public void InitializeItems(ParserInitializeArgs args) { foreach (var item in Items) { if (item != null) item.Initialize(args); } }
public override void Initialize(ParserInitializeArgs args) { base.Initialize(args); if (Inner != null && args.Push(this)) { Inner.Initialize(args); args.Pop(); } }
public override void Initialize(ParserInitializeArgs args) { base.Initialize(args); if (Except != null && args.Push(this)) { Except.Initialize(args); args.Pop(); } }
public override void Initialize(ParserInitializeArgs args) { base.Initialize(args); if (args.Push(this)) { if (ValueType != null) parseMethod = ValueType.GetMethod("Parse", BindingFlags.Static | BindingFlags.Public, null, new Type[] { typeof(string), typeof(NumberStyles) }, null); args.Pop(); } }
public override void Initialize(ParserInitializeArgs args) { base.Initialize(args); if (args.Push(this)) { skipMatches = this.Children().Any(r => r.Name != null); args.Pop(); } }
public override void Initialize(ParserInitializeArgs args) { base.Initialize(args); if (args.Push(this)) { if (Separator != null) Separator.Initialize(args); if (Until != null) Until.Initialize(args); separator = Separator ?? args.Grammar.Separator; skipUntilMatches = (Until != null && (Until.Name != null || Until.Children().Any(r => r.Name != null))); args.Pop(); } }
public override void Initialize(ParserInitializeArgs args) { base.Initialize(args); caseSensitive = CaseSensitive ?? args.Grammar.CaseSensitive; }
public override void Initialize(ParserInitializeArgs args) { base.Initialize(args); if (args.Push(this)) { if (line != null) line.Initialize(args); if (start != null) start.Initialize(args); if (end != null) end.Initialize(args); args.Pop(); } }
public override void Initialize(ParserInitializeArgs args) { base.Initialize(args); separator = Separator ?? args.Grammar.Separator; if (Items.Count == 0) throw new InvalidOperationException("There are no items in this sequence"); if (args.Push(this)) { var leftItem = Items[0]; if (leftItem != null) { foreach (var parent in args.RecursionFixes) { if (leftItem.IsLeftRecursive(parent)) { Items[0] = new EmptyParser(); break; } } } foreach (var item in Items.Where(r => r != null)) { item.Initialize(args); } if (Separator != null) Separator.Initialize(args); args.Pop(); } }
public override void Initialize(ParserInitializeArgs args) { base.Initialize(args); if (args.Push(this)) { var first = new List<Parser>(); var second = new List<Parser>(); foreach (var item in Items) { if (item != null && item.IsLeftRecursive(new ParserContainsArgs(this))) { second.Add(item); args.RecursionFixes.Add(this); item.Initialize(args); args.RecursionFixes.Remove(this); } else { first.Add(item); if (item != null) item.Initialize(args); } } if (second.Count > 0) { Items.Clear(); var secondParser = second.Count > 1 ? new AlternativeParser(second) : second[0]; if (first.Count > 0) { var firstParser = first.Count > 1 ? new AlternativeParser(first) : first[0]; if (first.Count == 1 && first[0] == null) { Items.Add(-secondParser); } else Items.Add(new SequenceParser(firstParser, -secondParser)); } else Items.Add(+secondParser); } args.Pop(); } }