forked from OSchip/llvm-project
731 lines
26 KiB
C++
731 lines
26 KiB
C++
//===--- CGDecl.cpp - Emit LLVM Code for declarations ---------------------===//
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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 contains code to emit Decl nodes as LLVM code.
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//
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//===----------------------------------------------------------------------===//
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#include "CGDebugInfo.h"
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#include "CodeGenFunction.h"
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#include "CodeGenModule.h"
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#include "clang/AST/ASTContext.h"
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#include "clang/AST/CharUnits.h"
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#include "clang/AST/Decl.h"
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#include "clang/AST/DeclObjC.h"
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#include "clang/Basic/SourceManager.h"
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#include "clang/Basic/TargetInfo.h"
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#include "clang/CodeGen/CodeGenOptions.h"
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#include "llvm/GlobalVariable.h"
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#include "llvm/Intrinsics.h"
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#include "llvm/Target/TargetData.h"
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#include "llvm/Type.h"
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using namespace clang;
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using namespace CodeGen;
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void CodeGenFunction::EmitDecl(const Decl &D) {
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switch (D.getKind()) {
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default:
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CGM.ErrorUnsupported(&D, "decl");
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return;
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case Decl::ParmVar:
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assert(0 && "Parmdecls should not be in declstmts!");
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case Decl::Function: // void X();
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case Decl::Record: // struct/union/class X;
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case Decl::Enum: // enum X;
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case Decl::EnumConstant: // enum ? { X = ? }
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case Decl::CXXRecord: // struct/union/class X; [C++]
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case Decl::Using: // using X; [C++]
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case Decl::UsingShadow:
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case Decl::UsingDirective: // using namespace X; [C++]
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case Decl::StaticAssert: // static_assert(X, ""); [C++0x]
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// None of these decls require codegen support.
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return;
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case Decl::Var: {
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const VarDecl &VD = cast<VarDecl>(D);
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assert(VD.isBlockVarDecl() &&
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"Should not see file-scope variables inside a function!");
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return EmitBlockVarDecl(VD);
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}
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case Decl::Typedef: { // typedef int X;
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const TypedefDecl &TD = cast<TypedefDecl>(D);
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QualType Ty = TD.getUnderlyingType();
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if (Ty->isVariablyModifiedType())
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EmitVLASize(Ty);
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}
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}
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}
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/// EmitBlockVarDecl - This method handles emission of any variable declaration
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/// inside a function, including static vars etc.
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void CodeGenFunction::EmitBlockVarDecl(const VarDecl &D) {
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if (D.hasAttr<AsmLabelAttr>())
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CGM.ErrorUnsupported(&D, "__asm__");
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switch (D.getStorageClass()) {
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case VarDecl::None:
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case VarDecl::Auto:
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case VarDecl::Register:
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return EmitLocalBlockVarDecl(D);
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case VarDecl::Static: {
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llvm::GlobalValue::LinkageTypes Linkage =
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llvm::GlobalValue::InternalLinkage;
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// If this is a static declaration inside an inline function, it must have
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// weak linkage so that the linker will merge multiple definitions of it.
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if (getContext().getLangOptions().CPlusPlus) {
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if (const FunctionDecl *FD = dyn_cast<FunctionDecl>(CurFuncDecl)) {
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if (FD->isInlined())
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Linkage = llvm::GlobalValue::WeakAnyLinkage;
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}
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}
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return EmitStaticBlockVarDecl(D, Linkage);
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}
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case VarDecl::Extern:
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case VarDecl::PrivateExtern:
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// Don't emit it now, allow it to be emitted lazily on its first use.
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return;
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}
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assert(0 && "Unknown storage class");
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}
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static std::string GetStaticDeclName(CodeGenFunction &CGF, const VarDecl &D,
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const char *Separator) {
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CodeGenModule &CGM = CGF.CGM;
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if (CGF.getContext().getLangOptions().CPlusPlus)
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return CGM.getMangledName(&D);
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std::string ContextName;
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if (const FunctionDecl *FD = dyn_cast<FunctionDecl>(CGF.CurFuncDecl))
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ContextName = CGM.getMangledName(FD);
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else if (isa<ObjCMethodDecl>(CGF.CurFuncDecl))
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ContextName = CGF.CurFn->getName();
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else
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// FIXME: What about in a block??
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assert(0 && "Unknown context for block var decl");
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return ContextName + Separator + D.getNameAsString();
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}
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llvm::GlobalVariable *
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CodeGenFunction::CreateStaticBlockVarDecl(const VarDecl &D,
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const char *Separator,
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llvm::GlobalValue::LinkageTypes Linkage) {
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QualType Ty = D.getType();
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assert(Ty->isConstantSizeType() && "VLAs can't be static");
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std::string Name = GetStaticDeclName(*this, D, Separator);
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const llvm::Type *LTy = CGM.getTypes().ConvertTypeForMem(Ty);
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llvm::GlobalVariable *GV =
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new llvm::GlobalVariable(CGM.getModule(), LTy,
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Ty.isConstant(getContext()), Linkage,
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CGM.EmitNullConstant(D.getType()), Name, 0,
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D.isThreadSpecified(), Ty.getAddressSpace());
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GV->setAlignment(getContext().getDeclAlign(&D).getQuantity());
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return GV;
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}
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/// AddInitializerToGlobalBlockVarDecl - Add the initializer for 'D' to the
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/// global variable that has already been created for it. If the initializer
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/// has a different type than GV does, this may free GV and return a different
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/// one. Otherwise it just returns GV.
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llvm::GlobalVariable *
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CodeGenFunction::AddInitializerToGlobalBlockVarDecl(const VarDecl &D,
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llvm::GlobalVariable *GV) {
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llvm::Constant *Init = CGM.EmitConstantExpr(D.getInit(), D.getType(), this);
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// If constant emission failed, then this should be a C++ static
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// initializer.
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if (!Init) {
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if (!getContext().getLangOptions().CPlusPlus)
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CGM.ErrorUnsupported(D.getInit(), "constant l-value expression");
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else {
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// Since we have a static initializer, this global variable can't
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// be constant.
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GV->setConstant(false);
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EmitStaticCXXBlockVarDeclInit(D, GV);
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}
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return GV;
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}
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// The initializer may differ in type from the global. Rewrite
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// the global to match the initializer. (We have to do this
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// because some types, like unions, can't be completely represented
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// in the LLVM type system.)
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if (GV->getType() != Init->getType()) {
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llvm::GlobalVariable *OldGV = GV;
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GV = new llvm::GlobalVariable(CGM.getModule(), Init->getType(),
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OldGV->isConstant(),
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OldGV->getLinkage(), Init, "",
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0, D.isThreadSpecified(),
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D.getType().getAddressSpace());
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// Steal the name of the old global
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GV->takeName(OldGV);
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// Replace all uses of the old global with the new global
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llvm::Constant *NewPtrForOldDecl =
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llvm::ConstantExpr::getBitCast(GV, OldGV->getType());
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OldGV->replaceAllUsesWith(NewPtrForOldDecl);
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// Erase the old global, since it is no longer used.
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OldGV->eraseFromParent();
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}
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GV->setInitializer(Init);
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return GV;
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}
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void CodeGenFunction::EmitStaticBlockVarDecl(const VarDecl &D,
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llvm::GlobalValue::LinkageTypes Linkage) {
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llvm::Value *&DMEntry = LocalDeclMap[&D];
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assert(DMEntry == 0 && "Decl already exists in localdeclmap!");
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llvm::GlobalVariable *GV = CreateStaticBlockVarDecl(D, ".", Linkage);
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// Store into LocalDeclMap before generating initializer to handle
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// circular references.
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DMEntry = GV;
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// Make sure to evaluate VLA bounds now so that we have them for later.
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//
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// FIXME: Can this happen?
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if (D.getType()->isVariablyModifiedType())
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EmitVLASize(D.getType());
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// If this value has an initializer, emit it.
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if (D.getInit())
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GV = AddInitializerToGlobalBlockVarDecl(D, GV);
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GV->setAlignment(getContext().getDeclAlign(&D).getQuantity());
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// FIXME: Merge attribute handling.
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if (const AnnotateAttr *AA = D.getAttr<AnnotateAttr>()) {
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SourceManager &SM = CGM.getContext().getSourceManager();
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llvm::Constant *Ann =
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CGM.EmitAnnotateAttr(GV, AA,
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SM.getInstantiationLineNumber(D.getLocation()));
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CGM.AddAnnotation(Ann);
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}
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if (const SectionAttr *SA = D.getAttr<SectionAttr>())
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GV->setSection(SA->getName());
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if (D.hasAttr<UsedAttr>())
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CGM.AddUsedGlobal(GV);
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// We may have to cast the constant because of the initializer
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// mismatch above.
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//
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// FIXME: It is really dangerous to store this in the map; if anyone
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// RAUW's the GV uses of this constant will be invalid.
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const llvm::Type *LTy = CGM.getTypes().ConvertTypeForMem(D.getType());
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const llvm::Type *LPtrTy =
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llvm::PointerType::get(LTy, D.getType().getAddressSpace());
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DMEntry = llvm::ConstantExpr::getBitCast(GV, LPtrTy);
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// Emit global variable debug descriptor for static vars.
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CGDebugInfo *DI = getDebugInfo();
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if (DI) {
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DI->setLocation(D.getLocation());
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DI->EmitGlobalVariable(static_cast<llvm::GlobalVariable *>(GV), &D);
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}
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}
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unsigned CodeGenFunction::getByRefValueLLVMField(const ValueDecl *VD) const {
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assert(ByRefValueInfo.count(VD) && "Did not find value!");
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return ByRefValueInfo.find(VD)->second.second;
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}
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/// BuildByRefType - This routine changes a __block variable declared as T x
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/// into:
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///
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/// struct {
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/// void *__isa;
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/// void *__forwarding;
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/// int32_t __flags;
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/// int32_t __size;
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/// void *__copy_helper; // only if needed
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/// void *__destroy_helper; // only if needed
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/// char padding[X]; // only if needed
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/// T x;
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/// } x
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///
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const llvm::Type *CodeGenFunction::BuildByRefType(const ValueDecl *D) {
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std::pair<const llvm::Type *, unsigned> &Info = ByRefValueInfo[D];
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if (Info.first)
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return Info.first;
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QualType Ty = D->getType();
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std::vector<const llvm::Type *> Types;
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const llvm::PointerType *Int8PtrTy = llvm::Type::getInt8PtrTy(VMContext);
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llvm::PATypeHolder ByRefTypeHolder = llvm::OpaqueType::get(VMContext);
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// void *__isa;
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Types.push_back(Int8PtrTy);
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// void *__forwarding;
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Types.push_back(llvm::PointerType::getUnqual(ByRefTypeHolder));
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// int32_t __flags;
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Types.push_back(llvm::Type::getInt32Ty(VMContext));
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// int32_t __size;
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Types.push_back(llvm::Type::getInt32Ty(VMContext));
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bool HasCopyAndDispose = BlockRequiresCopying(Ty);
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if (HasCopyAndDispose) {
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/// void *__copy_helper;
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Types.push_back(Int8PtrTy);
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/// void *__destroy_helper;
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Types.push_back(Int8PtrTy);
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}
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bool Packed = false;
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CharUnits Align = getContext().getDeclAlign(D);
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if (Align > CharUnits::fromQuantity(Target.getPointerAlign(0) / 8)) {
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// We have to insert padding.
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// The struct above has 2 32-bit integers.
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unsigned CurrentOffsetInBytes = 4 * 2;
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// And either 2 or 4 pointers.
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CurrentOffsetInBytes += (HasCopyAndDispose ? 4 : 2) *
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CGM.getTargetData().getTypeAllocSize(Int8PtrTy);
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// Align the offset.
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unsigned AlignedOffsetInBytes =
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llvm::RoundUpToAlignment(CurrentOffsetInBytes, Align.getQuantity());
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unsigned NumPaddingBytes = AlignedOffsetInBytes - CurrentOffsetInBytes;
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if (NumPaddingBytes > 0) {
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const llvm::Type *Ty = llvm::Type::getInt8Ty(VMContext);
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// FIXME: We need a sema error for alignment larger than the minimum of
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// the maximal stack alignmint and the alignment of malloc on the system.
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if (NumPaddingBytes > 1)
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Ty = llvm::ArrayType::get(Ty, NumPaddingBytes);
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Types.push_back(Ty);
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// We want a packed struct.
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Packed = true;
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}
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}
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// T x;
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Types.push_back(ConvertType(Ty));
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const llvm::Type *T = llvm::StructType::get(VMContext, Types, Packed);
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cast<llvm::OpaqueType>(ByRefTypeHolder.get())->refineAbstractTypeTo(T);
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CGM.getModule().addTypeName("struct.__block_byref_" + D->getNameAsString(),
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ByRefTypeHolder.get());
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Info.first = ByRefTypeHolder.get();
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Info.second = Types.size() - 1;
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return Info.first;
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}
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/// EmitLocalBlockVarDecl - Emit code and set up an entry in LocalDeclMap for a
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/// variable declaration with auto, register, or no storage class specifier.
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/// These turn into simple stack objects, or GlobalValues depending on target.
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void CodeGenFunction::EmitLocalBlockVarDecl(const VarDecl &D) {
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QualType Ty = D.getType();
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bool isByRef = D.hasAttr<BlocksAttr>();
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bool needsDispose = false;
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CharUnits Align = CharUnits::Zero();
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bool IsSimpleConstantInitializer = false;
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llvm::Value *DeclPtr;
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if (Ty->isConstantSizeType()) {
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if (!Target.useGlobalsForAutomaticVariables()) {
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// If this value is an array or struct, is POD, and if the initializer is
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// a staticly determinable constant, try to optimize it.
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if (D.getInit() && !isByRef &&
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(Ty->isArrayType() || Ty->isRecordType()) &&
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Ty->isPODType() &&
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D.getInit()->isConstantInitializer(getContext())) {
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// If this variable is marked 'const', emit the value as a global.
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if (CGM.getCodeGenOpts().MergeAllConstants &&
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Ty.isConstant(getContext())) {
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EmitStaticBlockVarDecl(D, llvm::GlobalValue::InternalLinkage);
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return;
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}
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IsSimpleConstantInitializer = true;
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}
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// A normal fixed sized variable becomes an alloca in the entry block.
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const llvm::Type *LTy = ConvertTypeForMem(Ty);
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if (isByRef)
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LTy = BuildByRefType(&D);
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llvm::AllocaInst *Alloc = CreateTempAlloca(LTy);
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Alloc->setName(D.getNameAsString());
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Align = getContext().getDeclAlign(&D);
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if (isByRef)
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Align = std::max(Align,
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CharUnits::fromQuantity(Target.getPointerAlign(0) / 8));
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Alloc->setAlignment(Align.getQuantity());
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DeclPtr = Alloc;
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} else {
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// Targets that don't support recursion emit locals as globals.
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const char *Class =
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D.getStorageClass() == VarDecl::Register ? ".reg." : ".auto.";
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DeclPtr = CreateStaticBlockVarDecl(D, Class,
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llvm::GlobalValue
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::InternalLinkage);
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}
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// FIXME: Can this happen?
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if (Ty->isVariablyModifiedType())
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EmitVLASize(Ty);
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} else {
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EnsureInsertPoint();
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if (!DidCallStackSave) {
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// Save the stack.
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const llvm::Type *LTy = llvm::Type::getInt8PtrTy(VMContext);
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llvm::Value *Stack = CreateTempAlloca(LTy, "saved_stack");
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llvm::Value *F = CGM.getIntrinsic(llvm::Intrinsic::stacksave);
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llvm::Value *V = Builder.CreateCall(F);
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Builder.CreateStore(V, Stack);
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DidCallStackSave = true;
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{
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// Push a cleanup block and restore the stack there.
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DelayedCleanupBlock scope(*this);
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V = Builder.CreateLoad(Stack, "tmp");
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llvm::Value *F = CGM.getIntrinsic(llvm::Intrinsic::stackrestore);
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Builder.CreateCall(F, V);
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}
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}
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// Get the element type.
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const llvm::Type *LElemTy = ConvertTypeForMem(Ty);
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const llvm::Type *LElemPtrTy =
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llvm::PointerType::get(LElemTy, D.getType().getAddressSpace());
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llvm::Value *VLASize = EmitVLASize(Ty);
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// Downcast the VLA size expression
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VLASize = Builder.CreateIntCast(VLASize, llvm::Type::getInt32Ty(VMContext),
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false, "tmp");
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// Allocate memory for the array.
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llvm::AllocaInst *VLA =
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Builder.CreateAlloca(llvm::Type::getInt8Ty(VMContext), VLASize, "vla");
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VLA->setAlignment(getContext().getDeclAlign(&D).getQuantity());
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DeclPtr = Builder.CreateBitCast(VLA, LElemPtrTy, "tmp");
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}
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llvm::Value *&DMEntry = LocalDeclMap[&D];
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assert(DMEntry == 0 && "Decl already exists in localdeclmap!");
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DMEntry = DeclPtr;
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// Emit debug info for local var declaration.
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if (CGDebugInfo *DI = getDebugInfo()) {
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assert(HaveInsertPoint() && "Unexpected unreachable point!");
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DI->setLocation(D.getLocation());
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if (Target.useGlobalsForAutomaticVariables()) {
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DI->EmitGlobalVariable(static_cast<llvm::GlobalVariable *>(DeclPtr), &D);
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} else
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DI->EmitDeclareOfAutoVariable(&D, DeclPtr, Builder);
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}
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// If this local has an initializer, emit it now.
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const Expr *Init = D.getInit();
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// If we are at an unreachable point, we don't need to emit the initializer
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// unless it contains a label.
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if (!HaveInsertPoint()) {
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if (!ContainsLabel(Init))
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Init = 0;
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else
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EnsureInsertPoint();
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}
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if (isByRef) {
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const llvm::PointerType *PtrToInt8Ty = llvm::Type::getInt8PtrTy(VMContext);
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EnsureInsertPoint();
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llvm::Value *isa_field = Builder.CreateStructGEP(DeclPtr, 0);
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llvm::Value *forwarding_field = Builder.CreateStructGEP(DeclPtr, 1);
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llvm::Value *flags_field = Builder.CreateStructGEP(DeclPtr, 2);
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llvm::Value *size_field = Builder.CreateStructGEP(DeclPtr, 3);
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llvm::Value *V;
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int flag = 0;
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int flags = 0;
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needsDispose = true;
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if (Ty->isBlockPointerType()) {
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flag |= BLOCK_FIELD_IS_BLOCK;
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flags |= BLOCK_HAS_COPY_DISPOSE;
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} else if (BlockRequiresCopying(Ty)) {
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flag |= BLOCK_FIELD_IS_OBJECT;
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flags |= BLOCK_HAS_COPY_DISPOSE;
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}
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|
|
// FIXME: Someone double check this.
|
|
if (Ty.isObjCGCWeak())
|
|
flag |= BLOCK_FIELD_IS_WEAK;
|
|
|
|
int isa = 0;
|
|
if (flag&BLOCK_FIELD_IS_WEAK)
|
|
isa = 1;
|
|
V = llvm::ConstantInt::get(llvm::Type::getInt32Ty(VMContext), isa);
|
|
V = Builder.CreateIntToPtr(V, PtrToInt8Ty, "isa");
|
|
Builder.CreateStore(V, isa_field);
|
|
|
|
Builder.CreateStore(DeclPtr, forwarding_field);
|
|
|
|
V = llvm::ConstantInt::get(llvm::Type::getInt32Ty(VMContext), flags);
|
|
Builder.CreateStore(V, flags_field);
|
|
|
|
const llvm::Type *V1;
|
|
V1 = cast<llvm::PointerType>(DeclPtr->getType())->getElementType();
|
|
V = llvm::ConstantInt::get(llvm::Type::getInt32Ty(VMContext),
|
|
CGM.GetTargetTypeStoreSize(V1).getQuantity());
|
|
Builder.CreateStore(V, size_field);
|
|
|
|
if (flags & BLOCK_HAS_COPY_DISPOSE) {
|
|
BlockHasCopyDispose = true;
|
|
llvm::Value *copy_helper = Builder.CreateStructGEP(DeclPtr, 4);
|
|
Builder.CreateStore(BuildbyrefCopyHelper(DeclPtr->getType(), flag,
|
|
Align.getQuantity()),
|
|
copy_helper);
|
|
|
|
llvm::Value *destroy_helper = Builder.CreateStructGEP(DeclPtr, 5);
|
|
Builder.CreateStore(BuildbyrefDestroyHelper(DeclPtr->getType(), flag,
|
|
Align.getQuantity()),
|
|
destroy_helper);
|
|
}
|
|
}
|
|
|
|
if (Init) {
|
|
llvm::Value *Loc = DeclPtr;
|
|
if (isByRef)
|
|
Loc = Builder.CreateStructGEP(DeclPtr, getByRefValueLLVMField(&D),
|
|
D.getNameAsString());
|
|
|
|
bool isVolatile =
|
|
getContext().getCanonicalType(D.getType()).isVolatileQualified();
|
|
|
|
// If the initializer was a simple constant initializer, we can optimize it
|
|
// in various ways.
|
|
if (IsSimpleConstantInitializer) {
|
|
llvm::Constant *Init = CGM.EmitConstantExpr(D.getInit(),D.getType(),this);
|
|
assert(Init != 0 && "Wasn't a simple constant init?");
|
|
|
|
llvm::Value *AlignVal =
|
|
llvm::ConstantInt::get(llvm::Type::getInt32Ty(VMContext),
|
|
Align.getQuantity());
|
|
const llvm::Type *IntPtr =
|
|
llvm::IntegerType::get(VMContext, LLVMPointerWidth);
|
|
llvm::Value *SizeVal =
|
|
llvm::ConstantInt::get(IntPtr,
|
|
getContext().getTypeSizeInChars(Ty).getQuantity());
|
|
|
|
const llvm::Type *BP = llvm::Type::getInt8PtrTy(VMContext);
|
|
if (Loc->getType() != BP)
|
|
Loc = Builder.CreateBitCast(Loc, BP, "tmp");
|
|
|
|
// If the initializer is all zeros, codegen with memset.
|
|
if (isa<llvm::ConstantAggregateZero>(Init)) {
|
|
llvm::Value *Zero =
|
|
llvm::ConstantInt::get(llvm::Type::getInt8Ty(VMContext), 0);
|
|
Builder.CreateCall4(CGM.getMemSetFn(), Loc, Zero, SizeVal, AlignVal);
|
|
} else {
|
|
// Otherwise, create a temporary global with the initializer then
|
|
// memcpy from the global to the alloca.
|
|
std::string Name = GetStaticDeclName(*this, D, ".");
|
|
llvm::GlobalVariable *GV =
|
|
new llvm::GlobalVariable(CGM.getModule(), Init->getType(), true,
|
|
llvm::GlobalValue::InternalLinkage,
|
|
Init, Name, 0, false, 0);
|
|
GV->setAlignment(Align.getQuantity());
|
|
|
|
llvm::Value *SrcPtr = GV;
|
|
if (SrcPtr->getType() != BP)
|
|
SrcPtr = Builder.CreateBitCast(SrcPtr, BP, "tmp");
|
|
|
|
Builder.CreateCall4(CGM.getMemCpyFn(), Loc, SrcPtr, SizeVal, AlignVal);
|
|
}
|
|
} else if (Ty->isReferenceType()) {
|
|
RValue RV = EmitReferenceBindingToExpr(Init, /*IsInitializer=*/true);
|
|
EmitStoreOfScalar(RV.getScalarVal(), Loc, false, Ty);
|
|
} else if (!hasAggregateLLVMType(Init->getType())) {
|
|
llvm::Value *V = EmitScalarExpr(Init);
|
|
EmitStoreOfScalar(V, Loc, isVolatile, D.getType());
|
|
} else if (Init->getType()->isAnyComplexType()) {
|
|
EmitComplexExprIntoAddr(Init, Loc, isVolatile);
|
|
} else {
|
|
EmitAggExpr(Init, Loc, isVolatile);
|
|
}
|
|
}
|
|
|
|
// Handle CXX destruction of variables.
|
|
QualType DtorTy(Ty);
|
|
while (const ArrayType *Array = getContext().getAsArrayType(DtorTy))
|
|
DtorTy = getContext().getBaseElementType(Array);
|
|
if (const RecordType *RT = DtorTy->getAs<RecordType>())
|
|
if (CXXRecordDecl *ClassDecl = dyn_cast<CXXRecordDecl>(RT->getDecl())) {
|
|
if (!ClassDecl->hasTrivialDestructor()) {
|
|
const CXXDestructorDecl *D = ClassDecl->getDestructor(getContext());
|
|
assert(D && "EmitLocalBlockVarDecl - destructor is nul");
|
|
|
|
if (const ConstantArrayType *Array =
|
|
getContext().getAsConstantArrayType(Ty)) {
|
|
{
|
|
DelayedCleanupBlock Scope(*this);
|
|
QualType BaseElementTy = getContext().getBaseElementType(Array);
|
|
const llvm::Type *BasePtr = ConvertType(BaseElementTy);
|
|
BasePtr = llvm::PointerType::getUnqual(BasePtr);
|
|
llvm::Value *BaseAddrPtr =
|
|
Builder.CreateBitCast(DeclPtr, BasePtr);
|
|
EmitCXXAggrDestructorCall(D, Array, BaseAddrPtr);
|
|
|
|
// Make sure to jump to the exit block.
|
|
EmitBranch(Scope.getCleanupExitBlock());
|
|
}
|
|
if (Exceptions) {
|
|
EHCleanupBlock Cleanup(*this);
|
|
QualType BaseElementTy = getContext().getBaseElementType(Array);
|
|
const llvm::Type *BasePtr = ConvertType(BaseElementTy);
|
|
BasePtr = llvm::PointerType::getUnqual(BasePtr);
|
|
llvm::Value *BaseAddrPtr =
|
|
Builder.CreateBitCast(DeclPtr, BasePtr);
|
|
EmitCXXAggrDestructorCall(D, Array, BaseAddrPtr);
|
|
}
|
|
} else {
|
|
{
|
|
DelayedCleanupBlock Scope(*this);
|
|
EmitCXXDestructorCall(D, Dtor_Complete, DeclPtr);
|
|
|
|
// Make sure to jump to the exit block.
|
|
EmitBranch(Scope.getCleanupExitBlock());
|
|
}
|
|
if (Exceptions) {
|
|
EHCleanupBlock Cleanup(*this);
|
|
EmitCXXDestructorCall(D, Dtor_Complete, DeclPtr);
|
|
}
|
|
}
|
|
}
|
|
}
|
|
|
|
// Handle the cleanup attribute
|
|
if (const CleanupAttr *CA = D.getAttr<CleanupAttr>()) {
|
|
const FunctionDecl *FD = CA->getFunctionDecl();
|
|
|
|
llvm::Constant* F = CGM.GetAddrOfFunction(FD);
|
|
assert(F && "Could not find function!");
|
|
|
|
const CGFunctionInfo &Info = CGM.getTypes().getFunctionInfo(FD);
|
|
|
|
// In some cases, the type of the function argument will be different from
|
|
// the type of the pointer. An example of this is
|
|
// void f(void* arg);
|
|
// __attribute__((cleanup(f))) void *g;
|
|
//
|
|
// To fix this we insert a bitcast here.
|
|
QualType ArgTy = Info.arg_begin()->type;
|
|
{
|
|
DelayedCleanupBlock scope(*this);
|
|
|
|
CallArgList Args;
|
|
Args.push_back(std::make_pair(RValue::get(Builder.CreateBitCast(DeclPtr,
|
|
ConvertType(ArgTy))),
|
|
getContext().getPointerType(D.getType())));
|
|
EmitCall(Info, F, ReturnValueSlot(), Args);
|
|
}
|
|
if (Exceptions) {
|
|
EHCleanupBlock Cleanup(*this);
|
|
|
|
CallArgList Args;
|
|
Args.push_back(std::make_pair(RValue::get(Builder.CreateBitCast(DeclPtr,
|
|
ConvertType(ArgTy))),
|
|
getContext().getPointerType(D.getType())));
|
|
EmitCall(Info, F, ReturnValueSlot(), Args);
|
|
}
|
|
}
|
|
|
|
if (needsDispose && CGM.getLangOptions().getGCMode() != LangOptions::GCOnly) {
|
|
{
|
|
DelayedCleanupBlock scope(*this);
|
|
llvm::Value *V = Builder.CreateStructGEP(DeclPtr, 1, "forwarding");
|
|
V = Builder.CreateLoad(V);
|
|
BuildBlockRelease(V);
|
|
}
|
|
// FIXME: Turn this on and audit the codegen
|
|
if (0 && Exceptions) {
|
|
EHCleanupBlock Cleanup(*this);
|
|
llvm::Value *V = Builder.CreateStructGEP(DeclPtr, 1, "forwarding");
|
|
V = Builder.CreateLoad(V);
|
|
BuildBlockRelease(V);
|
|
}
|
|
}
|
|
}
|
|
|
|
/// Emit an alloca (or GlobalValue depending on target)
|
|
/// for the specified parameter and set up LocalDeclMap.
|
|
void CodeGenFunction::EmitParmDecl(const VarDecl &D, llvm::Value *Arg) {
|
|
// FIXME: Why isn't ImplicitParamDecl a ParmVarDecl?
|
|
assert((isa<ParmVarDecl>(D) || isa<ImplicitParamDecl>(D)) &&
|
|
"Invalid argument to EmitParmDecl");
|
|
QualType Ty = D.getType();
|
|
CanQualType CTy = getContext().getCanonicalType(Ty);
|
|
|
|
llvm::Value *DeclPtr;
|
|
// If this is an aggregate or variable sized value, reuse the input pointer.
|
|
if (!Ty->isConstantSizeType() ||
|
|
CodeGenFunction::hasAggregateLLVMType(Ty)) {
|
|
DeclPtr = Arg;
|
|
} else {
|
|
// Otherwise, create a temporary to hold the value.
|
|
DeclPtr = CreateMemTemp(Ty, D.getName() + ".addr");
|
|
|
|
// Store the initial value into the alloca.
|
|
EmitStoreOfScalar(Arg, DeclPtr, CTy.isVolatileQualified(), Ty);
|
|
}
|
|
Arg->setName(D.getName());
|
|
|
|
llvm::Value *&DMEntry = LocalDeclMap[&D];
|
|
assert(DMEntry == 0 && "Decl already exists in localdeclmap!");
|
|
DMEntry = DeclPtr;
|
|
|
|
// Emit debug info for param declaration.
|
|
if (CGDebugInfo *DI = getDebugInfo()) {
|
|
DI->setLocation(D.getLocation());
|
|
DI->EmitDeclareOfArgVariable(&D, DeclPtr, Builder);
|
|
}
|
|
}
|