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SPIRV-Tools/source/opt/optimizer.cpp
Alan Baker a771713e42 Adding an unique id to Instruction generated by IRContext 
Each instruction is given an unique id that can be used for ordering
purposes. The ids are generated via the IRContext.

Major changes:
* Instructions now contain a uint32_t for unique id and a cached context
pointer
 * Most constructors have been modified to take a context as input
 * unfortunately I cannot remove the default and copy constructors, but
 developers should avoid these
* Added accessors to parents of basic block and function
* Removed the copy constructors for BasicBlock and Function and replaced
them with Clone functions
* Reworked BuildModule to return an IRContext owning the built module
 * Since all instructions require a context, the context now becomes the
basic unit for IR
* Added a constructor to context to create an owned module internally
* Replaced uses of Instruction's copy constructor with Clone whereever I
found them
* Reworked the linker functionality to perform clones into a different
context instead of moves
* Updated many tests to be consistent with the above changes
 * Still need to add new tests to cover added functionality
* Added comparison operators to Instruction
* Added an internal option to LinkerOptions to verify merged ids are
unique
* Added a test for the linker to verify merged ids are unique

* Updated MergeReturnPass to supply a context
* Updated DecorationManager to supply a context for cloned decorations

* Reworked several portions of the def use tests in anticipation of next
set of changes
2017-11-20 17:49:10 -05:00

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// 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 "build_module.h"
#include "make_unique.h"
#include "pass_manager.h"
#include "passes.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(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));
}
Optimizer& Optimizer::RegisterPass(PassToken&& p) {
// Change to use the pass manager's consumer.
p.impl_->pass->SetMessageConsumer(impl_->pass_manager.consumer());
impl_->pass_manager.AddPass(std::move(p.impl_->pass));
return *this;
}
Optimizer& Optimizer::RegisterPerformancePasses() {
return RegisterPass(CreateMergeReturnPass())
.RegisterPass(CreateInlineExhaustivePass())
.RegisterPass(CreateEliminateDeadFunctionsPass())
.RegisterPass(CreateLocalAccessChainConvertPass())
.RegisterPass(CreateLocalSingleBlockLoadStoreElimPass())
.RegisterPass(CreateLocalSingleStoreElimPass())
.RegisterPass(CreateInsertExtractElimPass())
.RegisterPass(CreateAggressiveDCEPass())
.RegisterPass(CreateDeadBranchElimPass())
.RegisterPass(CreateBlockMergePass())
.RegisterPass(CreateLocalMultiStoreElimPass())
.RegisterPass(CreateInsertExtractElimPass())
// Currently exposing driver bugs resulting in crashes (#946)
// .RegisterPass(CreateCommonUniformElimPass())
.RegisterPass(CreateDeadVariableEliminationPass());
}
Optimizer& Optimizer::RegisterSizePasses() {
return RegisterPass(CreateMergeReturnPass())
.RegisterPass(CreateInlineExhaustivePass())
.RegisterPass(CreateEliminateDeadFunctionsPass())
.RegisterPass(CreateLocalAccessChainConvertPass())
.RegisterPass(CreateLocalSingleBlockLoadStoreElimPass())
.RegisterPass(CreateLocalSingleStoreElimPass())
.RegisterPass(CreateInsertExtractElimPass())
.RegisterPass(CreateAggressiveDCEPass())
.RegisterPass(CreateDeadBranchElimPass())
.RegisterPass(CreateBlockMergePass())
.RegisterPass(CreateLocalMultiStoreElimPass())
.RegisterPass(CreateInsertExtractElimPass())
// Currently exposing driver bugs resulting in crashes (#946)
// .RegisterPass(CreateCommonUniformElimPass())
.RegisterPass(CreateDeadVariableEliminationPass());
}
bool Optimizer::Run(const uint32_t* original_binary,
const size_t original_binary_size,
std::vector<uint32_t>* optimized_binary) const {
std::unique_ptr<ir::IRContext> context =
BuildModule(impl_->target_env, impl_->pass_manager.consumer(),
original_binary, original_binary_size);
if (context == nullptr) return false;
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::PassToken CreateNullPass() {
return MakeUnique<Optimizer::PassToken::Impl>(MakeUnique<opt::NullPass>());
}
Optimizer::PassToken CreateStripDebugInfoPass() {
return MakeUnique<Optimizer::PassToken::Impl>(
MakeUnique<opt::StripDebugInfoPass>());
}
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::InsertExtractElimPass>());
}
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 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>());
}
} // namespace spvtools
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