public override void Populate()
{
var constraints = new TypeParameterConstraints(Context);
Context.Emit(Tuples.type_parameter_constraints(constraints, this));
if (symbol.HasReferenceTypeConstraint)
{
Context.Emit(Tuples.general_type_parameter_constraints(constraints, 1));
}
if (symbol.HasValueTypeConstraint)
{
Context.Emit(Tuples.general_type_parameter_constraints(constraints, 2));
}
if (symbol.HasConstructorConstraint)
{
Context.Emit(Tuples.general_type_parameter_constraints(constraints, 3));
}
ITypeSymbol baseType = symbol.HasValueTypeConstraint ?
Context.Compilation.GetTypeByMetadataName(valueTypeName) :
Context.Compilation.ObjectType;
foreach (var abase in symbol.ConstraintTypes)
{
if (abase.TypeKind != TypeKind.Interface)
{
baseType = abase;
}
var t = Create(Context, abase);
Context.Emit(Tuples.specific_type_parameter_constraints(constraints, t.TypeRef));
}
Context.Emit(Tuples.types(this, Semmle.Extraction.Kinds.TypeKind.TYPE_PARAMETER, symbol.Name));
Context.Emit(Tuples.extend(this, Create(Context, baseType).TypeRef));
Namespace parentNs = Namespace.Create(Context, symbol.TypeParameterKind == TypeParameterKind.Method ? Context.Compilation.GlobalNamespace : symbol.ContainingNamespace);
Context.Emit(Tuples.parent_namespace(this, parentNs));
foreach (var l in symbol.Locations)
{
Context.Emit(Tuples.type_location(this, Context.Create(l)));
}
if (this.IsSourceDeclaration)
{
var declSyntaxReferences = symbol.DeclaringSyntaxReferences.Select(d => d.GetSyntax()).
Select(s => s.Parent).Where(p => p != null).Select(p => p.Parent).ToArray();
var clauses = declSyntaxReferences.OfType <MethodDeclarationSyntax>().SelectMany(m => m.ConstraintClauses);
clauses = clauses.Concat(declSyntaxReferences.OfType <ClassDeclarationSyntax>().SelectMany(c => c.ConstraintClauses));
clauses = clauses.Concat(declSyntaxReferences.OfType <InterfaceDeclarationSyntax>().SelectMany(c => c.ConstraintClauses));
clauses = clauses.Concat(declSyntaxReferences.OfType <StructDeclarationSyntax>().SelectMany(c => c.ConstraintClauses));
foreach (var clause in clauses.Where(c => c.Name.Identifier.Text == symbol.Name))
{
TypeMention.Create(Context, clause.Name, this, this);
foreach (var constraint in clause.Constraints.OfType <TypeConstraintSyntax>())
{
var ti = Context.Model(constraint).GetTypeInfo(constraint.Type);
var target = Type.Create(Context, ti.Type);
TypeMention.Create(Context, constraint.Type, this, target);
}
}
}
}
protected void PopulateType(TextWriter trapFile, bool constructUnderlyingTupleType = false)
{
PopulateMetadataHandle(trapFile);
PopulateAttributes();
trapFile.Write("types(");
trapFile.WriteColumn(this);
trapFile.Write(',');
trapFile.WriteColumn((int)GetClassType(Context, symbol, constructUnderlyingTupleType));
trapFile.Write(",\"");
symbol.BuildDisplayName(Context, trapFile, constructUnderlyingTupleType);
trapFile.WriteLine("\")");
// Visit base types
var baseTypes = new List <Type>();
if (symbol.GetNonObjectBaseType(Context) is INamedTypeSymbol @base)
{
var baseKey = Create(Context, @base);
trapFile.extend(this, baseKey.TypeRef);
if (symbol.TypeKind != TypeKind.Struct)
{
baseTypes.Add(baseKey);
}
}
if (!(base.symbol is IArrayTypeSymbol))
{
foreach (var t in base.symbol.Interfaces.Select(i => Create(Context, i)))
{
trapFile.implement(this, t.TypeRef);
baseTypes.Add(t);
}
}
var containingType = ContainingType;
if (containingType != null && symbol.Kind != SymbolKind.TypeParameter)
{
var originalDefinition = symbol.TypeKind == TypeKind.Error ? this : Create(Context, symbol.OriginalDefinition);
trapFile.nested_types(this, containingType, originalDefinition);
}
else if (symbol.ContainingNamespace != null)
{
trapFile.parent_namespace(this, Namespace.Create(Context, symbol.ContainingNamespace));
}
if (symbol is IArrayTypeSymbol array)
{
// They are in the namespace of the original object
var elementType = array.ElementType;
var ns = elementType.TypeKind == TypeKind.TypeParameter ? Context.Compilation.GlobalNamespace : elementType.ContainingNamespace;
if (ns != null)
{
trapFile.parent_namespace(this, Namespace.Create(Context, ns));
}
}
if (symbol is IPointerTypeSymbol pointer)
{
var elementType = pointer.PointedAtType;
var ns = elementType.TypeKind == TypeKind.TypeParameter ? Context.Compilation.GlobalNamespace : elementType.ContainingNamespace;
if (ns != null)
{
trapFile.parent_namespace(this, Namespace.Create(Context, ns));
}
}
if (symbol.BaseType != null && symbol.BaseType.SpecialType == SpecialType.System_MulticastDelegate)
{
// This is a delegate.
// The method "Invoke" has the return type.
var invokeMethod = ((INamedTypeSymbol)symbol).DelegateInvokeMethod;
ExtractParametersForDelegateLikeType(trapFile, invokeMethod,
t => trapFile.delegate_return_type(this, t));
}
if (symbol is IFunctionPointerTypeSymbol functionPointer)
{
ExtractParametersForDelegateLikeType(trapFile, functionPointer.Signature,
t => trapFile.function_pointer_return_type(this, t));
}
Modifier.ExtractModifiers(Context, trapFile, this, symbol);
if (IsSourceDeclaration && symbol.FromSource())
{
var declSyntaxReferences = symbol.DeclaringSyntaxReferences.Select(d => d.GetSyntax()).ToArray();
var baseLists = declSyntaxReferences.OfType <ClassDeclarationSyntax>().Select(c => c.BaseList);
baseLists = baseLists.Concat(declSyntaxReferences.OfType <InterfaceDeclarationSyntax>().Select(c => c.BaseList));
baseLists = baseLists.Concat(declSyntaxReferences.OfType <StructDeclarationSyntax>().Select(c => c.BaseList));
baseLists
.Where(bl => bl != null)
.SelectMany(bl => bl.Types)
.Zip(
baseTypes.Where(bt => bt.symbol.SpecialType != SpecialType.System_Object),
(s, t) => TypeMention.Create(Context, s.Type, this, t))
.Enumerate();
}
}
public override void Populate(TextWriter trapFile)
{
var constraints = new TypeParameterConstraints(Context);
trapFile.type_parameter_constraints(constraints, this);
if (Symbol.HasReferenceTypeConstraint)
{
trapFile.general_type_parameter_constraints(constraints, 1);
}
if (Symbol.HasValueTypeConstraint)
{
trapFile.general_type_parameter_constraints(constraints, 2);
}
if (Symbol.HasConstructorConstraint)
{
trapFile.general_type_parameter_constraints(constraints, 3);
}
if (Symbol.HasUnmanagedTypeConstraint)
{
trapFile.general_type_parameter_constraints(constraints, 4);
}
if (Symbol.ReferenceTypeConstraintNullableAnnotation == NullableAnnotation.Annotated)
{
trapFile.general_type_parameter_constraints(constraints, 5);
}
foreach (var abase in Symbol.GetAnnotatedTypeConstraints())
{
var t = Create(Context, abase.Symbol);
trapFile.specific_type_parameter_constraints(constraints, t.TypeRef);
if (!abase.HasObliviousNullability())
{
trapFile.specific_type_parameter_nullability(constraints, t.TypeRef, NullabilityEntity.Create(Context, Nullability.Create(abase)));
}
}
trapFile.types(this, Kinds.TypeKind.TYPE_PARAMETER, Symbol.Name);
var parentNs = Namespace.Create(Context, Symbol.TypeParameterKind == TypeParameterKind.Method ? Context.Compilation.GlobalNamespace : Symbol.ContainingNamespace);
trapFile.parent_namespace(this, parentNs);
foreach (var l in Symbol.Locations)
{
trapFile.type_location(this, Context.CreateLocation(l));
}
if (IsSourceDeclaration)
{
var declSyntaxReferences = Symbol.DeclaringSyntaxReferences
.Select(d => d.GetSyntax())
.Select(s => s.Parent)
.Where(p => p is not null)
.Select(p => p !.Parent)
.ToArray();
var clauses = declSyntaxReferences.OfType <MethodDeclarationSyntax>().SelectMany(m => m.ConstraintClauses);
clauses = clauses.Concat(declSyntaxReferences.OfType <ClassDeclarationSyntax>().SelectMany(c => c.ConstraintClauses));
clauses = clauses.Concat(declSyntaxReferences.OfType <InterfaceDeclarationSyntax>().SelectMany(c => c.ConstraintClauses));
clauses = clauses.Concat(declSyntaxReferences.OfType <StructDeclarationSyntax>().SelectMany(c => c.ConstraintClauses));
foreach (var clause in clauses.Where(c => c.Name.Identifier.Text == Symbol.Name))
{
TypeMention.Create(Context, clause.Name, this, this);
foreach (var constraint in clause.Constraints.OfType <TypeConstraintSyntax>())
{
var ti = Context.GetModel(constraint).GetTypeInfo(constraint.Type);
var target = Type.Create(Context, ti.Type);
TypeMention.Create(Context, constraint.Type, this, target);
}
}
}
}
protected void PopulateType(TextWriter trapFile)
{
PopulateMetadataHandle(trapFile);
PopulateAttributes();
trapFile.Write("types(");
trapFile.WriteColumn(this);
trapFile.Write(',');
trapFile.WriteColumn((int)GetClassType(Context, symbol));
trapFile.Write(",\"");
symbol.BuildDisplayName(Context, trapFile);
trapFile.WriteLine("\")");
// Visit base types
var baseTypes = new List <Type>();
if (symbol.BaseType != null)
{
Type baseKey = Create(Context, symbol.BaseType);
trapFile.extend(this, baseKey.TypeRef);
if (symbol.TypeKind != TypeKind.Struct)
{
baseTypes.Add(baseKey);
}
}
if (symbol.TypeKind == TypeKind.Interface)
{
trapFile.extend(this, Create(Context, Context.Compilation.ObjectType));
}
if (!(base.symbol is IArrayTypeSymbol))
{
foreach (var t in base.symbol.Interfaces.Select(i => Create(Context, i)))
{
trapFile.implement(this, t.TypeRef);
baseTypes.Add(t);
}
}
var containingType = ContainingType;
if (containingType != null && symbol.Kind != SymbolKind.TypeParameter)
{
Type originalDefinition = symbol.TypeKind == TypeKind.Error ? this : Create(Context, symbol.OriginalDefinition);
trapFile.nested_types(this, containingType, originalDefinition);
}
else if (symbol.ContainingNamespace != null)
{
trapFile.parent_namespace(this, Namespace.Create(Context, symbol.ContainingNamespace));
}
if (symbol is IArrayTypeSymbol)
{
// They are in the namespace of the original object
ITypeSymbol elementType = ((IArrayTypeSymbol)symbol).ElementType;
INamespaceSymbol ns = elementType.TypeKind == TypeKind.TypeParameter ? Context.Compilation.GlobalNamespace : elementType.ContainingNamespace;
if (ns != null)
{
trapFile.parent_namespace(this, Namespace.Create(Context, ns));
}
}
if (symbol is IPointerTypeSymbol)
{
ITypeSymbol elementType = ((IPointerTypeSymbol)symbol).PointedAtType;
INamespaceSymbol ns = elementType.TypeKind == TypeKind.TypeParameter ? Context.Compilation.GlobalNamespace : elementType.ContainingNamespace;
if (ns != null)
{
trapFile.parent_namespace(this, Namespace.Create(Context, ns));
}
}
if (symbol.BaseType != null && symbol.BaseType.SpecialType == SpecialType.System_MulticastDelegate)
{
// This is a delegate.
// The method "Invoke" has the return type.
var invokeMethod = ((INamedTypeSymbol)symbol).DelegateInvokeMethod;
// Copy the parameters from the "Invoke" method to the delegate type
for (var i = 0; i < invokeMethod.Parameters.Length; ++i)
{
var param = invokeMethod.Parameters[i];
var originalParam = invokeMethod.OriginalDefinition.Parameters[i];
var originalParamEntity = SymbolEqualityComparer.Default.Equals(param, originalParam) ? null :
DelegateTypeParameter.Create(Context, originalParam, Create(Context, ((INamedTypeSymbol)symbol).OriginalDefinition));
DelegateTypeParameter.Create(Context, param, this, originalParamEntity);
}
var returnKey = Create(Context, invokeMethod.ReturnType);
trapFile.delegate_return_type(this, returnKey.TypeRef);
if (invokeMethod.ReturnsByRef)
{
trapFile.type_annotation(this, Kinds.TypeAnnotation.Ref);
}
if (invokeMethod.ReturnsByRefReadonly)
{
trapFile.type_annotation(this, Kinds.TypeAnnotation.ReadonlyRef);
}
}
Modifier.ExtractModifiers(Context, trapFile, this, symbol);
if (IsSourceDeclaration && symbol.FromSource())
{
var declSyntaxReferences = symbol.DeclaringSyntaxReferences.Select(d => d.GetSyntax()).ToArray();
var baseLists = declSyntaxReferences.OfType <ClassDeclarationSyntax>().Select(c => c.BaseList);
baseLists = baseLists.Concat(declSyntaxReferences.OfType <InterfaceDeclarationSyntax>().Select(c => c.BaseList));
baseLists = baseLists.Concat(declSyntaxReferences.OfType <StructDeclarationSyntax>().Select(c => c.BaseList));
baseLists.
Where(bl => bl != null).
SelectMany(bl => bl.Types).
Zip(baseTypes.Where(bt => bt.symbol.SpecialType != SpecialType.System_Object),
(s, t) => TypeMention.Create(Context, s.Type, this, t)).
Enumerate();
}
}