public TypedefDescription(ATypedefDecl typeDef) { Name = ((ANamedType)typeDef.GetName()).AsString(); Snapshot = typeDef; typeDef.Parent().RemoveChild(typeDef); Position = TextPoint.FromCompilerCoords(typeDef.GetToken()); realType = typeDef.GetType(); }
public override void CaseATypedefDecl(ATypedefDecl node) { data.Typedefs.Add(node); base.CaseATypedefDecl(node); }
private static void GetMatchingTypes(ANamedType node, List <string> names, List <ATypedefDecl> typeDefs, List <AStructDecl> structs, List <AMethodDecl> delegates, List <ANamespaceDecl> namespaces, List <TIdentifier> generics) { List <IList> decls = new List <IList>(); List <string> currentNamespace = Util.GetFullNamespace(node); AASourceFile currentSourceFile = Util.GetAncestor <AASourceFile>(node); if (names.Count == 1) { string name = names[0]; //Check generic vars AStructDecl currentStruct = Util.GetAncestor <AStructDecl>(node); if (currentStruct != null) { foreach (TIdentifier genericVar in currentStruct.GetGenericVars()) { if (genericVar.Text == name) { generics.Add(genericVar); } } } //Get all type decls and namespaces matching this name, visible from this location List <IList> visibleDecls = Util.GetVisibleDecls(node, ((AAName)node.GetName()).GetIdentifier().Count == 1); foreach (IList declList in visibleDecls) { bool sameFile = false; if (declList.Count > 0) { sameFile = currentSourceFile == Util.GetAncestor <AASourceFile>((PDecl)declList[0]); } foreach (PDecl decl in declList) { bool sameNS = Util.NamespacesEquals(currentNamespace, Util.GetFullNamespace(decl)); if (decl is ANamespaceDecl) { ANamespaceDecl aDecl = (ANamespaceDecl)decl; if (aDecl.GetName().Text == name) { namespaces.Add(aDecl); } continue; } if (decl is ATypedefDecl) { if (Util.IsAncestor(node, decl)) { continue; } ATypedefDecl aDecl = (ATypedefDecl)decl; if (aDecl.GetStatic() != null && !sameFile || aDecl.GetVisibilityModifier() is APrivateVisibilityModifier && !sameNS) { continue; } ANamedType namedType = (ANamedType)aDecl.GetName(); AAName aName = (AAName)namedType.GetName(); string n = ((TIdentifier)aName.GetIdentifier()[0]).Text; if (n == name) { typeDefs.Add(aDecl); } continue; } if (decl is AStructDecl) { AStructDecl aDecl = (AStructDecl)decl; if (!sameNS && aDecl.GetVisibilityModifier() is APrivateVisibilityModifier) { continue; } if (aDecl.GetName().Text == name) { structs.Add(aDecl); } continue; } if (decl is AMethodDecl) { AMethodDecl aDecl = (AMethodDecl)decl; if (!sameNS && aDecl.GetVisibilityModifier() is APrivateVisibilityModifier || !sameFile && aDecl.GetStatic() != null) { continue; } if (aDecl.GetDelegate() != null && aDecl.GetName().Text == name) { delegates.Add(aDecl); } continue; } } } } else { string name = names[names.Count - 1]; List <ANamespaceDecl> baseNamespaces = new List <ANamespaceDecl>(); List <string> baseNames = new List <string>(); baseNames.AddRange(names); baseNames.RemoveAt(baseNames.Count - 1); GetMatchingTypes(node, baseNames, new List <ATypedefDecl>(), new List <AStructDecl>(), new List <AMethodDecl>(), baseNamespaces, generics); foreach (ANamespaceDecl ns in baseNamespaces) { bool sameFile = currentSourceFile == Util.GetAncestor <AASourceFile>(ns); foreach (PDecl decl in ns.GetDecl()) { bool sameNS = Util.NamespacesEquals(currentNamespace, Util.GetFullNamespace(decl)); if (decl is ANamespaceDecl) { ANamespaceDecl aDecl = (ANamespaceDecl)decl; if (aDecl.GetName().Text == name) { namespaces.Add(aDecl); } continue; } if (decl is ATypedefDecl) { ATypedefDecl aDecl = (ATypedefDecl)decl; ANamedType namedType = (ANamedType)aDecl.GetName(); AAName aName = (AAName)namedType.GetName(); string n = ((TIdentifier)aName.GetIdentifier()[0]).Text; if (n == name) { typeDefs.Add(aDecl); } continue; } if (decl is AStructDecl) { AStructDecl aDecl = (AStructDecl)decl; if (!sameNS && aDecl.GetVisibilityModifier() is APrivateVisibilityModifier) { continue; } if (aDecl.GetName().Text == name) { structs.Add(aDecl); } continue; } if (decl is AMethodDecl) { AMethodDecl aDecl = (AMethodDecl)decl; if (!sameNS && aDecl.GetVisibilityModifier() is APrivateVisibilityModifier || !sameFile && aDecl.GetStatic() != null) { continue; } if (aDecl.GetDelegate() != null && aDecl.GetName().Text == name) { delegates.Add(aDecl); } continue; } } } } }
public override void OutANamedType(ANamedType node) { if (node.Parent() is ATypedefDecl && ((ATypedefDecl)node.Parent()).GetName() == node) { return; } //Link named type to their definition (structs) List <ATypedefDecl> typeDefs = new List <ATypedefDecl>(); List <AStructDecl> structs = new List <AStructDecl>(); List <AMethodDecl> delegates = new List <AMethodDecl>(); List <TIdentifier> generics = new List <TIdentifier>(); bool matchPrimitive; GetMatchingTypes(node, typeDefs, structs, delegates, generics, out matchPrimitive); int matches = typeDefs.Count + structs.Count + delegates.Count + (matchPrimitive ? 1 : 0) + generics.Count; if (matches == 0) { errors.Add(new ErrorCollection.Error(node.GetToken(), "Could not find any types matching " + ((AAName)node.GetName()).AsString()), true); } else if (generics.Count != 1 && matches > 1) { List <ErrorCollection.Error> subError = new List <ErrorCollection.Error>(); if (matchPrimitive) { subError.Add(new ErrorCollection.Error(node.GetToken(), "Matches primitive " + ((AAName)node.GetName()).AsString())); } foreach (ATypedefDecl typeDef in typeDefs) { subError.Add(new ErrorCollection.Error(typeDef.GetToken(), "Matching typedef")); } foreach (AStructDecl structDecl in structs) { subError.Add(new ErrorCollection.Error(structDecl.GetName(), "Matching " + Util.GetTypeName(structDecl))); } foreach (AMethodDecl methodDecl in delegates) { subError.Add(new ErrorCollection.Error(methodDecl.GetName(), "Matching delegate")); } foreach (TIdentifier identifier in generics) { subError.Add(new ErrorCollection.Error(identifier, "Matching generic")); } errors.Add( new ErrorCollection.Error(node.GetToken(), "Found multiple types matching " + ((AAName)node.GetName()).AsString(), false, subError.ToArray()), true); } else { if (generics.Count == 1) { data.GenericLinks[node] = generics[0]; return; } if (typeDefs.Count == 1) { ATypedefDecl typeDef = typeDefs[0]; //data.TypeDefLinks[node] = typeDef; PType type = (PType)typeDef.GetType().Clone(); node.ReplaceBy(type); type.Apply(this); return; } if (structs.Count == 1) { data.StructTypeLinks[node] = structs[0]; } else if (delegates.Count == 1) { data.DelegateTypeLinks[node] = delegates[0]; } if (!matchPrimitive && !(structs.Count == 1 && data.Enums.ContainsKey(structs[0])) && node.Parent() is AEnrichmentDecl) //Not allowed to enrich a struct, class or delegate { errors.Add(new ErrorCollection.Error(node.GetToken(), "You can not enrich this type.")); } } }
public override void OutATypedefDecl(ATypedefDecl node) { TypedefDescription typedef = new TypedefDescription(node); Typedefs.Add(typedef); }