\\x10", flags)) self.assertEqual(2, self.ed.FindBytes(0, self.ed.Length, b"\\x09", flags)) self.assertEqual(-1, self.ed.FindBytes(0, self.ed.Length, b"\\xAB", flags)) self.assertEqual(0, self.ed.FindBytes(0, self.ed.Length, b"\\xAD", flags)) def testMultipleAddSelection(self): # Find both 'a' self.assertEqual(self.ed.MultipleSelection, 0) self.ed.MultipleSelection = 1 self.assertEqual(self.ed.MultipleSelection, 1) self.ed.TargetWholeDocument() self.ed.SearchFlags = 0 self.ed.SetSelection(1, 0) self.assertEqual(self.ed.Selections, 1) self.ed.MultipleSelectAddNext() self.assertEqual(self.ed.Selections, 2) self.assertEqual(self.ed.GetSelectionNAnchor(0), 0) self.assertEqual(self.ed.GetSelectionNCaret(0), 1) self.assertEqual(self.ed.GetSelectionNAnchor(1), 8) self.assertEqual(self.ed.GetSelectionNCaret(1), 9) self.ed.MultipleSelection = 0 def testMultipleAddEachSelection(self): # Find each 'b' self.assertEqual(self.ed.MultipleSelection, 0) self.ed.MultipleSelection = 1 self.assertEqual(self.ed.MultipleSelection, 1) self.ed.TargetWholeDocument() self.ed.SearchFlags = 0 self.ed.SetSelection(3, 2) self.assertEqual(self.ed.Selections, 1) self.ed.MultipleSelectAddEach() self.assertEqual(self.ed.Selections, 2) self.assertEqual(self.ed.GetSelectionNAnchor(0), 2) self.assertEqual(self.ed.GetSelectionNCaret(0), 3) self.assertEqual(self.ed.GetSelectionNAnchor(1), 6) self.assertEqual(self.ed.GetSelectionNCaret(1), 7) self.ed.MultipleSelection = 0 class TestRepresentations(unittest.TestCase): def setUp(self): self.xite = Xite.xiteFrame self.ed = self.xite.ed self.ed.ClearAll() self.ed.EmptyUndoBuffer() def testGetControl(self): result = self.ed.GetRepresentation(b"\001") self.assertEqual(result, b"SOH") def testClearControl(self): result = self.ed.GetRepresentation(b"\002") self.assertEqual(result, b"STX") self.ed.ClearRepresentation(b"\002") result = self.ed.GetRepresentation(b"\002") self.assertEqual(result, b"") def testSetOhm(self): ohmSign = b"\xe2\x84\xa6" ohmExplained = b"U+2126 \xe2\x84\xa6" self.ed.SetRepresentation(ohmSign, ohmExplained) result = self.ed.GetRepresentation(ohmSign) self.assertEqual(result, ohmExplained) def testNul(self): self.ed.SetRepresentation(b"", b"Nul") result = self.ed.GetRepresentation(b"") self.assertEqual(result, b"Nul") def testAppearance(self): ohmSign = b"\xe2\x84\xa6" ohmExplained = b"U+2126 \xe2\x84\xa6" self.ed.SetRepresentation(ohmSign, ohmExplained) result = self.ed.GetRepresentationAppearance(ohmSign) self.assertEqual(result, self.ed.SC_REPRESENTATION_BLOB) self.ed.SetRepresentationAppearance(ohmSign, self.ed.SC_REPRESENTATION_PLAIN) result = self.ed.GetRepresentationAppearance(ohmSign) self.assertEqual(result, self.ed.SC_REPRESENTATION_PLAIN) def testColour(self): ohmSign = b"\xe2\x84\xa6" ohmExplained = b"U+2126 \xe2\x84\xa6" self.ed.SetRepresentation(ohmSign, ohmExplained) result = self.ed.GetRepresentationColour(ohmSign) self.assertEqual(result, 0) self.ed.SetRepresentationColour(ohmSign, 0x10203040) result = self.ed.GetRepresentationColour(ohmSign) self.assertEqual(result, 0x10203040) @unittest.skipUnless(lexersAvailable, "no lexers included") class TestProperties(unittest.TestCase): def setUp(self): self.xite = Xite.xiteFrame self.ed = self.xite.ed self.ed.ClearAll() self.ed.EmptyUndoBuffer() def testSet(self): self.xite.ChooseLexer(b"cpp") # For Lexilla, only known property names may work propName = b"lexer.cpp.allow.dollars" self.ed.SetProperty(propName, b"1") self.assertEqual(self.ed.GetPropertyInt(propName), 1) result = self.ed.GetProperty(propName) self.assertEqual(result, b"1") self.ed.SetProperty(propName, b"0") self.assertEqual(self.ed.GetPropertyInt(propName), 0) result = self.ed.GetProperty(propName) self.assertEqual(result, b"0") # No longer expands but should at least return the value result = self.ed.GetPropertyExpanded(propName) self.assertEqual(result, b"0") class TestTextMargin(unittest.TestCase): def setUp(self): self.xite = Xite.xiteFrame self.ed = self.xite.ed self.ed.ClearAll() self.ed.EmptyUndoBuffer() self.txt = b"abcd" self.ed.AddText(1, b"x") def testAscent(self): lineHeight = self.ed.TextHeight(0) self.assertEqual(self.ed.ExtraAscent, 0) self.assertEqual(self.ed.ExtraDescent, 0) self.ed.ExtraAscent = 1 self.assertEqual(self.ed.ExtraAscent, 1) self.ed.ExtraDescent = 2 self.assertEqual(self.ed.ExtraDescent, 2) lineHeightIncreased = self.ed.TextHeight(0) self.assertEqual(lineHeightIncreased, lineHeight + 2 + 1) def testTextMargin(self): self.ed.MarginSetText(0, self.txt) result = self.ed.MarginGetText(0) self.assertEqual(result, self.txt) self.ed.MarginTextClearAll() def testTextMarginStyle(self): self.ed.MarginSetText(0, self.txt) self.ed.MarginSetStyle(0, 33) self.assertEqual(self.ed.MarginGetStyle(0), 33) self.ed.MarginTextClearAll() def testTextMarginStyles(self): styles = b"\001\002\003\004" self.ed.MarginSetText(0, self.txt) self.ed.MarginSetStyles(0, styles) result = self.ed.MarginGetStyles(0) self.assertEqual(result, styles) self.ed.MarginTextClearAll() def testTextMarginStyleOffset(self): self.ed.MarginSetStyleOffset(300) self.assertEqual(self.ed.MarginGetStyleOffset(), 300) class TestAnnotation(unittest.TestCase): def setUp(self): self.xite = Xite.xiteFrame self.ed = self.xite.ed self.ed.ClearAll() self.ed.EmptyUndoBuffer() self.txt = b"abcd" self.ed.AddText(1, b"x") def testTextAnnotation(self): self.assertEqual(self.ed.AnnotationGetLines(), 0) self.ed.AnnotationSetText(0, self.txt) self.assertEqual(self.ed.AnnotationGetLines(), 1) result = self.ed.AnnotationGetText(0) self.assertEqual(len(result), 4) self.assertEqual(result, self.txt) self.ed.AnnotationClearAll() def testTextAnnotationStyle(self): self.ed.AnnotationSetText(0, self.txt) self.ed.AnnotationSetStyle(0, 33) self.assertEqual(self.ed.AnnotationGetStyle(0), 33) self.ed.AnnotationClearAll() def testTextAnnotationStyles(self): styles = b"\001\002\003\004" self.ed.AnnotationSetText(0, self.txt) self.ed.AnnotationSetStyles(0, styles) result = self.ed.AnnotationGetStyles(0) self.assertEqual(result, styles) self.ed.AnnotationClearAll() def testExtendedStyles(self): start0 = self.ed.AllocateExtendedStyles(0) self.assertEqual(start0, 256) start1 = self.ed.AllocateExtendedStyles(10) self.assertEqual(start1, 256) start2 = self.ed.AllocateExtendedStyles(20) self.assertEqual(start2, start1 + 10) # Reset by changing lexer self.ed.ReleaseAllExtendedStyles() start0 = self.ed.AllocateExtendedStyles(0) self.assertEqual(start0, 256) def testTextAnnotationStyleOffset(self): self.ed.AnnotationSetStyleOffset(300) self.assertEqual(self.ed.AnnotationGetStyleOffset(), 300) def testTextAnnotationVisible(self): self.assertEqual(self.ed.AnnotationGetVisible(), 0) self.ed.AnnotationSetVisible(2) self.assertEqual(self.ed.AnnotationGetVisible(), 2) self.ed.AnnotationSetVisible(0) def selectionPositionRepresentation(selectionPosition): position, virtualSpace = selectionPosition representation = str(position) if virtualSpace > 0: representation += "+" + str(virtualSpace) + "v" return representation def selectionRangeRepresentation(selectionRange): anchor, caret = selectionRange return selectionPositionRepresentation(anchor) + "-" + selectionPositionRepresentation(caret) def selectionRepresentation(ed, n): anchor = (ed.GetSelectionNAnchor(n), ed.GetSelectionNAnchorVirtualSpace(n)) caret = (ed.GetSelectionNCaret(n), ed.GetSelectionNCaretVirtualSpace(n)) return selectionRangeRepresentation((anchor, caret)) def allSelectionsRepresentation(ed): reps = [selectionRepresentation(ed, i) for i in range(ed.Selections)] return ';'.join(reps) class TestMultiSelection(unittest.TestCase): def setUp(self): self.xite = Xite.xiteFrame self.ed = self.xite.ed self.ed.ClearAll() self.ed.EmptyUndoBuffer() # 3 lines of 3 characters t = b"xxx\nxxx\nxxx" self.ed.AddText(len(t), t) def textOfSelection(self, n): self.ed.TargetStart = self.ed.GetSelectionNStart(n) self.ed.TargetEnd = self.ed.GetSelectionNEnd(n) return bytes(self.ed.GetTargetText()) def testSelectionCleared(self): self.ed.ClearSelections() self.assertEqual(self.ed.Selections, 1) self.assertEqual(self.ed.MainSelection, 0) self.assertEqual(self.ed.GetSelectionNCaret(0), 0) self.assertEqual(self.ed.GetSelectionNAnchor(0), 0) def test1Selection(self): self.ed.SetSelection(1, 2) self.assertEqual(self.ed.Selections, 1) self.assertEqual(self.ed.MainSelection, 0) self.assertEqual(self.ed.GetSelectionNCaret(0), 1) self.assertEqual(self.ed.GetSelectionNAnchor(0), 2) self.assertEqual(self.ed.GetSelectionNStart(0), 1) self.assertEqual(self.ed.GetSelectionNEnd(0), 2) self.ed.SwapMainAnchorCaret() self.assertEqual(self.ed.Selections, 1) self.assertEqual(self.ed.MainSelection, 0) self.assertEqual(self.ed.GetSelectionNCaret(0), 2) self.assertEqual(self.ed.GetSelectionNAnchor(0), 1) def test1SelectionReversed(self): self.ed.SetSelection(2, 1) self.assertEqual(self.ed.Selections, 1) self.assertEqual(self.ed.MainSelection, 0) self.assertEqual(self.ed.GetSelectionNCaret(0), 2) self.assertEqual(self.ed.GetSelectionNAnchor(0), 1) self.assertEqual(self.ed.GetSelectionNStart(0), 1) self.assertEqual(self.ed.GetSelectionNEnd(0), 2) def test1SelectionByStartEnd(self): self.ed.SetSelectionNStart(0, 2) self.ed.SetSelectionNEnd(0, 3) self.assertEqual(self.ed.Selections, 1) self.assertEqual(self.ed.MainSelection, 0) self.assertEqual(self.ed.GetSelectionNAnchor(0), 2) self.assertEqual(self.ed.GetSelectionNCaret(0), 3) self.assertEqual(self.ed.GetSelectionNStart(0), 2) self.assertEqual(self.ed.GetSelectionNEnd(0), 3) def test2Selections(self): self.ed.SetSelection(1, 2) self.ed.AddSelection(4, 5) self.assertEqual(self.ed.Selections, 2) self.assertEqual(self.ed.MainSelection, 1) self.assertEqual(self.ed.GetSelectionNCaret(0), 1) self.assertEqual(self.ed.GetSelectionNAnchor(0), 2) self.assertEqual(self.ed.GetSelectionNCaret(1), 4) self.assertEqual(self.ed.GetSelectionNAnchor(1), 5) self.assertEqual(self.ed.GetSelectionNStart(0), 1) self.assertEqual(self.ed.GetSelectionNEnd(0), 2) self.ed.MainSelection = 0 self.assertEqual(self.ed.MainSelection, 0) self.ed.RotateSelection() self.assertEqual(self.ed.MainSelection, 1) def testRectangularSelection(self): self.ed.RectangularSelectionAnchor = 1 self.assertEqual(self.ed.RectangularSelectionAnchor, 1) self.ed.RectangularSelectionCaret = 10 self.assertEqual(self.ed.RectangularSelectionCaret, 10) self.assertEqual(self.ed.Selections, 3) self.assertEqual(self.ed.MainSelection, 2) self.assertEqual(self.ed.GetSelectionNAnchor(0), 1) self.assertEqual(self.ed.GetSelectionNCaret(0), 2) self.assertEqual(self.ed.GetSelectionNAnchor(1), 5) self.assertEqual(self.ed.GetSelectionNCaret(1), 6) self.assertEqual(self.ed.GetSelectionNAnchor(2), 9) self.assertEqual(self.ed.GetSelectionNCaret(2), 10) def testVirtualSpace(self): self.ed.SetSelection(3, 7) self.ed.SetSelectionNCaretVirtualSpace(0, 3) self.assertEqual(self.ed.GetSelectionNCaretVirtualSpace(0), 3) self.ed.SetSelectionNAnchorVirtualSpace(0, 2) self.assertEqual(self.ed.GetSelectionNAnchorVirtualSpace(0), 2) self.assertEqual(self.ed.GetSelectionNStartVirtualSpace(0), 3) self.assertEqual(self.ed.GetSelectionNEndVirtualSpace(0), 2) # Does not check that virtual space is valid by being at end of line self.ed.SetSelection(1, 1) self.ed.SetSelectionNCaretVirtualSpace(0, 3) self.assertEqual(self.ed.GetSelectionNCaretVirtualSpace(0), 3) self.assertEqual(self.ed.GetSelectionNStartVirtualSpace(0), 0) self.assertEqual(self.ed.GetSelectionNEndVirtualSpace(0), 3) def testRectangularVirtualSpace(self): self.ed.VirtualSpaceOptions=1 self.ed.RectangularSelectionAnchor = 3 self.assertEqual(self.ed.RectangularSelectionAnchor, 3) self.ed.RectangularSelectionCaret = 7 self.assertEqual(self.ed.RectangularSelectionCaret, 7) self.ed.RectangularSelectionAnchorVirtualSpace = 1 self.assertEqual(self.ed.RectangularSelectionAnchorVirtualSpace, 1) self.ed.RectangularSelectionCaretVirtualSpace = 10 self.assertEqual(self.ed.RectangularSelectionCaretVirtualSpace, 10) self.assertEqual(self.ed.Selections, 2) self.assertEqual(self.ed.MainSelection, 1) self.assertEqual(self.ed.GetSelectionNAnchor(0), 3) self.assertEqual(self.ed.GetSelectionNAnchorVirtualSpace(0), 1) self.assertEqual(self.ed.GetSelectionNCaret(0), 3) self.assertEqual(self.ed.GetSelectionNCaretVirtualSpace(0), 10) def testRectangularVirtualSpaceOptionOff(self): # Same as previous test but virtual space option off so no virtual space in result self.ed.VirtualSpaceOptions=0 self.ed.RectangularSelectionAnchor = 3 self.assertEqual(self.ed.RectangularSelectionAnchor, 3) self.ed.RectangularSelectionCaret = 7 self.assertEqual(self.ed.RectangularSelectionCaret, 7) self.ed.RectangularSelectionAnchorVirtualSpace = 1 self.assertEqual(self.ed.RectangularSelectionAnchorVirtualSpace, 1) self.ed.RectangularSelectionCaretVirtualSpace = 10 self.assertEqual(self.ed.RectangularSelectionCaretVirtualSpace, 10) self.assertEqual(self.ed.Selections, 2) self.assertEqual(self.ed.MainSelection, 1) self.assertEqual(self.ed.GetSelectionNAnchor(0), 3) self.assertEqual(self.ed.GetSelectionNAnchorVirtualSpace(0), 0) self.assertEqual(self.ed.GetSelectionNCaret(0), 3) self.assertEqual(self.ed.GetSelectionNCaretVirtualSpace(0), 0) def testDropSelectionN(self): self.ed.SetSelection(1, 2) # Only one so dropping has no effect self.ed.DropSelectionN(0) self.assertEqual(self.ed.Selections, 1) self.ed.AddSelection(4, 5) self.assertEqual(self.ed.Selections, 2) # Outside bounds so no effect self.ed.DropSelectionN(2) self.assertEqual(self.ed.Selections, 2) # Dropping before main so main decreases self.ed.DropSelectionN(0) self.assertEqual(self.ed.Selections, 1) self.assertEqual(self.ed.MainSelection, 0) self.assertEqual(self.ed.GetSelectionNCaret(0), 4) self.assertEqual(self.ed.GetSelectionNAnchor(0), 5) self.ed.AddSelection(10, 11) self.ed.AddSelection(20, 21) self.assertEqual(self.ed.Selections, 3) self.assertEqual(self.ed.MainSelection, 2) self.ed.MainSelection = 1 # Dropping after main so main does not change self.ed.DropSelectionN(2) self.assertEqual(self.ed.MainSelection, 1) # Dropping first selection so wraps around to new last. self.ed.AddSelection(30, 31) self.ed.AddSelection(40, 41) self.assertEqual(self.ed.Selections, 4) self.ed.MainSelection = 0 self.ed.DropSelectionN(0) self.assertEqual(self.ed.MainSelection, 2) def partFromSelection(self, n): # Return a tuple (order, text) from a selection part # order is a boolean whether the caret is before the anchor self.ed.TargetStart = self.ed.GetSelectionNStart(n) self.ed.TargetEnd = self.ed.GetSelectionNEnd(n) return (self.ed.GetSelectionNCaret(n) < self.ed.GetSelectionNAnchor(n), self.textOfSelection(n)) def replacePart(self, n, part): startSelection = self.ed.GetSelectionNStart(n) self.ed.TargetStart = startSelection self.ed.TargetEnd = self.ed.GetSelectionNEnd(n) direction, text = part length = len(text) self.ed.ReplaceTarget(len(text), text) if direction: self.ed.SetSelectionNCaret(n, startSelection) self.ed.SetSelectionNAnchor(n, startSelection + length) else: self.ed.SetSelectionNAnchor(n, startSelection) self.ed.SetSelectionNCaret(n, startSelection + length) def swapSelections(self): # Swap the selections part0 = self.partFromSelection(0) part1 = self.partFromSelection(1) self.replacePart(1, part0) self.replacePart(0, part1) def checkAdjacentSelections(self, selections, invert): # Only called from testAdjacentSelections to try one permutation self.ed.ClearAll() self.ed.EmptyUndoBuffer() t = b"ab" texts = (b'b', b'a') if invert else (b'a', b'b') self.ed.AddText(len(t), t) sel0, sel1 = selections self.ed.SetSelection(sel0[0], sel0[1]) self.ed.AddSelection(sel1[0], sel1[1]) self.assertEqual(self.ed.Selections, 2) self.assertEqual(self.textOfSelection(0), texts[0]) self.assertEqual(self.textOfSelection(1), texts[1]) self.swapSelections() self.assertEqual(self.ed.Contents(), b'ba') self.assertEqual(self.ed.Selections, 2) self.assertEqual(self.textOfSelection(0), texts[1]) self.assertEqual(self.textOfSelection(1), texts[0]) def testAdjacentSelections(self): # For various permutations of selections, try swapping the text and ensure that the # selections remain distinct self.checkAdjacentSelections(((1, 0),(1, 2)), False) self.checkAdjacentSelections(((0, 1),(1, 2)), False) self.checkAdjacentSelections(((1, 0),(2, 1)), False) self.checkAdjacentSelections(((0, 1),(2, 1)), False) # Reverse order, first selection is after second self.checkAdjacentSelections(((1, 2),(1, 0)), True) self.checkAdjacentSelections(((1, 2),(0, 1)), True) self.checkAdjacentSelections(((2, 1),(1, 0)), True) self.checkAdjacentSelections(((2, 1),(0, 1)), True) def testInsertBefore(self): self.ed.ClearAll() t = b"a" self.ed.AddText(len(t), t) self.ed.SetSelection(0, 1) self.assertEqual(self.textOfSelection(0), b'a') self.ed.SetTargetRange(0, 0) self.ed.ReplaceTarget(1, b'1') self.assertEqual(self.ed.Contents(), b'1a') self.assertEqual(self.textOfSelection(0), b'a') def testInsertAfter(self): self.ed.ClearAll() t = b"a" self.ed.AddText(len(t), t) self.ed.SetSelection(0, 1) self.assertEqual(self.textOfSelection(0), b'a') self.ed.SetTargetRange(1, 1) self.ed.ReplaceTarget(1, b'9') self.assertEqual(self.ed.Contents(), b'a9') self.assertEqual(self.textOfSelection(0), b'a') def testInsertBeforeVirtualSpace(self): self.ed.SetContents(b"a") self.ed.SetSelection(1, 1) self.ed.SetSelectionNAnchorVirtualSpace(0, 2) self.ed.SetSelectionNCaretVirtualSpace(0, 2) self.assertEqual(selectionRepresentation(self.ed, 0), "1+2v-1+2v") self.assertEqual(self.textOfSelection(0), b'') # Append '1' self.ed.SetTargetRange(1, 1) self.ed.ReplaceTarget(1, b'1') # Selection moved on 1, but still empty self.assertEqual(selectionRepresentation(self.ed, 0), "2+1v-2+1v") self.assertEqual(self.ed.Contents(), b'a1') self.assertEqual(self.textOfSelection(0), b'') def testInsertThroughVirtualSpace(self): self.ed.SetContents(b"a") self.ed.SetSelection(1, 1) self.ed.SetSelectionNAnchorVirtualSpace(0, 2) self.ed.SetSelectionNCaretVirtualSpace(0, 3) self.assertEqual(selectionRepresentation(self.ed, 0), "1+2v-1+3v") self.assertEqual(self.textOfSelection(0), b'') # Append '1' past current virtual space self.ed.SetTargetRange(1, 1) self.ed.SetTargetStartVirtualSpace(4) self.ed.SetTargetEndVirtualSpace(5) self.ed.ReplaceTarget(1, b'1') # Virtual space of selection all converted to real positions self.assertEqual(selectionRepresentation(self.ed, 0), "3-4") self.assertEqual(self.ed.Contents(), b'a 1') self.assertEqual(self.textOfSelection(0), b' ') class TestModalSelection(unittest.TestCase): def setUp(self): self.xite = Xite.xiteFrame self.ed = self.xite.ed self.ed.ClearAll() self.ed.EmptyUndoBuffer() # 3 lines of 3 characters t = b"xxx\nxxx\nxxx" self.ed.AddText(len(t), t) def testCharacterSelection(self): self.ed.SetSelection(1, 1) self.assertEqual(self.ed.MainSelection, 0) self.assertEqual(allSelectionsRepresentation(self.ed), "1-1") self.ed.SelectionMode = self.ed.SC_SEL_STREAM self.assertEqual(self.ed.GetSelectionMode(), self.ed.SC_SEL_STREAM) self.assertEqual(self.ed.MoveExtendsSelection, True) self.assertEqual(allSelectionsRepresentation(self.ed), "1-1") self.ed.CharRight() self.assertEqual(allSelectionsRepresentation(self.ed), "1-2") self.ed.LineDown() self.assertEqual(allSelectionsRepresentation(self.ed), "1-6") self.ed.ClearSelections() def testChangeSelectionMode(self): # Like testCharacterSelection but calling ChangeSelectionMode instead of SetSelectionMode self.ed.SetSelection(1, 1) self.assertEqual(allSelectionsRepresentation(self.ed), "1-1") self.ed.ChangeSelectionMode(self.ed.SC_SEL_STREAM) self.assertEqual(self.ed.GetSelectionMode(), self.ed.SC_SEL_STREAM) self.assertEqual(self.ed.MoveExtendsSelection, False) self.assertEqual(allSelectionsRepresentation(self.ed), "1-1") self.ed.CharRight() self.assertEqual(allSelectionsRepresentation(self.ed), "2-2") self.ed.LineDown() self.assertEqual(allSelectionsRepresentation(self.ed), "6-6") self.ed.ClearSelections() def testTurningOffMoveExtendsSelection(self): self.ed.SetSelection(1, 1) self.ed.SelectionMode = self.ed.SC_SEL_STREAM self.ed.CharRight() self.ed.LineDown() self.assertEqual(self.ed.MoveExtendsSelection, True) self.ed.MoveExtendsSelection = False self.assertEqual(self.ed.MoveExtendsSelection, False) self.ed.CharRight() self.assertEqual(allSelectionsRepresentation(self.ed), "6-6") self.ed.CharRight() self.assertEqual(allSelectionsRepresentation(self.ed), "7-7") self.ed.ClearSelections() def testRectangleSelection(self): self.ed.SetSelection(1, 1) self.assertEqual(self.ed.Selections, 1) self.assertEqual(self.ed.MainSelection, 0) self.assertEqual(self.ed.GetSelectionNCaret(0), 1) self.assertEqual(self.ed.GetSelectionNAnchor(0), 1) self.ed.SelectionMode = self.ed.SC_SEL_RECTANGLE self.assertEqual(self.ed.GetSelectionMode(), self.ed.SC_SEL_RECTANGLE) self.assertEqual(self.ed.Selections, 1) self.assertEqual(self.ed.MainSelection, 0) self.assertEqual(self.ed.GetSelectionNCaret(0), 1) self.assertEqual(self.ed.GetSelectionNAnchor(0), 1) self.ed.CharRight() self.assertEqual(self.ed.Selections, 1) self.assertEqual(self.ed.MainSelection, 0) self.assertEqual(self.ed.GetSelectionNCaret(0), 2) self.assertEqual(self.ed.GetSelectionNAnchor(0), 1) self.ed.LineDown() self.assertEqual(self.ed.Selections, 2) self.assertEqual(self.ed.MainSelection, 1) self.assertEqual(self.ed.GetSelectionNCaret(0), 2) self.assertEqual(self.ed.GetSelectionNAnchor(0), 1) self.assertEqual(self.ed.GetSelectionNCaret(1), 6) self.assertEqual(self.ed.GetSelectionNAnchor(1), 5) self.ed.ClearSelections() def testLinesSelection(self): self.ed.SetSelection(1, 1) self.assertEqual(self.ed.Selections, 1) self.assertEqual(self.ed.MainSelection, 0) self.assertEqual(self.ed.GetSelectionNCaret(0), 1) self.assertEqual(self.ed.GetSelectionNAnchor(0), 1) self.ed.SelectionMode = self.ed.SC_SEL_LINES self.assertEqual(self.ed.GetSelectionMode(), self.ed.SC_SEL_LINES) self.assertEqual(self.ed.Selections, 1) self.assertEqual(self.ed.MainSelection, 0) self.assertEqual(self.ed.GetSelectionNCaret(0), 0) self.assertEqual(self.ed.GetSelectionNAnchor(0), 3) self.ed.CharRight() self.assertEqual(self.ed.Selections, 1) self.assertEqual(self.ed.MainSelection, 0) self.assertEqual(self.ed.GetSelectionNCaret(0), 0) self.assertEqual(self.ed.GetSelectionNAnchor(0), 3) self.ed.LineDown() self.assertEqual(self.ed.Selections, 1) self.assertEqual(self.ed.MainSelection, 0) self.assertEqual(self.ed.GetSelectionNCaret(0), 7) self.assertEqual(self.ed.GetSelectionNAnchor(0), 0) self.ed.ClearSelections() class TestTechnology(unittest.TestCase): """ These tests are just to ensure that the calls set and retrieve values. They assume running on a Direct2D compatible version of Windows. They do not check visual appearance. """ def setUp(self): self.xite = Xite.xiteFrame self.ed = self.xite.ed self.ed.ClearAll() self.ed.EmptyUndoBuffer() def tearDown(self): self.ed.ClearAll() self.ed.EmptyUndoBuffer() def testTechnologyAndBufferedDraw(self): self.ed.Technology = self.ed.SC_TECHNOLOGY_DEFAULT self.assertEqual(self.ed.GetTechnology(), self.ed.SC_TECHNOLOGY_DEFAULT) if sys.platform == "win32": self.ed.Technology = self.ed.SC_TECHNOLOGY_DIRECTWRITE self.assertEqual(self.ed.GetTechnology(), self.ed.SC_TECHNOLOGY_DIRECTWRITE) self.assertEqual(self.ed.BufferedDraw, False) self.ed.Technology = self.ed.SC_TECHNOLOGY_DEFAULT self.assertEqual(self.ed.GetTechnology(), self.ed.SC_TECHNOLOGY_DEFAULT) self.assertEqual(self.ed.BufferedDraw, True) class TestStyleAttributes(unittest.TestCase): """ These tests are just to ensure that the calls set and retrieve values. They do not check the visual appearance of the style attributes. """ def setUp(self): self.xite = Xite.xiteFrame self.ed = self.xite.ed self.ed.ClearAll() self.ed.EmptyUndoBuffer() self.testColour = 0x171615 self.testFont = b"Georgia" self.testRepresentation = "\N{BULLET}".encode("utf-8") def tearDown(self): self.ed.StyleResetDefault() def testFont(self): self.ed.StyleSetFont(self.ed.STYLE_DEFAULT, self.testFont) self.assertEqual(self.ed.StyleGetFont(self.ed.STYLE_DEFAULT), self.testFont) def testSize(self): self.ed.StyleSetSize(self.ed.STYLE_DEFAULT, 12) self.assertEqual(self.ed.StyleGetSize(self.ed.STYLE_DEFAULT), 12) self.assertEqual(self.ed.StyleGetSizeFractional(self.ed.STYLE_DEFAULT), 12*self.ed.SC_FONT_SIZE_MULTIPLIER) self.ed.StyleSetSizeFractional(self.ed.STYLE_DEFAULT, 1234) self.assertEqual(self.ed.StyleGetSizeFractional(self.ed.STYLE_DEFAULT), 1234) def testInvisibleRepresentation(self): self.assertEqual(self.ed.StyleGetInvisibleRepresentation(self.ed.STYLE_DEFAULT), b"") self.ed.StyleSetInvisibleRepresentation(self.ed.STYLE_DEFAULT, self.testRepresentation) self.assertEqual(self.ed.StyleGetInvisibleRepresentation(self.ed.STYLE_DEFAULT), self.testRepresentation) self.ed.StyleSetInvisibleRepresentation(self.ed.STYLE_DEFAULT, b"\000") self.assertEqual(self.ed.StyleGetInvisibleRepresentation(self.ed.STYLE_DEFAULT), b"") def testBold(self): self.ed.StyleSetBold(self.ed.STYLE_DEFAULT, 1) self.assertEqual(self.ed.StyleGetBold(self.ed.STYLE_DEFAULT), 1) self.assertEqual(self.ed.StyleGetWeight(self.ed.STYLE_DEFAULT), self.ed.SC_WEIGHT_BOLD) self.ed.StyleSetWeight(self.ed.STYLE_DEFAULT, 530) self.assertEqual(self.ed.StyleGetWeight(self.ed.STYLE_DEFAULT), 530) def testItalic(self): self.ed.StyleSetItalic(self.ed.STYLE_DEFAULT, 1) self.assertEqual(self.ed.StyleGetItalic(self.ed.STYLE_DEFAULT), 1) def testUnderline(self): self.assertEqual(self.ed.StyleGetUnderline(self.ed.STYLE_DEFAULT), 0) self.ed.StyleSetUnderline(self.ed.STYLE_DEFAULT, 1) self.assertEqual(self.ed.StyleGetUnderline(self.ed.STYLE_DEFAULT), 1) def testFore(self): self.assertEqual(self.ed.StyleGetFore(self.ed.STYLE_DEFAULT), 0) self.ed.StyleSetFore(self.ed.STYLE_DEFAULT, self.testColour) self.assertEqual(self.ed.StyleGetFore(self.ed.STYLE_DEFAULT), self.testColour) def testBack(self): self.assertEqual(self.ed.StyleGetBack(self.ed.STYLE_DEFAULT), 0xffffff) self.ed.StyleSetBack(self.ed.STYLE_DEFAULT, self.testColour) self.assertEqual(self.ed.StyleGetBack(self.ed.STYLE_DEFAULT), self.testColour) def testEOLFilled(self): self.assertEqual(self.ed.StyleGetEOLFilled(self.ed.STYLE_DEFAULT), 0) self.ed.StyleSetEOLFilled(self.ed.STYLE_DEFAULT, 1) self.assertEqual(self.ed.StyleGetEOLFilled(self.ed.STYLE_DEFAULT), 1) def testCharacterSet(self): self.ed.StyleSetCharacterSet(self.ed.STYLE_DEFAULT, self.ed.SC_CHARSET_RUSSIAN) self.assertEqual(self.ed.StyleGetCharacterSet(self.ed.STYLE_DEFAULT), self.ed.SC_CHARSET_RUSSIAN) def testCase(self): self.assertEqual(self.ed.StyleGetCase(self.ed.STYLE_DEFAULT), self.ed.SC_CASE_MIXED) self.ed.StyleSetCase(self.ed.STYLE_DEFAULT, self.ed.SC_CASE_UPPER) self.assertEqual(self.ed.StyleGetCase(self.ed.STYLE_DEFAULT), self.ed.SC_CASE_UPPER) self.ed.StyleSetCase(self.ed.STYLE_DEFAULT, self.ed.SC_CASE_LOWER) self.assertEqual(self.ed.StyleGetCase(self.ed.STYLE_DEFAULT), self.ed.SC_CASE_LOWER) def testVisible(self): self.assertEqual(self.ed.StyleGetVisible(self.ed.STYLE_DEFAULT), 1) self.ed.StyleSetVisible(self.ed.STYLE_DEFAULT, 0) self.assertEqual(self.ed.StyleGetVisible(self.ed.STYLE_DEFAULT), 0) def testChangeable(self): self.assertEqual(self.ed.StyleGetChangeable(self.ed.STYLE_DEFAULT), 1) self.ed.StyleSetChangeable(self.ed.STYLE_DEFAULT, 0) self.assertEqual(self.ed.StyleGetChangeable(self.ed.STYLE_DEFAULT), 0) def testHotSpot(self): self.assertEqual(self.ed.StyleGetHotSpot(self.ed.STYLE_DEFAULT), 0) self.ed.StyleSetHotSpot(self.ed.STYLE_DEFAULT, 1) self.assertEqual(self.ed.StyleGetHotSpot(self.ed.STYLE_DEFAULT), 1) def testFoldDisplayTextStyle(self): self.assertEqual(self.ed.FoldDisplayTextGetStyle(), 0) self.ed.FoldDisplayTextSetStyle(self.ed.SC_FOLDDISPLAYTEXT_BOXED) self.assertEqual(self.ed.FoldDisplayTextGetStyle(), self.ed.SC_FOLDDISPLAYTEXT_BOXED) def testDefaultFoldDisplayText(self): self.assertEqual(self.ed.GetDefaultFoldDisplayText(), b"") self.ed.SetDefaultFoldDisplayText(0, b"...") self.assertEqual(self.ed.GetDefaultFoldDisplayText(), b"...") def testFontQuality(self): self.assertEqual(self.ed.GetFontQuality(), self.ed.SC_EFF_QUALITY_DEFAULT) self.ed.SetFontQuality(self.ed.SC_EFF_QUALITY_LCD_OPTIMIZED) self.assertEqual(self.ed.GetFontQuality(), self.ed.SC_EFF_QUALITY_LCD_OPTIMIZED) def testFontLocale(self): initialLocale = "en-us".encode("UTF-8") testLocale = "zh-Hans".encode("UTF-8") self.assertEqual(self.ed.GetFontLocale(), initialLocale) self.ed.FontLocale = testLocale self.assertEqual(self.ed.GetFontLocale(), testLocale) def testCheckMonospaced(self): self.assertEqual(self.ed.StyleGetCheckMonospaced(self.ed.STYLE_DEFAULT), 0) self.ed.StyleSetCheckMonospaced(self.ed.STYLE_DEFAULT, 1) self.assertEqual(self.ed.StyleGetCheckMonospaced(self.ed.STYLE_DEFAULT), 1) class TestElements(unittest.TestCase): """ These tests are just to ensure that the calls set and retrieve values. They do not check the visual appearance of the style attributes. """ def setUp(self): self.xite = Xite.xiteFrame self.ed = self.xite.ed self.ed.ClearAll() self.ed.EmptyUndoBuffer() self.testColourAlpha = 0x18171615 self.opaque = 0xff000000 self.dropAlpha = 0x00ffffff def tearDown(self): pass def ElementColour(self, element): # & 0xffffffff prevents sign extension issues return self.ed.GetElementColour(element) & 0xffffffff def RestoreCaretLine(self): self.ed.CaretLineLayer = 0 self.ed.CaretLineFrame = 0 self.ed.ResetElementColour(self.ed.SC_ELEMENT_CARET_LINE_BACK) self.ed.CaretLineVisibleAlways = False def testIsSet(self): self.assertFalse(self.ed.GetElementIsSet(self.ed.SC_ELEMENT_SELECTION_TEXT)) def testAllowsTranslucent(self): self.assertFalse(self.ed.GetElementAllowsTranslucent(self.ed.SC_ELEMENT_LIST)) self.assertTrue(self.ed.GetElementAllowsTranslucent(self.ed.SC_ELEMENT_SELECTION_TEXT)) def testChanging(self): self.ed.SetElementColour(self.ed.SC_ELEMENT_LIST_BACK, self.testColourAlpha) self.assertEqual(self.ElementColour(self.ed.SC_ELEMENT_LIST_BACK), self.testColourAlpha) self.assertTrue(self.ed.GetElementIsSet(self.ed.SC_ELEMENT_LIST_BACK)) def testSubline(self): # Default is false self.assertEqual(self.ed.CaretLineHighlightSubLine, False) self.ed.CaretLineHighlightSubLine = True self.assertEqual(self.ed.CaretLineHighlightSubLine, True) self.ed.CaretLineHighlightSubLine = False self.assertEqual(self.ed.CaretLineHighlightSubLine, False) def testReset(self): self.ed.SetElementColour(self.ed.SC_ELEMENT_SELECTION_ADDITIONAL_TEXT, self.testColourAlpha) self.assertEqual(self.ElementColour(self.ed.SC_ELEMENT_SELECTION_ADDITIONAL_TEXT), self.testColourAlpha) self.ed.ResetElementColour(self.ed.SC_ELEMENT_SELECTION_ADDITIONAL_TEXT) self.assertEqual(self.ElementColour(self.ed.SC_ELEMENT_SELECTION_ADDITIONAL_TEXT), 0) self.assertFalse(self.ed.GetElementIsSet(self.ed.SC_ELEMENT_SELECTION_ADDITIONAL_TEXT)) def testBaseColour(self): if sys.platform == "win32": # SC_ELEMENT_LIST* base colours only currently implemented on Win32 text = self.ed.GetElementBaseColour(self.ed.SC_ELEMENT_LIST) back = self.ed.GetElementBaseColour(self.ed.SC_ELEMENT_LIST_BACK) self.assertEqual(text & self.opaque, self.opaque) self.assertEqual(back & self.opaque, self.opaque) self.assertNotEqual(text & self.dropAlpha, back & self.dropAlpha) selText = self.ed.GetElementBaseColour(self.ed.SC_ELEMENT_LIST_SELECTED) selBack = self.ed.GetElementBaseColour(self.ed.SC_ELEMENT_LIST_SELECTED_BACK) self.assertEqual(selText & self.opaque, self.opaque) self.assertEqual(selBack & self.opaque, self.opaque) self.assertNotEqual(selText & self.dropAlpha, selBack & self.dropAlpha) def testSelectionLayer(self): self.ed.SelectionLayer = self.ed.SC_LAYER_OVER_TEXT self.assertEqual(self.ed.SelectionLayer, self.ed.SC_LAYER_OVER_TEXT) self.ed.SelectionLayer = self.ed.SC_LAYER_BASE self.assertEqual(self.ed.SelectionLayer, self.ed.SC_LAYER_BASE) def testCaretLine(self): # Newer Layer / ElementColour API self.assertEqual(self.ed.CaretLineLayer, 0) self.assertFalse(self.ed.GetElementIsSet(self.ed.SC_ELEMENT_CARET_LINE_BACK)) self.assertEqual(self.ed.CaretLineFrame, 0) self.assertFalse(self.ed.CaretLineVisibleAlways) self.ed.CaretLineLayer = 2 self.assertEqual(self.ed.CaretLineLayer, 2) self.ed.CaretLineFrame = 2 self.assertEqual(self.ed.CaretLineFrame, 2) self.ed.CaretLineVisibleAlways = True self.assertTrue(self.ed.CaretLineVisibleAlways) self.ed.SetElementColour(self.ed.SC_ELEMENT_CARET_LINE_BACK, self.testColourAlpha) self.assertEqual(self.ElementColour(self.ed.SC_ELEMENT_CARET_LINE_BACK), self.testColourAlpha) self.RestoreCaretLine() def testCaretLineLayerDiscouraged(self): # Check old discouraged APIs # This is s bit tricky as there is no clean mapping: parts of the old state are distributed to # sometimes-multiple parts of the new state. backColour = 0x102030 backColourOpaque = backColour | self.opaque self.assertEqual(self.ed.CaretLineVisible, 0) self.ed.CaretLineVisible = 1 self.assertTrue(self.ed.GetElementIsSet(self.ed.SC_ELEMENT_CARET_LINE_BACK)) self.assertEqual(self.ed.CaretLineVisible, 1) self.ed.CaretLineBack = backColour self.assertEqual(self.ed.CaretLineBack, backColour) # Check with newer API self.assertTrue(self.ed.GetElementIsSet(self.ed.SC_ELEMENT_CARET_LINE_BACK)) self.assertEqual(self.ElementColour(self.ed.SC_ELEMENT_CARET_LINE_BACK), backColourOpaque) self.assertEqual(self.ed.CaretLineLayer, 0) alpha = 0x7f self.ed.CaretLineBackAlpha = alpha self.assertEqual(self.ed.CaretLineBackAlpha, alpha) backColourTranslucent = backColour | (alpha << 24) self.assertEqual(self.ElementColour(self.ed.SC_ELEMENT_CARET_LINE_BACK), backColourTranslucent) self.assertEqual(self.ed.CaretLineLayer, 2) self.ed.CaretLineBackAlpha = 0x100 self.assertEqual(self.ed.CaretLineBackAlpha, 0x100) self.assertEqual(self.ed.CaretLineLayer, 0) # SC_ALPHA_NOALPHA moved to base layer self.RestoreCaretLine() # Try other orders self.ed.CaretLineBackAlpha = 0x100 self.assertEqual(self.ed.CaretLineBackAlpha, 0x100) self.assertEqual(self.ed.CaretLineLayer, 0) # SC_ALPHA_NOALPHA moved to base layer self.ed.CaretLineBack = backColour self.assertTrue(self.ed.GetElementIsSet(self.ed.SC_ELEMENT_CARET_LINE_BACK)) self.ed.CaretLineVisible = 0 self.assertFalse(self.ed.GetElementIsSet(self.ed.SC_ELEMENT_CARET_LINE_BACK)) self.RestoreCaretLine() def testMarkerLayer(self): self.assertEqual(self.ed.MarkerGetLayer(1), 0) self.ed.MarkerSetAlpha(1, 23) self.assertEqual(self.ed.MarkerGetLayer(1), 2) self.ed.MarkerSetAlpha(1, 0x100) self.assertEqual(self.ed.MarkerGetLayer(1), 0) def testHotSpot(self): self.assertFalse(self.ed.GetElementIsSet(self.ed.SC_ELEMENT_HOT_SPOT_ACTIVE)) self.assertFalse(self.ed.GetElementIsSet(self.ed.SC_ELEMENT_HOT_SPOT_ACTIVE_BACK)) self.assertEqual(self.ed.HotspotActiveFore, 0) self.assertEqual(self.ed.HotspotActiveBack, 0) testColour = 0x804020 resetColour = 0x112233 # Doesn't get set self.ed.SetHotspotActiveFore(1, testColour) self.assertEqual(self.ed.HotspotActiveFore, testColour) self.assertTrue(self.ed.GetElementIsSet(self.ed.SC_ELEMENT_HOT_SPOT_ACTIVE)) self.assertEqual(self.ElementColour(self.ed.SC_ELEMENT_HOT_SPOT_ACTIVE), testColour | self.opaque) self.ed.SetHotspotActiveFore(0, resetColour) self.assertEqual(self.ed.HotspotActiveFore, 0) self.assertFalse(self.ed.GetElementIsSet(self.ed.SC_ELEMENT_HOT_SPOT_ACTIVE)) self.assertEqual(self.ElementColour(self.ed.SC_ELEMENT_HOT_SPOT_ACTIVE), 0) translucentColour = 0x50403020 self.ed.SetElementColour(self.ed.SC_ELEMENT_HOT_SPOT_ACTIVE, translucentColour) self.assertEqual(self.ElementColour(self.ed.SC_ELEMENT_HOT_SPOT_ACTIVE), translucentColour) self.assertEqual(self.ed.HotspotActiveFore, translucentColour & self.dropAlpha) backColour = 0x204080 self.ed.SetHotspotActiveBack(1, backColour) self.assertEqual(self.ed.HotspotActiveBack, backColour) self.assertTrue(self.ed.GetElementIsSet(self.ed.SC_ELEMENT_HOT_SPOT_ACTIVE_BACK)) self.assertEqual(self.ElementColour(self.ed.SC_ELEMENT_HOT_SPOT_ACTIVE_BACK), backColour | self.opaque) # Restore self.ed.ResetElementColour(self.ed.SC_ELEMENT_HOT_SPOT_ACTIVE) self.ed.ResetElementColour(self.ed.SC_ELEMENT_HOT_SPOT_ACTIVE_BACK) def testHideSelection(self): self.assertEqual(self.ed.SelectionHidden, False) self.ed.HideSelection(True) self.assertEqual(self.ed.SelectionHidden, True) self.ed.HideSelection(False) # Restore self.assertEqual(self.ed.SelectionHidden, False) class TestIndices(unittest.TestCase): def setUp(self): self.xite = Xite.xiteFrame self.ed = self.xite.ed self.ed.ClearAll() self.ed.EmptyUndoBuffer() self.ed.SetCodePage(65001) # Text includes one non-BMP character t = "aå\U00010348flﬔ-\n" self.tv = t.encode("UTF-8") def tearDown(self): self.ed.SetCodePage(0) def testAllocation(self): self.assertEqual(self.ed.GetLineCharacterIndex(), self.ed.SC_LINECHARACTERINDEX_NONE) self.ed.AllocateLineCharacterIndex(self.ed.SC_LINECHARACTERINDEX_UTF32) self.assertEqual(self.ed.GetLineCharacterIndex(), self.ed.SC_LINECHARACTERINDEX_UTF32) self.ed.ReleaseLineCharacterIndex(self.ed.SC_LINECHARACTERINDEX_UTF32) self.assertEqual(self.ed.GetLineCharacterIndex(), self.ed.SC_LINECHARACTERINDEX_NONE) def testUTF32(self): self.assertEqual(self.ed.GetLineCharacterIndex(), self.ed.SC_LINECHARACTERINDEX_NONE) self.ed.SetContents(self.tv) self.ed.AllocateLineCharacterIndex(self.ed.SC_LINECHARACTERINDEX_UTF32) self.assertEqual(self.ed.IndexPositionFromLine(0, self.ed.SC_LINECHARACTERINDEX_UTF32), 0) self.assertEqual(self.ed.IndexPositionFromLine(1, self.ed.SC_LINECHARACTERINDEX_UTF32), 7) self.ed.ReleaseLineCharacterIndex(self.ed.SC_LINECHARACTERINDEX_UTF32) self.assertEqual(self.ed.GetLineCharacterIndex(), self.ed.SC_LINECHARACTERINDEX_NONE) def testUTF16(self): self.assertEqual(self.ed.GetLineCharacterIndex(), self.ed.SC_LINECHARACTERINDEX_NONE) self.ed.SetContents(self.tv) self.ed.AllocateLineCharacterIndex(self.ed.SC_LINECHARACTERINDEX_UTF16) self.assertEqual(self.ed.IndexPositionFromLine(0, self.ed.SC_LINECHARACTERINDEX_UTF16), 0) self.assertEqual(self.ed.IndexPositionFromLine(1, self.ed.SC_LINECHARACTERINDEX_UTF16), 8) self.ed.ReleaseLineCharacterIndex(self.ed.SC_LINECHARACTERINDEX_UTF16) self.assertEqual(self.ed.GetLineCharacterIndex(), self.ed.SC_LINECHARACTERINDEX_NONE) def testBoth(self): # Set text before turning indices on self.assertEqual(self.ed.GetLineCharacterIndex(), self.ed.SC_LINECHARACTERINDEX_NONE) self.ed.SetContents(self.tv) self.ed.AllocateLineCharacterIndex(self.ed.SC_LINECHARACTERINDEX_UTF32+self.ed.SC_LINECHARACTERINDEX_UTF16) self.assertEqual(self.ed.IndexPositionFromLine(0, self.ed.SC_LINECHARACTERINDEX_UTF32), 0) self.assertEqual(self.ed.IndexPositionFromLine(1, self.ed.SC_LINECHARACTERINDEX_UTF32), 7) self.assertEqual(self.ed.IndexPositionFromLine(0, self.ed.SC_LINECHARACTERINDEX_UTF16), 0) self.assertEqual(self.ed.IndexPositionFromLine(1, self.ed.SC_LINECHARACTERINDEX_UTF16), 8) # Test the inverse: position->line self.assertEqual(self.ed.LineFromIndexPosition(0, self.ed.SC_LINECHARACTERINDEX_UTF32), 0) self.assertEqual(self.ed.LineFromIndexPosition(7, self.ed.SC_LINECHARACTERINDEX_UTF32), 1) self.assertEqual(self.ed.LineFromIndexPosition(0, self.ed.SC_LINECHARACTERINDEX_UTF16), 0) self.assertEqual(self.ed.LineFromIndexPosition(8, self.ed.SC_LINECHARACTERINDEX_UTF16), 1) self.ed.ReleaseLineCharacterIndex(self.ed.SC_LINECHARACTERINDEX_UTF32+self.ed.SC_LINECHARACTERINDEX_UTF16) self.assertEqual(self.ed.GetLineCharacterIndex(), self.ed.SC_LINECHARACTERINDEX_NONE) def testMaintenance(self): # Set text after turning indices on self.assertEqual(self.ed.GetLineCharacterIndex(), self.ed.SC_LINECHARACTERINDEX_NONE) self.ed.AllocateLineCharacterIndex(self.ed.SC_LINECHARACTERINDEX_UTF32+self.ed.SC_LINECHARACTERINDEX_UTF16) self.ed.SetContents(self.tv) self.assertEqual(self.ed.IndexPositionFromLine(0, self.ed.SC_LINECHARACTERINDEX_UTF32), 0) self.assertEqual(self.ed.IndexPositionFromLine(1, self.ed.SC_LINECHARACTERINDEX_UTF32), 7) self.assertEqual(self.ed.IndexPositionFromLine(0, self.ed.SC_LINECHARACTERINDEX_UTF16), 0) self.assertEqual(self.ed.IndexPositionFromLine(1, self.ed.SC_LINECHARACTERINDEX_UTF16), 8) self.ed.ReleaseLineCharacterIndex(self.ed.SC_LINECHARACTERINDEX_UTF32+self.ed.SC_LINECHARACTERINDEX_UTF16) self.assertEqual(self.ed.GetLineCharacterIndex(), self.ed.SC_LINECHARACTERINDEX_NONE) class TestCharacterNavigation(unittest.TestCase): def setUp(self): self.xite = Xite.xiteFrame self.ed = self.xite.ed self.ed.ClearAll() self.ed.EmptyUndoBuffer() self.ed.SetCodePage(65001) def tearDown(self): self.ed.SetCodePage(0) def testBeforeAfter(self): t = "aåflﬔ-" tv = t.encode("UTF-8") self.ed.SetContents(tv) pos = 0 for i in range(len(t)-1): after = self.ed.PositionAfter(pos) self.assertTrue(after > i) back = self.ed.PositionBefore(after) self.assertEqual(pos, back) pos = after def testRelative(self): # \x61 \xc3\xa5 \xef\xac\x82 \xef\xac\x94 \x2d t = "aåflﬔ-" tv = t.encode("UTF-8") self.ed.SetContents(tv) self.assertEqual(self.ed.PositionRelative(1, 2), 6) self.assertEqual(self.ed.CountCharacters(1, 6), 2) self.assertEqual(self.ed.PositionRelative(6, -2), 1) pos = 0 previous = 0 for i in range(1, len(t)): after = self.ed.PositionRelative(pos, i) self.assertTrue(after > pos) self.assertTrue(after > previous) previous = after pos = len(t) previous = pos for i in range(1, len(t)-1): after = self.ed.PositionRelative(pos, -i) self.assertTrue(after < pos) self.assertTrue(after < previous) previous = after def testRelativeNonBOM(self): # \x61 \xF0\x90\x8D\x88 \xef\xac\x82 \xef\xac\x94 \x2d t = "a\U00010348flﬔ-" tv = t.encode("UTF-8") self.ed.SetContents(tv) self.assertEqual(self.ed.PositionRelative(1, 2), 8) self.assertEqual(self.ed.CountCharacters(1, 8), 2) self.assertEqual(self.ed.CountCodeUnits(1, 8), 3) self.assertEqual(self.ed.PositionRelative(8, -2), 1) self.assertEqual(self.ed.PositionRelativeCodeUnits(8, -3), 1) pos = 0 previous = 0 for i in range(1, len(t)): after = self.ed.PositionRelative(pos, i) self.assertTrue(after > pos) self.assertTrue(after > previous) previous = after pos = len(t) previous = pos for i in range(1, len(t)-1): after = self.ed.PositionRelative(pos, -i) self.assertTrue(after < pos) self.assertTrue(after <= previous) previous = after def testLineEnd(self): t = "a\r\nb\nc" tv = t.encode("UTF-8") self.ed.SetContents(tv) for i in range(0, len(t)): self.assertEqual(self.ed.CountCharacters(0, i), i) class TestCaseMapping(unittest.TestCase): def setUp(self): self.xite = Xite.xiteFrame self.ed = self.xite.ed self.ed.ClearAll() self.ed.EmptyUndoBuffer() def tearDown(self): self.ed.SetCodePage(0) self.ed.StyleSetCharacterSet(self.ed.STYLE_DEFAULT, self.ed.SC_CHARSET_DEFAULT) def testEmpty(self): # Trying to upper case an empty string caused a crash at one stage t = b"x" self.ed.SetContents(t) self.ed.UpperCase() self.assertEqual(self.ed.Contents(), b"x") def testASCII(self): t = b"x" self.ed.SetContents(t) self.ed.SetSel(0,1) self.ed.UpperCase() self.assertEqual(self.ed.Contents(), b"X") def testLatin1(self): t = "å".encode("Latin-1") r = "Å".encode("Latin-1") self.ed.SetContents(t) self.ed.SetSel(0,1) self.ed.UpperCase() self.assertEqual(self.ed.Contents(), r) def testRussian(self): if sys.platform == "win32": self.ed.StyleSetCharacterSet(self.ed.STYLE_DEFAULT, self.ed.SC_CHARSET_RUSSIAN) else: self.ed.StyleSetCharacterSet(self.ed.STYLE_DEFAULT, self.ed.SC_CHARSET_CYRILLIC) t = "Б".encode("Windows-1251") r = "б".encode("Windows-1251") self.ed.SetContents(t) self.ed.SetSel(0,1) self.ed.LowerCase() self.assertEqual(self.ed.Contents(), r) def testUTF(self): self.ed.SetCodePage(65001) t = "å".encode("UTF-8") r = "Å".encode("UTF-8") self.ed.SetContents(t) self.ed.SetSel(0,2) self.ed.UpperCase() self.assertEqual(self.ed.Contents(), r) def testUTFDifferentLength(self): self.ed.SetCodePage(65001) t = "ı".encode("UTF-8") r = "I".encode("UTF-8") self.ed.SetContents(t) self.assertEqual(self.ed.Length, 2) self.ed.SetSel(0,2) self.ed.UpperCase() self.assertEqual(self.ed.Length, 1) self.assertEqual(self.ed.Contents(), r) def testUTFGrows(self): # This crashed at one point in debug builds due to looking past end of shorter string self.ed.SetCodePage(65001) # ﬖ is a single character ligature taking 3 bytes in UTF8: EF AC 96 t = 'ﬖﬖ'.encode("UTF-8") self.ed.SetContents(t) self.assertEqual(self.ed.Length, 6) self.ed.SetSel(0,self.ed.Length) self.ed.UpperCase() # To convert to upper case the ligature is separated into վ and ն then uppercased to Վ and Ն # each of which takes 2 bytes in UTF-8: D5 8E D5 86 r = 'ՎՆՎՆ'.encode("UTF-8") self.assertEqual(self.ed.Length, 8) self.assertEqual(self.ed.Contents(), r) self.assertEqual(self.ed.SelectionEnd, self.ed.Length) def testUTFShrinks(self): self.ed.SetCodePage(65001) # fi is a single character ligature taking 3 bytes in UTF8: EF AC 81 t = 'fifi'.encode("UTF-8") self.ed.SetContents(t) self.assertEqual(self.ed.Length, 6) self.ed.SetSel(0,self.ed.Length) self.ed.UpperCase() # To convert to upper case the ligature is separated into f and i then uppercased to F and I # each of which takes 1 byte in UTF-8: 46 49 r = 'FIFI'.encode("UTF-8") self.assertEqual(self.ed.Length, 4) self.assertEqual(self.ed.Contents(), r) self.assertEqual(self.ed.SelectionEnd, self.ed.Length) class TestCaseInsensitiveSearch(unittest.TestCase): def setUp(self): self.xite = Xite.xiteFrame self.ed = self.xite.ed self.ed.ClearAll() self.ed.EmptyUndoBuffer() def tearDown(self): self.ed.SetCodePage(0) self.ed.StyleSetCharacterSet(self.ed.STYLE_DEFAULT, self.ed.SC_CHARSET_DEFAULT) def testEmpty(self): text = b" x X" searchString = b"" self.ed.SetContents(text) self.ed.TargetStart = 0 self.ed.TargetEnd = self.ed.Length-1 self.ed.SearchFlags = 0 pos = self.ed.SearchInTarget(len(searchString), searchString) self.assertEqual(0, pos) def testASCII(self): text = b" x X" searchString = b"X" self.ed.SetContents(text) self.ed.TargetStart = 0 self.ed.TargetEnd = self.ed.Length-1 self.ed.SearchFlags = 0 pos = self.ed.SearchInTarget(len(searchString), searchString) self.assertEqual(1, pos) def testLatin1(self): text = "Frånd Åå".encode("Latin-1") searchString = "Å".encode("Latin-1") self.ed.SetContents(text) self.ed.TargetStart = 0 self.ed.TargetEnd = self.ed.Length-1 self.ed.SearchFlags = 0 pos = self.ed.SearchInTarget(len(searchString), searchString) self.assertEqual(2, pos) def testRussian(self): self.ed.StyleSetCharacterSet(self.ed.STYLE_DEFAULT, self.ed.SC_CHARSET_RUSSIAN) text = "=(Б tex б)".encode("Windows-1251") searchString = "б".encode("Windows-1251") self.ed.SetContents(text) self.ed.TargetStart = 0 self.ed.TargetEnd = self.ed.Length-1 self.ed.SearchFlags = 0 pos = self.ed.SearchInTarget(len(searchString), searchString) self.assertEqual(2, pos) def testUTF(self): self.ed.SetCodePage(65001) text = "Frånd Åå".encode("UTF-8") searchString = "Å".encode("UTF-8") self.ed.SetContents(text) self.ed.TargetStart = 0 self.ed.TargetEnd = self.ed.Length-1 self.ed.SearchFlags = 0 pos = self.ed.SearchInTarget(len(searchString), searchString) self.assertEqual(2, pos) def testUTFDifferentLength(self): # Searching for a two byte string finds a single byte self.ed.SetCodePage(65001) # two byte string "ſ" single byte "s" text = "Frånds Ååſ $".encode("UTF-8") searchString = "ſ".encode("UTF-8") firstPosition = len("Frånd".encode("UTF-8")) self.assertEqual(len(searchString), 2) self.ed.SetContents(text) self.ed.TargetStart = 0 self.ed.TargetEnd = self.ed.Length-1 self.ed.SearchFlags = 0 pos = self.ed.SearchInTarget(len(searchString), searchString) self.assertEqual(firstPosition, pos) self.assertEqual(firstPosition+1, self.ed.TargetEnd) @unittest.skipUnless(lexersAvailable, "no lexers included") class TestLexer(unittest.TestCase): def setUp(self): self.xite = Xite.xiteFrame self.ed = self.xite.ed self.ed.ClearAll() self.ed.EmptyUndoBuffer() def testLexerNumber(self): self.xite.ChooseLexer(b"cpp") self.assertEqual(self.ed.GetLexer(), self.ed.SCLEX_CPP) def testLexerName(self): self.xite.ChooseLexer(b"cpp") self.assertEqual(self.ed.GetLexer(), self.ed.SCLEX_CPP) name = self.ed.GetLexerLanguage(0) self.assertEqual(name, b"cpp") def testPropertyNames(self): propertyNames = self.ed.PropertyNames() self.assertNotEqual(propertyNames, b"") # The cpp lexer has a boolean property named lexer.cpp.allow.dollars propNameDollars = b"lexer.cpp.allow.dollars" propertyType = self.ed.PropertyType(propNameDollars) self.assertEqual(propertyType, self.ed.SC_TYPE_BOOLEAN) propertyDescription = self.ed.DescribeProperty(propNameDollars) self.assertNotEqual(propertyDescription, b"") def testWordListDescriptions(self): wordSet = self.ed.DescribeKeyWordSets() self.assertNotEqual(wordSet, b"") @unittest.skipUnless(lexersAvailable, "no lexers included") class TestSubStyles(unittest.TestCase): ''' These tests include knowledge of the current implementation in the cpp lexer and may have to change when that implementation changes. Currently supports subStyles for IDENTIFIER 11 and COMMENTDOCKEYWORD 17 ''' def setUp(self): self.xite = Xite.xiteFrame self.ed = self.xite.ed self.ed.ClearAll() self.ed.EmptyUndoBuffer() def testInfo(self): self.xite.ChooseLexer(b"cpp") bases = self.ed.GetSubStyleBases() self.assertEqual(bases, b"\x0b\x11") # 11, 17 self.assertEqual(self.ed.DistanceToSecondaryStyles(), 0x40) def testAllocate(self): firstSubStyle = 0x80 # Current implementation self.xite.ChooseLexer(b"cpp") self.assertEqual(self.ed.GetStyleFromSubStyle(firstSubStyle), firstSubStyle) self.assertEqual(self.ed.GetSubStylesStart(self.ed.SCE_C_IDENTIFIER), 0) self.assertEqual(self.ed.GetSubStylesLength(self.ed.SCE_C_IDENTIFIER), 0) numSubStyles = 5 subs = self.ed.AllocateSubStyles(self.ed.SCE_C_IDENTIFIER, numSubStyles) self.assertEqual(subs, firstSubStyle) self.assertEqual(self.ed.GetSubStylesStart(self.ed.SCE_C_IDENTIFIER), firstSubStyle) self.assertEqual(self.ed.GetSubStylesLength(self.ed.SCE_C_IDENTIFIER), numSubStyles) self.assertEqual(self.ed.GetStyleFromSubStyle(subs), self.ed.SCE_C_IDENTIFIER) self.assertEqual(self.ed.GetStyleFromSubStyle(subs+numSubStyles-1), self.ed.SCE_C_IDENTIFIER) self.assertEqual(self.ed.GetStyleFromSubStyle(self.ed.SCE_C_IDENTIFIER), self.ed.SCE_C_IDENTIFIER) # Now free and check same as start self.ed.FreeSubStyles() self.assertEqual(self.ed.GetStyleFromSubStyle(subs), subs) self.assertEqual(self.ed.GetSubStylesStart(self.ed.SCE_C_IDENTIFIER), 0) self.assertEqual(self.ed.GetSubStylesLength(self.ed.SCE_C_IDENTIFIER), 0) def testInactive(self): firstSubStyle = 0x80 # Current implementation inactiveDistance = self.ed.DistanceToSecondaryStyles() self.xite.ChooseLexer(b"cpp") numSubStyles = 5 subs = self.ed.AllocateSubStyles(self.ed.SCE_C_IDENTIFIER, numSubStyles) self.assertEqual(subs, firstSubStyle) self.assertEqual(self.ed.GetStyleFromSubStyle(subs), self.ed.SCE_C_IDENTIFIER) self.assertEqual(self.ed.GetStyleFromSubStyle(subs+inactiveDistance), self.ed.SCE_C_IDENTIFIER+inactiveDistance) self.ed.FreeSubStyles() def testSecondary(self): inactiveDistance = self.ed.DistanceToSecondaryStyles() inactiveIdentifier = self.ed.SCE_C_IDENTIFIER+inactiveDistance self.assertEqual(self.ed.GetPrimaryStyleFromStyle(inactiveIdentifier), self.ed.SCE_C_IDENTIFIER) class TestCallTip(unittest.TestCase): def setUp(self): self.xite = Xite.xiteFrame self.ed = self.xite.ed self.ed.ClearAll() self.ed.EmptyUndoBuffer() # 1 line of 4 characters t = b"fun(" self.ed.AddText(len(t), t) def testBasics(self): self.assertEqual(self.ed.CallTipActive(), 0) self.ed.CallTipShow(1, "fun(int x)") self.assertEqual(self.ed.CallTipActive(), 1) self.assertEqual(self.ed.CallTipPosStart(), 4) self.ed.CallTipSetPosStart(1) self.assertEqual(self.ed.CallTipPosStart(), 1) self.ed.CallTipCancel() self.assertEqual(self.ed.CallTipActive(), 0) class TestEdge(unittest.TestCase): def setUp(self): self.xite = Xite.xiteFrame self.ed = self.xite.ed self.ed.ClearAll() def testBasics(self): self.ed.EdgeColumn = 3 self.assertEqual(self.ed.EdgeColumn, 3) self.ed.SetEdgeColour(0xA0) self.assertEqual(self.ed.GetEdgeColour(), 0xA0) def testMulti(self): self.assertEqual(self.ed.GetMultiEdgeColumn(-1), -1) self.assertEqual(self.ed.GetMultiEdgeColumn(0), -1) self.ed.MultiEdgeAddLine(5, 0x50) self.assertEqual(self.ed.GetMultiEdgeColumn(0), 5) self.assertEqual(self.ed.GetMultiEdgeColumn(1), -1) self.ed.MultiEdgeAddLine(6, 0x60) self.assertEqual(self.ed.GetMultiEdgeColumn(0), 5) self.assertEqual(self.ed.GetMultiEdgeColumn(1), 6) self.assertEqual(self.ed.GetMultiEdgeColumn(2), -1) self.ed.MultiEdgeAddLine(4, 0x40) self.assertEqual(self.ed.GetMultiEdgeColumn(0), 4) self.assertEqual(self.ed.GetMultiEdgeColumn(1), 5) self.assertEqual(self.ed.GetMultiEdgeColumn(2), 6) self.assertEqual(self.ed.GetMultiEdgeColumn(3), -1) self.ed.MultiEdgeClearAll() self.assertEqual(self.ed.GetMultiEdgeColumn(0), -1) def testSameTwice(self): # Tests that adding a column twice retains both self.ed.MultiEdgeAddLine(5, 0x50) self.ed.MultiEdgeAddLine(5, 0x55) self.assertEqual(self.ed.GetMultiEdgeColumn(0), 5) self.assertEqual(self.ed.GetMultiEdgeColumn(1), 5) self.assertEqual(self.ed.GetMultiEdgeColumn(2), -1) self.ed.MultiEdgeClearAll() class TestAutoComplete(unittest.TestCase): def setUp(self): self.xite = Xite.xiteFrame self.ed = self.xite.ed self.ed.ClearAll() self.ed.EmptyUndoBuffer() # 1 line of 3 characters t = b"xxx\n" self.ed.AddText(len(t), t) def testDefaults(self): self.assertEqual(self.ed.AutoCGetSeparator(), ord(' ')) self.assertEqual(self.ed.AutoCGetMaxHeight(), 5) self.assertEqual(self.ed.AutoCGetMaxWidth(), 0) self.assertEqual(self.ed.AutoCGetTypeSeparator(), ord('?')) self.assertEqual(self.ed.AutoCGetIgnoreCase(), 0) self.assertEqual(self.ed.AutoCGetAutoHide(), 1) self.assertEqual(self.ed.AutoCGetDropRestOfWord(), 0) def testChangeDefaults(self): self.ed.AutoCSetSeparator(ord('-')) self.assertEqual(self.ed.AutoCGetSeparator(), ord('-')) self.ed.AutoCSetSeparator(ord(' ')) self.ed.AutoCSetMaxHeight(100) self.assertEqual(self.ed.AutoCGetMaxHeight(), 100) self.ed.AutoCSetMaxHeight(5) self.ed.AutoCSetMaxWidth(100) self.assertEqual(self.ed.AutoCGetMaxWidth(), 100) self.ed.AutoCSetMaxWidth(0) self.ed.AutoCSetTypeSeparator(ord('@')) self.assertEqual(self.ed.AutoCGetTypeSeparator(), ord('@')) self.ed.AutoCSetTypeSeparator(ord('?')) self.ed.AutoCSetIgnoreCase(1) self.assertEqual(self.ed.AutoCGetIgnoreCase(), 1) self.ed.AutoCSetIgnoreCase(0) self.ed.AutoCSetAutoHide(0) self.assertEqual(self.ed.AutoCGetAutoHide(), 0) self.ed.AutoCSetAutoHide(1) self.ed.AutoCSetDropRestOfWord(1) self.assertEqual(self.ed.AutoCGetDropRestOfWord(), 1) self.ed.AutoCSetDropRestOfWord(0) def testAutoShow(self): self.assertEqual(self.ed.AutoCActive(), 0) self.ed.SetSel(0, 0) self.ed.AutoCShow(0, b"za defn ghi") self.assertEqual(self.ed.AutoCActive(), 1) #~ time.sleep(2) self.assertEqual(self.ed.AutoCPosStart(), 0) self.assertEqual(self.ed.AutoCGetCurrent(), 0) t = self.ed.AutoCGetCurrentText(5) #~ self.assertEqual(l, 3) self.assertEqual(t, b"za") self.ed.AutoCCancel() self.assertEqual(self.ed.AutoCActive(), 0) def testAutoShowComplete(self): self.assertEqual(self.ed.AutoCActive(), 0) self.ed.SetSel(0, 0) self.ed.AutoCShow(0, b"za defn ghi") self.ed.AutoCComplete() self.assertEqual(self.ed.Contents(), b"zaxxx\n") self.assertEqual(self.ed.AutoCActive(), 0) def testAutoShowSelect(self): self.assertEqual(self.ed.AutoCActive(), 0) self.ed.SetSel(0, 0) self.ed.AutoCShow(0, b"za defn ghi") self.ed.AutoCSelect(0, b"d") self.ed.AutoCComplete() self.assertEqual(self.ed.Contents(), b"defnxxx\n") self.assertEqual(self.ed.AutoCActive(), 0) def testAutoCustomSort(self): # Checks bug #2294 where SC_ORDER_CUSTOM with an empty list asserts # https://sourceforge.net/p/scintilla/bugs/2294/ self.assertEqual(self.ed.AutoCGetOrder(), self.ed.SC_ORDER_PRESORTED) self.ed.AutoCSetOrder(self.ed.SC_ORDER_CUSTOM) self.assertEqual(self.ed.AutoCGetOrder(), self.ed.SC_ORDER_CUSTOM) #~ self.ed.AutoCShow(0, b"") #~ self.ed.AutoCComplete() #~ self.assertEqual(self.ed.Contents(), b"xxx\n") self.ed.AutoCShow(0, b"a") self.ed.AutoCComplete() self.assertEqual(self.ed.Contents(), b"xxx\na") self.ed.AutoCSetOrder(self.ed.SC_ORDER_PERFORMSORT) self.assertEqual(self.ed.AutoCGetOrder(), self.ed.SC_ORDER_PERFORMSORT) self.ed.AutoCShow(0, b"") self.ed.AutoCComplete() self.assertEqual(self.ed.Contents(), b"xxx\na") self.ed.AutoCShow(0, b"b a") self.ed.AutoCComplete() self.assertEqual(self.ed.Contents(), b"xxx\naa") self.ed.AutoCSetOrder(self.ed.SC_ORDER_PRESORTED) self.assertEqual(self.ed.AutoCGetOrder(), self.ed.SC_ORDER_PRESORTED) self.ed.AutoCShow(0, b"") self.ed.AutoCComplete() self.assertEqual(self.ed.Contents(), b"xxx\naa") self.ed.AutoCShow(0, b"a b") self.ed.AutoCComplete() self.assertEqual(self.ed.Contents(), b"xxx\naaa") self.assertEqual(self.ed.AutoCActive(), 0) def testWriteOnly(self): """ Checks that setting attributes doesn't crash or change tested behaviour but does not check that the changed attributes are effective. """ self.ed.AutoCStops(0, b"abcde") self.ed.AutoCSetFillUps(0, b"1234") class TestDirectAccess(unittest.TestCase): def setUp(self): self.xite = Xite.xiteFrame self.ed = self.xite.ed self.ed.ClearAll() self.ed.EmptyUndoBuffer() def testGapPosition(self): text = b"abcd" self.ed.SetContents(text) self.assertEqual(self.ed.GapPosition, 4) self.ed.TargetStart = 1 self.ed.TargetEnd = 1 rep = b"-" self.ed.ReplaceTarget(len(rep), rep) self.assertEqual(self.ed.GapPosition, 2) def testCharacterPointerAndRangePointer(self): text = b"abcd" self.ed.SetContents(text) characterPointer = self.ed.CharacterPointer rangePointer = self.ed.GetRangePointer(0,3) self.assertEqual(characterPointer, rangePointer) cpBuffer = ctypes.c_char_p(characterPointer) self.assertEqual(cpBuffer.value, text) # Gap will not be moved as already moved for CharacterPointer call rangePointer = self.ed.GetRangePointer(1,3) cpBuffer = ctypes.c_char_p(rangePointer) self.assertEqual(cpBuffer.value, text[1:]) class TestJoin(unittest.TestCase): def setUp(self): self.xite = Xite.xiteFrame self.ed = self.xite.ed self.ed.ClearAll() self.ed.EmptyUndoBuffer() def tearDown(self): self.ed.ClearAll() self.ed.EmptyUndoBuffer() def testJoin(self): text = b"a\r\nb\r\nc" self.ed.SetContents(text) self.ed.TargetWholeDocument() self.ed.LinesJoin() self.assertEqual(self.ed.Contents(), b"a b c") def testJoinEndLine(self): text = b"a\r\nb\r\nc" self.ed.SetContents(text) # Select a..b self.ed.SetTargetRange(0, 4) self.ed.LinesJoin() self.assertEqual(self.ed.Contents(), b"a b\r\nc") def testJoinSpace(self): # Demonstration of bug #2372 which produced b"a \r" text = b"a \r\n\r\n" self.ed.SetContents(text) self.ed.TargetWholeDocument() self.ed.LinesJoin() self.assertEqual(self.ed.Contents(), b"a ") def testJoinOutOfBounds(self): text = b"a\r\nb\r\nc" self.ed.SetContents(text) # Setting end of target after document end encourages non-termination. self.ed.SetTargetRange(-10, 16) self.ed.LinesJoin() # Out-of-bounds leaves extra space as 'c' is processed self.assertEqual(self.ed.Contents(), b"a b c ") class TestWordChars(unittest.TestCase): def setUp(self): self.xite = Xite.xiteFrame self.ed = self.xite.ed self.ed.ClearAll() self.ed.EmptyUndoBuffer() def tearDown(self): self.ed.SetCharsDefault() def _setChars(self, charClass, chars): """ Wrapper to call self.ed.Set*Chars with the right type @param charClass {str} the character class, "word", "space", etc. @param chars {iterable of int} characters to set """ if sys.version_info.major == 2: # Python 2, use latin-1 encoded str unichars = (unichr(x) for x in chars if x != 0) # can't use literal u"", that's a syntax error in Py3k # uncode() doesn't exist in Py3k, but we never run it there result = unicode("").join(unichars).encode("latin-1") else: # Python 3, use bytes() result = bytes(x for x in chars if x != 0) meth = getattr(self.ed, "Set%sChars" % (charClass.capitalize())) return meth(None, result) def assertCharSetsEqual(self, first, second, *args, **kwargs): """ Assert that the two character sets are equal. If either set are an iterable of numbers, convert them to chars first. """ first_set = set() for c in first: first_set.add(chr(c) if isinstance(c, int) else c) second_set = set() for c in second: second_set.add(chr(c) if isinstance(c, int) else c) return self.assertEqual(first_set, second_set, *args, **kwargs) def testDefaultWordChars(self): # check that the default word chars are as expected data = self.ed.GetWordChars(None) expected = set(string.digits + string.ascii_letters + '_') | \ set(chr(x) for x in range(0x80, 0x100)) self.assertCharSetsEqual(data, expected) def testDefaultWhitespaceChars(self): # check that the default whitespace chars are as expected data = self.ed.GetWhitespaceChars(None) expected = (set(chr(x) for x in (range(0, 0x20))) | set(' ') | set('\x7f')) - \ set(['\r', '\n']) self.assertCharSetsEqual(data, expected) def testDefaultPunctuationChars(self): # check that the default punctuation chars are as expected data = self.ed.GetPunctuationChars(None) expected = set(chr(x) for x in range(0x20, 0x80)) - \ set(string.ascii_letters + string.digits + "\r\n\x7f_ ") self.assertCharSetsEqual(data, expected) def testCustomWordChars(self): # check that setting things to whitespace chars makes them not words self._setChars("whitespace", range(1, 0x100)) data = self.ed.GetWordChars(None) expected = set() self.assertCharSetsEqual(data, expected) # and now set something to make sure that works too expected = set(range(1, 0x100, 2)) self._setChars("word", expected) data = self.ed.GetWordChars(None) self.assertCharSetsEqual(data, expected) def testCustomWhitespaceChars(self): # check setting whitespace chars to non-default values self._setChars("word", range(1, 0x100)) # we can't change chr(0) from being anything but whitespace expected = set([0]) data = self.ed.GetWhitespaceChars(None) self.assertCharSetsEqual(data, expected) # now try to set it to something custom expected = set(range(1, 0x100, 2)) | set([0]) self._setChars("whitespace", expected) data = self.ed.GetWhitespaceChars(None) self.assertCharSetsEqual(data, expected) def testCustomPunctuationChars(self): # check setting punctuation chars to non-default values self._setChars("word", range(1, 0x100)) expected = set() data = self.ed.GetPunctuationChars(0) self.assertEqual(set(data), expected) # now try to set it to something custom expected = set(range(1, 0x100, 1)) self._setChars("punctuation", expected) data = self.ed.GetPunctuationChars(None) self.assertCharSetsEqual(data, expected) def testCharacterCategoryOptimization(self): self.assertEqual(self.ed.CharacterCategoryOptimization, 0x100) self.ed.CharacterCategoryOptimization = 0x1000 self.assertEqual(self.ed.CharacterCategoryOptimization, 0x1000) class TestExplicitTabStops(unittest.TestCase): def setUp(self): self.xite = Xite.xiteFrame self.ed = self.xite.ed self.ed.ClearAll() self.ed.EmptyUndoBuffer() # 2 lines of 4 characters self.t = b"fun(\nint)" self.ed.AddText(len(self.t), self.t) def testAddingAndClearing(self): self.assertEqual(self.ed.GetNextTabStop(0,0), 0) # Add a tab stop at 7 self.ed.AddTabStop(0, 7) # Check added self.assertEqual(self.ed.GetNextTabStop(0,0), 7) # Check does not affect line 1 self.assertEqual(self.ed.GetNextTabStop(1,0), 0) # Add a tab stop at 18 self.ed.AddTabStop(0, 18) # Check added self.assertEqual(self.ed.GetNextTabStop(0,0), 7) self.assertEqual(self.ed.GetNextTabStop(0,7), 18) # Check does not affect line 1 self.assertEqual(self.ed.GetNextTabStop(1,0), 0) self.assertEqual(self.ed.GetNextTabStop(1,7), 0) # Add a tab stop between others at 13 self.ed.AddTabStop(0, 13) # Check added self.assertEqual(self.ed.GetNextTabStop(0,0), 7) self.assertEqual(self.ed.GetNextTabStop(0,7), 13) self.assertEqual(self.ed.GetNextTabStop(0,13), 18) # Check does not affect line 1 self.assertEqual(self.ed.GetNextTabStop(1,0), 0) self.assertEqual(self.ed.GetNextTabStop(1,7), 0) self.ed.ClearTabStops(0) # Check back to original state self.assertEqual(self.ed.GetNextTabStop(0,0), 0) def testLineInsertionDeletion(self): # Add a tab stop at 7 on line 1 self.ed.AddTabStop(1, 7) # Check added self.assertEqual(self.ed.GetNextTabStop(1,0), 7) # More text at end self.ed.AddText(len(self.t), self.t) self.assertEqual(self.ed.GetNextTabStop(0,0), 0) self.assertEqual(self.ed.GetNextTabStop(1,0), 7) self.assertEqual(self.ed.GetNextTabStop(2,0), 0) self.assertEqual(self.ed.GetNextTabStop(3,0), 0) # Another 2 lines before explicit line moves the explicit tab stop data = b"x\ny\n" self.ed.InsertText(4, data) self.assertEqual(self.ed.GetNextTabStop(0,0), 0) self.assertEqual(self.ed.GetNextTabStop(1,0), 0) self.assertEqual(self.ed.GetNextTabStop(2,0), 0) self.assertEqual(self.ed.GetNextTabStop(3,0), 7) self.assertEqual(self.ed.GetNextTabStop(4,0), 0) self.assertEqual(self.ed.GetNextTabStop(5,0), 0) # Undo moves the explicit tab stop back self.ed.Undo() self.assertEqual(self.ed.GetNextTabStop(0,0), 0) self.assertEqual(self.ed.GetNextTabStop(1,0), 7) self.assertEqual(self.ed.GetNextTabStop(2,0), 0) self.assertEqual(self.ed.GetNextTabStop(3,0), 0) if __name__ == '__main__': uu = Xite.main("simpleTests") #~ for x in sorted(uu.keys()): #~ print(x, uu[x]) #~ print()