SPIRV-Tools/source/opt/vector_dce.h

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// Copyright (c) 2018 Google LLC.
//
// 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.
#ifndef SOURCE_OPT_VECTOR_DCE_H_
#define SOURCE_OPT_VECTOR_DCE_H_
#include <unordered_map>
#include <vector>
#include "source/opt/mem_pass.h"
#include "source/util/bit_vector.h"
namespace spvtools {
namespace opt {
class VectorDCE : public MemPass {
private:
using LiveComponentMap = std::unordered_map<uint32_t, utils::BitVector>;
// According to the SPEC the maximum size for a vector is 16. See the data
// rules in the universal validation rules (section 2.16.1).
enum { kMaxVectorSize = 16 };
struct WorkListItem {
WorkListItem() : instruction(nullptr), components(kMaxVectorSize) {}
Instruction* instruction;
utils::BitVector components;
};
public:
VectorDCE() : all_components_live_(kMaxVectorSize) {
for (uint32_t i = 0; i < kMaxVectorSize; i++) {
all_components_live_.Set(i);
}
}
const char* name() const override { return "vector-dce"; }
Status Process() override;
IRContext::Analysis GetPreservedAnalyses() override {
return IRContext::kAnalysisDefUse | IRContext::kAnalysisCFG |
IRContext::kAnalysisInstrToBlockMapping |
IRContext::kAnalysisLoopAnalysis | IRContext::kAnalysisDecorations |
IRContext::kAnalysisDominatorAnalysis | IRContext::kAnalysisNameMap |
IRContext::kAnalysisConstants | IRContext::kAnalysisTypes;
}
private:
// Runs the vector dce pass on |function|. Returns true if |function| was
// modified.
bool VectorDCEFunction(Function* function);
// Identifies the live components of the vectors that are results of
// instructions in |function|. The results are stored in |live_components|.
void FindLiveComponents(Function* function,
LiveComponentMap* live_components);
// Rewrites instructions in |function| that are dead or partially dead. If an
// instruction does not have an entry in |live_components|, then it is not
// changed. Returns true if |function| was modified.
bool RewriteInstructions(Function* function,
const LiveComponentMap& live_components);
// Makrs all DebugValue instructions that use |composite| for their values as
// dead instructions by putting them into |dead_dbg_value|.
void MarkDebugValueUsesAsDead(Instruction* composite,
std::vector<Instruction*>* dead_dbg_value);
// Rewrites the OpCompositeInsert instruction |current_inst| to avoid
// unnecessary computes given that the only components of the result that are
// live are |live_components|.
//
// If the value being inserted is not live, then the result of |current_inst|
// is replaced by the composite input to |current_inst|.
//
// If the composite input to |current_inst| is not live, then it is replaced
// by and OpUndef in |current_inst|.
bool RewriteInsertInstruction(Instruction* current_inst,
const utils::BitVector& live_components,
std::vector<Instruction*>* dead_dbg_value);
// Returns true if the result of |inst| is a vector or a scalar.
bool HasVectorOrScalarResult(const Instruction* inst) const;
// Returns true if the result of |inst| is a scalar.
bool HasVectorResult(const Instruction* inst) const;
// Returns true if the result of |inst| is a vector.
bool HasScalarResult(const Instruction* inst) const;
// Adds |work_item| to |work_list| if it is not already live according to
// |live_components|. |live_components| is updated to indicate that
// |work_item| is now live.
void AddItemToWorkListIfNeeded(WorkListItem work_item,
LiveComponentMap* live_components,
std::vector<WorkListItem>* work_list);
// Marks the components |live_elements| of the uses in |current_inst| as live
// according to |live_components|. If they were not live before, then they are
// added to |work_list|.
void MarkUsesAsLive(Instruction* current_inst,
const utils::BitVector& live_elements,
LiveComponentMap* live_components,
std::vector<WorkListItem>* work_list);
// Marks the uses in the OpVectorShuffle instruction in |current_item| as live
// based on the live components in |current_item|. If anything becomes live
// they are added to |work_list| and |live_components| is updated
// accordingly.
void MarkVectorShuffleUsesAsLive(const WorkListItem& current_item,
VectorDCE::LiveComponentMap* live_components,
std::vector<WorkListItem>* work_list);
// Marks the uses in the OpCompositeInsert instruction in |current_item| as
// live based on the live components in |current_item|. If anything becomes
// live they are added to |work_list| and |live_components| is updated
// accordingly.
void MarkInsertUsesAsLive(const WorkListItem& current_item,
LiveComponentMap* live_components,
std::vector<WorkListItem>* work_list);
// Marks the uses in the OpCompositeExtract instruction |current_inst| as
// live. If anything becomes live they are added to |work_list| and
// |live_components| is updated accordingly.
void MarkExtractUseAsLive(const Instruction* current_inst,
const utils::BitVector& live_elements,
LiveComponentMap* live_components,
std::vector<WorkListItem>* work_list);
// Marks the uses in the OpCompositeConstruct instruction |current_inst| as
// live. If anything becomes live they are added to |work_list| and
// |live_components| is updated accordingly.
void MarkCompositeContructUsesAsLive(WorkListItem work_item,
LiveComponentMap* live_components,
std::vector<WorkListItem>* work_list);
// A BitVector that can always be used to say that all components of a vector
// are live.
utils::BitVector all_components_live_;
};
} // namespace opt
} // namespace spvtools
#endif // SOURCE_OPT_VECTOR_DCE_H_