private void ParseText(Row Row, Segment CurrentSegment, string Text) { int CurrentPosition = 0; bool HasComplex = true; while (true) { ScanResult_Word Word = GetNextWord(Text, CurrentSegment, CurrentPosition, ref HasComplex); if (!Word.HasContent) { ParseTools.AddString(Text.Substring(CurrentPosition), Row, CurrentSegment.BlockType.Style, CurrentSegment); break; } else { ParseTools.AddString(Text.Substring(CurrentPosition, Word.Position - CurrentPosition), Row, CurrentSegment.BlockType.Style, CurrentSegment); ParseTools.AddPatternString(Word.Token, Row, Word.Pattern, Word.ParentList.Style, CurrentSegment, false); CurrentPosition = Word.Position + Word.Token.Length; } } }
private ScanResult_Word GetNextComplexWord(String Text, Segment CurrentSegment, int StartPositon) { if (StartPositon >= Text.Length) { return(new ScanResult_Word()); } ScanResult_Word Result = new ScanResult_Word(); int CurrentPosition = 0; //look for keywords PatternListList keywordsList = CurrentSegment.BlockType.KeywordsList; PatternList List = null; for (int i = 0; i < keywordsList.Count; i++) { List = keywordsList[i]; PatternCollection complexPatterns = List.ComplexPatterns; Pattern Word = null; for (int j = 0; j < complexPatterns.Count; j++) { Word = complexPatterns[j]; PatternScanResult psr = Word.IndexIn(Text, StartPositon, false, Separators); CurrentPosition = psr.Index; if ((CurrentPosition < Result.Position || Result.HasContent == false) && psr.Token != "") { Result.HasContent = true; Result.Position = CurrentPosition; Result.Token = psr.Token; Result.Pattern = Word; Result.ParentList = List; if (List.NormalizeCase) { if (!Word.IsComplex) { Result.Token = Word.StringPattern; } } } } } //look for operators PatternListList pattList = CurrentSegment.BlockType.OperatorsList; PatternList patternList = null; for (int i = 0; i < pattList.Count; i++) { patternList = pattList[i]; PatternCollection complexPatterns = patternList.ComplexPatterns; for (int j = 0; j < complexPatterns.Count; j++) { Pattern Word = complexPatterns[j]; PatternScanResult psr = Word.IndexIn(Text, StartPositon, false, Separators); CurrentPosition = psr.Index; if ((CurrentPosition < Result.Position || Result.HasContent == false) && psr.Token != "") { Result.HasContent = true; Result.Position = CurrentPosition; Result.Token = psr.Token; Result.Pattern = Word; Result.ParentList = patternList; if (patternList.NormalizeCase) { if (!Word.IsComplex) { Result.Token = Word.StringPattern; } } } } } if (Result.HasContent) { return(Result); } else { return(new ScanResult_Word()); } }
private ScanResult_Word GetNextComplexWord(String Text, Segment CurrentSegment, int StartPositon) { if (StartPositon >= Text.Length) return new ScanResult_Word(); ScanResult_Word Result = new ScanResult_Word(); int CurrentPosition = 0; //look for keywords PatternListList keywordsList = CurrentSegment.BlockType.KeywordsList; PatternList List = null; for (int i = 0; i < keywordsList.Count; i++) { List = keywordsList[i]; PatternCollection complexPatterns = List.ComplexPatterns; Pattern Word = null; for (int j = 0; j < complexPatterns.Count; j++) { Word = complexPatterns[j]; PatternScanResult psr = Word.IndexIn(Text, StartPositon, false, Separators); CurrentPosition = psr.Index; if ((CurrentPosition < Result.Position || Result.HasContent == false) && psr.Token != "") { Result.HasContent = true; Result.Position = CurrentPosition; Result.Token = psr.Token; Result.Pattern = Word; Result.ParentList = List; if (List.NormalizeCase) if (!Word.IsComplex) Result.Token = Word.StringPattern; } } } //look for operators PatternListList pattList = CurrentSegment.BlockType.OperatorsList; PatternList patternList = null; for (int i = 0; i < pattList.Count; i++) { patternList = pattList[i]; PatternCollection complexPatterns = patternList.ComplexPatterns; for (int j = 0; j < complexPatterns.Count; j++) { Pattern Word = complexPatterns[j]; PatternScanResult psr = Word.IndexIn(Text, StartPositon, false, Separators); CurrentPosition = psr.Index; if ((CurrentPosition < Result.Position || Result.HasContent == false) && psr.Token != "") { Result.HasContent = true; Result.Position = CurrentPosition; Result.Token = psr.Token; Result.Pattern = Word; Result.ParentList = patternList; if (patternList.NormalizeCase) if (!Word.IsComplex) Result.Token = Word.StringPattern; } } } if (Result.HasContent) return Result; else return new ScanResult_Word(); }
private ScanResult_Word GetNextWord(string Text, Segment CurrentSegment, int StartPos, ref bool HasComplex) { BlockType block = CurrentSegment.BlockType; #region ComplexFind int BestComplexPos = -1; Pattern BestComplexPattern = null; string BestComplexToken = ""; ScanResult_Word complexword = new ScanResult_Word(); if (HasComplex) { foreach (Pattern pattern in block.ComplexPatterns) { PatternScanResult scanres = pattern.IndexIn(Text, StartPos, pattern.Parent.CaseSensitive, this.Separators); if (scanres.Token != "") { if (scanres.Index < BestComplexPos || BestComplexPos == -1) { BestComplexPos = scanres.Index; BestComplexPattern = pattern; BestComplexToken = scanres.Token; } } } if (BestComplexPattern != null) { complexword.HasContent = true; complexword.ParentList = BestComplexPattern.Parent; complexword.Pattern = BestComplexPattern; complexword.Position = BestComplexPos; complexword.Token = BestComplexToken; HasComplex = true; } else { HasComplex = false; } } #endregion #region SimpleFind ScanResult_Word simpleword = new ScanResult_Word(); for (int i = StartPos; i < Text.Length; i++) { //bailout if we found a complex pattern before this char pos if (i > complexword.Position && complexword.HasContent) { break; } #region 3+ char pattern if (i <= Text.Length - 3) { string key = Text.Substring(i, 3).ToLower(); PatternCollection patterns2 = (PatternCollection)block.LookupTable[key]; //ok , there are patterns that start with this char if (patterns2 != null) { foreach (Pattern pattern in patterns2) { int len = pattern.StringPattern.Length; if (i + len > Text.Length) { continue; } char lastpatternchar = char.ToLower(pattern.StringPattern[len - 1]); char lasttextchar = char.ToLower(Text[i + len - 1]); #region Case Insensitive if (lastpatternchar == lasttextchar) { if (!pattern.IsKeyword || (pattern.IsKeyword && pattern.HasSeparators(Text, i))) { if (!pattern.Parent.CaseSensitive) { string s = Text.Substring(i, len).ToLower(); if (s == pattern.StringPattern.ToLower()) { simpleword.HasContent = true; simpleword.ParentList = pattern.Parent; simpleword.Pattern = pattern; simpleword.Position = i; if (pattern.Parent.NormalizeCase) { simpleword.Token = pattern.StringPattern; } else { simpleword.Token = Text.Substring(i, len); } break; } } else { string s = Text.Substring(i, len); if (s == pattern.StringPattern) { simpleword.HasContent = true; simpleword.ParentList = pattern.Parent; simpleword.Pattern = pattern; simpleword.Position = i; simpleword.Token = pattern.StringPattern; break; } } } } } #endregion } } #endregion if (simpleword.HasContent) { break; } #region single char pattern char c = Text[i]; PatternCollection patterns = (PatternCollection)block.LookupTable[c]; if (patterns != null) { //ok , there are patterns that start with this char foreach (Pattern pattern in patterns) { int len = pattern.StringPattern.Length; if (i + len > Text.Length) { continue; } char lastpatternchar = pattern.StringPattern[len - 1]; char lasttextchar = Text[i + len - 1]; if (!pattern.Parent.CaseSensitive) { #region Case Insensitive if (char.ToLower(lastpatternchar) == char.ToLower(lasttextchar)) { if (!pattern.IsKeyword || (pattern.IsKeyword && pattern.HasSeparators(Text, i))) { string s = Text.Substring(i, len).ToLower(); if (s == pattern.StringPattern.ToLower()) { simpleword.HasContent = true; simpleword.ParentList = pattern.Parent; simpleword.Pattern = pattern; simpleword.Position = i; simpleword.Token = Text.Substring(i, len); break; } } } #endregion } else { #region Case Sensitive if (lastpatternchar == lasttextchar) { if (!pattern.IsKeyword || (pattern.IsKeyword && pattern.HasSeparators(Text, i))) { string s = Text.Substring(i, len); if (s == pattern.StringPattern) { simpleword.HasContent = true; simpleword.ParentList = pattern.Parent; simpleword.Pattern = pattern; simpleword.Position = i; simpleword.Token = pattern.StringPattern; break; } } } #endregion } } if (simpleword.HasContent) { break; } } #endregion } #endregion if (complexword.HasContent && simpleword.HasContent) { if (simpleword.Position == complexword.Position) { if (simpleword.Token.Length > complexword.Token.Length) { return(simpleword); } else { return(complexword); } } if (simpleword.Position < complexword.Position) { return(simpleword); } if (simpleword.Position > complexword.Position) { return(complexword); } } if (simpleword.HasContent) { return(simpleword); } if (complexword.HasContent) { return(complexword); } return(new ScanResult_Word()); }
private ScanResult_Word GetNextWord(string Text, Segment CurrentSegment, int StartPos, ref bool HasComplex) { BlockType block = CurrentSegment.BlockType; #region ComplexFind int BestComplexPos = -1; Pattern BestComplexPattern = null; string BestComplexToken = ""; ScanResult_Word complexword = new ScanResult_Word(); if (HasComplex) { foreach (Pattern pattern in block.ComplexPatterns) { PatternScanResult scanres = pattern.IndexIn(Text, StartPos, pattern.Parent.CaseSensitive, this.Separators); if (scanres.Token != "") { if (scanres.Index < BestComplexPos || BestComplexPos == -1) { BestComplexPos = scanres.Index; BestComplexPattern = pattern; BestComplexToken = scanres.Token; } } } if (BestComplexPattern != null) { complexword.HasContent = true; complexword.ParentList = BestComplexPattern.Parent; complexword.Pattern = BestComplexPattern; complexword.Position = BestComplexPos; complexword.Token = BestComplexToken; HasComplex = true; } else { HasComplex = false; } } #endregion #region SimpleFind ScanResult_Word simpleword = new ScanResult_Word(); for (int i = StartPos; i < Text.Length; i++) { //bailout if we found a complex pattern before this char pos if (i > complexword.Position && complexword.HasContent) break; #region 3+ char pattern if (i <= Text.Length - 3) { string key = Text.Substring(i, 3).ToLower(); PatternCollection patterns2 = (PatternCollection)block.LookupTable[key]; //ok , there are patterns that start with this char if (patterns2 != null) { foreach (Pattern pattern in patterns2) { int len = pattern.StringPattern.Length; if (i + len > Text.Length) continue; char lastpatternchar = char.ToLower(pattern.StringPattern[len - 1]); char lasttextchar = char.ToLower(Text[i + len - 1]); #region Case Insensitive if (lastpatternchar == lasttextchar) { if (!pattern.IsKeyword || (pattern.IsKeyword && pattern.HasSeparators(Text, i))) { if (!pattern.Parent.CaseSensitive) { string s = Text.Substring(i, len).ToLower(); if (s == pattern.StringPattern.ToLower()) { simpleword.HasContent = true; simpleword.ParentList = pattern.Parent; simpleword.Pattern = pattern; simpleword.Position = i; if (pattern.Parent.NormalizeCase) simpleword.Token = pattern.StringPattern; else simpleword.Token = Text.Substring(i, len); break; } } else { string s = Text.Substring(i, len); if (s == pattern.StringPattern) { simpleword.HasContent = true; simpleword.ParentList = pattern.Parent; simpleword.Pattern = pattern; simpleword.Position = i; simpleword.Token = pattern.StringPattern; break; } } } } } #endregion } } #endregion if (simpleword.HasContent) break; #region single char pattern char c = Text[i]; PatternCollection patterns = (PatternCollection)block.LookupTable[c]; if (patterns != null) { //ok , there are patterns that start with this char foreach (Pattern pattern in patterns) { int len = pattern.StringPattern.Length; if (i + len > Text.Length) continue; char lastpatternchar = pattern.StringPattern[len - 1]; char lasttextchar = Text[i + len - 1]; if (!pattern.Parent.CaseSensitive) { #region Case Insensitive if (char.ToLower(lastpatternchar) == char.ToLower(lasttextchar)) { if (!pattern.IsKeyword || (pattern.IsKeyword && pattern.HasSeparators(Text, i))) { string s = Text.Substring(i, len).ToLower(); if (s == pattern.StringPattern.ToLower()) { simpleword.HasContent = true; simpleword.ParentList = pattern.Parent; simpleword.Pattern = pattern; simpleword.Position = i; simpleword.Token = Text.Substring(i, len); break; } } } #endregion } else { #region Case Sensitive if (lastpatternchar == lasttextchar) { if (!pattern.IsKeyword || (pattern.IsKeyword && pattern.HasSeparators(Text, i))) { string s = Text.Substring(i, len); if (s == pattern.StringPattern) { simpleword.HasContent = true; simpleword.ParentList = pattern.Parent; simpleword.Pattern = pattern; simpleword.Position = i; simpleword.Token = pattern.StringPattern; break; } } } #endregion } } if (simpleword.HasContent) break; } #endregion } #endregion if (complexword.HasContent && simpleword.HasContent) { if (simpleword.Position == complexword.Position) { if (simpleword.Token.Length > complexword.Token.Length) return simpleword; else return complexword; } if (simpleword.Position < complexword.Position) return simpleword; if (simpleword.Position > complexword.Position) return complexword; } if (simpleword.HasContent) return simpleword; if (complexword.HasContent) return complexword; return new ScanResult_Word(); }