408 lines
13 KiB
C++
408 lines
13 KiB
C++
//===-- AMDGPUPromoteAlloca.cpp - Promote Allocas -------------------------===//
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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 pass eliminates allocas by either converting them into vectors or
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// by migrating them to local address space.
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//
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//===----------------------------------------------------------------------===//
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#include "AMDGPU.h"
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#include "AMDGPUSubtarget.h"
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#include "llvm/Analysis/ValueTracking.h"
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#include "llvm/IR/IRBuilder.h"
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#include "llvm/IR/InstVisitor.h"
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#include "llvm/Support/Debug.h"
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#include "llvm/Support/raw_ostream.h"
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#define DEBUG_TYPE "amdgpu-promote-alloca"
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using namespace llvm;
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namespace {
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class AMDGPUPromoteAlloca : public FunctionPass,
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public InstVisitor<AMDGPUPromoteAlloca> {
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static char ID;
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Module *Mod;
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const AMDGPUSubtarget &ST;
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int LocalMemAvailable;
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public:
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AMDGPUPromoteAlloca(const AMDGPUSubtarget &st) : FunctionPass(ID), ST(st),
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LocalMemAvailable(0) { }
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bool doInitialization(Module &M) override;
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bool runOnFunction(Function &F) override;
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const char *getPassName() const override { return "AMDGPU Promote Alloca"; }
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void visitAlloca(AllocaInst &I);
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};
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} // End anonymous namespace
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char AMDGPUPromoteAlloca::ID = 0;
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bool AMDGPUPromoteAlloca::doInitialization(Module &M) {
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Mod = &M;
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return false;
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}
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bool AMDGPUPromoteAlloca::runOnFunction(Function &F) {
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const FunctionType *FTy = F.getFunctionType();
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LocalMemAvailable = ST.getLocalMemorySize();
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// If the function has any arguments in the local address space, then it's
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// possible these arguments require the entire local memory space, so
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// we cannot use local memory in the pass.
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for (unsigned i = 0, e = FTy->getNumParams(); i != e; ++i) {
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const Type *ParamTy = FTy->getParamType(i);
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if (ParamTy->isPointerTy() &&
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ParamTy->getPointerAddressSpace() == AMDGPUAS::LOCAL_ADDRESS) {
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LocalMemAvailable = 0;
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DEBUG(dbgs() << "Function has local memory argument. Promoting to "
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"local memory disabled.\n");
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break;
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}
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}
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if (LocalMemAvailable > 0) {
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// Check how much local memory is being used by global objects
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for (Module::global_iterator I = Mod->global_begin(),
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E = Mod->global_end(); I != E; ++I) {
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GlobalVariable *GV = I;
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PointerType *GVTy = GV->getType();
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if (GVTy->getAddressSpace() != AMDGPUAS::LOCAL_ADDRESS)
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continue;
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for (Value::use_iterator U = GV->use_begin(),
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UE = GV->use_end(); U != UE; ++U) {
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Instruction *Use = dyn_cast<Instruction>(*U);
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if (!Use)
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continue;
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if (Use->getParent()->getParent() == &F)
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LocalMemAvailable -=
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Mod->getDataLayout().getTypeAllocSize(GVTy->getElementType());
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}
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}
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}
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LocalMemAvailable = std::max(0, LocalMemAvailable);
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DEBUG(dbgs() << LocalMemAvailable << "bytes free in local memory.\n");
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visit(F);
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return false;
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}
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static VectorType *arrayTypeToVecType(const Type *ArrayTy) {
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return VectorType::get(ArrayTy->getArrayElementType(),
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ArrayTy->getArrayNumElements());
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}
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static Value *
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calculateVectorIndex(Value *Ptr,
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const std::map<GetElementPtrInst *, Value *> &GEPIdx) {
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if (isa<AllocaInst>(Ptr))
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return Constant::getNullValue(Type::getInt32Ty(Ptr->getContext()));
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GetElementPtrInst *GEP = cast<GetElementPtrInst>(Ptr);
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auto I = GEPIdx.find(GEP);
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return I == GEPIdx.end() ? nullptr : I->second;
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}
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static Value* GEPToVectorIndex(GetElementPtrInst *GEP) {
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// FIXME we only support simple cases
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if (GEP->getNumOperands() != 3)
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return NULL;
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ConstantInt *I0 = dyn_cast<ConstantInt>(GEP->getOperand(1));
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if (!I0 || !I0->isZero())
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return NULL;
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return GEP->getOperand(2);
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}
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// Not an instruction handled below to turn into a vector.
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//
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// TODO: Check isTriviallyVectorizable for calls and handle other
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// instructions.
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static bool canVectorizeInst(Instruction *Inst) {
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switch (Inst->getOpcode()) {
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case Instruction::Load:
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case Instruction::Store:
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case Instruction::BitCast:
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case Instruction::AddrSpaceCast:
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return true;
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default:
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return false;
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}
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}
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static bool tryPromoteAllocaToVector(AllocaInst *Alloca) {
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Type *AllocaTy = Alloca->getAllocatedType();
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DEBUG(dbgs() << "Alloca Candidate for vectorization \n");
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// FIXME: There is no reason why we can't support larger arrays, we
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// are just being conservative for now.
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if (!AllocaTy->isArrayTy() ||
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AllocaTy->getArrayElementType()->isVectorTy() ||
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AllocaTy->getArrayNumElements() > 4) {
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DEBUG(dbgs() << " Cannot convert type to vector");
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return false;
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}
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std::map<GetElementPtrInst*, Value*> GEPVectorIdx;
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std::vector<Value*> WorkList;
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for (User *AllocaUser : Alloca->users()) {
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GetElementPtrInst *GEP = dyn_cast<GetElementPtrInst>(AllocaUser);
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if (!GEP) {
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if (!canVectorizeInst(cast<Instruction>(AllocaUser)))
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return false;
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WorkList.push_back(AllocaUser);
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continue;
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}
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Value *Index = GEPToVectorIndex(GEP);
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// If we can't compute a vector index from this GEP, then we can't
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// promote this alloca to vector.
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if (!Index) {
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DEBUG(dbgs() << " Cannot compute vector index for GEP " << *GEP << '\n');
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return false;
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}
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GEPVectorIdx[GEP] = Index;
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for (User *GEPUser : AllocaUser->users()) {
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if (!canVectorizeInst(cast<Instruction>(GEPUser)))
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return false;
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WorkList.push_back(GEPUser);
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}
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}
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VectorType *VectorTy = arrayTypeToVecType(AllocaTy);
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DEBUG(dbgs() << " Converting alloca to vector "
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<< *AllocaTy << " -> " << *VectorTy << '\n');
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for (std::vector<Value*>::iterator I = WorkList.begin(),
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E = WorkList.end(); I != E; ++I) {
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Instruction *Inst = cast<Instruction>(*I);
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IRBuilder<> Builder(Inst);
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switch (Inst->getOpcode()) {
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case Instruction::Load: {
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Value *Ptr = Inst->getOperand(0);
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Value *Index = calculateVectorIndex(Ptr, GEPVectorIdx);
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Value *BitCast = Builder.CreateBitCast(Alloca, VectorTy->getPointerTo(0));
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Value *VecValue = Builder.CreateLoad(BitCast);
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Value *ExtractElement = Builder.CreateExtractElement(VecValue, Index);
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Inst->replaceAllUsesWith(ExtractElement);
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Inst->eraseFromParent();
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break;
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}
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case Instruction::Store: {
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Value *Ptr = Inst->getOperand(1);
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Value *Index = calculateVectorIndex(Ptr, GEPVectorIdx);
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Value *BitCast = Builder.CreateBitCast(Alloca, VectorTy->getPointerTo(0));
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Value *VecValue = Builder.CreateLoad(BitCast);
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Value *NewVecValue = Builder.CreateInsertElement(VecValue,
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Inst->getOperand(0),
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Index);
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Builder.CreateStore(NewVecValue, BitCast);
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Inst->eraseFromParent();
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break;
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}
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case Instruction::BitCast:
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case Instruction::AddrSpaceCast:
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break;
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default:
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Inst->dump();
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llvm_unreachable("Inconsistency in instructions promotable to vector");
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}
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}
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return true;
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}
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static bool collectUsesWithPtrTypes(Value *Val, std::vector<Value*> &WorkList) {
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bool Success = true;
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for (User *User : Val->users()) {
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if(std::find(WorkList.begin(), WorkList.end(), User) != WorkList.end())
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continue;
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if (isa<CallInst>(User)) {
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WorkList.push_back(User);
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continue;
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}
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// FIXME: Correctly handle ptrtoint instructions.
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Instruction *UseInst = dyn_cast<Instruction>(User);
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if (UseInst && UseInst->getOpcode() == Instruction::PtrToInt)
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return false;
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if (!User->getType()->isPointerTy())
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continue;
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WorkList.push_back(User);
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Success &= collectUsesWithPtrTypes(User, WorkList);
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}
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return Success;
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}
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void AMDGPUPromoteAlloca::visitAlloca(AllocaInst &I) {
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IRBuilder<> Builder(&I);
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// First try to replace the alloca with a vector
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Type *AllocaTy = I.getAllocatedType();
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DEBUG(dbgs() << "Trying to promote " << I << '\n');
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if (tryPromoteAllocaToVector(&I))
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return;
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DEBUG(dbgs() << " alloca is not a candidate for vectorization.\n");
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// FIXME: This is the maximum work group size. We should try to get
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// value from the reqd_work_group_size function attribute if it is
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// available.
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unsigned WorkGroupSize = 256;
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int AllocaSize =
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WorkGroupSize * Mod->getDataLayout().getTypeAllocSize(AllocaTy);
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if (AllocaSize > LocalMemAvailable) {
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DEBUG(dbgs() << " Not enough local memory to promote alloca.\n");
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return;
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}
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std::vector<Value*> WorkList;
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if (!collectUsesWithPtrTypes(&I, WorkList)) {
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DEBUG(dbgs() << " Do not know how to convert all uses\n");
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return;
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}
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DEBUG(dbgs() << "Promoting alloca to local memory\n");
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LocalMemAvailable -= AllocaSize;
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Type *GVTy = ArrayType::get(I.getAllocatedType(), 256);
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GlobalVariable *GV = new GlobalVariable(
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*Mod, GVTy, false, GlobalValue::ExternalLinkage, 0, I.getName(), 0,
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GlobalVariable::NotThreadLocal, AMDGPUAS::LOCAL_ADDRESS);
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FunctionType *FTy = FunctionType::get(
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Type::getInt32Ty(Mod->getContext()), false);
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AttributeSet AttrSet;
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AttrSet.addAttribute(Mod->getContext(), 0, Attribute::ReadNone);
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Value *ReadLocalSizeY = Mod->getOrInsertFunction(
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"llvm.r600.read.local.size.y", FTy, AttrSet);
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Value *ReadLocalSizeZ = Mod->getOrInsertFunction(
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"llvm.r600.read.local.size.z", FTy, AttrSet);
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Value *ReadTIDIGX = Mod->getOrInsertFunction(
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"llvm.r600.read.tidig.x", FTy, AttrSet);
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Value *ReadTIDIGY = Mod->getOrInsertFunction(
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"llvm.r600.read.tidig.y", FTy, AttrSet);
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Value *ReadTIDIGZ = Mod->getOrInsertFunction(
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"llvm.r600.read.tidig.z", FTy, AttrSet);
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Value *TCntY = Builder.CreateCall(ReadLocalSizeY, {});
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Value *TCntZ = Builder.CreateCall(ReadLocalSizeZ, {});
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Value *TIdX = Builder.CreateCall(ReadTIDIGX, {});
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Value *TIdY = Builder.CreateCall(ReadTIDIGY, {});
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Value *TIdZ = Builder.CreateCall(ReadTIDIGZ, {});
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Value *Tmp0 = Builder.CreateMul(TCntY, TCntZ);
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Tmp0 = Builder.CreateMul(Tmp0, TIdX);
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Value *Tmp1 = Builder.CreateMul(TIdY, TCntZ);
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Value *TID = Builder.CreateAdd(Tmp0, Tmp1);
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TID = Builder.CreateAdd(TID, TIdZ);
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std::vector<Value*> Indices;
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Indices.push_back(Constant::getNullValue(Type::getInt32Ty(Mod->getContext())));
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Indices.push_back(TID);
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Value *Offset = Builder.CreateGEP(GVTy, GV, Indices);
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I.mutateType(Offset->getType());
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I.replaceAllUsesWith(Offset);
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I.eraseFromParent();
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for (std::vector<Value*>::iterator i = WorkList.begin(),
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e = WorkList.end(); i != e; ++i) {
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Value *V = *i;
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CallInst *Call = dyn_cast<CallInst>(V);
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if (!Call) {
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Type *EltTy = V->getType()->getPointerElementType();
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PointerType *NewTy = PointerType::get(EltTy, AMDGPUAS::LOCAL_ADDRESS);
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// The operand's value should be corrected on its own.
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if (isa<AddrSpaceCastInst>(V))
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continue;
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// FIXME: It doesn't really make sense to try to do this for all
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// instructions.
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V->mutateType(NewTy);
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continue;
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}
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IntrinsicInst *Intr = dyn_cast<IntrinsicInst>(Call);
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if (!Intr) {
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std::vector<Type*> ArgTypes;
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for (unsigned ArgIdx = 0, ArgEnd = Call->getNumArgOperands();
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ArgIdx != ArgEnd; ++ArgIdx) {
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ArgTypes.push_back(Call->getArgOperand(ArgIdx)->getType());
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}
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Function *F = Call->getCalledFunction();
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FunctionType *NewType = FunctionType::get(Call->getType(), ArgTypes,
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F->isVarArg());
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Constant *C = Mod->getOrInsertFunction((F->getName() + ".local").str(),
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NewType, F->getAttributes());
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Function *NewF = cast<Function>(C);
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Call->setCalledFunction(NewF);
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continue;
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}
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Builder.SetInsertPoint(Intr);
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switch (Intr->getIntrinsicID()) {
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case Intrinsic::lifetime_start:
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case Intrinsic::lifetime_end:
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// These intrinsics are for address space 0 only
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Intr->eraseFromParent();
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continue;
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case Intrinsic::memcpy: {
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MemCpyInst *MemCpy = cast<MemCpyInst>(Intr);
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Builder.CreateMemCpy(MemCpy->getRawDest(), MemCpy->getRawSource(),
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MemCpy->getLength(), MemCpy->getAlignment(),
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MemCpy->isVolatile());
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Intr->eraseFromParent();
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continue;
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}
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case Intrinsic::memset: {
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MemSetInst *MemSet = cast<MemSetInst>(Intr);
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Builder.CreateMemSet(MemSet->getRawDest(), MemSet->getValue(),
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MemSet->getLength(), MemSet->getAlignment(),
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MemSet->isVolatile());
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Intr->eraseFromParent();
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continue;
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}
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default:
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Intr->dump();
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llvm_unreachable("Don't know how to promote alloca intrinsic use.");
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}
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}
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}
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FunctionPass *llvm::createAMDGPUPromoteAlloca(const AMDGPUSubtarget &ST) {
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return new AMDGPUPromoteAlloca(ST);
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}
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