internal void AddChild(RegexNode newChild) { RegexNode reducedChild; if (_children == null) { _children = new List <RegexNode>(4); } reducedChild = newChild.Reduce(); _children.Add(reducedChild); reducedChild._next = this; }
internal RegexTree(RegexNode root, Dictionary <Int32, Int32> caps, Int32[] capnumlist, int captop, Dictionary <String, Int32> capnames, String[] capslist, RegexOptions opts)
internal RegexReplacement(String rep, RegexNode concat, Hashtable _caps) { #endif StringBuilder sb; List <String> strings; List <Int32> rules; int slot; _rep = rep; if (concat.Type() != RegexNode.Concatenate) { throw new ArgumentException(SR.GetString(SR.ReplacementError)); } sb = new StringBuilder(); strings = new List <String>(); rules = new List <Int32>(); for (int i = 0; i < concat.ChildCount(); i++) { RegexNode child = concat.Child(i); switch (child.Type()) { case RegexNode.Multi: sb.Append(child._str); break; case RegexNode.One: sb.Append(child._ch); break; case RegexNode.Ref: if (sb.Length > 0) { rules.Add(strings.Count); strings.Add(sb.ToString()); sb.Length = 0; } slot = child._m; if (_caps != null && slot >= 0) { slot = (int)_caps[slot]; } rules.Add(-Specials - 1 - slot); break; default: throw new ArgumentException(SR.GetString(SR.ReplacementError)); } } if (sb.Length > 0) { rules.Add(strings.Count); strings.Add(sb.ToString()); } _strings = strings; _rules = rules; }
/* * Since RegexReplacement shares the same parser as Regex, * the constructor takes a RegexNode which is a concatenation * of constant strings and backreferences. */ #if SILVERLIGHT internal RegexReplacement(String rep, RegexNode concat, Dictionary <Int32, Int32> _caps) {
/* * This is a related computation: it takes a RegexTree and computes the * leading substring if it see one. It's quite trivial and gives up easily. */ internal static RegexPrefix Prefix(RegexTree tree) { RegexNode curNode; RegexNode concatNode = null; int nextChild = 0; curNode = tree._root; for (;;) { switch (curNode._type) { case RegexNode.Concatenate: if (curNode.ChildCount() > 0) { concatNode = curNode; nextChild = 0; } break; case RegexNode.Greedy: case RegexNode.Capture: curNode = curNode.Child(0); concatNode = null; continue; case RegexNode.Oneloop: case RegexNode.Onelazy: if (curNode._m > 0) { string pref = String.Empty.PadRight(curNode._m, curNode._ch); return(new RegexPrefix(pref, 0 != (curNode._options & RegexOptions.IgnoreCase))); } else { return(RegexPrefix.Empty); } case RegexNode.One: return(new RegexPrefix(curNode._ch.ToString(CultureInfo.InvariantCulture), 0 != (curNode._options & RegexOptions.IgnoreCase))); case RegexNode.Multi: return(new RegexPrefix(curNode._str, 0 != (curNode._options & RegexOptions.IgnoreCase))); case RegexNode.Bol: case RegexNode.Eol: case RegexNode.Boundary: case RegexNode.ECMABoundary: case RegexNode.Beginning: case RegexNode.Start: case RegexNode.EndZ: case RegexNode.End: case RegexNode.Empty: case RegexNode.Require: case RegexNode.Prevent: break; default: return(RegexPrefix.Empty); } if (concatNode == null || nextChild >= concatNode.ChildCount()) { return(RegexPrefix.Empty); } curNode = concatNode.Child(nextChild++); } }
/* * FC computation and shortcut cases for each node type */ private void CalculateFC(int NodeType, RegexNode node, int CurIndex) { bool ci = false; bool rtl = false; if (NodeType <= RegexNode.Ref) { if ((node._options & RegexOptions.IgnoreCase) != 0) { ci = true; } if ((node._options & RegexOptions.RightToLeft) != 0) { rtl = true; } } switch (NodeType) { case RegexNode.Concatenate | BeforeChild: case RegexNode.Alternate | BeforeChild: case RegexNode.Testref | BeforeChild: case RegexNode.Loop | BeforeChild: case RegexNode.Lazyloop | BeforeChild: break; case RegexNode.Testgroup | BeforeChild: if (CurIndex == 0) { SkipChild(); } break; case RegexNode.Empty: PushFC(new RegexFC(true)); break; case RegexNode.Concatenate | AfterChild: if (CurIndex != 0) { RegexFC child = PopFC(); RegexFC cumul = TopFC(); _failed = !cumul.AddFC(child, true); } if (!TopFC()._nullable) { _skipAllChildren = true; } break; case RegexNode.Testgroup | AfterChild: if (CurIndex > 1) { RegexFC child = PopFC(); RegexFC cumul = TopFC(); _failed = !cumul.AddFC(child, false); } break; case RegexNode.Alternate | AfterChild: case RegexNode.Testref | AfterChild: if (CurIndex != 0) { RegexFC child = PopFC(); RegexFC cumul = TopFC(); _failed = !cumul.AddFC(child, false); } break; case RegexNode.Loop | AfterChild: case RegexNode.Lazyloop | AfterChild: if (node._m == 0) { TopFC()._nullable = true; } break; case RegexNode.Group | BeforeChild: case RegexNode.Group | AfterChild: case RegexNode.Capture | BeforeChild: case RegexNode.Capture | AfterChild: case RegexNode.Greedy | BeforeChild: case RegexNode.Greedy | AfterChild: break; case RegexNode.Require | BeforeChild: case RegexNode.Prevent | BeforeChild: SkipChild(); PushFC(new RegexFC(true)); break; case RegexNode.Require | AfterChild: case RegexNode.Prevent | AfterChild: break; case RegexNode.One: case RegexNode.Notone: PushFC(new RegexFC(node._ch, NodeType == RegexNode.Notone, false, ci)); break; case RegexNode.Oneloop: case RegexNode.Onelazy: PushFC(new RegexFC(node._ch, false, node._m == 0, ci)); break; case RegexNode.Notoneloop: case RegexNode.Notonelazy: PushFC(new RegexFC(node._ch, true, node._m == 0, ci)); break; case RegexNode.Multi: if (node._str.Length == 0) { PushFC(new RegexFC(true)); } else if (!rtl) { PushFC(new RegexFC(node._str[0], false, false, ci)); } else { PushFC(new RegexFC(node._str[node._str.Length - 1], false, false, ci)); } break; case RegexNode.Set: PushFC(new RegexFC(node._str, false, ci)); break; case RegexNode.Setloop: case RegexNode.Setlazy: PushFC(new RegexFC(node._str, node._m == 0, ci)); break; case RegexNode.Ref: PushFC(new RegexFC(RegexCharClass.AnyClass, true, false)); break; case RegexNode.Nothing: case RegexNode.Bol: case RegexNode.Eol: case RegexNode.Boundary: case RegexNode.Nonboundary: case RegexNode.ECMABoundary: case RegexNode.NonECMABoundary: case RegexNode.Beginning: case RegexNode.Start: case RegexNode.EndZ: case RegexNode.End: PushFC(new RegexFC(true)); break; default: throw new ArgumentException(SR.GetString(SR.UnexpectedOpcode, NodeType.ToString(CultureInfo.CurrentCulture))); } }