public void TestIntrinsicFunctionOverloading(string function, string type1, string type2, string expectedMatchTypes)
{
var expressionCode = $"{function}(({type1}) 0, ({type2}) 0)";
var syntaxTree = SyntaxFactory.ParseExpression(expressionCode);
var syntaxTreeSource = syntaxTree.Root.ToFullString();
Assert.Equal(expressionCode, syntaxTreeSource);
var expression = (ExpressionSyntax)syntaxTree.Root;
var compilation = new CodeAnalysis.Hlsl.Compilation.Compilation(syntaxTree);
var semanticModel = compilation.GetSemanticModel();
var combinedDiagnostics = syntaxTree.GetDiagnostics().Concat(semanticModel.GetDiagnostics()).ToList();
foreach (var d in combinedDiagnostics)
{
Debug.WriteLine(d);
}
var invokedFunctionSymbol = (FunctionSymbol)semanticModel.GetSymbol(expression);
var diagnostic = combinedDiagnostics.SingleOrDefault(x => x.Severity == DiagnosticSeverity.Error);
var result = diagnostic == null
? $"{invokedFunctionSymbol.Parameters[0].ValueType.ToMarkup()}, {invokedFunctionSymbol.Parameters[1].ValueType.ToMarkup()}"
: ExpressionTestUtility.GetErrorString((DiagnosticId)diagnostic.Descriptor.Code);
Assert.Equal(expectedMatchTypes, result);
}
public void TestFunctionOverloadResolutionMultipleFunctionDeclarations()
{
var code = $@"
void foo();
void foo();
void main()
{{
foo();
}}";
var syntaxTree = SyntaxFactory.ParseSyntaxTree(SourceText.From(code));
var syntaxTreeSource = syntaxTree.Root.ToFullString();
Assert.Equal(code, syntaxTreeSource);
var expression = (FunctionInvocationExpressionSyntax)syntaxTree.Root.ChildNodes
.OfType <FunctionDefinitionSyntax>()
.Where(x => x.Name.GetUnqualifiedName().Name.Text == "main")
.Select(x => ((ExpressionStatementSyntax)x.Body.Statements[0]).Expression)
.First();
var compilation = new CodeAnalysis.Hlsl.Compilation.Compilation(syntaxTree);
var semanticModel = compilation.GetSemanticModel();
var combinedDiagnostics = syntaxTree.GetDiagnostics().Concat(semanticModel.GetDiagnostics()).ToList();
foreach (var d in combinedDiagnostics)
{
Debug.WriteLine(d);
}
var invokedFunctionSymbol = (FunctionSymbol)semanticModel.GetSymbol(expression);
Assert.Equal("foo", invokedFunctionSymbol.Name);
}
public void SemanticModelForTypedef()
{
var syntaxTree = SyntaxFactory.ParseSyntaxTree(SourceText.From(@"
typedef float2 Point;
void main() {
Point p;
p.x = 1;
}"));
var compilation = new CodeAnalysis.Hlsl.Compilation.Compilation(syntaxTree);
var semanticModel = compilation.GetSemanticModel();
foreach (var diagnostic in semanticModel.GetDiagnostics())
{
_output.WriteLine(diagnostic.ToString());
}
Assert.Equal(0, semanticModel.GetDiagnostics().Count(x => x.Severity == DiagnosticSeverity.Error));
var typedefStatement = (TypedefStatementSyntax)syntaxTree.Root.ChildNodes[0];
var functionDefinition = (FunctionDefinitionSyntax)syntaxTree.Root.ChildNodes[1];
var typeAliasSymbol = semanticModel.GetDeclaredSymbol(typedefStatement.Declarators[0]);
Assert.NotNull(typeAliasSymbol);
Assert.Equal("Point", typeAliasSymbol.Name);
var variableDeclaration = (VariableDeclarationStatementSyntax)functionDefinition.Body.Statements[0];
var variableSymbol = semanticModel.GetDeclaredSymbol(variableDeclaration.Declaration.Variables[0]);
Assert.NotNull(variableSymbol);
Assert.Equal("p", variableSymbol.Name);
Assert.NotNull(variableSymbol.ValueType);
Assert.Equal(typeAliasSymbol, variableSymbol.ValueType);
}
public void TestBinaryOperatorTypeConversions(string opText, string leftText, string rightText, string expectedResult)
{
var left = ExpressionTestUtility.GetValue(leftText);
var right = ExpressionTestUtility.GetValue(rightText);
var source = $"{left} {opText} {right}";
var syntaxTree = SyntaxFactory.ParseExpression(source);
var syntaxTreeSource = syntaxTree.Root.ToString();
Assert.Equal(source, syntaxTreeSource);
var expression = (BinaryExpressionSyntax)syntaxTree.Root;
var compilation = new CodeAnalysis.Hlsl.Compilation.Compilation(syntaxTree);
var semanticModel = compilation.GetSemanticModel();
var leftType = ExpressionTestUtility.GetExpressionTypeString(semanticModel.GetExpressionType(expression.Left));
Assert.Equal(leftText, leftType);
var rightType = ExpressionTestUtility.GetExpressionTypeString(semanticModel.GetExpressionType(expression.Right));
Assert.Equal(rightText, rightType);
var diagnostic = syntaxTree.GetDiagnostics().Concat(semanticModel.GetDiagnostics()).SingleOrDefault();
var expressionType = semanticModel.GetExpressionType(expression);
var result = diagnostic == null
? ExpressionTestUtility.GetExpressionTypeString(expressionType)
: ExpressionTestUtility.GetErrorString((DiagnosticId)diagnostic.Descriptor.Code);
Assert.Equal(expectedResult, result);
}
protected void AssertNoDiagnostics(string code)
{
var syntaxTree = SyntaxFactory.ParseSyntaxTree(SourceText.From(code));
var compilation = new CodeAnalysis.Hlsl.Compilation.Compilation(syntaxTree);
var semanticModel = compilation.GetSemanticModel();
var diagnostics = syntaxTree.GetDiagnostics().Concat(semanticModel.GetDiagnostics()).ToImmutableArray();
Assert.Empty(diagnostics);
}
protected void AssertDiagnostics(string code, params DiagnosticId[] expectedDiagnosticIds)
{
var syntaxTree = SyntaxFactory.ParseSyntaxTree(SourceText.From(code));
var compilation = new CodeAnalysis.Hlsl.Compilation.Compilation(syntaxTree);
var semanticModel = compilation.GetSemanticModel();
var diagnostics = syntaxTree.GetDiagnostics().Concat(semanticModel.GetDiagnostics()).ToImmutableArray();
Assert.Equal(expectedDiagnosticIds.Length, diagnostics.Length);
for (var i = 0; i < expectedDiagnosticIds.Length; i++)
{
Assert.Equal(expectedDiagnosticIds[i], (DiagnosticId)diagnostics[i].Descriptor.Code);
}
}
public void DetectsRedefinitionAsFunction()
{
var code = @"
struct foo {};
void foo();";
var syntaxTree = SyntaxFactory.ParseSyntaxTree(SourceText.From(code));
var compilation = new CodeAnalysis.Hlsl.Compilation.Compilation(syntaxTree);
var semanticModel = compilation.GetSemanticModel();
var diagnostics = syntaxTree.GetDiagnostics().Concat(semanticModel.GetDiagnostics()).ToImmutableArray();
Assert.Equal(1, diagnostics.Length);
Assert.Equal(DiagnosticId.SymbolRedefined, (DiagnosticId)diagnostics[0].Descriptor.Code);
}
public void DetectsUndeclaredVariable()
{
var code = @"
void main()
{
int foo = a;
}";
var syntaxTree = SyntaxFactory.ParseSyntaxTree(SourceText.From(code));
var compilation = new CodeAnalysis.Hlsl.Compilation.Compilation(syntaxTree);
var semanticModel = compilation.GetSemanticModel();
var diagnostics = syntaxTree.GetDiagnostics().Concat(semanticModel.GetDiagnostics()).ToImmutableArray();
Assert.Equal(1, diagnostics.Length);
Assert.Equal(DiagnosticId.UndeclaredVariable, (DiagnosticId)diagnostics[0].Descriptor.Code);
}
public void SemanticModelForScalarSwizzle()
{
var syntaxTree = SyntaxFactory.ParseSyntaxTree(SourceText.From(@"
float4 main() {
return 1.xxxx + 2.0f.xxxx + 2.5.xxxx;
}"));
var compilation = new CodeAnalysis.Hlsl.Compilation.Compilation(syntaxTree);
var semanticModel = compilation.GetSemanticModel();
foreach (var diagnostic in semanticModel.GetDiagnostics())
{
_output.WriteLine(diagnostic.ToString());
}
Assert.Equal(0, semanticModel.GetDiagnostics().Count(x => x.Severity == DiagnosticSeverity.Error));
}
public void TestFunctionOverloadResolution2Args(string type1, string type2, string expectedMatchTypes)
{
var code = $@"
int foo(int x, float y) {{ return 1; }}
int foo(float x, float y) {{ return 2; }}
int foo(double x, float y) {{ return 3; }}
int foo(float x, int y) {{ return 4; }}
int foo(float x, double y) {{ return 5; }}
int foo(double x, int y) {{ return 6; }}
int foo(int2 x, float y) {{ return 7; }}
int foo(float2 x, float y) {{ return 8; }}
int foo(double2 x, float y) {{ return 9; }}
int foo(float3x3 x, float y) {{ return 10; }}
void main()
{{
foo({ExpressionTestUtility.GetValue(type1)}, {ExpressionTestUtility.GetValue(type2)});
}}";
var syntaxTree = SyntaxFactory.ParseSyntaxTree(SourceText.From(code));
var syntaxTreeSource = syntaxTree.Root.ToFullString();
Assert.Equal(code, syntaxTreeSource);
var expression = (FunctionInvocationExpressionSyntax)syntaxTree.Root.ChildNodes
.OfType <FunctionDefinitionSyntax>()
.Where(x => x.Name.GetUnqualifiedName().Name.Text == "main")
.Select(x => ((ExpressionStatementSyntax)x.Body.Statements[0]).Expression)
.First();
var compilation = new CodeAnalysis.Hlsl.Compilation.Compilation(syntaxTree);
var semanticModel = compilation.GetSemanticModel();
var combinedDiagnostics = syntaxTree.GetDiagnostics().Concat(semanticModel.GetDiagnostics()).ToList();
foreach (var d in combinedDiagnostics)
{
Debug.WriteLine(d);
}
var invokedFunctionSymbol = (FunctionSymbol)semanticModel.GetSymbol(expression);
var diagnostic = combinedDiagnostics.SingleOrDefault(x => x.Severity == DiagnosticSeverity.Error);
var result = diagnostic == null
? $"{invokedFunctionSymbol.Parameters[0].ValueType.ToMarkup()}, {invokedFunctionSymbol.Parameters[1].ValueType.ToMarkup()}"
: ExpressionTestUtility.GetErrorString((DiagnosticId)diagnostic.Descriptor.Code);
Assert.Equal(expectedMatchTypes, result);
}
public void SemanticModelForStructAndFunction()
{
var syntaxTree = SyntaxFactory.ParseSyntaxTree(SourceText.From(@"
struct MyStruct
{
float a;
int b;
};
void MyFunc()
{
MyStruct s;
s.a = 1.0;
}"));
var compilation = new CodeAnalysis.Hlsl.Compilation.Compilation(syntaxTree);
var semanticModel = compilation.GetSemanticModel();
var structDefinition = (TypeDeclarationStatementSyntax)syntaxTree.Root.ChildNodes[0];
var functionDefinition = (FunctionDefinitionSyntax)syntaxTree.Root.ChildNodes[1];
var variableDeclaration = (VariableDeclarationStatementSyntax)functionDefinition.Body.Statements[0];
var assignmentStatement = (ExpressionStatementSyntax)functionDefinition.Body.Statements[1];
var structSymbol = semanticModel.GetDeclaredSymbol((StructTypeSyntax)structDefinition.Type);
Assert.NotNull(structSymbol);
Assert.Equal("MyStruct", structSymbol.Name);
Assert.Equal(2, structSymbol.Members.Length);
var functionSymbol = semanticModel.GetDeclaredSymbol(functionDefinition);
Assert.NotNull(functionSymbol);
Assert.Equal("MyFunc", functionSymbol.Name);
Assert.Equal(IntrinsicTypes.Void, functionSymbol.ReturnType);
var variableSymbol = semanticModel.GetDeclaredSymbol(variableDeclaration.Declaration.Variables[0]);
Assert.NotNull(variableSymbol);
Assert.Equal("s", variableSymbol.Name);
Assert.NotNull(variableSymbol.ValueType);
Assert.Equal(structSymbol, variableSymbol.ValueType);
var assignmentExpressionType = semanticModel.GetExpressionType(assignmentStatement.Expression);
Assert.NotNull(assignmentExpressionType);
Assert.Equal(IntrinsicTypes.Float, assignmentExpressionType);
}
public void CanGetSemanticModel(string testFile)
{
var sourceCode = File.ReadAllText(testFile);
// Build syntax tree.
var syntaxTree = SyntaxFactory.ParseSyntaxTree(new SourceFile(SourceText.From(sourceCode), testFile), fileSystem: new TestFileSystem());
SyntaxTreeUtility.CheckForParseErrors(syntaxTree);
// Get semantic model.
var compilation = new CodeAnalysis.Hlsl.Compilation.Compilation(syntaxTree);
var semanticModel = compilation.GetSemanticModel();
Assert.NotNull(semanticModel);
foreach (var diagnostic in semanticModel.GetDiagnostics())
{
_output.WriteLine(diagnostic.ToString());
}
Assert.Equal(0, semanticModel.GetDiagnostics().Count(x => x.Severity == DiagnosticSeverity.Error));
}
