зеркало из https://github.com/microsoft/clang-1.git
697 строки
24 KiB
C++
697 строки
24 KiB
C++
//===--- CodeGenFunction.cpp - Emit LLVM Code from ASTs for a Function ----===//
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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-function state used while generating code.
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//
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//===----------------------------------------------------------------------===//
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#include "CodeGenFunction.h"
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#include "CodeGenModule.h"
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#include "CGDebugInfo.h"
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#include "clang/Basic/TargetInfo.h"
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#include "clang/AST/APValue.h"
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#include "clang/AST/ASTContext.h"
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#include "clang/AST/Decl.h"
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#include "llvm/Support/CFG.h"
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#include "llvm/Target/TargetData.h"
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using namespace clang;
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using namespace CodeGen;
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CodeGenFunction::CodeGenFunction(CodeGenModule &cgm)
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: BlockFunction(cgm, *this, Builder), CGM(cgm),
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Target(CGM.getContext().Target),
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DebugInfo(0), SwitchInsn(0), CaseRangeBlock(0), InvokeDest(0) {
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LLVMIntTy = ConvertType(getContext().IntTy);
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LLVMPointerWidth = Target.getPointerWidth(0);
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// FIXME: We need to rearrange the code for copy/dispose so we have this
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// sooner, so we can calculate offsets correctly.
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if (!BlockHasCopyDispose)
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BlockOffset = CGM.getTargetData()
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.getTypeStoreSizeInBits(CGM.getGenericBlockLiteralType()) / 8;
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else
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BlockOffset = CGM.getTargetData()
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.getTypeStoreSizeInBits(CGM.getGenericExtendedBlockLiteralType()) / 8;
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BlockAlign = getContext().getTypeAlign(getContext().VoidPtrTy) / 8;
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}
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ASTContext &CodeGenFunction::getContext() const {
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return CGM.getContext();
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}
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llvm::BasicBlock *CodeGenFunction::getBasicBlockForLabel(const LabelStmt *S) {
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llvm::BasicBlock *&BB = LabelMap[S];
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if (BB) return BB;
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// Create, but don't insert, the new block.
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return BB = createBasicBlock(S->getName());
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}
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llvm::Value *CodeGenFunction::GetAddrOfLocalVar(const VarDecl *VD) {
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llvm::Value *Res = LocalDeclMap[VD];
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assert(Res && "Invalid argument to GetAddrOfLocalVar(), no decl!");
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return Res;
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}
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llvm::Constant *
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CodeGenFunction::GetAddrOfStaticLocalVar(const VarDecl *BVD) {
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return cast<llvm::Constant>(GetAddrOfLocalVar(BVD));
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}
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const llvm::Type *CodeGenFunction::ConvertTypeForMem(QualType T) {
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return CGM.getTypes().ConvertTypeForMem(T);
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}
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const llvm::Type *CodeGenFunction::ConvertType(QualType T) {
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return CGM.getTypes().ConvertType(T);
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}
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bool CodeGenFunction::hasAggregateLLVMType(QualType T) {
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// FIXME: Use positive checks instead of negative ones to be more
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// robust in the face of extension.
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return !T->hasPointerRepresentation() &&!T->isRealType() &&
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!T->isVoidType() && !T->isVectorType() && !T->isFunctionType() &&
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!T->isBlockPointerType();
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}
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void CodeGenFunction::EmitReturnBlock() {
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// For cleanliness, we try to avoid emitting the return block for
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// simple cases.
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llvm::BasicBlock *CurBB = Builder.GetInsertBlock();
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if (CurBB) {
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assert(!CurBB->getTerminator() && "Unexpected terminated block.");
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// We have a valid insert point, reuse it if there are no explicit
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// jumps to the return block.
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if (ReturnBlock->use_empty())
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delete ReturnBlock;
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else
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EmitBlock(ReturnBlock);
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return;
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}
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// Otherwise, if the return block is the target of a single direct
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// branch then we can just put the code in that block instead. This
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// cleans up functions which started with a unified return block.
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if (ReturnBlock->hasOneUse()) {
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llvm::BranchInst *BI =
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dyn_cast<llvm::BranchInst>(*ReturnBlock->use_begin());
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if (BI && BI->isUnconditional() && BI->getSuccessor(0) == ReturnBlock) {
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// Reset insertion point and delete the branch.
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Builder.SetInsertPoint(BI->getParent());
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BI->eraseFromParent();
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delete ReturnBlock;
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return;
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}
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}
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// FIXME: We are at an unreachable point, there is no reason to emit
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// the block unless it has uses. However, we still need a place to
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// put the debug region.end for now.
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EmitBlock(ReturnBlock);
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}
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void CodeGenFunction::FinishFunction(SourceLocation EndLoc) {
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// Finish emission of indirect switches.
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EmitIndirectSwitches();
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assert(BreakContinueStack.empty() &&
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"mismatched push/pop in break/continue stack!");
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assert(BlockScopes.empty() &&
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"did not remove all blocks from block scope map!");
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assert(CleanupEntries.empty() &&
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"mismatched push/pop in cleanup stack!");
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// Emit function epilog (to return).
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EmitReturnBlock();
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// Emit debug descriptor for function end.
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if (CGDebugInfo *DI = getDebugInfo()) {
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DI->setLocation(EndLoc);
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DI->EmitRegionEnd(CurFn, Builder);
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}
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EmitFunctionEpilog(*CurFnInfo, ReturnValue);
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// Remove the AllocaInsertPt instruction, which is just a convenience for us.
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AllocaInsertPt->eraseFromParent();
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AllocaInsertPt = 0;
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}
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void CodeGenFunction::StartFunction(const Decl *D, QualType RetTy,
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llvm::Function *Fn,
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const FunctionArgList &Args,
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SourceLocation StartLoc) {
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DidCallStackSave = false;
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CurFuncDecl = D;
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FnRetTy = RetTy;
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CurFn = Fn;
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assert(CurFn->isDeclaration() && "Function already has body?");
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llvm::BasicBlock *EntryBB = createBasicBlock("entry", CurFn);
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// Create a marker to make it easy to insert allocas into the entryblock
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// later. Don't create this with the builder, because we don't want it
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// folded.
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llvm::Value *Undef = llvm::UndefValue::get(llvm::Type::Int32Ty);
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AllocaInsertPt = new llvm::BitCastInst(Undef, llvm::Type::Int32Ty, "allocapt",
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EntryBB);
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ReturnBlock = createBasicBlock("return");
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ReturnValue = 0;
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if (!RetTy->isVoidType())
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ReturnValue = CreateTempAlloca(ConvertType(RetTy), "retval");
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Builder.SetInsertPoint(EntryBB);
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// Emit subprogram debug descriptor.
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// FIXME: The cast here is a huge hack.
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if (CGDebugInfo *DI = getDebugInfo()) {
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DI->setLocation(StartLoc);
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if (const FunctionDecl *FD = dyn_cast<FunctionDecl>(D)) {
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DI->EmitFunctionStart(CGM.getMangledName(FD), RetTy, CurFn, Builder);
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} else {
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// Just use LLVM function name.
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DI->EmitFunctionStart(Fn->getName().c_str(),
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RetTy, CurFn, Builder);
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}
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}
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// FIXME: Leaked.
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CurFnInfo = &CGM.getTypes().getFunctionInfo(FnRetTy, Args);
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EmitFunctionProlog(*CurFnInfo, CurFn, Args);
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// If any of the arguments have a variably modified type, make sure to
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// emit the type size.
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for (FunctionArgList::const_iterator i = Args.begin(), e = Args.end();
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i != e; ++i) {
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QualType Ty = i->second;
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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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void CodeGenFunction::GenerateCode(const FunctionDecl *FD,
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llvm::Function *Fn) {
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// Check if we should generate debug info for this function.
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if (CGM.getDebugInfo() && !FD->getAttr<NodebugAttr>())
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DebugInfo = CGM.getDebugInfo();
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FunctionArgList Args;
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if (FD->getNumParams()) {
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const FunctionProtoType* FProto = FD->getType()->getAsFunctionProtoType();
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assert(FProto && "Function def must have prototype!");
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for (unsigned i = 0, e = FD->getNumParams(); i != e; ++i)
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Args.push_back(std::make_pair(FD->getParamDecl(i),
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FProto->getArgType(i)));
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}
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StartFunction(FD, FD->getResultType(), Fn, Args,
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cast<CompoundStmt>(FD->getBody())->getLBracLoc());
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EmitStmt(FD->getBody());
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const CompoundStmt *S = dyn_cast<CompoundStmt>(FD->getBody());
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if (S) {
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FinishFunction(S->getRBracLoc());
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} else {
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FinishFunction();
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}
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}
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/// ContainsLabel - Return true if the statement contains a label in it. If
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/// this statement is not executed normally, it not containing a label means
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/// that we can just remove the code.
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bool CodeGenFunction::ContainsLabel(const Stmt *S, bool IgnoreCaseStmts) {
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// Null statement, not a label!
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if (S == 0) return false;
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// If this is a label, we have to emit the code, consider something like:
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// if (0) { ... foo: bar(); } goto foo;
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if (isa<LabelStmt>(S))
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return true;
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// If this is a case/default statement, and we haven't seen a switch, we have
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// to emit the code.
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if (isa<SwitchCase>(S) && !IgnoreCaseStmts)
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return true;
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// If this is a switch statement, we want to ignore cases below it.
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if (isa<SwitchStmt>(S))
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IgnoreCaseStmts = true;
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// Scan subexpressions for verboten labels.
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for (Stmt::const_child_iterator I = S->child_begin(), E = S->child_end();
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I != E; ++I)
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if (ContainsLabel(*I, IgnoreCaseStmts))
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return true;
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return false;
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}
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/// ConstantFoldsToSimpleInteger - If the sepcified expression does not fold to
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/// a constant, or if it does but contains a label, return 0. If it constant
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/// folds to 'true' and does not contain a label, return 1, if it constant folds
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/// to 'false' and does not contain a label, return -1.
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int CodeGenFunction::ConstantFoldsToSimpleInteger(const Expr *Cond) {
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// FIXME: Rename and handle conversion of other evaluatable things
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// to bool.
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Expr::EvalResult Result;
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if (!Cond->Evaluate(Result, getContext()) || !Result.Val.isInt() ||
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Result.HasSideEffects)
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return 0; // Not foldable, not integer or not fully evaluatable.
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if (CodeGenFunction::ContainsLabel(Cond))
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return 0; // Contains a label.
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return Result.Val.getInt().getBoolValue() ? 1 : -1;
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}
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/// EmitBranchOnBoolExpr - Emit a branch on a boolean condition (e.g. for an if
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/// statement) to the specified blocks. Based on the condition, this might try
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/// to simplify the codegen of the conditional based on the branch.
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///
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void CodeGenFunction::EmitBranchOnBoolExpr(const Expr *Cond,
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llvm::BasicBlock *TrueBlock,
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llvm::BasicBlock *FalseBlock) {
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if (const ParenExpr *PE = dyn_cast<ParenExpr>(Cond))
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return EmitBranchOnBoolExpr(PE->getSubExpr(), TrueBlock, FalseBlock);
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if (const BinaryOperator *CondBOp = dyn_cast<BinaryOperator>(Cond)) {
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// Handle X && Y in a condition.
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if (CondBOp->getOpcode() == BinaryOperator::LAnd) {
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// If we have "1 && X", simplify the code. "0 && X" would have constant
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// folded if the case was simple enough.
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if (ConstantFoldsToSimpleInteger(CondBOp->getLHS()) == 1) {
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// br(1 && X) -> br(X).
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return EmitBranchOnBoolExpr(CondBOp->getRHS(), TrueBlock, FalseBlock);
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}
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// If we have "X && 1", simplify the code to use an uncond branch.
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// "X && 0" would have been constant folded to 0.
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if (ConstantFoldsToSimpleInteger(CondBOp->getRHS()) == 1) {
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// br(X && 1) -> br(X).
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return EmitBranchOnBoolExpr(CondBOp->getLHS(), TrueBlock, FalseBlock);
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}
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// Emit the LHS as a conditional. If the LHS conditional is false, we
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// want to jump to the FalseBlock.
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llvm::BasicBlock *LHSTrue = createBasicBlock("land.lhs.true");
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EmitBranchOnBoolExpr(CondBOp->getLHS(), LHSTrue, FalseBlock);
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EmitBlock(LHSTrue);
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EmitBranchOnBoolExpr(CondBOp->getRHS(), TrueBlock, FalseBlock);
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return;
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} else if (CondBOp->getOpcode() == BinaryOperator::LOr) {
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// If we have "0 || X", simplify the code. "1 || X" would have constant
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// folded if the case was simple enough.
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if (ConstantFoldsToSimpleInteger(CondBOp->getLHS()) == -1) {
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// br(0 || X) -> br(X).
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return EmitBranchOnBoolExpr(CondBOp->getRHS(), TrueBlock, FalseBlock);
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}
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// If we have "X || 0", simplify the code to use an uncond branch.
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// "X || 1" would have been constant folded to 1.
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if (ConstantFoldsToSimpleInteger(CondBOp->getRHS()) == -1) {
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// br(X || 0) -> br(X).
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return EmitBranchOnBoolExpr(CondBOp->getLHS(), TrueBlock, FalseBlock);
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}
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// Emit the LHS as a conditional. If the LHS conditional is true, we
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// want to jump to the TrueBlock.
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llvm::BasicBlock *LHSFalse = createBasicBlock("lor.lhs.false");
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EmitBranchOnBoolExpr(CondBOp->getLHS(), TrueBlock, LHSFalse);
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EmitBlock(LHSFalse);
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EmitBranchOnBoolExpr(CondBOp->getRHS(), TrueBlock, FalseBlock);
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return;
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}
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}
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if (const UnaryOperator *CondUOp = dyn_cast<UnaryOperator>(Cond)) {
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// br(!x, t, f) -> br(x, f, t)
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if (CondUOp->getOpcode() == UnaryOperator::LNot)
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return EmitBranchOnBoolExpr(CondUOp->getSubExpr(), FalseBlock, TrueBlock);
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}
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if (const ConditionalOperator *CondOp = dyn_cast<ConditionalOperator>(Cond)) {
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// Handle ?: operator.
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// Just ignore GNU ?: extension.
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if (CondOp->getLHS()) {
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// br(c ? x : y, t, f) -> br(c, br(x, t, f), br(y, t, f))
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llvm::BasicBlock *LHSBlock = createBasicBlock("cond.true");
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llvm::BasicBlock *RHSBlock = createBasicBlock("cond.false");
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EmitBranchOnBoolExpr(CondOp->getCond(), LHSBlock, RHSBlock);
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EmitBlock(LHSBlock);
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EmitBranchOnBoolExpr(CondOp->getLHS(), TrueBlock, FalseBlock);
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EmitBlock(RHSBlock);
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EmitBranchOnBoolExpr(CondOp->getRHS(), TrueBlock, FalseBlock);
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return;
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}
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}
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// Emit the code with the fully general case.
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llvm::Value *CondV = EvaluateExprAsBool(Cond);
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Builder.CreateCondBr(CondV, TrueBlock, FalseBlock);
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}
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/// getCGRecordLayout - Return record layout info.
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const CGRecordLayout *CodeGenFunction::getCGRecordLayout(CodeGenTypes &CGT,
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QualType Ty) {
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const RecordType *RTy = Ty->getAsRecordType();
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assert (RTy && "Unexpected type. RecordType expected here.");
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return CGT.getCGRecordLayout(RTy->getDecl());
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}
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/// ErrorUnsupported - Print out an error that codegen doesn't support the
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/// specified stmt yet.
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void CodeGenFunction::ErrorUnsupported(const Stmt *S, const char *Type,
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bool OmitOnError) {
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CGM.ErrorUnsupported(S, Type, OmitOnError);
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}
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unsigned CodeGenFunction::GetIDForAddrOfLabel(const LabelStmt *L) {
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// Use LabelIDs.size() as the new ID if one hasn't been assigned.
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return LabelIDs.insert(std::make_pair(L, LabelIDs.size())).first->second;
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}
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void CodeGenFunction::EmitMemSetToZero(llvm::Value *DestPtr, QualType Ty)
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{
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const llvm::Type *BP = llvm::PointerType::getUnqual(llvm::Type::Int8Ty);
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if (DestPtr->getType() != BP)
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DestPtr = Builder.CreateBitCast(DestPtr, BP, "tmp");
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// Get size and alignment info for this aggregate.
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std::pair<uint64_t, unsigned> TypeInfo = getContext().getTypeInfo(Ty);
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// FIXME: Handle variable sized types.
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const llvm::Type *IntPtr = llvm::IntegerType::get(LLVMPointerWidth);
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Builder.CreateCall4(CGM.getMemSetFn(), DestPtr,
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llvm::ConstantInt::getNullValue(llvm::Type::Int8Ty),
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// TypeInfo.first describes size in bits.
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llvm::ConstantInt::get(IntPtr, TypeInfo.first/8),
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llvm::ConstantInt::get(llvm::Type::Int32Ty,
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TypeInfo.second/8));
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}
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void CodeGenFunction::EmitIndirectSwitches() {
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llvm::BasicBlock *Default;
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if (IndirectSwitches.empty())
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return;
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if (!LabelIDs.empty()) {
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Default = getBasicBlockForLabel(LabelIDs.begin()->first);
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} else {
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// No possible targets for indirect goto, just emit an infinite
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// loop.
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Default = createBasicBlock("indirectgoto.loop", CurFn);
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llvm::BranchInst::Create(Default, Default);
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}
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for (std::vector<llvm::SwitchInst*>::iterator i = IndirectSwitches.begin(),
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e = IndirectSwitches.end(); i != e; ++i) {
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llvm::SwitchInst *I = *i;
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I->setSuccessor(0, Default);
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for (std::map<const LabelStmt*,unsigned>::iterator LI = LabelIDs.begin(),
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LE = LabelIDs.end(); LI != LE; ++LI) {
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I->addCase(llvm::ConstantInt::get(llvm::Type::Int32Ty,
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LI->second),
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getBasicBlockForLabel(LI->first));
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}
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}
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}
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llvm::Value *CodeGenFunction::GetVLASize(const VariableArrayType *VAT)
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{
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llvm::Value *&SizeEntry = VLASizeMap[VAT];
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assert(SizeEntry && "Did not emit size for type");
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return SizeEntry;
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}
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llvm::Value *CodeGenFunction::EmitVLASize(QualType Ty)
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{
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assert(Ty->isVariablyModifiedType() &&
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"Must pass variably modified type to EmitVLASizes!");
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if (const VariableArrayType *VAT = getContext().getAsVariableArrayType(Ty)) {
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llvm::Value *&SizeEntry = VLASizeMap[VAT];
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if (!SizeEntry) {
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// Get the element size;
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llvm::Value *ElemSize;
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QualType ElemTy = VAT->getElementType();
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const llvm::Type *SizeTy = ConvertType(getContext().getSizeType());
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if (ElemTy->isVariableArrayType())
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ElemSize = EmitVLASize(ElemTy);
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else {
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ElemSize = llvm::ConstantInt::get(SizeTy,
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getContext().getTypeSize(ElemTy) / 8);
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}
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llvm::Value *NumElements = EmitScalarExpr(VAT->getSizeExpr());
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NumElements = Builder.CreateIntCast(NumElements, SizeTy, false, "tmp");
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SizeEntry = Builder.CreateMul(ElemSize, NumElements);
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|
}
|
|
|
|
return SizeEntry;
|
|
} else if (const PointerType *PT = Ty->getAsPointerType())
|
|
EmitVLASize(PT->getPointeeType());
|
|
else {
|
|
assert(0 && "unknown VM type!");
|
|
}
|
|
|
|
return 0;
|
|
}
|
|
|
|
llvm::Value* CodeGenFunction::EmitVAListRef(const Expr* E) {
|
|
if (CGM.getContext().getBuiltinVaListType()->isArrayType()) {
|
|
return EmitScalarExpr(E);
|
|
}
|
|
return EmitLValue(E).getAddress();
|
|
}
|
|
|
|
void CodeGenFunction::PushCleanupBlock(llvm::BasicBlock *CleanupBlock)
|
|
{
|
|
CleanupEntries.push_back(CleanupEntry(CleanupBlock));
|
|
}
|
|
|
|
void CodeGenFunction::EmitCleanupBlocks(size_t OldCleanupStackSize)
|
|
{
|
|
assert(CleanupEntries.size() >= OldCleanupStackSize &&
|
|
"Cleanup stack mismatch!");
|
|
|
|
while (CleanupEntries.size() > OldCleanupStackSize)
|
|
EmitCleanupBlock();
|
|
}
|
|
|
|
CodeGenFunction::CleanupBlockInfo CodeGenFunction::PopCleanupBlock()
|
|
{
|
|
CleanupEntry &CE = CleanupEntries.back();
|
|
|
|
llvm::BasicBlock *CleanupBlock = CE.CleanupBlock;
|
|
|
|
std::vector<llvm::BasicBlock *> Blocks;
|
|
std::swap(Blocks, CE.Blocks);
|
|
|
|
std::vector<llvm::BranchInst *> BranchFixups;
|
|
std::swap(BranchFixups, CE.BranchFixups);
|
|
|
|
CleanupEntries.pop_back();
|
|
|
|
// Check if any branch fixups pointed to the scope we just popped. If so,
|
|
// we can remove them.
|
|
for (size_t i = 0, e = BranchFixups.size(); i != e; ++i) {
|
|
llvm::BasicBlock *Dest = BranchFixups[i]->getSuccessor(0);
|
|
BlockScopeMap::iterator I = BlockScopes.find(Dest);
|
|
|
|
if (I == BlockScopes.end())
|
|
continue;
|
|
|
|
assert(I->second <= CleanupEntries.size() && "Invalid branch fixup!");
|
|
|
|
if (I->second == CleanupEntries.size()) {
|
|
// We don't need to do this branch fixup.
|
|
BranchFixups[i] = BranchFixups.back();
|
|
BranchFixups.pop_back();
|
|
i--;
|
|
e--;
|
|
continue;
|
|
}
|
|
}
|
|
|
|
llvm::BasicBlock *SwitchBlock = 0;
|
|
llvm::BasicBlock *EndBlock = 0;
|
|
if (!BranchFixups.empty()) {
|
|
SwitchBlock = createBasicBlock("cleanup.switch");
|
|
EndBlock = createBasicBlock("cleanup.end");
|
|
|
|
llvm::BasicBlock *CurBB = Builder.GetInsertBlock();
|
|
|
|
Builder.SetInsertPoint(SwitchBlock);
|
|
|
|
llvm::Value *DestCodePtr = CreateTempAlloca(llvm::Type::Int32Ty,
|
|
"cleanup.dst");
|
|
llvm::Value *DestCode = Builder.CreateLoad(DestCodePtr, "tmp");
|
|
|
|
// Create a switch instruction to determine where to jump next.
|
|
llvm::SwitchInst *SI = Builder.CreateSwitch(DestCode, EndBlock,
|
|
BranchFixups.size());
|
|
|
|
// Restore the current basic block (if any)
|
|
if (CurBB) {
|
|
Builder.SetInsertPoint(CurBB);
|
|
|
|
// If we had a current basic block, we also need to emit an instruction
|
|
// to initialize the cleanup destination.
|
|
Builder.CreateStore(llvm::Constant::getNullValue(llvm::Type::Int32Ty),
|
|
DestCodePtr);
|
|
} else
|
|
Builder.ClearInsertionPoint();
|
|
|
|
for (size_t i = 0, e = BranchFixups.size(); i != e; ++i) {
|
|
llvm::BranchInst *BI = BranchFixups[i];
|
|
llvm::BasicBlock *Dest = BI->getSuccessor(0);
|
|
|
|
// Fixup the branch instruction to point to the cleanup block.
|
|
BI->setSuccessor(0, CleanupBlock);
|
|
|
|
if (CleanupEntries.empty()) {
|
|
llvm::ConstantInt *ID;
|
|
|
|
// Check if we already have a destination for this block.
|
|
if (Dest == SI->getDefaultDest())
|
|
ID = llvm::ConstantInt::get(llvm::Type::Int32Ty, 0);
|
|
else {
|
|
ID = SI->findCaseDest(Dest);
|
|
if (!ID) {
|
|
// No code found, get a new unique one by using the number of
|
|
// switch successors.
|
|
ID = llvm::ConstantInt::get(llvm::Type::Int32Ty,
|
|
SI->getNumSuccessors());
|
|
SI->addCase(ID, Dest);
|
|
}
|
|
}
|
|
|
|
// Store the jump destination before the branch instruction.
|
|
new llvm::StoreInst(ID, DestCodePtr, BI);
|
|
} else {
|
|
// We need to jump through another cleanup block. Create a pad block
|
|
// with a branch instruction that jumps to the final destination and
|
|
// add it as a branch fixup to the current cleanup scope.
|
|
|
|
// Create the pad block.
|
|
llvm::BasicBlock *CleanupPad = createBasicBlock("cleanup.pad", CurFn);
|
|
|
|
// Create a unique case ID.
|
|
llvm::ConstantInt *ID = llvm::ConstantInt::get(llvm::Type::Int32Ty,
|
|
SI->getNumSuccessors());
|
|
|
|
// Store the jump destination before the branch instruction.
|
|
new llvm::StoreInst(ID, DestCodePtr, BI);
|
|
|
|
// Add it as the destination.
|
|
SI->addCase(ID, CleanupPad);
|
|
|
|
// Create the branch to the final destination.
|
|
llvm::BranchInst *BI = llvm::BranchInst::Create(Dest);
|
|
CleanupPad->getInstList().push_back(BI);
|
|
|
|
// And add it as a branch fixup.
|
|
CleanupEntries.back().BranchFixups.push_back(BI);
|
|
}
|
|
}
|
|
}
|
|
|
|
// Remove all blocks from the block scope map.
|
|
for (size_t i = 0, e = Blocks.size(); i != e; ++i) {
|
|
assert(BlockScopes.count(Blocks[i]) &&
|
|
"Did not find block in scope map!");
|
|
|
|
BlockScopes.erase(Blocks[i]);
|
|
}
|
|
|
|
return CleanupBlockInfo(CleanupBlock, SwitchBlock, EndBlock);
|
|
}
|
|
|
|
void CodeGenFunction::EmitCleanupBlock()
|
|
{
|
|
CleanupBlockInfo Info = PopCleanupBlock();
|
|
|
|
EmitBlock(Info.CleanupBlock);
|
|
|
|
if (Info.SwitchBlock)
|
|
EmitBlock(Info.SwitchBlock);
|
|
if (Info.EndBlock)
|
|
EmitBlock(Info.EndBlock);
|
|
}
|
|
|
|
void CodeGenFunction::AddBranchFixup(llvm::BranchInst *BI)
|
|
{
|
|
assert(!CleanupEntries.empty() &&
|
|
"Trying to add branch fixup without cleanup block!");
|
|
|
|
// FIXME: We could be more clever here and check if there's already a
|
|
// branch fixup for this destination and recycle it.
|
|
CleanupEntries.back().BranchFixups.push_back(BI);
|
|
}
|
|
|
|
void CodeGenFunction::EmitBranchThroughCleanup(llvm::BasicBlock *Dest)
|
|
{
|
|
if (!HaveInsertPoint())
|
|
return;
|
|
|
|
llvm::BranchInst* BI = Builder.CreateBr(Dest);
|
|
|
|
Builder.ClearInsertionPoint();
|
|
|
|
// The stack is empty, no need to do any cleanup.
|
|
if (CleanupEntries.empty())
|
|
return;
|
|
|
|
if (!Dest->getParent()) {
|
|
// We are trying to branch to a block that hasn't been inserted yet.
|
|
AddBranchFixup(BI);
|
|
return;
|
|
}
|
|
|
|
BlockScopeMap::iterator I = BlockScopes.find(Dest);
|
|
if (I == BlockScopes.end()) {
|
|
// We are trying to jump to a block that is outside of any cleanup scope.
|
|
AddBranchFixup(BI);
|
|
return;
|
|
}
|
|
|
|
assert(I->second < CleanupEntries.size() &&
|
|
"Trying to branch into cleanup region");
|
|
|
|
if (I->second == CleanupEntries.size() - 1) {
|
|
// We have a branch to a block in the same scope.
|
|
return;
|
|
}
|
|
|
|
AddBranchFixup(BI);
|
|
}
|