third_party/SPIRV-Tools/source/opt/register_pressure.h - SwiftShader - Git at Google

 // 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_REGISTER_PRESSURE_H_
 #define SOURCE_OPT_REGISTER_PRESSURE_H_

 #include <unordered_map>
 #include <unordered_set>
 #include <utility>
 #include <vector>

 #include "source/opt/function.h"
 #include "source/opt/types.h"

 namespace spvtools {
 namespace opt {

 class IRContext;
 class Loop;
 class LoopDescriptor;

 // Handles the register pressure of a function for different regions (function,
 // loop, basic block). It also contains some utilities to foresee the register
 // pressure following code transformations.
 class RegisterLiveness {
  public:
   // Classification of SSA registers.
   struct RegisterClass {
     analysis::Type* type_;
     bool is_uniform_;

     bool operator==(const RegisterClass& rhs) const {
       return std::tie(type_, is_uniform_) ==
              std::tie(rhs.type_, rhs.is_uniform_);
     }
   };

   struct RegionRegisterLiveness {
     using LiveSet = std::unordered_set<Instruction*>;
     using RegClassSetTy = std::vector<std::pair<RegisterClass, size_t>>;

     // SSA register live when entering the basic block.
     LiveSet live_in_;
     // SSA register live when exiting the basic block.
     LiveSet live_out_;

     // Maximum number of required registers.
     size_t used_registers_;
     // Break down of the number of required registers per class of register.
     RegClassSetTy registers_classes_;

     void Clear() {
       live_out_.clear();
       live_in_.clear();
       used_registers_ = 0;
       registers_classes_.clear();
     }

     void AddRegisterClass(const RegisterClass& reg_class) {
       auto it = std::find_if(
           registers_classes_.begin(), registers_classes_.end(),
           [&reg_class](const std::pair<RegisterClass, size_t>& class_count) {
             return class_count.first == reg_class;
           });
       if (it != registers_classes_.end()) {
         it->second++;
       } else {
         registers_classes_.emplace_back(std::move(reg_class),
                                         static_cast<size_t>(1));
       }
     }

     void AddRegisterClass(Instruction* insn);
   };

   RegisterLiveness(IRContext* context, Function* f) : context_(context) {
     Analyze(f);
   }

   // Returns liveness and register information for the basic block |bb|. If no
   // entry exist for the basic block, the function returns null.
   const RegionRegisterLiveness* Get(const BasicBlock* bb) const {
     return Get(bb->id());
   }

   // Returns liveness and register information for the basic block id |bb_id|.
   // If no entry exist for the basic block, the function returns null.
   const RegionRegisterLiveness* Get(uint32_t bb_id) const {
     RegionRegisterLivenessMap::const_iterator it = block_pressure_.find(bb_id);
     if (it != block_pressure_.end()) {
       return &it->second;
     }
     return nullptr;
   }

   IRContext* GetContext() const { return context_; }

   // Returns liveness and register information for the basic block |bb|. If no
   // entry exist for the basic block, the function returns null.
   RegionRegisterLiveness* Get(const BasicBlock* bb) { return Get(bb->id()); }

   // Returns liveness and register information for the basic block id |bb_id|.
   // If no entry exist for the basic block, the function returns null.
   RegionRegisterLiveness* Get(uint32_t bb_id) {
     RegionRegisterLivenessMap::iterator it = block_pressure_.find(bb_id);
     if (it != block_pressure_.end()) {
       return &it->second;
     }
     return nullptr;
   }

   // Returns liveness and register information for the basic block id |bb_id| or
   // create a new empty entry if no entry already existed.
   RegionRegisterLiveness* GetOrInsert(uint32_t bb_id) {
     return &block_pressure_[bb_id];
   }

   // Compute the register pressure for the |loop| and store the result into
   // |reg_pressure|. The live-in set corresponds to the live-in set of the
   // header block, the live-out set of the loop corresponds to the union of the
   // live-in sets of each exit basic block.
   void ComputeLoopRegisterPressure(const Loop& loop,
                                    RegionRegisterLiveness* reg_pressure) const;

   // Estimate the register pressure for the |l1| and |l2| as if they were making
   // one unique loop. The result is stored into |simulation_result|.
   void SimulateFusion(const Loop& l1, const Loop& l2,
                       RegionRegisterLiveness* simulation_result) const;

   // Estimate the register pressure of |loop| after it has been fissioned
   // according to |moved_instructions| and |copied_instructions|. The function
   // assumes that the fission creates a new loop before |loop|, moves any
   // instructions present inside |moved_instructions| and copies any
   // instructions present inside |copied_instructions| into this new loop.
   // The set |loop1_sim_result| store the simulation result of the loop with the
   // moved instructions. The set |loop2_sim_result| store the simulation result
   // of the loop with the removed instructions.
   void SimulateFission(
       const Loop& loop,
       const std::unordered_set<Instruction*>& moved_instructions,
       const std::unordered_set<Instruction*>& copied_instructions,
       RegionRegisterLiveness* loop1_sim_result,
       RegionRegisterLiveness* loop2_sim_result) const;

  private:
   using RegionRegisterLivenessMap =
       std::unordered_map<uint32_t, RegionRegisterLiveness>;

   IRContext* context_;
   RegionRegisterLivenessMap block_pressure_;

   void Analyze(Function* f);
 };

 // Handles the register pressure of a function for different regions (function,
 // loop, basic block). It also contains some utilities to foresee the register
 // pressure following code transformations.
 class LivenessAnalysis {
   using LivenessAnalysisMap =
       std::unordered_map<const Function*, RegisterLiveness>;

  public:
   LivenessAnalysis(IRContext* context) : context_(context) {}

   // Computes the liveness analysis for the function |f| and cache the result.
   // If the analysis was performed for this function, then the cached analysis
   // is returned.
   const RegisterLiveness* Get(Function* f) {
     LivenessAnalysisMap::iterator it = analysis_cache_.find(f);
     if (it != analysis_cache_.end()) {
       return &it->second;
     }
     return &analysis_cache_.emplace(f, RegisterLiveness{context_, f})
                 .first->second;
   }

  private:
   IRContext* context_;
   LivenessAnalysisMap analysis_cache_;
 };

 }  // namespace opt
 }  // namespace spvtools

 #endif  // SOURCE_OPT_REGISTER_PRESSURE_H_
	// 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_REGISTER_PRESSURE_H_
	#define SOURCE_OPT_REGISTER_PRESSURE_H_

	#include <unordered_map>
	#include <unordered_set>
	#include <utility>
	#include <vector>

	#include "source/opt/function.h"
	#include "source/opt/types.h"

	namespace spvtools {
	namespace opt {

	class IRContext;
	class Loop;
	class LoopDescriptor;

	// Handles the register pressure of a function for different regions (function,
	// loop, basic block). It also contains some utilities to foresee the register
	// pressure following code transformations.
	class RegisterLiveness {
	public:
	// Classification of SSA registers.
	struct RegisterClass {
	analysis::Type* type_;
	bool is_uniform_;

	bool operator==(const RegisterClass& rhs) const {
	return std::tie(type_, is_uniform_) ==
	std::tie(rhs.type_, rhs.is_uniform_);
	}
	};

	struct RegionRegisterLiveness {
	using LiveSet = std::unordered_set<Instruction*>;
	using RegClassSetTy = std::vector<std::pair<RegisterClass, size_t>>;

	// SSA register live when entering the basic block.
	LiveSet live_in_;
	// SSA register live when exiting the basic block.
	LiveSet live_out_;

	// Maximum number of required registers.
	size_t used_registers_;
	// Break down of the number of required registers per class of register.
	RegClassSetTy registers_classes_;

	void Clear() {
	live_out_.clear();
	live_in_.clear();
	used_registers_ = 0;
	registers_classes_.clear();
	}

	void AddRegisterClass(const RegisterClass& reg_class) {
	auto it = std::find_if(
	registers_classes_.begin(), registers_classes_.end(),
	[&reg_class](const std::pair<RegisterClass, size_t>& class_count) {
	return class_count.first == reg_class;
	});
	if (it != registers_classes_.end()) {
	it->second++;
	} else {
	registers_classes_.emplace_back(std::move(reg_class),
	static_cast<size_t>(1));
	}
	}

	void AddRegisterClass(Instruction* insn);
	};

	RegisterLiveness(IRContext* context, Function* f) : context_(context) {
	Analyze(f);
	}

	// Returns liveness and register information for the basic block \|bb\|. If no
	// entry exist for the basic block, the function returns null.
	const RegionRegisterLiveness* Get(const BasicBlock* bb) const {
	return Get(bb->id());
	}

	// Returns liveness and register information for the basic block id \|bb_id\|.
	// If no entry exist for the basic block, the function returns null.
	const RegionRegisterLiveness* Get(uint32_t bb_id) const {
	RegionRegisterLivenessMap::const_iterator it = block_pressure_.find(bb_id);
	if (it != block_pressure_.end()) {
	return &it->second;
	}
	return nullptr;
	}

	IRContext* GetContext() const { return context_; }

	// Returns liveness and register information for the basic block \|bb\|. If no
	// entry exist for the basic block, the function returns null.
	RegionRegisterLiveness* Get(const BasicBlock* bb) { return Get(bb->id()); }

	// Returns liveness and register information for the basic block id \|bb_id\|.
	// If no entry exist for the basic block, the function returns null.
	RegionRegisterLiveness* Get(uint32_t bb_id) {
	RegionRegisterLivenessMap::iterator it = block_pressure_.find(bb_id);
	if (it != block_pressure_.end()) {
	return &it->second;
	}
	return nullptr;
	}

	// Returns liveness and register information for the basic block id \|bb_id\| or
	// create a new empty entry if no entry already existed.
	RegionRegisterLiveness* GetOrInsert(uint32_t bb_id) {
	return &block_pressure_[bb_id];
	}

	// Compute the register pressure for the \|loop\| and store the result into
	// \|reg_pressure\|. The live-in set corresponds to the live-in set of the
	// header block, the live-out set of the loop corresponds to the union of the
	// live-in sets of each exit basic block.
	void ComputeLoopRegisterPressure(const Loop& loop,
	RegionRegisterLiveness* reg_pressure) const;

	// Estimate the register pressure for the \|l1\| and \|l2\| as if they were making
	// one unique loop. The result is stored into \|simulation_result\|.
	void SimulateFusion(const Loop& l1, const Loop& l2,
	RegionRegisterLiveness* simulation_result) const;

	// Estimate the register pressure of \|loop\| after it has been fissioned
	// according to \|moved_instructions\| and \|copied_instructions\|. The function
	// assumes that the fission creates a new loop before \|loop\|, moves any
	// instructions present inside \|moved_instructions\| and copies any
	// instructions present inside \|copied_instructions\| into this new loop.
	// The set \|loop1_sim_result\| store the simulation result of the loop with the
	// moved instructions. The set \|loop2_sim_result\| store the simulation result
	// of the loop with the removed instructions.
	void SimulateFission(
	const Loop& loop,
	const std::unordered_set<Instruction*>& moved_instructions,
	const std::unordered_set<Instruction*>& copied_instructions,
	RegionRegisterLiveness* loop1_sim_result,
	RegionRegisterLiveness* loop2_sim_result) const;

	private:
	using RegionRegisterLivenessMap =
	std::unordered_map<uint32_t, RegionRegisterLiveness>;

	IRContext* context_;
	RegionRegisterLivenessMap block_pressure_;

	void Analyze(Function* f);
	};

	// Handles the register pressure of a function for different regions (function,
	// loop, basic block). It also contains some utilities to foresee the register
	// pressure following code transformations.
	class LivenessAnalysis {
	using LivenessAnalysisMap =
	std::unordered_map<const Function*, RegisterLiveness>;

	public:
	LivenessAnalysis(IRContext* context) : context_(context) {}

	// Computes the liveness analysis for the function \|f\| and cache the result.
	// If the analysis was performed for this function, then the cached analysis
	// is returned.
	const RegisterLiveness* Get(Function* f) {
	LivenessAnalysisMap::iterator it = analysis_cache_.find(f);
	if (it != analysis_cache_.end()) {
	return &it->second;
	}
	return &analysis_cache_.emplace(f, RegisterLiveness{context_, f})
	.first->second;
	}

	private:
	IRContext* context_;
	LivenessAnalysisMap analysis_cache_;
	};

	} // namespace opt
	} // namespace spvtools

	#endif // SOURCE_OPT_REGISTER_PRESSURE_H_