ffdebe56ed
git-svn-id: svn://svn.tuxfamily.org/svnroot/notepadplus/repository/trunk@1009 f5eea248-9336-0410-98b8-ebc06183d4e3
1875 lines
71 KiB
Python
1875 lines
71 KiB
Python
# -*- coding: utf-8 -*-
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from __future__ import with_statement
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from __future__ import unicode_literals
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import codecs, ctypes, os, sys, unittest
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import XiteWin
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class TestSimple(unittest.TestCase):
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def setUp(self):
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self.xite = XiteWin.xiteFrame
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self.ed = self.xite.ed
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self.ed.ClearAll()
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self.ed.EmptyUndoBuffer()
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def testLength(self):
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self.assertEquals(self.ed.Length, 0)
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def testAddText(self):
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self.ed.AddText(1, "x")
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self.assertEquals(self.ed.Length, 1)
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self.assertEquals(self.ed.GetCharAt(0), ord("x"))
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self.assertEquals(self.ed.GetStyleAt(0), 0)
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self.ed.ClearAll()
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self.assertEquals(self.ed.Length, 0)
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# def testDeleteRange(self):
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# self.ed.AddText(5, b"abcde")
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# self.assertEquals(self.ed.Length, 5)
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# self.ed.DeleteRange(1, 2)
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# self.assertEquals(self.ed.Length, 3)
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# self.assertEquals(self.ed.Contents(), b"ade")
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def testAddStyledText(self):
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self.assertEquals(self.ed.EndStyled, 0)
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self.ed.AddStyledText(2, b"x\002")
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self.assertEquals(self.ed.Length, 1)
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self.assertEquals(self.ed.GetCharAt(0), ord("x"))
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self.assertEquals(self.ed.GetStyleAt(0), 2)
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self.assertEquals(self.ed.StyledTextRange(0, 1), b"x\002")
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self.ed.ClearDocumentStyle()
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self.assertEquals(self.ed.Length, 1)
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self.assertEquals(self.ed.GetCharAt(0), ord("x"))
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self.assertEquals(self.ed.GetStyleAt(0), 0)
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self.assertEquals(self.ed.StyledTextRange(0, 1), b"x\0")
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def testStyling(self):
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self.assertEquals(self.ed.EndStyled, 0)
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self.ed.AddStyledText(4, b"x\002y\003")
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self.assertEquals(self.ed.StyledTextRange(0, 2), b"x\002y\003")
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self.ed.StartStyling(0,0xf)
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self.ed.SetStyling(1, 5)
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self.assertEquals(self.ed.StyledTextRange(0, 2), b"x\005y\003")
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# Set the mask so 0 bit changed but not 2 bit
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self.ed.StartStyling(0,0x1)
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self.ed.SetStyling(1, 0)
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self.assertEquals(self.ed.StyledTextRange(0, 2), b"x\004y\003")
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self.ed.StartStyling(0,0xff)
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self.ed.SetStylingEx(2, b"\100\101")
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self.assertEquals(self.ed.StyledTextRange(0, 2), b"x\100y\101")
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def testPosition(self):
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self.assertEquals(self.ed.CurrentPos, 0)
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self.assertEquals(self.ed.Anchor, 0)
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self.ed.AddText(1, "x")
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# Caret has automatically moved
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self.assertEquals(self.ed.CurrentPos, 1)
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self.assertEquals(self.ed.Anchor, 1)
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self.ed.SelectAll()
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self.assertEquals(self.ed.CurrentPos, 0)
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self.assertEquals(self.ed.Anchor, 1)
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self.ed.Anchor = 0
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self.assertEquals(self.ed.Anchor, 0)
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# Check line positions
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self.assertEquals(self.ed.PositionFromLine(0), 0)
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self.assertEquals(self.ed.GetLineEndPosition(0), 1)
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self.assertEquals(self.ed.PositionFromLine(1), 1)
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self.ed.CurrentPos = 1
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self.assertEquals(self.ed.Anchor, 0)
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self.assertEquals(self.ed.CurrentPos, 1)
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def testSelection(self):
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self.assertEquals(self.ed.CurrentPos, 0)
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self.assertEquals(self.ed.Anchor, 0)
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self.assertEquals(self.ed.SelectionStart, 0)
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self.assertEquals(self.ed.SelectionEnd, 0)
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self.ed.AddText(1, "x")
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self.ed.SelectionStart = 0
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self.assertEquals(self.ed.CurrentPos, 1)
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self.assertEquals(self.ed.Anchor, 0)
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self.assertEquals(self.ed.SelectionStart, 0)
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self.assertEquals(self.ed.SelectionEnd, 1)
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self.ed.SelectionStart = 1
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self.assertEquals(self.ed.CurrentPos, 1)
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self.assertEquals(self.ed.Anchor, 1)
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self.assertEquals(self.ed.SelectionStart, 1)
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self.assertEquals(self.ed.SelectionEnd, 1)
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self.ed.SelectionEnd = 0
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self.assertEquals(self.ed.CurrentPos, 0)
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self.assertEquals(self.ed.Anchor, 0)
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def testSetSelection(self):
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self.ed.AddText(4, b"abcd")
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self.ed.SetSel(1, 3)
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self.assertEquals(self.ed.SelectionStart, 1)
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self.assertEquals(self.ed.SelectionEnd, 3)
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result = b"\0" * 5
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length = self.ed.GetSelText(0, result)
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self.assertEquals(length, 3)
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self.assertEquals(result[:length], b"bc\0")
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self.ed.ReplaceSel(0, b"1234")
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self.assertEquals(self.ed.Length, 6)
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self.assertEquals(self.ed.Contents(), b"a1234d")
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def testReadOnly(self):
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self.ed.AddText(1, b"x")
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self.assertEquals(self.ed.ReadOnly, 0)
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self.assertEquals(self.ed.Contents(), b"x")
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self.ed.ReadOnly = 1
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self.assertEquals(self.ed.ReadOnly, 1)
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self.ed.AddText(1, b"x")
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self.assertEquals(self.ed.Contents(), b"x")
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self.ed.ReadOnly = 0
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self.ed.AddText(1, b"x")
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self.assertEquals(self.ed.Contents(), b"xx")
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self.ed.Null()
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self.assertEquals(self.ed.Contents(), b"xx")
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def testAddLine(self):
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data = b"x" * 70 + b"\n"
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for i in range(5):
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self.ed.AddText(len(data), data)
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self.xite.DoEvents()
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self.assertEquals(self.ed.LineCount, i + 2)
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self.assert_(self.ed.Length > 0)
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def testInsertText(self):
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data = b"xy"
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self.ed.InsertText(0, data)
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self.assertEquals(self.ed.Length, 2)
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self.assertEquals(data, self.ed.ByteRange(0,2))
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self.ed.InsertText(1, data)
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# Should now be "xxyy"
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self.assertEquals(self.ed.Length, 4)
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self.assertEquals(b"xxyy", self.ed.ByteRange(0,4))
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def testInsertNul(self):
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data = b"\0"
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self.ed.AddText(1, data)
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self.assertEquals(self.ed.Length, 1)
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self.assertEquals(data, self.ed.ByteRange(0,1))
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def testUndoRedo(self):
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data = b"xy"
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self.assertEquals(self.ed.Modify, 0)
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self.assertEquals(self.ed.UndoCollection, 1)
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self.assertEquals(self.ed.CanRedo(), 0)
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self.assertEquals(self.ed.CanUndo(), 0)
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self.ed.InsertText(0, data)
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self.assertEquals(self.ed.Length, 2)
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self.assertEquals(self.ed.Modify, 1)
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self.assertEquals(self.ed.CanRedo(), 0)
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self.assertEquals(self.ed.CanUndo(), 1)
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self.ed.Undo()
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self.assertEquals(self.ed.Length, 0)
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self.assertEquals(self.ed.Modify, 0)
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self.assertEquals(self.ed.CanRedo(), 1)
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self.assertEquals(self.ed.CanUndo(), 0)
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self.ed.Redo()
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self.assertEquals(self.ed.Length, 2)
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self.assertEquals(self.ed.Modify, 1)
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self.assertEquals(data, self.ed.Contents())
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self.assertEquals(self.ed.CanRedo(), 0)
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self.assertEquals(self.ed.CanUndo(), 1)
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def testUndoSavePoint(self):
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data = b"xy"
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self.assertEquals(self.ed.Modify, 0)
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self.ed.InsertText(0, data)
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self.assertEquals(self.ed.Modify, 1)
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self.ed.SetSavePoint()
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self.assertEquals(self.ed.Modify, 0)
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self.ed.InsertText(0, data)
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self.assertEquals(self.ed.Modify, 1)
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def testUndoCollection(self):
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data = b"xy"
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self.assertEquals(self.ed.UndoCollection, 1)
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self.ed.UndoCollection = 0
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self.assertEquals(self.ed.UndoCollection, 0)
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self.ed.InsertText(0, data)
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self.assertEquals(self.ed.CanRedo(), 0)
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self.assertEquals(self.ed.CanUndo(), 0)
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self.ed.UndoCollection = 1
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def testGetColumn(self):
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self.ed.AddText(1, b"x")
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self.assertEquals(self.ed.GetColumn(0), 0)
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self.assertEquals(self.ed.GetColumn(1), 1)
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# Next line caused infinite loop in 1.71
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self.assertEquals(self.ed.GetColumn(2), 1)
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self.assertEquals(self.ed.GetColumn(3), 1)
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def testTabWidth(self):
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self.assertEquals(self.ed.TabWidth, 8)
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self.ed.AddText(3, b"x\tb")
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self.assertEquals(self.ed.GetColumn(0), 0)
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self.assertEquals(self.ed.GetColumn(1), 1)
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self.assertEquals(self.ed.GetColumn(2), 8)
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for col in range(10):
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if col == 0:
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self.assertEquals(self.ed.FindColumn(0, col), 0)
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elif col == 1:
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self.assertEquals(self.ed.FindColumn(0, col), 1)
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elif col == 8:
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self.assertEquals(self.ed.FindColumn(0, col), 2)
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elif col == 9:
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self.assertEquals(self.ed.FindColumn(0, col), 3)
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# else:
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# self.assertEquals(self.ed.FindColumn(0, col), 1)
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self.ed.TabWidth = 4
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self.assertEquals(self.ed.TabWidth, 4)
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self.assertEquals(self.ed.GetColumn(0), 0)
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self.assertEquals(self.ed.GetColumn(1), 1)
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self.assertEquals(self.ed.GetColumn(2), 4)
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def testIndent(self):
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self.assertEquals(self.ed.Indent, 0)
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self.assertEquals(self.ed.UseTabs, 1)
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self.ed.Indent = 8
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self.ed.UseTabs = 0
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self.assertEquals(self.ed.Indent, 8)
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self.assertEquals(self.ed.UseTabs, 0)
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self.ed.AddText(3, b"x\tb")
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self.assertEquals(self.ed.GetLineIndentation(0), 0)
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self.ed.InsertText(0, b" ")
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self.assertEquals(self.ed.GetLineIndentation(0), 1)
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self.assertEquals(self.ed.GetLineIndentPosition(0), 1)
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self.assertEquals(self.ed.Contents(), b" x\tb")
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self.ed.SetLineIndentation(0,2)
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self.assertEquals(self.ed.Contents(), b" x\tb")
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self.assertEquals(self.ed.GetLineIndentPosition(0), 2)
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self.ed.UseTabs = 1
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self.ed.SetLineIndentation(0,8)
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self.assertEquals(self.ed.Contents(), b"\tx\tb")
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self.assertEquals(self.ed.GetLineIndentPosition(0), 1)
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def testGetCurLine(self):
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self.ed.AddText(1, b"x")
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data = b"\0" * 100
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caret = self.ed.GetCurLine(len(data), data)
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data = data.rstrip(b"\0")
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self.assertEquals(caret, 1)
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self.assertEquals(data, b"x")
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def testGetLine(self):
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self.ed.AddText(1, b"x")
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data = b"\0" * 100
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length = self.ed.GetLine(0, data)
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self.assertEquals(length, 1)
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data = data[:length]
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self.assertEquals(data, b"x")
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def testLineEnds(self):
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self.ed.AddText(3, b"x\ny")
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self.assertEquals(self.ed.GetLineEndPosition(0), 1)
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self.assertEquals(self.ed.GetLineEndPosition(1), 3)
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self.assertEquals(self.ed.LineLength(0), 2)
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self.assertEquals(self.ed.LineLength(1), 1)
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self.assertEquals(self.ed.EOLMode, self.ed.SC_EOL_CRLF)
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lineEnds = [b"\r\n", b"\r", b"\n"]
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for lineEndType in [self.ed.SC_EOL_CR, self.ed.SC_EOL_LF, self.ed.SC_EOL_CRLF]:
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self.ed.EOLMode = lineEndType
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self.assertEquals(self.ed.EOLMode, lineEndType)
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self.ed.ConvertEOLs(lineEndType)
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self.assertEquals(self.ed.Contents(), b"x" + lineEnds[lineEndType] + b"y")
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self.assertEquals(self.ed.LineLength(0), 1 + len(lineEnds[lineEndType]))
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def testGoto(self):
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self.ed.AddText(5, b"a\nb\nc")
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self.assertEquals(self.ed.CurrentPos, 5)
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self.ed.GotoLine(1)
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self.assertEquals(self.ed.CurrentPos, 2)
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self.ed.GotoPos(4)
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self.assertEquals(self.ed.CurrentPos, 4)
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def testCutCopyPaste(self):
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self.ed.AddText(5, b"a1b2c")
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self.ed.SetSel(1,3)
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self.ed.Cut()
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self.assertEquals(self.ed.CanPaste(), 1)
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self.ed.SetSel(0, 0)
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self.ed.Paste()
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self.assertEquals(self.ed.Contents(), b"1ba2c")
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self.ed.SetSel(4,5)
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self.ed.Copy()
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self.ed.SetSel(1,3)
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self.ed.Paste()
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self.assertEquals(self.ed.Contents(), b"1c2c")
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self.ed.SetSel(2,4)
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self.ed.Clear()
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self.assertEquals(self.ed.Contents(), b"1c")
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def testGetSet(self):
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self.ed.SetText(0, b"abc")
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self.assertEquals(self.ed.TextLength, 3)
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result = b"\0" * 5
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length = self.ed.GetText(4, result)
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result = result[:length]
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self.assertEquals(result, b"abc")
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def testAppend(self):
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self.ed.SetText(0, b"abc")
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self.assertEquals(self.ed.SelectionStart, 0)
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self.assertEquals(self.ed.SelectionEnd, 0)
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text = b"12"
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self.ed.AppendText(len(text), text)
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self.assertEquals(self.ed.SelectionStart, 0)
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self.assertEquals(self.ed.SelectionEnd, 0)
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self.assertEquals(self.ed.Contents(), b"abc12")
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def testTarget(self):
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self.ed.SetText(0, b"abcd")
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self.ed.TargetStart = 1
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self.ed.TargetEnd = 3
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self.assertEquals(self.ed.TargetStart, 1)
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self.assertEquals(self.ed.TargetEnd, 3)
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rep = b"321"
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self.ed.ReplaceTarget(len(rep), rep)
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self.assertEquals(self.ed.Contents(), b"a321d")
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self.ed.SearchFlags = self.ed.SCFIND_REGEXP
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self.assertEquals(self.ed.SearchFlags, self.ed.SCFIND_REGEXP)
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searchString = b"([1-9]+)" # were \( \) is original regex algorithm.
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pos = self.ed.SearchInTarget(len(searchString), searchString)
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self.assertEquals(1, pos)
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tagString = b"abcdefghijklmnop"
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lenTag = self.ed.GetTag(1, tagString)
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tagString = tagString[:lenTag]
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self.assertEquals(tagString, b"321")
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rep = b"\\1"
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self.ed.TargetStart = 0
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self.ed.TargetEnd = 0
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self.ed.ReplaceTargetRE(len(rep), rep)
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self.assertEquals(self.ed.Contents(), b"321a321d")
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self.ed.SetSel(4,5)
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self.ed.TargetFromSelection()
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self.assertEquals(self.ed.TargetStart, 4)
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self.assertEquals(self.ed.TargetEnd, 5)
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def testTargetEscape(self):
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# Checks that a literal \ can be in the replacement. Bug #2959876
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self.ed.SetText(0, b"abcd")
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self.ed.TargetStart = 1
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self.ed.TargetEnd = 3
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rep = b"\\\\n"
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self.ed.ReplaceTargetRE(len(rep), rep)
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self.assertEquals(self.ed.Contents(), b"a\\nd")
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def testPointsAndPositions(self):
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self.ed.AddText(1, b"x")
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# Start of text
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self.assertEquals(self.ed.PositionFromPoint(0,0), 0)
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# End of text
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self.assertEquals(self.ed.PositionFromPoint(0,100), 1)
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def testLinePositions(self):
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text = b"ab\ncd\nef"
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nl = b"\n"
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if sys.version_info[0] == 3:
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nl = ord(b"\n")
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self.ed.AddText(len(text), text)
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self.assertEquals(self.ed.LineFromPosition(-1), 0)
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line = 0
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for pos in range(len(text)+1):
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self.assertEquals(self.ed.LineFromPosition(pos), line)
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if pos < len(text) and text[pos] == nl:
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line += 1
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def testWordPositions(self):
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text = b"ab cd\tef"
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self.ed.AddText(len(text), text)
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self.assertEquals(self.ed.WordStartPosition(3, 0), 2)
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self.assertEquals(self.ed.WordStartPosition(4, 0), 3)
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self.assertEquals(self.ed.WordStartPosition(5, 0), 3)
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self.assertEquals(self.ed.WordStartPosition(6, 0), 5)
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self.assertEquals(self.ed.WordEndPosition(2, 0), 3)
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self.assertEquals(self.ed.WordEndPosition(3, 0), 5)
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self.assertEquals(self.ed.WordEndPosition(4, 0), 5)
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self.assertEquals(self.ed.WordEndPosition(5, 0), 6)
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self.assertEquals(self.ed.WordEndPosition(6, 0), 8)
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MODI = 1
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UNDO = 2
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REDO = 4
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class TestContainerUndo(unittest.TestCase):
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def setUp(self):
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self.xite = XiteWin.xiteFrame
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self.ed = self.xite.ed
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self.ed.ClearAll()
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self.ed.EmptyUndoBuffer()
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self.data = b"xy"
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def UndoState(self):
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return (MODI if self.ed.Modify else 0) | \
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(UNDO if self.ed.CanUndo() else 0) | \
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(REDO if self.ed.CanRedo() else 0)
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def testContainerActNoCoalesce(self):
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self.ed.InsertText(0, self.data)
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self.assertEquals(self.ed.Length, 2)
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self.assertEquals(self.UndoState(), MODI | UNDO)
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self.ed.AddUndoAction(5, 0)
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self.ed.Undo()
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self.assertEquals(self.ed.Length, 2)
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self.assertEquals(self.UndoState(), MODI | UNDO | REDO)
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self.ed.Redo()
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self.assertEquals(self.ed.Length, 2)
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self.assertEquals(self.UndoState(), MODI | UNDO)
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self.ed.Undo()
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def testContainerActCoalesce(self):
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self.ed.InsertText(0, self.data)
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self.ed.AddUndoAction(5, 1)
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self.ed.Undo()
|
||
self.assertEquals(self.ed.Length, 0)
|
||
self.assertEquals(self.UndoState(), REDO)
|
||
self.ed.Redo()
|
||
self.assertEquals(self.ed.Length, 2)
|
||
self.assertEquals(self.UndoState(), MODI | UNDO)
|
||
|
||
def testContainerMultiStage(self):
|
||
self.ed.InsertText(0, self.data)
|
||
self.ed.AddUndoAction(5, 1)
|
||
self.ed.AddUndoAction(5, 1)
|
||
self.assertEquals(self.ed.Length, 2)
|
||
self.assertEquals(self.UndoState(), MODI | UNDO)
|
||
self.ed.Undo()
|
||
self.assertEquals(self.ed.Length, 0)
|
||
self.assertEquals(self.UndoState(), REDO)
|
||
self.ed.Redo()
|
||
self.assertEquals(self.ed.Length, 2)
|
||
self.assertEquals(self.UndoState(), MODI | UNDO)
|
||
self.ed.AddUndoAction(5, 1)
|
||
self.assertEquals(self.ed.Length, 2)
|
||
self.assertEquals(self.UndoState(), MODI | UNDO)
|
||
self.ed.Undo()
|
||
self.assertEquals(self.ed.Length, 0)
|
||
self.assertEquals(self.UndoState(), REDO)
|
||
|
||
def testContainerMultiStageNoText(self):
|
||
self.ed.AddUndoAction(5, 1)
|
||
self.ed.AddUndoAction(5, 1)
|
||
self.assertEquals(self.UndoState(), MODI | UNDO)
|
||
self.ed.Undo()
|
||
self.assertEquals(self.UndoState(), REDO)
|
||
self.ed.Redo()
|
||
self.assertEquals(self.UndoState(), MODI | UNDO)
|
||
self.ed.AddUndoAction(5, 1)
|
||
self.assertEquals(self.UndoState(), MODI | UNDO)
|
||
self.ed.Undo()
|
||
self.assertEquals(self.UndoState(), REDO)
|
||
|
||
def testContainerActCoalesceEnd(self):
|
||
self.ed.AddUndoAction(5, 1)
|
||
self.assertEquals(self.ed.Length, 0)
|
||
self.assertEquals(self.UndoState(), MODI | UNDO)
|
||
self.ed.InsertText(0, self.data)
|
||
self.assertEquals(self.ed.Length, 2)
|
||
self.assertEquals(self.UndoState(), MODI | UNDO)
|
||
self.ed.Undo()
|
||
self.assertEquals(self.ed.Length, 0)
|
||
self.assertEquals(self.UndoState(), REDO)
|
||
self.ed.Redo()
|
||
self.assertEquals(self.ed.Length, 2)
|
||
self.assertEquals(self.UndoState(), MODI | UNDO)
|
||
|
||
def testContainerBetweenInsertAndInsert(self):
|
||
self.assertEquals(self.ed.Length, 0)
|
||
self.ed.InsertText(0, self.data)
|
||
self.assertEquals(self.ed.Length, 2)
|
||
self.assertEquals(self.UndoState(), MODI | UNDO)
|
||
self.ed.AddUndoAction(5, 1)
|
||
self.assertEquals(self.ed.Length, 2)
|
||
self.assertEquals(self.UndoState(), MODI | UNDO)
|
||
self.ed.InsertText(2, self.data)
|
||
self.assertEquals(self.ed.Length, 4)
|
||
self.assertEquals(self.UndoState(), MODI | UNDO)
|
||
# Undoes both insertions and the containerAction in the middle
|
||
self.ed.Undo()
|
||
self.assertEquals(self.ed.Length, 0)
|
||
self.assertEquals(self.UndoState(), REDO)
|
||
|
||
def testContainerNoCoalesceBetweenInsertAndInsert(self):
|
||
self.assertEquals(self.ed.Length, 0)
|
||
self.ed.InsertText(0, self.data)
|
||
self.assertEquals(self.ed.Length, 2)
|
||
self.assertEquals(self.UndoState(), MODI | UNDO)
|
||
self.ed.AddUndoAction(5, 0)
|
||
self.assertEquals(self.ed.Length, 2)
|
||
self.assertEquals(self.UndoState(), MODI | UNDO)
|
||
self.ed.InsertText(2, self.data)
|
||
self.assertEquals(self.ed.Length, 4)
|
||
self.assertEquals(self.UndoState(), MODI | UNDO)
|
||
# Undo last insertion
|
||
self.ed.Undo()
|
||
self.assertEquals(self.ed.Length, 2)
|
||
self.assertEquals(self.UndoState(), MODI | UNDO | REDO)
|
||
# Undo container
|
||
self.ed.Undo()
|
||
self.assertEquals(self.ed.Length, 2)
|
||
self.assertEquals(self.UndoState(), MODI | UNDO | REDO)
|
||
# Undo first insertion
|
||
self.ed.Undo()
|
||
self.assertEquals(self.ed.Length, 0)
|
||
self.assertEquals(self.UndoState(), REDO)
|
||
|
||
def testContainerBetweenDeleteAndDelete(self):
|
||
self.ed.InsertText(0, self.data)
|
||
self.ed.EmptyUndoBuffer()
|
||
self.assertEquals(self.ed.Length, 2)
|
||
self.assertEquals(self.UndoState(), 0)
|
||
self.ed.SetSel(2,2)
|
||
self.ed.DeleteBack()
|
||
self.assertEquals(self.ed.Length, 1)
|
||
self.ed.AddUndoAction(5, 1)
|
||
self.ed.DeleteBack()
|
||
self.assertEquals(self.ed.Length, 0)
|
||
# Undoes both deletions and the containerAction in the middle
|
||
self.ed.Undo()
|
||
self.assertEquals(self.ed.Length, 2)
|
||
self.assertEquals(self.UndoState(), REDO)
|
||
|
||
def testContainerBetweenInsertAndDelete(self):
|
||
self.assertEquals(self.ed.Length, 0)
|
||
self.ed.InsertText(0, self.data)
|
||
self.assertEquals(self.ed.Length, 2)
|
||
self.assertEquals(self.UndoState(), MODI | UNDO)
|
||
self.ed.AddUndoAction(5, 1)
|
||
self.assertEquals(self.UndoState(), MODI | UNDO)
|
||
self.ed.SetSel(0,1)
|
||
self.ed.Cut()
|
||
self.assertEquals(self.ed.Length, 1)
|
||
self.assertEquals(self.UndoState(), MODI | UNDO)
|
||
self.ed.Undo() # Only undoes the deletion
|
||
self.assertEquals(self.ed.Length, 2)
|
||
self.assertEquals(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 = XiteWin.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.assertEquals(self.selRange(), (6, 6))
|
||
self.ed.LineUp()
|
||
self.assertEquals(self.selRange(), (3, 3))
|
||
self.ed.LineDownExtend()
|
||
self.assertEquals(self.selRange(), (6, 3))
|
||
self.ed.LineUpExtend()
|
||
self.ed.LineUpExtend()
|
||
self.assertEquals(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.assertEquals(self.selRange(), (2, 2))
|
||
self.ed.CharLeft()
|
||
self.assertEquals(self.selRange(), (1, 1))
|
||
self.ed.CharRightExtend()
|
||
self.assertEquals(self.selRange(), (2, 1))
|
||
self.ed.CharLeftExtend()
|
||
self.ed.CharLeftExtend()
|
||
self.assertEquals(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.assertEquals(self.selRange(), (10, 10))
|
||
self.ed.WordLeft()
|
||
self.assertEquals(self.selRange(), (6, 6))
|
||
self.ed.WordRightExtend()
|
||
self.assertEquals(self.selRange(), (10, 6))
|
||
self.ed.WordLeftExtend()
|
||
self.ed.WordLeftExtend()
|
||
self.assertEquals(self.selRange(), (2, 6))
|
||
|
||
def testHomeEndMove(self):
|
||
self.ed.AddText(10, b"a big boat")
|
||
self.ed.SetSel(3,3)
|
||
self.ed.Home()
|
||
self.assertEquals(self.selRange(), (0, 0))
|
||
self.ed.LineEnd()
|
||
self.assertEquals(self.selRange(), (10, 10))
|
||
self.ed.SetSel(3,3)
|
||
self.ed.HomeExtend()
|
||
self.assertEquals(self.selRange(), (0, 3))
|
||
self.ed.LineEndExtend()
|
||
self.assertEquals(self.selRange(), (10, 3))
|
||
|
||
def testStartEndMove(self):
|
||
self.ed.AddText(10, b"a\nbig\nboat")
|
||
self.ed.SetSel(3,3)
|
||
self.ed.DocumentStart()
|
||
self.assertEquals(self.selRange(), (0, 0))
|
||
self.ed.DocumentEnd()
|
||
self.assertEquals(self.selRange(), (10, 10))
|
||
self.ed.SetSel(3,3)
|
||
self.ed.DocumentStartExtend()
|
||
self.assertEquals(self.selRange(), (0, 3))
|
||
self.ed.DocumentEndExtend()
|
||
self.assertEquals(self.selRange(), (10, 3))
|
||
|
||
|
||
class TestMarkers(unittest.TestCase):
|
||
|
||
def setUp(self):
|
||
self.xite = XiteWin.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.assertEquals(self.ed.MarkerLineFromHandle(handle), 1)
|
||
self.ed.MarkerDelete(1,1)
|
||
self.assertEquals(self.ed.MarkerLineFromHandle(handle), -1)
|
||
|
||
# def testTwiceAddedDelete(self):
|
||
# handle = self.ed.MarkerAdd(1,1)
|
||
# self.assertEquals(self.ed.MarkerGet(1), 2)
|
||
# handle2 = self.ed.MarkerAdd(1,1)
|
||
# self.assertEquals(self.ed.MarkerGet(1), 2)
|
||
# self.ed.MarkerDelete(1,1)
|
||
# self.assertEquals(self.ed.MarkerGet(1), 2)
|
||
# self.ed.MarkerDelete(1,1)
|
||
# self.assertEquals(self.ed.MarkerGet(1), 0)
|
||
|
||
def testMarkerDeleteAll(self):
|
||
h1 = self.ed.MarkerAdd(0,1)
|
||
h2 = self.ed.MarkerAdd(1,2)
|
||
self.assertEquals(self.ed.MarkerLineFromHandle(h1), 0)
|
||
self.assertEquals(self.ed.MarkerLineFromHandle(h2), 1)
|
||
self.ed.MarkerDeleteAll(1)
|
||
self.assertEquals(self.ed.MarkerLineFromHandle(h1), -1)
|
||
self.assertEquals(self.ed.MarkerLineFromHandle(h2), 1)
|
||
self.ed.MarkerDeleteAll(-1)
|
||
self.assertEquals(self.ed.MarkerLineFromHandle(h1), -1)
|
||
self.assertEquals(self.ed.MarkerLineFromHandle(h2), -1)
|
||
|
||
def testMarkerDeleteHandle(self):
|
||
handle = self.ed.MarkerAdd(0,1)
|
||
self.assertEquals(self.ed.MarkerLineFromHandle(handle), 0)
|
||
self.ed.MarkerDeleteHandle(handle)
|
||
self.assertEquals(self.ed.MarkerLineFromHandle(handle), -1)
|
||
|
||
def testMarkerBits(self):
|
||
self.assertEquals(self.ed.MarkerGet(0), 0)
|
||
self.ed.MarkerAdd(0,1)
|
||
self.assertEquals(self.ed.MarkerGet(0), 2)
|
||
self.ed.MarkerAdd(0,2)
|
||
self.assertEquals(self.ed.MarkerGet(0), 6)
|
||
|
||
def testMarkerAddSet(self):
|
||
self.assertEquals(self.ed.MarkerGet(0), 0)
|
||
self.ed.MarkerAddSet(0,5)
|
||
self.assertEquals(self.ed.MarkerGet(0), 5)
|
||
self.ed.MarkerDeleteAll(-1)
|
||
|
||
def testMarkerNext(self):
|
||
self.assertEquals(self.ed.MarkerNext(0, 2), -1)
|
||
h1 = self.ed.MarkerAdd(0,1)
|
||
h2 = self.ed.MarkerAdd(2,1)
|
||
self.assertEquals(self.ed.MarkerNext(0, 2), 0)
|
||
self.assertEquals(self.ed.MarkerNext(1, 2), 2)
|
||
self.assertEquals(self.ed.MarkerNext(2, 2), 2)
|
||
self.assertEquals(self.ed.MarkerPrevious(0, 2), 0)
|
||
self.assertEquals(self.ed.MarkerPrevious(1, 2), 0)
|
||
self.assertEquals(self.ed.MarkerPrevious(2, 2), 2)
|
||
|
||
def testMarkerNegative(self):
|
||
self.assertEquals(self.ed.MarkerNext(-1, 2), -1)
|
||
|
||
def testLineState(self):
|
||
self.assertEquals(self.ed.MaxLineState, 0)
|
||
self.assertEquals(self.ed.GetLineState(0), 0)
|
||
self.assertEquals(self.ed.GetLineState(1), 0)
|
||
self.assertEquals(self.ed.GetLineState(2), 0)
|
||
self.ed.SetLineState(1, 100)
|
||
self.assertNotEquals(self.ed.MaxLineState, 0)
|
||
self.assertEquals(self.ed.GetLineState(0), 0)
|
||
self.assertEquals(self.ed.GetLineState(1), 100)
|
||
self.assertEquals(self.ed.GetLineState(2), 0)
|
||
|
||
def testSymbolRetrieval(self):
|
||
self.ed.MarkerDefine(1,3)
|
||
self.assertEquals(self.ed.MarkerSymbolDefined(1), 3)
|
||
|
||
class TestIndicators(unittest.TestCase):
|
||
|
||
def setUp(self):
|
||
self.xite = XiteWin.xiteFrame
|
||
self.ed = self.xite.ed
|
||
self.ed.ClearAll()
|
||
self.ed.EmptyUndoBuffer()
|
||
|
||
def testSetIndicator(self):
|
||
self.assertEquals(self.ed.IndicGetStyle(0), 1)
|
||
self.assertEquals(self.ed.IndicGetFore(0), 0x007f00)
|
||
self.ed.IndicSetStyle(0, 2)
|
||
self.ed.IndicSetFore(0, 0xff0080)
|
||
self.assertEquals(self.ed.IndicGetStyle(0), 2)
|
||
self.assertEquals(self.ed.IndicGetFore(0), 0xff0080)
|
||
|
||
def testIndicatorFill(self):
|
||
self.ed.InsertText(0, b"abc")
|
||
self.ed.IndicatorCurrent = 3
|
||
self.ed.IndicatorFillRange(1,1)
|
||
self.assertEquals(self.ed.IndicatorValueAt(3, 0), 0)
|
||
self.assertEquals(self.ed.IndicatorValueAt(3, 1), 1)
|
||
self.assertEquals(self.ed.IndicatorValueAt(3, 2), 0)
|
||
self.assertEquals(self.ed.IndicatorStart(3, 0), 0)
|
||
self.assertEquals(self.ed.IndicatorEnd(3, 0), 1)
|
||
self.assertEquals(self.ed.IndicatorStart(3, 1), 1)
|
||
self.assertEquals(self.ed.IndicatorEnd(3, 1), 2)
|
||
self.assertEquals(self.ed.IndicatorStart(3, 2), 2)
|
||
self.assertEquals(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.assertEquals(self.ed.IndicatorValueAt(3, 0), 0)
|
||
# self.assertEquals(self.ed.IndicatorValueAt(3, 1), 1)
|
||
# self.assertEquals(self.ed.IndicatorStart(3, 0), 0)
|
||
# self.assertEquals(self.ed.IndicatorEnd(3, 0), 1)
|
||
# self.assertEquals(self.ed.IndicatorStart(3, 1), 1)
|
||
# self.assertEquals(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.assertEquals(self.ed.IndicatorValueAt(3, 0), 0)
|
||
# # Since null, remaining calls return 0
|
||
# self.assertEquals(self.ed.IndicatorStart(3, 0), 0)
|
||
# self.assertEquals(self.ed.IndicatorEnd(3, 0), 0)
|
||
# self.assertEquals(self.ed.IndicatorStart(3, 1), 0)
|
||
# self.assertEquals(self.ed.IndicatorEnd(3, 1), 0)
|
||
|
||
class TestScrolling(unittest.TestCase):
|
||
|
||
def setUp(self):
|
||
self.xite = XiteWin.xiteFrame
|
||
self.ed = self.xite.ed
|
||
self.ed.ClearAll()
|
||
self.ed.EmptyUndoBuffer()
|
||
# 150 should be enough lines
|
||
self.ed.InsertText(0, b"a\n" * 150)
|
||
|
||
def testTop(self):
|
||
self.ed.GotoLine(0)
|
||
self.assertEquals(self.ed.FirstVisibleLine, 0)
|
||
|
||
def testLineScroll(self):
|
||
self.ed.GotoLine(0)
|
||
self.ed.LineScroll(0, 3)
|
||
self.assertEquals(self.ed.FirstVisibleLine, 3)
|
||
|
||
def testVisibleLine(self):
|
||
self.ed.FirstVisibleLine = 7
|
||
self.assertEquals(self.ed.FirstVisibleLine, 7)
|
||
|
||
|
||
class TestBoostRegExSearch(unittest.TestCase):
|
||
def setUp(self):
|
||
self.xite = XiteWin.xiteFrame
|
||
self.ed = self.xite.ed
|
||
self.ed.ClearAll()
|
||
self.ed.EmptyUndoBuffer()
|
||
|
||
def testDotStarRegEx(self):
|
||
toFind = b".*"
|
||
direction = self.SearchDirectionForward(self.ed)
|
||
|
||
flags = self.ed.SCFIND_REGEXP | self.ed.SCFIND_REGEXP_SKIPCRLFASONE
|
||
self.doSearchTests(b"[aaAaaaBaCD]\r\n\r\n[aaa]", toFind, flags | self.ed.SCFIND_REGEXP_EMPTYMATCH_NONE, direction)
|
||
self.doSearchTests(b"[aaAaaaBaCD]\r\n[]\r\n[aaa]", toFind, flags | self.ed.SCFIND_REGEXP_EMPTYMATCH_NOTAFTERMATCH, direction)
|
||
self.doSearchTests(b"[aaAaaaBaCD][]\r\n[]\r\n[aaa][]", toFind, flags | self.ed.SCFIND_REGEXP_EMPTYMATCH_ALL, direction)
|
||
|
||
flags |= self.ed.SCFIND_REGEXP_DOTMATCHESNL
|
||
self.doSearchTests(b"[aaAaaaBaCD\r\n\r\naaa]", toFind, flags | self.ed.SCFIND_REGEXP_EMPTYMATCH_NONE, direction)
|
||
self.doSearchTests(b"[aaAaaaBaCD\r\n\r\naaa]", toFind, flags | self.ed.SCFIND_REGEXP_EMPTYMATCH_NOTAFTERMATCH, direction)
|
||
self.doSearchTests(b"[aaAaaaBaCD\r\n\r\naaa][]", toFind, flags | self.ed.SCFIND_REGEXP_EMPTYMATCH_ALL, direction)
|
||
|
||
flags = self.ed.SCFIND_REGEXP
|
||
self.doSearchTests(b"[aaAaaaBaCD]\r[]\n[]\r[]\n[aaa]", toFind, flags | self.ed.SCFIND_REGEXP_EMPTYMATCH_NOTAFTERMATCH, direction)
|
||
|
||
def testDotStarRegExBackward(self):
|
||
toFind = b".*"
|
||
direction = self.SearchDirectionBackward(self.ed)
|
||
|
||
flags = self.ed.SCFIND_REGEXP | self.ed.SCFIND_REGEXP_SKIPCRLFASONE
|
||
self.doSearchTests(b"[aaAaaaBaCD]\r\n\r\n[aaa]", toFind, flags | self.ed.SCFIND_REGEXP_EMPTYMATCH_NONE, direction)
|
||
self.doSearchTests(b"[aaAaaaBaCD]\r\n[]\r\n[aaa]", toFind, flags | self.ed.SCFIND_REGEXP_EMPTYMATCH_NOTAFTERMATCH, direction)
|
||
self.doSearchTests(b"[][aaAaaaBaCD]\r\n[]\r\n[][aaa]", toFind, flags | self.ed.SCFIND_REGEXP_EMPTYMATCH_ALL, direction)
|
||
|
||
flags |= self.ed.SCFIND_REGEXP_DOTMATCHESNL
|
||
self.doSearchTests(b"[aaAaaaBaCD\r\n\r\naaa]", toFind, flags | self.ed.SCFIND_REGEXP_EMPTYMATCH_NONE, direction)
|
||
self.doSearchTests(b"[aaAaaaBaCD\r\n\r\naaa]", toFind, flags | self.ed.SCFIND_REGEXP_EMPTYMATCH_NOTAFTERMATCH, direction)
|
||
self.doSearchTests(b"[][aaAaaaBaCD\r\n\r\naaa]", toFind, flags | self.ed.SCFIND_REGEXP_EMPTYMATCH_ALL, direction)
|
||
|
||
flags = self.ed.SCFIND_REGEXP
|
||
self.doSearchTests(b"[aaAaaaBaCD]\r[]\n[]\r[]\n[aaa]", toFind, flags | self.ed.SCFIND_REGEXP_EMPTYMATCH_NOTAFTERMATCH, direction)
|
||
|
||
def testAStarRegEx(self):
|
||
toFind = b"a*"
|
||
direction = self.SearchDirectionForward(self.ed)
|
||
|
||
flags = self.ed.SCFIND_REGEXP | self.ed.SCFIND_REGEXP_SKIPCRLFASONE | self.ed.SCFIND_MATCHCASE
|
||
self.doSearchTests(b"X[aa]A[aaa]B[a]CD\r\n\r\n[aaa]", toFind, flags | self.ed.SCFIND_REGEXP_EMPTYMATCH_NONE, direction)
|
||
self.doSearchTests(b"[]X[aa]A[aaa]B[a]C[]D[]\r\n[]\r\n[aaa]", toFind, flags | self.ed.SCFIND_REGEXP_EMPTYMATCH_NOTAFTERMATCH, direction)
|
||
self.doSearchTests(b"[]X[aa][]A[aaa][]B[a][]C[]D[]\r\n[]\r\n[aaa][]", toFind, flags | self.ed.SCFIND_REGEXP_EMPTYMATCH_ALL, direction)
|
||
|
||
flags = self.ed.SCFIND_REGEXP | self.ed.SCFIND_MATCHCASE
|
||
self.doSearchTests(b"[]X[aa]A[aaa]B[a]C[]D[]\r[]\n[]\r[]\n[aaa]", toFind, flags | self.ed.SCFIND_REGEXP_EMPTYMATCH_NOTAFTERMATCH, direction)
|
||
|
||
flags = self.ed.SCFIND_REGEXP | self.ed.SCFIND_REGEXP_SKIPCRLFASONE
|
||
self.doSearchTests(b"X[aaAaaa]B[a]CD\r\n\r\n[aaa]", toFind, flags | self.ed.SCFIND_REGEXP_EMPTYMATCH_NONE, direction)
|
||
self.doSearchTests(b"[]X[aaAaaa]B[a]C[]D[]\r\n[]\r\n[aaa]", toFind, flags | self.ed.SCFIND_REGEXP_EMPTYMATCH_NOTAFTERMATCH, direction)
|
||
self.doSearchTests(b"[]X[aaAaaa][]B[a][]C[]D[]\r\n[]\r\n[aaa][]", toFind, flags | self.ed.SCFIND_REGEXP_EMPTYMATCH_ALL, direction)
|
||
|
||
def testAStarRegExBackward(self):
|
||
toFind = b"a*"
|
||
direction = self.SearchDirectionBackward(self.ed)
|
||
|
||
flags = self.ed.SCFIND_REGEXP | self.ed.SCFIND_REGEXP_SKIPCRLFASONE | self.ed.SCFIND_MATCHCASE
|
||
self.doSearchTests(b"[aa]A[aaa]B[a]CD\r\n\r\n[aaa]X", toFind, flags | self.ed.SCFIND_REGEXP_EMPTYMATCH_NONE, direction)
|
||
self.doSearchTests(b"[aa]A[aaa]B[a]C[]D[]\r\n[]\r\n[aaa]X[]", toFind, flags | self.ed.SCFIND_REGEXP_EMPTYMATCH_NOTAFTERMATCH, direction)
|
||
self.doSearchTests(b"[][aa]A[][aaa]B[][a]C[]D[]\r\n[]\r\n[][aaa]X[]", toFind, flags | self.ed.SCFIND_REGEXP_EMPTYMATCH_ALL, direction)
|
||
|
||
flags = self.ed.SCFIND_REGEXP | self.ed.SCFIND_MATCHCASE
|
||
self.doSearchTests(b"[aa]A[aaa]B[a]C[]D[]\r[]\n[]\r[]\n[aaa]X[]", toFind, flags | self.ed.SCFIND_REGEXP_EMPTYMATCH_NOTAFTERMATCH, direction)
|
||
|
||
flags = self.ed.SCFIND_REGEXP | self.ed.SCFIND_REGEXP_SKIPCRLFASONE
|
||
self.doSearchTests(b"[aaAaaa]B[a]CD\r\n\r\n[aaa]X", toFind, flags | self.ed.SCFIND_REGEXP_EMPTYMATCH_NONE, direction)
|
||
self.doSearchTests(b"[aaAaaa]B[a]C[]D[]\r\n[]\r\n[aaa]X[]", toFind, flags | self.ed.SCFIND_REGEXP_EMPTYMATCH_NOTAFTERMATCH, direction)
|
||
self.doSearchTests(b"[][aaAaaa]B[][a]C[]D[]\r\n[]\r\n[][aaa]X[]", toFind, flags | self.ed.SCFIND_REGEXP_EMPTYMATCH_ALL, direction)
|
||
|
||
def testLineBeginEndRegEx(self):
|
||
flags = self.ed.SCFIND_REGEXP | self.ed.SCFIND_REGEXP_SKIPCRLFASONE | self.ed.SCFIND_REGEXP_EMPTYMATCH_ALL
|
||
direction = self.SearchDirectionForward(self.ed)
|
||
self.doSearchTests(b"[]ab\n[]ab\r[]ab\r\n[]ab\n[]\n[]ab\r[]\r[]ab\r\n[]\r\n[]ab", b"^", flags, direction)
|
||
self.doSearchTests(b"ab[]\nab[]\rab[]\r\nab[]\n[]\nab[]\r[]\rab[]\r\n[]\r\nab[]", b"$", flags, direction)
|
||
self.doSearchTests(b"[]", b"^", flags, direction)
|
||
self.doSearchTests(b"[]", b"$", flags, direction)
|
||
|
||
direction = self.SearchDirectionBackwardExceptFirstAndLastCharacter(self.ed)
|
||
self.doSearchTests(b"ab\n[]ab\r[]ab\r\n[]ab\n[]\n[]ab\r[]\r[]ab\r\n[]\r\n[]ab", b"^", flags, direction)
|
||
self.doSearchTests(b"ab[]\nab[]\rab[]\r\nab[]\n[]\nab[]\r[]\rab[]\r\n[]\r\nab", b"$", flags, direction)
|
||
|
||
def testLineBeginEndRegExBackward(self):
|
||
flags = self.ed.SCFIND_REGEXP | self.ed.SCFIND_REGEXP_SKIPCRLFASONE | self.ed.SCFIND_REGEXP_EMPTYMATCH_ALL
|
||
direction = self.SearchDirectionBackward(self.ed)
|
||
self.doSearchTests(b"[]ab\n[]ab\r[]ab\r\n[]ab\n[]\n[]ab\r[]\r[]ab\r\n[]\r\n[]ab", b"^", flags, direction)
|
||
self.doSearchTests(b"ab[]\nab[]\rab[]\r\nab[]\n[]\nab[]\r[]\rab[]\r\n[]\r\nab[]", b"$", flags, direction)
|
||
self.doSearchTests(b"[]", b"^", flags, direction)
|
||
self.doSearchTests(b"[]", b"$", flags, direction)
|
||
|
||
direction = self.SearchDirectionBackwardExceptFirstAndLastCharacter(self.ed)
|
||
self.doSearchTests(b"ab\n[]ab\r[]ab\r\n[]ab\n[]\n[]ab\r[]\r[]ab\r\n[]\r\n[]ab", b"^", flags, direction)
|
||
self.doSearchTests(b"ab[]\nab[]\rab[]\r\nab[]\n[]\nab[]\r[]\rab[]\r\n[]\r\nab", b"$", flags, direction)
|
||
|
||
def testUtf8RegEx(self):
|
||
self.ed.SetCodePage(self.ed.SC_CP_UTF8)
|
||
self.doSearchTests(b"[aa]b[éé]b[aé]b[éÉ]ááá[Éaéé]b", b"[aéÉ]+", self.ed.SCFIND_REGEXP, self.SearchDirectionForward(self.ed))
|
||
self.doSearchTests(b"[áéíóú]\r\n[]\r\n[áé]", b".*", self.ed.SCFIND_REGEXP | self.ed.SCFIND_REGEXP_SKIPCRLFASONE | self.ed.SCFIND_REGEXP_EMPTYMATCH_NOTAFTERMATCH, self.SearchDirectionForward(self.ed))
|
||
|
||
def testUtf8RegExBackward(self):
|
||
self.ed.SetCodePage(self.ed.SC_CP_UTF8)
|
||
self.doSearchTests(b"[aa]b[éé]b[aé]b[éÉ]ááá[Éaéé]b", b"[aéÉ]+", self.ed.SCFIND_REGEXP, self.SearchDirectionBackward(self.ed))
|
||
self.doSearchTests(b"[áéíóú]\r\n[]\r\n[áé]", b".*", self.ed.SCFIND_REGEXP | self.ed.SCFIND_REGEXP_SKIPCRLFASONE | self.ed.SCFIND_REGEXP_EMPTYMATCH_NOTAFTERMATCH, self.SearchDirectionBackward(self.ed))
|
||
|
||
def testOverlapRegEx(self):
|
||
flags = self.ed.SCFIND_REGEXP | self.ed.SCFIND_MATCHCASE
|
||
toFind = b"abc|bcde"
|
||
self.doSearchTests(b"[abc]def[abc]ab[bcde]f", toFind, flags, self.SearchDirectionForward(self.ed))
|
||
self.doSearchTests(b"a[bcde]f[abc]ab[bcde]f", toFind, flags, self.SearchDirectionBackward(self.ed))
|
||
toFind = b"abcde|bc"
|
||
self.doSearchTests(b"[abcde]fa[bc]ab[bc]def", toFind, flags, self.SearchDirectionForward(self.ed))
|
||
self.doSearchTests(b"[abcde]fa[bc]ab[bc]def", toFind, flags, self.SearchDirectionBackward(self.ed))
|
||
|
||
def testDocumentModificationBetweenSearch(self):
|
||
flags = self.ed.SCFIND_REGEXP | self.ed.SCFIND_REGEXP_EMPTYMATCH_NOTAFTERMATCH
|
||
toFind = b"a*"
|
||
self.setText(b"BaaC") ; firstMatch = (0,0,0) ; secondMatch = (1,1,3)
|
||
def searchFromStart(): return self.ed.FindBytes2(0, self.ed.Length, toFind, flags)
|
||
self.assertEquals(firstMatch, searchFromStart())
|
||
self.assertEquals(secondMatch, searchFromStart()) # This search should find second match, even though it is from same start position, as it should be considered a continuation of previous search.
|
||
self.assertEquals(firstMatch, searchFromStart()) # A third search from same start should find first match, as it is not a continuation of previous search.
|
||
self.setText(b"Baa")
|
||
self.assertEquals(firstMatch, searchFromStart()) # This search should find first match, as it should not be considered a continuation since text has been modified.
|
||
|
||
|
||
def testAStarAllowEmptyAtStartRegEx(self):
|
||
flags = self.ed.SCFIND_REGEXP | self.ed.SCFIND_REGEXP_EMPTYMATCH_ALL | self.ed.SCFIND_REGEXP_EMPTYMATCH_ALLOWATSTART
|
||
toFind = b"a*"
|
||
self.setText(b"BaaC")
|
||
firstMatch = (0,0,0)
|
||
secondMatch = (1,1,3)
|
||
def searchFromStart(): return self.ed.FindBytes2(0, self.ed.Length, toFind, flags)
|
||
self.assertEquals(firstMatch, searchFromStart())
|
||
self.assertEquals(firstMatch, searchFromStart()) # This search would normally find second match, even though it is from same start position,
|
||
# as it should be considered a continuation of previous search, but we have set SCFIND_REGEXP_EMPTYMATCH_ALLOWATSTART
|
||
# which will force it to allow the first match to be found again.
|
||
|
||
|
||
# 'textWithBrackets' should contain the text with [] brackets around all strings that should be found by successive search of 'whatToFind', each search starting at end of previous match.
|
||
def doSearchTests(self, textWithBrackets, whatToFind, flags, direction):
|
||
expectedResults = self.setupTest(textWithBrackets, direction)
|
||
currentPosition = direction.startPosition(); i = 1
|
||
for expected in direction.orderResults(expectedResults):
|
||
result = self.ed.FindBytes2(currentPosition, direction.endPosition(), whatToFind, flags)
|
||
self.assertEquals(expected, result, self.failureString(expected, result, i))
|
||
currentPosition = direction.nextPositionFromResult(expected); i += 1
|
||
|
||
def failureString(self, expected, result, i):
|
||
class MapCrLf:
|
||
def __getitem__(self, c):
|
||
if c == ord('\r'): return u'«'
|
||
if c == ord('\n'): return u'¬'
|
||
return c
|
||
return ("%s != %s (at search #%d)\n"%(str(expected), str(result), i) \
|
||
+ unicode(self.text, 'utf-8').translate(MapCrLf()) + "\n" \
|
||
+ self.markCharRange(expected) + "\n" \
|
||
+ self.markCharRange(result) \
|
||
).encode('utf-8')
|
||
|
||
def markCharRange(self, searchResult):
|
||
if searchResult[0] < 0: return "(No match)"
|
||
left = searchResult[1]; right = searchResult[2]
|
||
self.assertTrue(left <= right, "Invalid range (%d,%d)"%(left,right))
|
||
leftChar = self.bytePositionToCharacterPosition(left)
|
||
returnValue = ' '*leftChar
|
||
if left == right:
|
||
if not self.positionError: returnValue += '^'
|
||
else: returnValue += '~'
|
||
else:
|
||
if not self.positionError: returnValue += '['
|
||
else: returnValue += '~'
|
||
rightChar = self.bytePositionToCharacterPosition(right)
|
||
returnValue += ' '*(rightChar-leftChar-1)
|
||
if not self.positionError: returnValue += ']'
|
||
else: returnValue += '~'
|
||
return returnValue
|
||
|
||
def bytePositionToCharacterPosition(self, bytePosition):
|
||
self.positionError = False
|
||
while True:
|
||
try:
|
||
return len(unicode(self.text[:bytePosition], 'utf-8'))
|
||
except UnicodeDecodeError:
|
||
self.positionError = True
|
||
bytePosition -= 1
|
||
|
||
class SearchDirectionForward:
|
||
def __init__(self, editorObject): self.ed = editorObject
|
||
def startPosition(self): return 0
|
||
def endPosition(self): return self.ed.Length
|
||
def nextPositionFromResult(self, searchResult): return searchResult[2]
|
||
def orderResults(self, expectedResults): return expectedResults
|
||
def atStart(self): return []
|
||
def atEnd(self): return [(-1, 0, 0)] # Last search should fail.
|
||
|
||
class SearchDirectionBackward:
|
||
def __init__(self, editorObject): self.ed = editorObject
|
||
def startPosition(self): return self.ed.Length
|
||
def endPosition(self): return 0
|
||
def nextPositionFromResult(self, searchResult): return searchResult[1]
|
||
def orderResults(self, expectedResults): return reversed(expectedResults)
|
||
def atStart(self): return [(-1, 0, 0)] # Last search should fail.
|
||
def atEnd(self): return []
|
||
|
||
class SearchDirectionForwardExceptFirstAndLastCharacter(SearchDirectionForward):
|
||
def startPosition(self): return 1
|
||
def endPosition(self): return self.ed.Length-1
|
||
|
||
class SearchDirectionBackwardExceptFirstAndLastCharacter(SearchDirectionBackward):
|
||
def startPosition(self): return self.ed.Length-1
|
||
def endPosition(self): return 1
|
||
|
||
def setupTest(self, textWithBrackets, direction):
|
||
expectedResults = self.getExpectedResults(textWithBrackets, direction)
|
||
text = self.removeBrackets(textWithBrackets)
|
||
self.setText(text)
|
||
return expectedResults
|
||
|
||
def getExpectedResults(self, textWithBrackets, direction):
|
||
textSplit = textWithBrackets.split(b'[')
|
||
currentPosition = 0
|
||
expectedResults = []
|
||
expectedResults += direction.atStart()
|
||
for i in range(0, len(textSplit)-1):
|
||
currentPosition += len(self.removeBrackets(textSplit[i]))
|
||
expectedResults += [(currentPosition, currentPosition, currentPosition+textSplit[i+1].find(b']'))]
|
||
expectedResults += direction.atEnd()
|
||
return expectedResults
|
||
|
||
def removeBrackets(self, textWithBrackets):
|
||
return textWithBrackets.translate(None, b"[]")
|
||
|
||
def setText(self, text):
|
||
self.text = text
|
||
self.ed.SetText(len(text), text)
|
||
|
||
class TestBoostRegExReplace(unittest.TestCase):
|
||
def setUp(self):
|
||
self.xite = XiteWin.xiteFrame
|
||
self.ed = self.xite.ed
|
||
self.ed.ClearAll()
|
||
self.ed.EmptyUndoBuffer()
|
||
|
||
def testReplace(self):
|
||
self.ed.SetCodePage(0)
|
||
self.setText(b"abcd1234XYZef5678Wgh")
|
||
self.doReplace(b"([0-9]+)([A-Z]+)", b"[\\2;\\1]", self.ed.SCFIND_REGEXP | self.ed.SCFIND_MATCHCASE)
|
||
self.assertEquals(self.ed.Contents(), b"abcd[XYZ;1234]ef5678Wgh")
|
||
|
||
def testReplaceAStar(self):
|
||
self.setText(b"aaXYaZaaa")
|
||
flags = self.ed.SCFIND_REGEXP | self.ed.SCFIND_REGEXP_EMPTYMATCH_NOTAFTERMATCH
|
||
position = 0
|
||
position = self.doReplace(b"a*", b"b", flags, position)
|
||
self.assertEquals(self.ed.Contents(), b"bXYaZaaa")
|
||
self.assertEquals(position, 1)
|
||
position = self.doReplace(b"a*", b"c", flags, position)
|
||
self.assertEquals(self.ed.Contents(), b"bXcYaZaaa")
|
||
self.assertEquals(position, 3)
|
||
position = self.doReplace(b"a*", b"d", flags, position)
|
||
self.assertEquals(self.ed.Contents(), b"bXcYdZaaa")
|
||
self.assertEquals(position, 5)
|
||
position = self.doReplace(b"a*", b"e", flags, position)
|
||
self.assertEquals(self.ed.Contents(), b"bXcYdZe")
|
||
self.assertEquals(position, 7)
|
||
position = self.doReplace(b"a*", b"f", flags, position)
|
||
self.assertEquals(self.ed.Contents(), b"bXcYdZe")
|
||
self.assertEquals(position, -1)
|
||
|
||
self.setText(b"aaXYa")
|
||
flags = self.ed.SCFIND_REGEXP | self.ed.SCFIND_REGEXP_EMPTYMATCH_ALL
|
||
position = self.doReplace(b"a*", b"b", flags, position)
|
||
self.assertEquals(self.ed.Contents(), b"bXYa")
|
||
self.assertEquals(position, 1)
|
||
position = self.doReplace(b"a*", b"c", flags, position)
|
||
self.assertEquals(self.ed.Contents(), b"bcXYa")
|
||
self.assertEquals(position, 2)
|
||
position = self.doReplace(b"a*", b"d", flags, position)
|
||
self.assertEquals(self.ed.Contents(), b"bcXdYa")
|
||
self.assertEquals(position, 4)
|
||
position = self.doReplace(b"a*", b"e", flags, position)
|
||
self.assertEquals(self.ed.Contents(), b"bcXdYe")
|
||
self.assertEquals(position, 6)
|
||
position = self.doReplace(b"a*", b"f", flags, position)
|
||
self.assertEquals(self.ed.Contents(), b"bcXdYef")
|
||
self.assertEquals(position, 7)
|
||
position = self.doReplace(b"a*", b"g", flags, position)
|
||
self.assertEquals(self.ed.Contents(), b"bcXdYef")
|
||
self.assertEquals(position, -1)
|
||
|
||
def testReplaceEOL(self):
|
||
self.doTestReplaceEOL(self.ed.SCFIND_REGEXP | self.ed.SCFIND_REGEXP_EMPTYMATCH_NOTAFTERMATCH)
|
||
self.doTestReplaceEOL(self.ed.SCFIND_REGEXP | self.ed.SCFIND_REGEXP_EMPTYMATCH_ALL)
|
||
|
||
def doTestReplaceEOL(self, flags):
|
||
self.setText(b"ab\ncde\n\nfg")
|
||
position = 0
|
||
position = self.doReplace(b"$", b"A", flags, position)
|
||
self.assertEquals(self.ed.Contents(), b"abA\ncde\n\nfg")
|
||
self.assertEquals(position, 3)
|
||
position = self.doReplace(b"$", b"B", flags, position)
|
||
self.assertEquals(self.ed.Contents(), b"abA\ncdeB\n\nfg")
|
||
self.assertEquals(position, 8)
|
||
position = self.doReplace(b"$", b"C", flags, position)
|
||
self.assertEquals(self.ed.Contents(), b"abA\ncdeB\nC\nfg")
|
||
self.assertEquals(position, 10)
|
||
position = self.doReplace(b"$", b"D", flags, position)
|
||
self.assertEquals(self.ed.Contents(), b"abA\ncdeB\nC\nfgD")
|
||
self.assertEquals(position, 14)
|
||
position = self.doReplace(b"$", b"E", flags, position)
|
||
self.assertEquals(self.ed.Contents(), b"abA\ncdeB\nC\nfgD")
|
||
self.assertEquals(position, -1)
|
||
|
||
def testReplaceUtf8(self):
|
||
self.ed.SetCodePage(self.ed.SC_CP_UTF8)
|
||
self.setText(b"áéíó1234ÁÉÍáé5678Áae")
|
||
self.doReplace(b"([0-9]+)([ÁÉÍ]+)", b"[\\2;\\1]", self.ed.SCFIND_REGEXP | self.ed.SCFIND_MATCHCASE)
|
||
self.assertEquals(self.ed.Contents(), b"áéíó[ÁÉÍ;1234]áé5678Áae")
|
||
|
||
def doReplace(self, whatToFind, replaceBy, flags, startSearchPosition = 0):
|
||
searchResult = self.ed.FindBytes2(startSearchPosition, self.ed.Length, whatToFind, flags)
|
||
if searchResult[0] < 0: return -1
|
||
self.ed.TargetStart = searchResult[1]
|
||
self.ed.TargetEnd = searchResult[2]
|
||
replacementLength = self.ed.ReplaceTargetRE(len(replaceBy), replaceBy)
|
||
return searchResult[1] + replacementLength
|
||
|
||
def setText(self, text):
|
||
self.ed.SetText(len(text), text)
|
||
|
||
class TestSearch(unittest.TestCase):
|
||
|
||
def setUp(self):
|
||
self.xite = XiteWin.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.assertEquals(pos, -1)
|
||
pos = self.ed.FindBytes(0, self.ed.Length, b"big", 0)
|
||
self.assertEquals(pos, 2)
|
||
|
||
def testFindEmpty(self):
|
||
pos = self.ed.FindBytes(0, self.ed.Length, b"", 0)
|
||
self.assertEquals(pos, 0)
|
||
|
||
def testCaseFind(self):
|
||
self.assertEquals(self.ed.FindBytes(0, self.ed.Length, b"big", 0), 2)
|
||
self.assertEquals(self.ed.FindBytes(0, self.ed.Length, b"bIg", 0), 2)
|
||
self.assertEquals(self.ed.FindBytes(0, self.ed.Length, b"bIg",
|
||
self.ed.SCFIND_MATCHCASE), -1)
|
||
|
||
def testWordFind(self):
|
||
self.assertEquals(self.ed.FindBytes(0, self.ed.Length, b"bi", 0), 2)
|
||
self.assertEquals(self.ed.FindBytes(0, self.ed.Length, b"bi",
|
||
self.ed.SCFIND_WHOLEWORD), -1)
|
||
|
||
def testWordStartFind(self):
|
||
self.assertEquals(self.ed.FindBytes(0, self.ed.Length, b"bi", 0), 2)
|
||
self.assertEquals(self.ed.FindBytes(0, self.ed.Length, b"bi",
|
||
self.ed.SCFIND_WORDSTART), 2)
|
||
self.assertEquals(self.ed.FindBytes(0, self.ed.Length, b"ig", 0), 3)
|
||
self.assertEquals(self.ed.FindBytes(0, self.ed.Length, b"ig",
|
||
self.ed.SCFIND_WORDSTART), -1)
|
||
|
||
def testREFind(self):
|
||
flags = self.ed.SCFIND_REGEXP
|
||
self.assertEquals(-1, self.ed.FindBytes(0, self.ed.Length, b"b.g", 0))
|
||
self.assertEquals(2, self.ed.FindBytes(0, self.ed.Length, b"b.g", flags))
|
||
self.assertEquals(2, self.ed.FindBytes(0, self.ed.Length, b"\<b.g\>", flags))
|
||
self.assertEquals(-1, self.ed.FindBytes(0, self.ed.Length, b"b[A-Z]g",
|
||
flags | self.ed.SCFIND_MATCHCASE))
|
||
self.assertEquals(2, self.ed.FindBytes(0, self.ed.Length, b"b[a-z]g", flags))
|
||
self.assertEquals(6, self.ed.FindBytes(0, self.ed.Length, b"b[a-z]*t", flags))
|
||
self.assertEquals(0, self.ed.FindBytes(0, self.ed.Length, b"^a", flags))
|
||
self.assertEquals(10, self.ed.FindBytes(0, self.ed.Length, b"\t$", flags))
|
||
self.assertEquals(0, self.ed.FindBytes(0, self.ed.Length, b"([a]).*\0", flags)) # were \( \) in original regex algorithm.
|
||
|
||
def testPosixREFind(self):
|
||
flags = self.ed.SCFIND_REGEXP | self.ed.SCFIND_POSIX
|
||
self.assertEquals(-1, self.ed.FindBytes(0, self.ed.Length, b"b.g", 0))
|
||
self.assertEquals(2, self.ed.FindBytes(0, self.ed.Length, b"b.g", flags))
|
||
self.assertEquals(2, self.ed.FindBytes(0, self.ed.Length, b"\<b.g\>", flags))
|
||
self.assertEquals(-1, self.ed.FindBytes(0, self.ed.Length, b"b[A-Z]g",
|
||
flags | self.ed.SCFIND_MATCHCASE))
|
||
self.assertEquals(2, self.ed.FindBytes(0, self.ed.Length, b"b[a-z]g", flags))
|
||
self.assertEquals(6, self.ed.FindBytes(0, self.ed.Length, b"b[a-z]*t", flags))
|
||
self.assertEquals(0, self.ed.FindBytes(0, self.ed.Length, b"^a", flags))
|
||
self.assertEquals(10, self.ed.FindBytes(0, self.ed.Length, b"\t$", flags))
|
||
self.assertEquals(0, self.ed.FindBytes(0, self.ed.Length, b"([a]).*\0", flags))
|
||
|
||
def testPhilippeREFind(self):
|
||
# Requires 1.,72
|
||
flags = self.ed.SCFIND_REGEXP
|
||
self.assertEquals(0, self.ed.FindBytes(0, self.ed.Length, b"\w", flags))
|
||
self.assertEquals(1, self.ed.FindBytes(0, self.ed.Length, b"\W", flags))
|
||
self.assertEquals(-1, self.ed.FindBytes(0, self.ed.Length, b"\d", flags))
|
||
self.assertEquals(0, self.ed.FindBytes(0, self.ed.Length, b"\D", flags))
|
||
self.assertEquals(1, self.ed.FindBytes(0, self.ed.Length, b"\s", flags))
|
||
self.assertEquals(0, self.ed.FindBytes(0, self.ed.Length, b"\S", flags))
|
||
self.assertEquals(2, self.ed.FindBytes(0, self.ed.Length, b"\x62", flags))
|
||
|
||
def testRENonASCII(self):
|
||
self.ed.InsertText(0, b"\xAD")
|
||
flags = self.ed.SCFIND_REGEXP
|
||
self.assertEquals(-1, self.ed.FindBytes(0, self.ed.Length, b"\\x10", flags))
|
||
self.assertEquals(2, self.ed.FindBytes(0, self.ed.Length, b"\\x09", flags))
|
||
self.assertEquals(-1, self.ed.FindBytes(0, self.ed.Length, b"\\xAB", flags))
|
||
self.assertEquals(0, self.ed.FindBytes(0, self.ed.Length, b"\\xAD", flags))
|
||
|
||
class TestProperties(unittest.TestCase):
|
||
|
||
def setUp(self):
|
||
self.xite = XiteWin.xiteFrame
|
||
self.ed = self.xite.ed
|
||
self.ed.ClearAll()
|
||
self.ed.EmptyUndoBuffer()
|
||
|
||
def testSet(self):
|
||
self.ed.SetProperty(b"test", b"12")
|
||
self.assertEquals(self.ed.GetPropertyInt(b"test"), 12)
|
||
result = b"\0" * 10
|
||
length = self.ed.GetProperty(b"test", result)
|
||
result = result[:length]
|
||
self.assertEquals(result, b"12")
|
||
self.ed.SetProperty(b"test.plus", b"[$(test)]")
|
||
result = b"\0" * 10
|
||
length = self.ed.GetPropertyExpanded(b"test.plus", result)
|
||
result = result[:length]
|
||
self.assertEquals(result, b"[12]")
|
||
|
||
class TestTextMargin(unittest.TestCase):
|
||
|
||
def setUp(self):
|
||
self.xite = XiteWin.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.ed.ExtraAscent
|
||
self.assertEquals(self.ed.ExtraAscent, 0)
|
||
self.assertEquals(self.ed.ExtraDescent, 0)
|
||
self.ed.ExtraAscent = 1
|
||
self.assertEquals(self.ed.ExtraAscent, 1)
|
||
self.ed.ExtraDescent = 2
|
||
self.assertEquals(self.ed.ExtraDescent, 2)
|
||
# Allow line height to recalculate
|
||
self.xite.DoEvents()
|
||
lineHeightIncreased = self.ed.TextHeight(0)
|
||
self.assertEquals(lineHeightIncreased, lineHeight + 2 + 1)
|
||
|
||
def testTextMargin(self):
|
||
self.ed.MarginSetText(0, self.txt)
|
||
result = b"\0" * 10
|
||
length = self.ed.MarginGetText(0, result)
|
||
result = result[:length]
|
||
self.assertEquals(result, self.txt)
|
||
self.ed.MarginTextClearAll()
|
||
|
||
def testTextMarginStyle(self):
|
||
self.ed.MarginSetText(0, self.txt)
|
||
self.ed.MarginSetStyle(0, 33)
|
||
self.assertEquals(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 = b"\0" * 10
|
||
length = self.ed.MarginGetStyles(0, result)
|
||
result = result[:length]
|
||
self.assertEquals(result, styles)
|
||
self.ed.MarginTextClearAll()
|
||
|
||
def testTextMarginStyleOffset(self):
|
||
self.ed.MarginSetStyleOffset(300)
|
||
self.assertEquals(self.ed.MarginGetStyleOffset(), 300)
|
||
|
||
class TestAnnotation(unittest.TestCase):
|
||
|
||
def setUp(self):
|
||
self.xite = XiteWin.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.assertEquals(self.ed.AnnotationGetLines(), 0)
|
||
self.ed.AnnotationSetText(0, self.txt)
|
||
self.assertEquals(self.ed.AnnotationGetLines(), 1)
|
||
result = b"\0" * 10
|
||
length = self.ed.AnnotationGetText(0, result)
|
||
self.assertEquals(length, 4)
|
||
result = result[:length]
|
||
self.assertEquals(result, self.txt)
|
||
self.ed.AnnotationClearAll()
|
||
|
||
def testTextAnnotationStyle(self):
|
||
self.ed.AnnotationSetText(0, self.txt)
|
||
self.ed.AnnotationSetStyle(0, 33)
|
||
self.assertEquals(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 = b"\0" * 10
|
||
length = self.ed.AnnotationGetStyles(0, result)
|
||
result = result[:length]
|
||
self.assertEquals(result, styles)
|
||
self.ed.AnnotationClearAll()
|
||
|
||
def testTextAnnotationStyleOffset(self):
|
||
self.ed.AnnotationSetStyleOffset(300)
|
||
self.assertEquals(self.ed.AnnotationGetStyleOffset(), 300)
|
||
|
||
def testTextAnnotationVisible(self):
|
||
self.assertEquals(self.ed.AnnotationGetVisible(), 0)
|
||
self.ed.AnnotationSetVisible(2)
|
||
self.assertEquals(self.ed.AnnotationGetVisible(), 2)
|
||
self.ed.AnnotationSetVisible(0)
|
||
|
||
class TestMultiSelection(unittest.TestCase):
|
||
|
||
def setUp(self):
|
||
self.xite = XiteWin.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 testSelectionCleared(self):
|
||
self.ed.ClearSelections()
|
||
self.assertEquals(self.ed.Selections, 1)
|
||
self.assertEquals(self.ed.MainSelection, 0)
|
||
self.assertEquals(self.ed.GetSelectionNCaret(0), 0)
|
||
self.assertEquals(self.ed.GetSelectionNAnchor(0), 0)
|
||
|
||
def test1Selection(self):
|
||
self.ed.SetSelection(1, 2)
|
||
self.assertEquals(self.ed.Selections, 1)
|
||
self.assertEquals(self.ed.MainSelection, 0)
|
||
self.assertEquals(self.ed.GetSelectionNCaret(0), 1)
|
||
self.assertEquals(self.ed.GetSelectionNAnchor(0), 2)
|
||
self.assertEquals(self.ed.GetSelectionNStart(0), 1)
|
||
self.assertEquals(self.ed.GetSelectionNEnd(0), 2)
|
||
self.ed.SwapMainAnchorCaret()
|
||
self.assertEquals(self.ed.Selections, 1)
|
||
self.assertEquals(self.ed.MainSelection, 0)
|
||
self.assertEquals(self.ed.GetSelectionNCaret(0), 2)
|
||
self.assertEquals(self.ed.GetSelectionNAnchor(0), 1)
|
||
|
||
def test1SelectionReversed(self):
|
||
self.ed.SetSelection(2, 1)
|
||
self.assertEquals(self.ed.Selections, 1)
|
||
self.assertEquals(self.ed.MainSelection, 0)
|
||
self.assertEquals(self.ed.GetSelectionNCaret(0), 2)
|
||
self.assertEquals(self.ed.GetSelectionNAnchor(0), 1)
|
||
self.assertEquals(self.ed.GetSelectionNStart(0), 1)
|
||
self.assertEquals(self.ed.GetSelectionNEnd(0), 2)
|
||
|
||
def test1SelectionByStartEnd(self):
|
||
self.ed.SetSelectionNStart(0, 2)
|
||
self.ed.SetSelectionNEnd(0, 3)
|
||
self.assertEquals(self.ed.Selections, 1)
|
||
self.assertEquals(self.ed.MainSelection, 0)
|
||
self.assertEquals(self.ed.GetSelectionNAnchor(0), 2)
|
||
self.assertEquals(self.ed.GetSelectionNCaret(0), 3)
|
||
self.assertEquals(self.ed.GetSelectionNStart(0), 2)
|
||
self.assertEquals(self.ed.GetSelectionNEnd(0), 3)
|
||
|
||
def test2Selections(self):
|
||
self.ed.SetSelection(1, 2)
|
||
self.ed.AddSelection(4, 5)
|
||
self.assertEquals(self.ed.Selections, 2)
|
||
self.assertEquals(self.ed.MainSelection, 1)
|
||
self.assertEquals(self.ed.GetSelectionNCaret(0), 1)
|
||
self.assertEquals(self.ed.GetSelectionNAnchor(0), 2)
|
||
self.assertEquals(self.ed.GetSelectionNCaret(1), 4)
|
||
self.assertEquals(self.ed.GetSelectionNAnchor(1), 5)
|
||
self.assertEquals(self.ed.GetSelectionNStart(0), 1)
|
||
self.assertEquals(self.ed.GetSelectionNEnd(0), 2)
|
||
self.ed.MainSelection = 0
|
||
self.assertEquals(self.ed.MainSelection, 0)
|
||
self.ed.RotateSelection()
|
||
self.assertEquals(self.ed.MainSelection, 1)
|
||
|
||
def testRectangularSelection(self):
|
||
self.ed.RectangularSelectionAnchor = 1
|
||
self.assertEquals(self.ed.RectangularSelectionAnchor, 1)
|
||
self.ed.RectangularSelectionCaret = 10
|
||
self.assertEquals(self.ed.RectangularSelectionCaret, 10)
|
||
self.assertEquals(self.ed.Selections, 3)
|
||
self.assertEquals(self.ed.MainSelection, 2)
|
||
self.assertEquals(self.ed.GetSelectionNAnchor(0), 1)
|
||
self.assertEquals(self.ed.GetSelectionNCaret(0), 2)
|
||
self.assertEquals(self.ed.GetSelectionNAnchor(1), 5)
|
||
self.assertEquals(self.ed.GetSelectionNCaret(1), 6)
|
||
self.assertEquals(self.ed.GetSelectionNAnchor(2), 9)
|
||
self.assertEquals(self.ed.GetSelectionNCaret(2), 10)
|
||
|
||
def testVirtualSpace(self):
|
||
self.ed.SetSelection(3, 7)
|
||
self.ed.SetSelectionNCaretVirtualSpace(0, 3)
|
||
self.assertEquals(self.ed.GetSelectionNCaretVirtualSpace(0), 3)
|
||
self.ed.SetSelectionNAnchorVirtualSpace(0, 2)
|
||
self.assertEquals(self.ed.GetSelectionNAnchorVirtualSpace(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.assertEquals(self.ed.GetSelectionNCaretVirtualSpace(0), 3)
|
||
|
||
def testRectangularVirtualSpace(self):
|
||
self.ed.VirtualSpaceOptions=1
|
||
self.ed.RectangularSelectionAnchor = 3
|
||
self.assertEquals(self.ed.RectangularSelectionAnchor, 3)
|
||
self.ed.RectangularSelectionCaret = 7
|
||
self.assertEquals(self.ed.RectangularSelectionCaret, 7)
|
||
self.ed.RectangularSelectionAnchorVirtualSpace = 1
|
||
self.assertEquals(self.ed.RectangularSelectionAnchorVirtualSpace, 1)
|
||
self.ed.RectangularSelectionCaretVirtualSpace = 10
|
||
self.assertEquals(self.ed.RectangularSelectionCaretVirtualSpace, 10)
|
||
self.assertEquals(self.ed.Selections, 2)
|
||
self.assertEquals(self.ed.MainSelection, 1)
|
||
self.assertEquals(self.ed.GetSelectionNAnchor(0), 3)
|
||
self.assertEquals(self.ed.GetSelectionNAnchorVirtualSpace(0), 1)
|
||
self.assertEquals(self.ed.GetSelectionNCaret(0), 3)
|
||
self.assertEquals(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.assertEquals(self.ed.RectangularSelectionAnchor, 3)
|
||
self.ed.RectangularSelectionCaret = 7
|
||
self.assertEquals(self.ed.RectangularSelectionCaret, 7)
|
||
self.ed.RectangularSelectionAnchorVirtualSpace = 1
|
||
self.assertEquals(self.ed.RectangularSelectionAnchorVirtualSpace, 1)
|
||
self.ed.RectangularSelectionCaretVirtualSpace = 10
|
||
self.assertEquals(self.ed.RectangularSelectionCaretVirtualSpace, 10)
|
||
self.assertEquals(self.ed.Selections, 2)
|
||
self.assertEquals(self.ed.MainSelection, 1)
|
||
self.assertEquals(self.ed.GetSelectionNAnchor(0), 3)
|
||
self.assertEquals(self.ed.GetSelectionNAnchorVirtualSpace(0), 0)
|
||
self.assertEquals(self.ed.GetSelectionNCaret(0), 3)
|
||
self.assertEquals(self.ed.GetSelectionNCaretVirtualSpace(0), 0)
|
||
|
||
class TestCaseMapping(unittest.TestCase):
|
||
def setUp(self):
|
||
self.xite = XiteWin.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.SetText(len(t), t)
|
||
self.ed.UpperCase()
|
||
self.assertEquals(self.ed.Contents(), b"x")
|
||
|
||
def testASCII(self):
|
||
t = b"x"
|
||
self.ed.SetText(len(t), t)
|
||
self.ed.SetSel(0,1)
|
||
self.ed.UpperCase()
|
||
self.assertEquals(self.ed.Contents(), b"X")
|
||
|
||
def testLatin1(self):
|
||
t = "å".encode("Latin-1")
|
||
r = "Å".encode("Latin-1")
|
||
self.ed.SetText(len(t), t)
|
||
self.ed.SetSel(0,1)
|
||
self.ed.UpperCase()
|
||
self.assertEquals(self.ed.Contents(), r)
|
||
|
||
def testRussian(self):
|
||
self.ed.StyleSetCharacterSet(self.ed.STYLE_DEFAULT, self.ed.SC_CHARSET_RUSSIAN)
|
||
t = "Б".encode("Windows-1251")
|
||
r = "б".encode("Windows-1251")
|
||
self.ed.SetText(len(t), t)
|
||
self.ed.SetSel(0,1)
|
||
self.ed.LowerCase()
|
||
self.assertEquals(self.ed.Contents(), r)
|
||
|
||
def testUTF(self):
|
||
self.ed.SetCodePage(65001)
|
||
t = "å".encode("UTF-8")
|
||
r = "Å".encode("UTF-8")
|
||
self.ed.SetText(len(t), t)
|
||
self.ed.SetSel(0,2)
|
||
self.ed.UpperCase()
|
||
self.assertEquals(self.ed.Contents(), r)
|
||
|
||
def testUTFDifferentLength(self):
|
||
self.ed.SetCodePage(65001)
|
||
t = "ı".encode("UTF-8")
|
||
r = "I".encode("UTF-8")
|
||
self.ed.SetText(len(t), t)
|
||
self.assertEquals(self.ed.Length, 2)
|
||
self.ed.SetSel(0,2)
|
||
self.ed.UpperCase()
|
||
self.assertEquals(self.ed.Length, 1)
|
||
self.assertEquals(self.ed.Contents(), r)
|
||
|
||
class TestCaseInsensitiveSearch(unittest.TestCase):
|
||
def setUp(self):
|
||
self.xite = XiteWin.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.SetText(len(text), text)
|
||
self.ed.TargetStart = 0
|
||
self.ed.TargetEnd = self.ed.Length-1
|
||
self.ed.SearchFlags = 0
|
||
pos = self.ed.SearchInTarget(len(searchString), searchString)
|
||
self.assertEquals(0, pos)
|
||
|
||
def testASCII(self):
|
||
text = b" x X"
|
||
searchString = b"X"
|
||
self.ed.SetText(len(text), text)
|
||
self.ed.TargetStart = 0
|
||
self.ed.TargetEnd = self.ed.Length-1
|
||
self.ed.SearchFlags = 0
|
||
pos = self.ed.SearchInTarget(len(searchString), searchString)
|
||
self.assertEquals(1, pos)
|
||
|
||
def testLatin1(self):
|
||
text = "Frånd Åå".encode("Latin-1")
|
||
searchString = "Å".encode("Latin-1")
|
||
self.ed.SetText(len(text), text)
|
||
self.ed.TargetStart = 0
|
||
self.ed.TargetEnd = self.ed.Length-1
|
||
self.ed.SearchFlags = 0
|
||
pos = self.ed.SearchInTarget(len(searchString), searchString)
|
||
self.assertEquals(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.SetText(len(text), text)
|
||
self.ed.TargetStart = 0
|
||
self.ed.TargetEnd = self.ed.Length-1
|
||
self.ed.SearchFlags = 0
|
||
pos = self.ed.SearchInTarget(len(searchString), searchString)
|
||
self.assertEquals(2, pos)
|
||
|
||
def testUTF(self):
|
||
self.ed.SetCodePage(65001)
|
||
text = "Frånd Åå".encode("UTF-8")
|
||
searchString = "Å".encode("UTF-8")
|
||
self.ed.SetText(len(text), text)
|
||
self.ed.TargetStart = 0
|
||
self.ed.TargetEnd = self.ed.Length-1
|
||
self.ed.SearchFlags = 0
|
||
pos = self.ed.SearchInTarget(len(searchString), searchString)
|
||
self.assertEquals(2, pos)
|
||
|
||
def testUTFDifferentLength(self):
|
||
# Searching for a two byte string "ı" finds a single byte "I"
|
||
self.ed.SetCodePage(65001)
|
||
text = "Fråndi Ååİ $".encode("UTF-8")
|
||
firstPosition = len("Frånd".encode("UTF-8"))
|
||
searchString = "İ".encode("UTF-8")
|
||
self.assertEquals(len(searchString), 2)
|
||
self.ed.SetText(len(text), text)
|
||
self.ed.TargetStart = 0
|
||
self.ed.TargetEnd = self.ed.Length-1
|
||
self.ed.SearchFlags = 0
|
||
pos = self.ed.SearchInTarget(len(searchString), searchString)
|
||
self.assertEquals(firstPosition, pos)
|
||
self.assertEquals(firstPosition+1, self.ed.TargetEnd)
|
||
|
||
class TestLexer(unittest.TestCase):
|
||
def setUp(self):
|
||
self.xite = XiteWin.xiteFrame
|
||
self.ed = self.xite.ed
|
||
self.ed.ClearAll()
|
||
self.ed.EmptyUndoBuffer()
|
||
|
||
def testLexerNumber(self):
|
||
self.ed.Lexer = self.ed.SCLEX_CPP
|
||
self.assertEquals(self.ed.GetLexer(), self.ed.SCLEX_CPP)
|
||
|
||
def testLexerName(self):
|
||
self.ed.LexerLanguage = b"cpp"
|
||
self.assertEquals(self.ed.GetLexer(), self.ed.SCLEX_CPP)
|
||
name = b"-" * 100
|
||
length = self.ed.GetLexerLanguage(0, name)
|
||
name = name[:length]
|
||
self.assertEquals(name, b"cpp")
|
||
|
||
class TestAutoComplete(unittest.TestCase):
|
||
|
||
def setUp(self):
|
||
self.xite = XiteWin.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.assertEquals(self.ed.AutoCGetSeparator(), ord(' '))
|
||
self.assertEquals(self.ed.AutoCGetMaxHeight(), 5)
|
||
self.assertEquals(self.ed.AutoCGetMaxWidth(), 0)
|
||
self.assertEquals(self.ed.AutoCGetTypeSeparator(), ord('?'))
|
||
self.assertEquals(self.ed.AutoCGetIgnoreCase(), 0)
|
||
self.assertEquals(self.ed.AutoCGetAutoHide(), 1)
|
||
self.assertEquals(self.ed.AutoCGetDropRestOfWord(), 0)
|
||
|
||
def testChangeDefaults(self):
|
||
self.ed.AutoCSetSeparator(ord('-'))
|
||
self.assertEquals(self.ed.AutoCGetSeparator(), ord('-'))
|
||
self.ed.AutoCSetSeparator(ord(' '))
|
||
|
||
self.ed.AutoCSetMaxHeight(100)
|
||
self.assertEquals(self.ed.AutoCGetMaxHeight(), 100)
|
||
self.ed.AutoCSetMaxHeight(5)
|
||
|
||
self.ed.AutoCSetMaxWidth(100)
|
||
self.assertEquals(self.ed.AutoCGetMaxWidth(), 100)
|
||
self.ed.AutoCSetMaxWidth(0)
|
||
|
||
self.ed.AutoCSetTypeSeparator(ord('@'))
|
||
self.assertEquals(self.ed.AutoCGetTypeSeparator(), ord('@'))
|
||
self.ed.AutoCSetTypeSeparator(ord('?'))
|
||
|
||
self.ed.AutoCSetIgnoreCase(1)
|
||
self.assertEquals(self.ed.AutoCGetIgnoreCase(), 1)
|
||
self.ed.AutoCSetIgnoreCase(0)
|
||
|
||
self.ed.AutoCSetAutoHide(0)
|
||
self.assertEquals(self.ed.AutoCGetAutoHide(), 0)
|
||
self.ed.AutoCSetAutoHide(1)
|
||
|
||
self.ed.AutoCSetDropRestOfWord(1)
|
||
self.assertEquals(self.ed.AutoCGetDropRestOfWord(), 1)
|
||
self.ed.AutoCSetDropRestOfWord(0)
|
||
|
||
def testAutoShow(self):
|
||
self.assertEquals(self.ed.AutoCActive(), 0)
|
||
self.ed.SetSel(0, 0)
|
||
|
||
self.ed.AutoCShow(0, b"za defn ghi")
|
||
self.assertEquals(self.ed.AutoCActive(), 1)
|
||
#~ time.sleep(2)
|
||
self.assertEquals(self.ed.AutoCPosStart(), 0)
|
||
self.assertEquals(self.ed.AutoCGetCurrent(), 0)
|
||
t = b"xxx"
|
||
l = self.ed.AutoCGetCurrentText(5, t)
|
||
#~ self.assertEquals(l, 3)
|
||
self.assertEquals(t, b"za\0")
|
||
self.ed.AutoCCancel()
|
||
self.assertEquals(self.ed.AutoCActive(), 0)
|
||
|
||
def testAutoShowComplete(self):
|
||
self.assertEquals(self.ed.AutoCActive(), 0)
|
||
self.ed.SetSel(0, 0)
|
||
|
||
self.ed.AutoCShow(0, b"za defn ghi")
|
||
self.ed.AutoCComplete()
|
||
self.assertEquals(self.ed.Contents(), b"zaxxx\n")
|
||
|
||
self.assertEquals(self.ed.AutoCActive(), 0)
|
||
|
||
def testAutoShowSelect(self):
|
||
self.assertEquals(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.assertEquals(self.ed.Contents(), b"defnxxx\n")
|
||
|
||
self.assertEquals(self.ed.AutoCActive(), 0)
|
||
|
||
class TestDirectAccess(unittest.TestCase):
|
||
|
||
def setUp(self):
|
||
self.xite = XiteWin.xiteFrame
|
||
self.ed = self.xite.ed
|
||
self.ed.ClearAll()
|
||
self.ed.EmptyUndoBuffer()
|
||
|
||
# def testGapPosition(self):
|
||
# text = b"abcd"
|
||
# self.ed.SetText(len(text), text)
|
||
# self.assertEquals(self.ed.GapPosition, 4)
|
||
# self.ed.TargetStart = 1
|
||
# self.ed.TargetEnd = 1
|
||
# rep = b"-"
|
||
# self.ed.ReplaceTarget(len(rep), rep)
|
||
# self.assertEquals(self.ed.GapPosition, 2)
|
||
|
||
def testCharacterPointerAndRangePointer(self):
|
||
text = b"abcd"
|
||
self.ed.SetText(len(text), text)
|
||
characterPointer = self.ed.CharacterPointer
|
||
# rangePointer = self.ed.GetRangePointer(0,3)
|
||
# self.assertEquals(characterPointer, rangePointer)
|
||
cpBuffer = ctypes.c_char_p(characterPointer)
|
||
self.assertEquals(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.assertEquals(cpBuffer.value, text[1:])
|
||
|
||
class TestWordChars(unittest.TestCase):
|
||
def setUp(self):
|
||
self.xite = XiteWin.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
|
||
# import string
|
||
# dataLen = self.ed.GetWordChars(None, None)
|
||
# data = b"\0" * dataLen
|
||
# self.ed.GetWordChars(None, data)
|
||
# self.assertEquals(dataLen, len(data))
|
||
# 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
|
||
# import string
|
||
# dataLen = self.ed.GetWhitespaceChars(None, None)
|
||
# data = b"\0" * dataLen
|
||
# self.ed.GetWhitespaceChars(None, data)
|
||
# self.assertEquals(dataLen, len(data))
|
||
# expected = (set(chr(x) for x in (range(0, 0x20))) | set(' ')) - \
|
||
# set(['\r', '\n'])
|
||
# self.assertCharSetsEqual(data, expected)
|
||
|
||
# def testDefaultPunctuationChars(self):
|
||
# # check that the default punctuation chars are as expected
|
||
# import string
|
||
# dataLen = self.ed.GetPunctuationChars(None, None)
|
||
# data = b"\0" * dataLen
|
||
# self.ed.GetPunctuationChars(None, data)
|
||
# self.assertEquals(dataLen, len(data))
|
||
# expected = set(chr(x) for x in range(0x20, 0x80)) - \
|
||
# set(string.ascii_letters + string.digits + "\r\n_ ")
|
||
# self.assertCharSetsEqual(data, expected)
|
||
|
||
# def testCustomWordChars(self):
|
||
# # check that setting things to whitespace chars makes them not words
|
||
# self._setChars("whitespace", range(1, 0x100))
|
||
# dataLen = self.ed.GetWordChars(None, None)
|
||
# data = b"\0" * dataLen
|
||
# self.ed.GetWordChars(None, data)
|
||
# self.assertEquals(dataLen, len(data))
|
||
# 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)
|
||
# dataLen = self.ed.GetWordChars(None, None)
|
||
# data = b"\0" * dataLen
|
||
# self.ed.GetWordChars(None, data)
|
||
# self.assertEquals(dataLen, len(data))
|
||
# 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])
|
||
# dataLen = self.ed.GetWhitespaceChars(None, None)
|
||
# data = b"\0" * dataLen
|
||
# self.ed.GetWhitespaceChars(None, data)
|
||
# self.assertEquals(dataLen, len(data))
|
||
# self.assertCharSetsEqual(data, expected)
|
||
# # now try to set it to something custom
|
||
# expected = set(range(1, 0x100, 2)) | set([0])
|
||
# self._setChars("whitespace", expected)
|
||
# dataLen = self.ed.GetWhitespaceChars(None, None)
|
||
# data = b"\0" * dataLen
|
||
# self.ed.GetWhitespaceChars(None, data)
|
||
# self.assertEquals(dataLen, len(data))
|
||
# self.assertCharSetsEqual(data, expected)
|
||
|
||
# def testCustomPunctuationChars(self):
|
||
# # check setting punctuation chars to non-default values
|
||
# self._setChars("word", range(1, 0x100))
|
||
# expected = set()
|
||
# dataLen = self.ed.GetPunctuationChars(None, None)
|
||
# data = b"\0" * dataLen
|
||
# self.ed.GetPunctuationChars(None, data)
|
||
# self.assertEquals(dataLen, len(data))
|
||
# self.assertEquals(set(data), expected)
|
||
# # now try to set it to something custom
|
||
# expected = set(range(1, 0x100, 1))
|
||
# self._setChars("punctuation", expected)
|
||
# dataLen = self.ed.GetPunctuationChars(None, None)
|
||
# data = b"\0" * dataLen
|
||
# self.ed.GetPunctuationChars(None, data)
|
||
# self.assertEquals(dataLen, len(data))
|
||
# self.assertCharSetsEqual(data, expected)
|
||
|
||
#~ import os
|
||
#~ for x in os.getenv("PATH").split(";"):
|
||
#~ n = "scilexer.dll"
|
||
#~ nf = x + "\\" + n
|
||
#~ print os.access(nf, os.R_OK), nf
|
||
if __name__ == '__main__':
|
||
uu = XiteWin.main("simpleTests")
|
||
#~ for x in sorted(uu.keys()):
|
||
#~ print(x, uu[x])
|
||
#~ print()
|