forked from OSchip/llvm-project
292 lines
11 KiB
C++
292 lines
11 KiB
C++
//===--- ExprCXX.cpp - (C++) Expression 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 subclesses of Expr class declared in ExprCXX.h
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//
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//===----------------------------------------------------------------------===//
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#include "clang/Basic/IdentifierTable.h"
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#include "clang/AST/DeclCXX.h"
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#include "clang/AST/ExprCXX.h"
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using namespace clang;
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void CXXConditionDeclExpr::Destroy(ASTContext& C) {
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// FIXME: Cannot destroy the decl here, because it is linked into the
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// DeclContext's chain.
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//getVarDecl()->Destroy(C);
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this->~CXXConditionDeclExpr();
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C.Deallocate(this);
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}
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QualifiedDeclRefExpr::QualifiedDeclRefExpr(NamedDecl *d, QualType t,
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SourceLocation l, bool TD,
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bool VD, SourceRange R,
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const NestedNameSpecifier *Components,
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unsigned NumComponents)
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: DeclRefExpr(QualifiedDeclRefExprClass, d, t, l, TD, VD),
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QualifierRange(R), NumComponents(NumComponents) {
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NestedNameSpecifier *Data
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= reinterpret_cast<NestedNameSpecifier *>(this + 1);
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for (unsigned I = 0; I < NumComponents; ++I)
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Data[I] = Components[I];
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}
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QualifiedDeclRefExpr *
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QualifiedDeclRefExpr::Create(ASTContext &Context, NamedDecl *d, QualType t,
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SourceLocation l, bool TD,
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bool VD, SourceRange R,
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const NestedNameSpecifier *Components,
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unsigned NumComponents) {
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void *Mem = Context.Allocate((sizeof(QualifiedDeclRefExpr) +
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sizeof(NestedNameSpecifier) * NumComponents));
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return new (Mem) QualifiedDeclRefExpr(d, t, l, TD, VD, R, Components,
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NumComponents);
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}
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UnresolvedDeclRefExpr::UnresolvedDeclRefExpr(DeclarationName N, QualType T,
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SourceLocation L, SourceRange R,
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const NestedNameSpecifier *Components,
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unsigned NumComponents)
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: Expr(UnresolvedDeclRefExprClass, T, true, true),
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Name(N), Loc(L), QualifierRange(R), NumComponents(NumComponents) {
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NestedNameSpecifier *Data
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= reinterpret_cast<NestedNameSpecifier *>(this + 1);
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for (unsigned I = 0; I < NumComponents; ++I)
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Data[I] = Components[I];
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}
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UnresolvedDeclRefExpr *
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UnresolvedDeclRefExpr::Create(ASTContext &Context, DeclarationName N,
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SourceLocation L, SourceRange R,
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const NestedNameSpecifier *Components,
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unsigned NumComponents) {
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void *Mem = Context.Allocate((sizeof(UnresolvedDeclRefExpr) +
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sizeof(NestedNameSpecifier) * NumComponents));
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return new (Mem) UnresolvedDeclRefExpr(N, Context.DependentTy, L, R,
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Components, NumComponents);
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}
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//===----------------------------------------------------------------------===//
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// Child Iterators for iterating over subexpressions/substatements
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//===----------------------------------------------------------------------===//
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// CXXTypeidExpr - has child iterators if the operand is an expression
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Stmt::child_iterator CXXTypeidExpr::child_begin() {
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return isTypeOperand() ? child_iterator() : &Operand.Ex;
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}
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Stmt::child_iterator CXXTypeidExpr::child_end() {
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return isTypeOperand() ? child_iterator() : &Operand.Ex+1;
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}
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// CXXBoolLiteralExpr
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Stmt::child_iterator CXXBoolLiteralExpr::child_begin() {
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return child_iterator();
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}
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Stmt::child_iterator CXXBoolLiteralExpr::child_end() {
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return child_iterator();
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}
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// CXXThisExpr
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Stmt::child_iterator CXXThisExpr::child_begin() { return child_iterator(); }
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Stmt::child_iterator CXXThisExpr::child_end() { return child_iterator(); }
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// CXXThrowExpr
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Stmt::child_iterator CXXThrowExpr::child_begin() { return &Op; }
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Stmt::child_iterator CXXThrowExpr::child_end() {
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// If Op is 0, we are processing throw; which has no children.
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return Op ? &Op+1 : &Op;
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}
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// CXXDefaultArgExpr
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Stmt::child_iterator CXXDefaultArgExpr::child_begin() {
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return child_iterator();
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}
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Stmt::child_iterator CXXDefaultArgExpr::child_end() {
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return child_iterator();
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}
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// CXXTemporaryObjectExpr
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Stmt::child_iterator CXXTemporaryObjectExpr::child_begin() {
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return child_iterator(Args);
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}
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Stmt::child_iterator CXXTemporaryObjectExpr::child_end() {
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return child_iterator(Args + NumArgs);
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}
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// CXXZeroInitValueExpr
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Stmt::child_iterator CXXZeroInitValueExpr::child_begin() {
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return child_iterator();
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}
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Stmt::child_iterator CXXZeroInitValueExpr::child_end() {
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return child_iterator();
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}
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// CXXConditionDeclExpr
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Stmt::child_iterator CXXConditionDeclExpr::child_begin() {
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return getVarDecl();
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}
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Stmt::child_iterator CXXConditionDeclExpr::child_end() {
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return child_iterator();
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}
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// CXXNewExpr
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CXXNewExpr::CXXNewExpr(bool globalNew, FunctionDecl *operatorNew,
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Expr **placementArgs, unsigned numPlaceArgs,
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bool parenTypeId, Expr *arraySize,
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CXXConstructorDecl *constructor, bool initializer,
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Expr **constructorArgs, unsigned numConsArgs,
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FunctionDecl *operatorDelete, QualType ty,
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SourceLocation startLoc, SourceLocation endLoc)
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: Expr(CXXNewExprClass, ty, ty->isDependentType(), ty->isDependentType()),
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GlobalNew(globalNew), ParenTypeId(parenTypeId),
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Initializer(initializer), Array(arraySize), NumPlacementArgs(numPlaceArgs),
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NumConstructorArgs(numConsArgs), OperatorNew(operatorNew),
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OperatorDelete(operatorDelete), Constructor(constructor),
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StartLoc(startLoc), EndLoc(endLoc)
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{
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unsigned TotalSize = Array + NumPlacementArgs + NumConstructorArgs;
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SubExprs = new Stmt*[TotalSize];
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unsigned i = 0;
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if (Array)
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SubExprs[i++] = arraySize;
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for (unsigned j = 0; j < NumPlacementArgs; ++j)
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SubExprs[i++] = placementArgs[j];
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for (unsigned j = 0; j < NumConstructorArgs; ++j)
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SubExprs[i++] = constructorArgs[j];
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assert(i == TotalSize);
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}
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Stmt::child_iterator CXXNewExpr::child_begin() { return &SubExprs[0]; }
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Stmt::child_iterator CXXNewExpr::child_end() {
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return &SubExprs[0] + Array + getNumPlacementArgs() + getNumConstructorArgs();
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}
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// CXXDeleteExpr
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Stmt::child_iterator CXXDeleteExpr::child_begin() { return &Argument; }
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Stmt::child_iterator CXXDeleteExpr::child_end() { return &Argument+1; }
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// UnresolvedFunctionNameExpr
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Stmt::child_iterator UnresolvedFunctionNameExpr::child_begin() {
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return child_iterator();
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}
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Stmt::child_iterator UnresolvedFunctionNameExpr::child_end() {
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return child_iterator();
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}
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// UnaryTypeTraitExpr
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Stmt::child_iterator UnaryTypeTraitExpr::child_begin() {
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return child_iterator();
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}
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Stmt::child_iterator UnaryTypeTraitExpr::child_end() {
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return child_iterator();
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}
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// UnresolvedDeclRefExpr
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StmtIterator UnresolvedDeclRefExpr::child_begin() {
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return child_iterator();
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}
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StmtIterator UnresolvedDeclRefExpr::child_end() {
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return child_iterator();
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}
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bool UnaryTypeTraitExpr::EvaluateTrait() const {
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switch(UTT) {
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default: assert(false && "Unknown type trait or not implemented");
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case UTT_IsPOD: return QueriedType->isPODType();
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case UTT_IsClass: // Fallthrough
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case UTT_IsUnion:
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if (const RecordType *Record = QueriedType->getAsRecordType()) {
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bool Union = Record->getDecl()->isUnion();
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return UTT == UTT_IsUnion ? Union : !Union;
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}
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return false;
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case UTT_IsEnum: return QueriedType->isEnumeralType();
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case UTT_IsPolymorphic:
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if (const RecordType *Record = QueriedType->getAsRecordType()) {
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// Type traits are only parsed in C++, so we've got CXXRecords.
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return cast<CXXRecordDecl>(Record->getDecl())->isPolymorphic();
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}
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return false;
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}
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}
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SourceRange CXXOperatorCallExpr::getSourceRange() const {
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OverloadedOperatorKind Kind = getOperator();
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if (Kind == OO_PlusPlus || Kind == OO_MinusMinus) {
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if (getNumArgs() == 1)
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// Prefix operator
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return SourceRange(getOperatorLoc(),
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getArg(0)->getSourceRange().getEnd());
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else
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// Postfix operator
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return SourceRange(getArg(0)->getSourceRange().getEnd(),
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getOperatorLoc());
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} else if (Kind == OO_Call) {
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return SourceRange(getArg(0)->getSourceRange().getBegin(), getRParenLoc());
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} else if (Kind == OO_Subscript) {
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return SourceRange(getArg(0)->getSourceRange().getBegin(), getRParenLoc());
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} else if (getNumArgs() == 1) {
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return SourceRange(getOperatorLoc(), getArg(0)->getSourceRange().getEnd());
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} else if (getNumArgs() == 2) {
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return SourceRange(getArg(0)->getSourceRange().getBegin(),
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getArg(1)->getSourceRange().getEnd());
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} else {
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return SourceRange();
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}
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}
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Expr *CXXMemberCallExpr::getImplicitObjectArgument() {
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if (MemberExpr *MemExpr = dyn_cast<MemberExpr>(getCallee()->IgnoreParens()))
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return MemExpr->getBase();
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// FIXME: Will eventually need to cope with member pointers.
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return 0;
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}
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//===----------------------------------------------------------------------===//
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// Named casts
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//===----------------------------------------------------------------------===//
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/// getCastName - Get the name of the C++ cast being used, e.g.,
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/// "static_cast", "dynamic_cast", "reinterpret_cast", or
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/// "const_cast". The returned pointer must not be freed.
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const char *CXXNamedCastExpr::getCastName() const {
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switch (getStmtClass()) {
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case CXXStaticCastExprClass: return "static_cast";
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case CXXDynamicCastExprClass: return "dynamic_cast";
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case CXXReinterpretCastExprClass: return "reinterpret_cast";
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case CXXConstCastExprClass: return "const_cast";
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default: return "<invalid cast>";
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}
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}
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CXXTemporaryObjectExpr::CXXTemporaryObjectExpr(CXXConstructorDecl *Cons,
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QualType writtenTy,
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SourceLocation tyBeginLoc,
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Expr **Args,
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unsigned NumArgs,
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SourceLocation rParenLoc)
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: Expr(CXXTemporaryObjectExprClass, writtenTy,
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writtenTy->isDependentType(),
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(writtenTy->isDependentType() ||
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CallExpr::hasAnyValueDependentArguments(Args, NumArgs))),
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TyBeginLoc(tyBeginLoc), RParenLoc(rParenLoc),
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Constructor(Cons), Args(0), NumArgs(NumArgs) {
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if (NumArgs > 0) {
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this->Args = new Stmt*[NumArgs];
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for (unsigned i = 0; i < NumArgs; ++i)
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this->Args[i] = Args[i];
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}
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}
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CXXTemporaryObjectExpr::~CXXTemporaryObjectExpr() {
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delete [] Args;
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}
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