private UnboundLambda MakePairLambda(CSharpSyntaxNode node, QueryTranslationState state, RangeVariableSymbol x1, RangeVariableSymbol x2) { Debug.Assert(LambdaUtilities.IsQueryPairLambda(node)); LambdaBodyFactory bodyFactory = (LambdaSymbol lambdaSymbol, Binder lambdaBodyBinder, DiagnosticBag d) => { var x1Expression = new BoundParameter(node, lambdaSymbol.Parameters[0]) { WasCompilerGenerated = true }; var x2Expression = new BoundParameter(node, lambdaSymbol.Parameters[1]) { WasCompilerGenerated = true }; var construction = MakePair(node, x1.Name, x1Expression, x2.Name, x2Expression, state, d); return(lambdaBodyBinder.CreateBlockFromExpression(node, ImmutableArray <LocalSymbol> .Empty, RefKind.None, construction, null, d)); }; var result = MakeQueryUnboundLambda(state.RangeVariableMap(), ImmutableArray.Create(x1, x2), node, bodyFactory); state.rangeVariable = state.TransparentRangeVariable(this); state.AddTransparentIdentifier(x1.Name); var x2m = state.allRangeVariables[x2]; x2m[x2m.Count - 1] = x2.Name; return(result); }
private void ReduceLet(LetClauseSyntax let, QueryTranslationState state, DiagnosticBag diagnostics) { // A query expression with a let clause // from x in e // let y = f // ... // is translated into // from * in ( e ) . Select ( x => new { x , y = f } ) // ... var x = state.rangeVariable; // We use a slightly different translation strategy. We produce // from * in ( e ) . Select ( x => new Pair<X,Y>(x, f) ) // Where X is the type of x, and Y is the type of the expression f. // Subsequently, x (or members of x, if it is a transparent identifier) // are accessed as TRID.Item1 (or members of that), and y is accessed // as TRID.Item2, where TRID is the compiler-generated identifier used // to represent the transparent identifier in the result. LambdaBodyFactory bodyFactory = (LambdaSymbol lambdaSymbol, Binder lambdaBodyBinder, DiagnosticBag d) => { var xExpression = new BoundParameter(let, lambdaSymbol.Parameters[0]) { WasCompilerGenerated = true }; lambdaBodyBinder = lambdaBodyBinder.GetBinder(let.Expression); Debug.Assert(lambdaBodyBinder != null); var yExpression = lambdaBodyBinder.BindValue(let.Expression, d, BindValueKind.RValue); SourceLocation errorLocation = new SourceLocation(let.SyntaxTree, new TextSpan(let.Identifier.SpanStart, let.Expression.Span.End - let.Identifier.SpanStart)); if (!yExpression.HasAnyErrors && !yExpression.HasExpressionType()) { Error(d, ErrorCode.ERR_QueryRangeVariableAssignedBadValue, errorLocation, yExpression.Display); yExpression = new BoundBadExpression(yExpression.Syntax, LookupResultKind.Empty, ImmutableArray <Symbol> .Empty, ImmutableArray.Create(yExpression), CreateErrorType()); } else if (!yExpression.HasAnyErrors && yExpression.Type.SpecialType == SpecialType.System_Void) { Error(d, ErrorCode.ERR_QueryRangeVariableAssignedBadValue, errorLocation, yExpression.Type); yExpression = new BoundBadExpression(yExpression.Syntax, LookupResultKind.Empty, ImmutableArray <Symbol> .Empty, ImmutableArray.Create(yExpression), yExpression.Type); } var construction = MakePair(let, x.Name, xExpression, let.Identifier.ValueText, yExpression, state, d); // The bound block represents a closure scope for transparent identifiers captured in the let clause. // Such closures shall be associated with the lambda body expression. return(lambdaBodyBinder.CreateLambdaBlockForQueryClause(let.Expression, construction, d)); }; var lambda = MakeQueryUnboundLambda(state.RangeVariableMap(), ImmutableArray.Create(x), let.Expression, bodyFactory); state.rangeVariable = state.TransparentRangeVariable(this); state.AddTransparentIdentifier(x.Name); var y = state.AddRangeVariable(this, let.Identifier, diagnostics); state.allRangeVariables[y].Add(let.Identifier.ValueText); var invocation = MakeQueryInvocation(let, state.fromExpression, "Select", lambda, diagnostics); state.fromExpression = MakeQueryClause(let, invocation, y, invocation); }
UnboundLambda MakePairLambda(CSharpSyntaxNode node, QueryTranslationState state, RangeVariableSymbol x1, RangeVariableSymbol x2) { LambdaBodyResolver resolver = (LambdaSymbol lambdaSymbol, ref Binder lambdaBodyBinder, DiagnosticBag d) => { var x1Expression = new BoundParameter(node, lambdaSymbol.Parameters[0]) { WasCompilerGenerated = true }; var x2Expression = new BoundParameter(node, lambdaSymbol.Parameters[1]) { WasCompilerGenerated = true }; var construction = MakePair(node, x1.Name, x1Expression, x2.Name, x2Expression, state, d); return(lambdaBodyBinder.CreateBlockFromExpression(ImmutableArray <LocalSymbol> .Empty, construction, node, d)); }; var result = MakeQueryUnboundLambda(state.RangeVariableMap(), Args(x1, x2), node, resolver); state.rangeVariable = state.TransparentRangeVariable(this); state.AddTransparentIdentifier(x1.Name); var x2m = state.allRangeVariables[x2]; x2m[x2m.Count - 1] = x2.Name; return(result); }
void ReduceLet(LetClauseSyntax let, QueryTranslationState state, DiagnosticBag diagnostics) { // A query expression with a let clause // from x in e // let y = f // ... // is translated into // from * in ( e ) . Select ( x => new { x , y = f } ) // ... var x = state.rangeVariable; // We use a slightly different translation strategy. We produce // from * in ( e ) . Select ( x => new Pair<X,Y>(x, f) ) // Where X is the type of x, and Y is the type of the expression f. // Subsequently, x (or members of x, if it is a transparent identifier) // are accessed as TRID.Item1 (or members of that), and y is accessed // as TRID.Item2, where TRID is the compiler-generated identifier used // to represent the transparent identifier in the result. LambdaBodyResolver resolver = (LambdaSymbol lambdaSymbol, ref Binder lambdaBodyBinder, DiagnosticBag d) => { var xExpression = new BoundParameter(let, lambdaSymbol.Parameters[0]) { WasCompilerGenerated = true }; lambdaBodyBinder = new ScopedExpressionBinder(lambdaBodyBinder, let.Expression); var yExpression = lambdaBodyBinder.BindValue(let.Expression, d, BindValueKind.RValue); SourceLocation errorLocation = new SourceLocation(let.SyntaxTree, new TextSpan(let.Identifier.SpanStart, let.Expression.Span.End - let.Identifier.SpanStart)); if (!yExpression.HasAnyErrors && !yExpression.HasExpressionType()) { MessageID id = MessageID.IDS_NULL; if (yExpression.Kind == BoundKind.UnboundLambda) { id = ((UnboundLambda)yExpression).MessageID; } else if (yExpression.Kind == BoundKind.MethodGroup) { id = MessageID.IDS_MethodGroup; } else { Debug.Assert(yExpression.IsLiteralNull(), "How did we successfully bind an expression without a type?"); } Error(d, ErrorCode.ERR_QueryRangeVariableAssignedBadValue, errorLocation, id.Localize()); yExpression = new BoundBadExpression(yExpression.Syntax, LookupResultKind.Empty, ImmutableArray <Symbol> .Empty, ImmutableArray.Create <BoundNode>(yExpression), CreateErrorType()); } else if (!yExpression.HasAnyErrors && yExpression.Type.SpecialType == SpecialType.System_Void) { Error(d, ErrorCode.ERR_QueryRangeVariableAssignedBadValue, errorLocation, yExpression.Type); yExpression = new BoundBadExpression(yExpression.Syntax, LookupResultKind.Empty, ImmutableArray <Symbol> .Empty, ImmutableArray.Create <BoundNode>(yExpression), yExpression.Type); } var construction = MakePair(let, x.Name, xExpression, let.Identifier.ValueText, yExpression, state, d); return(lambdaBodyBinder.CreateBlockFromExpression(lambdaBodyBinder.Locals, construction, let, d)); }; var lambda = MakeQueryUnboundLambda(state.RangeVariableMap(), x, let.Expression, resolver); state.rangeVariable = state.TransparentRangeVariable(this); state.AddTransparentIdentifier(x.Name); var y = state.AddRangeVariable(this, let.Identifier, diagnostics); state.allRangeVariables[y].Add(let.Identifier.ValueText); var invocation = MakeQueryInvocation(let, state.fromExpression, "Select", lambda, diagnostics); state.fromExpression = MakeQueryClause(let, invocation, y, invocation); }
private void ReduceLet(LetClauseSyntax let, QueryTranslationState state, DiagnosticBag diagnostics) { // A query expression with a let clause // from x in e // let y = f // ... // is translated into // from * in ( e ) . Select ( x => new { x , y = f } ) // ... var x = state.rangeVariable; // We use a slightly different translation strategy. We produce // from * in ( e ) . Select ( x => new Pair<X,Y>(x, f) ) // Where X is the type of x, and Y is the type of the expression f. // Subsequently, x (or members of x, if it is a transparent identifier) // are accessed as TRID.Item1 (or members of that), and y is accessed // as TRID.Item2, where TRID is the compiler-generated identifier used // to represent the transparent identifier in the result. LambdaBodyFactory bodyFactory = (LambdaSymbol lambdaSymbol, Binder lambdaBodyBinder, DiagnosticBag d) => { var xExpression = new BoundParameter(let, lambdaSymbol.Parameters[0]) { WasCompilerGenerated = true }; lambdaBodyBinder = lambdaBodyBinder.GetBinder(let.Expression); Debug.Assert(lambdaBodyBinder != null); var yExpression = lambdaBodyBinder.BindValue(let.Expression, d, BindValueKind.RValue); SourceLocation errorLocation = new SourceLocation(let.SyntaxTree, new TextSpan(let.Identifier.SpanStart, let.Expression.Span.End - let.Identifier.SpanStart)); if (!yExpression.HasAnyErrors && !yExpression.HasExpressionType()) { Error(d, ErrorCode.ERR_QueryRangeVariableAssignedBadValue, errorLocation, yExpression.Display); yExpression = new BoundBadExpression(yExpression.Syntax, LookupResultKind.Empty, ImmutableArray<Symbol>.Empty, ImmutableArray.Create<BoundNode>(yExpression), CreateErrorType()); } else if (!yExpression.HasAnyErrors && yExpression.Type.SpecialType == SpecialType.System_Void) { Error(d, ErrorCode.ERR_QueryRangeVariableAssignedBadValue, errorLocation, yExpression.Type); yExpression = new BoundBadExpression(yExpression.Syntax, LookupResultKind.Empty, ImmutableArray<Symbol>.Empty, ImmutableArray.Create<BoundNode>(yExpression), yExpression.Type); } var construction = MakePair(let, x.Name, xExpression, let.Identifier.ValueText, yExpression, state, d); // The bound block represents a closure scope for transparent identifiers captured in the let clause. // Such closures shall be associated with the lambda body expression. return lambdaBodyBinder.CreateBlockFromExpression(let.Expression, lambdaBodyBinder.GetDeclaredLocalsForScope(let.Expression), RefKind.None, construction, null, d); }; var lambda = MakeQueryUnboundLambda(state.RangeVariableMap(), ImmutableArray.Create(x), let.Expression, bodyFactory); state.rangeVariable = state.TransparentRangeVariable(this); state.AddTransparentIdentifier(x.Name); var y = state.AddRangeVariable(this, let.Identifier, diagnostics); state.allRangeVariables[y].Add(let.Identifier.ValueText); var invocation = MakeQueryInvocation(let, state.fromExpression, "Select", lambda, diagnostics); state.fromExpression = MakeQueryClause(let, invocation, y, invocation); }
private UnboundLambda MakePairLambda(CSharpSyntaxNode node, QueryTranslationState state, RangeVariableSymbol x1, RangeVariableSymbol x2) { Debug.Assert(LambdaUtilities.IsQueryPairLambda(node)); LambdaBodyFactory bodyFactory = (LambdaSymbol lambdaSymbol, Binder lambdaBodyBinder, DiagnosticBag d) => { var x1Expression = new BoundParameter(node, lambdaSymbol.Parameters[0]) { WasCompilerGenerated = true }; var x2Expression = new BoundParameter(node, lambdaSymbol.Parameters[1]) { WasCompilerGenerated = true }; var construction = MakePair(node, x1.Name, x1Expression, x2.Name, x2Expression, state, d); return lambdaBodyBinder.CreateBlockFromExpression(node, ImmutableArray<LocalSymbol>.Empty, RefKind.None, construction, null, d); }; var result = MakeQueryUnboundLambda(state.RangeVariableMap(), ImmutableArray.Create(x1, x2), node, bodyFactory); state.rangeVariable = state.TransparentRangeVariable(this); state.AddTransparentIdentifier(x1.Name); var x2m = state.allRangeVariables[x2]; x2m[x2m.Count - 1] = x2.Name; return result; }
private void ReduceLet(LetClauseSyntax let, QueryTranslationState state, DiagnosticBag diagnostics) { // A query expression with a let clause // from x in e // let y = f // ... // is translated into // from * in ( e ) . Select ( x => new { x , y = f } ) // ... var x = state.rangeVariable; // We use a slightly different translation strategy. We produce // from * in ( e ) . Select ( x => new Pair<X,Y>(x, f) ) // Where X is the type of x, and Y is the type of the expression f. // Subsequently, x (or members of x, if it is a transparent identifier) // are accessed as TRID.Item1 (or members of that), and y is accessed // as TRID.Item2, where TRID is the compiler-generated identifier used // to represent the transparent identifier in the result. LambdaBodyFactory bodyFactory = (LambdaSymbol lambdaSymbol, ref Binder lambdaBodyBinder, DiagnosticBag d) => { var xExpression = new BoundParameter(let, lambdaSymbol.Parameters[0]) { WasCompilerGenerated = true }; var yExpression = lambdaBodyBinder.BindValue(let.Expression, d, BindValueKind.RValue); SourceLocation errorLocation = new SourceLocation(let.SyntaxTree, new TextSpan(let.Identifier.SpanStart, let.Expression.Span.End - let.Identifier.SpanStart)); if (!yExpression.HasAnyErrors && !yExpression.HasExpressionType()) { MessageID id = MessageID.IDS_NULL; if (yExpression.Kind == BoundKind.UnboundLambda) { id = ((UnboundLambda)yExpression).MessageID; } else if (yExpression.Kind == BoundKind.MethodGroup) { id = MessageID.IDS_MethodGroup; } else { Debug.Assert(yExpression.IsLiteralNull(), "How did we successfully bind an expression without a type?"); } Error(d, ErrorCode.ERR_QueryRangeVariableAssignedBadValue, errorLocation, id.Localize()); yExpression = new BoundBadExpression(yExpression.Syntax, LookupResultKind.Empty, ImmutableArray<Symbol>.Empty, ImmutableArray.Create<BoundNode>(yExpression), CreateErrorType()); } else if (!yExpression.HasAnyErrors && yExpression.Type.SpecialType == SpecialType.System_Void) { Error(d, ErrorCode.ERR_QueryRangeVariableAssignedBadValue, errorLocation, yExpression.Type); yExpression = new BoundBadExpression(yExpression.Syntax, LookupResultKind.Empty, ImmutableArray<Symbol>.Empty, ImmutableArray.Create<BoundNode>(yExpression), yExpression.Type); } var construction = MakePair(let, x.Name, xExpression, let.Identifier.ValueText, yExpression, state, d); return lambdaBodyBinder.CreateBlockFromExpression(let, lambdaBodyBinder.Locals, null, construction, d); }; var lambda = MakeQueryUnboundLambda(state.RangeVariableMap(), ImmutableArray.Create(x), let.Expression, bodyFactory); state.rangeVariable = state.TransparentRangeVariable(this); state.AddTransparentIdentifier(x.Name); var y = state.AddRangeVariable(this, let.Identifier, diagnostics); state.allRangeVariables[y].Add(let.Identifier.ValueText); var invocation = MakeQueryInvocation(let, state.fromExpression, "Select", lambda, diagnostics); state.fromExpression = MakeQueryClause(let, invocation, y, invocation); }