forked from OSchip/llvm-project
456 lines
17 KiB
C++
456 lines
17 KiB
C++
//===--- CodeGenModule.cpp - Emit LLVM Code from ASTs for a Module --------===//
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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 coordinates the per-module state used while generating code.
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//
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//===----------------------------------------------------------------------===//
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#include "CodeGenModule.h"
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#include "CodeGenFunction.h"
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#include "clang/AST/ASTContext.h"
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#include "clang/AST/Decl.h"
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#include "clang/Basic/Diagnostic.h"
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#include "clang/Basic/LangOptions.h"
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#include "clang/Basic/TargetInfo.h"
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#include "llvm/CallingConv.h"
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#include "llvm/Constants.h"
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#include "llvm/DerivedTypes.h"
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#include "llvm/Module.h"
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#include "llvm/Intrinsics.h"
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#include <algorithm>
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using namespace clang;
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using namespace CodeGen;
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CodeGenModule::CodeGenModule(ASTContext &C, const LangOptions &LO,
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llvm::Module &M, const llvm::TargetData &TD,
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Diagnostic &diags)
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: Context(C), Features(LO), TheModule(M), TheTargetData(TD), Diags(diags),
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Types(C, M, TD), MemCpyFn(0), MemSetFn(0), CFConstantStringClassRef(0) {
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//TODO: Make this selectable at runtime
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Runtime = CreateObjCRuntime(M);
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}
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CodeGenModule::~CodeGenModule() {
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delete Runtime;
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}
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/// WarnUnsupported - Print out a warning that codegen doesn't support the
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/// specified stmt yet.
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void CodeGenModule::WarnUnsupported(const Stmt *S, const char *Type) {
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unsigned DiagID = getDiags().getCustomDiagID(Diagnostic::Warning,
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"cannot codegen this %0 yet");
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SourceRange Range = S->getSourceRange();
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std::string Msg = Type;
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getDiags().Report(Context.getFullLoc(S->getLocStart()), DiagID,
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&Msg, 1, &Range, 1);
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}
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/// WarnUnsupported - Print out a warning that codegen doesn't support the
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/// specified decl yet.
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void CodeGenModule::WarnUnsupported(const Decl *D, const char *Type) {
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unsigned DiagID = getDiags().getCustomDiagID(Diagnostic::Warning,
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"cannot codegen this %0 yet");
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std::string Msg = Type;
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getDiags().Report(Context.getFullLoc(D->getLocation()), DiagID,
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&Msg, 1);
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}
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/// ReplaceMapValuesWith - This is a really slow and bad function that
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/// searches for any entries in GlobalDeclMap that point to OldVal, changing
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/// them to point to NewVal. This is badbadbad, FIXME!
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void CodeGenModule::ReplaceMapValuesWith(llvm::Constant *OldVal,
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llvm::Constant *NewVal) {
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for (llvm::DenseMap<const Decl*, llvm::Constant*>::iterator
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I = GlobalDeclMap.begin(), E = GlobalDeclMap.end(); I != E; ++I)
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if (I->second == OldVal) I->second = NewVal;
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}
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llvm::Constant *CodeGenModule::GetAddrOfFunctionDecl(const FunctionDecl *D,
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bool isDefinition) {
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// See if it is already in the map. If so, just return it.
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llvm::Constant *&Entry = GlobalDeclMap[D];
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if (Entry) return Entry;
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const llvm::Type *Ty = getTypes().ConvertType(D->getType());
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// Check to see if the function already exists.
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llvm::Function *F = getModule().getFunction(D->getName());
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const llvm::FunctionType *FTy = cast<llvm::FunctionType>(Ty);
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// If it doesn't already exist, just create and return an entry.
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if (F == 0) {
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// FIXME: param attributes for sext/zext etc.
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F = new llvm::Function(FTy, llvm::Function::ExternalLinkage, D->getName(),
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&getModule());
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// Set the appropriate calling convention for the Function.
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if (D->getAttr<FastCallAttr>())
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F->setCallingConv(llvm::CallingConv::Fast);
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return Entry = F;
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}
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// If the pointer type matches, just return it.
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llvm::Type *PFTy = llvm::PointerType::getUnqual(Ty);
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if (PFTy == F->getType()) return Entry = F;
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// If this isn't a definition, just return it casted to the right type.
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if (!isDefinition)
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return Entry = llvm::ConstantExpr::getBitCast(F, PFTy);
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// Otherwise, we have a definition after a prototype with the wrong type.
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// F is the Function* for the one with the wrong type, we must make a new
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// Function* and update everything that used F (a declaration) with the new
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// Function* (which will be a definition).
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//
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// This happens if there is a prototype for a function (e.g. "int f()") and
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// then a definition of a different type (e.g. "int f(int x)"). Start by
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// making a new function of the correct type, RAUW, then steal the name.
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llvm::Function *NewFn = new llvm::Function(FTy,
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llvm::Function::ExternalLinkage,
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"", &getModule());
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NewFn->takeName(F);
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// Replace uses of F with the Function we will endow with a body.
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llvm::Constant *NewPtrForOldDecl =
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llvm::ConstantExpr::getBitCast(NewFn, F->getType());
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F->replaceAllUsesWith(NewPtrForOldDecl);
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// FIXME: Update the globaldeclmap for the previous decl of this name. We
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// really want a way to walk all of these, but we don't have it yet. This
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// is incredibly slow!
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ReplaceMapValuesWith(F, NewPtrForOldDecl);
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// Ok, delete the old function now, which is dead.
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assert(F->isDeclaration() && "Shouldn't replace non-declaration");
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F->eraseFromParent();
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// Return the new function which has the right type.
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return Entry = NewFn;
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}
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static bool IsZeroElementArray(const llvm::Type *Ty) {
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if (const llvm::ArrayType *ATy = dyn_cast<llvm::ArrayType>(Ty))
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return ATy->getNumElements() == 0;
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return false;
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}
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llvm::Constant *CodeGenModule::GetAddrOfGlobalVar(const VarDecl *D,
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bool isDefinition) {
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assert(D->hasGlobalStorage() && "Not a global variable");
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// See if it is already in the map.
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llvm::Constant *&Entry = GlobalDeclMap[D];
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if (Entry) return Entry;
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QualType ASTTy = D->getType();
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const llvm::Type *Ty = getTypes().ConvertTypeForMem(ASTTy);
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// Check to see if the global already exists.
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llvm::GlobalVariable *GV = getModule().getGlobalVariable(D->getName(), true);
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// If it doesn't already exist, just create and return an entry.
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if (GV == 0) {
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return Entry = new llvm::GlobalVariable(Ty, false,
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llvm::GlobalValue::ExternalLinkage,
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0, D->getName(), &getModule(), 0,
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ASTTy.getAddressSpace());
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}
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// If the pointer type matches, just return it.
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llvm::Type *PTy = llvm::PointerType::getUnqual(Ty);
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if (PTy == GV->getType()) return Entry = GV;
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// If this isn't a definition, just return it casted to the right type.
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if (!isDefinition)
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return Entry = llvm::ConstantExpr::getBitCast(GV, PTy);
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// Otherwise, we have a definition after a prototype with the wrong type.
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// GV is the GlobalVariable* for the one with the wrong type, we must make a
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/// new GlobalVariable* and update everything that used GV (a declaration)
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// with the new GlobalVariable* (which will be a definition).
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//
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// This happens if there is a prototype for a global (e.g. "extern int x[];")
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// and then a definition of a different type (e.g. "int x[10];"). Start by
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// making a new global of the correct type, RAUW, then steal the name.
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llvm::GlobalVariable *NewGV =
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new llvm::GlobalVariable(Ty, false, llvm::GlobalValue::ExternalLinkage,
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0, D->getName(), &getModule(), 0,
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ASTTy.getAddressSpace());
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NewGV->takeName(GV);
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// Replace uses of GV with the globalvalue we will endow with a body.
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llvm::Constant *NewPtrForOldDecl =
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llvm::ConstantExpr::getBitCast(NewGV, GV->getType());
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GV->replaceAllUsesWith(NewPtrForOldDecl);
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// FIXME: Update the globaldeclmap for the previous decl of this name. We
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// really want a way to walk all of these, but we don't have it yet. This
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// is incredibly slow!
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ReplaceMapValuesWith(GV, NewPtrForOldDecl);
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// Verify that GV was a declaration or something like x[] which turns into
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// [0 x type].
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assert((GV->isDeclaration() ||
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IsZeroElementArray(GV->getType()->getElementType())) &&
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"Shouldn't replace non-declaration");
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// Ok, delete the old global now, which is dead.
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GV->eraseFromParent();
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// Return the new global which has the right type.
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return Entry = NewGV;
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}
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void CodeGenModule::EmitFunction(const FunctionDecl *FD) {
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// If this is not a prototype, emit the body.
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if (FD->getBody())
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CodeGenFunction(*this).GenerateCode(FD);
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}
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llvm::Constant *CodeGenModule::EmitGlobalInit(const Expr *Expr) {
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return EmitConstantExpr(Expr);
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}
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void CodeGenModule::EmitGlobalVar(const FileVarDecl *D) {
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// If this is just a forward declaration of the variable, don't emit it now,
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// allow it to be emitted lazily on its first use.
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if (D->getStorageClass() == VarDecl::Extern && D->getInit() == 0)
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return;
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// Get the global, forcing it to be a direct reference.
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llvm::GlobalVariable *GV =
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cast<llvm::GlobalVariable>(GetAddrOfGlobalVar(D, true));
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// Convert the initializer, or use zero if appropriate.
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llvm::Constant *Init = 0;
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if (D->getInit() == 0) {
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Init = llvm::Constant::getNullValue(GV->getType()->getElementType());
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} else if (D->getType()->isIntegerType()) {
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llvm::APSInt Value(static_cast<uint32_t>(
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getContext().getTypeSize(D->getInit()->getType())));
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if (D->getInit()->isIntegerConstantExpr(Value, Context))
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Init = llvm::ConstantInt::get(Value);
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}
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if (!Init)
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Init = EmitGlobalInit(D->getInit());
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assert(GV->getType()->getElementType() == Init->getType() &&
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"Initializer codegen type mismatch!");
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GV->setInitializer(Init);
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if (const VisibilityAttr *attr = D->getAttr<VisibilityAttr>())
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GV->setVisibility(attr->getVisibility());
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// FIXME: else handle -fvisibility
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// Set the llvm linkage type as appropriate.
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if (D->getAttr<DLLImportAttr>())
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GV->setLinkage(llvm::Function::DLLImportLinkage);
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else if (D->getAttr<DLLExportAttr>())
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GV->setLinkage(llvm::Function::DLLExportLinkage);
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else if (D->getAttr<WeakAttr>()) {
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GV->setLinkage(llvm::GlobalVariable::WeakLinkage);
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} else {
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// FIXME: This isn't right. This should handle common linkage and other
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// stuff.
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switch (D->getStorageClass()) {
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case VarDecl::Auto:
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case VarDecl::Register:
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assert(0 && "Can't have auto or register globals");
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case VarDecl::None:
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if (!D->getInit())
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GV->setLinkage(llvm::GlobalVariable::WeakLinkage);
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break;
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case VarDecl::Extern:
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case VarDecl::PrivateExtern:
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// todo: common
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break;
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case VarDecl::Static:
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GV->setLinkage(llvm::GlobalVariable::InternalLinkage);
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break;
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}
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}
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}
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/// EmitGlobalVarDeclarator - Emit all the global vars attached to the specified
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/// declarator chain.
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void CodeGenModule::EmitGlobalVarDeclarator(const FileVarDecl *D) {
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for (; D; D = cast_or_null<FileVarDecl>(D->getNextDeclarator()))
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EmitGlobalVar(D);
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}
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void CodeGenModule::UpdateCompletedType(const TagDecl *TD) {
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// Make sure that this type is translated.
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Types.UpdateCompletedType(TD);
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}
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/// getBuiltinLibFunction
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llvm::Function *CodeGenModule::getBuiltinLibFunction(unsigned BuiltinID) {
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if (BuiltinID > BuiltinFunctions.size())
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BuiltinFunctions.resize(BuiltinID);
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// Cache looked up functions. Since builtin id #0 is invalid we don't reserve
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// a slot for it.
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assert(BuiltinID && "Invalid Builtin ID");
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llvm::Function *&FunctionSlot = BuiltinFunctions[BuiltinID-1];
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if (FunctionSlot)
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return FunctionSlot;
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assert(Context.BuiltinInfo.isLibFunction(BuiltinID) && "isn't a lib fn");
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// Get the name, skip over the __builtin_ prefix.
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const char *Name = Context.BuiltinInfo.GetName(BuiltinID)+10;
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// Get the type for the builtin.
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QualType Type = Context.BuiltinInfo.GetBuiltinType(BuiltinID, Context);
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const llvm::FunctionType *Ty =
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cast<llvm::FunctionType>(getTypes().ConvertType(Type));
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// FIXME: This has a serious problem with code like this:
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// void abs() {}
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// ... __builtin_abs(x);
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// The two versions of abs will collide. The fix is for the builtin to win,
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// and for the existing one to be turned into a constantexpr cast of the
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// builtin. In the case where the existing one is a static function, it
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// should just be renamed.
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if (llvm::Function *Existing = getModule().getFunction(Name)) {
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if (Existing->getFunctionType() == Ty && Existing->hasExternalLinkage())
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return FunctionSlot = Existing;
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assert(Existing == 0 && "FIXME: Name collision");
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}
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// FIXME: param attributes for sext/zext etc.
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return FunctionSlot = new llvm::Function(Ty, llvm::Function::ExternalLinkage,
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Name, &getModule());
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}
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llvm::Function *CodeGenModule::getIntrinsic(unsigned IID,const llvm::Type **Tys,
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unsigned NumTys) {
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return llvm::Intrinsic::getDeclaration(&getModule(),
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(llvm::Intrinsic::ID)IID, Tys, NumTys);
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}
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llvm::Function *CodeGenModule::getMemCpyFn() {
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if (MemCpyFn) return MemCpyFn;
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llvm::Intrinsic::ID IID;
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switch (Context.Target.getPointerWidth(0)) {
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default: assert(0 && "Unknown ptr width");
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case 32: IID = llvm::Intrinsic::memcpy_i32; break;
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case 64: IID = llvm::Intrinsic::memcpy_i64; break;
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}
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return MemCpyFn = getIntrinsic(IID);
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}
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llvm::Function *CodeGenModule::getMemSetFn() {
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if (MemSetFn) return MemSetFn;
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llvm::Intrinsic::ID IID;
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switch (Context.Target.getPointerWidth(0)) {
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default: assert(0 && "Unknown ptr width");
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case 32: IID = llvm::Intrinsic::memset_i32; break;
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case 64: IID = llvm::Intrinsic::memset_i64; break;
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}
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return MemSetFn = getIntrinsic(IID);
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}
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llvm::Constant *CodeGenModule::
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GetAddrOfConstantCFString(const std::string &str) {
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llvm::StringMapEntry<llvm::Constant *> &Entry =
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CFConstantStringMap.GetOrCreateValue(&str[0], &str[str.length()]);
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if (Entry.getValue())
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return Entry.getValue();
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std::vector<llvm::Constant*> Fields;
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if (!CFConstantStringClassRef) {
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const llvm::Type *Ty = getTypes().ConvertType(getContext().IntTy);
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Ty = llvm::ArrayType::get(Ty, 0);
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CFConstantStringClassRef =
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new llvm::GlobalVariable(Ty, false,
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llvm::GlobalVariable::ExternalLinkage, 0,
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"__CFConstantStringClassReference",
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&getModule());
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}
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// Class pointer.
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llvm::Constant *Zero = llvm::Constant::getNullValue(llvm::Type::Int32Ty);
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llvm::Constant *Zeros[] = { Zero, Zero };
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llvm::Constant *C =
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llvm::ConstantExpr::getGetElementPtr(CFConstantStringClassRef, Zeros, 2);
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Fields.push_back(C);
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// Flags.
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const llvm::Type *Ty = getTypes().ConvertType(getContext().IntTy);
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Fields.push_back(llvm::ConstantInt::get(Ty, 1992));
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// String pointer.
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C = llvm::ConstantArray::get(str);
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C = new llvm::GlobalVariable(C->getType(), true,
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llvm::GlobalValue::InternalLinkage,
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C, ".str", &getModule());
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C = llvm::ConstantExpr::getGetElementPtr(C, Zeros, 2);
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Fields.push_back(C);
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// String length.
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Ty = getTypes().ConvertType(getContext().LongTy);
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Fields.push_back(llvm::ConstantInt::get(Ty, str.length()));
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// The struct.
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Ty = getTypes().ConvertType(getContext().getCFConstantStringType());
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C = llvm::ConstantStruct::get(cast<llvm::StructType>(Ty), Fields);
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llvm::GlobalVariable *GV =
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new llvm::GlobalVariable(C->getType(), true,
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llvm::GlobalVariable::InternalLinkage,
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C, "", &getModule());
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GV->setSection("__DATA,__cfstring");
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Entry.setValue(GV);
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return GV;
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}
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/// GenerateWritableString -- Creates storage for a string literal.
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static llvm::Constant *GenerateStringLiteral(const std::string &str,
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bool constant,
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CodeGenModule &CGM) {
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// Create Constant for this string literal
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llvm::Constant *C=llvm::ConstantArray::get(str);
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// Create a global variable for this string
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C = new llvm::GlobalVariable(C->getType(), constant,
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llvm::GlobalValue::InternalLinkage,
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C, ".str", &CGM.getModule());
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return C;
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}
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/// CodeGenModule::GetAddrOfConstantString -- returns a pointer to the character
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/// array containing the literal. The result is pointer to array type.
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llvm::Constant *CodeGenModule::GetAddrOfConstantString(const std::string &str) {
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// Don't share any string literals if writable-strings is turned on.
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if (Features.WritableStrings)
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return GenerateStringLiteral(str, false, *this);
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llvm::StringMapEntry<llvm::Constant *> &Entry =
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ConstantStringMap.GetOrCreateValue(&str[0], &str[str.length()]);
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if (Entry.getValue())
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return Entry.getValue();
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// Create a global variable for this.
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llvm::Constant *C = GenerateStringLiteral(str, true, *this);
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Entry.setValue(C);
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return C;
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}
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