#line 1 "cs.ATG" using System.Drawing; using System.Collections; using System.Collections.Generic; using System.Collections.Specialized; using System.Text; using ICSharpCode.NRefactory.Parser; using ICSharpCode.NRefactory.Parser.AST; using ASTAttribute = ICSharpCode.NRefactory.Parser.AST.Attribute; /* Parser.frame file for NRefactory. */ using System; using System.Reflection; namespace ICSharpCode.NRefactory.Parser.CSharp { internal class Parser : AbstractParser { const int maxT = 124; const bool T = true; const bool x = false; #line 13 "cs.ATG" string assemblyName = null; StringBuilder qualidentBuilder = new StringBuilder(); public string ContainingAssembly { set { assemblyName = value; } } Token t { get { return lexer.Token; } } Token la { get { return lexer.LookAhead; } } public void Error(string s) { if (errDist >= minErrDist) { errors.Error(la.line, la.col, s); } errDist = 0; } public override Expression ParseExpression() { Expression expr; Expr(out expr); return expr; } // Begin ISTypeCast bool IsTypeCast() { if (la.kind != Tokens.OpenParenthesis) { return false; } if (IsSimpleTypeCast()) { return true; } return GuessTypeCast(); } // "(" ( typeKW [ "[" {","} "]" | "*" ] | void ( "[" {","} "]" | "*" ) ) ")" bool IsSimpleTypeCast () { // assert: la.kind == _lpar lexer.StartPeek(); Token pt1 = lexer.Peek(); Token pt = lexer.Peek(); if (Tokens.TypeKW[pt1.kind]) { if (pt.kind == Tokens.Times || pt.kind == Tokens.OpenSquareBracket) { return IsPointerOrDims(ref pt) && pt.kind == Tokens.CloseParenthesis; } else { return pt.kind == Tokens.CloseParenthesis; } } else if (pt1.kind == Tokens.Void) { return IsPointerOrDims(ref pt) && pt.kind == Tokens.CloseParenthesis; } return false; } // "(" NonGenericTypeName ")" castFollower // NonGenericTypeName = ident [ "::" ident ] { "." ident } bool GuessTypeCast () { // assert: la.kind == _lpar StartPeek(); Token pt = Peek(); // ident if (pt.kind != Tokens.Identifier) { return false; } pt = Peek(); // "::" ident if (pt.kind == Tokens.DoubleColon) { pt = Peek(); if (pt.kind != Tokens.Identifier) { return false; } pt = Peek(); } // { "." ident } while (pt.kind == Tokens.Dot) { pt = Peek(); if (pt.kind != Tokens.Identifier) { return false; } pt = Peek(); } // ")" if (pt.kind != Tokens.CloseParenthesis) { return false; } // check successor pt = Peek(); return Tokens.CastFollower[pt.kind] || (Tokens.TypeKW[pt.kind] && lexer.Peek().kind == Tokens.Dot); } // END IsTypeCast /* Checks whether the next sequences of tokens is a qualident * * and returns the qualident string */ /* !!! Proceeds from current peek position !!! */ bool IsQualident(ref Token pt, out string qualident) { if (pt.kind == Tokens.Identifier) { qualidentBuilder.Length = 0; qualidentBuilder.Append(pt.val); pt = Peek(); while (pt.kind == Tokens.Dot || pt.kind == Tokens.DoubleColon) { pt = Peek(); if (pt.kind != Tokens.Identifier) { qualident = String.Empty; return false; } qualidentBuilder.Append('.'); qualidentBuilder.Append(pt.val); pt = Peek(); } qualident = qualidentBuilder.ToString(); return true; } qualident = String.Empty; return false; } /* Skips generic type extensions */ /* !!! Proceeds from current peek position !!! */ /* skip: { "*" | "[" { "," } "]" } */ /* !!! Proceeds from current peek position !!! */ bool IsPointerOrDims (ref Token pt) { for (;;) { if (pt.kind == Tokens.OpenSquareBracket) { do pt = Peek(); while (pt.kind == Tokens.Comma); if (pt.kind != Tokens.CloseSquareBracket) return false; } else if (pt.kind != Tokens.Times) break; pt = Peek(); } return true; } /* Return the n-th token after the current lookahead token */ void StartPeek() { lexer.StartPeek(); } Token Peek() { return lexer.Peek(); } Token Peek (int n) { lexer.StartPeek(); Token x = la; while (n > 0) { x = lexer.Peek(); n--; } return x; } /*-----------------------------------------------------------------* * Resolver routines to resolve LL(1) conflicts: * * * These resolution routine return a boolean value that indicates * * whether the alternative at hand shall be choosen or not. * * They are used in IF ( ... ) expressions. * *-----------------------------------------------------------------*/ /* True, if ident is followed by "=" */ bool IdentAndAsgn () { return la.kind == Tokens.Identifier && Peek(1).kind == Tokens.Assign; } bool IsAssignment () { return IdentAndAsgn(); } /* True, if ident is followed by ",", "=", or ";" */ bool IdentAndCommaOrAsgnOrSColon () { int peek = Peek(1).kind; return la.kind == Tokens.Identifier && (peek == Tokens.Comma || peek == Tokens.Assign || peek == Tokens.Semicolon); } bool IsVarDecl () { return IdentAndCommaOrAsgnOrSColon(); } /* True, if the comma is not a trailing one, * * like the last one in: a, b, c, */ bool NotFinalComma () { int peek = Peek(1).kind; return la.kind == Tokens.Comma && peek != Tokens.CloseCurlyBrace && peek != Tokens.CloseSquareBracket; } /* True, if "void" is followed by "*" */ bool NotVoidPointer () { return la.kind == Tokens.Void && Peek(1).kind != Tokens.Times; } /* True, if "checked" or "unchecked" are followed by "{" */ bool UnCheckedAndLBrace () { return la.kind == Tokens.Checked || la.kind == Tokens.Unchecked && Peek(1).kind == Tokens.OpenCurlyBrace; } /* True, if "." is followed by an ident */ bool DotAndIdent () { return la.kind == Tokens.Dot && Peek(1).kind == Tokens.Identifier; } /* True, if ident is followed by ":" */ bool IdentAndColon () { return la.kind == Tokens.Identifier && Peek(1).kind == Tokens.Colon; } bool IsLabel () { return IdentAndColon(); } /* True, if ident is followed by "(" */ bool IdentAndLPar () { return la.kind == Tokens.Identifier && Peek(1).kind == Tokens.OpenParenthesis; } /* True, if "catch" is followed by "(" */ bool CatchAndLPar () { return la.kind == Tokens.Catch && Peek(1).kind == Tokens.OpenParenthesis; } bool IsTypedCatch () { return CatchAndLPar(); } /* True, if "[" is followed by the ident "assembly" */ bool IsGlobalAttrTarget () { Token pt = Peek(1); return la.kind == Tokens.OpenSquareBracket && pt.kind == Tokens.Identifier && pt.val == "assembly"; } /* True, if "[" is followed by "," or "]" */ bool LBrackAndCommaOrRBrack () { int peek = Peek(1).kind; return la.kind == Tokens.OpenSquareBracket && (peek == Tokens.Comma || peek == Tokens.CloseSquareBracket); } bool IsDims () { return LBrackAndCommaOrRBrack(); } /* True, if "[" is followed by "," or "]" * * or if the current token is "*" */ bool TimesOrLBrackAndCommaOrRBrack () { return la.kind == Tokens.Times || LBrackAndCommaOrRBrack(); } bool IsPointerOrDims () { return TimesOrLBrackAndCommaOrRBrack(); } bool IsPointer () { return la.kind == Tokens.Times; } bool SkipGeneric(ref Token pt) { if (pt.kind == Tokens.LessThan) { int braces = 1; while (braces != 0) { pt = Peek(); if (pt.kind == Tokens.GreaterThan) { --braces; } else if (pt.kind == Tokens.LessThan) { ++braces; } else if (pt.kind == Tokens.Semicolon || pt.kind == Tokens.OpenCurlyBrace || pt.kind == Tokens.CloseCurlyBrace || pt.kind == Tokens.EOF) { return false; } } pt = Peek(); return true; } return true; } /* True, if lookahead is a primitive type keyword, or * * if it is a type declaration followed by an ident */ bool IsLocalVarDecl () { if (IsYieldStatement()) { return false; } if ((Tokens.TypeKW[la.kind] && Peek(1).kind != Tokens.Dot) || la.kind == Tokens.Void) { return true; } StartPeek(); Token pt = la ; string ignore; return IsQualident(ref pt, out ignore) && SkipGeneric(ref pt) && IsPointerOrDims(ref pt) && pt.kind == Tokens.Identifier; } /* True if lookahead is type parameters (<...>) followed by the specified token */ bool IsGenericFollowedBy(int token) { Token t = la; if (t.kind != Tokens.LessThan) return false; StartPeek(); return SkipGeneric(ref t) && t.kind == token; } /* True, if lookahead ident is "where" */ bool IdentIsWhere () { return la.kind == Tokens.Identifier && la.val == "where"; } /* True, if lookahead ident is "get" */ bool IdentIsGet () { return la.kind == Tokens.Identifier && la.val == "get"; } /* True, if lookahead ident is "set" */ bool IdentIsSet () { return la.kind == Tokens.Identifier && la.val == "set"; } /* True, if lookahead ident is "add" */ bool IdentIsAdd () { return la.kind == Tokens.Identifier && la.val == "add"; } /* True, if lookahead ident is "remove" */ bool IdentIsRemove () { return la.kind == Tokens.Identifier && la.val == "remove"; } bool IsNotYieldStatement () { return !IsYieldStatement(); } /* True, if lookahead ident is "yield" and than follows a break or return */ bool IsYieldStatement () { return la.kind == Tokens.Identifier && la.val == "yield" && (Peek(1).kind == Tokens.Return || Peek(1).kind == Tokens.Break); } /* True, if lookahead is a local attribute target specifier, * * i.e. one of "event", "return", "field", "method", * * "module", "param", "property", or "type" */ bool IsLocalAttrTarget () { int cur = la.kind; string val = la.val; return (cur == Tokens.Event || cur == Tokens.Return || (cur == Tokens.Identifier && (val == "field" || val == "method" || val == "module" || val == "param" || val == "property" || val == "type"))) && Peek(1).kind == Tokens.Colon; } bool IsShiftRight() { Token next = Peek(1); // TODO : Add col test (seems not to work, lexer bug...) : && la.col == next.col - 1 return (la.kind == Tokens.GreaterThan && next.kind == Tokens.GreaterThan); } bool IsTypeReferenceExpression(Expression expr) { if (expr is TypeReferenceExpression) return ((TypeReferenceExpression)expr).TypeReference.GenericTypes.Count == 0; while (expr is FieldReferenceExpression) { expr = ((FieldReferenceExpression)expr).TargetObject; } return expr is IdentifierExpression; } TypeReferenceExpression GetTypeReferenceExpression(Expression expr, List genericTypes) { TypeReferenceExpression tre = expr as TypeReferenceExpression; if (tre != null) { return new TypeReferenceExpression(new TypeReference(tre.TypeReference.Type, tre.TypeReference.PointerNestingLevel, tre.TypeReference.RankSpecifier, genericTypes)); } StringBuilder b = new StringBuilder(); WriteFullTypeName(b, expr); return new TypeReferenceExpression(new TypeReference(b.ToString(), 0, null, genericTypes)); } void WriteFullTypeName(StringBuilder b, Expression expr) { FieldReferenceExpression fre = expr as FieldReferenceExpression; if (fre != null) { WriteFullTypeName(b, fre.TargetObject); b.Append('.'); b.Append(fre.FieldName); } else if (expr is IdentifierExpression) { b.Append(((IdentifierExpression)expr).Identifier); } } /*------------------------------------------------------------------------* *----- LEXER TOKEN LIST ------------------------------------------------* *------------------------------------------------------------------------*/ /* START AUTOGENERATED TOKENS SECTION */ /* */ void CS() { #line 552 "cs.ATG" compilationUnit = new CompilationUnit(); while (la.kind == 119) { UsingDirective(); } while ( #line 555 "cs.ATG" IsGlobalAttrTarget()) { GlobalAttributeSection(); } while (StartOf(1)) { NamespaceMemberDecl(); } Expect(0); } void UsingDirective() { #line 562 "cs.ATG" string qualident = null, aliasident = null; Expect(119); #line 565 "cs.ATG" Point startPos = t.Location; if ( #line 566 "cs.ATG" IsAssignment()) { lexer.NextToken(); #line 566 "cs.ATG" aliasident = t.val; Expect(3); } Qualident( #line 567 "cs.ATG" out qualident); Expect(11); #line 569 "cs.ATG" if (qualident != null && qualident.Length > 0) { INode node; if (aliasident != null) { node = new UsingDeclaration(aliasident, qualident); } else { node = new UsingDeclaration(qualident); } node.StartLocation = startPos; node.EndLocation = t.EndLocation; compilationUnit.AddChild(node); } } void GlobalAttributeSection() { Expect(17); #line 585 "cs.ATG" Point startPos = t.Location; Expect(1); #line 586 "cs.ATG" if (t.val != "assembly") Error("global attribute target specifier (\"assembly\") expected"); string attributeTarget = t.val; List attributes = new List(); ASTAttribute attribute; Expect(9); Attribute( #line 591 "cs.ATG" out attribute); #line 591 "cs.ATG" attributes.Add(attribute); while ( #line 592 "cs.ATG" NotFinalComma()) { Expect(13); Attribute( #line 592 "cs.ATG" out attribute); #line 592 "cs.ATG" attributes.Add(attribute); } if (la.kind == 13) { lexer.NextToken(); } Expect(18); #line 594 "cs.ATG" AttributeSection section = new AttributeSection(attributeTarget, attributes); section.StartLocation = startPos; section.EndLocation = t.EndLocation; compilationUnit.AddChild(section); } void NamespaceMemberDecl() { #line 678 "cs.ATG" AttributeSection section; List attributes = new List(); Modifiers m = new Modifiers(); string qualident; if (la.kind == 86) { lexer.NextToken(); #line 684 "cs.ATG" Point startPos = t.Location; Qualident( #line 685 "cs.ATG" out qualident); #line 685 "cs.ATG" INode node = new NamespaceDeclaration(qualident); node.StartLocation = startPos; compilationUnit.AddChild(node); compilationUnit.BlockStart(node); Expect(15); while (la.kind == 119) { UsingDirective(); } while (StartOf(1)) { NamespaceMemberDecl(); } Expect(16); if (la.kind == 11) { lexer.NextToken(); } #line 694 "cs.ATG" node.EndLocation = t.EndLocation; compilationUnit.BlockEnd(); } else if (StartOf(2)) { while (la.kind == 17) { AttributeSection( #line 698 "cs.ATG" out section); #line 698 "cs.ATG" attributes.Add(section); } while (StartOf(3)) { TypeModifier( #line 699 "cs.ATG" m); } TypeDecl( #line 700 "cs.ATG" m, attributes); } else SynErr(125); } void Qualident( #line 814 "cs.ATG" out string qualident) { Expect(1); #line 816 "cs.ATG" qualidentBuilder.Length = 0; qualidentBuilder.Append(t.val); while ( #line 817 "cs.ATG" DotAndIdent()) { Expect(14); Expect(1); #line 817 "cs.ATG" qualidentBuilder.Append('.'); qualidentBuilder.Append(t.val); } #line 820 "cs.ATG" qualident = qualidentBuilder.ToString(); } void Attribute( #line 601 "cs.ATG" out ASTAttribute attribute) { #line 602 "cs.ATG" string qualident; Qualident( #line 604 "cs.ATG" out qualident); #line 604 "cs.ATG" List positional = new List(); List named = new List(); string name = qualident; if (la.kind == 19) { AttributeArguments( #line 608 "cs.ATG" positional, named); } #line 608 "cs.ATG" attribute = new ICSharpCode.NRefactory.Parser.AST.Attribute(name, positional, named); } void AttributeArguments( #line 611 "cs.ATG" List positional, List named) { #line 613 "cs.ATG" bool nameFound = false; string name = ""; Expression expr; Expect(19); if (StartOf(4)) { if ( #line 621 "cs.ATG" IsAssignment()) { #line 621 "cs.ATG" nameFound = true; lexer.NextToken(); #line 622 "cs.ATG" name = t.val; Expect(3); } Expr( #line 624 "cs.ATG" out expr); #line 624 "cs.ATG" if (expr != null) {if(name == "") positional.Add(expr); else { named.Add(new NamedArgumentExpression(name, expr)); name = ""; } } while (la.kind == 13) { lexer.NextToken(); if ( #line 632 "cs.ATG" IsAssignment()) { #line 632 "cs.ATG" nameFound = true; Expect(1); #line 633 "cs.ATG" name = t.val; Expect(3); } else if (StartOf(4)) { #line 635 "cs.ATG" if (nameFound) Error("no positional argument after named argument"); } else SynErr(126); Expr( #line 636 "cs.ATG" out expr); #line 636 "cs.ATG" if (expr != null) { if(name == "") positional.Add(expr); else { named.Add(new NamedArgumentExpression(name, expr)); name = ""; } } } } Expect(20); } void Expr( #line 1856 "cs.ATG" out Expression expr) { #line 1857 "cs.ATG" expr = null; Expression expr1 = null, expr2 = null; UnaryExpr( #line 1859 "cs.ATG" out expr); if (StartOf(5)) { ConditionalOrExpr( #line 1862 "cs.ATG" ref expr); if (la.kind == 12) { lexer.NextToken(); Expr( #line 1862 "cs.ATG" out expr1); Expect(9); Expr( #line 1862 "cs.ATG" out expr2); #line 1862 "cs.ATG" expr = new ConditionalExpression(expr, expr1, expr2); } } else if (StartOf(6)) { #line 1864 "cs.ATG" AssignmentOperatorType op; Expression val; AssignmentOperator( #line 1864 "cs.ATG" out op); Expr( #line 1864 "cs.ATG" out val); #line 1864 "cs.ATG" expr = new AssignmentExpression(expr, op, val); } else SynErr(127); } void AttributeSection( #line 645 "cs.ATG" out AttributeSection section) { #line 647 "cs.ATG" string attributeTarget = ""; List attributes = new List(); ASTAttribute attribute; Expect(17); #line 653 "cs.ATG" Point startPos = t.Location; if ( #line 654 "cs.ATG" IsLocalAttrTarget()) { if (la.kind == 67) { lexer.NextToken(); #line 655 "cs.ATG" attributeTarget = "event"; } else if (la.kind == 99) { lexer.NextToken(); #line 656 "cs.ATG" attributeTarget = "return"; } else { lexer.NextToken(); #line 657 "cs.ATG" if (t.val != "field" || t.val != "method" || t.val != "module" || t.val != "param" || t.val != "property" || t.val != "type") Error("attribute target specifier (event, return, field," + "method, module, param, property, or type) expected"); attributeTarget = t.val; } Expect(9); } Attribute( #line 667 "cs.ATG" out attribute); #line 667 "cs.ATG" attributes.Add(attribute); while ( #line 668 "cs.ATG" NotFinalComma()) { Expect(13); Attribute( #line 668 "cs.ATG" out attribute); #line 668 "cs.ATG" attributes.Add(attribute); } if (la.kind == 13) { lexer.NextToken(); } Expect(18); #line 670 "cs.ATG" section = new AttributeSection(attributeTarget, attributes); section.StartLocation = startPos; section.EndLocation = t.EndLocation; } void TypeModifier( #line 988 "cs.ATG" Modifiers m) { switch (la.kind) { case 87: { lexer.NextToken(); #line 990 "cs.ATG" m.Add(Modifier.New); break; } case 96: { lexer.NextToken(); #line 991 "cs.ATG" m.Add(Modifier.Public); break; } case 95: { lexer.NextToken(); #line 992 "cs.ATG" m.Add(Modifier.Protected); break; } case 82: { lexer.NextToken(); #line 993 "cs.ATG" m.Add(Modifier.Internal); break; } case 94: { lexer.NextToken(); #line 994 "cs.ATG" m.Add(Modifier.Private); break; } case 117: { lexer.NextToken(); #line 995 "cs.ATG" m.Add(Modifier.Unsafe); break; } case 47: { lexer.NextToken(); #line 996 "cs.ATG" m.Add(Modifier.Abstract); break; } case 101: { lexer.NextToken(); #line 997 "cs.ATG" m.Add(Modifier.Sealed); break; } case 105: { lexer.NextToken(); #line 998 "cs.ATG" m.Add(Modifier.Static); break; } case 1: { lexer.NextToken(); #line 999 "cs.ATG" if (t.val == "partial") { m.Add(Modifier.Partial); } break; } default: SynErr(128); break; } } void TypeDecl( #line 703 "cs.ATG" Modifiers m, List attributes) { #line 705 "cs.ATG" TypeReference type; List names; List p = new List(); string name; List templates; if (la.kind == 57) { #line 711 "cs.ATG" m.Check(Modifier.Classes); lexer.NextToken(); #line 712 "cs.ATG" TypeDeclaration newType = new TypeDeclaration(m.Modifier, attributes); templates = newType.Templates; compilationUnit.AddChild(newType); compilationUnit.BlockStart(newType); newType.Type = Types.Class; Expect(1); #line 719 "cs.ATG" newType.Name = t.val; if (la.kind == 22) { TypeParameterList( #line 722 "cs.ATG" templates); } if (la.kind == 9) { ClassBase( #line 724 "cs.ATG" out names); #line 724 "cs.ATG" newType.BaseTypes = names; } #line 724 "cs.ATG" newType.StartLocation = t.EndLocation; while ( #line 727 "cs.ATG" IdentIsWhere()) { TypeParameterConstraintsClause( #line 727 "cs.ATG" templates); } ClassBody(); if (la.kind == 11) { lexer.NextToken(); } #line 730 "cs.ATG" newType.EndLocation = t.Location; compilationUnit.BlockEnd(); } else if (StartOf(7)) { #line 733 "cs.ATG" m.Check(Modifier.StructsInterfacesEnumsDelegates); if (la.kind == 107) { lexer.NextToken(); #line 734 "cs.ATG" TypeDeclaration newType = new TypeDeclaration(m.Modifier, attributes); templates = newType.Templates; compilationUnit.AddChild(newType); compilationUnit.BlockStart(newType); newType.Type = Types.Struct; Expect(1); #line 740 "cs.ATG" newType.Name = t.val; if (la.kind == 22) { TypeParameterList( #line 743 "cs.ATG" templates); } if (la.kind == 9) { StructInterfaces( #line 745 "cs.ATG" out names); #line 745 "cs.ATG" newType.BaseTypes = names; } #line 745 "cs.ATG" newType.StartLocation = t.EndLocation; while ( #line 748 "cs.ATG" IdentIsWhere()) { TypeParameterConstraintsClause( #line 748 "cs.ATG" templates); } StructBody(); if (la.kind == 11) { lexer.NextToken(); } #line 752 "cs.ATG" newType.EndLocation = t.Location; compilationUnit.BlockEnd(); } else if (la.kind == 81) { lexer.NextToken(); #line 756 "cs.ATG" TypeDeclaration newType = new TypeDeclaration(m.Modifier, attributes); templates = newType.Templates; compilationUnit.AddChild(newType); compilationUnit.BlockStart(newType); newType.Type = Types.Interface; Expect(1); #line 762 "cs.ATG" newType.Name = t.val; if (la.kind == 22) { TypeParameterList( #line 765 "cs.ATG" templates); } if (la.kind == 9) { InterfaceBase( #line 767 "cs.ATG" out names); #line 767 "cs.ATG" newType.BaseTypes = names; } #line 767 "cs.ATG" newType.StartLocation = t.EndLocation; while ( #line 770 "cs.ATG" IdentIsWhere()) { TypeParameterConstraintsClause( #line 770 "cs.ATG" templates); } InterfaceBody(); if (la.kind == 11) { lexer.NextToken(); } #line 773 "cs.ATG" newType.EndLocation = t.Location; compilationUnit.BlockEnd(); } else if (la.kind == 66) { lexer.NextToken(); #line 777 "cs.ATG" TypeDeclaration newType = new TypeDeclaration(m.Modifier, attributes); compilationUnit.AddChild(newType); compilationUnit.BlockStart(newType); newType.Type = Types.Enum; Expect(1); #line 782 "cs.ATG" newType.Name = t.val; if (la.kind == 9) { lexer.NextToken(); IntegralType( #line 783 "cs.ATG" out name); #line 783 "cs.ATG" newType.BaseTypes.Add(new TypeReference(name)); } #line 784 "cs.ATG" newType.StartLocation = t.EndLocation; EnumBody(); if (la.kind == 11) { lexer.NextToken(); } #line 786 "cs.ATG" newType.EndLocation = t.Location; compilationUnit.BlockEnd(); } else { lexer.NextToken(); #line 790 "cs.ATG" DelegateDeclaration delegateDeclr = new DelegateDeclaration(m.Modifier, attributes); templates = delegateDeclr.Templates; delegateDeclr.StartLocation = t.Location; if ( #line 794 "cs.ATG" NotVoidPointer()) { Expect(121); #line 794 "cs.ATG" delegateDeclr.ReturnType = new TypeReference("void", 0, null); } else if (StartOf(8)) { Type( #line 795 "cs.ATG" out type); #line 795 "cs.ATG" delegateDeclr.ReturnType = type; } else SynErr(129); Expect(1); #line 797 "cs.ATG" delegateDeclr.Name = t.val; if (la.kind == 22) { TypeParameterList( #line 800 "cs.ATG" templates); } Expect(19); if (StartOf(9)) { FormalParameterList( #line 802 "cs.ATG" p); #line 802 "cs.ATG" delegateDeclr.Parameters = p; } Expect(20); while ( #line 806 "cs.ATG" IdentIsWhere()) { TypeParameterConstraintsClause( #line 806 "cs.ATG" templates); } Expect(11); #line 808 "cs.ATG" delegateDeclr.EndLocation = t.Location; compilationUnit.AddChild(delegateDeclr); } } else SynErr(130); } void TypeParameterList( #line 2239 "cs.ATG" List templates) { #line 2241 "cs.ATG" AttributeSection section; List attributes = new List(); Expect(22); while (la.kind == 17) { AttributeSection( #line 2245 "cs.ATG" out section); #line 2245 "cs.ATG" attributes.Add(section); } Expect(1); #line 2246 "cs.ATG" templates.Add(new TemplateDefinition(t.val, attributes)); while (la.kind == 13) { lexer.NextToken(); while (la.kind == 17) { AttributeSection( #line 2247 "cs.ATG" out section); #line 2247 "cs.ATG" attributes.Add(section); } Expect(1); #line 2248 "cs.ATG" templates.Add(new TemplateDefinition(t.val, attributes)); } Expect(21); } void ClassBase( #line 823 "cs.ATG" out List names) { #line 825 "cs.ATG" TypeReference typeRef; names = new List(); Expect(9); ClassType( #line 829 "cs.ATG" out typeRef); #line 829 "cs.ATG" if (typeRef != null) { names.Add(typeRef); } while (la.kind == 13) { lexer.NextToken(); TypeName( #line 830 "cs.ATG" out typeRef); #line 830 "cs.ATG" if (typeRef != null) { names.Add(typeRef); } } } void TypeParameterConstraintsClause( #line 2252 "cs.ATG" List templates) { #line 2253 "cs.ATG" string name = ""; TypeReference type; Expect(1); #line 2255 "cs.ATG" if (t.val != "where") Error("where expected"); Expect(1); #line 2256 "cs.ATG" name = t.val; Expect(9); TypeParameterConstraintsClauseBase( #line 2258 "cs.ATG" out type); #line 2259 "cs.ATG" TemplateDefinition td = null; foreach (TemplateDefinition d in templates) { if (d.Name == name) { td = d; break; } } if ( td != null) { td.Bases.Add(type); } while (la.kind == 13) { lexer.NextToken(); TypeParameterConstraintsClauseBase( #line 2268 "cs.ATG" out type); #line 2269 "cs.ATG" td = null; foreach (TemplateDefinition d in templates) { if (d.Name == name) { td = d; break; } } if ( td != null) { td.Bases.Add(type); } } } void ClassBody() { #line 834 "cs.ATG" AttributeSection section; Expect(15); while (StartOf(10)) { #line 837 "cs.ATG" List attributes = new List(); Modifiers m = new Modifiers(); while (la.kind == 17) { AttributeSection( #line 840 "cs.ATG" out section); #line 840 "cs.ATG" attributes.Add(section); } while (StartOf(11)) { MemberModifier( #line 841 "cs.ATG" m); } ClassMemberDecl( #line 842 "cs.ATG" m, attributes); } Expect(16); } void StructInterfaces( #line 847 "cs.ATG" out List names) { #line 849 "cs.ATG" TypeReference typeRef; names = new List(); Expect(9); TypeName( #line 853 "cs.ATG" out typeRef); #line 853 "cs.ATG" if (typeRef != null) { names.Add(typeRef); } while (la.kind == 13) { lexer.NextToken(); TypeName( #line 854 "cs.ATG" out typeRef); #line 854 "cs.ATG" if (typeRef != null) { names.Add(typeRef); } } } void StructBody() { #line 858 "cs.ATG" AttributeSection section; Expect(15); while (StartOf(12)) { #line 861 "cs.ATG" List attributes = new List(); Modifiers m = new Modifiers(); while (la.kind == 17) { AttributeSection( #line 864 "cs.ATG" out section); #line 864 "cs.ATG" attributes.Add(section); } while (StartOf(11)) { MemberModifier( #line 865 "cs.ATG" m); } StructMemberDecl( #line 866 "cs.ATG" m, attributes); } Expect(16); } void InterfaceBase( #line 871 "cs.ATG" out List names) { #line 873 "cs.ATG" TypeReference typeRef; names = new List(); Expect(9); TypeName( #line 877 "cs.ATG" out typeRef); #line 877 "cs.ATG" if (typeRef != null) { names.Add(typeRef); } while (la.kind == 13) { lexer.NextToken(); TypeName( #line 878 "cs.ATG" out typeRef); #line 878 "cs.ATG" if (typeRef != null) { names.Add(typeRef); } } } void InterfaceBody() { Expect(15); while (StartOf(13)) { InterfaceMemberDecl(); } Expect(16); } void IntegralType( #line 1010 "cs.ATG" out string name) { #line 1010 "cs.ATG" name = ""; switch (la.kind) { case 100: { lexer.NextToken(); #line 1012 "cs.ATG" name = "sbyte"; break; } case 52: { lexer.NextToken(); #line 1013 "cs.ATG" name = "byte"; break; } case 102: { lexer.NextToken(); #line 1014 "cs.ATG" name = "short"; break; } case 118: { lexer.NextToken(); #line 1015 "cs.ATG" name = "ushort"; break; } case 80: { lexer.NextToken(); #line 1016 "cs.ATG" name = "int"; break; } case 114: { lexer.NextToken(); #line 1017 "cs.ATG" name = "uint"; break; } case 85: { lexer.NextToken(); #line 1018 "cs.ATG" name = "long"; break; } case 115: { lexer.NextToken(); #line 1019 "cs.ATG" name = "ulong"; break; } case 55: { lexer.NextToken(); #line 1020 "cs.ATG" name = "char"; break; } default: SynErr(131); break; } } void EnumBody() { #line 884 "cs.ATG" FieldDeclaration f; Expect(15); if (la.kind == 1 || la.kind == 17) { EnumMemberDecl( #line 886 "cs.ATG" out f); #line 886 "cs.ATG" compilationUnit.AddChild(f); while ( #line 887 "cs.ATG" NotFinalComma()) { Expect(13); EnumMemberDecl( #line 887 "cs.ATG" out f); #line 887 "cs.ATG" compilationUnit.AddChild(f); } if (la.kind == 13) { lexer.NextToken(); } } Expect(16); } void Type( #line 892 "cs.ATG" out TypeReference type) { #line 894 "cs.ATG" string name; int pointer = 0; type = null; if (la.kind == 1 || la.kind == 89 || la.kind == 106) { ClassType( #line 899 "cs.ATG" out type); } else if (StartOf(14)) { SimpleType( #line 900 "cs.ATG" out name); #line 900 "cs.ATG" type = new TypeReference(name); } else if (la.kind == 121) { lexer.NextToken(); Expect(6); #line 901 "cs.ATG" pointer = 1; type = new TypeReference("void"); } else SynErr(132); #line 902 "cs.ATG" List r = new List(); while ( #line 904 "cs.ATG" IsPointerOrDims()) { #line 904 "cs.ATG" int i = 0; if (la.kind == 6) { lexer.NextToken(); #line 905 "cs.ATG" ++pointer; } else if (la.kind == 17) { lexer.NextToken(); while (la.kind == 13) { lexer.NextToken(); #line 906 "cs.ATG" ++i; } Expect(18); #line 906 "cs.ATG" r.Add(i); } else SynErr(133); } #line 909 "cs.ATG" type.RankSpecifier = r.ToArray(); type.PointerNestingLevel = pointer; } void FormalParameterList( #line 943 "cs.ATG" List parameter) { #line 946 "cs.ATG" ParameterDeclarationExpression p; AttributeSection section; List attributes = new List(); while (la.kind == 17) { AttributeSection( #line 951 "cs.ATG" out section); #line 951 "cs.ATG" attributes.Add(section); } if (StartOf(15)) { FixedParameter( #line 953 "cs.ATG" out p); #line 953 "cs.ATG" bool paramsFound = false; p.Attributes = attributes; parameter.Add(p); while (la.kind == 13) { lexer.NextToken(); #line 958 "cs.ATG" attributes = new List(); if (paramsFound) Error("params array must be at end of parameter list"); while (la.kind == 17) { AttributeSection( #line 959 "cs.ATG" out section); #line 959 "cs.ATG" attributes.Add(section); } if (StartOf(15)) { FixedParameter( #line 961 "cs.ATG" out p); #line 961 "cs.ATG" p.Attributes = attributes; parameter.Add(p); } else if (la.kind == 93) { ParameterArray( #line 962 "cs.ATG" out p); #line 962 "cs.ATG" paramsFound = true; p.Attributes = attributes; parameter.Add(p); } else SynErr(134); } } else if (la.kind == 93) { ParameterArray( #line 965 "cs.ATG" out p); #line 965 "cs.ATG" p.Attributes = attributes; parameter.Add(p); } else SynErr(135); } void ClassType( #line 1002 "cs.ATG" out TypeReference typeRef) { #line 1003 "cs.ATG" TypeReference r; typeRef = null; if (la.kind == 1) { TypeName( #line 1005 "cs.ATG" out r); #line 1005 "cs.ATG" typeRef = r; } else if (la.kind == 89) { lexer.NextToken(); #line 1006 "cs.ATG" typeRef = new TypeReference("object"); } else if (la.kind == 106) { lexer.NextToken(); #line 1007 "cs.ATG" typeRef = new TypeReference("string"); } else SynErr(136); } void TypeName( #line 2204 "cs.ATG" out TypeReference typeRef) { #line 2205 "cs.ATG" List typeArguments = null; string alias = null; string qualident; if ( #line 2210 "cs.ATG" la.kind == Tokens.Identifier && Peek(1).kind == Tokens.DoubleColon) { lexer.NextToken(); #line 2211 "cs.ATG" alias = t.val; Expect(10); } Qualident( #line 2214 "cs.ATG" out qualident); if (la.kind == 22) { TypeArgumentList( #line 2215 "cs.ATG" out typeArguments); } #line 2217 "cs.ATG" if (alias == null) { typeRef = new TypeReference(qualident, typeArguments); } else if (alias == "global") { typeRef = new TypeReference(qualident, typeArguments); typeRef.IsGlobal = true; } else { typeRef = new TypeReference(alias + "." + qualident, typeArguments); } } void MemberModifier( #line 1023 "cs.ATG" Modifiers m) { switch (la.kind) { case 47: { lexer.NextToken(); #line 1025 "cs.ATG" m.Add(Modifier.Abstract); break; } case 69: { lexer.NextToken(); #line 1026 "cs.ATG" m.Add(Modifier.Extern); break; } case 82: { lexer.NextToken(); #line 1027 "cs.ATG" m.Add(Modifier.Internal); break; } case 87: { lexer.NextToken(); #line 1028 "cs.ATG" m.Add(Modifier.New); break; } case 92: { lexer.NextToken(); #line 1029 "cs.ATG" m.Add(Modifier.Override); break; } case 94: { lexer.NextToken(); #line 1030 "cs.ATG" m.Add(Modifier.Private); break; } case 95: { lexer.NextToken(); #line 1031 "cs.ATG" m.Add(Modifier.Protected); break; } case 96: { lexer.NextToken(); #line 1032 "cs.ATG" m.Add(Modifier.Public); break; } case 97: { lexer.NextToken(); #line 1033 "cs.ATG" m.Add(Modifier.Readonly); break; } case 101: { lexer.NextToken(); #line 1034 "cs.ATG" m.Add(Modifier.Sealed); break; } case 105: { lexer.NextToken(); #line 1035 "cs.ATG" m.Add(Modifier.Static); break; } case 117: { lexer.NextToken(); #line 1036 "cs.ATG" m.Add(Modifier.Unsafe); break; } case 120: { lexer.NextToken(); #line 1037 "cs.ATG" m.Add(Modifier.Virtual); break; } case 122: { lexer.NextToken(); #line 1038 "cs.ATG" m.Add(Modifier.Volatile); break; } default: SynErr(137); break; } } void ClassMemberDecl( #line 1271 "cs.ATG" Modifiers m, List attributes) { #line 1272 "cs.ATG" Statement stmt = null; if (StartOf(16)) { StructMemberDecl( #line 1274 "cs.ATG" m, attributes); } else if (la.kind == 26) { #line 1275 "cs.ATG" m.Check(Modifier.Destructors); Point startPos = t.Location; lexer.NextToken(); Expect(1); #line 1276 "cs.ATG" DestructorDeclaration d = new DestructorDeclaration(t.val, m.Modifier, attributes); d.Modifier = m.Modifier; d.StartLocation = startPos; Expect(19); Expect(20); #line 1280 "cs.ATG" d.EndLocation = t.EndLocation; if (la.kind == 15) { Block( #line 1280 "cs.ATG" out stmt); } else if (la.kind == 11) { lexer.NextToken(); } else SynErr(138); #line 1281 "cs.ATG" d.Body = (BlockStatement)stmt; compilationUnit.AddChild(d); } else SynErr(139); } void StructMemberDecl( #line 1041 "cs.ATG" Modifiers m, List attributes) { #line 1043 "cs.ATG" string qualident = null; TypeReference type; Expression expr; List p = new List(); Statement stmt = null; List variableDeclarators = new List(); List templates = new List(); if (la.kind == 58) { #line 1052 "cs.ATG" m.Check(Modifier.Constants); lexer.NextToken(); #line 1053 "cs.ATG" Point startPos = t.Location; Type( #line 1054 "cs.ATG" out type); Expect(1); #line 1054 "cs.ATG" FieldDeclaration fd = new FieldDeclaration(attributes, type, m.Modifier | Modifier.Const); fd.StartLocation = startPos; VariableDeclaration f = new VariableDeclaration(t.val); fd.Fields.Add(f); Expect(3); Expr( #line 1059 "cs.ATG" out expr); #line 1059 "cs.ATG" f.Initializer = expr; while (la.kind == 13) { lexer.NextToken(); Expect(1); #line 1060 "cs.ATG" f = new VariableDeclaration(t.val); fd.Fields.Add(f); Expect(3); Expr( #line 1063 "cs.ATG" out expr); #line 1063 "cs.ATG" f.Initializer = expr; } Expect(11); #line 1064 "cs.ATG" fd.EndLocation = t.EndLocation; compilationUnit.AddChild(fd); } else if ( #line 1067 "cs.ATG" NotVoidPointer()) { #line 1067 "cs.ATG" m.Check(Modifier.PropertysEventsMethods); Expect(121); #line 1068 "cs.ATG" Point startPos = t.Location; Qualident( #line 1069 "cs.ATG" out qualident); if (la.kind == 22) { TypeParameterList( #line 1071 "cs.ATG" templates); } Expect(19); if (StartOf(9)) { FormalParameterList( #line 1074 "cs.ATG" p); } Expect(20); #line 1074 "cs.ATG" MethodDeclaration methodDeclaration = new MethodDeclaration(qualident, m.Modifier, new TypeReference("void"), p, attributes); methodDeclaration.StartLocation = startPos; methodDeclaration.EndLocation = t.EndLocation; methodDeclaration.Templates = templates; compilationUnit.AddChild(methodDeclaration); compilationUnit.BlockStart(methodDeclaration); while ( #line 1087 "cs.ATG" IdentIsWhere()) { TypeParameterConstraintsClause( #line 1087 "cs.ATG" templates); } if (la.kind == 15) { Block( #line 1089 "cs.ATG" out stmt); } else if (la.kind == 11) { lexer.NextToken(); } else SynErr(140); #line 1089 "cs.ATG" compilationUnit.BlockEnd(); methodDeclaration.Body = (BlockStatement)stmt; } else if (la.kind == 67) { #line 1093 "cs.ATG" m.Check(Modifier.PropertysEventsMethods); lexer.NextToken(); #line 1094 "cs.ATG" EventDeclaration eventDecl = new EventDeclaration(m.Modifier, attributes); eventDecl.StartLocation = t.Location; compilationUnit.AddChild(eventDecl); compilationUnit.BlockStart(eventDecl); EventAddRegion addBlock = null; EventRemoveRegion removeBlock = null; Type( #line 1101 "cs.ATG" out type); #line 1101 "cs.ATG" eventDecl.TypeReference = type; if ( #line 1103 "cs.ATG" IsVarDecl()) { VariableDeclarator( #line 1103 "cs.ATG" variableDeclarators); while (la.kind == 13) { lexer.NextToken(); VariableDeclarator( #line 1104 "cs.ATG" variableDeclarators); } Expect(11); #line 1104 "cs.ATG" eventDecl.VariableDeclarators = variableDeclarators; eventDecl.EndLocation = t.EndLocation; } else if (la.kind == 1) { Qualident( #line 1105 "cs.ATG" out qualident); #line 1105 "cs.ATG" eventDecl.Name = qualident; eventDecl.EndLocation = t.EndLocation; Expect(15); #line 1106 "cs.ATG" eventDecl.BodyStart = t.Location; EventAccessorDecls( #line 1107 "cs.ATG" out addBlock, out removeBlock); Expect(16); #line 1108 "cs.ATG" eventDecl.BodyEnd = t.EndLocation; } else SynErr(141); #line 1109 "cs.ATG" compilationUnit.BlockEnd(); eventDecl.AddRegion = addBlock; eventDecl.RemoveRegion = removeBlock; } else if ( #line 1116 "cs.ATG" IdentAndLPar()) { #line 1116 "cs.ATG" m.Check(Modifier.Constructors | Modifier.StaticConstructors); Expect(1); #line 1117 "cs.ATG" string name = t.val; Point startPos = t.Location; Expect(19); if (StartOf(9)) { #line 1117 "cs.ATG" m.Check(Modifier.Constructors); FormalParameterList( #line 1118 "cs.ATG" p); } Expect(20); #line 1120 "cs.ATG" ConstructorInitializer init = null; if (la.kind == 9) { #line 1121 "cs.ATG" m.Check(Modifier.Constructors); ConstructorInitializer( #line 1122 "cs.ATG" out init); } #line 1124 "cs.ATG" ConstructorDeclaration cd = new ConstructorDeclaration(name, m.Modifier, p, init, attributes); cd.StartLocation = startPos; cd.EndLocation = t.EndLocation; if (la.kind == 15) { Block( #line 1129 "cs.ATG" out stmt); } else if (la.kind == 11) { lexer.NextToken(); } else SynErr(142); #line 1129 "cs.ATG" cd.Body = (BlockStatement)stmt; compilationUnit.AddChild(cd); } else if (la.kind == 68 || la.kind == 78) { #line 1132 "cs.ATG" m.Check(Modifier.Operators); if (m.isNone) Error("at least one modifier must be set"); bool isImplicit = true; if (la.kind == 78) { lexer.NextToken(); } else { lexer.NextToken(); #line 1136 "cs.ATG" isImplicit = false; } Expect(90); Type( #line 1137 "cs.ATG" out type); #line 1137 "cs.ATG" TypeReference operatorType = type; Expect(19); Type( #line 1138 "cs.ATG" out type); Expect(1); #line 1138 "cs.ATG" string varName = t.val; Expect(20); if (la.kind == 15) { Block( #line 1138 "cs.ATG" out stmt); } else if (la.kind == 11) { lexer.NextToken(); #line 1138 "cs.ATG" stmt = null; } else SynErr(143); #line 1141 "cs.ATG" List parameters = new List(); parameters.Add(new ParameterDeclarationExpression(type, varName)); OperatorDeclaration operatorDeclaration = new OperatorDeclaration(m.Modifier, attributes, parameters, operatorType, isImplicit ? ConversionType.Implicit : ConversionType.Explicit ); operatorDeclaration.Body = (BlockStatement)stmt; compilationUnit.AddChild(operatorDeclaration); } else if (StartOf(17)) { TypeDecl( #line 1154 "cs.ATG" m, attributes); } else if (StartOf(8)) { Type( #line 1155 "cs.ATG" out type); #line 1155 "cs.ATG" Point startPos = t.Location; if (la.kind == 90) { #line 1157 "cs.ATG" OverloadableOperatorType op; m.Check(Modifier.Operators); if (m.isNone) Error("at least one modifier must be set"); lexer.NextToken(); OverloadableOperator( #line 1161 "cs.ATG" out op); #line 1161 "cs.ATG" TypeReference firstType, secondType = null; string secondName = null; Expect(19); Type( #line 1162 "cs.ATG" out firstType); Expect(1); #line 1162 "cs.ATG" string firstName = t.val; if (la.kind == 13) { lexer.NextToken(); Type( #line 1163 "cs.ATG" out secondType); Expect(1); #line 1163 "cs.ATG" secondName = t.val; } else if (la.kind == 20) { } else SynErr(144); Expect(20); if (la.kind == 15) { Block( #line 1171 "cs.ATG" out stmt); } else if (la.kind == 11) { lexer.NextToken(); } else SynErr(145); #line 1173 "cs.ATG" List parameters = new List(); parameters.Add(new ParameterDeclarationExpression(firstType, firstName)); if (secondType != null) { parameters.Add(new ParameterDeclarationExpression(secondType, secondName)); } OperatorDeclaration operatorDeclaration = new OperatorDeclaration(m.Modifier, attributes, parameters, type, op); operatorDeclaration.Body = (BlockStatement)stmt; compilationUnit.AddChild(operatorDeclaration); } else if ( #line 1188 "cs.ATG" IsVarDecl()) { #line 1188 "cs.ATG" m.Check(Modifier.Fields); FieldDeclaration fd = new FieldDeclaration(attributes, type, m.Modifier); fd.StartLocation = startPos; VariableDeclarator( #line 1192 "cs.ATG" variableDeclarators); while (la.kind == 13) { lexer.NextToken(); VariableDeclarator( #line 1193 "cs.ATG" variableDeclarators); } Expect(11); #line 1194 "cs.ATG" fd.EndLocation = t.EndLocation; fd.Fields = variableDeclarators; compilationUnit.AddChild(fd); } else if (la.kind == 109) { #line 1197 "cs.ATG" m.Check(Modifier.Indexers); lexer.NextToken(); Expect(17); FormalParameterList( #line 1198 "cs.ATG" p); Expect(18); #line 1198 "cs.ATG" Point endLocation = t.EndLocation; Expect(15); #line 1199 "cs.ATG" IndexerDeclaration indexer = new IndexerDeclaration(type, p, m.Modifier, attributes); indexer.StartLocation = startPos; indexer.EndLocation = endLocation; indexer.BodyStart = t.Location; PropertyGetRegion getRegion; PropertySetRegion setRegion; AccessorDecls( #line 1206 "cs.ATG" out getRegion, out setRegion); Expect(16); #line 1207 "cs.ATG" indexer.BodyEnd = t.EndLocation; indexer.GetRegion = getRegion; indexer.SetRegion = setRegion; compilationUnit.AddChild(indexer); } else if (la.kind == 1) { Qualident( #line 1212 "cs.ATG" out qualident); #line 1212 "cs.ATG" Point qualIdentEndLocation = t.EndLocation; if (la.kind == 15 || la.kind == 19 || la.kind == 22) { if (la.kind == 19 || la.kind == 22) { #line 1215 "cs.ATG" m.Check(Modifier.PropertysEventsMethods); if (la.kind == 22) { TypeParameterList( #line 1217 "cs.ATG" templates); } Expect(19); if (StartOf(9)) { FormalParameterList( #line 1218 "cs.ATG" p); } Expect(20); #line 1219 "cs.ATG" MethodDeclaration methodDeclaration = new MethodDeclaration(qualident, m.Modifier, type, p, attributes); methodDeclaration.StartLocation = startPos; methodDeclaration.EndLocation = t.EndLocation; methodDeclaration.Templates = templates; compilationUnit.AddChild(methodDeclaration); while ( #line 1229 "cs.ATG" IdentIsWhere()) { TypeParameterConstraintsClause( #line 1229 "cs.ATG" templates); } if (la.kind == 15) { Block( #line 1230 "cs.ATG" out stmt); } else if (la.kind == 11) { lexer.NextToken(); } else SynErr(146); #line 1230 "cs.ATG" methodDeclaration.Body = (BlockStatement)stmt; } else { lexer.NextToken(); #line 1233 "cs.ATG" PropertyDeclaration pDecl = new PropertyDeclaration(qualident, type, m.Modifier, attributes); pDecl.StartLocation = startPos; pDecl.EndLocation = qualIdentEndLocation; pDecl.BodyStart = t.Location; PropertyGetRegion getRegion; PropertySetRegion setRegion; AccessorDecls( #line 1240 "cs.ATG" out getRegion, out setRegion); Expect(16); #line 1242 "cs.ATG" pDecl.GetRegion = getRegion; pDecl.SetRegion = setRegion; pDecl.BodyEnd = t.EndLocation; compilationUnit.AddChild(pDecl); } } else if (la.kind == 14) { #line 1250 "cs.ATG" m.Check(Modifier.Indexers); lexer.NextToken(); Expect(109); Expect(17); FormalParameterList( #line 1251 "cs.ATG" p); Expect(18); #line 1252 "cs.ATG" IndexerDeclaration indexer = new IndexerDeclaration(type, p, m.Modifier, attributes); indexer.StartLocation = startPos; indexer.EndLocation = t.EndLocation; indexer.NamespaceName = qualident; PropertyGetRegion getRegion; PropertySetRegion setRegion; Expect(15); #line 1259 "cs.ATG" Point bodyStart = t.Location; AccessorDecls( #line 1260 "cs.ATG" out getRegion, out setRegion); Expect(16); #line 1261 "cs.ATG" indexer.BodyStart = bodyStart; indexer.BodyEnd = t.EndLocation; indexer.GetRegion = getRegion; indexer.SetRegion = setRegion; compilationUnit.AddChild(indexer); } else SynErr(147); } else SynErr(148); } else SynErr(149); } void InterfaceMemberDecl() { #line 1288 "cs.ATG" TypeReference type; AttributeSection section; Modifier mod = Modifier.None; List attributes = new List(); List parameters = new List(); string name; PropertyGetRegion getBlock; PropertySetRegion setBlock; Point startLocation = new Point(-1, -1); List templates = new List(); while (la.kind == 17) { AttributeSection( #line 1301 "cs.ATG" out section); #line 1301 "cs.ATG" attributes.Add(section); } if (la.kind == 87) { lexer.NextToken(); #line 1302 "cs.ATG" mod = Modifier.New; startLocation = t.Location; } if ( #line 1305 "cs.ATG" NotVoidPointer()) { Expect(121); #line 1305 "cs.ATG" if (startLocation.X == -1) startLocation = t.Location; Expect(1); #line 1305 "cs.ATG" name = t.val; Expect(19); if (StartOf(9)) { FormalParameterList( #line 1306 "cs.ATG" parameters); } Expect(20); Expect(11); #line 1306 "cs.ATG" MethodDeclaration md = new MethodDeclaration(name, mod, new TypeReference("void"), parameters, attributes); md.StartLocation = startLocation; md.EndLocation = t.EndLocation; compilationUnit.AddChild(md); } else if (StartOf(18)) { if (StartOf(8)) { Type( #line 1312 "cs.ATG" out type); #line 1312 "cs.ATG" if (startLocation.X == -1) startLocation = t.Location; if (la.kind == 1) { lexer.NextToken(); #line 1314 "cs.ATG" name = t.val; Point qualIdentEndLocation = t.EndLocation; if (la.kind == 19 || la.kind == 22) { if (la.kind == 22) { TypeParameterList( #line 1318 "cs.ATG" templates); } Expect(19); if (StartOf(9)) { FormalParameterList( #line 1319 "cs.ATG" parameters); } Expect(20); while ( #line 1321 "cs.ATG" IdentIsWhere()) { TypeParameterConstraintsClause( #line 1321 "cs.ATG" templates); } Expect(11); #line 1322 "cs.ATG" MethodDeclaration md = new MethodDeclaration(name, mod, type, parameters, attributes); md.StartLocation = startLocation; md.EndLocation = t.EndLocation; compilationUnit.AddChild(md); } else if (la.kind == 15) { #line 1328 "cs.ATG" PropertyDeclaration pd = new PropertyDeclaration(name, type, mod, attributes); compilationUnit.AddChild(pd); lexer.NextToken(); #line 1329 "cs.ATG" Point bodyStart = t.Location; InterfaceAccessors( #line 1329 "cs.ATG" out getBlock, out setBlock); Expect(16); #line 1329 "cs.ATG" pd.GetRegion = getBlock; pd.SetRegion = setBlock; pd.StartLocation = startLocation; pd.EndLocation = qualIdentEndLocation; pd.BodyStart = bodyStart; pd.BodyEnd = t.EndLocation; } else SynErr(150); } else if (la.kind == 109) { lexer.NextToken(); Expect(17); FormalParameterList( #line 1332 "cs.ATG" parameters); Expect(18); #line 1332 "cs.ATG" Point bracketEndLocation = t.EndLocation; #line 1332 "cs.ATG" IndexerDeclaration id = new IndexerDeclaration(type, parameters, mod, attributes); compilationUnit.AddChild(id); Expect(15); #line 1333 "cs.ATG" Point bodyStart = t.Location; InterfaceAccessors( #line 1333 "cs.ATG" out getBlock, out setBlock); Expect(16); #line 1333 "cs.ATG" id.GetRegion = getBlock; id.SetRegion = setBlock; id.StartLocation = startLocation; id.EndLocation = bracketEndLocation; id.BodyStart = bodyStart; id.BodyEnd = t.EndLocation; } else SynErr(151); } else { lexer.NextToken(); #line 1336 "cs.ATG" if (startLocation.X == -1) startLocation = t.Location; Type( #line 1336 "cs.ATG" out type); Expect(1); #line 1336 "cs.ATG" EventDeclaration ed = new EventDeclaration(type, t.val, mod, attributes); compilationUnit.AddChild(ed); Expect(11); #line 1339 "cs.ATG" ed.StartLocation = startLocation; ed.EndLocation = t.EndLocation; } } else SynErr(152); } void EnumMemberDecl( #line 1344 "cs.ATG" out FieldDeclaration f) { #line 1346 "cs.ATG" Expression expr = null; List attributes = new List(); AttributeSection section = null; VariableDeclaration varDecl = null; while (la.kind == 17) { AttributeSection( #line 1352 "cs.ATG" out section); #line 1352 "cs.ATG" attributes.Add(section); } Expect(1); #line 1353 "cs.ATG" f = new FieldDeclaration(attributes); varDecl = new VariableDeclaration(t.val); f.Fields.Add(varDecl); f.StartLocation = t.Location; if (la.kind == 3) { lexer.NextToken(); Expr( #line 1358 "cs.ATG" out expr); #line 1358 "cs.ATG" varDecl.Initializer = expr; } } void SimpleType( #line 932 "cs.ATG" out string name) { #line 933 "cs.ATG" name = String.Empty; if (StartOf(19)) { IntegralType( #line 935 "cs.ATG" out name); } else if (la.kind == 73) { lexer.NextToken(); #line 936 "cs.ATG" name = "float"; } else if (la.kind == 64) { lexer.NextToken(); #line 937 "cs.ATG" name = "double"; } else if (la.kind == 60) { lexer.NextToken(); #line 938 "cs.ATG" name = "decimal"; } else if (la.kind == 50) { lexer.NextToken(); #line 939 "cs.ATG" name = "bool"; } else SynErr(153); } void NonArrayType( #line 914 "cs.ATG" out TypeReference type) { #line 916 "cs.ATG" string name; int pointer = 0; type = null; if (la.kind == 1 || la.kind == 89 || la.kind == 106) { ClassType( #line 921 "cs.ATG" out type); } else if (StartOf(14)) { SimpleType( #line 922 "cs.ATG" out name); #line 922 "cs.ATG" type = new TypeReference(name); } else if (la.kind == 121) { lexer.NextToken(); Expect(6); #line 923 "cs.ATG" pointer = 1; type = new TypeReference("void"); } else SynErr(154); while ( #line 926 "cs.ATG" IsPointer()) { Expect(6); #line 927 "cs.ATG" ++pointer; } #line 929 "cs.ATG" if (type != null) { type.PointerNestingLevel = pointer; } } void FixedParameter( #line 969 "cs.ATG" out ParameterDeclarationExpression p) { #line 971 "cs.ATG" TypeReference type; ParamModifier mod = ParamModifier.In; if (la.kind == 91 || la.kind == 98) { if (la.kind == 98) { lexer.NextToken(); #line 976 "cs.ATG" mod = ParamModifier.Ref; } else { lexer.NextToken(); #line 977 "cs.ATG" mod = ParamModifier.Out; } } Type( #line 979 "cs.ATG" out type); Expect(1); #line 979 "cs.ATG" p = new ParameterDeclarationExpression(type, t.val, mod); } void ParameterArray( #line 982 "cs.ATG" out ParameterDeclarationExpression p) { #line 983 "cs.ATG" TypeReference type; Expect(93); Type( #line 985 "cs.ATG" out type); Expect(1); #line 985 "cs.ATG" p = new ParameterDeclarationExpression(type, t.val, ParamModifier.Params); } void Block( #line 1462 "cs.ATG" out Statement stmt) { Expect(15); #line 1464 "cs.ATG" BlockStatement blockStmt = new BlockStatement(); blockStmt.StartLocation = t.EndLocation; compilationUnit.BlockStart(blockStmt); if (!parseMethodContents) lexer.SkipCurrentBlock(); while (StartOf(20)) { Statement(); } Expect(16); #line 1471 "cs.ATG" stmt = blockStmt; blockStmt.EndLocation = t.EndLocation; compilationUnit.BlockEnd(); } void VariableDeclarator( #line 1455 "cs.ATG" List fieldDeclaration) { #line 1456 "cs.ATG" Expression expr = null; Expect(1); #line 1458 "cs.ATG" VariableDeclaration f = new VariableDeclaration(t.val); if (la.kind == 3) { lexer.NextToken(); VariableInitializer( #line 1459 "cs.ATG" out expr); #line 1459 "cs.ATG" f.Initializer = expr; } #line 1459 "cs.ATG" fieldDeclaration.Add(f); } void EventAccessorDecls( #line 1404 "cs.ATG" out EventAddRegion addBlock, out EventRemoveRegion removeBlock) { #line 1405 "cs.ATG" AttributeSection section; List attributes = new List(); Statement stmt; addBlock = null; removeBlock = null; while (la.kind == 17) { AttributeSection( #line 1412 "cs.ATG" out section); #line 1412 "cs.ATG" attributes.Add(section); } if ( #line 1414 "cs.ATG" IdentIsAdd()) { #line 1414 "cs.ATG" addBlock = new EventAddRegion(attributes); AddAccessorDecl( #line 1415 "cs.ATG" out stmt); #line 1415 "cs.ATG" attributes = new List(); addBlock.Block = (BlockStatement)stmt; while (la.kind == 17) { AttributeSection( #line 1416 "cs.ATG" out section); #line 1416 "cs.ATG" attributes.Add(section); } RemoveAccessorDecl( #line 1417 "cs.ATG" out stmt); #line 1417 "cs.ATG" removeBlock = new EventRemoveRegion(attributes); removeBlock.Block = (BlockStatement)stmt; } else if ( #line 1418 "cs.ATG" IdentIsRemove()) { RemoveAccessorDecl( #line 1419 "cs.ATG" out stmt); #line 1419 "cs.ATG" removeBlock = new EventRemoveRegion(attributes); removeBlock.Block = (BlockStatement)stmt; attributes = new List(); while (la.kind == 17) { AttributeSection( #line 1420 "cs.ATG" out section); #line 1420 "cs.ATG" attributes.Add(section); } AddAccessorDecl( #line 1421 "cs.ATG" out stmt); #line 1421 "cs.ATG" addBlock = new EventAddRegion(attributes); addBlock.Block = (BlockStatement)stmt; } else if (la.kind == 1) { lexer.NextToken(); #line 1422 "cs.ATG" Error("add or remove accessor declaration expected"); } else SynErr(155); } void ConstructorInitializer( #line 1493 "cs.ATG" out ConstructorInitializer ci) { #line 1494 "cs.ATG" Expression expr; ci = new ConstructorInitializer(); Expect(9); if (la.kind == 49) { lexer.NextToken(); #line 1498 "cs.ATG" ci.ConstructorInitializerType = ConstructorInitializerType.Base; } else if (la.kind == 109) { lexer.NextToken(); #line 1499 "cs.ATG" ci.ConstructorInitializerType = ConstructorInitializerType.This; } else SynErr(156); Expect(19); if (StartOf(21)) { Argument( #line 1502 "cs.ATG" out expr); #line 1502 "cs.ATG" if (expr != null) { ci.Arguments.Add(expr); } while (la.kind == 13) { lexer.NextToken(); Argument( #line 1502 "cs.ATG" out expr); #line 1502 "cs.ATG" if (expr != null) { ci.Arguments.Add(expr); } } } Expect(20); } void OverloadableOperator( #line 1514 "cs.ATG" out OverloadableOperatorType op) { #line 1515 "cs.ATG" op = OverloadableOperatorType.None; switch (la.kind) { case 4: { lexer.NextToken(); #line 1517 "cs.ATG" op = OverloadableOperatorType.Add; break; } case 5: { lexer.NextToken(); #line 1518 "cs.ATG" op = OverloadableOperatorType.Subtract; break; } case 23: { lexer.NextToken(); #line 1520 "cs.ATG" op = OverloadableOperatorType.Not; break; } case 26: { lexer.NextToken(); #line 1521 "cs.ATG" op = OverloadableOperatorType.BitNot; break; } case 30: { lexer.NextToken(); #line 1523 "cs.ATG" op = OverloadableOperatorType.Increment; break; } case 31: { lexer.NextToken(); #line 1524 "cs.ATG" op = OverloadableOperatorType.Decrement; break; } case 111: { lexer.NextToken(); #line 1526 "cs.ATG" op = OverloadableOperatorType.True; break; } case 70: { lexer.NextToken(); #line 1527 "cs.ATG" op = OverloadableOperatorType.False; break; } case 6: { lexer.NextToken(); #line 1529 "cs.ATG" op = OverloadableOperatorType.Multiply; break; } case 7: { lexer.NextToken(); #line 1530 "cs.ATG" op = OverloadableOperatorType.Divide; break; } case 8: { lexer.NextToken(); #line 1531 "cs.ATG" op = OverloadableOperatorType.Modulus; break; } case 27: { lexer.NextToken(); #line 1533 "cs.ATG" op = OverloadableOperatorType.BitwiseAnd; break; } case 28: { lexer.NextToken(); #line 1534 "cs.ATG" op = OverloadableOperatorType.BitwiseOr; break; } case 29: { lexer.NextToken(); #line 1535 "cs.ATG" op = OverloadableOperatorType.ExclusiveOr; break; } case 36: { lexer.NextToken(); #line 1537 "cs.ATG" op = OverloadableOperatorType.ShiftLeft; break; } case 32: { lexer.NextToken(); #line 1538 "cs.ATG" op = OverloadableOperatorType.Equality; break; } case 33: { lexer.NextToken(); #line 1539 "cs.ATG" op = OverloadableOperatorType.InEquality; break; } case 22: { lexer.NextToken(); #line 1540 "cs.ATG" op = OverloadableOperatorType.LessThan; break; } case 34: { lexer.NextToken(); #line 1541 "cs.ATG" op = OverloadableOperatorType.GreaterThanOrEqual; break; } case 35: { lexer.NextToken(); #line 1542 "cs.ATG" op = OverloadableOperatorType.LessThanOrEqual; break; } case 21: { lexer.NextToken(); #line 1543 "cs.ATG" op = OverloadableOperatorType.GreaterThan; if (la.kind == 21) { lexer.NextToken(); #line 1543 "cs.ATG" op = OverloadableOperatorType.ShiftRight; } break; } default: SynErr(157); break; } } void AccessorDecls( #line 1362 "cs.ATG" out PropertyGetRegion getBlock, out PropertySetRegion setBlock) { #line 1364 "cs.ATG" List attributes = new List(); AttributeSection section; getBlock = null; setBlock = null; while (la.kind == 17) { AttributeSection( #line 1370 "cs.ATG" out section); #line 1370 "cs.ATG" attributes.Add(section); } if ( #line 1372 "cs.ATG" IdentIsGet()) { GetAccessorDecl( #line 1373 "cs.ATG" out getBlock, attributes); if (la.kind == 1 || la.kind == 17) { #line 1374 "cs.ATG" attributes = new List(); while (la.kind == 17) { AttributeSection( #line 1375 "cs.ATG" out section); #line 1375 "cs.ATG" attributes.Add(section); } SetAccessorDecl( #line 1376 "cs.ATG" out setBlock, attributes); } } else if ( #line 1378 "cs.ATG" IdentIsSet()) { SetAccessorDecl( #line 1379 "cs.ATG" out setBlock, attributes); if (la.kind == 1 || la.kind == 17) { #line 1380 "cs.ATG" attributes = new List(); while (la.kind == 17) { AttributeSection( #line 1381 "cs.ATG" out section); #line 1381 "cs.ATG" attributes.Add(section); } GetAccessorDecl( #line 1382 "cs.ATG" out getBlock, attributes); } } else if (la.kind == 1) { lexer.NextToken(); #line 1384 "cs.ATG" Error("get or set accessor declaration expected"); } else SynErr(158); } void InterfaceAccessors( #line 1426 "cs.ATG" out PropertyGetRegion getBlock, out PropertySetRegion setBlock) { #line 1428 "cs.ATG" AttributeSection section; List attributes = new List(); getBlock = null; setBlock = null; while (la.kind == 17) { AttributeSection( #line 1433 "cs.ATG" out section); #line 1433 "cs.ATG" attributes.Add(section); } if ( #line 1435 "cs.ATG" IdentIsGet()) { Expect(1); #line 1435 "cs.ATG" getBlock = new PropertyGetRegion(null, attributes); } else if ( #line 1436 "cs.ATG" IdentIsSet()) { Expect(1); #line 1436 "cs.ATG" setBlock = new PropertySetRegion(null, attributes); } else if (la.kind == 1) { lexer.NextToken(); #line 1437 "cs.ATG" Error("set or get expected"); } else SynErr(159); Expect(11); #line 1439 "cs.ATG" attributes = new List(); if (la.kind == 1 || la.kind == 17) { while (la.kind == 17) { AttributeSection( #line 1441 "cs.ATG" out section); #line 1441 "cs.ATG" attributes.Add(section); } if ( #line 1443 "cs.ATG" IdentIsGet()) { Expect(1); #line 1443 "cs.ATG" if (getBlock != null) Error("get already declared"); else getBlock = new PropertyGetRegion(null, attributes); } else if ( #line 1446 "cs.ATG" IdentIsSet()) { Expect(1); #line 1446 "cs.ATG" if (setBlock != null) Error("set already declared"); else setBlock = new PropertySetRegion(null, attributes); } else if (la.kind == 1) { lexer.NextToken(); #line 1449 "cs.ATG" Error("set or get expected"); } else SynErr(160); Expect(11); } } void GetAccessorDecl( #line 1388 "cs.ATG" out PropertyGetRegion getBlock, List attributes) { #line 1389 "cs.ATG" Statement stmt = null; Expect(1); #line 1392 "cs.ATG" if (t.val != "get") Error("get expected"); if (la.kind == 15) { Block( #line 1393 "cs.ATG" out stmt); } else if (la.kind == 11) { lexer.NextToken(); } else SynErr(161); #line 1393 "cs.ATG" getBlock = new PropertyGetRegion((BlockStatement)stmt, attributes); } void SetAccessorDecl( #line 1396 "cs.ATG" out PropertySetRegion setBlock, List attributes) { #line 1397 "cs.ATG" Statement stmt = null; Expect(1); #line 1400 "cs.ATG" if (t.val != "set") Error("set expected"); if (la.kind == 15) { Block( #line 1401 "cs.ATG" out stmt); } else if (la.kind == 11) { lexer.NextToken(); } else SynErr(162); #line 1401 "cs.ATG" setBlock = new PropertySetRegion((BlockStatement)stmt, attributes); } void AddAccessorDecl( #line 1477 "cs.ATG" out Statement stmt) { #line 1478 "cs.ATG" stmt = null; Expect(1); #line 1481 "cs.ATG" if (t.val != "add") Error("add expected"); Block( #line 1482 "cs.ATG" out stmt); } void RemoveAccessorDecl( #line 1485 "cs.ATG" out Statement stmt) { #line 1486 "cs.ATG" stmt = null; Expect(1); #line 1489 "cs.ATG" if (t.val != "remove") Error("remove expected"); Block( #line 1490 "cs.ATG" out stmt); } void VariableInitializer( #line 1506 "cs.ATG" out Expression initializerExpression) { #line 1507 "cs.ATG" TypeReference type = null; Expression expr = null; initializerExpression = null; if (StartOf(4)) { Expr( #line 1509 "cs.ATG" out initializerExpression); } else if (la.kind == 15) { ArrayInitializer( #line 1510 "cs.ATG" out initializerExpression); } else if (la.kind == 104) { lexer.NextToken(); Type( #line 1511 "cs.ATG" out type); Expect(17); Expr( #line 1511 "cs.ATG" out expr); Expect(18); #line 1511 "cs.ATG" initializerExpression = new StackAllocExpression(type, expr); } else SynErr(163); } void Statement() { #line 1615 "cs.ATG" TypeReference type; Expression expr; Statement stmt = null; Point startPos = la.Location; if ( #line 1623 "cs.ATG" IsLabel()) { Expect(1); #line 1623 "cs.ATG" compilationUnit.AddChild(new LabelStatement(t.val)); Expect(9); Statement(); } else if (la.kind == 58) { lexer.NextToken(); Type( #line 1626 "cs.ATG" out type); #line 1626 "cs.ATG" LocalVariableDeclaration var = new LocalVariableDeclaration(type, Modifier.Const); string ident = null; var.StartLocation = t.Location; Expect(1); #line 1627 "cs.ATG" ident = t.val; Expect(3); Expr( #line 1628 "cs.ATG" out expr); #line 1628 "cs.ATG" var.Variables.Add(new VariableDeclaration(ident, expr)); while (la.kind == 13) { lexer.NextToken(); Expect(1); #line 1629 "cs.ATG" ident = t.val; Expect(3); Expr( #line 1629 "cs.ATG" out expr); #line 1629 "cs.ATG" var.Variables.Add(new VariableDeclaration(ident, expr)); } Expect(11); #line 1630 "cs.ATG" compilationUnit.AddChild(var); } else if ( #line 1632 "cs.ATG" IsLocalVarDecl()) { LocalVariableDecl( #line 1632 "cs.ATG" out stmt); Expect(11); #line 1632 "cs.ATG" compilationUnit.AddChild(stmt); } else if (StartOf(22)) { EmbeddedStatement( #line 1633 "cs.ATG" out stmt); #line 1633 "cs.ATG" compilationUnit.AddChild(stmt); } else SynErr(164); #line 1639 "cs.ATG" if (stmt != null) { stmt.StartLocation = startPos; stmt.EndLocation = t.EndLocation; } } void Argument( #line 1546 "cs.ATG" out Expression argumentexpr) { #line 1548 "cs.ATG" Expression expr; FieldDirection fd = FieldDirection.None; if (la.kind == 91 || la.kind == 98) { if (la.kind == 98) { lexer.NextToken(); #line 1553 "cs.ATG" fd = FieldDirection.Ref; } else { lexer.NextToken(); #line 1554 "cs.ATG" fd = FieldDirection.Out; } } Expr( #line 1556 "cs.ATG" out expr); #line 1556 "cs.ATG" argumentexpr = fd != FieldDirection.None ? argumentexpr = new DirectionExpression(fd, expr) : expr; } void ArrayInitializer( #line 1575 "cs.ATG" out Expression outExpr) { #line 1577 "cs.ATG" Expression expr = null; ArrayInitializerExpression initializer = new ArrayInitializerExpression(); Expect(15); if (StartOf(23)) { VariableInitializer( #line 1582 "cs.ATG" out expr); #line 1582 "cs.ATG" if (expr != null) { initializer.CreateExpressions.Add(expr); } while ( #line 1582 "cs.ATG" NotFinalComma()) { Expect(13); VariableInitializer( #line 1582 "cs.ATG" out expr); #line 1582 "cs.ATG" if (expr != null) { initializer.CreateExpressions.Add(expr); } } if (la.kind == 13) { lexer.NextToken(); } } Expect(16); #line 1583 "cs.ATG" outExpr = initializer; } void AssignmentOperator( #line 1559 "cs.ATG" out AssignmentOperatorType op) { #line 1560 "cs.ATG" op = AssignmentOperatorType.None; switch (la.kind) { case 3: { lexer.NextToken(); #line 1562 "cs.ATG" op = AssignmentOperatorType.Assign; break; } case 37: { lexer.NextToken(); #line 1563 "cs.ATG" op = AssignmentOperatorType.Add; break; } case 38: { lexer.NextToken(); #line 1564 "cs.ATG" op = AssignmentOperatorType.Subtract; break; } case 39: { lexer.NextToken(); #line 1565 "cs.ATG" op = AssignmentOperatorType.Multiply; break; } case 40: { lexer.NextToken(); #line 1566 "cs.ATG" op = AssignmentOperatorType.Divide; break; } case 41: { lexer.NextToken(); #line 1567 "cs.ATG" op = AssignmentOperatorType.Modulus; break; } case 42: { lexer.NextToken(); #line 1568 "cs.ATG" op = AssignmentOperatorType.BitwiseAnd; break; } case 43: { lexer.NextToken(); #line 1569 "cs.ATG" op = AssignmentOperatorType.BitwiseOr; break; } case 44: { lexer.NextToken(); #line 1570 "cs.ATG" op = AssignmentOperatorType.ExclusiveOr; break; } case 45: { lexer.NextToken(); #line 1571 "cs.ATG" op = AssignmentOperatorType.ShiftLeft; break; } case 21: { lexer.NextToken(); Expect(34); #line 1572 "cs.ATG" op = AssignmentOperatorType.ShiftRight; break; } default: SynErr(165); break; } } void LocalVariableDecl( #line 1586 "cs.ATG" out Statement stmt) { #line 1588 "cs.ATG" TypeReference type; VariableDeclaration var = null; LocalVariableDeclaration localVariableDeclaration; Type( #line 1593 "cs.ATG" out type); #line 1593 "cs.ATG" localVariableDeclaration = new LocalVariableDeclaration(type); localVariableDeclaration.StartLocation = t.Location; LocalVariableDeclarator( #line 1594 "cs.ATG" out var); #line 1594 "cs.ATG" localVariableDeclaration.Variables.Add(var); while (la.kind == 13) { lexer.NextToken(); LocalVariableDeclarator( #line 1595 "cs.ATG" out var); #line 1595 "cs.ATG" localVariableDeclaration.Variables.Add(var); } #line 1596 "cs.ATG" stmt = localVariableDeclaration; } void LocalVariableDeclarator( #line 1599 "cs.ATG" out VariableDeclaration var) { #line 1600 "cs.ATG" Expression expr = null; Expect(1); #line 1603 "cs.ATG" var = new VariableDeclaration(t.val); if (la.kind == 3) { lexer.NextToken(); VariableInitializer( #line 1603 "cs.ATG" out expr); #line 1603 "cs.ATG" var.Initializer = expr; } } void EmbeddedStatement( #line 1646 "cs.ATG" out Statement statement) { #line 1648 "cs.ATG" TypeReference type = null; Expression expr = null; Statement embeddedStatement = null; statement = null; if (la.kind == 15) { Block( #line 1654 "cs.ATG" out statement); } else if (la.kind == 11) { lexer.NextToken(); #line 1656 "cs.ATG" statement = new EmptyStatement(); } else if ( #line 1658 "cs.ATG" UnCheckedAndLBrace()) { #line 1658 "cs.ATG" Statement block; bool isChecked = true; if (la.kind == 56) { lexer.NextToken(); } else if (la.kind == 116) { lexer.NextToken(); #line 1659 "cs.ATG" isChecked = false; } else SynErr(166); Block( #line 1660 "cs.ATG" out block); #line 1660 "cs.ATG" statement = isChecked ? (Statement)new CheckedStatement(block) : (Statement)new UncheckedStatement(block); } else if (la.kind == 77) { lexer.NextToken(); #line 1662 "cs.ATG" Statement elseStatement = null; Expect(19); Expr( #line 1663 "cs.ATG" out expr); Expect(20); EmbeddedStatement( #line 1664 "cs.ATG" out embeddedStatement); if (la.kind == 65) { lexer.NextToken(); EmbeddedStatement( #line 1665 "cs.ATG" out elseStatement); } #line 1666 "cs.ATG" statement = elseStatement != null ? (Statement)new IfElseStatement(expr, embeddedStatement, elseStatement) : (Statement)new IfElseStatement(expr, embeddedStatement); } else if (la.kind == 108) { lexer.NextToken(); #line 1667 "cs.ATG" ArrayList switchSections = new ArrayList(); SwitchSection switchSection; Expect(19); Expr( #line 1668 "cs.ATG" out expr); Expect(20); Expect(15); while (la.kind == 53 || la.kind == 61) { SwitchSection( #line 1669 "cs.ATG" out switchSection); #line 1669 "cs.ATG" switchSections.Add(switchSection); } Expect(16); #line 1670 "cs.ATG" statement = new SwitchStatement(expr, switchSections); } else if (la.kind == 123) { lexer.NextToken(); Expect(19); Expr( #line 1672 "cs.ATG" out expr); Expect(20); EmbeddedStatement( #line 1674 "cs.ATG" out embeddedStatement); #line 1674 "cs.ATG" statement = new DoLoopStatement(expr, embeddedStatement, ConditionType.While, ConditionPosition.Start); } else if (la.kind == 63) { lexer.NextToken(); EmbeddedStatement( #line 1675 "cs.ATG" out embeddedStatement); Expect(123); Expect(19); Expr( #line 1676 "cs.ATG" out expr); Expect(20); Expect(11); #line 1676 "cs.ATG" statement = new DoLoopStatement(expr, embeddedStatement, ConditionType.While, ConditionPosition.End); } else if (la.kind == 74) { lexer.NextToken(); #line 1677 "cs.ATG" ArrayList initializer = null; ArrayList iterator = null; Expect(19); if (StartOf(4)) { ForInitializer( #line 1678 "cs.ATG" out initializer); } Expect(11); if (StartOf(4)) { Expr( #line 1679 "cs.ATG" out expr); } Expect(11); if (StartOf(4)) { ForIterator( #line 1680 "cs.ATG" out iterator); } Expect(20); EmbeddedStatement( #line 1681 "cs.ATG" out embeddedStatement); #line 1681 "cs.ATG" statement = new ForStatement(initializer, expr, iterator, embeddedStatement); } else if (la.kind == 75) { lexer.NextToken(); Expect(19); Type( #line 1682 "cs.ATG" out type); Expect(1); #line 1682 "cs.ATG" string varName = t.val; Point start = t.Location; Expect(79); Expr( #line 1683 "cs.ATG" out expr); Expect(20); EmbeddedStatement( #line 1684 "cs.ATG" out embeddedStatement); #line 1684 "cs.ATG" statement = new ForeachStatement(type, varName , expr, embeddedStatement); statement.EndLocation = t.EndLocation; } else if (la.kind == 51) { lexer.NextToken(); Expect(11); #line 1688 "cs.ATG" statement = new BreakStatement(); } else if (la.kind == 59) { lexer.NextToken(); Expect(11); #line 1689 "cs.ATG" statement = new ContinueStatement(); } else if (la.kind == 76) { GotoStatement( #line 1690 "cs.ATG" out statement); } else if ( #line 1691 "cs.ATG" IsYieldStatement()) { Expect(1); if (la.kind == 99) { lexer.NextToken(); Expr( #line 1691 "cs.ATG" out expr); #line 1691 "cs.ATG" statement = new YieldStatement(new ReturnStatement(expr)); } else if (la.kind == 51) { lexer.NextToken(); #line 1692 "cs.ATG" statement = new YieldStatement(new BreakStatement()); } else SynErr(167); Expect(11); } else if (la.kind == 99) { lexer.NextToken(); if (StartOf(4)) { Expr( #line 1693 "cs.ATG" out expr); } Expect(11); #line 1693 "cs.ATG" statement = new ReturnStatement(expr); } else if (la.kind == 110) { lexer.NextToken(); if (StartOf(4)) { Expr( #line 1694 "cs.ATG" out expr); } Expect(11); #line 1694 "cs.ATG" statement = new ThrowStatement(expr); } else if (StartOf(4)) { StatementExpr( #line 1696 "cs.ATG" out statement); Expect(11); } else if (la.kind == 112) { TryStatement( #line 1698 "cs.ATG" out statement); } else if (la.kind == 84) { lexer.NextToken(); Expect(19); Expr( #line 1700 "cs.ATG" out expr); Expect(20); EmbeddedStatement( #line 1701 "cs.ATG" out embeddedStatement); #line 1701 "cs.ATG" statement = new LockStatement(expr, embeddedStatement); } else if (la.kind == 119) { #line 1703 "cs.ATG" Statement resourceAcquisitionStmt = null; lexer.NextToken(); Expect(19); ResourceAcquisition( #line 1705 "cs.ATG" out resourceAcquisitionStmt); Expect(20); EmbeddedStatement( #line 1706 "cs.ATG" out embeddedStatement); #line 1706 "cs.ATG" statement = new UsingStatement(resourceAcquisitionStmt, embeddedStatement); } else if (la.kind == 117) { lexer.NextToken(); Block( #line 1708 "cs.ATG" out embeddedStatement); #line 1708 "cs.ATG" statement = new UnsafeStatement(embeddedStatement); } else if (la.kind == 72) { lexer.NextToken(); Expect(19); Type( #line 1711 "cs.ATG" out type); #line 1711 "cs.ATG" if (type.PointerNestingLevel == 0) Error("can only fix pointer types"); ArrayList pointerDeclarators = new ArrayList(1); Expect(1); #line 1714 "cs.ATG" string identifier = t.val; Expect(3); Expr( #line 1715 "cs.ATG" out expr); #line 1715 "cs.ATG" pointerDeclarators.Add(new VariableDeclaration(identifier, expr)); while (la.kind == 13) { lexer.NextToken(); Expect(1); #line 1717 "cs.ATG" identifier = t.val; Expect(3); Expr( #line 1718 "cs.ATG" out expr); #line 1718 "cs.ATG" pointerDeclarators.Add(new VariableDeclaration(identifier, expr)); } Expect(20); EmbeddedStatement( #line 1720 "cs.ATG" out embeddedStatement); #line 1720 "cs.ATG" statement = new FixedStatement(type, pointerDeclarators, embeddedStatement); } else SynErr(168); } void SwitchSection( #line 1742 "cs.ATG" out SwitchSection stmt) { #line 1744 "cs.ATG" SwitchSection switchSection = new SwitchSection(); CaseLabel label; SwitchLabel( #line 1748 "cs.ATG" out label); #line 1748 "cs.ATG" switchSection.SwitchLabels.Add(label); while (la.kind == 53 || la.kind == 61) { SwitchLabel( #line 1750 "cs.ATG" out label); #line 1750 "cs.ATG" switchSection.SwitchLabels.Add(label); } #line 1752 "cs.ATG" compilationUnit.BlockStart(switchSection); Statement(); while (StartOf(20)) { Statement(); } #line 1755 "cs.ATG" compilationUnit.BlockEnd(); stmt = switchSection; } void ForInitializer( #line 1723 "cs.ATG" out ArrayList initializer) { #line 1725 "cs.ATG" Statement stmt; initializer = new ArrayList(); if ( #line 1729 "cs.ATG" IsLocalVarDecl()) { LocalVariableDecl( #line 1729 "cs.ATG" out stmt); #line 1729 "cs.ATG" initializer.Add(stmt); } else if (StartOf(4)) { StatementExpr( #line 1730 "cs.ATG" out stmt); #line 1730 "cs.ATG" initializer.Add(stmt); while (la.kind == 13) { lexer.NextToken(); StatementExpr( #line 1730 "cs.ATG" out stmt); #line 1730 "cs.ATG" initializer.Add(stmt); } #line 1730 "cs.ATG" initializer.Add(stmt); } else SynErr(169); } void ForIterator( #line 1733 "cs.ATG" out ArrayList iterator) { #line 1735 "cs.ATG" Statement stmt; iterator = new ArrayList(); StatementExpr( #line 1739 "cs.ATG" out stmt); #line 1739 "cs.ATG" iterator.Add(stmt); while (la.kind == 13) { lexer.NextToken(); StatementExpr( #line 1739 "cs.ATG" out stmt); #line 1739 "cs.ATG" iterator.Add(stmt); } } void GotoStatement( #line 1810 "cs.ATG" out Statement stmt) { #line 1811 "cs.ATG" Expression expr; stmt = null; Expect(76); if (la.kind == 1) { lexer.NextToken(); #line 1815 "cs.ATG" stmt = new GotoStatement(t.val); Expect(11); } else if (la.kind == 53) { lexer.NextToken(); Expr( #line 1816 "cs.ATG" out expr); Expect(11); #line 1816 "cs.ATG" stmt = new GotoCaseStatement(expr); } else if (la.kind == 61) { lexer.NextToken(); Expect(11); #line 1817 "cs.ATG" stmt = new GotoCaseStatement(null); } else SynErr(170); } void StatementExpr( #line 1837 "cs.ATG" out Statement stmt) { #line 1842 "cs.ATG" bool mustBeAssignment = la.kind == Tokens.Plus || la.kind == Tokens.Minus || la.kind == Tokens.Not || la.kind == Tokens.BitwiseComplement || la.kind == Tokens.Times || la.kind == Tokens.BitwiseAnd || IsTypeCast(); Expression expr = null; UnaryExpr( #line 1848 "cs.ATG" out expr); if (StartOf(6)) { #line 1851 "cs.ATG" AssignmentOperatorType op; Expression val; AssignmentOperator( #line 1851 "cs.ATG" out op); Expr( #line 1851 "cs.ATG" out val); #line 1851 "cs.ATG" expr = new AssignmentExpression(expr, op, val); } else if (la.kind == 11 || la.kind == 13 || la.kind == 20) { #line 1852 "cs.ATG" if (mustBeAssignment) Error("error in assignment."); } else SynErr(171); #line 1853 "cs.ATG" stmt = new StatementExpression(expr); } void TryStatement( #line 1767 "cs.ATG" out Statement tryStatement) { #line 1769 "cs.ATG" Statement blockStmt = null, finallyStmt = null; ArrayList catchClauses = null; Expect(112); Block( #line 1773 "cs.ATG" out blockStmt); if (la.kind == 54) { CatchClauses( #line 1775 "cs.ATG" out catchClauses); if (la.kind == 71) { lexer.NextToken(); Block( #line 1775 "cs.ATG" out finallyStmt); } } else if (la.kind == 71) { lexer.NextToken(); Block( #line 1776 "cs.ATG" out finallyStmt); } else SynErr(172); #line 1779 "cs.ATG" tryStatement = new TryCatchStatement(blockStmt, catchClauses, finallyStmt); } void ResourceAcquisition( #line 1821 "cs.ATG" out Statement stmt) { #line 1823 "cs.ATG" stmt = null; Expression expr; if ( #line 1828 "cs.ATG" IsLocalVarDecl()) { LocalVariableDecl( #line 1828 "cs.ATG" out stmt); } else if (StartOf(4)) { Expr( #line 1829 "cs.ATG" out expr); #line 1833 "cs.ATG" stmt = new StatementExpression(expr); } else SynErr(173); } void SwitchLabel( #line 1760 "cs.ATG" out CaseLabel label) { #line 1761 "cs.ATG" Expression expr = null; label = null; if (la.kind == 53) { lexer.NextToken(); Expr( #line 1763 "cs.ATG" out expr); Expect(9); #line 1763 "cs.ATG" label = new CaseLabel(expr); } else if (la.kind == 61) { lexer.NextToken(); Expect(9); #line 1764 "cs.ATG" label = new CaseLabel(); } else SynErr(174); } void CatchClauses( #line 1784 "cs.ATG" out ArrayList catchClauses) { #line 1786 "cs.ATG" catchClauses = new ArrayList(); Expect(54); #line 1789 "cs.ATG" string identifier; Statement stmt; TypeReference typeRef; if (la.kind == 15) { Block( #line 1795 "cs.ATG" out stmt); #line 1795 "cs.ATG" catchClauses.Add(new CatchClause(stmt)); } else if (la.kind == 19) { lexer.NextToken(); ClassType( #line 1797 "cs.ATG" out typeRef); #line 1797 "cs.ATG" identifier = null; if (la.kind == 1) { lexer.NextToken(); #line 1798 "cs.ATG" identifier = t.val; } Expect(20); Block( #line 1799 "cs.ATG" out stmt); #line 1800 "cs.ATG" catchClauses.Add(new CatchClause(typeRef, identifier, stmt)); while ( #line 1801 "cs.ATG" IsTypedCatch()) { Expect(54); Expect(19); ClassType( #line 1801 "cs.ATG" out typeRef); #line 1801 "cs.ATG" identifier = null; if (la.kind == 1) { lexer.NextToken(); #line 1802 "cs.ATG" identifier = t.val; } Expect(20); Block( #line 1803 "cs.ATG" out stmt); #line 1804 "cs.ATG" catchClauses.Add(new CatchClause(typeRef, identifier, stmt)); } if (la.kind == 54) { lexer.NextToken(); Block( #line 1806 "cs.ATG" out stmt); #line 1806 "cs.ATG" catchClauses.Add(new CatchClause(stmt)); } } else SynErr(175); } void UnaryExpr( #line 1869 "cs.ATG" out Expression uExpr) { #line 1871 "cs.ATG" TypeReference type = null; Expression expr; ArrayList expressions = new ArrayList(); uExpr = null; while (StartOf(24) || #line 1895 "cs.ATG" IsTypeCast()) { if (la.kind == 4) { lexer.NextToken(); #line 1880 "cs.ATG" expressions.Add(new UnaryOperatorExpression(UnaryOperatorType.Plus)); } else if (la.kind == 5) { lexer.NextToken(); #line 1881 "cs.ATG" expressions.Add(new UnaryOperatorExpression(UnaryOperatorType.Minus)); } else if (la.kind == 23) { lexer.NextToken(); #line 1882 "cs.ATG" expressions.Add(new UnaryOperatorExpression(UnaryOperatorType.Not)); } else if (la.kind == 26) { lexer.NextToken(); #line 1883 "cs.ATG" expressions.Add(new UnaryOperatorExpression(UnaryOperatorType.BitNot)); } else if (la.kind == 6) { lexer.NextToken(); #line 1884 "cs.ATG" expressions.Add(new UnaryOperatorExpression(UnaryOperatorType.Star)); } else if (la.kind == 30) { lexer.NextToken(); #line 1885 "cs.ATG" expressions.Add(new UnaryOperatorExpression(UnaryOperatorType.Increment)); } else if (la.kind == 31) { lexer.NextToken(); #line 1886 "cs.ATG" expressions.Add(new UnaryOperatorExpression(UnaryOperatorType.Decrement)); } else if (la.kind == 27) { lexer.NextToken(); #line 1887 "cs.ATG" expressions.Add(new UnaryOperatorExpression(UnaryOperatorType.BitWiseAnd)); } else { Expect(19); Type( #line 1895 "cs.ATG" out type); Expect(20); #line 1895 "cs.ATG" expressions.Add(new CastExpression(type)); } } PrimaryExpr( #line 1899 "cs.ATG" out expr); #line 1899 "cs.ATG" for (int i = 0; i < expressions.Count; ++i) { Expression nextExpression = i + 1 < expressions.Count ? (Expression)expressions[i + 1] : expr; if (expressions[i] is CastExpression) { ((CastExpression)expressions[i]).Expression = nextExpression; } else { ((UnaryOperatorExpression)expressions[i]).Expression = nextExpression; } } if (expressions.Count > 0) { uExpr = (Expression)expressions[0]; } else { uExpr = expr; } } void ConditionalOrExpr( #line 2082 "cs.ATG" ref Expression outExpr) { #line 2083 "cs.ATG" Expression expr; ConditionalAndExpr( #line 2085 "cs.ATG" ref outExpr); while (la.kind == 25) { lexer.NextToken(); UnaryExpr( #line 2085 "cs.ATG" out expr); ConditionalAndExpr( #line 2085 "cs.ATG" ref expr); #line 2085 "cs.ATG" outExpr = new BinaryOperatorExpression(outExpr, BinaryOperatorType.LogicalOr, expr); } } void PrimaryExpr( #line 1916 "cs.ATG" out Expression pexpr) { #line 1918 "cs.ATG" TypeReference type = null; List typeList = null; bool isArrayCreation = false; Expression expr; pexpr = null; if (la.kind == 111) { lexer.NextToken(); #line 1926 "cs.ATG" pexpr = new PrimitiveExpression(true, "true"); } else if (la.kind == 70) { lexer.NextToken(); #line 1927 "cs.ATG" pexpr = new PrimitiveExpression(false, "false"); } else if (la.kind == 88) { lexer.NextToken(); #line 1928 "cs.ATG" pexpr = new PrimitiveExpression(null, "null"); } else if (la.kind == 2) { lexer.NextToken(); #line 1929 "cs.ATG" pexpr = new PrimitiveExpression(t.literalValue, t.val); } else if ( #line 1930 "cs.ATG" la.kind == Tokens.Identifier && Peek(1).kind == Tokens.DoubleColon) { TypeName( #line 1931 "cs.ATG" out type); #line 1931 "cs.ATG" pexpr = new TypeReferenceExpression(type); } else if (la.kind == 1) { lexer.NextToken(); #line 1933 "cs.ATG" pexpr = new IdentifierExpression(t.val); } else if (la.kind == 19) { lexer.NextToken(); Expr( #line 1935 "cs.ATG" out expr); Expect(20); #line 1935 "cs.ATG" pexpr = new ParenthesizedExpression(expr); } else if (StartOf(25)) { #line 1937 "cs.ATG" string val = null; switch (la.kind) { case 50: { lexer.NextToken(); #line 1939 "cs.ATG" val = "bool"; break; } case 52: { lexer.NextToken(); #line 1940 "cs.ATG" val = "byte"; break; } case 55: { lexer.NextToken(); #line 1941 "cs.ATG" val = "char"; break; } case 60: { lexer.NextToken(); #line 1942 "cs.ATG" val = "decimal"; break; } case 64: { lexer.NextToken(); #line 1943 "cs.ATG" val = "double"; break; } case 73: { lexer.NextToken(); #line 1944 "cs.ATG" val = "float"; break; } case 80: { lexer.NextToken(); #line 1945 "cs.ATG" val = "int"; break; } case 85: { lexer.NextToken(); #line 1946 "cs.ATG" val = "long"; break; } case 89: { lexer.NextToken(); #line 1947 "cs.ATG" val = "object"; break; } case 100: { lexer.NextToken(); #line 1948 "cs.ATG" val = "sbyte"; break; } case 102: { lexer.NextToken(); #line 1949 "cs.ATG" val = "short"; break; } case 106: { lexer.NextToken(); #line 1950 "cs.ATG" val = "string"; break; } case 114: { lexer.NextToken(); #line 1951 "cs.ATG" val = "uint"; break; } case 115: { lexer.NextToken(); #line 1952 "cs.ATG" val = "ulong"; break; } case 118: { lexer.NextToken(); #line 1953 "cs.ATG" val = "ushort"; break; } } #line 1954 "cs.ATG" t.val = ""; Expect(14); Expect(1); #line 1954 "cs.ATG" pexpr = new FieldReferenceExpression(new TypeReferenceExpression(val), t.val); } else if (la.kind == 109) { lexer.NextToken(); #line 1956 "cs.ATG" pexpr = new ThisReferenceExpression(); } else if (la.kind == 49) { lexer.NextToken(); #line 1958 "cs.ATG" Expression retExpr = new BaseReferenceExpression(); if (la.kind == 14) { lexer.NextToken(); Expect(1); #line 1960 "cs.ATG" retExpr = new FieldReferenceExpression(retExpr, t.val); } else if (la.kind == 17) { lexer.NextToken(); Expr( #line 1961 "cs.ATG" out expr); #line 1961 "cs.ATG" ArrayList indices = new ArrayList(); if (expr != null) { indices.Add(expr); } while (la.kind == 13) { lexer.NextToken(); Expr( #line 1962 "cs.ATG" out expr); #line 1962 "cs.ATG" if (expr != null) { indices.Add(expr); } } Expect(18); #line 1963 "cs.ATG" retExpr = new IndexerExpression(retExpr, indices); } else SynErr(176); #line 1964 "cs.ATG" pexpr = retExpr; } else if (la.kind == 87) { lexer.NextToken(); NonArrayType( #line 1965 "cs.ATG" out type); #line 1965 "cs.ATG" ArrayList parameters = new ArrayList(); if (la.kind == 19) { lexer.NextToken(); #line 1970 "cs.ATG" ObjectCreateExpression oce = new ObjectCreateExpression(type, parameters); if (StartOf(21)) { Argument( #line 1971 "cs.ATG" out expr); #line 1971 "cs.ATG" if (expr != null) { parameters.Add(expr); } while (la.kind == 13) { lexer.NextToken(); Argument( #line 1972 "cs.ATG" out expr); #line 1972 "cs.ATG" if (expr != null) { parameters.Add(expr); } } } Expect(20); #line 1974 "cs.ATG" pexpr = oce; } else if (la.kind == 17) { #line 1976 "cs.ATG" isArrayCreation = true; ArrayCreateExpression ace = new ArrayCreateExpression(type); pexpr = ace; lexer.NextToken(); #line 1977 "cs.ATG" int dims = 0; ArrayList rank = new ArrayList(); ArrayList parameterExpression = new ArrayList(); if (StartOf(4)) { Expr( #line 1981 "cs.ATG" out expr); #line 1981 "cs.ATG" if (expr != null) { parameterExpression.Add(expr); } while (la.kind == 13) { lexer.NextToken(); Expr( #line 1983 "cs.ATG" out expr); #line 1983 "cs.ATG" if (expr != null) { parameterExpression.Add(expr); } } Expect(18); #line 1985 "cs.ATG" parameters.Add(new ArrayCreationParameter(parameterExpression)); ace.Parameters = parameters; while ( #line 1988 "cs.ATG" IsDims()) { Expect(17); #line 1988 "cs.ATG" dims =0; while (la.kind == 13) { lexer.NextToken(); #line 1989 "cs.ATG" dims++; } #line 1989 "cs.ATG" rank.Add(dims); parameters.Add(new ArrayCreationParameter(dims)); Expect(18); } #line 1993 "cs.ATG" if (rank.Count > 0) { ace.Rank = (int[])rank.ToArray(typeof (int)); } if (la.kind == 15) { ArrayInitializer( #line 1997 "cs.ATG" out expr); #line 1997 "cs.ATG" ace.ArrayInitializer = (ArrayInitializerExpression)expr; } } else if (la.kind == 13 || la.kind == 18) { while (la.kind == 13) { lexer.NextToken(); #line 1999 "cs.ATG" dims++; } #line 2000 "cs.ATG" parameters.Add(new ArrayCreationParameter(dims)); Expect(18); while ( #line 2002 "cs.ATG" IsDims()) { Expect(17); #line 2002 "cs.ATG" dims =0; while (la.kind == 13) { lexer.NextToken(); #line 2002 "cs.ATG" dims++; } #line 2002 "cs.ATG" parameters.Add(new ArrayCreationParameter(dims)); Expect(18); } ArrayInitializer( #line 2002 "cs.ATG" out expr); #line 2002 "cs.ATG" ace.ArrayInitializer = (ArrayInitializerExpression)expr; ace.Parameters = parameters; } else SynErr(177); } else SynErr(178); } else if (la.kind == 113) { lexer.NextToken(); Expect(19); if ( #line 2008 "cs.ATG" NotVoidPointer()) { Expect(121); #line 2008 "cs.ATG" type = new TypeReference("void"); } else if (StartOf(8)) { Type( #line 2009 "cs.ATG" out type); } else SynErr(179); Expect(20); #line 2010 "cs.ATG" pexpr = new TypeOfExpression(type); } else if (la.kind == 103) { lexer.NextToken(); Expect(19); Type( #line 2011 "cs.ATG" out type); Expect(20); #line 2011 "cs.ATG" pexpr = new SizeOfExpression(type); } else if (la.kind == 56) { lexer.NextToken(); Expect(19); Expr( #line 2012 "cs.ATG" out expr); Expect(20); #line 2012 "cs.ATG" pexpr = new CheckedExpression(expr); } else if (la.kind == 116) { lexer.NextToken(); Expect(19); Expr( #line 2013 "cs.ATG" out expr); Expect(20); #line 2013 "cs.ATG" pexpr = new UncheckedExpression(expr); } else if (la.kind == 62) { lexer.NextToken(); AnonymousMethodExpr( #line 2014 "cs.ATG" out expr); #line 2014 "cs.ATG" pexpr = expr; } else SynErr(180); while (StartOf(26) || #line 2035 "cs.ATG" IsGenericFollowedBy(Tokens.Dot) && IsTypeReferenceExpression(pexpr) || #line 2043 "cs.ATG" IsGenericFollowedBy(Tokens.OpenParenthesis)) { if (la.kind == 30 || la.kind == 31) { if (la.kind == 30) { lexer.NextToken(); #line 2018 "cs.ATG" pexpr = new UnaryOperatorExpression(pexpr, UnaryOperatorType.PostIncrement); } else if (la.kind == 31) { lexer.NextToken(); #line 2019 "cs.ATG" pexpr = new UnaryOperatorExpression(pexpr, UnaryOperatorType.PostDecrement); } else SynErr(181); } else if (la.kind == 46) { lexer.NextToken(); Expect(1); #line 2022 "cs.ATG" pexpr = new PointerReferenceExpression(pexpr, t.val); } else if (la.kind == 14) { lexer.NextToken(); Expect(1); #line 2023 "cs.ATG" pexpr = new FieldReferenceExpression(pexpr, t.val); } else if ( #line 2035 "cs.ATG" IsGenericFollowedBy(Tokens.Dot) && IsTypeReferenceExpression(pexpr)) { TypeArgumentList( #line 2036 "cs.ATG" out typeList); Expect(14); Expect(1); #line 2037 "cs.ATG" pexpr = new FieldReferenceExpression(GetTypeReferenceExpression(pexpr, typeList), t.val); } else if (la.kind == 19) { lexer.NextToken(); #line 2039 "cs.ATG" ArrayList parameters = new ArrayList(); if (StartOf(21)) { Argument( #line 2040 "cs.ATG" out expr); #line 2040 "cs.ATG" if (expr != null) {parameters.Add(expr);} while (la.kind == 13) { lexer.NextToken(); Argument( #line 2041 "cs.ATG" out expr); #line 2041 "cs.ATG" if (expr != null) {parameters.Add(expr);} } } Expect(20); #line 2042 "cs.ATG" pexpr = new InvocationExpression(pexpr, parameters); } else if ( #line 2043 "cs.ATG" IsGenericFollowedBy(Tokens.OpenParenthesis)) { TypeArgumentList( #line 2043 "cs.ATG" out typeList); Expect(19); #line 2044 "cs.ATG" ArrayList parameters = new ArrayList(); if (StartOf(21)) { Argument( #line 2045 "cs.ATG" out expr); #line 2045 "cs.ATG" if (expr != null) {parameters.Add(expr);} while (la.kind == 13) { lexer.NextToken(); Argument( #line 2046 "cs.ATG" out expr); #line 2046 "cs.ATG" if (expr != null) {parameters.Add(expr);} } } Expect(20); #line 2047 "cs.ATG" pexpr = new InvocationExpression(pexpr, parameters, typeList); } else { #line 2049 "cs.ATG" if (isArrayCreation) Error("element access not allow on array creation"); ArrayList indices = new ArrayList(); lexer.NextToken(); Expr( #line 2052 "cs.ATG" out expr); #line 2052 "cs.ATG" if (expr != null) { indices.Add(expr); } while (la.kind == 13) { lexer.NextToken(); Expr( #line 2053 "cs.ATG" out expr); #line 2053 "cs.ATG" if (expr != null) { indices.Add(expr); } } Expect(18); #line 2054 "cs.ATG" pexpr = new IndexerExpression(pexpr, indices); } } } void AnonymousMethodExpr( #line 2058 "cs.ATG" out Expression outExpr) { #line 2060 "cs.ATG" AnonymousMethodExpression expr = new AnonymousMethodExpression(); expr.StartLocation = t.Location; Statement stmt; List p = new List(); outExpr = expr; Expect(19); if (StartOf(9)) { FormalParameterList( #line 2068 "cs.ATG" p); #line 2068 "cs.ATG" expr.Parameters = p; } Expect(20); #line 2072 "cs.ATG" if (compilationUnit != null) { Block( #line 2073 "cs.ATG" out stmt); #line 2073 "cs.ATG" expr.Body = (BlockStatement)stmt; #line 2074 "cs.ATG" } else { Expect(15); #line 2076 "cs.ATG" lexer.SkipCurrentBlock(); Expect(16); #line 2078 "cs.ATG" } #line 2079 "cs.ATG" expr.EndLocation = t.Location; } void TypeArgumentList( #line 2228 "cs.ATG" out List types) { #line 2230 "cs.ATG" types = new List(); TypeReference type = null; Expect(22); Type( #line 2234 "cs.ATG" out type); #line 2234 "cs.ATG" types.Add(type); while (la.kind == 13) { lexer.NextToken(); Type( #line 2235 "cs.ATG" out type); #line 2235 "cs.ATG" types.Add(type); } Expect(21); } void ConditionalAndExpr( #line 2088 "cs.ATG" ref Expression outExpr) { #line 2089 "cs.ATG" Expression expr; InclusiveOrExpr( #line 2091 "cs.ATG" ref outExpr); while (la.kind == 24) { lexer.NextToken(); UnaryExpr( #line 2091 "cs.ATG" out expr); InclusiveOrExpr( #line 2091 "cs.ATG" ref expr); #line 2091 "cs.ATG" outExpr = new BinaryOperatorExpression(outExpr, BinaryOperatorType.LogicalAnd, expr); } } void InclusiveOrExpr( #line 2094 "cs.ATG" ref Expression outExpr) { #line 2095 "cs.ATG" Expression expr; ExclusiveOrExpr( #line 2097 "cs.ATG" ref outExpr); while (la.kind == 28) { lexer.NextToken(); UnaryExpr( #line 2097 "cs.ATG" out expr); ExclusiveOrExpr( #line 2097 "cs.ATG" ref expr); #line 2097 "cs.ATG" outExpr = new BinaryOperatorExpression(outExpr, BinaryOperatorType.BitwiseOr, expr); } } void ExclusiveOrExpr( #line 2100 "cs.ATG" ref Expression outExpr) { #line 2101 "cs.ATG" Expression expr; AndExpr( #line 2103 "cs.ATG" ref outExpr); while (la.kind == 29) { lexer.NextToken(); UnaryExpr( #line 2103 "cs.ATG" out expr); AndExpr( #line 2103 "cs.ATG" ref expr); #line 2103 "cs.ATG" outExpr = new BinaryOperatorExpression(outExpr, BinaryOperatorType.ExclusiveOr, expr); } } void AndExpr( #line 2106 "cs.ATG" ref Expression outExpr) { #line 2107 "cs.ATG" Expression expr; EqualityExpr( #line 2109 "cs.ATG" ref outExpr); while (la.kind == 27) { lexer.NextToken(); UnaryExpr( #line 2109 "cs.ATG" out expr); EqualityExpr( #line 2109 "cs.ATG" ref expr); #line 2109 "cs.ATG" outExpr = new BinaryOperatorExpression(outExpr, BinaryOperatorType.BitwiseAnd, expr); } } void EqualityExpr( #line 2112 "cs.ATG" ref Expression outExpr) { #line 2114 "cs.ATG" Expression expr; BinaryOperatorType op = BinaryOperatorType.None; RelationalExpr( #line 2118 "cs.ATG" ref outExpr); while (la.kind == 32 || la.kind == 33) { if (la.kind == 33) { lexer.NextToken(); #line 2121 "cs.ATG" op = BinaryOperatorType.InEquality; } else { lexer.NextToken(); #line 2122 "cs.ATG" op = BinaryOperatorType.Equality; } UnaryExpr( #line 2124 "cs.ATG" out expr); RelationalExpr( #line 2124 "cs.ATG" ref expr); #line 2124 "cs.ATG" outExpr = new BinaryOperatorExpression(outExpr, op, expr); } } void RelationalExpr( #line 2128 "cs.ATG" ref Expression outExpr) { #line 2130 "cs.ATG" TypeReference type; Expression expr; BinaryOperatorType op = BinaryOperatorType.None; ShiftExpr( #line 2135 "cs.ATG" ref outExpr); while (StartOf(27)) { if (StartOf(28)) { if (la.kind == 22) { lexer.NextToken(); #line 2138 "cs.ATG" op = BinaryOperatorType.LessThan; } else if (la.kind == 21) { lexer.NextToken(); #line 2139 "cs.ATG" op = BinaryOperatorType.GreaterThan; } else if (la.kind == 35) { lexer.NextToken(); #line 2140 "cs.ATG" op = BinaryOperatorType.LessThanOrEqual; } else if (la.kind == 34) { lexer.NextToken(); #line 2141 "cs.ATG" op = BinaryOperatorType.GreaterThanOrEqual; } else SynErr(182); UnaryExpr( #line 2143 "cs.ATG" out expr); ShiftExpr( #line 2143 "cs.ATG" ref expr); #line 2143 "cs.ATG" outExpr = new BinaryOperatorExpression(outExpr, op, expr); } else { if (la.kind == 83) { lexer.NextToken(); #line 2146 "cs.ATG" op = BinaryOperatorType.TypeCheck; } else if (la.kind == 48) { lexer.NextToken(); #line 2147 "cs.ATG" op = BinaryOperatorType.AsCast; } else SynErr(183); Type( #line 2149 "cs.ATG" out type); #line 2149 "cs.ATG" outExpr = new BinaryOperatorExpression(outExpr, op, new TypeReferenceExpression(type)); } } } void ShiftExpr( #line 2153 "cs.ATG" ref Expression outExpr) { #line 2155 "cs.ATG" Expression expr; BinaryOperatorType op = BinaryOperatorType.None; AdditiveExpr( #line 2159 "cs.ATG" ref outExpr); while (la.kind == 36 || #line 2162 "cs.ATG" IsShiftRight()) { if (la.kind == 36) { lexer.NextToken(); #line 2161 "cs.ATG" op = BinaryOperatorType.ShiftLeft; } else { Expect(21); Expect(21); #line 2163 "cs.ATG" op = BinaryOperatorType.ShiftRight; } UnaryExpr( #line 2166 "cs.ATG" out expr); AdditiveExpr( #line 2166 "cs.ATG" ref expr); #line 2166 "cs.ATG" outExpr = new BinaryOperatorExpression(outExpr, op, expr); } } void AdditiveExpr( #line 2170 "cs.ATG" ref Expression outExpr) { #line 2172 "cs.ATG" Expression expr; BinaryOperatorType op = BinaryOperatorType.None; MultiplicativeExpr( #line 2176 "cs.ATG" ref outExpr); while (la.kind == 4 || la.kind == 5) { if (la.kind == 4) { lexer.NextToken(); #line 2179 "cs.ATG" op = BinaryOperatorType.Add; } else { lexer.NextToken(); #line 2180 "cs.ATG" op = BinaryOperatorType.Subtract; } UnaryExpr( #line 2182 "cs.ATG" out expr); MultiplicativeExpr( #line 2182 "cs.ATG" ref expr); #line 2182 "cs.ATG" outExpr = new BinaryOperatorExpression(outExpr, op, expr); } } void MultiplicativeExpr( #line 2186 "cs.ATG" ref Expression outExpr) { #line 2188 "cs.ATG" Expression expr; BinaryOperatorType op = BinaryOperatorType.None; while (la.kind == 6 || la.kind == 7 || la.kind == 8) { if (la.kind == 6) { lexer.NextToken(); #line 2194 "cs.ATG" op = BinaryOperatorType.Multiply; } else if (la.kind == 7) { lexer.NextToken(); #line 2195 "cs.ATG" op = BinaryOperatorType.Divide; } else { lexer.NextToken(); #line 2196 "cs.ATG" op = BinaryOperatorType.Modulus; } UnaryExpr( #line 2198 "cs.ATG" out expr); #line 2198 "cs.ATG" outExpr = new BinaryOperatorExpression(outExpr, op, expr); } } void TypeParameterConstraintsClauseBase( #line 2280 "cs.ATG" out TypeReference type) { #line 2281 "cs.ATG" TypeReference t; type = null; if (la.kind == 107) { lexer.NextToken(); #line 2283 "cs.ATG" type = new TypeReference("struct"); } else if (la.kind == 57) { lexer.NextToken(); #line 2284 "cs.ATG" type = new TypeReference("struct"); } else if (la.kind == 87) { lexer.NextToken(); Expect(19); Expect(20); #line 2285 "cs.ATG" type = new TypeReference("struct"); } else if (StartOf(8)) { Type( #line 2286 "cs.ATG" out t); #line 2286 "cs.ATG" type = t; } else SynErr(184); } public Parser(ILexer lexer) : base(lexer) { } public override void Parse() { CS(); } protected void ExpectWeak(int n, int follow) { if (lexer.LookAhead.kind == n) { lexer.NextToken(); } else { SynErr(n); while (!StartOf(follow)) { lexer.NextToken(); } } } protected bool WeakSeparator(int n, int syFol, int repFol) { bool[] s = new bool[maxT + 1]; if (lexer.LookAhead.kind == n) { lexer.NextToken(); return true; } else if (StartOf(repFol)) { return false; } else { for (int i = 0; i <= maxT; i++) { s[i] = set[syFol, i] || set[repFol, i] || set[0, i]; } SynErr(n); while (!s[lexer.LookAhead.kind]) { lexer.NextToken(); } return StartOf(syFol); } } protected override void SynErr(int line, int col, int errorNumber) { errors.count++; string s; switch (errorNumber) { case 0: s = "EOF expected"; break; case 1: s = "ident expected"; break; case 2: s = "Literal expected"; break; case 3: s = "\"=\" expected"; break; case 4: s = "\"+\" expected"; break; case 5: s = "\"-\" expected"; break; case 6: s = "\"*\" expected"; break; case 7: s = "\"/\" expected"; break; case 8: s = "\"%\" expected"; break; case 9: s = "\":\" expected"; break; case 10: s = "\"::\" expected"; break; case 11: s = "\";\" expected"; break; case 12: s = "\"?\" expected"; break; case 13: s = "\",\" expected"; break; case 14: s = "\".\" expected"; break; case 15: s = "\"{\" expected"; break; case 16: s = "\"}\" expected"; break; case 17: s = "\"[\" expected"; break; case 18: s = "\"]\" expected"; break; case 19: s = "\"(\" expected"; break; case 20: s = "\")\" expected"; break; case 21: s = "\">\" expected"; break; case 22: s = "\"<\" expected"; break; case 23: s = "\"!\" expected"; break; case 24: s = "\"&&\" expected"; break; case 25: s = "\"||\" expected"; break; case 26: s = "\"~\" expected"; break; case 27: s = "\"&\" expected"; break; case 28: s = "\"|\" expected"; break; case 29: s = "\"^\" expected"; break; case 30: s = "\"++\" expected"; break; case 31: s = "\"--\" expected"; break; case 32: s = "\"==\" expected"; break; case 33: s = "\"!=\" expected"; break; case 34: s = "\">=\" expected"; break; case 35: s = "\"<=\" expected"; break; case 36: s = "\"<<\" expected"; break; case 37: s = "\"+=\" expected"; break; case 38: s = "\"-=\" expected"; break; case 39: s = "\"*=\" expected"; break; case 40: s = "\"/=\" expected"; break; case 41: s = "\"%=\" expected"; break; case 42: s = "\"&=\" expected"; break; case 43: s = "\"|=\" expected"; break; case 44: s = "\"^=\" expected"; break; case 45: s = "\"<<=\" expected"; break; case 46: s = "\"->\" expected"; break; case 47: s = "\"abstract\" expected"; break; case 48: s = "\"as\" expected"; break; case 49: s = "\"base\" expected"; break; case 50: s = "\"bool\" expected"; break; case 51: s = "\"break\" expected"; break; case 52: s = "\"byte\" expected"; break; case 53: s = "\"case\" expected"; break; case 54: s = "\"catch\" expected"; break; case 55: s = "\"char\" expected"; break; case 56: s = "\"checked\" expected"; break; case 57: s = "\"class\" expected"; break; case 58: s = "\"const\" expected"; break; case 59: s = "\"continue\" expected"; break; case 60: s = "\"decimal\" expected"; break; case 61: s = "\"default\" expected"; break; case 62: s = "\"delegate\" expected"; break; case 63: s = "\"do\" expected"; break; case 64: s = "\"double\" expected"; break; case 65: s = "\"else\" expected"; break; case 66: s = "\"enum\" expected"; break; case 67: s = "\"event\" expected"; break; case 68: s = "\"explicit\" expected"; break; case 69: s = "\"extern\" expected"; break; case 70: s = "\"false\" expected"; break; case 71: s = "\"finally\" expected"; break; case 72: s = "\"fixed\" expected"; break; case 73: s = "\"float\" expected"; break; case 74: s = "\"for\" expected"; break; case 75: s = "\"foreach\" expected"; break; case 76: s = "\"goto\" expected"; break; case 77: s = "\"if\" expected"; break; case 78: s = "\"implicit\" expected"; break; case 79: s = "\"in\" expected"; break; case 80: s = "\"int\" expected"; break; case 81: s = "\"interface\" expected"; break; case 82: s = "\"internal\" expected"; break; case 83: s = "\"is\" expected"; break; case 84: s = "\"lock\" expected"; break; case 85: s = "\"long\" expected"; break; case 86: s = "\"namespace\" expected"; break; case 87: s = "\"new\" expected"; break; case 88: s = "\"null\" expected"; break; case 89: s = "\"object\" expected"; break; case 90: s = "\"operator\" expected"; break; case 91: s = "\"out\" expected"; break; case 92: s = "\"override\" expected"; break; case 93: s = "\"params\" expected"; break; case 94: s = "\"private\" expected"; break; case 95: s = "\"protected\" expected"; break; case 96: s = "\"public\" expected"; break; case 97: s = "\"readonly\" expected"; break; case 98: s = "\"ref\" expected"; break; case 99: s = "\"return\" expected"; break; case 100: s = "\"sbyte\" expected"; break; case 101: s = "\"sealed\" expected"; break; case 102: s = "\"short\" expected"; break; case 103: s = "\"sizeof\" expected"; break; case 104: s = "\"stackalloc\" expected"; break; case 105: s = "\"static\" expected"; break; case 106: s = "\"string\" expected"; break; case 107: s = "\"struct\" expected"; break; case 108: s = "\"switch\" expected"; break; case 109: s = "\"this\" expected"; break; case 110: s = "\"throw\" expected"; break; case 111: s = "\"true\" expected"; break; case 112: s = "\"try\" expected"; break; case 113: s = "\"typeof\" expected"; break; case 114: s = "\"uint\" expected"; break; case 115: s = "\"ulong\" expected"; break; case 116: s = "\"unchecked\" expected"; break; case 117: s = "\"unsafe\" expected"; break; case 118: s = "\"ushort\" expected"; break; case 119: s = "\"using\" expected"; break; case 120: s = "\"virtual\" expected"; break; case 121: s = "\"void\" expected"; break; case 122: s = "\"volatile\" expected"; break; case 123: s = "\"while\" expected"; break; case 124: s = "??? expected"; break; case 125: s = "invalid NamespaceMemberDecl"; break; case 126: s = "invalid AttributeArguments"; break; case 127: s = "invalid Expr"; break; case 128: s = "invalid TypeModifier"; break; case 129: s = "invalid TypeDecl"; break; case 130: s = "invalid TypeDecl"; break; case 131: s = "invalid IntegralType"; break; case 132: s = "invalid Type"; break; case 133: s = "invalid Type"; break; case 134: s = "invalid FormalParameterList"; break; case 135: s = "invalid FormalParameterList"; break; case 136: s = "invalid ClassType"; break; case 137: s = "invalid MemberModifier"; break; case 138: s = "invalid ClassMemberDecl"; break; case 139: s = "invalid ClassMemberDecl"; break; case 140: s = "invalid StructMemberDecl"; break; case 141: s = "invalid StructMemberDecl"; break; case 142: s = "invalid StructMemberDecl"; break; case 143: s = "invalid StructMemberDecl"; break; case 144: s = "invalid StructMemberDecl"; break; case 145: s = "invalid StructMemberDecl"; break; case 146: s = "invalid StructMemberDecl"; break; case 147: s = "invalid StructMemberDecl"; break; case 148: s = "invalid StructMemberDecl"; break; case 149: s = "invalid StructMemberDecl"; break; case 150: s = "invalid InterfaceMemberDecl"; break; case 151: s = "invalid InterfaceMemberDecl"; break; case 152: s = "invalid InterfaceMemberDecl"; break; case 153: s = "invalid SimpleType"; break; case 154: s = "invalid NonArrayType"; break; case 155: s = "invalid EventAccessorDecls"; break; case 156: s = "invalid ConstructorInitializer"; break; case 157: s = "invalid OverloadableOperator"; break; case 158: s = "invalid AccessorDecls"; break; case 159: s = "invalid InterfaceAccessors"; break; case 160: s = "invalid InterfaceAccessors"; break; case 161: s = "invalid GetAccessorDecl"; break; case 162: s = "invalid SetAccessorDecl"; break; case 163: s = "invalid VariableInitializer"; break; case 164: s = "invalid Statement"; break; case 165: s = "invalid AssignmentOperator"; break; case 166: s = "invalid EmbeddedStatement"; break; case 167: s = "invalid EmbeddedStatement"; break; case 168: s = "invalid EmbeddedStatement"; break; case 169: s = "invalid ForInitializer"; break; case 170: s = "invalid GotoStatement"; break; case 171: s = "invalid StatementExpr"; break; case 172: s = "invalid TryStatement"; break; case 173: s = "invalid ResourceAcquisition"; break; case 174: s = "invalid SwitchLabel"; break; case 175: s = "invalid CatchClauses"; break; case 176: s = "invalid PrimaryExpr"; break; case 177: s = "invalid PrimaryExpr"; break; case 178: s = "invalid PrimaryExpr"; break; case 179: s = "invalid PrimaryExpr"; break; case 180: s = "invalid PrimaryExpr"; break; case 181: s = "invalid PrimaryExpr"; break; case 182: s = "invalid RelationalExpr"; break; case 183: s = "invalid RelationalExpr"; break; case 184: s = "invalid TypeParameterConstraintsClauseBase"; break; default: s = "error " + errorNumber; break; } errors.Error(line, col, s); } protected bool StartOf(int s) { return set[s, lexer.LookAhead.kind]; } static bool[,] set = { {T,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x}, {x,T,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,T,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,T, x,x,x,x, x,x,x,x, x,T,x,x, x,x,T,x, x,x,T,x, x,x,x,x, x,x,x,x, x,x,x,x, x,T,T,x, x,x,T,T, x,x,x,x, x,x,T,T, T,x,x,x, x,T,x,x, x,T,x,T, x,x,x,x, x,x,x,x, x,T,x,x, x,x,x,x, x,x}, {x,T,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,T,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,T, x,x,x,x, x,x,x,x, x,T,x,x, x,x,T,x, x,x,T,x, x,x,x,x, x,x,x,x, x,x,x,x, x,T,T,x, x,x,x,T, x,x,x,x, x,x,T,T, T,x,x,x, x,T,x,x, x,T,x,T, x,x,x,x, x,x,x,x, x,T,x,x, x,x,x,x, x,x}, {x,T,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,T, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,x,x, x,x,T,x, x,x,x,T, x,x,x,x, x,x,T,T, T,x,x,x, x,T,x,x, x,T,x,x, x,x,x,x, x,x,x,x, x,T,x,x, x,x,x,x, x,x}, 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