SPIRV-Tools/source/opt/optimizer.cpp
alan-baker e510b1bac5
Update memory model (#1904)
Upgrade to VulkanKHR memory model

* Converts Logical GLSL450 memory model to Logical VulkanKHR
* Adds extension and capability
* Removes deprecated decorations and replaces them with appropriate
flags on downstream instructions
* Support for Workgroup upgrades
* Support for copy memory
* Adding support for image functions
* Adding barrier upgrades and tests
* Use QueueFamilyKHR scope instead of device
2018-11-30 14:15:51 -05:00

785 lines
29 KiB
C++

// Copyright (c) 2016 Google Inc.
//
// 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 "spirv-tools/optimizer.hpp"
#include <memory>
#include <string>
#include <unordered_map>
#include <utility>
#include <vector>
#include <source/spirv_optimizer_options.h>
#include "source/opt/build_module.h"
#include "source/opt/log.h"
#include "source/opt/pass_manager.h"
#include "source/opt/passes.h"
#include "source/util/make_unique.h"
#include "source/util/string_utils.h"
namespace spvtools {
struct Optimizer::PassToken::Impl {
Impl(std::unique_ptr<opt::Pass> p) : pass(std::move(p)) {}
std::unique_ptr<opt::Pass> pass; // Internal implementation pass.
};
Optimizer::PassToken::PassToken(
std::unique_ptr<Optimizer::PassToken::Impl> impl)
: impl_(std::move(impl)) {}
Optimizer::PassToken::PassToken(std::unique_ptr<opt::Pass>&& pass)
: impl_(MakeUnique<Optimizer::PassToken::Impl>(std::move(pass))) {}
Optimizer::PassToken::PassToken(PassToken&& that)
: impl_(std::move(that.impl_)) {}
Optimizer::PassToken& Optimizer::PassToken::operator=(PassToken&& that) {
impl_ = std::move(that.impl_);
return *this;
}
Optimizer::PassToken::~PassToken() {}
struct Optimizer::Impl {
explicit Impl(spv_target_env env) : target_env(env), pass_manager() {}
const spv_target_env target_env; // Target environment.
opt::PassManager pass_manager; // Internal implementation pass manager.
};
Optimizer::Optimizer(spv_target_env env) : impl_(new Impl(env)) {}
Optimizer::~Optimizer() {}
void Optimizer::SetMessageConsumer(MessageConsumer c) {
// All passes' message consumer needs to be updated.
for (uint32_t i = 0; i < impl_->pass_manager.NumPasses(); ++i) {
impl_->pass_manager.GetPass(i)->SetMessageConsumer(c);
}
impl_->pass_manager.SetMessageConsumer(std::move(c));
}
const MessageConsumer& Optimizer::consumer() const {
return impl_->pass_manager.consumer();
}
Optimizer& Optimizer::RegisterPass(PassToken&& p) {
// Change to use the pass manager's consumer.
p.impl_->pass->SetMessageConsumer(consumer());
impl_->pass_manager.AddPass(std::move(p.impl_->pass));
return *this;
}
// The legalization passes take a spir-v shader generated by an HLSL front-end
// and turn it into a valid vulkan spir-v shader. There are two ways in which
// the code will be invalid at the start:
//
// 1) There will be opaque objects, like images, which will be passed around
// in intermediate objects. Valid spir-v will have to replace the use of
// the opaque object with an intermediate object that is the result of the
// load of the global opaque object.
//
// 2) There will be variables that contain pointers to structured or uniform
// buffers. It be legal, the variables must be eliminated, and the
// references to the structured buffers must use the result of OpVariable
// in the Uniform storage class.
//
// Optimization in this list must accept shaders with these relaxation of the
// rules. There is not guarantee that this list of optimizations is able to
// legalize all inputs, but it is on a best effort basis.
//
// The legalization problem is essentially a very general copy propagation
// problem. The optimization we use are all used to either do copy propagation
// or enable more copy propagation.
Optimizer& Optimizer::RegisterLegalizationPasses() {
return
// Remove unreachable block so that merge return works.
RegisterPass(CreateDeadBranchElimPass())
// Merge the returns so we can inline.
.RegisterPass(CreateMergeReturnPass())
// Make sure uses and definitions are in the same function.
.RegisterPass(CreateInlineExhaustivePass())
// Make private variable function scope
.RegisterPass(CreateEliminateDeadFunctionsPass())
.RegisterPass(CreatePrivateToLocalPass())
// Propagate the value stored to the loads in very simple cases.
.RegisterPass(CreateLocalSingleBlockLoadStoreElimPass())
.RegisterPass(CreateLocalSingleStoreElimPass())
.RegisterPass(CreateAggressiveDCEPass())
// Split up aggregates so they are easier to deal with.
.RegisterPass(CreateScalarReplacementPass(0))
// Remove loads and stores so everything is in intermediate values.
// Takes care of copy propagation of non-members.
.RegisterPass(CreateLocalSingleBlockLoadStoreElimPass())
.RegisterPass(CreateLocalSingleStoreElimPass())
.RegisterPass(CreateAggressiveDCEPass())
.RegisterPass(CreateLocalMultiStoreElimPass())
.RegisterPass(CreateAggressiveDCEPass())
// Propagate constants to get as many constant conditions on branches
// as possible.
.RegisterPass(CreateCCPPass())
.RegisterPass(CreateLoopUnrollPass(true))
.RegisterPass(CreateDeadBranchElimPass())
// Copy propagate members. Cleans up code sequences generated by
// scalar replacement. Also important for removing OpPhi nodes.
.RegisterPass(CreateSimplificationPass())
.RegisterPass(CreateAggressiveDCEPass())
.RegisterPass(CreateCopyPropagateArraysPass())
// May need loop unrolling here see
// https://github.com/Microsoft/DirectXShaderCompiler/pull/930
// Get rid of unused code that contain traces of illegal code
// or unused references to unbound external objects
.RegisterPass(CreateVectorDCEPass())
.RegisterPass(CreateDeadInsertElimPass())
.RegisterPass(CreateReduceLoadSizePass())
.RegisterPass(CreateAggressiveDCEPass());
}
Optimizer& Optimizer::RegisterPerformancePasses() {
return RegisterPass(CreateDeadBranchElimPass())
.RegisterPass(CreateMergeReturnPass())
.RegisterPass(CreateInlineExhaustivePass())
.RegisterPass(CreateAggressiveDCEPass())
.RegisterPass(CreatePrivateToLocalPass())
.RegisterPass(CreateLocalSingleBlockLoadStoreElimPass())
.RegisterPass(CreateLocalSingleStoreElimPass())
.RegisterPass(CreateAggressiveDCEPass())
.RegisterPass(CreateScalarReplacementPass())
.RegisterPass(CreateLocalAccessChainConvertPass())
.RegisterPass(CreateLocalSingleBlockLoadStoreElimPass())
.RegisterPass(CreateLocalSingleStoreElimPass())
.RegisterPass(CreateAggressiveDCEPass())
.RegisterPass(CreateLocalMultiStoreElimPass())
.RegisterPass(CreateAggressiveDCEPass())
.RegisterPass(CreateCCPPass())
.RegisterPass(CreateAggressiveDCEPass())
.RegisterPass(CreateRedundancyEliminationPass())
.RegisterPass(CreateCombineAccessChainsPass())
.RegisterPass(CreateSimplificationPass())
.RegisterPass(CreateVectorDCEPass())
.RegisterPass(CreateDeadInsertElimPass())
.RegisterPass(CreateDeadBranchElimPass())
.RegisterPass(CreateSimplificationPass())
.RegisterPass(CreateIfConversionPass())
.RegisterPass(CreateCopyPropagateArraysPass())
.RegisterPass(CreateReduceLoadSizePass())
.RegisterPass(CreateAggressiveDCEPass())
.RegisterPass(CreateBlockMergePass())
.RegisterPass(CreateRedundancyEliminationPass())
.RegisterPass(CreateDeadBranchElimPass())
.RegisterPass(CreateBlockMergePass())
.RegisterPass(CreateSimplificationPass());
// Currently exposing driver bugs resulting in crashes (#946)
// .RegisterPass(CreateCommonUniformElimPass())
}
Optimizer& Optimizer::RegisterSizePasses() {
return RegisterPass(CreateDeadBranchElimPass())
.RegisterPass(CreateMergeReturnPass())
.RegisterPass(CreateInlineExhaustivePass())
.RegisterPass(CreateAggressiveDCEPass())
.RegisterPass(CreatePrivateToLocalPass())
.RegisterPass(CreateScalarReplacementPass())
.RegisterPass(CreateLocalAccessChainConvertPass())
.RegisterPass(CreateLocalSingleBlockLoadStoreElimPass())
.RegisterPass(CreateLocalSingleStoreElimPass())
.RegisterPass(CreateAggressiveDCEPass())
.RegisterPass(CreateSimplificationPass())
.RegisterPass(CreateDeadInsertElimPass())
.RegisterPass(CreateLocalMultiStoreElimPass())
.RegisterPass(CreateAggressiveDCEPass())
.RegisterPass(CreateCCPPass())
.RegisterPass(CreateAggressiveDCEPass())
.RegisterPass(CreateDeadBranchElimPass())
.RegisterPass(CreateIfConversionPass())
.RegisterPass(CreateAggressiveDCEPass())
.RegisterPass(CreateBlockMergePass())
.RegisterPass(CreateSimplificationPass())
.RegisterPass(CreateDeadInsertElimPass())
.RegisterPass(CreateRedundancyEliminationPass())
.RegisterPass(CreateCFGCleanupPass())
// Currently exposing driver bugs resulting in crashes (#946)
// .RegisterPass(CreateCommonUniformElimPass())
.RegisterPass(CreateAggressiveDCEPass());
}
bool Optimizer::RegisterPassesFromFlags(const std::vector<std::string>& flags) {
for (const auto& flag : flags) {
if (!RegisterPassFromFlag(flag)) {
return false;
}
}
return true;
}
bool Optimizer::FlagHasValidForm(const std::string& flag) const {
if (flag == "-O" || flag == "-Os") {
return true;
} else if (flag.size() > 2 && flag.substr(0, 2) == "--") {
return true;
}
Errorf(consumer(), nullptr, {},
"%s is not a valid flag. Flag passes should have the form "
"'--pass_name[=pass_args]'. Special flag names also accepted: -O "
"and -Os.",
flag.c_str());
return false;
}
bool Optimizer::RegisterPassFromFlag(const std::string& flag) {
if (!FlagHasValidForm(flag)) {
return false;
}
// Split flags of the form --pass_name=pass_args.
auto p = utils::SplitFlagArgs(flag);
std::string pass_name = p.first;
std::string pass_args = p.second;
// FIXME(dnovillo): This should be re-factored so that pass names can be
// automatically checked against Pass::name() and PassToken instances created
// via a template function. Additionally, class Pass should have a desc()
// method that describes the pass (so it can be used in --help).
//
// Both Pass::name() and Pass::desc() should be static class members so they
// can be invoked without creating a pass instance.
if (pass_name == "strip-debug") {
RegisterPass(CreateStripDebugInfoPass());
} else if (pass_name == "strip-reflect") {
RegisterPass(CreateStripReflectInfoPass());
} else if (pass_name == "set-spec-const-default-value") {
if (pass_args.size() > 0) {
auto spec_ids_vals =
opt::SetSpecConstantDefaultValuePass::ParseDefaultValuesString(
pass_args.c_str());
if (!spec_ids_vals) {
Errorf(consumer(), nullptr, {},
"Invalid argument for --set-spec-const-default-value: %s",
pass_args.c_str());
return false;
}
RegisterPass(
CreateSetSpecConstantDefaultValuePass(std::move(*spec_ids_vals)));
} else {
Errorf(consumer(), nullptr, {},
"Invalid spec constant value string '%s'. Expected a string of "
"<spec id>:<default value> pairs.",
pass_args.c_str());
return false;
}
} else if (pass_name == "if-conversion") {
RegisterPass(CreateIfConversionPass());
} else if (pass_name == "freeze-spec-const") {
RegisterPass(CreateFreezeSpecConstantValuePass());
} else if (pass_name == "inline-entry-points-exhaustive") {
RegisterPass(CreateInlineExhaustivePass());
} else if (pass_name == "inline-entry-points-opaque") {
RegisterPass(CreateInlineOpaquePass());
} else if (pass_name == "combine-access-chains") {
RegisterPass(CreateCombineAccessChainsPass());
} else if (pass_name == "convert-local-access-chains") {
RegisterPass(CreateLocalAccessChainConvertPass());
} else if (pass_name == "eliminate-dead-code-aggressive") {
RegisterPass(CreateAggressiveDCEPass());
} else if (pass_name == "propagate-line-info") {
RegisterPass(CreatePropagateLineInfoPass());
} else if (pass_name == "eliminate-redundant-line-info") {
RegisterPass(CreateRedundantLineInfoElimPass());
} else if (pass_name == "eliminate-insert-extract") {
RegisterPass(CreateInsertExtractElimPass());
} else if (pass_name == "eliminate-local-single-block") {
RegisterPass(CreateLocalSingleBlockLoadStoreElimPass());
} else if (pass_name == "eliminate-local-single-store") {
RegisterPass(CreateLocalSingleStoreElimPass());
} else if (pass_name == "merge-blocks") {
RegisterPass(CreateBlockMergePass());
} else if (pass_name == "merge-return") {
RegisterPass(CreateMergeReturnPass());
} else if (pass_name == "eliminate-dead-branches") {
RegisterPass(CreateDeadBranchElimPass());
} else if (pass_name == "eliminate-dead-functions") {
RegisterPass(CreateEliminateDeadFunctionsPass());
} else if (pass_name == "eliminate-local-multi-store") {
RegisterPass(CreateLocalMultiStoreElimPass());
} else if (pass_name == "eliminate-common-uniform") {
RegisterPass(CreateCommonUniformElimPass());
} else if (pass_name == "eliminate-dead-const") {
RegisterPass(CreateEliminateDeadConstantPass());
} else if (pass_name == "eliminate-dead-inserts") {
RegisterPass(CreateDeadInsertElimPass());
} else if (pass_name == "eliminate-dead-variables") {
RegisterPass(CreateDeadVariableEliminationPass());
} else if (pass_name == "fold-spec-const-op-composite") {
RegisterPass(CreateFoldSpecConstantOpAndCompositePass());
} else if (pass_name == "loop-unswitch") {
RegisterPass(CreateLoopUnswitchPass());
} else if (pass_name == "scalar-replacement") {
if (pass_args.size() == 0) {
RegisterPass(CreateScalarReplacementPass());
} else {
int limit = -1;
if (pass_args.find_first_not_of("0123456789") == std::string::npos) {
limit = atoi(pass_args.c_str());
}
if (limit >= 0) {
RegisterPass(CreateScalarReplacementPass(limit));
} else {
Error(consumer(), nullptr, {},
"--scalar-replacement must have no arguments or a non-negative "
"integer argument");
return false;
}
}
} else if (pass_name == "strength-reduction") {
RegisterPass(CreateStrengthReductionPass());
} else if (pass_name == "unify-const") {
RegisterPass(CreateUnifyConstantPass());
} else if (pass_name == "flatten-decorations") {
RegisterPass(CreateFlattenDecorationPass());
} else if (pass_name == "compact-ids") {
RegisterPass(CreateCompactIdsPass());
} else if (pass_name == "cfg-cleanup") {
RegisterPass(CreateCFGCleanupPass());
} else if (pass_name == "local-redundancy-elimination") {
RegisterPass(CreateLocalRedundancyEliminationPass());
} else if (pass_name == "loop-invariant-code-motion") {
RegisterPass(CreateLoopInvariantCodeMotionPass());
} else if (pass_name == "reduce-load-size") {
RegisterPass(CreateReduceLoadSizePass());
} else if (pass_name == "redundancy-elimination") {
RegisterPass(CreateRedundancyEliminationPass());
} else if (pass_name == "private-to-local") {
RegisterPass(CreatePrivateToLocalPass());
} else if (pass_name == "remove-duplicates") {
RegisterPass(CreateRemoveDuplicatesPass());
} else if (pass_name == "workaround-1209") {
RegisterPass(CreateWorkaround1209Pass());
} else if (pass_name == "replace-invalid-opcode") {
RegisterPass(CreateReplaceInvalidOpcodePass());
} else if (pass_name == "inst-bindless-check") {
RegisterPass(CreateInstBindlessCheckPass(7, 23));
RegisterPass(CreateSimplificationPass());
RegisterPass(CreateDeadBranchElimPass());
RegisterPass(CreateBlockMergePass());
RegisterPass(CreateAggressiveDCEPass());
} else if (pass_name == "simplify-instructions") {
RegisterPass(CreateSimplificationPass());
} else if (pass_name == "ssa-rewrite") {
RegisterPass(CreateSSARewritePass());
} else if (pass_name == "copy-propagate-arrays") {
RegisterPass(CreateCopyPropagateArraysPass());
} else if (pass_name == "loop-fission") {
int register_threshold_to_split =
(pass_args.size() > 0) ? atoi(pass_args.c_str()) : -1;
if (register_threshold_to_split > 0) {
RegisterPass(CreateLoopFissionPass(
static_cast<size_t>(register_threshold_to_split)));
} else {
Error(consumer(), nullptr, {},
"--loop-fission must have a positive integer argument");
return false;
}
} else if (pass_name == "loop-fusion") {
int max_registers_per_loop =
(pass_args.size() > 0) ? atoi(pass_args.c_str()) : -1;
if (max_registers_per_loop > 0) {
RegisterPass(
CreateLoopFusionPass(static_cast<size_t>(max_registers_per_loop)));
} else {
Error(consumer(), nullptr, {},
"--loop-fusion must have a positive integer argument");
return false;
}
} else if (pass_name == "loop-unroll") {
RegisterPass(CreateLoopUnrollPass(true));
} else if (pass_name == "upgrade-memory-model") {
RegisterPass(CreateUpgradeMemoryModelPass());
} else if (pass_name == "vector-dce") {
RegisterPass(CreateVectorDCEPass());
} else if (pass_name == "loop-unroll-partial") {
int factor = (pass_args.size() > 0) ? atoi(pass_args.c_str()) : 0;
if (factor > 0) {
RegisterPass(CreateLoopUnrollPass(false, factor));
} else {
Error(consumer(), nullptr, {},
"--loop-unroll-partial must have a positive integer argument");
return false;
}
} else if (pass_name == "loop-peeling") {
RegisterPass(CreateLoopPeelingPass());
} else if (pass_name == "loop-peeling-threshold") {
int factor = (pass_args.size() > 0) ? atoi(pass_args.c_str()) : 0;
if (factor > 0) {
opt::LoopPeelingPass::SetLoopPeelingThreshold(factor);
} else {
Error(consumer(), nullptr, {},
"--loop-peeling-threshold must have a positive integer argument");
return false;
}
} else if (pass_name == "ccp") {
RegisterPass(CreateCCPPass());
} else if (pass_name == "O") {
RegisterPerformancePasses();
} else if (pass_name == "Os") {
RegisterSizePasses();
} else if (pass_name == "legalize-hlsl") {
RegisterLegalizationPasses();
} else {
Errorf(consumer(), nullptr, {},
"Unknown flag '--%s'. Use --help for a list of valid flags",
pass_name.c_str());
return false;
}
return true;
}
bool Optimizer::Run(const uint32_t* original_binary,
const size_t original_binary_size,
std::vector<uint32_t>* optimized_binary) const {
return Run(original_binary, original_binary_size, optimized_binary,
OptimizerOptions());
}
bool Optimizer::Run(const uint32_t* original_binary,
const size_t original_binary_size,
std::vector<uint32_t>* optimized_binary,
const ValidatorOptions& validator_options,
bool skip_validation) const {
OptimizerOptions opt_options;
opt_options.set_run_validator(!skip_validation);
opt_options.set_validator_options(validator_options);
return Run(original_binary, original_binary_size, optimized_binary,
opt_options);
}
bool Optimizer::Run(const uint32_t* original_binary,
const size_t original_binary_size,
std::vector<uint32_t>* optimized_binary,
const spv_optimizer_options opt_options) const {
spvtools::SpirvTools tools(impl_->target_env);
tools.SetMessageConsumer(impl_->pass_manager.consumer());
if (opt_options->run_validator_ &&
!tools.Validate(original_binary, original_binary_size,
&opt_options->val_options_)) {
return false;
}
std::unique_ptr<opt::IRContext> context = BuildModule(
impl_->target_env, consumer(), original_binary, original_binary_size);
if (context == nullptr) return false;
context->set_max_id_bound(opt_options->max_id_bound_);
auto status = impl_->pass_manager.Run(context.get());
if (status == opt::Pass::Status::SuccessWithChange ||
(status == opt::Pass::Status::SuccessWithoutChange &&
(optimized_binary->data() != original_binary ||
optimized_binary->size() != original_binary_size))) {
optimized_binary->clear();
context->module()->ToBinary(optimized_binary, /* skip_nop = */ true);
}
return status != opt::Pass::Status::Failure;
}
Optimizer& Optimizer::SetPrintAll(std::ostream* out) {
impl_->pass_manager.SetPrintAll(out);
return *this;
}
Optimizer& Optimizer::SetTimeReport(std::ostream* out) {
impl_->pass_manager.SetTimeReport(out);
return *this;
}
Optimizer::PassToken CreateNullPass() {
return MakeUnique<Optimizer::PassToken::Impl>(MakeUnique<opt::NullPass>());
}
Optimizer::PassToken CreateStripDebugInfoPass() {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::StripDebugInfoPass>());
}
Optimizer::PassToken CreateStripReflectInfoPass() {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::StripReflectInfoPass>());
}
Optimizer::PassToken CreateEliminateDeadFunctionsPass() {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::EliminateDeadFunctionsPass>());
}
Optimizer::PassToken CreateSetSpecConstantDefaultValuePass(
const std::unordered_map<uint32_t, std::string>& id_value_map) {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::SetSpecConstantDefaultValuePass>(id_value_map));
}
Optimizer::PassToken CreateSetSpecConstantDefaultValuePass(
const std::unordered_map<uint32_t, std::vector<uint32_t>>& id_value_map) {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::SetSpecConstantDefaultValuePass>(id_value_map));
}
Optimizer::PassToken CreateFlattenDecorationPass() {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::FlattenDecorationPass>());
}
Optimizer::PassToken CreateFreezeSpecConstantValuePass() {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::FreezeSpecConstantValuePass>());
}
Optimizer::PassToken CreateFoldSpecConstantOpAndCompositePass() {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::FoldSpecConstantOpAndCompositePass>());
}
Optimizer::PassToken CreateUnifyConstantPass() {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::UnifyConstantPass>());
}
Optimizer::PassToken CreateEliminateDeadConstantPass() {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::EliminateDeadConstantPass>());
}
Optimizer::PassToken CreateDeadVariableEliminationPass() {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::DeadVariableElimination>());
}
Optimizer::PassToken CreateStrengthReductionPass() {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::StrengthReductionPass>());
}
Optimizer::PassToken CreateBlockMergePass() {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::BlockMergePass>());
}
Optimizer::PassToken CreateInlineExhaustivePass() {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::InlineExhaustivePass>());
}
Optimizer::PassToken CreateInlineOpaquePass() {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::InlineOpaquePass>());
}
Optimizer::PassToken CreateLocalAccessChainConvertPass() {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::LocalAccessChainConvertPass>());
}
Optimizer::PassToken CreateLocalSingleBlockLoadStoreElimPass() {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::LocalSingleBlockLoadStoreElimPass>());
}
Optimizer::PassToken CreateLocalSingleStoreElimPass() {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::LocalSingleStoreElimPass>());
}
Optimizer::PassToken CreateInsertExtractElimPass() {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::SimplificationPass>());
}
Optimizer::PassToken CreateDeadInsertElimPass() {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::DeadInsertElimPass>());
}
Optimizer::PassToken CreateDeadBranchElimPass() {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::DeadBranchElimPass>());
}
Optimizer::PassToken CreateLocalMultiStoreElimPass() {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::LocalMultiStoreElimPass>());
}
Optimizer::PassToken CreateAggressiveDCEPass() {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::AggressiveDCEPass>());
}
Optimizer::PassToken CreatePropagateLineInfoPass() {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::ProcessLinesPass>(opt::kLinesPropagateLines));
}
Optimizer::PassToken CreateRedundantLineInfoElimPass() {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::ProcessLinesPass>(opt::kLinesEliminateDeadLines));
}
Optimizer::PassToken CreateCommonUniformElimPass() {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::CommonUniformElimPass>());
}
Optimizer::PassToken CreateCompactIdsPass() {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::CompactIdsPass>());
}
Optimizer::PassToken CreateMergeReturnPass() {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::MergeReturnPass>());
}
std::vector<const char*> Optimizer::GetPassNames() const {
std::vector<const char*> v;
for (uint32_t i = 0; i < impl_->pass_manager.NumPasses(); i++) {
v.push_back(impl_->pass_manager.GetPass(i)->name());
}
return v;
}
Optimizer::PassToken CreateCFGCleanupPass() {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::CFGCleanupPass>());
}
Optimizer::PassToken CreateLocalRedundancyEliminationPass() {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::LocalRedundancyEliminationPass>());
}
Optimizer::PassToken CreateLoopFissionPass(size_t threshold) {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::LoopFissionPass>(threshold));
}
Optimizer::PassToken CreateLoopFusionPass(size_t max_registers_per_loop) {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::LoopFusionPass>(max_registers_per_loop));
}
Optimizer::PassToken CreateLoopInvariantCodeMotionPass() {
return MakeUnique<Optimizer::PassToken::Impl>(MakeUnique<opt::LICMPass>());
}
Optimizer::PassToken CreateLoopPeelingPass() {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::LoopPeelingPass>());
}
Optimizer::PassToken CreateLoopUnswitchPass() {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::LoopUnswitchPass>());
}
Optimizer::PassToken CreateRedundancyEliminationPass() {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::RedundancyEliminationPass>());
}
Optimizer::PassToken CreateRemoveDuplicatesPass() {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::RemoveDuplicatesPass>());
}
Optimizer::PassToken CreateScalarReplacementPass(uint32_t size_limit) {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::ScalarReplacementPass>(size_limit));
}
Optimizer::PassToken CreatePrivateToLocalPass() {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::PrivateToLocalPass>());
}
Optimizer::PassToken CreateCCPPass() {
return MakeUnique<Optimizer::PassToken::Impl>(MakeUnique<opt::CCPPass>());
}
Optimizer::PassToken CreateWorkaround1209Pass() {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::Workaround1209>());
}
Optimizer::PassToken CreateIfConversionPass() {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::IfConversion>());
}
Optimizer::PassToken CreateReplaceInvalidOpcodePass() {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::ReplaceInvalidOpcodePass>());
}
Optimizer::PassToken CreateSimplificationPass() {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::SimplificationPass>());
}
Optimizer::PassToken CreateLoopUnrollPass(bool fully_unroll, int factor) {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::LoopUnroller>(fully_unroll, factor));
}
Optimizer::PassToken CreateSSARewritePass() {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::SSARewritePass>());
}
Optimizer::PassToken CreateCopyPropagateArraysPass() {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::CopyPropagateArrays>());
}
Optimizer::PassToken CreateVectorDCEPass() {
return MakeUnique<Optimizer::PassToken::Impl>(MakeUnique<opt::VectorDCE>());
}
Optimizer::PassToken CreateReduceLoadSizePass() {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::ReduceLoadSize>());
}
Optimizer::PassToken CreateCombineAccessChainsPass() {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::CombineAccessChains>());
}
Optimizer::PassToken CreateUpgradeMemoryModelPass() {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::UpgradeMemoryModel>());
}
Optimizer::PassToken CreateInstBindlessCheckPass(uint32_t desc_set,
uint32_t shader_id) {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::InstBindlessCheckPass>(desc_set, shader_id));
}
} // namespace spvtools