source/comp/markv_codec.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_COMP_MARKV_CODEC_H_
 #define SOURCE_COMP_MARKV_CODEC_H_

 #include <list>
 #include <map>
 #include <memory>
 #include <vector>

 #include "source/assembly_grammar.h"
 #include "source/comp/huffman_codec.h"
 #include "source/comp/markv_model.h"
 #include "source/comp/move_to_front.h"
 #include "source/diagnostic.h"
 #include "source/id_descriptor.h"

 #include "source/val/instruction.h"

 // Base class for MARK-V encoder and decoder. Contains common functionality
 // such as:
 // - Validator connection and validation state.
 // - SPIR-V grammar and helper functions.

 namespace spvtools {
 namespace comp {

 class MarkvLogger;

 // Handles for move-to-front sequences. Enums which end with "Begin" define
 // handle spaces which start at that value and span 16 or 32 bit wide.
 enum : uint64_t {
   kMtfNone = 0,
   // All ids.
   kMtfAll,
   // All forward declared ids.
   kMtfForwardDeclared,
   // All type ids except for generated by OpTypeFunction.
   kMtfTypeNonFunction,
   // All labels.
   kMtfLabel,
   // All ids created by instructions which had type_id.
   kMtfObject,
   // All types generated by OpTypeFloat, OpTypeInt, OpTypeBool.
   kMtfTypeScalar,
   // All composite types.
   kMtfTypeComposite,
   // Boolean type or any vector type of it.
   kMtfTypeBoolScalarOrVector,
   // All float types or any vector floats type.
   kMtfTypeFloatScalarOrVector,
   // All int types or any vector int type.
   kMtfTypeIntScalarOrVector,
   // All types declared as return types in OpTypeFunction.
   kMtfTypeReturnedByFunction,
   // All composite objects.
   kMtfComposite,
   // All bool objects or vectors of bools.
   kMtfBoolScalarOrVector,
   // All float objects or vectors of float.
   kMtfFloatScalarOrVector,
   // All int objects or vectors of int.
   kMtfIntScalarOrVector,
   // All pointer types which point to composited.
   kMtfTypePointerToComposite,
   // Used by EncodeMtfRankHuffman.
   kMtfGenericNonZeroRank,
   // Handle space for ids of specific type.
   kMtfIdOfTypeBegin = 0x10000,
   // Handle space for ids generated by specific opcode.
   kMtfIdGeneratedByOpcode = 0x20000,
   // Handle space for ids of objects with type generated by specific opcode.
   kMtfIdWithTypeGeneratedByOpcodeBegin = 0x30000,
   // All vectors of specific component type.
   kMtfVectorOfComponentTypeBegin = 0x40000,
   // All vector types of specific size.
   kMtfTypeVectorOfSizeBegin = 0x50000,
   // All pointer types to specific type.
   kMtfPointerToTypeBegin = 0x60000,
   // All function types which return specific type.
   kMtfFunctionTypeWithReturnTypeBegin = 0x70000,
   // All function objects which return specific type.
   kMtfFunctionWithReturnTypeBegin = 0x80000,
   // Short id descriptor space (max 16-bit).
   kMtfShortIdDescriptorSpaceBegin = 0x90000,
   // Long id descriptor space (32-bit).
   kMtfLongIdDescriptorSpaceBegin = 0x100000000,
 };

 class MarkvCodec {
  public:
   static const uint32_t kMarkvMagicNumber;

   // Mtf ranks smaller than this are encoded with Huffman coding.
   static const uint32_t kMtfSmallestRankEncodedByValue;

   // Signals that the mtf rank is too large to be encoded with Huffman.
   static const uint32_t kMtfRankEncodedByValueSignal;

   static const uint32_t kShortDescriptorNumBits;

   static const size_t kByteBreakAfterInstIfLessThanUntilNextByte;

   static uint32_t GetMarkvVersion();

   virtual ~MarkvCodec();

  protected:
   struct MarkvHeader {
     MarkvHeader();

     uint32_t magic_number;
     uint32_t markv_version;
     // Magic number to identify or verify MarkvModel used for encoding.
     uint32_t markv_model = 0;
     uint32_t markv_length_in_bits = 0;
     uint32_t spirv_version = 0;
     uint32_t spirv_generator = 0;
   };

   // |model| is owned by the caller, must be not null and valid during the
   // lifetime of the codec.
   MarkvCodec(spv_const_context context, spv_validator_options validator_options,
              const MarkvModel* model);

   // Returns instruction which created |id| or nullptr if such instruction was
   // not registered.
   const val::Instruction* FindDef(uint32_t id) const {
     const auto it = id_to_def_instruction_.find(id);
     if (it == id_to_def_instruction_.end()) return nullptr;
     return it->second;
   }

   size_t GetNumBitsToNextByte(size_t bit_pos) const;
   bool OpcodeHasFixedNumberOfOperands(SpvOp opcode) const;

   // Returns type id of vector type component.
   uint32_t GetVectorComponentType(uint32_t vector_type_id) const {
     const val::Instruction* type_inst = FindDef(vector_type_id);
     assert(type_inst);
     assert(type_inst->opcode() == SpvOpTypeVector);

     const uint32_t component_type =
         type_inst->word(type_inst->operands()[1].offset);
     return component_type;
   }

   // Returns mtf handle for ids of given type.
   uint64_t GetMtfIdOfType(uint32_t type_id) const {
     return kMtfIdOfTypeBegin + type_id;
   }

   // Returns mtf handle for ids generated by given opcode.
   uint64_t GetMtfIdGeneratedByOpcode(SpvOp opcode) const {
     return kMtfIdGeneratedByOpcode + opcode;
   }

   // Returns mtf handle for ids of type generated by given opcode.
   uint64_t GetMtfIdWithTypeGeneratedByOpcode(SpvOp opcode) const {
     return kMtfIdWithTypeGeneratedByOpcodeBegin + opcode;
   }

   // Returns mtf handle for vectors of specific component type.
   uint64_t GetMtfVectorOfComponentType(uint32_t type_id) const {
     return kMtfVectorOfComponentTypeBegin + type_id;
   }

   // Returns mtf handle for vector type of specific size.
   uint64_t GetMtfTypeVectorOfSize(uint32_t size) const {
     return kMtfTypeVectorOfSizeBegin + size;
   }

   // Returns mtf handle for pointers to specific size.
   uint64_t GetMtfPointerToType(uint32_t type_id) const {
     return kMtfPointerToTypeBegin + type_id;
   }

   // Returns mtf handle for function types with given return type.
   uint64_t GetMtfFunctionTypeWithReturnType(uint32_t type_id) const {
     return kMtfFunctionTypeWithReturnTypeBegin + type_id;
   }

   // Returns mtf handle for functions with given return type.
   uint64_t GetMtfFunctionWithReturnType(uint32_t type_id) const {
     return kMtfFunctionWithReturnTypeBegin + type_id;
   }

   // Returns mtf handle for the given long id descriptor.
   uint64_t GetMtfLongIdDescriptor(uint32_t descriptor) const {
     return kMtfLongIdDescriptorSpaceBegin + descriptor;
   }

   // Returns mtf handle for the given short id descriptor.
   uint64_t GetMtfShortIdDescriptor(uint32_t descriptor) const {
     return kMtfShortIdDescriptorSpaceBegin + descriptor;
   }

   // Process data from the current instruction. This would update MTFs and
   // other data containers.
   void ProcessCurInstruction();

   // Returns move-to-front handle to be used for the current operand slot.
   // Mtf handle is chosen based on a set of rules defined by SPIR-V grammar.
   uint64_t GetRuleBasedMtf();

   // Returns words of the current instruction. Decoder has a different
   // implementation and the array is valid only until the previously decoded
   // word.
   virtual const uint32_t* GetInstWords() const { return inst_.words; }

   // Returns the opcode of the previous instruction.
   SpvOp GetPrevOpcode() const {
     if (instructions_.empty()) return SpvOpNop;

     return instructions_.back()->opcode();
   }

   // Returns diagnostic stream, position index is set to instruction number.
   DiagnosticStream Diag(spv_result_t error_code) const {
     return DiagnosticStream({0, 0, instructions_.size()}, context_->consumer,
                             "", error_code);
   }

   // Returns current id bound.
   uint32_t GetIdBound() const { return id_bound_; }

   // Sets current id bound, expected to be no lower than the previous one.
   void SetIdBound(uint32_t id_bound) {
     assert(id_bound >= id_bound_);
     id_bound_ = id_bound;
   }

   // Returns Huffman codec for ranks of the mtf with given |handle|.
   // Different mtfs can use different rank distributions.
   // May return nullptr if the codec doesn't exist.
   const HuffmanCodec<uint32_t>* GetMtfHuffmanCodec(uint64_t handle) const {
     const auto it = mtf_huffman_codecs_.find(handle);
     if (it == mtf_huffman_codecs_.end()) return nullptr;
     return it->second.get();
   }

   // Promotes id in all move-to-front sequences if ids can be shared by multiple
   // sequences.
   void PromoteIfNeeded(uint32_t id) {
     if (!model_->AnyDescriptorHasCodingScheme() &&
         model_->id_fallback_strategy() ==
             MarkvModel::IdFallbackStrategy::kShortDescriptor) {
       // Move-to-front sequences do not share ids. Nothing to do.
       return;
     }
     multi_mtf_.Promote(id);
   }

   spv_validator_options validator_options_ = nullptr;
   const AssemblyGrammar grammar_;
   MarkvHeader header_;

   // MARK-V model, not owned.
   const MarkvModel* model_ = nullptr;

   // Current instruction, current operand and current operand index.
   spv_parsed_instruction_t inst_;
   spv_parsed_operand_t operand_;
   uint32_t operand_index_;

   // Maps a result ID to its type ID.  By convention:
   //  - a result ID that is a type definition maps to itself.
   //  - a result ID without a type maps to 0.  (E.g. for OpLabel)
   std::unordered_map<uint32_t, uint32_t> id_to_type_id_;

   // Container for all move-to-front sequences.
   MultiMoveToFront multi_mtf_;

   // Id of the current function or zero if outside of function.
   uint32_t cur_function_id_ = 0;

   // Return type of the current function.
   uint32_t cur_function_return_type_ = 0;

   // Remaining function parameter types. This container is filled on OpFunction,
   // and drained on OpFunctionParameter.
   std::list<uint32_t> remaining_function_parameter_types_;

   // List of ids local to the current function.
   std::vector<uint32_t> ids_local_to_cur_function_;

   // List of instructions in the order they are given in the module.
   std::vector<std::unique_ptr<const val::Instruction>> instructions_;

   // Container/computer for long (32-bit) id descriptors.
   IdDescriptorCollection long_id_descriptors_;

   // Container/computer for short id descriptors.
   // Short descriptors are stored in uint32_t, but their actual bit width is
   // defined with kShortDescriptorNumBits.
   // It doesn't seem logical to have a different computer for short id
   // descriptors, since one could actually map/truncate long descriptors.
   // But as short descriptors have collisions, the efficiency of
   // compression depends on the collision pattern, and short descriptors
   // produced by function ShortHashU32Array have been empirically proven to
   // produce better results.
   IdDescriptorCollection short_id_descriptors_;

   // Huffman codecs for move-to-front ranks. The map key is mtf handle. Doesn't
   // need to contain a different codec for every handle as most use one and the
   // same.
   std::map<uint64_t, std::unique_ptr<HuffmanCodec<uint32_t>>>
       mtf_huffman_codecs_;

   // If not nullptr, codec will log comments on the compression process.
   std::unique_ptr<MarkvLogger> logger_;

   spv_const_context context_ = nullptr;

  private:
   // Maps result id to the instruction which defined it.
   std::unordered_map<uint32_t, const val::Instruction*> id_to_def_instruction_;

   uint32_t id_bound_ = 1;
 };

 }  // namespace comp
 }  // namespace spvtools

 #endif  // SOURCE_COMP_MARKV_CODEC_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_COMP_MARKV_CODEC_H_
	#define SOURCE_COMP_MARKV_CODEC_H_

	#include <list>
	#include <map>
	#include <memory>
	#include <vector>

	#include "source/assembly_grammar.h"
	#include "source/comp/huffman_codec.h"
	#include "source/comp/markv_model.h"
	#include "source/comp/move_to_front.h"
	#include "source/diagnostic.h"
	#include "source/id_descriptor.h"

	#include "source/val/instruction.h"

	// Base class for MARK-V encoder and decoder. Contains common functionality
	// such as:
	// - Validator connection and validation state.
	// - SPIR-V grammar and helper functions.

	namespace spvtools {
	namespace comp {

	class MarkvLogger;

	// Handles for move-to-front sequences. Enums which end with "Begin" define
	// handle spaces which start at that value and span 16 or 32 bit wide.
	enum : uint64_t {
	kMtfNone = 0,
	// All ids.
	kMtfAll,
	// All forward declared ids.
	kMtfForwardDeclared,
	// All type ids except for generated by OpTypeFunction.
	kMtfTypeNonFunction,
	// All labels.
	kMtfLabel,
	// All ids created by instructions which had type_id.
	kMtfObject,
	// All types generated by OpTypeFloat, OpTypeInt, OpTypeBool.
	kMtfTypeScalar,
	// All composite types.
	kMtfTypeComposite,
	// Boolean type or any vector type of it.
	kMtfTypeBoolScalarOrVector,
	// All float types or any vector floats type.
	kMtfTypeFloatScalarOrVector,
	// All int types or any vector int type.
	kMtfTypeIntScalarOrVector,
	// All types declared as return types in OpTypeFunction.
	kMtfTypeReturnedByFunction,
	// All composite objects.
	kMtfComposite,
	// All bool objects or vectors of bools.
	kMtfBoolScalarOrVector,
	// All float objects or vectors of float.
	kMtfFloatScalarOrVector,
	// All int objects or vectors of int.
	kMtfIntScalarOrVector,
	// All pointer types which point to composited.
	kMtfTypePointerToComposite,
	// Used by EncodeMtfRankHuffman.
	kMtfGenericNonZeroRank,
	// Handle space for ids of specific type.
	kMtfIdOfTypeBegin = 0x10000,
	// Handle space for ids generated by specific opcode.
	kMtfIdGeneratedByOpcode = 0x20000,
	// Handle space for ids of objects with type generated by specific opcode.
	kMtfIdWithTypeGeneratedByOpcodeBegin = 0x30000,
	// All vectors of specific component type.
	kMtfVectorOfComponentTypeBegin = 0x40000,
	// All vector types of specific size.
	kMtfTypeVectorOfSizeBegin = 0x50000,
	// All pointer types to specific type.
	kMtfPointerToTypeBegin = 0x60000,
	// All function types which return specific type.
	kMtfFunctionTypeWithReturnTypeBegin = 0x70000,
	// All function objects which return specific type.
	kMtfFunctionWithReturnTypeBegin = 0x80000,
	// Short id descriptor space (max 16-bit).
	kMtfShortIdDescriptorSpaceBegin = 0x90000,
	// Long id descriptor space (32-bit).
	kMtfLongIdDescriptorSpaceBegin = 0x100000000,
	};

	class MarkvCodec {
	public:
	static const uint32_t kMarkvMagicNumber;

	// Mtf ranks smaller than this are encoded with Huffman coding.
	static const uint32_t kMtfSmallestRankEncodedByValue;

	// Signals that the mtf rank is too large to be encoded with Huffman.
	static const uint32_t kMtfRankEncodedByValueSignal;

	static const uint32_t kShortDescriptorNumBits;

	static const size_t kByteBreakAfterInstIfLessThanUntilNextByte;

	static uint32_t GetMarkvVersion();

	virtual ~MarkvCodec();

	protected:
	struct MarkvHeader {
	MarkvHeader();

	uint32_t magic_number;
	uint32_t markv_version;
	// Magic number to identify or verify MarkvModel used for encoding.
	uint32_t markv_model = 0;
	uint32_t markv_length_in_bits = 0;
	uint32_t spirv_version = 0;
	uint32_t spirv_generator = 0;
	};

	// \|model\| is owned by the caller, must be not null and valid during the
	// lifetime of the codec.
	MarkvCodec(spv_const_context context, spv_validator_options validator_options,
	const MarkvModel* model);

	// Returns instruction which created \|id\| or nullptr if such instruction was
	// not registered.
	const val::Instruction* FindDef(uint32_t id) const {
	const auto it = id_to_def_instruction_.find(id);
	if (it == id_to_def_instruction_.end()) return nullptr;
	return it->second;
	}

	size_t GetNumBitsToNextByte(size_t bit_pos) const;
	bool OpcodeHasFixedNumberOfOperands(SpvOp opcode) const;

	// Returns type id of vector type component.
	uint32_t GetVectorComponentType(uint32_t vector_type_id) const {
	const val::Instruction* type_inst = FindDef(vector_type_id);
	assert(type_inst);
	assert(type_inst->opcode() == SpvOpTypeVector);

	const uint32_t component_type =
	type_inst->word(type_inst->operands()[1].offset);
	return component_type;
	}

	// Returns mtf handle for ids of given type.
	uint64_t GetMtfIdOfType(uint32_t type_id) const {
	return kMtfIdOfTypeBegin + type_id;
	}

	// Returns mtf handle for ids generated by given opcode.
	uint64_t GetMtfIdGeneratedByOpcode(SpvOp opcode) const {
	return kMtfIdGeneratedByOpcode + opcode;
	}

	// Returns mtf handle for ids of type generated by given opcode.
	uint64_t GetMtfIdWithTypeGeneratedByOpcode(SpvOp opcode) const {
	return kMtfIdWithTypeGeneratedByOpcodeBegin + opcode;
	}

	// Returns mtf handle for vectors of specific component type.
	uint64_t GetMtfVectorOfComponentType(uint32_t type_id) const {
	return kMtfVectorOfComponentTypeBegin + type_id;
	}

	// Returns mtf handle for vector type of specific size.
	uint64_t GetMtfTypeVectorOfSize(uint32_t size) const {
	return kMtfTypeVectorOfSizeBegin + size;
	}

	// Returns mtf handle for pointers to specific size.
	uint64_t GetMtfPointerToType(uint32_t type_id) const {
	return kMtfPointerToTypeBegin + type_id;
	}

	// Returns mtf handle for function types with given return type.
	uint64_t GetMtfFunctionTypeWithReturnType(uint32_t type_id) const {
	return kMtfFunctionTypeWithReturnTypeBegin + type_id;
	}

	// Returns mtf handle for functions with given return type.
	uint64_t GetMtfFunctionWithReturnType(uint32_t type_id) const {
	return kMtfFunctionWithReturnTypeBegin + type_id;
	}

	// Returns mtf handle for the given long id descriptor.
	uint64_t GetMtfLongIdDescriptor(uint32_t descriptor) const {
	return kMtfLongIdDescriptorSpaceBegin + descriptor;
	}

	// Returns mtf handle for the given short id descriptor.
	uint64_t GetMtfShortIdDescriptor(uint32_t descriptor) const {
	return kMtfShortIdDescriptorSpaceBegin + descriptor;
	}

	// Process data from the current instruction. This would update MTFs and
	// other data containers.
	void ProcessCurInstruction();

	// Returns move-to-front handle to be used for the current operand slot.
	// Mtf handle is chosen based on a set of rules defined by SPIR-V grammar.
	uint64_t GetRuleBasedMtf();

	// Returns words of the current instruction. Decoder has a different
	// implementation and the array is valid only until the previously decoded
	// word.
	virtual const uint32_t* GetInstWords() const { return inst_.words; }

	// Returns the opcode of the previous instruction.
	SpvOp GetPrevOpcode() const {
	if (instructions_.empty()) return SpvOpNop;

	return instructions_.back()->opcode();
	}

	// Returns diagnostic stream, position index is set to instruction number.
	DiagnosticStream Diag(spv_result_t error_code) const {
	return DiagnosticStream({0, 0, instructions_.size()}, context_->consumer,
	"", error_code);
	}

	// Returns current id bound.
	uint32_t GetIdBound() const { return id_bound_; }

	// Sets current id bound, expected to be no lower than the previous one.
	void SetIdBound(uint32_t id_bound) {
	assert(id_bound >= id_bound_);
	id_bound_ = id_bound;
	}

	// Returns Huffman codec for ranks of the mtf with given \|handle\|.
	// Different mtfs can use different rank distributions.
	// May return nullptr if the codec doesn't exist.
	const HuffmanCodec<uint32_t>* GetMtfHuffmanCodec(uint64_t handle) const {
	const auto it = mtf_huffman_codecs_.find(handle);
	if (it == mtf_huffman_codecs_.end()) return nullptr;
	return it->second.get();
	}

	// Promotes id in all move-to-front sequences if ids can be shared by multiple
	// sequences.
	void PromoteIfNeeded(uint32_t id) {
	if (!model_->AnyDescriptorHasCodingScheme() &&
	model_->id_fallback_strategy() ==
	MarkvModel::IdFallbackStrategy::kShortDescriptor) {
	// Move-to-front sequences do not share ids. Nothing to do.
	return;
	}
	multi_mtf_.Promote(id);
	}

	spv_validator_options validator_options_ = nullptr;
	const AssemblyGrammar grammar_;
	MarkvHeader header_;

	// MARK-V model, not owned.
	const MarkvModel* model_ = nullptr;

	// Current instruction, current operand and current operand index.
	spv_parsed_instruction_t inst_;
	spv_parsed_operand_t operand_;
	uint32_t operand_index_;

	// Maps a result ID to its type ID. By convention:
	// - a result ID that is a type definition maps to itself.
	// - a result ID without a type maps to 0. (E.g. for OpLabel)
	std::unordered_map<uint32_t, uint32_t> id_to_type_id_;

	// Container for all move-to-front sequences.
	MultiMoveToFront multi_mtf_;

	// Id of the current function or zero if outside of function.
	uint32_t cur_function_id_ = 0;

	// Return type of the current function.
	uint32_t cur_function_return_type_ = 0;

	// Remaining function parameter types. This container is filled on OpFunction,
	// and drained on OpFunctionParameter.
	std::list<uint32_t> remaining_function_parameter_types_;

	// List of ids local to the current function.
	std::vector<uint32_t> ids_local_to_cur_function_;

	// List of instructions in the order they are given in the module.
	std::vector<std::unique_ptr<const val::Instruction>> instructions_;

	// Container/computer for long (32-bit) id descriptors.
	IdDescriptorCollection long_id_descriptors_;

	// Container/computer for short id descriptors.
	// Short descriptors are stored in uint32_t, but their actual bit width is
	// defined with kShortDescriptorNumBits.
	// It doesn't seem logical to have a different computer for short id
	// descriptors, since one could actually map/truncate long descriptors.
	// But as short descriptors have collisions, the efficiency of
	// compression depends on the collision pattern, and short descriptors
	// produced by function ShortHashU32Array have been empirically proven to
	// produce better results.
	IdDescriptorCollection short_id_descriptors_;

	// Huffman codecs for move-to-front ranks. The map key is mtf handle. Doesn't
	// need to contain a different codec for every handle as most use one and the
	// same.
	std::map<uint64_t, std::unique_ptr<HuffmanCodec<uint32_t>>>
	mtf_huffman_codecs_;

	// If not nullptr, codec will log comments on the compression process.
	std::unique_ptr<MarkvLogger> logger_;

	spv_const_context context_ = nullptr;

	private:
	// Maps result id to the instruction which defined it.
	std::unordered_map<uint32_t, const val::Instruction*> id_to_def_instruction_;

	uint32_t id_bound_ = 1;
	};

	} // namespace comp
	} // namespace spvtools

	#endif // SOURCE_COMP_MARKV_CODEC_H_