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ReplaceOpenCLBuiltinPass.cpp
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ReplaceOpenCLBuiltinPass.cpp
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// Copyright 2017 The Clspv Authors. All rights reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#include <math.h>
#include <string>
#include <tuple>
#include "llvm/ADT/StringSwitch.h"
#include "llvm/IR/Constants.h"
#include "llvm/IR/IRBuilder.h"
#include "llvm/IR/Instructions.h"
#include "llvm/IR/Module.h"
#include "llvm/IR/Operator.h"
#include "llvm/IR/ValueSymbolTable.h"
#include "llvm/Pass.h"
#include "llvm/Support/CommandLine.h"
#include "llvm/Support/raw_ostream.h"
#include "llvm/Transforms/Utils/BasicBlockUtils.h"
#include "llvm/Transforms/Utils/Cloning.h"
#include "BuiltinsEnum.h"
#include "spirv/unified1/spirv.hpp"
#include "clspv/AddressSpace.h"
#include "clspv/Option.h"
#include "clspv/Sampler.h"
#include "Builtins.h"
#include "Constants.h"
#include "MemFence.h"
#include "ReplaceOpenCLBuiltinPass.h"
#include "SPIRVOp.h"
#include "SamplerUtils.h"
#include "Types.h"
using namespace clspv;
using namespace llvm;
std::set<Builtins::BuiltinType> ReplaceOpenCLBuiltinPass::ReplaceableBuiltins =
{Builtins::kAbs,
Builtins::kAbsDiff,
Builtins::kAddSat,
Builtins::kClz,
Builtins::kCtz,
Builtins::kHadd,
Builtins::kRhadd,
Builtins::kCopysign,
Builtins::kNativeRecip,
Builtins::kDot,
Builtins::kExp10,
Builtins::kHalfExp10,
Builtins::kNativeExp10,
Builtins::kExpm1,
Builtins::kLog10,
Builtins::kHalfLog10,
Builtins::kNativeLog10,
Builtins::kLog1p,
Builtins::kFdim,
Builtins::kFmod,
Builtins::kPown,
Builtins::kRound,
Builtins::kCospi,
Builtins::kSinpi,
Builtins::kTanpi,
Builtins::kSincos,
Builtins::kBarrier,
Builtins::kWorkGroupBarrier,
Builtins::kSubGroupBarrier,
Builtins::kAtomicWorkItemFence,
Builtins::kGetFence,
Builtins::kMemFence,
Builtins::kReadMemFence,
Builtins::kWriteMemFence,
Builtins::kToGlobal,
Builtins::kToLocal,
Builtins::kToPrivate,
Builtins::kIsequal,
Builtins::kIsgreater,
Builtins::kIsgreaterequal,
Builtins::kIsless,
Builtins::kIslessequal,
Builtins::kIsnotequal,
Builtins::kIslessgreater,
Builtins::kIsordered,
Builtins::kIsunordered,
Builtins::kIsinf,
Builtins::kIsnan,
Builtins::kIsfinite,
Builtins::kAll,
Builtins::kAny,
Builtins::kIsnormal,
Builtins::kUpsample,
Builtins::kRotate,
Builtins::kConvert,
Builtins::kAtomicLoad,
Builtins::kAtomicLoadExplicit,
Builtins::kAtomicInit,
Builtins::kAtomicStore,
Builtins::kAtomicStoreExplicit,
Builtins::kAtomicExchange,
Builtins::kAtomicExchangeExplicit,
Builtins::kAtomicFetchAdd,
Builtins::kAtomicFetchAddExplicit,
Builtins::kAtomicFetchSub,
Builtins::kAtomicFetchSubExplicit,
Builtins::kAtomicFetchOr,
Builtins::kAtomicFetchOrExplicit,
Builtins::kAtomicFetchXor,
Builtins::kAtomicFetchXorExplicit,
Builtins::kAtomicFetchAnd,
Builtins::kAtomicFetchAndExplicit,
Builtins::kAtomicFetchMin,
Builtins::kAtomicFetchMinExplicit,
Builtins::kAtomicFetchMax,
Builtins::kAtomicFetchMaxExplicit,
Builtins::kAtomicFlagTestAndSet,
Builtins::kAtomicFlagTestAndSetExplicit,
Builtins::kAtomicFlagClear,
Builtins::kAtomicFlagClearExplicit,
Builtins::kAtomicCompareExchangeWeak,
Builtins::kAtomicCompareExchangeWeakExplicit,
Builtins::kAtomicCompareExchangeStrong,
Builtins::kAtomicCompareExchangeStrongExplicit,
Builtins::kAtomicInc,
Builtins::kAtomicDec,
Builtins::kAtomicCmpxchg,
Builtins::kAtomicAdd,
Builtins::kAtomicSub,
Builtins::kAtomicXchg,
Builtins::kAtomicMin,
Builtins::kAtomicMax,
Builtins::kAtomicAnd,
Builtins::kAtomicOr,
Builtins::kAtomicXor,
Builtins::kCross,
Builtins::kFract,
Builtins::kMadHi,
Builtins::kMulHi,
Builtins::kMadSat,
Builtins::kMad,
Builtins::kMad24,
Builtins::kMul24,
Builtins::kSelect,
Builtins::kBitselect,
Builtins::kVload,
Builtins::kVloadaHalf,
Builtins::kVloadHalf,
Builtins::kVstore,
Builtins::kVstoreaHalf,
Builtins::kVstoreHalf,
Builtins::kSmoothstep,
Builtins::kStep,
Builtins::kSignbit,
Builtins::kSubSat,
Builtins::kReadImageh,
Builtins::kReadImagef,
Builtins::kReadImagei,
Builtins::kReadImageui,
Builtins::kWriteImageh,
Builtins::kPrefetch,
Builtins::kAsyncWorkGroupCopy,
Builtins::kAsyncWorkGroupStridedCopy,
Builtins::kWaitGroupEvents};
namespace {
enum class AtomicMemoryOrder : uint32_t {
kMemoryOrderRelaxed = 0,
kMemoryOrderConsume = 1, // not supported
kMemoryOrderAcquire = 2,
kMemoryOrderRelease = 3,
kMemoryOrderAcqRel = 4,
kMemoryOrderSeqCst = 5
};
enum class AtomicMemoryScope : uint32_t {
kMemoryScopeWorkItem = 0,
kMemoryScopeWorkGroup = 1,
kMemoryScopeDevice = 2,
kMemoryScopeAllSVMDevices = 3, // not supported
kMemoryScopeSubGroup = 4
};
uint32_t clz(uint32_t v) {
uint32_t r;
uint32_t shift;
r = (v > 0xFFFF) << 4;
v >>= r;
shift = (v > 0xFF) << 3;
v >>= shift;
r |= shift;
shift = (v > 0xF) << 2;
v >>= shift;
r |= shift;
shift = (v > 0x3) << 1;
v >>= shift;
r |= shift;
r |= (v >> 1);
return r;
}
Type *getIntOrIntVectorTyForCast(LLVMContext &C, Type *Ty) {
Type *IntTy = Type::getIntNTy(C, Ty->getScalarSizeInBits());
if (auto vec_ty = dyn_cast<VectorType>(Ty)) {
IntTy = FixedVectorType::get(IntTy,
vec_ty->getElementCount().getKnownMinValue());
}
return IntTy;
}
Value *MemoryOrderSemantics(Value *order, bool is_global,
Instruction *InsertBefore,
spv::MemorySemanticsMask base_semantics,
bool include_storage = true) {
IRBuilder<> builder(InsertBefore);
// Constants for OpenCL C 2.0 memory_order.
const auto relaxed = builder.getInt32(
static_cast<uint32_t>(AtomicMemoryOrder::kMemoryOrderRelaxed));
const auto acquire = builder.getInt32(
static_cast<uint32_t>(AtomicMemoryOrder::kMemoryOrderAcquire));
const auto release = builder.getInt32(
static_cast<uint32_t>(AtomicMemoryOrder::kMemoryOrderRelease));
const auto acq_rel = builder.getInt32(
static_cast<uint32_t>(AtomicMemoryOrder::kMemoryOrderAcqRel));
// Constants for SPIR-V ordering memory semantics.
const auto RelaxedSemantics = builder.getInt32(spv::MemorySemanticsMaskNone);
const auto AcquireSemantics =
builder.getInt32(spv::MemorySemanticsAcquireMask);
const auto ReleaseSemantics =
builder.getInt32(spv::MemorySemanticsReleaseMask);
const auto AcqRelSemantics =
builder.getInt32(spv::MemorySemanticsAcquireReleaseMask);
// Constants for SPIR-V storage class semantics.
const auto UniformSemantics =
builder.getInt32(spv::MemorySemanticsUniformMemoryMask);
const auto WorkgroupSemantics =
builder.getInt32(spv::MemorySemanticsWorkgroupMemoryMask);
// Instead of sequentially consistent, use acquire, release or acquire
// release semantics.
Value *base_order = nullptr;
switch (base_semantics) {
case spv::MemorySemanticsAcquireMask:
base_order = AcquireSemantics;
break;
case spv::MemorySemanticsReleaseMask:
base_order = ReleaseSemantics;
break;
default:
base_order = AcqRelSemantics;
break;
}
Value *storage = is_global ? UniformSemantics : WorkgroupSemantics;
if (order == nullptr) {
if (include_storage)
return builder.CreateOr({storage, base_order});
else
return base_order;
}
auto is_relaxed = builder.CreateICmpEQ(order, relaxed);
auto is_acquire = builder.CreateICmpEQ(order, acquire);
auto is_release = builder.CreateICmpEQ(order, release);
auto is_acq_rel = builder.CreateICmpEQ(order, acq_rel);
auto semantics =
builder.CreateSelect(is_relaxed, RelaxedSemantics, base_order);
semantics = builder.CreateSelect(is_acquire, AcquireSemantics, semantics);
semantics = builder.CreateSelect(is_release, ReleaseSemantics, semantics);
semantics = builder.CreateSelect(is_acq_rel, AcqRelSemantics, semantics);
if (include_storage)
return builder.CreateOr({storage, semantics});
else
return semantics;
}
Value *MemoryScope(Value *scope, bool is_global, Instruction *InsertBefore) {
IRBuilder<> builder(InsertBefore);
// Constants for OpenCL C 2.0 memory_scope.
const auto work_item = builder.getInt32(
static_cast<uint32_t>(AtomicMemoryScope::kMemoryScopeWorkItem));
const auto work_group = builder.getInt32(
static_cast<uint32_t>(AtomicMemoryScope::kMemoryScopeWorkGroup));
const auto sub_group = builder.getInt32(
static_cast<uint32_t>(AtomicMemoryScope::kMemoryScopeSubGroup));
const auto device = builder.getInt32(
static_cast<uint32_t>(AtomicMemoryScope::kMemoryScopeDevice));
// Constants for SPIR-V memory scopes.
const auto InvocationScope = builder.getInt32(spv::ScopeInvocation);
const auto WorkgroupScope = builder.getInt32(spv::ScopeWorkgroup);
const auto DeviceScope = builder.getInt32(spv::ScopeDevice);
const auto SubgroupScope = builder.getInt32(spv::ScopeSubgroup);
auto base_scope = is_global ? DeviceScope : WorkgroupScope;
if (scope == nullptr)
return base_scope;
auto is_work_item = builder.CreateICmpEQ(scope, work_item);
auto is_work_group = builder.CreateICmpEQ(scope, work_group);
auto is_sub_group = builder.CreateICmpEQ(scope, sub_group);
auto is_device = builder.CreateICmpEQ(scope, device);
scope = builder.CreateSelect(is_work_item, InvocationScope, base_scope);
scope = builder.CreateSelect(is_work_group, WorkgroupScope, scope);
scope = builder.CreateSelect(is_sub_group, SubgroupScope, scope);
scope = builder.CreateSelect(is_device, DeviceScope, scope);
return scope;
}
bool replaceCallsWithValue(Function &F,
std::function<Value *(CallInst *)> Replacer) {
bool Changed = false;
SmallVector<Instruction *, 4> ToRemoves;
// Walk the users of the function.
for (auto &U : F.uses()) {
if (auto CI = dyn_cast<CallInst>(U.getUser())) {
auto NewValue = Replacer(CI);
if (NewValue != nullptr) {
CI->replaceAllUsesWith(NewValue);
// Lastly, remember to remove the user.
ToRemoves.push_back(CI);
}
}
}
Changed = !ToRemoves.empty();
// And cleanup the calls we don't use anymore.
for (auto V : ToRemoves) {
V->eraseFromParent();
}
return Changed;
}
bool skipBuiltinsWithGenericPointer(Function &F,
Builtins::BuiltinType builtin) {
auto name = F.getName();
if (!Builtins::BuiltinWithGenericPointer(name))
return false;
if (clspv::Option::UseNativeBuiltins().count(builtin) > 0)
return false;
for (auto &Arg : F.args()) {
Type *Ty = Arg.getType();
if (Ty->isPointerTy() &&
Ty->getPointerAddressSpace() == clspv::AddressSpace::Generic) {
return true;
}
}
return false;
}
} // namespace
PreservedAnalyses ReplaceOpenCLBuiltinPass::run(Module &M,
ModuleAnalysisManager &MPM) {
PreservedAnalyses PA;
std::list<Function *> func_list;
for (auto &F : M.getFunctionList()) {
// process only function declarations
if (F.isDeclaration() && runOnFunction(F)) {
func_list.push_front(&F);
}
}
removeUnusedSamplers(M);
if (func_list.size() != 0) {
// recursively convert functions, but first remove dead
for (auto *F : func_list) {
if (F->use_empty()) {
F->eraseFromParent();
}
}
PA = run(M, MPM);
return PA;
}
return PA;
}
void ReplaceOpenCLBuiltinPass::removeUnusedSamplers(Module &M) {
auto F = M.getFunction(clspv::TranslateSamplerInitializerFunction());
if (!F) {
return;
}
SmallVector<CallInst *> ToErase;
for (auto U : F->users()) {
auto Call = dyn_cast<CallInst>(U);
if (Call != nullptr && Call->getNumUses() == 0) {
ToErase.push_back(Call);
}
}
for (auto Call : ToErase) {
Call->eraseFromParent();
}
}
bool ReplaceOpenCLBuiltinPass::runOnFunction(Function &F) {
auto &FI = Builtins::Lookup(&F);
auto builtin = FI.getType();
if (skipBuiltinsWithGenericPointer(F, builtin)) {
return false;
}
switch (builtin) {
case Builtins::kAbs:
if (!FI.getParameter(0).is_signed) {
return replaceAbs(F);
}
break;
case Builtins::kAbsDiff:
return replaceAbsDiff(F, FI.getParameter(0).is_signed);
case Builtins::kAddSat:
return replaceAddSubSat(F, FI.getParameter(0).is_signed, true);
case Builtins::kClz:
return replaceCountZeroes(F, true);
case Builtins::kCtz:
return replaceCountZeroes(F, false);
case Builtins::kHadd:
return replaceHadd(F, FI.getParameter(0).is_signed, Instruction::And);
case Builtins::kRhadd:
return replaceHadd(F, FI.getParameter(0).is_signed, Instruction::Or);
case Builtins::kCopysign:
return replaceCopysign(F);
case Builtins::kNativeRecip:
return replaceNativeRecip(F);
case Builtins::kDot:
return replaceDot(F);
case Builtins::kExp10:
case Builtins::kHalfExp10:
case Builtins::kNativeExp10:
return replaceExp10(F, FI.getName());
case Builtins::kExpm1:
return replaceExpm1(F);
case Builtins::kLog10:
case Builtins::kHalfLog10:
case Builtins::kNativeLog10:
return replaceLog10(F, FI.getName());
case Builtins::kLog1p:
return replaceLog1p(F);
case Builtins::kFdim:
return replaceFDim(F);
case Builtins::kFmod:
return replaceFmod(F);
case Builtins::kPown:
return replacePown(F);
case Builtins::kRound:
return replaceRound(F);
case Builtins::kCospi:
case Builtins::kSinpi:
case Builtins::kTanpi:
return replaceTrigPi(F, FI.getType());
case Builtins::kSincos:
return replaceSincos(F);
case Builtins::kBarrier:
case Builtins::kWorkGroupBarrier:
return replaceBarrier(F);
case Builtins::kSubGroupBarrier:
return replaceBarrier(F, true);
case Builtins::kAtomicWorkItemFence:
return replaceMemFence(F, spv::MemorySemanticsMaskNone);
case Builtins::kMemFence:
return replaceMemFence(F, spv::MemorySemanticsAcquireReleaseMask);
case Builtins::kReadMemFence:
return replaceMemFence(F, spv::MemorySemanticsAcquireMask);
case Builtins::kWriteMemFence:
return replaceMemFence(F, spv::MemorySemanticsReleaseMask);
// Relational
case Builtins::kIsequal:
return replaceRelational(F, CmpInst::FCMP_OEQ);
case Builtins::kIsgreater:
return replaceRelational(F, CmpInst::FCMP_OGT);
case Builtins::kIsgreaterequal:
return replaceRelational(F, CmpInst::FCMP_OGE);
case Builtins::kIsless:
return replaceRelational(F, CmpInst::FCMP_OLT);
case Builtins::kIslessequal:
return replaceRelational(F, CmpInst::FCMP_OLE);
case Builtins::kIsnotequal:
return replaceRelational(F, CmpInst::FCMP_UNE);
case Builtins::kIslessgreater:
return replaceRelational(F, CmpInst::FCMP_ONE);
case Builtins::kIsordered:
return replaceOrdered(F, true);
case Builtins::kIsunordered:
return replaceOrdered(F, false);
case Builtins::kIsinf: {
bool is_vec = FI.getParameter(0).vector_size != 0;
return replaceIsInfAndIsNan(F, spv::OpIsInf, is_vec ? -1 : 1);
}
case Builtins::kIsnan: {
bool is_vec = FI.getParameter(0).vector_size != 0;
return replaceIsInfAndIsNan(F, spv::OpIsNan, is_vec ? -1 : 1);
}
case Builtins::kIsfinite:
return replaceIsFinite(F);
case Builtins::kAll: {
bool is_vec = FI.getParameter(0).vector_size != 0;
return replaceAllAndAny(F, !is_vec ? spv::OpNop : spv::OpAll);
}
case Builtins::kAny: {
bool is_vec = FI.getParameter(0).vector_size != 0;
return replaceAllAndAny(F, !is_vec ? spv::OpNop : spv::OpAny);
}
case Builtins::kIsnormal:
return replaceIsNormal(F);
case Builtins::kUpsample:
return replaceUpsample(F);
case Builtins::kRotate:
return replaceRotate(F);
case Builtins::kConvert:
return replaceConvert(F, FI.getParameter(0).is_signed,
FI.getReturnType().is_signed);
// OpenCL 2.0 explicit atomics have different default scopes and semantics
// than legacy atomic functions.
case Builtins::kAtomicLoad:
case Builtins::kAtomicLoadExplicit:
return replaceAtomicLoad(F);
case Builtins::kGetFence:
return replaceGetFence(F);
case Builtins::kToGlobal:
return replaceAddressSpaceQualifiers(F, AddressSpace::Global);
case Builtins::kToLocal:
return replaceAddressSpaceQualifiers(F, AddressSpace::Local);
case Builtins::kToPrivate:
return replaceAddressSpaceQualifiers(F, AddressSpace::Private);
case Builtins::kAtomicInit:
case Builtins::kAtomicStore:
case Builtins::kAtomicStoreExplicit:
return replaceExplicitAtomics(F, spv::OpAtomicStore,
spv::MemorySemanticsReleaseMask);
case Builtins::kAtomicExchange:
case Builtins::kAtomicExchangeExplicit:
return replaceExplicitAtomics(F, spv::OpAtomicExchange);
case Builtins::kAtomicFetchAdd:
case Builtins::kAtomicFetchAddExplicit:
return replaceExplicitAtomics(F, spv::OpAtomicIAdd);
case Builtins::kAtomicFetchSub:
case Builtins::kAtomicFetchSubExplicit:
return replaceExplicitAtomics(F, spv::OpAtomicISub);
case Builtins::kAtomicFetchOr:
case Builtins::kAtomicFetchOrExplicit:
return replaceExplicitAtomics(F, spv::OpAtomicOr);
case Builtins::kAtomicFetchXor:
case Builtins::kAtomicFetchXorExplicit:
return replaceExplicitAtomics(F, spv::OpAtomicXor);
case Builtins::kAtomicFetchAnd:
case Builtins::kAtomicFetchAndExplicit:
return replaceExplicitAtomics(F, spv::OpAtomicAnd);
case Builtins::kAtomicFetchMin:
case Builtins::kAtomicFetchMinExplicit:
return replaceExplicitAtomics(F, FI.getParameter(1).is_signed
? spv::OpAtomicSMin
: spv::OpAtomicUMin);
case Builtins::kAtomicFetchMax:
case Builtins::kAtomicFetchMaxExplicit:
return replaceExplicitAtomics(F, FI.getParameter(1).is_signed
? spv::OpAtomicSMax
: spv::OpAtomicUMax);
// Weak compare exchange is generated as strong compare exchange.
case Builtins::kAtomicCompareExchangeWeak:
case Builtins::kAtomicCompareExchangeWeakExplicit:
case Builtins::kAtomicCompareExchangeStrong:
case Builtins::kAtomicCompareExchangeStrongExplicit:
return replaceAtomicCompareExchange(F);
case Builtins::kAtomicFlagTestAndSet:
case Builtins::kAtomicFlagTestAndSetExplicit:
return replaceAtomicFlagTestAndSet(F);
case Builtins::kAtomicFlagClear:
case Builtins::kAtomicFlagClearExplicit:
return replaceAtomicFlagClear(F);
// Legacy atomic functions.
case Builtins::kAtomicInc:
return replaceAtomics(F, spv::OpAtomicIIncrement);
case Builtins::kAtomicDec:
return replaceAtomics(F, spv::OpAtomicIDecrement);
case Builtins::kAtomicCmpxchg:
return replaceAtomics(F, spv::OpAtomicCompareExchange);
case Builtins::kAtomicAdd:
return replaceAtomics(F, llvm::AtomicRMWInst::Add);
case Builtins::kAtomicSub:
return replaceAtomics(F, llvm::AtomicRMWInst::Sub);
case Builtins::kAtomicXchg:
return replaceAtomics(F, llvm::AtomicRMWInst::Xchg);
case Builtins::kAtomicMin:
return replaceAtomics(F, FI.getParameter(0).is_signed
? llvm::AtomicRMWInst::Min
: llvm::AtomicRMWInst::UMin);
case Builtins::kAtomicMax:
return replaceAtomics(F, FI.getParameter(0).is_signed
? llvm::AtomicRMWInst::Max
: llvm::AtomicRMWInst::UMax);
case Builtins::kAtomicAnd:
return replaceAtomics(F, llvm::AtomicRMWInst::And);
case Builtins::kAtomicOr:
return replaceAtomics(F, llvm::AtomicRMWInst::Or);
case Builtins::kAtomicXor:
return replaceAtomics(F, llvm::AtomicRMWInst::Xor);
case Builtins::kCross:
if (FI.getParameter(0).vector_size == 4) {
return replaceCross(F);
}
break;
case Builtins::kFract:
if (FI.getParameterCount()) {
return replaceFract(F, FI.getParameter(0).vector_size);
}
break;
case Builtins::kMadHi:
return replaceMulHi(F, FI.getParameter(0).is_signed, true);
case Builtins::kMulHi:
return replaceMulHi(F, FI.getParameter(0).is_signed, false);
case Builtins::kMadSat:
return replaceMadSat(F, FI.getParameter(0).is_signed);
case Builtins::kMad:
case Builtins::kMad24:
return replaceMul(F, Builtins::IsFloatTypeID(FI.getParameter(0).type_id),
true);
case Builtins::kMul24:
return replaceMul(F, Builtins::IsFloatTypeID(FI.getParameter(0).type_id),
false);
case Builtins::kSelect:
return replaceSelect(F);
case Builtins::kBitselect:
return replaceBitSelect(F);
case Builtins::kVload:
return replaceVload(F);
case Builtins::kVloadaHalf:
return replaceVloadHalf(F, FI.getName(), FI.getParameter(0).vector_size,
true);
case Builtins::kVloadHalf:
return replaceVloadHalf(F, FI.getName(), FI.getParameter(0).vector_size,
false);
case Builtins::kVstore:
return replaceVstore(F);
case Builtins::kVstoreaHalf:
return replaceVstoreHalf(F, FI.getParameter(0).vector_size, true);
case Builtins::kVstoreHalf:
return replaceVstoreHalf(F, FI.getParameter(0).vector_size, false);
case Builtins::kSmoothstep: {
int vec_size = FI.getLastParameter().vector_size;
if (FI.getParameter(0).vector_size == 0 && vec_size != 0) {
return replaceStep(F, true);
}
break;
}
case Builtins::kStep: {
int vec_size = FI.getLastParameter().vector_size;
if (FI.getParameter(0).vector_size == 0 && vec_size != 0) {
return replaceStep(F, false);
}
break;
}
case Builtins::kSignbit:
return replaceSignbit(F, FI.getParameter(0).vector_size != 0);
case Builtins::kSubSat:
return replaceAddSubSat(F, FI.getParameter(0).is_signed, false);
case Builtins::kReadImageh:
return replaceHalfReadImage(F);
case Builtins::kReadImagef:
case Builtins::kReadImagei:
case Builtins::kReadImageui: {
if (FI.getParameter(1).isSampler()) {
return replaceSampledReadImage(F);
}
break;
}
case Builtins::kWriteImageh:
return replaceHalfWriteImage(F);
case Builtins::kPrefetch:
return replacePrefetch(F);
// Asynchronous copies
case Builtins::kAsyncWorkGroupCopy:
return replaceAsyncWorkGroupCopy(
F, FI.getParameter(0).DataType(F.getParent()->getContext()));
case Builtins::kAsyncWorkGroupStridedCopy:
return replaceAsyncWorkGroupStridedCopy(
F, FI.getParameter(0).DataType(F.getParent()->getContext()));
case Builtins::kWaitGroupEvents:
return replaceWaitGroupEvents(F);
default:
break;
}
return false;
}
Type *ReplaceOpenCLBuiltinPass::GetPairStruct(Type *type) {
auto iter = PairStructMap.find(type);
if (iter != PairStructMap.end())
return iter->second;
auto new_struct = StructType::get(type->getContext(), {type, type});
PairStructMap[type] = new_struct;
return new_struct;
}
Value *ReplaceOpenCLBuiltinPass::InsertOpMulExtended(Instruction *InsertPoint,
Value *a, Value *b,
bool IsSigned,
bool Int64) {
Type *Ty = a->getType();
Type *RetTy = GetPairStruct(a->getType());
assert(Ty == b->getType());
if (!Option::HackMulExtended()) {
spv::Op opcode = IsSigned ? spv::OpSMulExtended : spv::OpUMulExtended;
return clspv::InsertSPIRVOp(InsertPoint, opcode, {}, RetTy, {a, b},
MemoryEffects::none());
}
unsigned int ScalarSizeInBits = Ty->getScalarSizeInBits();
bool IsVector = Ty->isVectorTy();
IRBuilder<> Builder(InsertPoint);
if (ScalarSizeInBits < 32 || (ScalarSizeInBits == 32 && Int64)) {
/*
* {mul_lo, mul_hi} = OpMulExtended(a, b, IsSigned) {
* S = SizeInBits(a)
* a_ext = ext2S(a, IsSigned)
* b_ext = ext2S(b, IsSigned)
* mul = a_ext * b_ext
* mul_lo = truncS(mul)
* mul_hi = truncS(mul >> S)
* return {mul_lo, mul_hi}
* }
*/
Type *TyTimes2 =
Ty->getIntNTy(InsertPoint->getContext(), ScalarSizeInBits * 2);
if (IsVector) {
TyTimes2 = VectorType::get(TyTimes2, dyn_cast<VectorType>(Ty));
}
Value *aExtended, *bExtended;
if (IsSigned) {
aExtended = Builder.CreateSExt(a, TyTimes2);
bExtended = Builder.CreateSExt(b, TyTimes2);
} else {
aExtended = Builder.CreateZExt(a, TyTimes2);
bExtended = Builder.CreateZExt(b, TyTimes2);
}
auto mul = Builder.CreateMul(aExtended, bExtended);
auto mul_lo = Builder.CreateTrunc(mul, Ty);
auto mul_hi =
Builder.CreateTrunc(Builder.CreateLShr(mul, ScalarSizeInBits), Ty);
return Builder.CreateInsertValue(
Builder.CreateInsertValue(PoisonValue::get(RetTy), mul_lo, {0}), mul_hi,
{1});
} else if (ScalarSizeInBits == 64 || (ScalarSizeInBits == 32 && !Int64)) {
/*
* {mul_lo, mul_hi} = OpMulExtended(a, b, IsSigned) {
* S = SizeInBits(a)
* hS = S / 2
* if (IsSigned) {
* res_neg = (a > 0) ^ (b > 0) = (a ^ b) < 0
* a = abs(a)
* b = abs(b)
* }
* a0 = trunchS(a)
* a1 = trunchS(a >> hS)
* b0 = trunchS(b)
* b1 = trunchS(b >> hS)
* {a0b0_0, a0b0_1} = zextS(OpUMulExtended(a0, b0))
* {a1b0_0, a1b0_1} = zextS(OpUMulExtended(a1, b0))
* {a0b1_0, a0b1_1} = zextS(OpUMulExtended(a0, b1))
* {a1b1_0, a1b1_1} = zextS(OpUMulExtended(a1, b1))
*
* mul_lo_hi = a0b0_1 + a1b0_0 + a0b1_0
* carry_mul_lo_hi = mul_lo_hi >> hS
* mul_hi_lo = a1b1_0 + a1b0_1 + a0b1_1 + carry_mul_lo_hi
* mul_lo = a0b0_0 + mul_lo_hi << hS
* mul_hi = mul_hi_lo + a1b1_1 << hS
*
* if (IsSigned) {
* mul_lo_xor = mul_lo ^ -1
* {mul_lo_inv, carry} = OpIAddCarry(mul_lo_xor, 1)
* mul_hi_inv = mul_hi ^ -1 + carry
* mul_lo = res_neg ? mul_lo_inv : mul_lo
* mul_hi = res_neg ? mul_hi_inv : mul_hi
* }
* return {mul_lo, mul_hi}
* }
*/
Type *TyDiv2 =
Ty->getIntNTy(InsertPoint->getContext(), ScalarSizeInBits / 2);
if (IsVector) {
TyDiv2 = VectorType::get(TyDiv2, dyn_cast<VectorType>(Ty));
}
Value *res_neg;
if (IsSigned) {
// We want to work with unsigned value.
// Convert everything to unsigned and remember the signed of the end
// result.
auto a_b_xor = Builder.CreateXor(a, b);
res_neg = Builder.CreateICmpSLT(a_b_xor, ConstantInt::get(Ty, 0, true));
auto F = InsertPoint->getFunction();
auto abs =
Intrinsic::getOrInsertDeclaration(F->getParent(), Intrinsic::abs, Ty);
a = Builder.CreateCall(abs, {a, Builder.getInt1(false)});
b = Builder.CreateCall(abs, {b, Builder.getInt1(false)});
}
auto a0 = Builder.CreateTrunc(a, TyDiv2);
auto a1 = Builder.CreateTrunc(Builder.CreateLShr(a, ScalarSizeInBits / 2),
TyDiv2);
auto b0 = Builder.CreateTrunc(b, TyDiv2);
auto b1 = Builder.CreateTrunc(Builder.CreateLShr(b, ScalarSizeInBits / 2),
TyDiv2);
auto a0b0 = InsertOpMulExtended(InsertPoint, a0, b0, false, true);
auto a1b0 = InsertOpMulExtended(InsertPoint, a1, b0, false, true);
auto a0b1 = InsertOpMulExtended(InsertPoint, a0, b1, false, true);
auto a1b1 = InsertOpMulExtended(InsertPoint, a1, b1, false, true);
auto a0b0_0 = Builder.CreateZExt(Builder.CreateExtractValue(a0b0, {0}), Ty);
auto a0b0_1 = Builder.CreateZExt(Builder.CreateExtractValue(a0b0, {1}), Ty);
auto a1b0_0 = Builder.CreateZExt(Builder.CreateExtractValue(a1b0, {0}), Ty);
auto a1b0_1 = Builder.CreateZExt(Builder.CreateExtractValue(a1b0, {1}), Ty);
auto a0b1_0 = Builder.CreateZExt(Builder.CreateExtractValue(a0b1, {0}), Ty);
auto a0b1_1 = Builder.CreateZExt(Builder.CreateExtractValue(a0b1, {1}), Ty);
auto a1b1_0 = Builder.CreateZExt(Builder.CreateExtractValue(a1b1, {0}), Ty);
auto a1b1_1 = Builder.CreateZExt(Builder.CreateExtractValue(a1b1, {1}), Ty);
auto mul_lo_hi =
Builder.CreateAdd(Builder.CreateAdd(a0b0_1, a1b0_0), a0b1_0);
auto carry_mul_lo_hi = Builder.CreateLShr(mul_lo_hi, ScalarSizeInBits / 2);
auto mul_hi_lo = Builder.CreateAdd(
Builder.CreateAdd(Builder.CreateAdd(a1b1_0, a1b0_1), a0b1_1),
carry_mul_lo_hi);
auto mul_lo = Builder.CreateAdd(
a0b0_0, Builder.CreateShl(mul_lo_hi, ScalarSizeInBits / 2));
auto mul_hi = Builder.CreateAdd(
mul_hi_lo, Builder.CreateShl(a1b1_1, ScalarSizeInBits / 2));
if (IsSigned) {
// Apply the sign that we got from the previous if statement setting
// res_neg.
auto mul_lo_xor =
Builder.CreateXor(mul_lo, Constant::getAllOnesValue(Ty));
auto mul_lo_xor_add = InsertSPIRVOp(
InsertPoint, spv::OpIAddCarry, {}, RetTy,
{mul_lo_xor, ConstantInt::get(Ty, 1)}, MemoryEffects::none());
auto mul_lo_inv = Builder.CreateExtractValue(mul_lo_xor_add, {0});
auto carry = Builder.CreateExtractValue(mul_lo_xor_add, {1});
auto mul_hi_inv = Builder.CreateAdd(
carry, Builder.CreateXor(mul_hi, Constant::getAllOnesValue(Ty)));
mul_lo = Builder.CreateSelect(res_neg, mul_lo_inv, mul_lo);
mul_hi = Builder.CreateSelect(res_neg, mul_hi_inv, mul_hi);
}
return Builder.CreateInsertValue(
Builder.CreateInsertValue(PoisonValue::get(RetTy), mul_lo, {0}), mul_hi,
{1});
} else {
llvm_unreachable("Unexpected type for InsertOpMulExtended");
}
}
bool ReplaceOpenCLBuiltinPass::replaceWaitGroupEvents(Function &F) {
/* Simple implementation for wait_group_events to avoid dealing with the event
* list:
*
* void wait_group_events(int num_events, event_t *event_list) {
* barrier(CLK_LOCAL_MEM_FENCE);
* }
*
*/
return replaceCallsWithValue(F, [](CallInst *CI) {
IRBuilder<> Builder(CI);
const auto ConstantScopeWorkgroup = Builder.getInt32(spv::ScopeWorkgroup);
const auto MemorySemanticsWorkgroup = BinaryOperator::Create(
Instruction::Shl, Builder.getInt32(MemFence::CLK_LOCAL_MEM_FENCE),
Builder.getInt32(clz(spv::MemorySemanticsWorkgroupMemoryMask) -
clz(MemFence::CLK_LOCAL_MEM_FENCE)),
"", CI->getIterator());
auto MemorySemantics = BinaryOperator::Create(
Instruction::Or, MemorySemanticsWorkgroup,
ConstantInt::get(Builder.getInt32Ty(),
spv::MemorySemanticsAcquireReleaseMask),
"", CI->getIterator());
return clspv::InsertSPIRVOp(
CI, spv::OpControlBarrier,
{Attribute::NoDuplicate, Attribute::Convergent}, Builder.getVoidTy(),
{ConstantScopeWorkgroup, ConstantScopeWorkgroup, MemorySemantics});
});
}
GlobalVariable *ReplaceOpenCLBuiltinPass::getOrCreateGlobalVariable(
Module &M, std::string VariableName,
AddressSpace::Type VariableAddressSpace) {
GlobalVariable *GV = M.getGlobalVariable(VariableName);
if (GV == nullptr) {
IntegerType *IT = IntegerType::get(M.getContext(), 32);
VectorType *VT = FixedVectorType::get(IT, 3);
GV = new GlobalVariable(M, VT, false, GlobalValue::ExternalLinkage, nullptr,
VariableName, nullptr,
GlobalValue::ThreadLocalMode::NotThreadLocal,
VariableAddressSpace);
GV->setInitializer(Constant::getNullValue(VT));
}
return GV;
}
Value *ReplaceOpenCLBuiltinPass::replaceAsyncWorkGroupCopies(
Module &M, CallInst *CI, Value *Dst, Value *Src, Type *GenType,
Value *NumGentypes, Value *Stride, Value *Event) {
/*
* event_t *async_work_group_strided_copy(T *dst, T *src, size_t num_gentypes,
* size_t stride, event_t event) {
* size_t start_id = ((get_local_id(2) * get_local_size(1))
* + get_local_id(1)) * get_local_size(0)
* + get_local_id(0);
* size_t incr = get_local_size(0) * get_local_size(1) * get_local_size(2);