| // Copyright (c) 2016 Google Inc. |
| // |
| // 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_INSTRUCTION_H_ |
| #define SOURCE_OPT_INSTRUCTION_H_ |
| |
| #include <cassert> |
| #include <functional> |
| #include <memory> |
| #include <string> |
| #include <utility> |
| #include <vector> |
| |
| #include "OpenCLDebugInfo100.h" |
| #include "source/latest_version_glsl_std_450_header.h" |
| #include "source/latest_version_spirv_header.h" |
| #include "source/opcode.h" |
| #include "source/operand.h" |
| #include "source/opt/reflect.h" |
| #include "source/util/ilist_node.h" |
| #include "source/util/small_vector.h" |
| #include "spirv-tools/libspirv.h" |
| |
| const uint32_t kNoDebugScope = 0; |
| const uint32_t kNoInlinedAt = 0; |
| |
| namespace spvtools { |
| namespace opt { |
| |
| class Function; |
| class IRContext; |
| class Module; |
| class InstructionList; |
| |
| // Relaxed logical addressing: |
| // |
| // In the logical addressing model, pointers cannot be stored or loaded. This |
| // is a useful assumption because it simplifies the aliasing significantly. |
| // However, for the purpose of legalizing code generated from HLSL, we will have |
| // to allow storing and loading of pointers to opaque objects and runtime |
| // arrays. This relaxation of the rule still implies that function and private |
| // scope variables do not have any aliasing, so we can treat them as before. |
| // This will be call the relaxed logical addressing model. |
| // |
| // This relaxation of the rule will be allowed by |GetBaseAddress|, but it will |
| // enforce that no other pointers are stored or loaded. |
| |
| // About operand: |
| // |
| // In the SPIR-V specification, the term "operand" is used to mean any single |
| // SPIR-V word following the leading wordcount-opcode word. Here, the term |
| // "operand" is used to mean a *logical* operand. A logical operand may consist |
| // of multiple SPIR-V words, which together make up the same component. For |
| // example, a logical operand of a 64-bit integer needs two words to express. |
| // |
| // Further, we categorize logical operands into *in* and *out* operands. |
| // In operands are operands actually serve as input to operations, while out |
| // operands are operands that represent ids generated from operations (result |
| // type id or result id). For example, for "OpIAdd %rtype %rid %inop1 %inop2", |
| // "%inop1" and "%inop2" are in operands, while "%rtype" and "%rid" are out |
| // operands. |
| |
| // A *logical* operand to a SPIR-V instruction. It can be the type id, result |
| // id, or other additional operands carried in an instruction. |
| struct Operand { |
| using OperandData = utils::SmallVector<uint32_t, 2>; |
| Operand(spv_operand_type_t t, OperandData&& w) |
| : type(t), words(std::move(w)) {} |
| |
| Operand(spv_operand_type_t t, const OperandData& w) : type(t), words(w) {} |
| |
| spv_operand_type_t type; // Type of this logical operand. |
| OperandData words; // Binary segments of this logical operand. |
| |
| // Returns a string operand as a C-style string. |
| const char* AsCString() const { |
| assert(type == SPV_OPERAND_TYPE_LITERAL_STRING); |
| return reinterpret_cast<const char*>(words.data()); |
| } |
| |
| // Returns a string operand as a std::string. |
| std::string AsString() const { return AsCString(); } |
| |
| // Returns a literal integer operand as a uint64_t |
| uint64_t AsLiteralUint64() const { |
| assert(type == SPV_OPERAND_TYPE_TYPED_LITERAL_NUMBER); |
| assert(1 <= words.size()); |
| assert(words.size() <= 2); |
| // Load the low word. |
| uint64_t result = uint64_t(words[0]); |
| if (words.size() > 1) { |
| result = result | (uint64_t(words[1]) << 32); |
| } |
| return result; |
| } |
| |
| friend bool operator==(const Operand& o1, const Operand& o2) { |
| return o1.type == o2.type && o1.words == o2.words; |
| } |
| |
| // TODO(antiagainst): create fields for literal number kind, width, etc. |
| }; |
| |
| inline bool operator!=(const Operand& o1, const Operand& o2) { |
| return !(o1 == o2); |
| } |
| |
| // This structure is used to represent a DebugScope instruction from |
| // the OpenCL.100.DebugInfo extened instruction set. Note that we can |
| // ignore the result id of DebugScope instruction because it is not |
| // used for anything. We do not keep it to reduce the size of |
| // structure. |
| // TODO: Let validator check that the result id is not used anywhere. |
| class DebugScope { |
| public: |
| DebugScope(uint32_t lexical_scope, uint32_t inlined_at) |
| : lexical_scope_(lexical_scope), inlined_at_(inlined_at) {} |
| |
| inline bool operator!=(const DebugScope& d) const { |
| return lexical_scope_ != d.lexical_scope_ || inlined_at_ != d.inlined_at_; |
| } |
| |
| // Accessor functions for |lexical_scope_|. |
| uint32_t GetLexicalScope() const { return lexical_scope_; } |
| void SetLexicalScope(uint32_t scope) { lexical_scope_ = scope; } |
| |
| // Accessor functions for |inlined_at_|. |
| uint32_t GetInlinedAt() const { return inlined_at_; } |
| void SetInlinedAt(uint32_t at) { inlined_at_ = at; } |
| |
| // Pushes the binary segments for this DebugScope instruction into |
| // the back of *|binary|. |
| void ToBinary(uint32_t type_id, uint32_t result_id, uint32_t ext_set, |
| std::vector<uint32_t>* binary) const; |
| |
| private: |
| // The result id of the lexical scope in which this debug scope is |
| // contained. The value is kNoDebugScope if there is no scope. |
| uint32_t lexical_scope_; |
| |
| // The result id of DebugInlinedAt if instruction in this debug scope |
| // is inlined. The value is kNoInlinedAt if it is not inlined. |
| uint32_t inlined_at_; |
| }; |
| |
| // A SPIR-V instruction. It contains the opcode and any additional logical |
| // operand, including the result id (if any) and result type id (if any). It |
| // may also contain line-related debug instruction (OpLine, OpNoLine) directly |
| // appearing before this instruction. Note that the result id of an instruction |
| // should never change after the instruction being built. If the result id |
| // needs to change, the user should create a new instruction instead. |
| class Instruction : public utils::IntrusiveNodeBase<Instruction> { |
| public: |
| using OperandList = std::vector<Operand>; |
| using iterator = OperandList::iterator; |
| using const_iterator = OperandList::const_iterator; |
| |
| // Creates a default OpNop instruction. |
| // This exists solely for containers that can't do without. Should be removed. |
| Instruction() |
| : utils::IntrusiveNodeBase<Instruction>(), |
| context_(nullptr), |
| opcode_(SpvOpNop), |
| has_type_id_(false), |
| has_result_id_(false), |
| unique_id_(0), |
| dbg_scope_(kNoDebugScope, kNoInlinedAt) {} |
| |
| // Creates a default OpNop instruction. |
| Instruction(IRContext*); |
| // Creates an instruction with the given opcode |op| and no additional logical |
| // operands. |
| Instruction(IRContext*, SpvOp); |
| // Creates an instruction using the given spv_parsed_instruction_t |inst|. All |
| // the data inside |inst| will be copied and owned in this instance. And keep |
| // record of line-related debug instructions |dbg_line| ahead of this |
| // instruction, if any. |
| Instruction(IRContext* c, const spv_parsed_instruction_t& inst, |
| std::vector<Instruction>&& dbg_line = {}); |
| |
| Instruction(IRContext* c, const spv_parsed_instruction_t& inst, |
| const DebugScope& dbg_scope); |
| |
| // Creates an instruction with the given opcode |op|, type id: |ty_id|, |
| // result id: |res_id| and input operands: |in_operands|. |
| Instruction(IRContext* c, SpvOp op, uint32_t ty_id, uint32_t res_id, |
| const OperandList& in_operands); |
| |
| // TODO: I will want to remove these, but will first have to remove the use of |
| // std::vector<Instruction>. |
| Instruction(const Instruction&) = default; |
| Instruction& operator=(const Instruction&) = default; |
| |
| Instruction(Instruction&&); |
| Instruction& operator=(Instruction&&); |
| |
| virtual ~Instruction() = default; |
| |
| // Returns a newly allocated instruction that has the same operands, result, |
| // and type as |this|. The new instruction is not linked into any list. |
| // It is the responsibility of the caller to make sure that the storage is |
| // removed. It is the caller's responsibility to make sure that there is only |
| // one instruction for each result id. |
| Instruction* Clone(IRContext* c) const; |
| |
| IRContext* context() const { return context_; } |
| |
| SpvOp opcode() const { return opcode_; } |
| // Sets the opcode of this instruction to a specific opcode. Note this may |
| // invalidate the instruction. |
| // TODO(qining): Remove this function when instruction building and insertion |
| // is well implemented. |
| void SetOpcode(SpvOp op) { opcode_ = op; } |
| uint32_t type_id() const { |
| return has_type_id_ ? GetSingleWordOperand(0) : 0; |
| } |
| uint32_t result_id() const { |
| return has_result_id_ ? GetSingleWordOperand(has_type_id_ ? 1 : 0) : 0; |
| } |
| uint32_t unique_id() const { |
| assert(unique_id_ != 0); |
| return unique_id_; |
| } |
| // Returns the vector of line-related debug instructions attached to this |
| // instruction and the caller can directly modify them. |
| std::vector<Instruction>& dbg_line_insts() { return dbg_line_insts_; } |
| const std::vector<Instruction>& dbg_line_insts() const { |
| return dbg_line_insts_; |
| } |
| |
| const Instruction* dbg_line_inst() const { |
| return dbg_line_insts_.empty() ? nullptr : &dbg_line_insts_[0]; |
| } |
| |
| // Clear line-related debug instructions attached to this instruction. |
| void clear_dbg_line_insts() { dbg_line_insts_.clear(); } |
| |
| // Same semantics as in the base class except the list the InstructionList |
| // containing |pos| will now assume ownership of |this|. |
| // inline void MoveBefore(Instruction* pos); |
| // inline void InsertAfter(Instruction* pos); |
| |
| // Begin and end iterators for operands. |
| iterator begin() { return operands_.begin(); } |
| iterator end() { return operands_.end(); } |
| const_iterator begin() const { return operands_.cbegin(); } |
| const_iterator end() const { return operands_.cend(); } |
| // Const begin and end iterators for operands. |
| const_iterator cbegin() const { return operands_.cbegin(); } |
| const_iterator cend() const { return operands_.cend(); } |
| |
| // Gets the number of logical operands. |
| uint32_t NumOperands() const { |
| return static_cast<uint32_t>(operands_.size()); |
| } |
| // Gets the number of SPIR-V words occupied by all logical operands. |
| uint32_t NumOperandWords() const { |
| return NumInOperandWords() + TypeResultIdCount(); |
| } |
| // Gets the |index|-th logical operand. |
| inline Operand& GetOperand(uint32_t index); |
| inline const Operand& GetOperand(uint32_t index) const; |
| // Adds |operand| to the list of operands of this instruction. |
| // It is the responsibility of the caller to make sure |
| // that the instruction remains valid. |
| inline void AddOperand(Operand&& operand); |
| // Gets the |index|-th logical operand as a single SPIR-V word. This method is |
| // not expected to be used with logical operands consisting of multiple SPIR-V |
| // words. |
| uint32_t GetSingleWordOperand(uint32_t index) const; |
| // Sets the |index|-th in-operand's data to the given |data|. |
| inline void SetInOperand(uint32_t index, Operand::OperandData&& data); |
| // Sets the |index|-th operand's data to the given |data|. |
| // This is for in-operands modification only, but with |index| expressed in |
| // terms of operand index rather than in-operand index. |
| inline void SetOperand(uint32_t index, Operand::OperandData&& data); |
| // Replace all of the in operands with those in |new_operands|. |
| inline void SetInOperands(OperandList&& new_operands); |
| // Sets the result type id. |
| inline void SetResultType(uint32_t ty_id); |
| // Sets the result id |
| inline void SetResultId(uint32_t res_id); |
| inline bool HasResultId() const { return has_result_id_; } |
| // Sets DebugScope. |
| inline void SetDebugScope(const DebugScope& scope); |
| inline const DebugScope& GetDebugScope() const { return dbg_scope_; } |
| // Updates DebugInlinedAt of DebugScope and OpLine. |
| inline void UpdateDebugInlinedAt(uint32_t new_inlined_at); |
| inline uint32_t GetDebugInlinedAt() const { |
| return dbg_scope_.GetInlinedAt(); |
| } |
| // Updates OpLine and DebugScope based on the information of |from|. |
| inline void UpdateDebugInfo(const Instruction* from); |
| // Remove the |index|-th operand |
| void RemoveOperand(uint32_t index) { |
| operands_.erase(operands_.begin() + index); |
| } |
| |
| // The following methods are similar to the above, but are for in operands. |
| uint32_t NumInOperands() const { |
| return static_cast<uint32_t>(operands_.size() - TypeResultIdCount()); |
| } |
| uint32_t NumInOperandWords() const; |
| Operand& GetInOperand(uint32_t index) { |
| return GetOperand(index + TypeResultIdCount()); |
| } |
| const Operand& GetInOperand(uint32_t index) const { |
| return GetOperand(index + TypeResultIdCount()); |
| } |
| uint32_t GetSingleWordInOperand(uint32_t index) const { |
| return GetSingleWordOperand(index + TypeResultIdCount()); |
| } |
| void RemoveInOperand(uint32_t index) { |
| operands_.erase(operands_.begin() + index + TypeResultIdCount()); |
| } |
| |
| // Returns true if this instruction is OpNop. |
| inline bool IsNop() const; |
| // Turns this instruction to OpNop. This does not clear out all preceding |
| // line-related debug instructions. |
| inline void ToNop(); |
| |
| // Runs the given function |f| on this instruction and optionally on the |
| // preceding debug line instructions. The function will always be run |
| // if this is itself a debug line instruction. |
| inline void ForEachInst(const std::function<void(Instruction*)>& f, |
| bool run_on_debug_line_insts = false); |
| inline void ForEachInst(const std::function<void(const Instruction*)>& f, |
| bool run_on_debug_line_insts = false) const; |
| |
| // Runs the given function |f| on this instruction and optionally on the |
| // preceding debug line instructions. The function will always be run |
| // if this is itself a debug line instruction. If |f| returns false, |
| // iteration is terminated and this function returns false. |
| inline bool WhileEachInst(const std::function<bool(Instruction*)>& f, |
| bool run_on_debug_line_insts = false); |
| inline bool WhileEachInst(const std::function<bool(const Instruction*)>& f, |
| bool run_on_debug_line_insts = false) const; |
| |
| // Runs the given function |f| on all operand ids. |
| // |
| // |f| should not transform an ID into 0, as 0 is an invalid ID. |
| inline void ForEachId(const std::function<void(uint32_t*)>& f); |
| inline void ForEachId(const std::function<void(const uint32_t*)>& f) const; |
| |
| // Runs the given function |f| on all "in" operand ids. |
| inline void ForEachInId(const std::function<void(uint32_t*)>& f); |
| inline void ForEachInId(const std::function<void(const uint32_t*)>& f) const; |
| |
| // Runs the given function |f| on all "in" operand ids. If |f| returns false, |
| // iteration is terminated and this function returns false. |
| inline bool WhileEachInId(const std::function<bool(uint32_t*)>& f); |
| inline bool WhileEachInId( |
| const std::function<bool(const uint32_t*)>& f) const; |
| |
| // Runs the given function |f| on all "in" operands. |
| inline void ForEachInOperand(const std::function<void(uint32_t*)>& f); |
| inline void ForEachInOperand( |
| const std::function<void(const uint32_t*)>& f) const; |
| |
| // Runs the given function |f| on all "in" operands. If |f| returns false, |
| // iteration is terminated and this function return false. |
| inline bool WhileEachInOperand(const std::function<bool(uint32_t*)>& f); |
| inline bool WhileEachInOperand( |
| const std::function<bool(const uint32_t*)>& f) const; |
| |
| // Returns true if it's an OpBranchConditional instruction |
| // with branch weights. |
| bool HasBranchWeights() const; |
| |
| // Returns true if any operands can be labels |
| inline bool HasLabels() const; |
| |
| // Pushes the binary segments for this instruction into the back of *|binary|. |
| void ToBinaryWithoutAttachedDebugInsts(std::vector<uint32_t>* binary) const; |
| |
| // Replaces the operands to the instruction with |new_operands|. The caller |
| // is responsible for building a complete and valid list of operands for |
| // this instruction. |
| void ReplaceOperands(const OperandList& new_operands); |
| |
| // Returns true if the instruction annotates an id with a decoration. |
| inline bool IsDecoration() const; |
| |
| // Returns true if the instruction is known to be a load from read-only |
| // memory. |
| bool IsReadOnlyLoad() const; |
| |
| // Returns the instruction that gives the base address of an address |
| // calculation. The instruction must be a load, as defined by |IsLoad|, |
| // store, copy, or access chain instruction. In logical addressing mode, will |
| // return an OpVariable or OpFunctionParameter instruction. For relaxed |
| // logical addressing, it would also return a load of a pointer to an opaque |
| // object. For physical addressing mode, could return other types of |
| // instructions. |
| Instruction* GetBaseAddress() const; |
| |
| // Returns true if the instruction loads from memory or samples an image, and |
| // stores the result into an id. It considers only core instructions. |
| // Memory-to-memory instructions are not considered loads. |
| inline bool IsLoad() const; |
| |
| // Returns true if the instruction generates a pointer that is definitely |
| // read-only. This is determined by analysing the pointer type's storage |
| // class and decorations that target the pointer's id. It does not analyse |
| // other instructions that the pointer may be derived from. Thus if 'true' is |
| // returned, the pointer is definitely read-only, while if 'false' is returned |
| // it is possible that the pointer may actually be read-only if it is derived |
| // from another pointer that is decorated as read-only. |
| bool IsReadOnlyPointer() const; |
| |
| // The following functions check for the various descriptor types defined in |
| // the Vulkan specification section 13.1. |
| |
| // Returns true if the instruction defines a pointer type that points to a |
| // storage image. |
| bool IsVulkanStorageImage() const; |
| |
| // Returns true if the instruction defines a pointer type that points to a |
| // sampled image. |
| bool IsVulkanSampledImage() const; |
| |
| // Returns true if the instruction defines a pointer type that points to a |
| // storage texel buffer. |
| bool IsVulkanStorageTexelBuffer() const; |
| |
| // Returns true if the instruction defines a pointer type that points to a |
| // storage buffer. |
| bool IsVulkanStorageBuffer() const; |
| |
| // Returns true if the instruction defines a pointer type that points to a |
| // uniform buffer. |
| bool IsVulkanUniformBuffer() const; |
| |
| // Returns true if the instruction is an atom operation that uses original |
| // value. |
| inline bool IsAtomicWithLoad() const; |
| |
| // Returns true if the instruction is an atom operation. |
| inline bool IsAtomicOp() const; |
| |
| // Returns true if this instruction is a branch or switch instruction (either |
| // conditional or not). |
| bool IsBranch() const { return spvOpcodeIsBranch(opcode()); } |
| |
| // Returns true if this instruction causes the function to finish execution |
| // and return to its caller |
| bool IsReturn() const { return spvOpcodeIsReturn(opcode()); } |
| |
| // Returns true if this instruction exits this function or aborts execution. |
| bool IsReturnOrAbort() const { return spvOpcodeIsReturnOrAbort(opcode()); } |
| |
| // Returns the id for the |element|'th subtype. If the |this| is not a |
| // composite type, this function returns 0. |
| uint32_t GetTypeComponent(uint32_t element) const; |
| |
| // Returns true if this instruction is a basic block terminator. |
| bool IsBlockTerminator() const { |
| return spvOpcodeIsBlockTerminator(opcode()); |
| } |
| |
| // Returns true if |this| is an instruction that define an opaque type. Since |
| // runtime array have similar characteristics they are included as opaque |
| // types. |
| bool IsOpaqueType() const; |
| |
| // Returns true if |this| is an instruction which could be folded into a |
| // constant value. |
| bool IsFoldable() const; |
| |
| // Returns true if |this| is an instruction which could be folded into a |
| // constant value by |FoldScalar|. |
| bool IsFoldableByFoldScalar() const; |
| |
| // Returns true if we are allowed to fold or otherwise manipulate the |
| // instruction that defines |id| in the given context. This includes not |
| // handling NaN values. |
| bool IsFloatingPointFoldingAllowed() const; |
| |
| inline bool operator==(const Instruction&) const; |
| inline bool operator!=(const Instruction&) const; |
| inline bool operator<(const Instruction&) const; |
| |
| // Takes ownership of the instruction owned by |i| and inserts it immediately |
| // before |this|. Returns the inserted instruction. |
| Instruction* InsertBefore(std::unique_ptr<Instruction>&& i); |
| // Takes ownership of the instructions in |list| and inserts them in order |
| // immediately before |this|. Returns the first inserted instruction. |
| // Assumes the list is non-empty. |
| Instruction* InsertBefore(std::vector<std::unique_ptr<Instruction>>&& list); |
| using utils::IntrusiveNodeBase<Instruction>::InsertBefore; |
| |
| // Returns true if |this| is an instruction defining a constant, but not a |
| // Spec constant. |
| inline bool IsConstant() const; |
| |
| // Returns true if |this| is an instruction with an opcode safe to move |
| bool IsOpcodeCodeMotionSafe() const; |
| |
| // Pretty-prints |inst|. |
| // |
| // Provides the disassembly of a specific instruction. Utilizes |inst|'s |
| // context to provide the correct interpretation of types, constants, etc. |
| // |
| // |options| are the disassembly options. SPV_BINARY_TO_TEXT_OPTION_NO_HEADER |
| // is always added to |options|. |
| std::string PrettyPrint(uint32_t options = 0u) const; |
| |
| // Returns true if the result can be a vector and the result of each component |
| // depends on the corresponding component of any vector inputs. |
| bool IsScalarizable() const; |
| |
| // Return true if the only effect of this instructions is the result. |
| bool IsOpcodeSafeToDelete() const; |
| |
| // Returns true if it is valid to use the result of |inst| as the base |
| // pointer for a load or store. In this case, valid is defined by the relaxed |
| // logical addressing rules when using logical addressing. Normal validation |
| // rules for physical addressing. |
| bool IsValidBasePointer() const; |
| |
| // Returns debug opcode of an OpenCL.100.DebugInfo instruction. If |
| // it is not an OpenCL.100.DebugInfo instruction, just returns |
| // OpenCLDebugInfo100InstructionsMax. |
| OpenCLDebugInfo100Instructions GetOpenCL100DebugOpcode() const; |
| |
| // Dump this instruction on stderr. Useful when running interactive |
| // debuggers. |
| void Dump() const; |
| |
| private: |
| // Returns the total count of result type id and result id. |
| uint32_t TypeResultIdCount() const { |
| if (has_type_id_ && has_result_id_) return 2; |
| if (has_type_id_ || has_result_id_) return 1; |
| return 0; |
| } |
| |
| // Returns true if the instruction generates a read-only pointer, with the |
| // same caveats documented in the comment for IsReadOnlyPointer. The first |
| // version assumes the module is a shader module. The second assumes a |
| // kernel. |
| bool IsReadOnlyPointerShaders() const; |
| bool IsReadOnlyPointerKernel() const; |
| |
| // Returns true if the result of |inst| can be used as the base image for an |
| // instruction that samples a image, reads an image, or writes to an image. |
| bool IsValidBaseImage() const; |
| |
| IRContext* context_; // IR Context |
| SpvOp opcode_; // Opcode |
| bool has_type_id_; // True if the instruction has a type id |
| bool has_result_id_; // True if the instruction has a result id |
| uint32_t unique_id_; // Unique instruction id |
| // All logical operands, including result type id and result id. |
| OperandList operands_; |
| // Opline and OpNoLine instructions preceding this instruction. Note that for |
| // Instructions representing OpLine or OpNonLine itself, this field should be |
| // empty. |
| std::vector<Instruction> dbg_line_insts_; |
| |
| // DebugScope that wraps this instruction. |
| DebugScope dbg_scope_; |
| |
| friend InstructionList; |
| }; |
| |
| // Pretty-prints |inst| to |str| and returns |str|. |
| // |
| // Provides the disassembly of a specific instruction. Utilizes |inst|'s context |
| // to provide the correct interpretation of types, constants, etc. |
| // |
| // Disassembly uses raw ids (not pretty printed names). |
| std::ostream& operator<<(std::ostream& str, const Instruction& inst); |
| |
| inline bool Instruction::operator==(const Instruction& other) const { |
| return unique_id() == other.unique_id(); |
| } |
| |
| inline bool Instruction::operator!=(const Instruction& other) const { |
| return !(*this == other); |
| } |
| |
| inline bool Instruction::operator<(const Instruction& other) const { |
| return unique_id() < other.unique_id(); |
| } |
| |
| inline Operand& Instruction::GetOperand(uint32_t index) { |
| assert(index < operands_.size() && "operand index out of bound"); |
| return operands_[index]; |
| } |
| |
| inline const Operand& Instruction::GetOperand(uint32_t index) const { |
| assert(index < operands_.size() && "operand index out of bound"); |
| return operands_[index]; |
| } |
| |
| inline void Instruction::AddOperand(Operand&& operand) { |
| operands_.push_back(std::move(operand)); |
| } |
| |
| inline void Instruction::SetInOperand(uint32_t index, |
| Operand::OperandData&& data) { |
| SetOperand(index + TypeResultIdCount(), std::move(data)); |
| } |
| |
| inline void Instruction::SetOperand(uint32_t index, |
| Operand::OperandData&& data) { |
| assert(index < operands_.size() && "operand index out of bound"); |
| assert(index >= TypeResultIdCount() && "operand is not a in-operand"); |
| operands_[index].words = std::move(data); |
| } |
| |
| inline void Instruction::SetInOperands(OperandList&& new_operands) { |
| // Remove the old in operands. |
| operands_.erase(operands_.begin() + TypeResultIdCount(), operands_.end()); |
| // Add the new in operands. |
| operands_.insert(operands_.end(), new_operands.begin(), new_operands.end()); |
| } |
| |
| inline void Instruction::SetResultId(uint32_t res_id) { |
| // TODO(dsinclair): Allow setting a result id if there wasn't one |
| // previously. Need to make room in the operands_ array to place the result, |
| // and update the has_result_id_ flag. |
| assert(has_result_id_); |
| |
| // TODO(dsinclair): Allow removing the result id. This needs to make sure, |
| // if there was a result id previously to remove it from the operands_ array |
| // and reset the has_result_id_ flag. |
| assert(res_id != 0); |
| |
| auto ridx = has_type_id_ ? 1 : 0; |
| operands_[ridx].words = {res_id}; |
| } |
| |
| inline void Instruction::SetDebugScope(const DebugScope& scope) { |
| dbg_scope_ = scope; |
| for (auto& i : dbg_line_insts_) { |
| i.dbg_scope_ = scope; |
| } |
| } |
| |
| inline void Instruction::UpdateDebugInlinedAt(uint32_t new_inlined_at) { |
| dbg_scope_.SetInlinedAt(new_inlined_at); |
| for (auto& i : dbg_line_insts_) { |
| i.dbg_scope_.SetInlinedAt(new_inlined_at); |
| } |
| } |
| |
| inline void Instruction::UpdateDebugInfo(const Instruction* from) { |
| if (from == nullptr) return; |
| clear_dbg_line_insts(); |
| if (!from->dbg_line_insts().empty()) |
| dbg_line_insts().push_back(from->dbg_line_insts()[0]); |
| SetDebugScope(from->GetDebugScope()); |
| } |
| |
| inline void Instruction::SetResultType(uint32_t ty_id) { |
| // TODO(dsinclair): Allow setting a type id if there wasn't one |
| // previously. Need to make room in the operands_ array to place the result, |
| // and update the has_type_id_ flag. |
| assert(has_type_id_); |
| |
| // TODO(dsinclair): Allow removing the type id. This needs to make sure, |
| // if there was a type id previously to remove it from the operands_ array |
| // and reset the has_type_id_ flag. |
| assert(ty_id != 0); |
| |
| operands_.front().words = {ty_id}; |
| } |
| |
| inline bool Instruction::IsNop() const { |
| return opcode_ == SpvOpNop && !has_type_id_ && !has_result_id_ && |
| operands_.empty(); |
| } |
| |
| inline void Instruction::ToNop() { |
| opcode_ = SpvOpNop; |
| has_type_id_ = false; |
| has_result_id_ = false; |
| operands_.clear(); |
| } |
| |
| inline bool Instruction::WhileEachInst( |
| const std::function<bool(Instruction*)>& f, bool run_on_debug_line_insts) { |
| if (run_on_debug_line_insts) { |
| for (auto& dbg_line : dbg_line_insts_) { |
| if (!f(&dbg_line)) return false; |
| } |
| } |
| return f(this); |
| } |
| |
| inline bool Instruction::WhileEachInst( |
| const std::function<bool(const Instruction*)>& f, |
| bool run_on_debug_line_insts) const { |
| if (run_on_debug_line_insts) { |
| for (auto& dbg_line : dbg_line_insts_) { |
| if (!f(&dbg_line)) return false; |
| } |
| } |
| return f(this); |
| } |
| |
| inline void Instruction::ForEachInst(const std::function<void(Instruction*)>& f, |
| bool run_on_debug_line_insts) { |
| WhileEachInst( |
| [&f](Instruction* inst) { |
| f(inst); |
| return true; |
| }, |
| run_on_debug_line_insts); |
| } |
| |
| inline void Instruction::ForEachInst( |
| const std::function<void(const Instruction*)>& f, |
| bool run_on_debug_line_insts) const { |
| WhileEachInst( |
| [&f](const Instruction* inst) { |
| f(inst); |
| return true; |
| }, |
| run_on_debug_line_insts); |
| } |
| |
| inline void Instruction::ForEachId(const std::function<void(uint32_t*)>& f) { |
| for (auto& opnd : operands_) |
| if (spvIsIdType(opnd.type)) f(&opnd.words[0]); |
| } |
| |
| inline void Instruction::ForEachId( |
| const std::function<void(const uint32_t*)>& f) const { |
| for (const auto& opnd : operands_) |
| if (spvIsIdType(opnd.type)) f(&opnd.words[0]); |
| } |
| |
| inline bool Instruction::WhileEachInId( |
| const std::function<bool(uint32_t*)>& f) { |
| for (auto& opnd : operands_) { |
| if (spvIsInIdType(opnd.type)) { |
| if (!f(&opnd.words[0])) return false; |
| } |
| } |
| return true; |
| } |
| |
| inline bool Instruction::WhileEachInId( |
| const std::function<bool(const uint32_t*)>& f) const { |
| for (const auto& opnd : operands_) { |
| if (spvIsInIdType(opnd.type)) { |
| if (!f(&opnd.words[0])) return false; |
| } |
| } |
| return true; |
| } |
| |
| inline void Instruction::ForEachInId(const std::function<void(uint32_t*)>& f) { |
| WhileEachInId([&f](uint32_t* id) { |
| f(id); |
| return true; |
| }); |
| } |
| |
| inline void Instruction::ForEachInId( |
| const std::function<void(const uint32_t*)>& f) const { |
| WhileEachInId([&f](const uint32_t* id) { |
| f(id); |
| return true; |
| }); |
| } |
| |
| inline bool Instruction::WhileEachInOperand( |
| const std::function<bool(uint32_t*)>& f) { |
| for (auto& opnd : operands_) { |
| switch (opnd.type) { |
| case SPV_OPERAND_TYPE_RESULT_ID: |
| case SPV_OPERAND_TYPE_TYPE_ID: |
| break; |
| default: |
| if (!f(&opnd.words[0])) return false; |
| break; |
| } |
| } |
| return true; |
| } |
| |
| inline bool Instruction::WhileEachInOperand( |
| const std::function<bool(const uint32_t*)>& f) const { |
| for (const auto& opnd : operands_) { |
| switch (opnd.type) { |
| case SPV_OPERAND_TYPE_RESULT_ID: |
| case SPV_OPERAND_TYPE_TYPE_ID: |
| break; |
| default: |
| if (!f(&opnd.words[0])) return false; |
| break; |
| } |
| } |
| return true; |
| } |
| |
| inline void Instruction::ForEachInOperand( |
| const std::function<void(uint32_t*)>& f) { |
| WhileEachInOperand([&f](uint32_t* op) { |
| f(op); |
| return true; |
| }); |
| } |
| |
| inline void Instruction::ForEachInOperand( |
| const std::function<void(const uint32_t*)>& f) const { |
| WhileEachInOperand([&f](const uint32_t* op) { |
| f(op); |
| return true; |
| }); |
| } |
| |
| inline bool Instruction::HasLabels() const { |
| switch (opcode_) { |
| case SpvOpSelectionMerge: |
| case SpvOpBranch: |
| case SpvOpLoopMerge: |
| case SpvOpBranchConditional: |
| case SpvOpSwitch: |
| case SpvOpPhi: |
| return true; |
| break; |
| default: |
| break; |
| } |
| return false; |
| } |
| |
| bool Instruction::IsDecoration() const { |
| return spvOpcodeIsDecoration(opcode()); |
| } |
| |
| bool Instruction::IsLoad() const { return spvOpcodeIsLoad(opcode()); } |
| |
| bool Instruction::IsAtomicWithLoad() const { |
| return spvOpcodeIsAtomicWithLoad(opcode()); |
| } |
| |
| bool Instruction::IsAtomicOp() const { return spvOpcodeIsAtomicOp(opcode()); } |
| |
| bool Instruction::IsConstant() const { |
| return IsCompileTimeConstantInst(opcode()); |
| } |
| } // namespace opt |
| } // namespace spvtools |
| |
| #endif // SOURCE_OPT_INSTRUCTION_H_ |