mirror of
https://github.com/KhronosGroup/SPIRV-Tools
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e6b953361d
This CL moves the files in opt/ to consistenly be under the opt:: namespace. This frees up the ir:: namespace so it can be used to make a shared ir represenation.
477 lines
17 KiB
C++
477 lines
17 KiB
C++
// Copyright (c) 2016 Google 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_MODULE_H_
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#define LIBSPIRV_OPT_MODULE_H_
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#include <functional>
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#include <memory>
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#include <utility>
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#include <vector>
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#include "function.h"
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#include "instruction.h"
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#include "iterator.h"
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namespace spvtools {
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namespace opt {
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class IRContext;
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// A struct for containing the module header information.
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struct ModuleHeader {
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uint32_t magic_number;
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uint32_t version;
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uint32_t generator;
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uint32_t bound;
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uint32_t reserved;
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};
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// A SPIR-V module. It contains all the information for a SPIR-V module and
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// serves as the backbone of optimization transformations.
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class Module {
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public:
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using iterator = UptrVectorIterator<Function>;
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using const_iterator = UptrVectorIterator<Function, true>;
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using inst_iterator = InstructionList::iterator;
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using const_inst_iterator = InstructionList::const_iterator;
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// Creates an empty module with zero'd header.
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Module() : header_({}) {}
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// Sets the header to the given |header|.
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void SetHeader(const ModuleHeader& header) { header_ = header; }
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// Sets the Id bound.
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void SetIdBound(uint32_t bound) { header_.bound = bound; }
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// Returns the Id bound.
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uint32_t IdBound() { return header_.bound; }
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// Returns the current Id bound and increases it to the next available value.
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uint32_t TakeNextIdBound() { return header_.bound++; }
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// Appends a capability instruction to this module.
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inline void AddCapability(std::unique_ptr<Instruction> c);
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// Appends an extension instruction to this module.
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inline void AddExtension(std::unique_ptr<Instruction> e);
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// Appends an extended instruction set instruction to this module.
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inline void AddExtInstImport(std::unique_ptr<Instruction> e);
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// Set the memory model for this module.
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inline void SetMemoryModel(std::unique_ptr<Instruction> m);
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// Appends an entry point instruction to this module.
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inline void AddEntryPoint(std::unique_ptr<Instruction> e);
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// Appends an execution mode instruction to this module.
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inline void AddExecutionMode(std::unique_ptr<Instruction> e);
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// Appends a debug 1 instruction (excluding OpLine & OpNoLine) to this module.
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// "debug 1" instructions are the ones in layout section 7.a), see section
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// 2.4 Logical Layout of a Module from the SPIR-V specification.
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inline void AddDebug1Inst(std::unique_ptr<Instruction> d);
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// Appends a debug 2 instruction (excluding OpLine & OpNoLine) to this module.
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// "debug 2" instructions are the ones in layout section 7.b), see section
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// 2.4 Logical Layout of a Module from the SPIR-V specification.
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inline void AddDebug2Inst(std::unique_ptr<Instruction> d);
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// Appends a debug 3 instruction (OpModuleProcessed) to this module.
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// This is due to decision by the SPIR Working Group, pending publication.
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inline void AddDebug3Inst(std::unique_ptr<Instruction> d);
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// Appends an annotation instruction to this module.
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inline void AddAnnotationInst(std::unique_ptr<Instruction> a);
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// Appends a type-declaration instruction to this module.
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inline void AddType(std::unique_ptr<Instruction> t);
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// Appends a constant, global variable, or OpUndef instruction to this module.
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inline void AddGlobalValue(std::unique_ptr<Instruction> v);
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// Appends a function to this module.
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inline void AddFunction(std::unique_ptr<Function> f);
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// Returns a vector of pointers to type-declaration instructions in this
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// module.
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std::vector<Instruction*> GetTypes();
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std::vector<const Instruction*> GetTypes() const;
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// Returns a vector of pointers to constant-creation instructions in this
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// module.
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std::vector<Instruction*> GetConstants();
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std::vector<const Instruction*> GetConstants() const;
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// Return result id of global value with |opcode|, 0 if not present.
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uint32_t GetGlobalValue(SpvOp opcode) const;
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// Add global value with |opcode|, |result_id| and |type_id|
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void AddGlobalValue(SpvOp opcode, uint32_t result_id, uint32_t type_id);
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inline uint32_t id_bound() const { return header_.bound; }
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inline uint32_t version() const { return header_.version; }
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// Iterators for capabilities instructions contained in this module.
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inline inst_iterator capability_begin();
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inline inst_iterator capability_end();
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inline IteratorRange<inst_iterator> capabilities();
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inline IteratorRange<const_inst_iterator> capabilities() const;
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// Iterators for ext_inst_imports instructions contained in this module.
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inline inst_iterator ext_inst_import_begin();
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inline inst_iterator ext_inst_import_end();
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inline IteratorRange<inst_iterator> ext_inst_imports();
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inline IteratorRange<const_inst_iterator> ext_inst_imports() const;
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// Return the memory model instruction contained inthis module.
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inline Instruction* GetMemoryModel() { return memory_model_.get(); }
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inline const Instruction* GetMemoryModel() const {
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return memory_model_.get();
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}
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// There are several kinds of debug instructions, according to where they can
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// appear in the logical layout of a module:
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// - Section 7a: OpString, OpSourceExtension, OpSource, OpSourceContinued
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// - Section 7b: OpName, OpMemberName
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// - Section 7c: OpModuleProcessed
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// - Mostly anywhere: OpLine and OpNoLine
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//
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// Iterators for debug 1 instructions (excluding OpLine & OpNoLine) contained
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// in this module. These are for layout section 7a.
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inline inst_iterator debug1_begin();
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inline inst_iterator debug1_end();
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inline IteratorRange<inst_iterator> debugs1();
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inline IteratorRange<const_inst_iterator> debugs1() const;
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// Iterators for debug 2 instructions (excluding OpLine & OpNoLine) contained
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// in this module. These are for layout section 7b.
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inline inst_iterator debug2_begin();
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inline inst_iterator debug2_end();
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inline IteratorRange<inst_iterator> debugs2();
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inline IteratorRange<const_inst_iterator> debugs2() const;
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// Iterators for debug 3 instructions (excluding OpLine & OpNoLine) contained
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// in this module. These are for layout section 7c.
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inline inst_iterator debug3_begin();
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inline inst_iterator debug3_end();
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inline IteratorRange<inst_iterator> debugs3();
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inline IteratorRange<const_inst_iterator> debugs3() const;
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// Iterators for entry point instructions contained in this module
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inline IteratorRange<inst_iterator> entry_points();
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inline IteratorRange<const_inst_iterator> entry_points() const;
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// Iterators for execution_modes instructions contained in this module.
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inline inst_iterator execution_mode_begin();
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inline inst_iterator execution_mode_end();
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inline IteratorRange<inst_iterator> execution_modes();
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inline IteratorRange<const_inst_iterator> execution_modes() const;
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// Clears all debug instructions (excluding OpLine & OpNoLine).
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void debug_clear() {
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debug1_clear();
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debug2_clear();
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debug3_clear();
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}
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// Clears all debug 1 instructions (excluding OpLine & OpNoLine).
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void debug1_clear() { debugs1_.clear(); }
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// Clears all debug 2 instructions (excluding OpLine & OpNoLine).
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void debug2_clear() { debugs2_.clear(); }
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// Clears all debug 3 instructions (excluding OpLine & OpNoLine).
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void debug3_clear() { debugs3_.clear(); }
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// Iterators for annotation instructions contained in this module.
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inline inst_iterator annotation_begin();
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inline inst_iterator annotation_end();
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IteratorRange<inst_iterator> annotations();
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IteratorRange<const_inst_iterator> annotations() const;
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// Iterators for extension instructions contained in this module.
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inline inst_iterator extension_begin();
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inline inst_iterator extension_end();
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IteratorRange<inst_iterator> extensions();
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IteratorRange<const_inst_iterator> extensions() const;
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// Iterators for types, constants and global variables instructions.
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inline inst_iterator types_values_begin();
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inline inst_iterator types_values_end();
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inline IteratorRange<inst_iterator> types_values();
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inline IteratorRange<const_inst_iterator> types_values() const;
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// Iterators for functions contained in this module.
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iterator begin() { return iterator(&functions_, functions_.begin()); }
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iterator end() { return iterator(&functions_, functions_.end()); }
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const_iterator begin() const { return cbegin(); }
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const_iterator end() const { return cend(); }
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inline const_iterator cbegin() const;
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inline const_iterator cend() const;
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// Invokes function |f| on all instructions in this module, and optionally on
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// the debug line instructions that precede them.
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void ForEachInst(const std::function<void(Instruction*)>& f,
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bool run_on_debug_line_insts = false);
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void ForEachInst(const std::function<void(const Instruction*)>& f,
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bool run_on_debug_line_insts = false) const;
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// Pushes the binary segments for this instruction into the back of *|binary|.
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// If |skip_nop| is true and this is a OpNop, do nothing.
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void ToBinary(std::vector<uint32_t>* binary, bool skip_nop) const;
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// Returns 1 more than the maximum Id value mentioned in the module.
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uint32_t ComputeIdBound() const;
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// Returns true if module has capability |cap|
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bool HasExplicitCapability(uint32_t cap);
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// Returns id for OpExtInst instruction for extension |extstr|.
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// Returns 0 if not found.
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uint32_t GetExtInstImportId(const char* extstr);
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// Sets the associated context for this module
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void SetContext(IRContext* c) { context_ = c; }
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// Gets the associated context for this module
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IRContext* context() const { return context_; }
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private:
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ModuleHeader header_; // Module header
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// The following fields respect the "Logical Layout of a Module" in
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// Section 2.4 of the SPIR-V specification.
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IRContext* context_;
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InstructionList capabilities_;
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InstructionList extensions_;
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InstructionList ext_inst_imports_;
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// A module only has one memory model instruction.
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std::unique_ptr<Instruction> memory_model_;
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InstructionList entry_points_;
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InstructionList execution_modes_;
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InstructionList debugs1_;
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InstructionList debugs2_;
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InstructionList debugs3_;
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InstructionList annotations_;
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// Type declarations, constants, and global variable declarations.
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InstructionList types_values_;
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std::vector<std::unique_ptr<Function>> functions_;
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};
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// Pretty-prints |module| to |str|. Returns |str|.
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std::ostream& operator<<(std::ostream& str, const Module& module);
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inline void Module::AddCapability(std::unique_ptr<Instruction> c) {
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capabilities_.push_back(std::move(c));
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}
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inline void Module::AddExtension(std::unique_ptr<Instruction> e) {
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extensions_.push_back(std::move(e));
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}
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inline void Module::AddExtInstImport(std::unique_ptr<Instruction> e) {
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ext_inst_imports_.push_back(std::move(e));
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}
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inline void Module::SetMemoryModel(std::unique_ptr<Instruction> m) {
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memory_model_ = std::move(m);
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}
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inline void Module::AddEntryPoint(std::unique_ptr<Instruction> e) {
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entry_points_.push_back(std::move(e));
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}
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inline void Module::AddExecutionMode(std::unique_ptr<Instruction> e) {
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execution_modes_.push_back(std::move(e));
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}
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inline void Module::AddDebug1Inst(std::unique_ptr<Instruction> d) {
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debugs1_.push_back(std::move(d));
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}
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inline void Module::AddDebug2Inst(std::unique_ptr<Instruction> d) {
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debugs2_.push_back(std::move(d));
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}
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inline void Module::AddDebug3Inst(std::unique_ptr<Instruction> d) {
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debugs3_.push_back(std::move(d));
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}
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inline void Module::AddAnnotationInst(std::unique_ptr<Instruction> a) {
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annotations_.push_back(std::move(a));
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}
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inline void Module::AddType(std::unique_ptr<Instruction> t) {
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types_values_.push_back(std::move(t));
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}
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inline void Module::AddGlobalValue(std::unique_ptr<Instruction> v) {
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types_values_.push_back(std::move(v));
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}
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inline void Module::AddFunction(std::unique_ptr<Function> f) {
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functions_.emplace_back(std::move(f));
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}
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inline Module::inst_iterator Module::capability_begin() {
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return capabilities_.begin();
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}
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inline Module::inst_iterator Module::capability_end() {
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return capabilities_.end();
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}
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inline IteratorRange<Module::inst_iterator> Module::capabilities() {
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return make_range(capabilities_.begin(), capabilities_.end());
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}
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inline IteratorRange<Module::const_inst_iterator> Module::capabilities() const {
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return make_range(capabilities_.begin(), capabilities_.end());
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}
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inline Module::inst_iterator Module::ext_inst_import_begin() {
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return ext_inst_imports_.begin();
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}
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inline Module::inst_iterator Module::ext_inst_import_end() {
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return ext_inst_imports_.end();
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}
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inline IteratorRange<Module::inst_iterator> Module::ext_inst_imports() {
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return make_range(ext_inst_imports_.begin(), ext_inst_imports_.end());
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}
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inline IteratorRange<Module::const_inst_iterator> Module::ext_inst_imports()
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const {
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return make_range(ext_inst_imports_.begin(), ext_inst_imports_.end());
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}
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inline Module::inst_iterator Module::debug1_begin() { return debugs1_.begin(); }
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inline Module::inst_iterator Module::debug1_end() { return debugs1_.end(); }
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inline IteratorRange<Module::inst_iterator> Module::debugs1() {
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return make_range(debugs1_.begin(), debugs1_.end());
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}
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inline IteratorRange<Module::const_inst_iterator> Module::debugs1() const {
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return make_range(debugs1_.begin(), debugs1_.end());
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}
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inline Module::inst_iterator Module::debug2_begin() { return debugs2_.begin(); }
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inline Module::inst_iterator Module::debug2_end() { return debugs2_.end(); }
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inline IteratorRange<Module::inst_iterator> Module::debugs2() {
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return make_range(debugs2_.begin(), debugs2_.end());
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}
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inline IteratorRange<Module::const_inst_iterator> Module::debugs2() const {
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return make_range(debugs2_.begin(), debugs2_.end());
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}
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inline Module::inst_iterator Module::debug3_begin() { return debugs3_.begin(); }
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inline Module::inst_iterator Module::debug3_end() { return debugs3_.end(); }
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inline IteratorRange<Module::inst_iterator> Module::debugs3() {
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return make_range(debugs3_.begin(), debugs3_.end());
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}
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inline IteratorRange<Module::const_inst_iterator> Module::debugs3() const {
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return make_range(debugs3_.begin(), debugs3_.end());
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}
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inline IteratorRange<Module::inst_iterator> Module::entry_points() {
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return make_range(entry_points_.begin(), entry_points_.end());
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}
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inline IteratorRange<Module::const_inst_iterator> Module::entry_points() const {
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return make_range(entry_points_.begin(), entry_points_.end());
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}
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inline Module::inst_iterator Module::execution_mode_begin() {
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return execution_modes_.begin();
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}
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inline Module::inst_iterator Module::execution_mode_end() {
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return execution_modes_.end();
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}
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inline IteratorRange<Module::inst_iterator> Module::execution_modes() {
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return make_range(execution_modes_.begin(), execution_modes_.end());
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}
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inline IteratorRange<Module::const_inst_iterator> Module::execution_modes()
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const {
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return make_range(execution_modes_.begin(), execution_modes_.end());
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}
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inline Module::inst_iterator Module::annotation_begin() {
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return annotations_.begin();
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}
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inline Module::inst_iterator Module::annotation_end() {
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return annotations_.end();
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}
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inline IteratorRange<Module::inst_iterator> Module::annotations() {
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return make_range(annotations_.begin(), annotations_.end());
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}
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inline IteratorRange<Module::const_inst_iterator> Module::annotations() const {
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return make_range(annotations_.begin(), annotations_.end());
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}
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inline Module::inst_iterator Module::extension_begin() {
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return extensions_.begin();
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}
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inline Module::inst_iterator Module::extension_end() {
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return extensions_.end();
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}
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inline IteratorRange<Module::inst_iterator> Module::extensions() {
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return make_range(extensions_.begin(), extensions_.end());
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}
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inline IteratorRange<Module::const_inst_iterator> Module::extensions() const {
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return make_range(extensions_.begin(), extensions_.end());
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}
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inline Module::inst_iterator Module::types_values_begin() {
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return types_values_.begin();
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}
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inline Module::inst_iterator Module::types_values_end() {
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return types_values_.end();
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}
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inline IteratorRange<Module::inst_iterator> Module::types_values() {
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return make_range(types_values_.begin(), types_values_.end());
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}
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inline IteratorRange<Module::const_inst_iterator> Module::types_values() const {
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return make_range(types_values_.begin(), types_values_.end());
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}
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inline Module::const_iterator Module::cbegin() const {
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return const_iterator(&functions_, functions_.cbegin());
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}
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inline Module::const_iterator Module::cend() const {
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return const_iterator(&functions_, functions_.cend());
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}
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} // namespace opt
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} // namespace spvtools
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#endif // LIBSPIRV_OPT_MODULE_H_
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