forked from OSchip/llvm-project
347 lines
13 KiB
C++
347 lines
13 KiB
C++
//===--- DeclCXX.cpp - C++ Declaration AST Node Implementation ------------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file implements the C++ related Decl classes.
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//
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//===----------------------------------------------------------------------===//
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#include "clang/AST/DeclCXX.h"
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#include "clang/AST/ASTContext.h"
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#include "clang/Basic/IdentifierTable.h"
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#include "llvm/ADT/STLExtras.h"
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using namespace clang;
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//===----------------------------------------------------------------------===//
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// Decl Allocation/Deallocation Method Implementations
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//===----------------------------------------------------------------------===//
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CXXRecordDecl::CXXRecordDecl(Kind K, TagKind TK, DeclContext *DC,
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SourceLocation L, IdentifierInfo *Id)
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: RecordDecl(K, TK, DC, L, Id),
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UserDeclaredConstructor(false), UserDeclaredCopyConstructor(false),
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UserDeclaredCopyAssignment(false), UserDeclaredDestructor(false),
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Aggregate(true), PlainOldData(true), Polymorphic(false), Bases(0),
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NumBases(0), Conversions(DC, DeclarationName()) { }
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CXXRecordDecl *CXXRecordDecl::Create(ASTContext &C, TagKind TK, DeclContext *DC,
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SourceLocation L, IdentifierInfo *Id,
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CXXRecordDecl* PrevDecl) {
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CXXRecordDecl* R = new (C) CXXRecordDecl(CXXRecord, TK, DC, L, Id);
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C.getTypeDeclType(R, PrevDecl);
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return R;
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}
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CXXRecordDecl::~CXXRecordDecl() {
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delete [] Bases;
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}
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void
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CXXRecordDecl::setBases(CXXBaseSpecifier const * const *Bases,
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unsigned NumBases) {
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// C++ [dcl.init.aggr]p1:
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// An aggregate is an array or a class (clause 9) with [...]
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// no base classes [...].
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Aggregate = false;
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if (this->Bases)
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delete [] this->Bases;
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this->Bases = new CXXBaseSpecifier[NumBases];
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this->NumBases = NumBases;
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for (unsigned i = 0; i < NumBases; ++i)
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this->Bases[i] = *Bases[i];
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}
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bool CXXRecordDecl::hasConstCopyConstructor(ASTContext &Context) const {
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QualType ClassType
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= Context.getTypeDeclType(const_cast<CXXRecordDecl*>(this));
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DeclarationName ConstructorName
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= Context.DeclarationNames.getCXXConstructorName(
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Context.getCanonicalType(ClassType));
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unsigned TypeQuals;
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DeclContext::lookup_const_iterator Con, ConEnd;
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for (llvm::tie(Con, ConEnd) = this->lookup(ConstructorName);
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Con != ConEnd; ++Con) {
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if (cast<CXXConstructorDecl>(*Con)->isCopyConstructor(Context, TypeQuals) &&
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(TypeQuals & QualType::Const) != 0)
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return true;
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}
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return false;
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}
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bool CXXRecordDecl::hasConstCopyAssignment(ASTContext &Context) const {
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QualType ClassType = Context.getCanonicalType(Context.getTypeDeclType(
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const_cast<CXXRecordDecl*>(this)));
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DeclarationName OpName =Context.DeclarationNames.getCXXOperatorName(OO_Equal);
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DeclContext::lookup_const_iterator Op, OpEnd;
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for (llvm::tie(Op, OpEnd) = this->lookup(OpName);
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Op != OpEnd; ++Op) {
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// C++ [class.copy]p9:
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// A user-declared copy assignment operator is a non-static non-template
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// member function of class X with exactly one parameter of type X, X&,
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// const X&, volatile X& or const volatile X&.
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const CXXMethodDecl* Method = cast<CXXMethodDecl>(*Op);
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if (Method->isStatic())
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continue;
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// TODO: Skip templates? Or is this implicitly done due to parameter types?
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const FunctionProtoType *FnType =
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Method->getType()->getAsFunctionProtoType();
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assert(FnType && "Overloaded operator has no prototype.");
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// Don't assert on this; an invalid decl might have been left in the AST.
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if (FnType->getNumArgs() != 1 || FnType->isVariadic())
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continue;
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bool AcceptsConst = true;
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QualType ArgType = FnType->getArgType(0);
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if (const ReferenceType *Ref = ArgType->getAsReferenceType()) {
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ArgType = Ref->getPointeeType();
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// Is it a non-const reference?
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if (!ArgType.isConstQualified())
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AcceptsConst = false;
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}
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if (Context.getCanonicalType(ArgType).getUnqualifiedType() != ClassType)
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continue;
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// We have a single argument of type cv X or cv X&, i.e. we've found the
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// copy assignment operator. Return whether it accepts const arguments.
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return AcceptsConst;
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}
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assert(isInvalidDecl() &&
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"No copy assignment operator declared in valid code.");
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return false;
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}
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void
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CXXRecordDecl::addedConstructor(ASTContext &Context,
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CXXConstructorDecl *ConDecl) {
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if (!ConDecl->isImplicit()) {
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// Note that we have a user-declared constructor.
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UserDeclaredConstructor = true;
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// C++ [dcl.init.aggr]p1:
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// An aggregate is an array or a class (clause 9) with no
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// user-declared constructors (12.1) [...].
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Aggregate = false;
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// C++ [class]p4:
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// A POD-struct is an aggregate class [...]
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PlainOldData = false;
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// Note when we have a user-declared copy constructor, which will
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// suppress the implicit declaration of a copy constructor.
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if (ConDecl->isCopyConstructor(Context))
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UserDeclaredCopyConstructor = true;
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}
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}
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void CXXRecordDecl::addedAssignmentOperator(ASTContext &Context,
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CXXMethodDecl *OpDecl) {
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// We're interested specifically in copy assignment operators.
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// Unlike addedConstructor, this method is not called for implicit
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// declarations.
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const FunctionProtoType *FnType = OpDecl->getType()->getAsFunctionProtoType();
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assert(FnType && "Overloaded operator has no proto function type.");
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assert(FnType->getNumArgs() == 1 && !FnType->isVariadic());
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QualType ArgType = FnType->getArgType(0);
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if (const ReferenceType *Ref = ArgType->getAsReferenceType())
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ArgType = Ref->getPointeeType();
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ArgType = ArgType.getUnqualifiedType();
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QualType ClassType = Context.getCanonicalType(Context.getTypeDeclType(
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const_cast<CXXRecordDecl*>(this)));
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if (ClassType != Context.getCanonicalType(ArgType))
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return;
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// This is a copy assignment operator.
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// Suppress the implicit declaration of a copy constructor.
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UserDeclaredCopyAssignment = true;
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// C++ [class]p4:
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// A POD-struct is an aggregate class that [...] has no user-defined copy
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// assignment operator [...].
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PlainOldData = false;
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}
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void CXXRecordDecl::addConversionFunction(ASTContext &Context,
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CXXConversionDecl *ConvDecl) {
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Conversions.addOverload(ConvDecl);
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}
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CXXMethodDecl *
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CXXMethodDecl::Create(ASTContext &C, CXXRecordDecl *RD,
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SourceLocation L, DeclarationName N,
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QualType T, bool isStatic, bool isInline) {
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return new (C) CXXMethodDecl(CXXMethod, RD, L, N, T, isStatic, isInline);
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}
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QualType CXXMethodDecl::getThisType(ASTContext &C) const {
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// C++ 9.3.2p1: The type of this in a member function of a class X is X*.
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// If the member function is declared const, the type of this is const X*,
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// if the member function is declared volatile, the type of this is
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// volatile X*, and if the member function is declared const volatile,
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// the type of this is const volatile X*.
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assert(isInstance() && "No 'this' for static methods!");
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QualType ClassTy = C.getTagDeclType(const_cast<CXXRecordDecl*>(getParent()));
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ClassTy = ClassTy.getWithAdditionalQualifiers(getTypeQualifiers());
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return C.getPointerType(ClassTy).withConst();
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}
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CXXBaseOrMemberInitializer::
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CXXBaseOrMemberInitializer(QualType BaseType, Expr **Args, unsigned NumArgs)
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: Args(0), NumArgs(0) {
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BaseOrMember = reinterpret_cast<uintptr_t>(BaseType.getTypePtr());
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assert((BaseOrMember & 0x01) == 0 && "Invalid base class type pointer");
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BaseOrMember |= 0x01;
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if (NumArgs > 0) {
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this->NumArgs = NumArgs;
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this->Args = new Expr*[NumArgs];
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for (unsigned Idx = 0; Idx < NumArgs; ++Idx)
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this->Args[Idx] = Args[Idx];
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}
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}
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CXXBaseOrMemberInitializer::
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CXXBaseOrMemberInitializer(FieldDecl *Member, Expr **Args, unsigned NumArgs)
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: Args(0), NumArgs(0) {
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BaseOrMember = reinterpret_cast<uintptr_t>(Member);
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assert((BaseOrMember & 0x01) == 0 && "Invalid member pointer");
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if (NumArgs > 0) {
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this->NumArgs = NumArgs;
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this->Args = new Expr*[NumArgs];
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for (unsigned Idx = 0; Idx < NumArgs; ++Idx)
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this->Args[Idx] = Args[Idx];
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}
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}
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CXXBaseOrMemberInitializer::~CXXBaseOrMemberInitializer() {
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delete [] Args;
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}
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CXXConstructorDecl *
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CXXConstructorDecl::Create(ASTContext &C, CXXRecordDecl *RD,
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SourceLocation L, DeclarationName N,
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QualType T, bool isExplicit,
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bool isInline, bool isImplicitlyDeclared) {
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assert(N.getNameKind() == DeclarationName::CXXConstructorName &&
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"Name must refer to a constructor");
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return new (C) CXXConstructorDecl(RD, L, N, T, isExplicit, isInline,
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isImplicitlyDeclared);
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}
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bool CXXConstructorDecl::isDefaultConstructor() const {
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// C++ [class.ctor]p5:
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// A default constructor for a class X is a constructor of class
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// X that can be called without an argument.
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return (getNumParams() == 0) ||
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(getNumParams() > 0 && getParamDecl(0)->getDefaultArg() != 0);
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}
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bool
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CXXConstructorDecl::isCopyConstructor(ASTContext &Context,
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unsigned &TypeQuals) const {
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// C++ [class.copy]p2:
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// A non-template constructor for class X is a copy constructor
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// if its first parameter is of type X&, const X&, volatile X& or
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// const volatile X&, and either there are no other parameters
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// or else all other parameters have default arguments (8.3.6).
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if ((getNumParams() < 1) ||
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(getNumParams() > 1 && getParamDecl(1)->getDefaultArg() == 0))
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return false;
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const ParmVarDecl *Param = getParamDecl(0);
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// Do we have a reference type?
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const ReferenceType *ParamRefType = Param->getType()->getAsReferenceType();
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if (!ParamRefType)
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return false;
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// Is it a reference to our class type?
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QualType PointeeType
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= Context.getCanonicalType(ParamRefType->getPointeeType());
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QualType ClassTy
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= Context.getTagDeclType(const_cast<CXXRecordDecl*>(getParent()));
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if (PointeeType.getUnqualifiedType() != ClassTy)
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return false;
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// We have a copy constructor.
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TypeQuals = PointeeType.getCVRQualifiers();
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return true;
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}
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bool CXXConstructorDecl::isConvertingConstructor() const {
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// C++ [class.conv.ctor]p1:
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// A constructor declared without the function-specifier explicit
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// that can be called with a single parameter specifies a
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// conversion from the type of its first parameter to the type of
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// its class. Such a constructor is called a converting
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// constructor.
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if (isExplicit())
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return false;
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return (getNumParams() == 0 &&
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getType()->getAsFunctionProtoType()->isVariadic()) ||
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(getNumParams() == 1) ||
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(getNumParams() > 1 && getParamDecl(1)->getDefaultArg() != 0);
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}
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CXXDestructorDecl *
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CXXDestructorDecl::Create(ASTContext &C, CXXRecordDecl *RD,
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SourceLocation L, DeclarationName N,
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QualType T, bool isInline,
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bool isImplicitlyDeclared) {
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assert(N.getNameKind() == DeclarationName::CXXDestructorName &&
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"Name must refer to a destructor");
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return new (C) CXXDestructorDecl(RD, L, N, T, isInline,
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isImplicitlyDeclared);
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}
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CXXConversionDecl *
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CXXConversionDecl::Create(ASTContext &C, CXXRecordDecl *RD,
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SourceLocation L, DeclarationName N,
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QualType T, bool isInline, bool isExplicit) {
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assert(N.getNameKind() == DeclarationName::CXXConversionFunctionName &&
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"Name must refer to a conversion function");
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return new (C) CXXConversionDecl(RD, L, N, T, isInline, isExplicit);
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}
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CXXClassVarDecl *CXXClassVarDecl::Create(ASTContext &C, CXXRecordDecl *RD,
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SourceLocation L, IdentifierInfo *Id,
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QualType T) {
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return new (C) CXXClassVarDecl(RD, L, Id, T);
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}
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OverloadedFunctionDecl *
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OverloadedFunctionDecl::Create(ASTContext &C, DeclContext *DC,
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DeclarationName N) {
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return new (C) OverloadedFunctionDecl(DC, N);
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}
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LinkageSpecDecl *LinkageSpecDecl::Create(ASTContext &C,
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DeclContext *DC,
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SourceLocation L,
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LanguageIDs Lang, bool Braces) {
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return new (C) LinkageSpecDecl(DC, L, Lang, Braces);
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}
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UsingDirectiveDecl *UsingDirectiveDecl::Create(ASTContext &C, DeclContext *DC,
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SourceLocation L,
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SourceLocation NamespaceLoc,
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SourceLocation IdentLoc,
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NamespaceDecl *Used,
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DeclContext *CommonAncestor) {
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return new (C) UsingDirectiveDecl(DC, L, NamespaceLoc, IdentLoc,
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Used, CommonAncestor);
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}
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