Inheritance: ICSharpCode.NRefactory.Ast.Expression
		public override void GenerateCode(List<AbstractNode> nodes, IList items)
		{
			TypeReference intReference = new TypeReference("System.Int32");
			MethodDeclaration method = new MethodDeclaration("GetHashCode", Modifiers.Public | Modifiers.Override, intReference, null, null);
			Expression expr = CallGetHashCode(new IdentifierExpression(currentClass.Fields[0].Name));
			for (int i = 1; i < currentClass.Fields.Count; i++) {
				IdentifierExpression identifier = new IdentifierExpression(currentClass.Fields[i].Name);
				expr = new BinaryOperatorExpression(expr, BinaryOperatorType.ExclusiveOr,
				                                    CallGetHashCode(identifier));
			}
			method.Body = new BlockStatement();
			method.Body.AddChild(new ReturnStatement(expr));
			nodes.Add(method);
			
			TypeReference boolReference = new TypeReference("System.Boolean");
			TypeReference objectReference = new TypeReference("System.Object");
			
			method = new MethodDeclaration("Equals", Modifiers.Public | Modifiers.Override, boolReference, null, null);
			method.Parameters.Add(new ParameterDeclarationExpression(objectReference, "obj"));
			method.Body = new BlockStatement();
			
			TypeReference currentType = ConvertType(currentClass.DefaultReturnType);
			expr = new TypeOfIsExpression(new IdentifierExpression("obj"), currentType);
			expr = new ParenthesizedExpression(expr);
			expr = new UnaryOperatorExpression(expr, UnaryOperatorType.Not);
			method.Body.AddChild(new IfElseStatement(expr, new ReturnStatement(new PrimitiveExpression(false, "false"))));
			
			expr = new BinaryOperatorExpression(new ThisReferenceExpression(),
			                                    BinaryOperatorType.Equality,
			                                    new IdentifierExpression("obj"));
			method.Body.AddChild(new IfElseStatement(expr, new ReturnStatement(new PrimitiveExpression(true, "true"))));
			
			VariableDeclaration var = new VariableDeclaration("my" + currentClass.Name,
			                                                  new CastExpression(currentType, new IdentifierExpression("obj"), CastType.Cast),
			                                                  currentType);
			method.Body.AddChild(new LocalVariableDeclaration(var));
			
			expr = TestEquality(var.Name, currentClass.Fields[0]);
			for (int i = 1; i < currentClass.Fields.Count; i++) {
				expr = new BinaryOperatorExpression(expr, BinaryOperatorType.LogicalAnd,
				                                    TestEquality(var.Name, currentClass.Fields[i]));
			}
			
			method.Body.AddChild(new ReturnStatement(expr));
			
			nodes.Add(method);
		}
Exemplo n.º 2
0
		public override object VisitTypeOfIsExpression(TypeOfIsExpression typeOfIsExpression, object data)
		{
			return CreateResolveResult(resolver.ProjectContent.SystemTypes.Boolean);
		}
		public object VisitTypeOfIsExpression(TypeOfIsExpression typeOfIsExpression, object data)
		{
			return new B.BinaryExpression(GetLexicalInfo(typeOfIsExpression), B.BinaryOperatorType.TypeTest,
			                              ConvertExpression(typeOfIsExpression.Expression),
			                              new B.TypeofExpression(GetLexicalInfo(typeOfIsExpression), ConvertTypeReference(typeOfIsExpression.TypeReference)));
		}
 public override object TrackedVisitTypeOfIsExpression(TypeOfIsExpression typeOfIsExpression, object data)
 {
     Console.WriteLine("VisitTypeOfIsExpression");
     return null;
 }
		public virtual object TrackedVisitTypeOfIsExpression(TypeOfIsExpression typeOfIsExpression, object data) {
			return base.VisitTypeOfIsExpression(typeOfIsExpression, data);
		}
Exemplo n.º 6
0
	void SimpleNonInvocationExpression(
#line  1645 "VBNET.ATG" 
out Expression pexpr) {

#line  1647 "VBNET.ATG" 
		Expression expr;
		TypeReference type = null;
		string name = String.Empty;
		pexpr = null;
		
		if (StartOf(32)) {
			switch (la.kind) {
			case 3: {
				lexer.NextToken();

#line  1655 "VBNET.ATG" 
				pexpr = new PrimitiveExpression(t.literalValue, t.val) { LiteralFormat = t.literalFormat };  
				break;
			}
			case 4: {
				lexer.NextToken();

#line  1656 "VBNET.ATG" 
				pexpr = new PrimitiveExpression(t.literalValue, t.val) { LiteralFormat = t.literalFormat };  
				break;
			}
			case 7: {
				lexer.NextToken();

#line  1657 "VBNET.ATG" 
				pexpr = new PrimitiveExpression(t.literalValue, t.val) { LiteralFormat = t.literalFormat };  
				break;
			}
			case 6: {
				lexer.NextToken();

#line  1658 "VBNET.ATG" 
				pexpr = new PrimitiveExpression(t.literalValue, t.val) { LiteralFormat = t.literalFormat };  
				break;
			}
			case 5: {
				lexer.NextToken();

#line  1659 "VBNET.ATG" 
				pexpr = new PrimitiveExpression(t.literalValue, t.val) { LiteralFormat = t.literalFormat };  
				break;
			}
			case 9: {
				lexer.NextToken();

#line  1660 "VBNET.ATG" 
				pexpr = new PrimitiveExpression(t.literalValue, t.val) { LiteralFormat = t.literalFormat };  
				break;
			}
			case 8: {
				lexer.NextToken();

#line  1661 "VBNET.ATG" 
				pexpr = new PrimitiveExpression(t.literalValue, t.val) { LiteralFormat = t.literalFormat };  
				break;
			}
			case 202: {
				lexer.NextToken();

#line  1663 "VBNET.ATG" 
				pexpr = new PrimitiveExpression(true, "true");  
				break;
			}
			case 109: {
				lexer.NextToken();

#line  1664 "VBNET.ATG" 
				pexpr = new PrimitiveExpression(false, "false"); 
				break;
			}
			case 151: {
				lexer.NextToken();

#line  1665 "VBNET.ATG" 
				pexpr = new PrimitiveExpression(null, "null");  
				break;
			}
			case 25: {
				lexer.NextToken();
				Expr(
#line  1666 "VBNET.ATG" 
out expr);
				Expect(26);

#line  1666 "VBNET.ATG" 
				pexpr = new ParenthesizedExpression(expr); 
				break;
			}
			case 2: case 45: case 49: case 51: case 52: case 53: case 54: case 57: case 74: case 85: case 91: case 94: case 103: case 108: case 113: case 120: case 126: case 130: case 133: case 156: case 162: case 169: case 188: case 197: case 198: case 208: case 209: case 215: {
				Identifier();

#line  1668 "VBNET.ATG" 
				pexpr = new IdentifierExpression(t.val);
				pexpr.StartLocation = t.Location; pexpr.EndLocation = t.EndLocation;
				
				if (
#line  1671 "VBNET.ATG" 
la.kind == Tokens.OpenParenthesis && Peek(1).kind == Tokens.Of) {
					lexer.NextToken();
					Expect(155);
					TypeArgumentList(
#line  1672 "VBNET.ATG" 
((IdentifierExpression)pexpr).TypeArguments);
					Expect(26);
				}
				break;
			}
			case 55: case 58: case 69: case 86: case 87: case 96: case 128: case 137: case 154: case 181: case 186: case 187: case 193: case 206: case 207: case 210: {

#line  1674 "VBNET.ATG" 
				string val = String.Empty; 
				if (StartOf(11)) {
					PrimitiveTypeName(
#line  1675 "VBNET.ATG" 
out val);
				} else if (la.kind == 154) {
					lexer.NextToken();

#line  1675 "VBNET.ATG" 
					val = "System.Object"; 
				} else SynErr(257);

#line  1676 "VBNET.ATG" 
				pexpr = new TypeReferenceExpression(new TypeReference(val, true)); 
				break;
			}
			case 139: {
				lexer.NextToken();

#line  1677 "VBNET.ATG" 
				pexpr = new ThisReferenceExpression(); 
				break;
			}
			case 144: case 145: {

#line  1678 "VBNET.ATG" 
				Expression retExpr = null; 
				if (la.kind == 144) {
					lexer.NextToken();

#line  1679 "VBNET.ATG" 
					retExpr = new BaseReferenceExpression(); 
				} else if (la.kind == 145) {
					lexer.NextToken();

#line  1680 "VBNET.ATG" 
					retExpr = new ClassReferenceExpression(); 
				} else SynErr(258);
				Expect(16);
				IdentifierOrKeyword(
#line  1682 "VBNET.ATG" 
out name);

#line  1682 "VBNET.ATG" 
				pexpr = new MemberReferenceExpression(retExpr, name); 
				break;
			}
			case 117: {
				lexer.NextToken();
				Expect(16);
				Identifier();

#line  1684 "VBNET.ATG" 
				type = new TypeReference(t.val ?? ""); 

#line  1686 "VBNET.ATG" 
				type.IsGlobal = true; 

#line  1687 "VBNET.ATG" 
				pexpr = new TypeReferenceExpression(type); 
				break;
			}
			case 148: {
				ObjectCreateExpression(
#line  1688 "VBNET.ATG" 
out expr);

#line  1688 "VBNET.ATG" 
				pexpr = expr; 
				break;
			}
			case 81: case 93: case 204: {

#line  1690 "VBNET.ATG" 
				CastType castType = CastType.Cast; 
				if (la.kind == 93) {
					lexer.NextToken();
				} else if (la.kind == 81) {
					lexer.NextToken();

#line  1692 "VBNET.ATG" 
					castType = CastType.Conversion; 
				} else if (la.kind == 204) {
					lexer.NextToken();

#line  1693 "VBNET.ATG" 
					castType = CastType.TryCast; 
				} else SynErr(259);
				Expect(25);
				Expr(
#line  1695 "VBNET.ATG" 
out expr);
				Expect(12);
				TypeName(
#line  1695 "VBNET.ATG" 
out type);
				Expect(26);

#line  1696 "VBNET.ATG" 
				pexpr = new CastExpression(type, expr, castType); 
				break;
			}
			case 63: case 64: case 65: case 66: case 67: case 68: case 70: case 72: case 73: case 77: case 78: case 79: case 80: case 82: case 83: case 84: {
				CastTarget(
#line  1697 "VBNET.ATG" 
out type);
				Expect(25);
				Expr(
#line  1697 "VBNET.ATG" 
out expr);
				Expect(26);

#line  1697 "VBNET.ATG" 
				pexpr = new CastExpression(type, expr, CastType.PrimitiveConversion); 
				break;
			}
			case 44: {
				lexer.NextToken();
				Expr(
#line  1698 "VBNET.ATG" 
out expr);

#line  1698 "VBNET.ATG" 
				pexpr = new AddressOfExpression(expr); 
				break;
			}
			case 116: {
				lexer.NextToken();
				Expect(25);
				GetTypeTypeName(
#line  1699 "VBNET.ATG" 
out type);
				Expect(26);

#line  1699 "VBNET.ATG" 
				pexpr = new TypeOfExpression(type); 
				break;
			}
			case 205: {
				lexer.NextToken();
				SimpleExpr(
#line  1700 "VBNET.ATG" 
out expr);
				Expect(131);
				TypeName(
#line  1700 "VBNET.ATG" 
out type);

#line  1700 "VBNET.ATG" 
				pexpr = new TypeOfIsExpression(expr, type); 
				break;
			}
			case 122: {
				ConditionalExpression(
#line  1701 "VBNET.ATG" 
out pexpr);
				break;
			}
			}
		} else if (la.kind == 16) {
			lexer.NextToken();
			IdentifierOrKeyword(
#line  1705 "VBNET.ATG" 
out name);

#line  1705 "VBNET.ATG" 
			pexpr = new MemberReferenceExpression(null, name);
		} else SynErr(260);
	}
Exemplo n.º 7
0
	void RelationalExpr(
#line  2251 "cs.ATG" 
ref Expression outExpr) {

#line  2253 "cs.ATG" 
		TypeReference type;
		Expression expr;
		BinaryOperatorType op = BinaryOperatorType.None;
		Location startLocation = la.Location;
		
		ShiftExpr(
#line  2259 "cs.ATG" 
ref outExpr);
		while (StartOf(37)) {
			if (StartOf(38)) {
				if (la.kind == 23) {
					lexer.NextToken();

#line  2261 "cs.ATG" 
					op = BinaryOperatorType.LessThan; 
				} else if (la.kind == 22) {
					lexer.NextToken();

#line  2262 "cs.ATG" 
					op = BinaryOperatorType.GreaterThan; 
				} else if (la.kind == 36) {
					lexer.NextToken();

#line  2263 "cs.ATG" 
					op = BinaryOperatorType.LessThanOrEqual; 
				} else if (la.kind == 35) {
					lexer.NextToken();

#line  2264 "cs.ATG" 
					op = BinaryOperatorType.GreaterThanOrEqual; 
				} else SynErr(215);
				UnaryExpr(
#line  2266 "cs.ATG" 
out expr);
				ShiftExpr(
#line  2267 "cs.ATG" 
ref expr);

#line  2268 "cs.ATG" 
				outExpr = new BinaryOperatorExpression(outExpr, op, expr) { StartLocation = startLocation, EndLocation = t.EndLocation }; 
			} else {
				if (la.kind == 85) {
					lexer.NextToken();
					TypeWithRestriction(
#line  2271 "cs.ATG" 
out type, false, false);
					if (
#line  2272 "cs.ATG" 
la.kind == Tokens.Question && !IsPossibleExpressionStart(Peek(1).kind)) {
						NullableQuestionMark(
#line  2273 "cs.ATG" 
ref type);
					}

#line  2274 "cs.ATG" 
					outExpr = new TypeOfIsExpression(outExpr, type)  { StartLocation = startLocation, EndLocation = t.EndLocation }; 
				} else if (la.kind == 50) {
					lexer.NextToken();
					TypeWithRestriction(
#line  2276 "cs.ATG" 
out type, false, false);
					if (
#line  2277 "cs.ATG" 
la.kind == Tokens.Question && !IsPossibleExpressionStart(Peek(1).kind)) {
						NullableQuestionMark(
#line  2278 "cs.ATG" 
ref type);
					}

#line  2279 "cs.ATG" 
					outExpr = new CastExpression(type, outExpr, CastType.TryCast) { StartLocation = startLocation, EndLocation = t.EndLocation }; 
				} else SynErr(216);
			}
		}
	}
Exemplo n.º 8
0
	void RelationalExpr(
//#line  2213 "cs.ATG" 
ref Expression outExpr) {

//#line  2215 "cs.ATG" 
		TypeReference type;
		Expression expr;
		BinaryOperatorType op = BinaryOperatorType.None;
		
		ShiftExpr(
//#line  2220 "cs.ATG" 
ref outExpr);
		while (StartOf(37)) {
			if (StartOf(38)) {
				if (la.kind == 23) {
					lexer.NextToken();

//#line  2222 "cs.ATG" 
					op = BinaryOperatorType.LessThan; 
				} else if (la.kind == 22) {
					lexer.NextToken();

//#line  2223 "cs.ATG" 
					op = BinaryOperatorType.GreaterThan; 
				} else if (la.kind == 36) {
					lexer.NextToken();

//#line  2224 "cs.ATG" 
					op = BinaryOperatorType.LessThanOrEqual; 
				} else if (la.kind == 35) {
					lexer.NextToken();

//#line  2225 "cs.ATG" 
					op = BinaryOperatorType.GreaterThanOrEqual; 
				} else SynErr(213);
				UnaryExpr(
//#line  2227 "cs.ATG" 
out expr);
				ShiftExpr(
//#line  2228 "cs.ATG" 
ref expr);

//#line  2229 "cs.ATG" 
				outExpr = new BinaryOperatorExpression(outExpr, op, expr); 
			} else {
				if (la.kind == 85) {
					lexer.NextToken();
					TypeWithRestriction(
//#line  2232 "cs.ATG" 
out type, false, false);
					if (
//#line  2233 "cs.ATG" 
la.kind == Tokens.Question && !IsPossibleExpressionStart(Peek(1).kind)) {
						NullableQuestionMark(
//#line  2234 "cs.ATG" 
ref type);
					}

//#line  2235 "cs.ATG" 
					outExpr = new TypeOfIsExpression(outExpr, type); 
				} else if (la.kind == 50) {
					lexer.NextToken();
					TypeWithRestriction(
//#line  2237 "cs.ATG" 
out type, false, false);
					if (
//#line  2238 "cs.ATG" 
la.kind == Tokens.Question && !IsPossibleExpressionStart(Peek(1).kind)) {
						NullableQuestionMark(
//#line  2239 "cs.ATG" 
ref type);
					}

//#line  2240 "cs.ATG" 
					outExpr = new CastExpression(type, outExpr, CastType.TryCast); 
				} else SynErr(214);
			}
		}
	}
 public virtual bool VisitTypeOfIsExpression(TypeOfIsExpression typeOfIsExpression, object d)
 {
     if ((typeOfIsExpression == null)) {
         return SetFailure();
     }
     if ((d == null)) {
         return SetFailure();
     }
     if ((typeOfIsExpression.Expression == null)) {
         return SetFailure();
     }
     if ((typeOfIsExpression.TypeReference == null)) {
         return SetFailure();
     }
     if(typeOfIsExpression.GetType() != d.GetType()) {return SetFailure();}
     var data = (TypeOfIsExpression)d;
     if (!IsMatch(typeOfIsExpression, data)) {
         return SetFailure();
     }
     typeOfIsExpression.Expression.AcceptVisitor(this, data.Expression);
     return typeOfIsExpression.TypeReference.AcceptVisitor(this, data.TypeReference);
 }
		List<MethodDeclaration> CreateEqualsOverrides(IClass currentClass)
		{
			List<MethodDeclaration> methods = new List<MethodDeclaration>();
			
			TypeReference boolReference = new TypeReference("System.Boolean", true);
			TypeReference objectReference = new TypeReference("System.Object", true);
			
			MethodDeclaration method = new MethodDeclaration {
				Name = "Equals",
				Modifier = Modifiers.Public | Modifiers.Override,
				TypeReference = boolReference
			};
			method.Parameters.Add(new ParameterDeclarationExpression(objectReference, "obj"));
			method.Body = new BlockStatement();
			
			TypeReference currentType = ConvertType(currentClass.DefaultReturnType);
			
			Expression expr = null;
			
			if (currentClass.ClassType == Dom.ClassType.Struct) {
				// return obj is CurrentType && Equals((CurrentType)obj);
				expr = new TypeOfIsExpression(new IdentifierExpression("obj"), currentType);
				expr = new ParenthesizedExpression(expr);
				expr = new BinaryOperatorExpression(
					expr, BinaryOperatorType.LogicalAnd,
					new InvocationExpression(
						new IdentifierExpression("Equals"),
						new List<Expression> {
							new CastExpression(currentType, new IdentifierExpression("obj"), CastType.Cast)
						}));
				method.Body.AddChild(new ReturnStatement(expr));
				
				methods.Add(method);
				
				// IEquatable implementation:
				method = new MethodDeclaration {
					Name = "Equals",
					Modifier = Modifiers.Public,
					TypeReference = boolReference
				};
				method.Parameters.Add(new ParameterDeclarationExpression(currentType, "other"));
				method.Body = new BlockStatement();
			} else {
				method.Body.AddChild(new LocalVariableDeclaration(new VariableDeclaration(
					"other",
					new CastExpression(currentType, new IdentifierExpression("obj"), CastType.TryCast),
					currentType)));
				method.Body.AddChild(new IfElseStatement(
					new BinaryOperatorExpression(new IdentifierExpression("other"), BinaryOperatorType.ReferenceEquality, new PrimitiveExpression(null, "null")),
					new ReturnStatement(new PrimitiveExpression(false, "false"))));
				
//				expr = new BinaryOperatorExpression(new ThisReferenceExpression(),
//				                                    BinaryOperatorType.ReferenceEquality,
//				                                    new IdentifierExpression("obj"));
//				method.Body.AddChild(new IfElseStatement(expr, new ReturnStatement(new PrimitiveExpression(true, "true"))));
			}
			
			
			expr = null;
			foreach (IField field in currentClass.Fields) {
				if (field.IsStatic) continue;
				
				if (expr == null) {
					expr = TestEquality("other", field);
				} else {
					expr = new BinaryOperatorExpression(expr, BinaryOperatorType.LogicalAnd,
					                                    TestEquality("other", field));
				}
			}
			
			foreach (IProperty property in currentClass.Properties) {
				if (property.IsStatic || !property.IsAutoImplemented()) continue;
				if (expr == null) {
					expr = TestEquality("other", property);
				} else {
					expr = new BinaryOperatorExpression(expr, BinaryOperatorType.LogicalAnd,
					                                    TestEquality("other", property));
				}
			}
			
			method.Body.AddChild(new ReturnStatement(expr ?? new PrimitiveExpression(true, "true")));
			
			methods.Add(method);
			
			return methods;
		}
Exemplo n.º 11
0
	void RelationalExpr(
#line  2177 "cs.ATG" 
ref Expression outExpr) {

#line  2179 "cs.ATG" 
		TypeReference type;
		Expression expr;
		BinaryOperatorType op = BinaryOperatorType.None;
		
		ShiftExpr(
#line  2184 "cs.ATG" 
ref outExpr);
		while (StartOf(37)) {
			if (StartOf(38)) {
				if (la.kind == 23) {
					lexer.NextToken();

#line  2186 "cs.ATG" 
					op = BinaryOperatorType.LessThan; 
				} else if (la.kind == 22) {
					lexer.NextToken();

#line  2187 "cs.ATG" 
					op = BinaryOperatorType.GreaterThan; 
				} else if (la.kind == 36) {
					lexer.NextToken();

#line  2188 "cs.ATG" 
					op = BinaryOperatorType.LessThanOrEqual; 
				} else if (la.kind == 35) {
					lexer.NextToken();

#line  2189 "cs.ATG" 
					op = BinaryOperatorType.GreaterThanOrEqual; 
				} else SynErr(216);
				UnaryExpr(
#line  2191 "cs.ATG" 
out expr);
				ShiftExpr(
#line  2192 "cs.ATG" 
ref expr);

#line  2193 "cs.ATG" 
				outExpr = new BinaryOperatorExpression(outExpr, op, expr); 
			} else {
				if (la.kind == 85) {
					lexer.NextToken();
					TypeWithRestriction(
#line  2196 "cs.ATG" 
out type, false, false);
					if (
#line  2197 "cs.ATG" 
la.kind == Tokens.Question && !IsPossibleExpressionStart(Peek(1).kind)) {
						NullableQuestionMark(
#line  2198 "cs.ATG" 
ref type);
					}

#line  2199 "cs.ATG" 
					outExpr = new TypeOfIsExpression(outExpr, type); 
				} else if (la.kind == 50) {
					lexer.NextToken();
					TypeWithRestriction(
#line  2201 "cs.ATG" 
out type, false, false);
					if (
#line  2202 "cs.ATG" 
la.kind == Tokens.Question && !IsPossibleExpressionStart(Peek(1).kind)) {
						NullableQuestionMark(
#line  2203 "cs.ATG" 
ref type);
					}

#line  2204 "cs.ATG" 
					outExpr = new CastExpression(type, outExpr, CastType.TryCast); 
				} else SynErr(217);
			}
		}
	}
 private bool IsMatch(TypeOfIsExpression left, TypeOfIsExpression data)
 {
     return false;
 }
Exemplo n.º 13
0
 public override object VisitTypeOfIsExpression(TypeOfIsExpression typeOfIsExpression, object data)
 {
     typeOfIsExpression.Expression.Parent = typeOfIsExpression;
     typeOfIsExpression.TypeReference.Parent = typeOfIsExpression;
     return base.VisitTypeOfIsExpression(typeOfIsExpression, data);
 }
		public override void GenerateCode(List<AbstractNode> nodes, IList items)
		{
			TypeReference intReference = new TypeReference("System.Int32", true);
			MethodDeclaration method = new MethodDeclaration {
				Name = "GetHashCode",
				Modifier = Modifiers.Public | Modifiers.Override,
				TypeReference = intReference,
				Body = new BlockStatement()
			};
			
			VariableDeclaration var;
			var = new VariableDeclaration("hashCode", new PrimitiveExpression(0, "0"), intReference);
			method.Body.AddChild(new LocalVariableDeclaration(var));
			
			bool usePrimeMultiplication = currentClass.ProjectContent.Language == LanguageProperties.CSharp;
			BlockStatement hashCalculationBlock;
			if (usePrimeMultiplication) {
				hashCalculationBlock = new BlockStatement();
				method.Body.AddChild(new UncheckedStatement(hashCalculationBlock));
			} else {
				hashCalculationBlock = method.Body;
			}
			
			int fieldIndex = 0;
			Expression expr;
			
			foreach (IField field in currentClass.Fields) {
				if (field.IsStatic) continue;
				
				expr = new InvocationExpression(new MemberReferenceExpression(new IdentifierExpression(field.Name), "GetHashCode"));
				if (usePrimeMultiplication) {
					int prime = largePrimes[fieldIndex++ % largePrimes.Length];
					expr = new AssignmentExpression(
						new IdentifierExpression(var.Name),
						AssignmentOperatorType.Add,
						new BinaryOperatorExpression(new PrimitiveExpression(prime, prime.ToString()),
						                             BinaryOperatorType.Multiply,
						                             expr));
				} else {
					expr = new AssignmentExpression(new IdentifierExpression(var.Name),
					                                AssignmentOperatorType.ExclusiveOr,
					                                expr);
				}
				if (IsValueType(field.ReturnType)) {
					hashCalculationBlock.AddChild(new ExpressionStatement(expr));
				} else {
					hashCalculationBlock.AddChild(new IfElseStatement(
						new BinaryOperatorExpression(new IdentifierExpression(field.Name),
						                             BinaryOperatorType.ReferenceInequality,
						                             new PrimitiveExpression(null, "null")),
						new ExpressionStatement(expr)
					));
				}
			}
			method.Body.AddChild(new ReturnStatement(new IdentifierExpression(var.Name)));
			nodes.Add(method);
			
			TypeReference boolReference = new TypeReference("System.Boolean", true);
			TypeReference objectReference = new TypeReference("System.Object", true);
			
			method = new MethodDeclaration {
				Name = "Equals",
				Modifier = Modifiers.Public | Modifiers.Override,
				TypeReference = boolReference
			};
			method.Parameters.Add(new ParameterDeclarationExpression(objectReference, "obj"));
			method.Body = new BlockStatement();
			
			TypeReference currentType = ConvertType(currentClass.DefaultReturnType);
			
			if (currentClass.ClassType == Dom.ClassType.Struct) {
				// return obj is CurrentType && Equals((CurrentType)obj);
				expr = new TypeOfIsExpression(new IdentifierExpression("obj"), currentType);
				expr = new ParenthesizedExpression(expr);
				expr = new BinaryOperatorExpression(
					expr, BinaryOperatorType.LogicalAnd,
					new InvocationExpression(
						new IdentifierExpression("Equals"),
						new List<Expression> {
							new CastExpression(currentType, new IdentifierExpression("obj"), CastType.Cast)
						}));
				method.Body.AddChild(new ReturnStatement(expr));
				
				nodes.Add(method);
				
				// IEquatable implementation:
				method = new MethodDeclaration {
					Name = "Equals",
					Modifier = Modifiers.Public | Modifiers.Override,
					TypeReference = boolReference
				};
				method.Parameters.Add(new ParameterDeclarationExpression(currentType, "other"));
				method.Body = new BlockStatement();
			} else {
				method.Body.AddChild(new LocalVariableDeclaration(new VariableDeclaration(
					"other",
					new CastExpression(currentType, new IdentifierExpression("obj"), CastType.TryCast),
					currentType)));
				method.Body.AddChild(new IfElseStatement(
					new BinaryOperatorExpression(new IdentifierExpression("other"), BinaryOperatorType.ReferenceEquality, new PrimitiveExpression(null, "null")),
					new ReturnStatement(new PrimitiveExpression(false, "false"))));
				
//				expr = new BinaryOperatorExpression(new ThisReferenceExpression(),
//				                                    BinaryOperatorType.ReferenceEquality,
//				                                    new IdentifierExpression("obj"));
//				method.Body.AddChild(new IfElseStatement(expr, new ReturnStatement(new PrimitiveExpression(true, "true"))));
			}
			
			
			expr = null;
			foreach (IField field in currentClass.Fields) {
				if (field.IsStatic) continue;
				
				if (expr == null) {
					expr = TestEquality("other", field);
				} else {
					expr = new BinaryOperatorExpression(expr, BinaryOperatorType.LogicalAnd,
					                                    TestEquality("other", field));
				}
			}
			
			method.Body.AddChild(new ReturnStatement(expr ?? new PrimitiveExpression(true, "true")));
			
			nodes.Add(method);
		}
Exemplo n.º 15
0
 public override object VisitTypeOfIsExpression (TypeOfIsExpression node, object data)
 {
     Write (RUNTIME_HELPER_NAME, ".", IS_NAME, "(");
     node.Expression.AcceptVisitor (this, null);
     WriteComma ();
     node.TypeReference.AcceptVisitor (this, null);
     Write (")");
     return null;
 }
Exemplo n.º 16
0
	void SimpleNonInvocationExpression(
#line  1730 "VBNET.ATG" 
out Expression pexpr) {

#line  1732 "VBNET.ATG" 
		Expression expr;
		CollectionInitializerExpression cie;
		TypeReference type = null;
		string name = String.Empty;
		Location startLocation = la.Location;
		pexpr = null;
		
		if (StartOf(35)) {
			switch (la.kind) {
			case 3: {
				lexer.NextToken();

#line  1742 "VBNET.ATG" 
				pexpr = new PrimitiveExpression(t.literalValue, t.val) { LiteralFormat = t.literalFormat };  
				break;
			}
			case 4: {
				lexer.NextToken();

#line  1743 "VBNET.ATG" 
				pexpr = new PrimitiveExpression(t.literalValue, t.val) { LiteralFormat = t.literalFormat };  
				break;
			}
			case 7: {
				lexer.NextToken();

#line  1744 "VBNET.ATG" 
				pexpr = new PrimitiveExpression(t.literalValue, t.val) { LiteralFormat = t.literalFormat };  
				break;
			}
			case 6: {
				lexer.NextToken();

#line  1745 "VBNET.ATG" 
				pexpr = new PrimitiveExpression(t.literalValue, t.val) { LiteralFormat = t.literalFormat };  
				break;
			}
			case 5: {
				lexer.NextToken();

#line  1746 "VBNET.ATG" 
				pexpr = new PrimitiveExpression(t.literalValue, t.val) { LiteralFormat = t.literalFormat };  
				break;
			}
			case 9: {
				lexer.NextToken();

#line  1747 "VBNET.ATG" 
				pexpr = new PrimitiveExpression(t.literalValue, t.val) { LiteralFormat = t.literalFormat };  
				break;
			}
			case 8: {
				lexer.NextToken();

#line  1748 "VBNET.ATG" 
				pexpr = new PrimitiveExpression(t.literalValue, t.val) { LiteralFormat = t.literalFormat };  
				break;
			}
			case 220: {
				lexer.NextToken();

#line  1750 "VBNET.ATG" 
				pexpr = new PrimitiveExpression(true, "true");  
				break;
			}
			case 124: {
				lexer.NextToken();

#line  1751 "VBNET.ATG" 
				pexpr = new PrimitiveExpression(false, "false"); 
				break;
			}
			case 168: {
				lexer.NextToken();

#line  1752 "VBNET.ATG" 
				pexpr = new PrimitiveExpression(null, "null");  
				break;
			}
			case 37: {
				lexer.NextToken();
				Expr(
#line  1753 "VBNET.ATG" 
out expr);
				Expect(38);

#line  1753 "VBNET.ATG" 
				pexpr = new ParenthesizedExpression(expr); 
				break;
			}
			case 2: case 58: case 62: case 64: case 65: case 66: case 67: case 68: case 69: case 72: case 89: case 100: case 106: case 109: case 118: case 123: case 128: case 135: case 141: case 145: case 148: case 149: case 150: case 173: case 179: case 181: case 187: case 206: case 215: case 216: case 226: case 227: case 233: case 240: {
				Identifier();

#line  1755 "VBNET.ATG" 
				pexpr = new IdentifierExpression(t.val);
				pexpr.StartLocation = t.Location; pexpr.EndLocation = t.EndLocation;
				
				if (
#line  1758 "VBNET.ATG" 
la.kind == Tokens.OpenParenthesis && Peek(1).kind == Tokens.Of) {
					lexer.NextToken();
					Expect(172);
					TypeArgumentList(
#line  1759 "VBNET.ATG" 
((IdentifierExpression)pexpr).TypeArguments);
					Expect(38);
				}
				break;
			}
			case 70: case 73: case 84: case 101: case 102: case 111: case 143: case 154: case 171: case 199: case 204: case 205: case 211: case 224: case 225: case 228: {

#line  1761 "VBNET.ATG" 
				string val = String.Empty; 
				if (StartOf(12)) {
					PrimitiveTypeName(
#line  1762 "VBNET.ATG" 
out val);
				} else if (la.kind == 171) {
					lexer.NextToken();

#line  1762 "VBNET.ATG" 
					val = "System.Object"; 
				} else SynErr(284);

#line  1763 "VBNET.ATG" 
				pexpr = new TypeReferenceExpression(new TypeReference(val, true)); 
				break;
			}
			case 156: {
				lexer.NextToken();

#line  1764 "VBNET.ATG" 
				pexpr = new ThisReferenceExpression(); 
				break;
			}
			case 161: case 162: {

#line  1765 "VBNET.ATG" 
				Expression retExpr = null; 
				if (la.kind == 161) {
					lexer.NextToken();

#line  1766 "VBNET.ATG" 
					retExpr = new BaseReferenceExpression() { StartLocation = t.Location, EndLocation = t.EndLocation }; 
				} else if (la.kind == 162) {
					lexer.NextToken();

#line  1767 "VBNET.ATG" 
					retExpr = new ClassReferenceExpression() { StartLocation = t.Location, EndLocation = t.EndLocation }; 
				} else SynErr(285);
				Expect(26);
				IdentifierOrKeyword(
#line  1769 "VBNET.ATG" 
out name);

#line  1769 "VBNET.ATG" 
				pexpr = new MemberReferenceExpression(retExpr, name) { StartLocation = startLocation, EndLocation = t.EndLocation }; 
				break;
			}
			case 132: {
				lexer.NextToken();
				Expect(26);
				Identifier();

#line  1771 "VBNET.ATG" 
				type = new TypeReference(t.val ?? ""); 

#line  1773 "VBNET.ATG" 
				type.IsGlobal = true; 

#line  1774 "VBNET.ATG" 
				pexpr = new TypeReferenceExpression(type); 
				break;
			}
			case 165: {
				ObjectCreateExpression(
#line  1775 "VBNET.ATG" 
out expr);

#line  1775 "VBNET.ATG" 
				pexpr = expr; 
				break;
			}
			case 35: {
				CollectionInitializer(
#line  1776 "VBNET.ATG" 
out cie);

#line  1776 "VBNET.ATG" 
				pexpr = cie; 
				break;
			}
			case 96: case 108: case 222: {

#line  1778 "VBNET.ATG" 
				CastType castType = CastType.Cast; 
				if (la.kind == 108) {
					lexer.NextToken();
				} else if (la.kind == 96) {
					lexer.NextToken();

#line  1780 "VBNET.ATG" 
					castType = CastType.Conversion; 
				} else if (la.kind == 222) {
					lexer.NextToken();

#line  1781 "VBNET.ATG" 
					castType = CastType.TryCast; 
				} else SynErr(286);
				Expect(37);
				Expr(
#line  1783 "VBNET.ATG" 
out expr);
				Expect(22);
				TypeName(
#line  1783 "VBNET.ATG" 
out type);
				Expect(38);

#line  1784 "VBNET.ATG" 
				pexpr = new CastExpression(type, expr, castType); 
				break;
			}
			case 78: case 79: case 80: case 81: case 82: case 83: case 85: case 87: case 88: case 92: case 93: case 94: case 95: case 97: case 98: case 99: {
				CastTarget(
#line  1785 "VBNET.ATG" 
out type);
				Expect(37);
				Expr(
#line  1785 "VBNET.ATG" 
out expr);
				Expect(38);

#line  1785 "VBNET.ATG" 
				pexpr = new CastExpression(type, expr, CastType.PrimitiveConversion); 
				break;
			}
			case 57: {
				lexer.NextToken();
				Expr(
#line  1786 "VBNET.ATG" 
out expr);

#line  1786 "VBNET.ATG" 
				pexpr = new AddressOfExpression(expr); 
				break;
			}
			case 131: {
				lexer.NextToken();
				Expect(37);
				GetTypeTypeName(
#line  1787 "VBNET.ATG" 
out type);
				Expect(38);

#line  1787 "VBNET.ATG" 
				pexpr = new TypeOfExpression(type); 
				break;
			}
			case 223: {
				lexer.NextToken();
				SimpleExpr(
#line  1788 "VBNET.ATG" 
out expr);
				Expect(146);
				TypeName(
#line  1788 "VBNET.ATG" 
out type);

#line  1788 "VBNET.ATG" 
				pexpr = new TypeOfIsExpression(expr, type); 
				break;
			}
			case 137: {
				ConditionalExpression(
#line  1789 "VBNET.ATG" 
out pexpr);
				break;
			}
			case 10: case 16: case 17: case 18: case 19: {
				XmlLiteralExpression(
#line  1790 "VBNET.ATG" 
out pexpr);
				break;
			}
			}
		} else if (StartOf(36)) {
			if (la.kind == 26) {
				lexer.NextToken();
				if (la.kind == 10) {
					lexer.NextToken();
					IdentifierOrKeyword(
#line  1796 "VBNET.ATG" 
out name);
					Expect(11);

#line  1797 "VBNET.ATG" 
					pexpr = new XmlMemberAccessExpression(null, XmlAxisType.Element, name, true) { StartLocation = startLocation, EndLocation = t.EndLocation }; 
				} else if (StartOf(34)) {
					IdentifierOrKeyword(
#line  1798 "VBNET.ATG" 
out name);

#line  1799 "VBNET.ATG" 
					pexpr = new MemberReferenceExpression(null, name) { StartLocation = startLocation, EndLocation = t.EndLocation }; 
				} else SynErr(287);
			} else if (la.kind == 29) {
				lexer.NextToken();
				IdentifierOrKeyword(
#line  1801 "VBNET.ATG" 
out name);

#line  1801 "VBNET.ATG" 
				pexpr = new BinaryOperatorExpression(null, BinaryOperatorType.DictionaryAccess, new PrimitiveExpression(name, name) { StartLocation = t.Location, EndLocation = t.EndLocation }); 
			} else {

#line  1802 "VBNET.ATG" 
				XmlAxisType axisType = XmlAxisType.Element; bool isXmlIdentifier = false; 
				if (la.kind == 27) {
					lexer.NextToken();

#line  1803 "VBNET.ATG" 
					axisType = XmlAxisType.Descendents; 
				} else if (la.kind == 28) {
					lexer.NextToken();

#line  1803 "VBNET.ATG" 
					axisType = XmlAxisType.Attribute; 
				} else SynErr(288);
				if (la.kind == 10) {
					lexer.NextToken();

#line  1804 "VBNET.ATG" 
					isXmlIdentifier = true; 
				}
				IdentifierOrKeyword(
#line  1804 "VBNET.ATG" 
out name);
				if (la.kind == 11) {
					lexer.NextToken();
				}

#line  1805 "VBNET.ATG" 
				pexpr = new XmlMemberAccessExpression(null, axisType, name, isXmlIdentifier); 
			}
		} else SynErr(289);

#line  1810 "VBNET.ATG" 
		if (pexpr != null) {
		pexpr.StartLocation = startLocation;
		pexpr.EndLocation = t.EndLocation;
		}
		
	}
Exemplo n.º 17
0
		public override object VisitTypeOfIsExpression (TypeOfIsExpression typeOfIsExpression, object data)
		{
			return CreateResult (typeof(System.Boolean).FullName);
		}
 public object VisitTypeOfIsExpression(TypeOfIsExpression typeOfIsExpression, object data)
 {
     throw new NotImplementedException ();
 }
Exemplo n.º 19
0
	void SimpleNonInvocationExpression(
#line  1593 "VBNET.ATG" 
out Expression pexpr) {

#line  1595 "VBNET.ATG" 
		Expression expr;
		TypeReference type = null;
		string name = String.Empty;
		pexpr = null;
		
		if (StartOf(29)) {
			switch (la.kind) {
			case 3: {
				lexer.NextToken();

#line  1603 "VBNET.ATG" 
				pexpr = new PrimitiveExpression(t.literalValue, t.val);  
				break;
			}
			case 4: {
				lexer.NextToken();

#line  1604 "VBNET.ATG" 
				pexpr = new PrimitiveExpression(t.literalValue, t.val);  
				break;
			}
			case 7: {
				lexer.NextToken();

#line  1605 "VBNET.ATG" 
				pexpr = new PrimitiveExpression(t.literalValue, t.val);  
				break;
			}
			case 6: {
				lexer.NextToken();

#line  1606 "VBNET.ATG" 
				pexpr = new PrimitiveExpression(t.literalValue, t.val);  
				break;
			}
			case 5: {
				lexer.NextToken();

#line  1607 "VBNET.ATG" 
				pexpr = new PrimitiveExpression(t.literalValue, t.val);  
				break;
			}
			case 9: {
				lexer.NextToken();

#line  1608 "VBNET.ATG" 
				pexpr = new PrimitiveExpression(t.literalValue, t.val);  
				break;
			}
			case 8: {
				lexer.NextToken();

#line  1609 "VBNET.ATG" 
				pexpr = new PrimitiveExpression(t.literalValue, t.val);  
				break;
			}
			case 173: {
				lexer.NextToken();

#line  1611 "VBNET.ATG" 
				pexpr = new PrimitiveExpression(true, "true");  
				break;
			}
			case 96: {
				lexer.NextToken();

#line  1612 "VBNET.ATG" 
				pexpr = new PrimitiveExpression(false, "false"); 
				break;
			}
			case 130: {
				lexer.NextToken();

#line  1613 "VBNET.ATG" 
				pexpr = new PrimitiveExpression(null, "null");  
				break;
			}
			case 24: {
				lexer.NextToken();
				Expr(
#line  1614 "VBNET.ATG" 
out expr);
				Expect(25);

#line  1614 "VBNET.ATG" 
				pexpr = new ParenthesizedExpression(expr); 
				break;
			}
			case 2: case 47: case 49: case 50: case 51: case 70: case 95: case 134: case 144: case 169: case 176: case 177: case 205: {
				Identifier();

#line  1616 "VBNET.ATG" 
				pexpr = new IdentifierExpression(t.val); 

#line  1617 "VBNET.ATG" 
				pexpr.StartLocation = t.Location; pexpr.EndLocation = t.EndLocation; 
				break;
			}
			case 52: case 54: case 65: case 76: case 77: case 84: case 111: case 117: case 133: case 159: case 160: case 165: case 191: case 192: case 193: case 194: {

#line  1618 "VBNET.ATG" 
				string val = String.Empty; 
				if (StartOf(10)) {
					PrimitiveTypeName(
#line  1619 "VBNET.ATG" 
out val);
				} else if (la.kind == 133) {
					lexer.NextToken();

#line  1619 "VBNET.ATG" 
					val = "Object"; 
				} else SynErr(240);
				Expect(10);

#line  1620 "VBNET.ATG" 
				t.val = ""; 
				Identifier();

#line  1620 "VBNET.ATG" 
				pexpr = new MemberReferenceExpression(new TypeReferenceExpression(val), t.val); 
				break;
			}
			case 119: {
				lexer.NextToken();

#line  1621 "VBNET.ATG" 
				pexpr = new ThisReferenceExpression(); 
				break;
			}
			case 124: case 125: {

#line  1622 "VBNET.ATG" 
				Expression retExpr = null; 
				if (la.kind == 124) {
					lexer.NextToken();

#line  1623 "VBNET.ATG" 
					retExpr = new BaseReferenceExpression(); 
				} else if (la.kind == 125) {
					lexer.NextToken();

#line  1624 "VBNET.ATG" 
					retExpr = new ClassReferenceExpression(); 
				} else SynErr(241);
				Expect(10);
				IdentifierOrKeyword(
#line  1626 "VBNET.ATG" 
out name);

#line  1626 "VBNET.ATG" 
				pexpr = new MemberReferenceExpression(retExpr, name); 
				break;
			}
			case 199: {
				lexer.NextToken();
				Expect(10);
				Identifier();

#line  1628 "VBNET.ATG" 
				type = new TypeReference(t.val ?? ""); 

#line  1630 "VBNET.ATG" 
				type.IsGlobal = true; 

#line  1631 "VBNET.ATG" 
				pexpr = new TypeReferenceExpression(type); 
				break;
			}
			case 127: {
				ObjectCreateExpression(
#line  1632 "VBNET.ATG" 
out expr);

#line  1632 "VBNET.ATG" 
				pexpr = expr; 
				break;
			}
			case 75: case 82: case 200: {

#line  1634 "VBNET.ATG" 
				CastType castType = CastType.Cast; 
				if (la.kind == 82) {
					lexer.NextToken();
				} else if (la.kind == 75) {
					lexer.NextToken();

#line  1636 "VBNET.ATG" 
					castType = CastType.Conversion; 
				} else if (la.kind == 200) {
					lexer.NextToken();

#line  1637 "VBNET.ATG" 
					castType = CastType.TryCast; 
				} else SynErr(242);
				Expect(24);
				Expr(
#line  1639 "VBNET.ATG" 
out expr);
				Expect(12);
				TypeName(
#line  1639 "VBNET.ATG" 
out type);
				Expect(25);

#line  1640 "VBNET.ATG" 
				pexpr = new CastExpression(type, expr, castType); 
				break;
			}
			case 59: case 60: case 61: case 62: case 63: case 64: case 66: case 68: case 69: case 72: case 73: case 74: case 195: case 196: case 197: case 198: {
				CastTarget(
#line  1641 "VBNET.ATG" 
out type);
				Expect(24);
				Expr(
#line  1641 "VBNET.ATG" 
out expr);
				Expect(25);

#line  1641 "VBNET.ATG" 
				pexpr = new CastExpression(type, expr, CastType.PrimitiveConversion); 
				break;
			}
			case 43: {
				lexer.NextToken();
				Expr(
#line  1642 "VBNET.ATG" 
out expr);

#line  1642 "VBNET.ATG" 
				pexpr = new AddressOfExpression(expr); 
				break;
			}
			case 102: {
				lexer.NextToken();
				Expect(24);
				GetTypeTypeName(
#line  1643 "VBNET.ATG" 
out type);
				Expect(25);

#line  1643 "VBNET.ATG" 
				pexpr = new TypeOfExpression(type); 
				break;
			}
			case 175: {
				lexer.NextToken();
				SimpleExpr(
#line  1644 "VBNET.ATG" 
out expr);
				Expect(113);
				TypeName(
#line  1644 "VBNET.ATG" 
out type);

#line  1644 "VBNET.ATG" 
				pexpr = new TypeOfIsExpression(expr, type); 
				break;
			}
			}
		} else if (la.kind == 10) {
			lexer.NextToken();
			IdentifierOrKeyword(
#line  1648 "VBNET.ATG" 
out name);

#line  1648 "VBNET.ATG" 
			pexpr = new MemberReferenceExpression(null, name);
		} else SynErr(243);
	}
Exemplo n.º 20
0
 public virtual object VisitTypeOfIsExpression(TypeOfIsExpression typeOfIsExpression, object data)
 {
     Debug.Assert((typeOfIsExpression != null));
     Debug.Assert((typeOfIsExpression.Expression != null));
     Debug.Assert((typeOfIsExpression.TypeReference != null));
     typeOfIsExpression.Expression.AcceptVisitor(this, data);
     return typeOfIsExpression.TypeReference.AcceptVisitor(this, data);
 }
			public override object VisitTypeOfIsExpression (TypeOfIsExpression stmt, object data)
			{
				Console.WriteLine ("TypeOfIsExpression");
				IntegrateTemporaryVariableVisitorOptions options = (IntegrateTemporaryVariableVisitorOptions)data;
				if (IsExpressionToReplace (stmt.Expression, options)) {
					if (IsUnary (options.Initializer) || (options.Initializer is BinaryOperatorExpression && IsShiftOrHigher (((BinaryOperatorExpression)options.Initializer).Op)))
						options.Changes.Add (ReplaceExpression (stmt.Expression, options.Initializer, options)); else
						options.Changes.Add (ReplaceExpression (stmt.Expression, new ParenthesizedExpression (options.Initializer), options));
					return null;
				} else {
					return base.VisitTypeOfIsExpression (stmt, data);
				}
			}
Exemplo n.º 22
0
 public override object VisitTypeOfIsExpression(TypeOfIsExpression typeOfIsExpression, object data)
 {
     UnlockWith(typeOfIsExpression);
     return base.VisitTypeOfIsExpression(typeOfIsExpression, data);
 }
Exemplo n.º 23
0
		public virtual object VisitTypeOfIsExpression(TypeOfIsExpression typeOfIsExpression, object data) {
			throw new global::System.NotImplementedException("TypeOfIsExpression");
		}
		public virtual object VisitTypeOfIsExpression(TypeOfIsExpression typeOfIsExpression, object data) {
			Debug.Assert((typeOfIsExpression != null));
			Debug.Assert((typeOfIsExpression.Expression != null));
			Debug.Assert((typeOfIsExpression.TypeReference != null));
			nodeStack.Push(typeOfIsExpression.Expression);
			typeOfIsExpression.Expression.AcceptVisitor(this, data);
			typeOfIsExpression.Expression = ((Expression)(nodeStack.Pop()));
			nodeStack.Push(typeOfIsExpression.TypeReference);
			typeOfIsExpression.TypeReference.AcceptVisitor(this, data);
			typeOfIsExpression.TypeReference = ((TypeReference)(nodeStack.Pop()));
			return null;
		}
		public sealed override object VisitTypeOfIsExpression(TypeOfIsExpression typeOfIsExpression, object data) {
			this.BeginVisit(typeOfIsExpression);
			object result = this.TrackedVisitTypeOfIsExpression(typeOfIsExpression, data);
			this.EndVisit(typeOfIsExpression);
			return result;
		}
Exemplo n.º 26
0
 public virtual object VisitTypeOfIsExpression(TypeOfIsExpression typeOfIsExpression, object data) {
     throw CreateException(typeOfIsExpression);
 }
Exemplo n.º 27
0
	void SimpleNonInvocationExpression(
//#line  1723 "VBNET.ATG" 
out Expression pexpr) {

//#line  1725 "VBNET.ATG" 
		Expression expr;
		CollectionInitializerExpression cie;
		TypeReference type = null;
		string name = String.Empty;
		Location startLocation = la.Location;
		pexpr = null;
		
		if (StartOf(34)) {
			switch (la.kind) {
			case 3: {
				lexer.NextToken();

//#line  1735 "VBNET.ATG" 
				pexpr = new PrimitiveExpression(t.literalValue, t.val) { LiteralFormat = t.literalFormat };  
				break;
			}
			case 4: {
				lexer.NextToken();

//#line  1736 "VBNET.ATG" 
				pexpr = new PrimitiveExpression(t.literalValue, t.val) { LiteralFormat = t.literalFormat };  
				break;
			}
			case 7: {
				lexer.NextToken();

//#line  1737 "VBNET.ATG" 
				pexpr = new PrimitiveExpression(t.literalValue, t.val) { LiteralFormat = t.literalFormat };  
				break;
			}
			case 6: {
				lexer.NextToken();

//#line  1738 "VBNET.ATG" 
				pexpr = new PrimitiveExpression(t.literalValue, t.val) { LiteralFormat = t.literalFormat };  
				break;
			}
			case 5: {
				lexer.NextToken();

//#line  1739 "VBNET.ATG" 
				pexpr = new PrimitiveExpression(t.literalValue, t.val) { LiteralFormat = t.literalFormat };  
				break;
			}
			case 9: {
				lexer.NextToken();

//#line  1740 "VBNET.ATG" 
				pexpr = new PrimitiveExpression(t.literalValue, t.val) { LiteralFormat = t.literalFormat };  
				break;
			}
			case 8: {
				lexer.NextToken();

//#line  1741 "VBNET.ATG" 
				pexpr = new PrimitiveExpression(t.literalValue, t.val) { LiteralFormat = t.literalFormat };  
				break;
			}
			case 217: {
				lexer.NextToken();

//#line  1743 "VBNET.ATG" 
				pexpr = new PrimitiveExpression(true, "true");  
				break;
			}
			case 122: {
				lexer.NextToken();

//#line  1744 "VBNET.ATG" 
				pexpr = new PrimitiveExpression(false, "false"); 
				break;
			}
			case 165: {
				lexer.NextToken();

//#line  1745 "VBNET.ATG" 
				pexpr = new PrimitiveExpression(null, "null");  
				break;
			}
			case 37: {
				lexer.NextToken();
				Expr(
//#line  1746 "VBNET.ATG" 
out expr);
				Expect(38);

//#line  1746 "VBNET.ATG" 
				pexpr = new ParenthesizedExpression(expr); 
				break;
			}
			case 2: case 58: case 62: case 64: case 65: case 66: case 67: case 70: case 87: case 98: case 104: case 107: case 116: case 121: case 126: case 133: case 139: case 143: case 146: case 147: case 170: case 176: case 178: case 184: case 203: case 212: case 213: case 223: case 224: case 230: {
				Identifier();

//#line  1748 "VBNET.ATG" 
				pexpr = new IdentifierExpression(t.val);
				pexpr.StartLocation = t.Location; pexpr.EndLocation = t.EndLocation;
				
				if (
//#line  1751 "VBNET.ATG" 
la.kind == Tokens.OpenParenthesis && Peek(1).kind == Tokens.Of) {
					lexer.NextToken();
					Expect(169);
					TypeArgumentList(
//#line  1752 "VBNET.ATG" 
((IdentifierExpression)pexpr).TypeArguments);
					Expect(38);
				}
				break;
			}
			case 68: case 71: case 82: case 99: case 100: case 109: case 141: case 151: case 168: case 196: case 201: case 202: case 208: case 221: case 222: case 225: {

//#line  1754 "VBNET.ATG" 
				string val = String.Empty; 
				if (StartOf(12)) {
					PrimitiveTypeName(
//#line  1755 "VBNET.ATG" 
out val);
				} else if (la.kind == 168) {
					lexer.NextToken();

//#line  1755 "VBNET.ATG" 
					val = "System.Object"; 
				} else SynErr(280);

//#line  1756 "VBNET.ATG" 
				pexpr = new TypeReferenceExpression(new TypeReference(val, true)); 
				break;
			}
			case 153: {
				lexer.NextToken();

//#line  1757 "VBNET.ATG" 
				pexpr = new ThisReferenceExpression(); 
				break;
			}
			case 158: case 159: {

//#line  1758 "VBNET.ATG" 
				Expression retExpr = null; 
				if (la.kind == 158) {
					lexer.NextToken();

//#line  1759 "VBNET.ATG" 
					retExpr = new BaseReferenceExpression() { StartLocation = t.Location, EndLocation = t.EndLocation }; 
				} else if (la.kind == 159) {
					lexer.NextToken();

//#line  1760 "VBNET.ATG" 
					retExpr = new ClassReferenceExpression() { StartLocation = t.Location, EndLocation = t.EndLocation }; 
				} else SynErr(281);
				Expect(26);
				IdentifierOrKeyword(
//#line  1762 "VBNET.ATG" 
out name);

//#line  1762 "VBNET.ATG" 
				pexpr = new MemberReferenceExpression(retExpr, name) { StartLocation = startLocation, EndLocation = t.EndLocation }; 
				break;
			}
			case 130: {
				lexer.NextToken();
				Expect(26);
				Identifier();

//#line  1764 "VBNET.ATG" 
				type = new TypeReference(t.val ?? ""); 

//#line  1766 "VBNET.ATG" 
				type.IsGlobal = true; 

//#line  1767 "VBNET.ATG" 
				pexpr = new TypeReferenceExpression(type); 
				break;
			}
			case 162: {
				ObjectCreateExpression(
//#line  1768 "VBNET.ATG" 
out expr);

//#line  1768 "VBNET.ATG" 
				pexpr = expr; 
				break;
			}
			case 35: {
				CollectionInitializer(
//#line  1769 "VBNET.ATG" 
out cie);

//#line  1769 "VBNET.ATG" 
				pexpr = cie; 
				break;
			}
			case 94: case 106: case 219: {

//#line  1771 "VBNET.ATG" 
				CastType castType = CastType.Cast; 
				if (la.kind == 106) {
					lexer.NextToken();
				} else if (la.kind == 94) {
					lexer.NextToken();

//#line  1773 "VBNET.ATG" 
					castType = CastType.Conversion; 
				} else if (la.kind == 219) {
					lexer.NextToken();

//#line  1774 "VBNET.ATG" 
					castType = CastType.TryCast; 
				} else SynErr(282);
				Expect(37);
				Expr(
//#line  1776 "VBNET.ATG" 
out expr);
				Expect(22);
				TypeName(
//#line  1776 "VBNET.ATG" 
out type);
				Expect(38);

//#line  1777 "VBNET.ATG" 
				pexpr = new CastExpression(type, expr, castType); 
				break;
			}
			case 76: case 77: case 78: case 79: case 80: case 81: case 83: case 85: case 86: case 90: case 91: case 92: case 93: case 95: case 96: case 97: {
				CastTarget(
//#line  1778 "VBNET.ATG" 
out type);
				Expect(37);
				Expr(
//#line  1778 "VBNET.ATG" 
out expr);
				Expect(38);

//#line  1778 "VBNET.ATG" 
				pexpr = new CastExpression(type, expr, CastType.PrimitiveConversion); 
				break;
			}
			case 57: {
				lexer.NextToken();
				Expr(
//#line  1779 "VBNET.ATG" 
out expr);

//#line  1779 "VBNET.ATG" 
				pexpr = new AddressOfExpression(expr); 
				break;
			}
			case 129: {
				lexer.NextToken();
				Expect(37);
				GetTypeTypeName(
//#line  1780 "VBNET.ATG" 
out type);
				Expect(38);

//#line  1780 "VBNET.ATG" 
				pexpr = new TypeOfExpression(type); 
				break;
			}
			case 220: {
				lexer.NextToken();
				SimpleExpr(
//#line  1781 "VBNET.ATG" 
out expr);
				Expect(144);
				TypeName(
//#line  1781 "VBNET.ATG" 
out type);

//#line  1781 "VBNET.ATG" 
				pexpr = new TypeOfIsExpression(expr, type); 
				break;
			}
			case 135: {
				ConditionalExpression(
//#line  1782 "VBNET.ATG" 
out pexpr);
				break;
			}
			case 10: case 16: case 17: case 18: case 19: {
				XmlLiteralExpression(
//#line  1783 "VBNET.ATG" 
out pexpr);
				break;
			}
			}
		} else if (StartOf(35)) {
			if (la.kind == 26) {
				lexer.NextToken();
				if (la.kind == 10) {
					lexer.NextToken();
					IdentifierOrKeyword(
//#line  1789 "VBNET.ATG" 
out name);
					Expect(11);

//#line  1790 "VBNET.ATG" 
					pexpr = new XmlMemberAccessExpression(null, XmlAxisType.Element, name, true) { StartLocation = startLocation, EndLocation = t.EndLocation }; 
				} else if (StartOf(33)) {
					IdentifierOrKeyword(
//#line  1791 "VBNET.ATG" 
out name);

//#line  1792 "VBNET.ATG" 
					pexpr = new MemberReferenceExpression(null, name) { StartLocation = startLocation, EndLocation = t.EndLocation }; 
				} else SynErr(283);
			} else if (la.kind == 29) {
				lexer.NextToken();
				IdentifierOrKeyword(
//#line  1794 "VBNET.ATG" 
out name);

//#line  1794 "VBNET.ATG" 
				pexpr = new BinaryOperatorExpression(null, BinaryOperatorType.DictionaryAccess, new PrimitiveExpression(name, name) { StartLocation = t.Location, EndLocation = t.EndLocation }); 
			} else {

//#line  1795 "VBNET.ATG" 
				XmlAxisType axisType = XmlAxisType.Element; bool isXmlIdentifier = false; 
				if (la.kind == 27) {
					lexer.NextToken();

//#line  1796 "VBNET.ATG" 
					axisType = XmlAxisType.Descendents; 
				} else if (la.kind == 28) {
					lexer.NextToken();

//#line  1796 "VBNET.ATG" 
					axisType = XmlAxisType.Attribute; 
				} else SynErr(284);
				if (la.kind == 10) {
					lexer.NextToken();

//#line  1797 "VBNET.ATG" 
					isXmlIdentifier = true; 
				}
				IdentifierOrKeyword(
//#line  1797 "VBNET.ATG" 
out name);
				if (la.kind == 11) {
					lexer.NextToken();
				}

//#line  1798 "VBNET.ATG" 
				pexpr = new XmlMemberAccessExpression(null, axisType, name, isXmlIdentifier); 
			}
		} else SynErr(285);

//#line  1803 "VBNET.ATG" 
		if (pexpr != null) {
		pexpr.StartLocation = startLocation;
		pexpr.EndLocation = t.EndLocation;
		}
		
	}
Exemplo n.º 28
0
	void RelationalExpr(
#line  2237 "Frames/cs.ATG" 
ref Expression outExpr) {

#line  2239 "Frames/cs.ATG" 
		TypeReference type;
		Expression expr;
		BinaryOperatorType op = BinaryOperatorType.None;
		
		ShiftExpr(
#line  2244 "Frames/cs.ATG" 
ref outExpr);
		while (StartOf(37)) {
			if (StartOf(38)) {
				if (la.kind == 23) {
					lexer.NextToken();

#line  2246 "Frames/cs.ATG" 
					op = BinaryOperatorType.LessThan; 
				} else if (la.kind == 22) {
					lexer.NextToken();

#line  2247 "Frames/cs.ATG" 
					op = BinaryOperatorType.GreaterThan; 
				} else if (la.kind == 36) {
					lexer.NextToken();

#line  2248 "Frames/cs.ATG" 
					op = BinaryOperatorType.LessThanOrEqual; 
				} else if (la.kind == 35) {
					lexer.NextToken();

#line  2249 "Frames/cs.ATG" 
					op = BinaryOperatorType.GreaterThanOrEqual; 
				} else SynErr(215);
				UnaryExpr(
#line  2251 "Frames/cs.ATG" 
out expr);
				ShiftExpr(
#line  2252 "Frames/cs.ATG" 
ref expr);

#line  2253 "Frames/cs.ATG" 
				outExpr = new BinaryOperatorExpression(outExpr, op, expr); 
			} else {
				if (la.kind == 85) {
					lexer.NextToken();
					TypeWithRestriction(
#line  2256 "Frames/cs.ATG" 
out type, false, false);
					if (
#line  2257 "Frames/cs.ATG" 
la.kind == Tokens.Question && !IsPossibleExpressionStart(Peek(1).kind)) {
						NullableQuestionMark(
#line  2258 "Frames/cs.ATG" 
ref type);
					}

#line  2259 "Frames/cs.ATG" 
					outExpr = new TypeOfIsExpression(outExpr, type); 
				} else if (la.kind == 50) {
					lexer.NextToken();
					TypeWithRestriction(
#line  2261 "Frames/cs.ATG" 
out type, false, false);
					if (
#line  2262 "Frames/cs.ATG" 
la.kind == Tokens.Question && !IsPossibleExpressionStart(Peek(1).kind)) {
						NullableQuestionMark(
#line  2263 "Frames/cs.ATG" 
ref type);
					}

#line  2264 "Frames/cs.ATG" 
					outExpr = new CastExpression(type, outExpr, CastType.TryCast); 
				} else SynErr(216);
			}
		}
	}