mirror of
https://github.com/KhronosGroup/SPIRV-Tools
synced 2024-12-29 11:11:06 +00:00
1963a2dbda
This CL replaces instances of reset(new ..) with MakeUnique.
479 lines
18 KiB
C++
479 lines
18 KiB
C++
// Copyright (c) 2015-2016 The Khronos Group 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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// This file contains a disassembler: It converts a SPIR-V binary
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// to text.
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#include <algorithm>
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#include <cassert>
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#include <cstring>
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#include <iomanip>
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#include <memory>
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#include <unordered_map>
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#include <utility>
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#include "source/assembly_grammar.h"
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#include "source/binary.h"
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#include "source/diagnostic.h"
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#include "source/disassemble.h"
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#include "source/ext_inst.h"
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#include "source/name_mapper.h"
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#include "source/opcode.h"
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#include "source/parsed_operand.h"
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#include "source/print.h"
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#include "source/spirv_constant.h"
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#include "source/spirv_endian.h"
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#include "source/util/hex_float.h"
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#include "source/util/make_unique.h"
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#include "spirv-tools/libspirv.h"
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namespace {
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// A Disassembler instance converts a SPIR-V binary to its assembly
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// representation.
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class Disassembler {
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public:
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Disassembler(const spvtools::AssemblyGrammar& grammar, uint32_t options,
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spvtools::NameMapper name_mapper)
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: grammar_(grammar),
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print_(spvIsInBitfield(SPV_BINARY_TO_TEXT_OPTION_PRINT, options)),
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color_(spvIsInBitfield(SPV_BINARY_TO_TEXT_OPTION_COLOR, options)),
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indent_(spvIsInBitfield(SPV_BINARY_TO_TEXT_OPTION_INDENT, options)
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? kStandardIndent
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: 0),
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text_(),
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out_(print_ ? out_stream() : out_stream(text_)),
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stream_(out_.get()),
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header_(!spvIsInBitfield(SPV_BINARY_TO_TEXT_OPTION_NO_HEADER, options)),
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show_byte_offset_(spvIsInBitfield(
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SPV_BINARY_TO_TEXT_OPTION_SHOW_BYTE_OFFSET, options)),
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byte_offset_(0),
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name_mapper_(std::move(name_mapper)) {}
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// Emits the assembly header for the module, and sets up internal state
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// so subsequent callbacks can handle the cases where the entire module
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// is either big-endian or little-endian.
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spv_result_t HandleHeader(spv_endianness_t endian, uint32_t version,
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uint32_t generator, uint32_t id_bound,
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uint32_t schema);
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// Emits the assembly text for the given instruction.
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spv_result_t HandleInstruction(const spv_parsed_instruction_t& inst);
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// If not printing, populates text_result with the accumulated text.
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// Returns SPV_SUCCESS on success.
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spv_result_t SaveTextResult(spv_text* text_result) const;
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private:
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enum { kStandardIndent = 15 };
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using out_stream = spvtools::out_stream;
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// Emits an operand for the given instruction, where the instruction
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// is at offset words from the start of the binary.
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void EmitOperand(const spv_parsed_instruction_t& inst,
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const uint16_t operand_index);
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// Emits a mask expression for the given mask word of the specified type.
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void EmitMaskOperand(const spv_operand_type_t type, const uint32_t word);
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// Resets the output color, if color is turned on.
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void ResetColor() {
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if (color_) out_.get() << spvtools::clr::reset{print_};
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}
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// Sets the output to grey, if color is turned on.
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void SetGrey() {
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if (color_) out_.get() << spvtools::clr::grey{print_};
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}
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// Sets the output to blue, if color is turned on.
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void SetBlue() {
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if (color_) out_.get() << spvtools::clr::blue{print_};
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}
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// Sets the output to yellow, if color is turned on.
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void SetYellow() {
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if (color_) out_.get() << spvtools::clr::yellow{print_};
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}
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// Sets the output to red, if color is turned on.
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void SetRed() {
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if (color_) out_.get() << spvtools::clr::red{print_};
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}
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// Sets the output to green, if color is turned on.
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void SetGreen() {
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if (color_) out_.get() << spvtools::clr::green{print_};
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}
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const spvtools::AssemblyGrammar& grammar_;
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const bool print_; // Should we also print to the standard output stream?
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const bool color_; // Should we print in colour?
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const int indent_; // How much to indent. 0 means don't indent
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spv_endianness_t endian_; // The detected endianness of the binary.
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std::stringstream text_; // Captures the text, if not printing.
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out_stream out_; // The Output stream. Either to text_ or standard output.
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std::ostream& stream_; // The output std::stream.
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const bool header_; // Should we output header as the leading comment?
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const bool show_byte_offset_; // Should we print byte offset, in hex?
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size_t byte_offset_; // The number of bytes processed so far.
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spvtools::NameMapper name_mapper_;
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};
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spv_result_t Disassembler::HandleHeader(spv_endianness_t endian,
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uint32_t version, uint32_t generator,
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uint32_t id_bound, uint32_t schema) {
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endian_ = endian;
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if (header_) {
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SetGrey();
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const char* generator_tool =
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spvGeneratorStr(SPV_GENERATOR_TOOL_PART(generator));
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stream_ << "; SPIR-V\n"
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<< "; Version: " << SPV_SPIRV_VERSION_MAJOR_PART(version) << "."
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<< SPV_SPIRV_VERSION_MINOR_PART(version) << "\n"
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<< "; Generator: " << generator_tool;
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// For unknown tools, print the numeric tool value.
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if (0 == strcmp("Unknown", generator_tool)) {
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stream_ << "(" << SPV_GENERATOR_TOOL_PART(generator) << ")";
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}
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// Print the miscellaneous part of the generator word on the same
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// line as the tool name.
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stream_ << "; " << SPV_GENERATOR_MISC_PART(generator) << "\n"
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<< "; Bound: " << id_bound << "\n"
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<< "; Schema: " << schema << "\n";
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ResetColor();
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}
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byte_offset_ = SPV_INDEX_INSTRUCTION * sizeof(uint32_t);
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return SPV_SUCCESS;
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}
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spv_result_t Disassembler::HandleInstruction(
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const spv_parsed_instruction_t& inst) {
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if (inst.result_id) {
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SetBlue();
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const std::string id_name = name_mapper_(inst.result_id);
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if (indent_)
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stream_ << std::setw(std::max(0, indent_ - 3 - int(id_name.size())));
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stream_ << "%" << id_name;
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ResetColor();
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stream_ << " = ";
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} else {
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stream_ << std::string(indent_, ' ');
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}
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stream_ << "Op" << spvOpcodeString(static_cast<SpvOp>(inst.opcode));
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for (uint16_t i = 0; i < inst.num_operands; i++) {
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const spv_operand_type_t type = inst.operands[i].type;
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assert(type != SPV_OPERAND_TYPE_NONE);
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if (type == SPV_OPERAND_TYPE_RESULT_ID) continue;
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stream_ << " ";
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EmitOperand(inst, i);
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}
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if (show_byte_offset_) {
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SetGrey();
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auto saved_flags = stream_.flags();
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auto saved_fill = stream_.fill();
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stream_ << " ; 0x" << std::setw(8) << std::hex << std::setfill('0')
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<< byte_offset_;
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stream_.flags(saved_flags);
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stream_.fill(saved_fill);
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ResetColor();
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}
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byte_offset_ += inst.num_words * sizeof(uint32_t);
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stream_ << "\n";
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return SPV_SUCCESS;
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}
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void Disassembler::EmitOperand(const spv_parsed_instruction_t& inst,
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const uint16_t operand_index) {
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assert(operand_index < inst.num_operands);
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const spv_parsed_operand_t& operand = inst.operands[operand_index];
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const uint32_t word = inst.words[operand.offset];
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switch (operand.type) {
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case SPV_OPERAND_TYPE_RESULT_ID:
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assert(false && "<result-id> is not supposed to be handled here");
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SetBlue();
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stream_ << "%" << name_mapper_(word);
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break;
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case SPV_OPERAND_TYPE_ID:
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case SPV_OPERAND_TYPE_TYPE_ID:
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case SPV_OPERAND_TYPE_SCOPE_ID:
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case SPV_OPERAND_TYPE_MEMORY_SEMANTICS_ID:
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SetYellow();
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stream_ << "%" << name_mapper_(word);
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break;
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case SPV_OPERAND_TYPE_EXTENSION_INSTRUCTION_NUMBER: {
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spv_ext_inst_desc ext_inst;
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if (grammar_.lookupExtInst(inst.ext_inst_type, word, &ext_inst))
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assert(false && "should have caught this earlier");
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SetRed();
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stream_ << ext_inst->name;
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} break;
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case SPV_OPERAND_TYPE_SPEC_CONSTANT_OP_NUMBER: {
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spv_opcode_desc opcode_desc;
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if (grammar_.lookupOpcode(SpvOp(word), &opcode_desc))
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assert(false && "should have caught this earlier");
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SetRed();
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stream_ << opcode_desc->name;
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} break;
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case SPV_OPERAND_TYPE_LITERAL_INTEGER:
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case SPV_OPERAND_TYPE_TYPED_LITERAL_NUMBER: {
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SetRed();
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spvtools::EmitNumericLiteral(&stream_, inst, operand);
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ResetColor();
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} break;
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case SPV_OPERAND_TYPE_LITERAL_STRING: {
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stream_ << "\"";
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SetGreen();
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// Strings are always little-endian, and null-terminated.
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// Write out the characters, escaping as needed, and without copying
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// the entire string.
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auto c_str = reinterpret_cast<const char*>(inst.words + operand.offset);
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for (auto p = c_str; *p; ++p) {
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if (*p == '"' || *p == '\\') stream_ << '\\';
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stream_ << *p;
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}
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ResetColor();
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stream_ << '"';
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} break;
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case SPV_OPERAND_TYPE_CAPABILITY:
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case SPV_OPERAND_TYPE_SOURCE_LANGUAGE:
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case SPV_OPERAND_TYPE_EXECUTION_MODEL:
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case SPV_OPERAND_TYPE_ADDRESSING_MODEL:
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case SPV_OPERAND_TYPE_MEMORY_MODEL:
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case SPV_OPERAND_TYPE_EXECUTION_MODE:
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case SPV_OPERAND_TYPE_STORAGE_CLASS:
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case SPV_OPERAND_TYPE_DIMENSIONALITY:
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case SPV_OPERAND_TYPE_SAMPLER_ADDRESSING_MODE:
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case SPV_OPERAND_TYPE_SAMPLER_FILTER_MODE:
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case SPV_OPERAND_TYPE_SAMPLER_IMAGE_FORMAT:
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case SPV_OPERAND_TYPE_FP_ROUNDING_MODE:
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case SPV_OPERAND_TYPE_LINKAGE_TYPE:
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case SPV_OPERAND_TYPE_ACCESS_QUALIFIER:
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case SPV_OPERAND_TYPE_FUNCTION_PARAMETER_ATTRIBUTE:
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case SPV_OPERAND_TYPE_DECORATION:
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case SPV_OPERAND_TYPE_BUILT_IN:
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case SPV_OPERAND_TYPE_GROUP_OPERATION:
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case SPV_OPERAND_TYPE_KERNEL_ENQ_FLAGS:
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case SPV_OPERAND_TYPE_KERNEL_PROFILING_INFO:
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case SPV_OPERAND_TYPE_DEBUG_BASE_TYPE_ATTRIBUTE_ENCODING:
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case SPV_OPERAND_TYPE_DEBUG_COMPOSITE_TYPE:
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case SPV_OPERAND_TYPE_DEBUG_TYPE_QUALIFIER:
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case SPV_OPERAND_TYPE_DEBUG_OPERATION: {
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spv_operand_desc entry;
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if (grammar_.lookupOperand(operand.type, word, &entry))
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assert(false && "should have caught this earlier");
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stream_ << entry->name;
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} break;
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case SPV_OPERAND_TYPE_FP_FAST_MATH_MODE:
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case SPV_OPERAND_TYPE_FUNCTION_CONTROL:
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case SPV_OPERAND_TYPE_LOOP_CONTROL:
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case SPV_OPERAND_TYPE_IMAGE:
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case SPV_OPERAND_TYPE_MEMORY_ACCESS:
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case SPV_OPERAND_TYPE_SELECTION_CONTROL:
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case SPV_OPERAND_TYPE_DEBUG_INFO_FLAGS:
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EmitMaskOperand(operand.type, word);
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break;
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default:
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assert(false && "unhandled or invalid case");
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}
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ResetColor();
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}
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void Disassembler::EmitMaskOperand(const spv_operand_type_t type,
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const uint32_t word) {
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// Scan the mask from least significant bit to most significant bit. For each
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// set bit, emit the name of that bit. Separate multiple names with '|'.
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uint32_t remaining_word = word;
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uint32_t mask;
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int num_emitted = 0;
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for (mask = 1; remaining_word; mask <<= 1) {
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if (remaining_word & mask) {
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remaining_word ^= mask;
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spv_operand_desc entry;
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if (grammar_.lookupOperand(type, mask, &entry))
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assert(false && "should have caught this earlier");
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if (num_emitted) stream_ << "|";
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stream_ << entry->name;
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num_emitted++;
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}
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}
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if (!num_emitted) {
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// An operand value of 0 was provided, so represent it by the name
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// of the 0 value. In many cases, that's "None".
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spv_operand_desc entry;
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if (SPV_SUCCESS == grammar_.lookupOperand(type, 0, &entry))
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stream_ << entry->name;
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}
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}
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spv_result_t Disassembler::SaveTextResult(spv_text* text_result) const {
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if (!print_) {
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size_t length = text_.str().size();
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char* str = new char[length + 1];
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if (!str) return SPV_ERROR_OUT_OF_MEMORY;
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strncpy(str, text_.str().c_str(), length + 1);
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spv_text text = new spv_text_t();
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if (!text) {
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delete[] str;
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return SPV_ERROR_OUT_OF_MEMORY;
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}
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text->str = str;
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text->length = length;
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*text_result = text;
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}
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return SPV_SUCCESS;
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}
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spv_result_t DisassembleHeader(void* user_data, spv_endianness_t endian,
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uint32_t /* magic */, uint32_t version,
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uint32_t generator, uint32_t id_bound,
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uint32_t schema) {
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assert(user_data);
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auto disassembler = static_cast<Disassembler*>(user_data);
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return disassembler->HandleHeader(endian, version, generator, id_bound,
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schema);
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}
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spv_result_t DisassembleInstruction(
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void* user_data, const spv_parsed_instruction_t* parsed_instruction) {
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assert(user_data);
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auto disassembler = static_cast<Disassembler*>(user_data);
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return disassembler->HandleInstruction(*parsed_instruction);
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}
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// Simple wrapper class to provide extra data necessary for targeted
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// instruction disassembly.
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class WrappedDisassembler {
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public:
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WrappedDisassembler(Disassembler* dis, const uint32_t* binary, size_t wc)
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: disassembler_(dis), inst_binary_(binary), word_count_(wc) {}
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Disassembler* disassembler() { return disassembler_; }
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const uint32_t* inst_binary() const { return inst_binary_; }
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size_t word_count() const { return word_count_; }
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private:
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Disassembler* disassembler_;
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const uint32_t* inst_binary_;
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const size_t word_count_;
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};
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spv_result_t DisassembleTargetHeader(void* user_data, spv_endianness_t endian,
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uint32_t /* magic */, uint32_t version,
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uint32_t generator, uint32_t id_bound,
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uint32_t schema) {
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assert(user_data);
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auto wrapped = static_cast<WrappedDisassembler*>(user_data);
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return wrapped->disassembler()->HandleHeader(endian, version, generator,
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id_bound, schema);
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}
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spv_result_t DisassembleTargetInstruction(
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void* user_data, const spv_parsed_instruction_t* parsed_instruction) {
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assert(user_data);
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auto wrapped = static_cast<WrappedDisassembler*>(user_data);
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// Check if this is the instruction we want to disassemble.
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if (wrapped->word_count() == parsed_instruction->num_words &&
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std::equal(wrapped->inst_binary(),
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wrapped->inst_binary() + wrapped->word_count(),
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parsed_instruction->words)) {
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// Found the target instruction. Disassemble it and signal that we should
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// stop searching so we don't output the same instruction again.
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if (auto error =
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wrapped->disassembler()->HandleInstruction(*parsed_instruction))
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return error;
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return SPV_REQUESTED_TERMINATION;
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}
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return SPV_SUCCESS;
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}
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} // namespace
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spv_result_t spvBinaryToText(const spv_const_context context,
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const uint32_t* code, const size_t wordCount,
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const uint32_t options, spv_text* pText,
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spv_diagnostic* pDiagnostic) {
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spv_context_t hijack_context = *context;
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if (pDiagnostic) {
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*pDiagnostic = nullptr;
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spvtools::UseDiagnosticAsMessageConsumer(&hijack_context, pDiagnostic);
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}
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const spvtools::AssemblyGrammar grammar(&hijack_context);
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if (!grammar.isValid()) return SPV_ERROR_INVALID_TABLE;
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// Generate friendly names for Ids if requested.
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std::unique_ptr<spvtools::FriendlyNameMapper> friendly_mapper;
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spvtools::NameMapper name_mapper = spvtools::GetTrivialNameMapper();
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if (options & SPV_BINARY_TO_TEXT_OPTION_FRIENDLY_NAMES) {
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friendly_mapper = spvtools::MakeUnique<spvtools::FriendlyNameMapper>(
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&hijack_context, code, wordCount);
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name_mapper = friendly_mapper->GetNameMapper();
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}
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// Now disassemble!
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Disassembler disassembler(grammar, options, name_mapper);
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if (auto error = spvBinaryParse(&hijack_context, &disassembler, code,
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wordCount, DisassembleHeader,
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DisassembleInstruction, pDiagnostic)) {
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return error;
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}
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return disassembler.SaveTextResult(pText);
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}
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std::string spvtools::spvInstructionBinaryToText(const spv_target_env env,
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const uint32_t* instCode,
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const size_t instWordCount,
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const uint32_t* code,
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const size_t wordCount,
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const uint32_t options) {
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spv_context context = spvContextCreate(env);
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const spvtools::AssemblyGrammar grammar(context);
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|
if (!grammar.isValid()) {
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|
spvContextDestroy(context);
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return "";
|
|
}
|
|
|
|
// Generate friendly names for Ids if requested.
|
|
std::unique_ptr<spvtools::FriendlyNameMapper> friendly_mapper;
|
|
spvtools::NameMapper name_mapper = spvtools::GetTrivialNameMapper();
|
|
if (options & SPV_BINARY_TO_TEXT_OPTION_FRIENDLY_NAMES) {
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|
friendly_mapper = spvtools::MakeUnique<spvtools::FriendlyNameMapper>(
|
|
context, code, wordCount);
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|
name_mapper = friendly_mapper->GetNameMapper();
|
|
}
|
|
|
|
// Now disassemble!
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|
Disassembler disassembler(grammar, options, name_mapper);
|
|
WrappedDisassembler wrapped(&disassembler, instCode, instWordCount);
|
|
spvBinaryParse(context, &wrapped, code, wordCount, DisassembleTargetHeader,
|
|
DisassembleTargetInstruction, nullptr);
|
|
|
|
spv_text text = nullptr;
|
|
std::string output;
|
|
if (disassembler.SaveTextResult(&text) == SPV_SUCCESS) {
|
|
output.assign(text->str, text->str + text->length);
|
|
// Drop trailing newline characters.
|
|
while (!output.empty() && output.back() == '\n') output.pop_back();
|
|
}
|
|
spvTextDestroy(text);
|
|
spvContextDestroy(context);
|
|
|
|
return output;
|
|
}
|