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Current File : //compat/linux/proc/68247/root/usr/src/contrib/llvm/tools/clang/lib/AST/NestedNameSpecifier.cpp |
//===--- NestedNameSpecifier.cpp - C++ nested name specifiers -----*- C++ -*-=// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This file defines the NestedNameSpecifier class, which represents // a C++ nested-name-specifier. // //===----------------------------------------------------------------------===// #include "clang/AST/NestedNameSpecifier.h" #include "clang/AST/ASTContext.h" #include "clang/AST/Decl.h" #include "clang/AST/DeclCXX.h" #include "clang/AST/PrettyPrinter.h" #include "clang/AST/Type.h" #include "clang/AST/TypeLoc.h" #include "llvm/Support/raw_ostream.h" #include <cassert> using namespace clang; NestedNameSpecifier * NestedNameSpecifier::FindOrInsert(const ASTContext &Context, const NestedNameSpecifier &Mockup) { llvm::FoldingSetNodeID ID; Mockup.Profile(ID); void *InsertPos = 0; NestedNameSpecifier *NNS = Context.NestedNameSpecifiers.FindNodeOrInsertPos(ID, InsertPos); if (!NNS) { NNS = new (Context, 4) NestedNameSpecifier(Mockup); Context.NestedNameSpecifiers.InsertNode(NNS, InsertPos); } return NNS; } NestedNameSpecifier * NestedNameSpecifier::Create(const ASTContext &Context, NestedNameSpecifier *Prefix, IdentifierInfo *II) { assert(II && "Identifier cannot be NULL"); assert((!Prefix || Prefix->isDependent()) && "Prefix must be dependent"); NestedNameSpecifier Mockup; Mockup.Prefix.setPointer(Prefix); Mockup.Prefix.setInt(StoredIdentifier); Mockup.Specifier = II; return FindOrInsert(Context, Mockup); } NestedNameSpecifier * NestedNameSpecifier::Create(const ASTContext &Context, NestedNameSpecifier *Prefix, NamespaceDecl *NS) { assert(NS && "Namespace cannot be NULL"); assert((!Prefix || (Prefix->getAsType() == 0 && Prefix->getAsIdentifier() == 0)) && "Broken nested name specifier"); NestedNameSpecifier Mockup; Mockup.Prefix.setPointer(Prefix); Mockup.Prefix.setInt(StoredNamespaceOrAlias); Mockup.Specifier = NS; return FindOrInsert(Context, Mockup); } NestedNameSpecifier * NestedNameSpecifier::Create(const ASTContext &Context, NestedNameSpecifier *Prefix, NamespaceAliasDecl *Alias) { assert(Alias && "Namespace alias cannot be NULL"); assert((!Prefix || (Prefix->getAsType() == 0 && Prefix->getAsIdentifier() == 0)) && "Broken nested name specifier"); NestedNameSpecifier Mockup; Mockup.Prefix.setPointer(Prefix); Mockup.Prefix.setInt(StoredNamespaceOrAlias); Mockup.Specifier = Alias; return FindOrInsert(Context, Mockup); } NestedNameSpecifier * NestedNameSpecifier::Create(const ASTContext &Context, NestedNameSpecifier *Prefix, bool Template, const Type *T) { assert(T && "Type cannot be NULL"); NestedNameSpecifier Mockup; Mockup.Prefix.setPointer(Prefix); Mockup.Prefix.setInt(Template? StoredTypeSpecWithTemplate : StoredTypeSpec); Mockup.Specifier = const_cast<Type*>(T); return FindOrInsert(Context, Mockup); } NestedNameSpecifier * NestedNameSpecifier::Create(const ASTContext &Context, IdentifierInfo *II) { assert(II && "Identifier cannot be NULL"); NestedNameSpecifier Mockup; Mockup.Prefix.setPointer(0); Mockup.Prefix.setInt(StoredIdentifier); Mockup.Specifier = II; return FindOrInsert(Context, Mockup); } NestedNameSpecifier * NestedNameSpecifier::GlobalSpecifier(const ASTContext &Context) { if (!Context.GlobalNestedNameSpecifier) Context.GlobalNestedNameSpecifier = new (Context, 4) NestedNameSpecifier(); return Context.GlobalNestedNameSpecifier; } NestedNameSpecifier::SpecifierKind NestedNameSpecifier::getKind() const { if (Specifier == 0) return Global; switch (Prefix.getInt()) { case StoredIdentifier: return Identifier; case StoredNamespaceOrAlias: return isa<NamespaceDecl>(static_cast<NamedDecl *>(Specifier))? Namespace : NamespaceAlias; case StoredTypeSpec: return TypeSpec; case StoredTypeSpecWithTemplate: return TypeSpecWithTemplate; } llvm_unreachable("Invalid NNS Kind!"); } /// \brief Retrieve the namespace stored in this nested name /// specifier. NamespaceDecl *NestedNameSpecifier::getAsNamespace() const { if (Prefix.getInt() == StoredNamespaceOrAlias) return dyn_cast<NamespaceDecl>(static_cast<NamedDecl *>(Specifier)); return 0; } /// \brief Retrieve the namespace alias stored in this nested name /// specifier. NamespaceAliasDecl *NestedNameSpecifier::getAsNamespaceAlias() const { if (Prefix.getInt() == StoredNamespaceOrAlias) return dyn_cast<NamespaceAliasDecl>(static_cast<NamedDecl *>(Specifier)); return 0; } /// \brief Whether this nested name specifier refers to a dependent /// type or not. bool NestedNameSpecifier::isDependent() const { switch (getKind()) { case Identifier: // Identifier specifiers always represent dependent types return true; case Namespace: case NamespaceAlias: case Global: return false; case TypeSpec: case TypeSpecWithTemplate: return getAsType()->isDependentType(); } llvm_unreachable("Invalid NNS Kind!"); } /// \brief Whether this nested name specifier refers to a dependent /// type or not. bool NestedNameSpecifier::isInstantiationDependent() const { switch (getKind()) { case Identifier: // Identifier specifiers always represent dependent types return true; case Namespace: case NamespaceAlias: case Global: return false; case TypeSpec: case TypeSpecWithTemplate: return getAsType()->isInstantiationDependentType(); } llvm_unreachable("Invalid NNS Kind!"); } bool NestedNameSpecifier::containsUnexpandedParameterPack() const { switch (getKind()) { case Identifier: return getPrefix() && getPrefix()->containsUnexpandedParameterPack(); case Namespace: case NamespaceAlias: case Global: return false; case TypeSpec: case TypeSpecWithTemplate: return getAsType()->containsUnexpandedParameterPack(); } llvm_unreachable("Invalid NNS Kind!"); } /// \brief Print this nested name specifier to the given output /// stream. void NestedNameSpecifier::print(raw_ostream &OS, const PrintingPolicy &Policy) const { if (getPrefix()) getPrefix()->print(OS, Policy); switch (getKind()) { case Identifier: OS << getAsIdentifier()->getName(); break; case Namespace: if (getAsNamespace()->isAnonymousNamespace()) return; OS << getAsNamespace()->getName(); break; case NamespaceAlias: OS << getAsNamespaceAlias()->getName(); break; case Global: break; case TypeSpecWithTemplate: OS << "template "; // Fall through to print the type. case TypeSpec: { std::string TypeStr; const Type *T = getAsType(); PrintingPolicy InnerPolicy(Policy); InnerPolicy.SuppressScope = true; // Nested-name-specifiers are intended to contain minimally-qualified // types. An actual ElaboratedType will not occur, since we'll store // just the type that is referred to in the nested-name-specifier (e.g., // a TypedefType, TagType, etc.). However, when we are dealing with // dependent template-id types (e.g., Outer<T>::template Inner<U>), // the type requires its own nested-name-specifier for uniqueness, so we // suppress that nested-name-specifier during printing. assert(!isa<ElaboratedType>(T) && "Elaborated type in nested-name-specifier"); if (const TemplateSpecializationType *SpecType = dyn_cast<TemplateSpecializationType>(T)) { // Print the template name without its corresponding // nested-name-specifier. SpecType->getTemplateName().print(OS, InnerPolicy, true); // Print the template argument list. TypeStr = TemplateSpecializationType::PrintTemplateArgumentList( SpecType->getArgs(), SpecType->getNumArgs(), InnerPolicy); } else { // Print the type normally TypeStr = QualType(T, 0).getAsString(InnerPolicy); } OS << TypeStr; break; } } OS << "::"; } void NestedNameSpecifier::dump(const LangOptions &LO) { print(llvm::errs(), PrintingPolicy(LO)); } unsigned NestedNameSpecifierLoc::getLocalDataLength(NestedNameSpecifier *Qualifier) { assert(Qualifier && "Expected a non-NULL qualifier"); // Location of the trailing '::'. unsigned Length = sizeof(unsigned); switch (Qualifier->getKind()) { case NestedNameSpecifier::Global: // Nothing more to add. break; case NestedNameSpecifier::Identifier: case NestedNameSpecifier::Namespace: case NestedNameSpecifier::NamespaceAlias: // The location of the identifier or namespace name. Length += sizeof(unsigned); break; case NestedNameSpecifier::TypeSpecWithTemplate: case NestedNameSpecifier::TypeSpec: // The "void*" that points at the TypeLoc data. // Note: the 'template' keyword is part of the TypeLoc. Length += sizeof(void *); break; } return Length; } unsigned NestedNameSpecifierLoc::getDataLength(NestedNameSpecifier *Qualifier) { unsigned Length = 0; for (; Qualifier; Qualifier = Qualifier->getPrefix()) Length += getLocalDataLength(Qualifier); return Length; } namespace { /// \brief Load a (possibly unaligned) source location from a given address /// and offset. SourceLocation LoadSourceLocation(void *Data, unsigned Offset) { unsigned Raw; memcpy(&Raw, static_cast<char *>(Data) + Offset, sizeof(unsigned)); return SourceLocation::getFromRawEncoding(Raw); } /// \brief Load a (possibly unaligned) pointer from a given address and /// offset. void *LoadPointer(void *Data, unsigned Offset) { void *Result; memcpy(&Result, static_cast<char *>(Data) + Offset, sizeof(void*)); return Result; } } SourceRange NestedNameSpecifierLoc::getSourceRange() const { if (!Qualifier) return SourceRange(); NestedNameSpecifierLoc First = *this; while (NestedNameSpecifierLoc Prefix = First.getPrefix()) First = Prefix; return SourceRange(First.getLocalSourceRange().getBegin(), getLocalSourceRange().getEnd()); } SourceRange NestedNameSpecifierLoc::getLocalSourceRange() const { if (!Qualifier) return SourceRange(); unsigned Offset = getDataLength(Qualifier->getPrefix()); switch (Qualifier->getKind()) { case NestedNameSpecifier::Global: return LoadSourceLocation(Data, Offset); case NestedNameSpecifier::Identifier: case NestedNameSpecifier::Namespace: case NestedNameSpecifier::NamespaceAlias: return SourceRange(LoadSourceLocation(Data, Offset), LoadSourceLocation(Data, Offset + sizeof(unsigned))); case NestedNameSpecifier::TypeSpecWithTemplate: case NestedNameSpecifier::TypeSpec: { // The "void*" that points at the TypeLoc data. // Note: the 'template' keyword is part of the TypeLoc. void *TypeData = LoadPointer(Data, Offset); TypeLoc TL(Qualifier->getAsType(), TypeData); return SourceRange(TL.getBeginLoc(), LoadSourceLocation(Data, Offset + sizeof(void*))); } } llvm_unreachable("Invalid NNS Kind!"); } TypeLoc NestedNameSpecifierLoc::getTypeLoc() const { assert((Qualifier->getKind() == NestedNameSpecifier::TypeSpec || Qualifier->getKind() == NestedNameSpecifier::TypeSpecWithTemplate) && "Nested-name-specifier location is not a type"); // The "void*" that points at the TypeLoc data. unsigned Offset = getDataLength(Qualifier->getPrefix()); void *TypeData = LoadPointer(Data, Offset); return TypeLoc(Qualifier->getAsType(), TypeData); } namespace { void Append(char *Start, char *End, char *&Buffer, unsigned &BufferSize, unsigned &BufferCapacity) { if (BufferSize + (End - Start) > BufferCapacity) { // Reallocate the buffer. unsigned NewCapacity = std::max((unsigned)(BufferCapacity? BufferCapacity * 2 : sizeof(void*) * 2), (unsigned)(BufferSize + (End - Start))); char *NewBuffer = static_cast<char *>(malloc(NewCapacity)); memcpy(NewBuffer, Buffer, BufferSize); if (BufferCapacity) free(Buffer); Buffer = NewBuffer; BufferCapacity = NewCapacity; } memcpy(Buffer + BufferSize, Start, End - Start); BufferSize += End-Start; } /// \brief Save a source location to the given buffer. void SaveSourceLocation(SourceLocation Loc, char *&Buffer, unsigned &BufferSize, unsigned &BufferCapacity) { unsigned Raw = Loc.getRawEncoding(); Append(reinterpret_cast<char *>(&Raw), reinterpret_cast<char *>(&Raw) + sizeof(unsigned), Buffer, BufferSize, BufferCapacity); } /// \brief Save a pointer to the given buffer. void SavePointer(void *Ptr, char *&Buffer, unsigned &BufferSize, unsigned &BufferCapacity) { Append(reinterpret_cast<char *>(&Ptr), reinterpret_cast<char *>(&Ptr) + sizeof(void *), Buffer, BufferSize, BufferCapacity); } } NestedNameSpecifierLocBuilder:: NestedNameSpecifierLocBuilder(const NestedNameSpecifierLocBuilder &Other) : Representation(Other.Representation), Buffer(0), BufferSize(0), BufferCapacity(0) { if (!Other.Buffer) return; if (Other.BufferCapacity == 0) { // Shallow copy is okay. Buffer = Other.Buffer; BufferSize = Other.BufferSize; return; } // Deep copy BufferSize = Other.BufferSize; BufferCapacity = Other.BufferSize; Buffer = static_cast<char *>(malloc(BufferCapacity)); memcpy(Buffer, Other.Buffer, BufferSize); } NestedNameSpecifierLocBuilder & NestedNameSpecifierLocBuilder:: operator=(const NestedNameSpecifierLocBuilder &Other) { Representation = Other.Representation; if (Buffer && Other.Buffer && BufferCapacity >= Other.BufferSize) { // Re-use our storage. BufferSize = Other.BufferSize; memcpy(Buffer, Other.Buffer, BufferSize); return *this; } // Free our storage, if we have any. if (BufferCapacity) { free(Buffer); BufferCapacity = 0; } if (!Other.Buffer) { // Empty. Buffer = 0; BufferSize = 0; return *this; } if (Other.BufferCapacity == 0) { // Shallow copy is okay. Buffer = Other.Buffer; BufferSize = Other.BufferSize; return *this; } // Deep copy. BufferSize = Other.BufferSize; BufferCapacity = BufferSize; Buffer = static_cast<char *>(malloc(BufferSize)); memcpy(Buffer, Other.Buffer, BufferSize); return *this; } void NestedNameSpecifierLocBuilder::Extend(ASTContext &Context, SourceLocation TemplateKWLoc, TypeLoc TL, SourceLocation ColonColonLoc) { Representation = NestedNameSpecifier::Create(Context, Representation, TemplateKWLoc.isValid(), TL.getTypePtr()); // Push source-location info into the buffer. SavePointer(TL.getOpaqueData(), Buffer, BufferSize, BufferCapacity); SaveSourceLocation(ColonColonLoc, Buffer, BufferSize, BufferCapacity); } void NestedNameSpecifierLocBuilder::Extend(ASTContext &Context, IdentifierInfo *Identifier, SourceLocation IdentifierLoc, SourceLocation ColonColonLoc) { Representation = NestedNameSpecifier::Create(Context, Representation, Identifier); // Push source-location info into the buffer. SaveSourceLocation(IdentifierLoc, Buffer, BufferSize, BufferCapacity); SaveSourceLocation(ColonColonLoc, Buffer, BufferSize, BufferCapacity); } void NestedNameSpecifierLocBuilder::Extend(ASTContext &Context, NamespaceDecl *Namespace, SourceLocation NamespaceLoc, SourceLocation ColonColonLoc) { Representation = NestedNameSpecifier::Create(Context, Representation, Namespace); // Push source-location info into the buffer. SaveSourceLocation(NamespaceLoc, Buffer, BufferSize, BufferCapacity); SaveSourceLocation(ColonColonLoc, Buffer, BufferSize, BufferCapacity); } void NestedNameSpecifierLocBuilder::Extend(ASTContext &Context, NamespaceAliasDecl *Alias, SourceLocation AliasLoc, SourceLocation ColonColonLoc) { Representation = NestedNameSpecifier::Create(Context, Representation, Alias); // Push source-location info into the buffer. SaveSourceLocation(AliasLoc, Buffer, BufferSize, BufferCapacity); SaveSourceLocation(ColonColonLoc, Buffer, BufferSize, BufferCapacity); } void NestedNameSpecifierLocBuilder::MakeGlobal(ASTContext &Context, SourceLocation ColonColonLoc) { assert(!Representation && "Already have a nested-name-specifier!?"); Representation = NestedNameSpecifier::GlobalSpecifier(Context); // Push source-location info into the buffer. SaveSourceLocation(ColonColonLoc, Buffer, BufferSize, BufferCapacity); } void NestedNameSpecifierLocBuilder::MakeTrivial(ASTContext &Context, NestedNameSpecifier *Qualifier, SourceRange R) { Representation = Qualifier; // Construct bogus (but well-formed) source information for the // nested-name-specifier. BufferSize = 0; SmallVector<NestedNameSpecifier *, 4> Stack; for (NestedNameSpecifier *NNS = Qualifier; NNS; NNS = NNS->getPrefix()) Stack.push_back(NNS); while (!Stack.empty()) { NestedNameSpecifier *NNS = Stack.back(); Stack.pop_back(); switch (NNS->getKind()) { case NestedNameSpecifier::Identifier: case NestedNameSpecifier::Namespace: case NestedNameSpecifier::NamespaceAlias: SaveSourceLocation(R.getBegin(), Buffer, BufferSize, BufferCapacity); break; case NestedNameSpecifier::TypeSpec: case NestedNameSpecifier::TypeSpecWithTemplate: { TypeSourceInfo *TSInfo = Context.getTrivialTypeSourceInfo(QualType(NNS->getAsType(), 0), R.getBegin()); SavePointer(TSInfo->getTypeLoc().getOpaqueData(), Buffer, BufferSize, BufferCapacity); break; } case NestedNameSpecifier::Global: break; } // Save the location of the '::'. SaveSourceLocation(Stack.empty()? R.getEnd() : R.getBegin(), Buffer, BufferSize, BufferCapacity); } } void NestedNameSpecifierLocBuilder::Adopt(NestedNameSpecifierLoc Other) { if (BufferCapacity) free(Buffer); if (!Other) { Representation = 0; BufferSize = 0; return; } // Rather than copying the data (which is wasteful), "adopt" the // pointer (which points into the ASTContext) but set the capacity to zero to // indicate that we don't own it. Representation = Other.getNestedNameSpecifier(); Buffer = static_cast<char *>(Other.getOpaqueData()); BufferSize = Other.getDataLength(); BufferCapacity = 0; } NestedNameSpecifierLoc NestedNameSpecifierLocBuilder::getWithLocInContext(ASTContext &Context) const { if (!Representation) return NestedNameSpecifierLoc(); // If we adopted our data pointer from elsewhere in the AST context, there's // no need to copy the memory. if (BufferCapacity == 0) return NestedNameSpecifierLoc(Representation, Buffer); // FIXME: After copying the source-location information, should we free // our (temporary) buffer and adopt the ASTContext-allocated memory? // Doing so would optimize repeated calls to getWithLocInContext(). void *Mem = Context.Allocate(BufferSize, llvm::alignOf<void *>()); memcpy(Mem, Buffer, BufferSize); return NestedNameSpecifierLoc(Representation, Mem); }