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https://github.com/KhronosGroup/SPIRV-Tools
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b5d60826e9
Remove stage specific debug info that is only needed by GPU-AV. This allows debug printfs to be used in multi-stage shader modules. Fixes #4892
327 lines
12 KiB
C++
327 lines
12 KiB
C++
// Copyright (c) 2018 The Khronos Group Inc.
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// Copyright (c) 2018 Valve Corporation
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// Copyright (c) 2018 LunarG Inc.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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#ifndef LIBSPIRV_OPT_INSTRUMENT_PASS_H_
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#define LIBSPIRV_OPT_INSTRUMENT_PASS_H_
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#include <list>
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#include <memory>
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#include <vector>
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#include "source/opt/ir_builder.h"
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#include "source/opt/pass.h"
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#include "spirv-tools/instrument.hpp"
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// This is a base class to assist in the creation of passes which instrument
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// shader modules. More specifically, passes which replace instructions with a
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// larger and more capable set of instructions. Commonly, these new
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// instructions will add testing of operands and execute different
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// instructions depending on the outcome, including outputting of debug
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// information into a buffer created especially for that purpose.
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//
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// This class contains helper functions to create an InstProcessFunction,
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// which is the heart of any derived class implementing a specific
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// instrumentation pass. It takes an instruction as an argument, decides
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// if it should be instrumented, and generates code to replace it. This class
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// also supplies function InstProcessEntryPointCallTree which applies the
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// InstProcessFunction to every reachable instruction in a module and replaces
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// the instruction with new instructions if generated.
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//
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// Chief among the helper functions are output code generation functions,
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// used to generate code in the shader which writes data to output buffers
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// associated with that validation. Currently one such function,
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// GenDebugStreamWrite, exists. Other such functions may be added in the
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// future. Each is accompanied by documentation describing the format of
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// its output buffer.
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//
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// A validation pass may read or write multiple buffers. All such buffers
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// are located in a single debug descriptor set whose index is passed at the
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// creation of the instrumentation pass. The bindings of the buffers used by
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// a validation pass are permanently assigned and fixed and documented by
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// the kDebugOutput* static consts.
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namespace spvtools {
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namespace opt {
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class InstrumentPass : public Pass {
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using cbb_ptr = const BasicBlock*;
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public:
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using InstProcessFunction =
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std::function<void(BasicBlock::iterator, UptrVectorIterator<BasicBlock>,
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uint32_t, std::vector<std::unique_ptr<BasicBlock>>*)>;
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~InstrumentPass() override = default;
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IRContext::Analysis GetPreservedAnalyses() override {
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return IRContext::kAnalysisDefUse | IRContext::kAnalysisDecorations |
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IRContext::kAnalysisCombinators | IRContext::kAnalysisNameMap |
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IRContext::kAnalysisBuiltinVarId | IRContext::kAnalysisConstants;
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}
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protected:
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// Create instrumentation pass for |validation_id| which utilizes descriptor
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// set |desc_set| for debug input and output buffers and writes |shader_id|
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// into debug output records. |opt_direct_reads| indicates that the pass
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// will see direct input buffer reads and should prepare to optimize them.
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InstrumentPass(uint32_t desc_set, uint32_t shader_id, bool opt_direct_reads,
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bool use_stage_info)
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: Pass(),
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desc_set_(desc_set),
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shader_id_(shader_id),
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opt_direct_reads_(opt_direct_reads),
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use_stage_info_(use_stage_info) {}
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// Initialize state for instrumentation of module.
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void InitializeInstrument();
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// Call |pfn| on all instructions in all functions in the call tree of the
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// entry points in |module|. If code is generated for an instruction, replace
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// the instruction's block with the new blocks that are generated. Continue
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// processing at the top of the last new block.
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bool InstProcessEntryPointCallTree(InstProcessFunction& pfn);
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// Move all code in |ref_block_itr| preceding the instruction |ref_inst_itr|
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// to be instrumented into block |new_blk_ptr|.
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void MovePreludeCode(BasicBlock::iterator ref_inst_itr,
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UptrVectorIterator<BasicBlock> ref_block_itr,
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std::unique_ptr<BasicBlock>* new_blk_ptr);
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// Move all code in |ref_block_itr| succeeding the instruction |ref_inst_itr|
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// to be instrumented into block |new_blk_ptr|.
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void MovePostludeCode(UptrVectorIterator<BasicBlock> ref_block_itr,
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BasicBlock* new_blk_ptr);
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// Return true if all instructions in |ids| are constants or spec constants.
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bool AllConstant(const std::vector<uint32_t>& ids);
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uint32_t GenReadFunctionCall(uint32_t return_id, uint32_t func_id,
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const std::vector<uint32_t>& args,
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InstructionBuilder* builder);
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// Generate code to convert integer |value_id| to 32bit, if needed. Return
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// an id to the 32bit equivalent.
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uint32_t Gen32BitCvtCode(uint32_t value_id, InstructionBuilder* builder);
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// Generate code to cast integer |value_id| to 32bit unsigned, if needed.
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// Return an id to the Uint equivalent.
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uint32_t GenUintCastCode(uint32_t value_id, InstructionBuilder* builder);
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std::unique_ptr<Function> StartFunction(
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uint32_t func_id, const analysis::Type* return_type,
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const std::vector<const analysis::Type*>& param_types);
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std::vector<uint32_t> AddParameters(
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Function& func, const std::vector<const analysis::Type*>& param_types);
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std::unique_ptr<Instruction> EndFunction();
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// Return new label.
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std::unique_ptr<Instruction> NewLabel(uint32_t label_id);
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// Set the name function parameter or local variable
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std::unique_ptr<Instruction> NewName(uint32_t id,
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const std::string& name_str);
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// Return id for 32-bit unsigned type
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uint32_t GetUintId();
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// Return id for 64-bit unsigned type
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uint32_t GetUint64Id();
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// Return id for 8-bit unsigned type
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uint32_t GetUint8Id();
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// Return id for 32-bit unsigned type
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uint32_t GetBoolId();
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// Return id for void type
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uint32_t GetVoidId();
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// Get registered type structures
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analysis::Integer* GetInteger(uint32_t width, bool is_signed);
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analysis::Struct* GetStruct(const std::vector<const analysis::Type*>& fields);
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analysis::RuntimeArray* GetRuntimeArray(const analysis::Type* element);
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analysis::Array* GetArray(const analysis::Type* element, uint32_t size);
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analysis::Function* GetFunction(
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const analysis::Type* return_val,
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const std::vector<const analysis::Type*>& args);
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// Return pointer to type for runtime array of uint
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analysis::RuntimeArray* GetUintXRuntimeArrayType(
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uint32_t width, analysis::RuntimeArray** rarr_ty);
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// Return pointer to type for runtime array of uint
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analysis::RuntimeArray* GetUintRuntimeArrayType(uint32_t width);
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// Add storage buffer extension if needed
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void AddStorageBufferExt();
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// Return id for 32-bit float type
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uint32_t GetFloatId();
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// Return id for v4float type
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uint32_t GetVec4FloatId();
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// Return id for uint vector type of |length|
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uint32_t GetVecUintId(uint32_t length);
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// Return id for v4uint type
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uint32_t GetVec4UintId();
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// Return id for v3uint type
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uint32_t GetVec3UintId();
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// Split block |block_itr| into two new blocks where the second block
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// contains |inst_itr| and place in |new_blocks|.
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void SplitBlock(BasicBlock::iterator inst_itr,
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UptrVectorIterator<BasicBlock> block_itr,
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std::vector<std::unique_ptr<BasicBlock>>* new_blocks);
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// Apply instrumentation function |pfn| to every instruction in |func|.
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// If code is generated for an instruction, replace the instruction's
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// block with the new blocks that are generated. Continue processing at the
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// top of the last new block.
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virtual bool InstrumentFunction(Function* func, uint32_t stage_idx,
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InstProcessFunction& pfn);
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// Call |pfn| on all functions in the call tree of the function
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// ids in |roots|.
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bool InstProcessCallTreeFromRoots(InstProcessFunction& pfn,
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std::queue<uint32_t>* roots,
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uint32_t stage_idx);
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// Generate instructions into |builder| which will load |var_id| and return
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// its result id.
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uint32_t GenVarLoad(uint32_t var_id, InstructionBuilder* builder);
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uint32_t GenStageInfo(uint32_t stage_idx, InstructionBuilder* builder);
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// Return true if instruction must be in the same block that its result
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// is used.
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bool IsSameBlockOp(const Instruction* inst) const;
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// Clone operands which must be in same block as consumer instructions.
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// Look in same_blk_pre for instructions that need cloning. Look in
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// same_blk_post for instructions already cloned. Add cloned instruction
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// to same_blk_post.
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void CloneSameBlockOps(
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std::unique_ptr<Instruction>* inst,
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std::unordered_map<uint32_t, uint32_t>* same_blk_post,
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std::unordered_map<uint32_t, Instruction*>* same_blk_pre,
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BasicBlock* block_ptr);
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// Update phis in succeeding blocks to point to new last block
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void UpdateSucceedingPhis(
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std::vector<std::unique_ptr<BasicBlock>>& new_blocks);
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// Debug descriptor set index
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uint32_t desc_set_;
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// Shader module ID written into output record
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uint32_t shader_id_;
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// Map from function id to function pointer.
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std::unordered_map<uint32_t, Function*> id2function_;
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// Map from block's label id to block. TODO(dnovillo): This is superfluous wrt
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// CFG. It has functionality not present in CFG. Consolidate.
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std::unordered_map<uint32_t, BasicBlock*> id2block_;
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// Map from instruction's unique id to offset in original file.
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std::unordered_map<uint32_t, uint32_t> uid2offset_;
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// id for debug output function
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std::unordered_map<uint32_t, uint32_t> param2output_func_id_;
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// ids for debug input functions
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std::unordered_map<uint32_t, uint32_t> param2input_func_id_;
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// id for 32-bit float type
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uint32_t float_id_{0};
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// id for v4float type
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uint32_t v4float_id_{0};
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// id for v4uint type
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uint32_t v4uint_id_{0};
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// id for v3uint type
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uint32_t v3uint_id_{0};
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// id for 32-bit unsigned type
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uint32_t uint_id_{0};
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// id for 64-bit unsigned type
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uint32_t uint64_id_{0};
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// id for 8-bit unsigned type
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uint32_t uint8_id_{0};
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// id for bool type
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uint32_t bool_id_{0};
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// id for void type
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uint32_t void_id_{0};
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// boolean to remember storage buffer extension
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bool storage_buffer_ext_defined_{false};
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// runtime array of uint type
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analysis::RuntimeArray* uint64_rarr_ty_{nullptr};
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// runtime array of uint type
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analysis::RuntimeArray* uint32_rarr_ty_{nullptr};
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// Pre-instrumentation same-block insts
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std::unordered_map<uint32_t, Instruction*> same_block_pre_;
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// Post-instrumentation same-block op ids
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std::unordered_map<uint32_t, uint32_t> same_block_post_;
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// Map function calls to result id. Clear for every function.
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// This is for debug input reads with constant arguments that
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// have been generated into the first block of the function.
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// This mechanism is used to avoid multiple identical debug
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// input buffer reads.
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struct vector_hash_ {
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std::size_t operator()(const std::vector<uint32_t>& v) const {
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std::size_t hash = v.size();
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for (auto& u : v) {
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hash ^= u + 0x9e3779b9 + (hash << 11) + (hash >> 21);
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}
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return hash;
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}
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};
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std::unordered_map<std::vector<uint32_t>, uint32_t, vector_hash_> call2id_;
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// Function currently being instrumented
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Function* curr_func_{nullptr};
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// Optimize direct debug input buffer reads. Specifically, move all such
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// reads with constant args to first block and reuse them.
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const bool opt_direct_reads_;
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// Set true if the instrumentation needs to know the current stage.
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// Note that this does not work with multi-stage modules.
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const bool use_stage_info_;
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};
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} // namespace opt
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} // namespace spvtools
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#endif // LIBSPIRV_OPT_INSTRUMENT_PASS_H_
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