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398 lines
13 KiB
398 lines
13 KiB
4 months ago
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// 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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#include "source/text_handler.h"
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#include <algorithm>
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#include <cassert>
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#include <cstdlib>
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#include <cstring>
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#include <tuple>
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#include "source/assembly_grammar.h"
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#include "source/binary.h"
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#include "source/ext_inst.h"
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#include "source/instruction.h"
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#include "source/opcode.h"
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#include "source/text.h"
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#include "source/util/bitutils.h"
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#include "source/util/hex_float.h"
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#include "source/util/parse_number.h"
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namespace spvtools {
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namespace {
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// Advances |text| to the start of the next line and writes the new position to
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// |position|.
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spv_result_t advanceLine(spv_text text, spv_position position) {
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while (true) {
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if (position->index >= text->length) return SPV_END_OF_STREAM;
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switch (text->str[position->index]) {
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case '\0':
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return SPV_END_OF_STREAM;
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case '\n':
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position->column = 0;
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position->line++;
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position->index++;
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return SPV_SUCCESS;
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default:
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position->column++;
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position->index++;
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break;
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}
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}
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}
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// Advances |text| to first non white space character and writes the new
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// position to |position|.
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// If a null terminator is found during the text advance, SPV_END_OF_STREAM is
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// returned, SPV_SUCCESS otherwise. No error checking is performed on the
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// parameters, its the users responsibility to ensure these are non null.
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spv_result_t advance(spv_text text, spv_position position) {
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// NOTE: Consume white space, otherwise don't advance.
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if (position->index >= text->length) return SPV_END_OF_STREAM;
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switch (text->str[position->index]) {
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case '\0':
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return SPV_END_OF_STREAM;
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case ';':
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if (spv_result_t error = advanceLine(text, position)) return error;
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return advance(text, position);
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case ' ':
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case '\t':
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case '\r':
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position->column++;
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position->index++;
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return advance(text, position);
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case '\n':
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position->column = 0;
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position->line++;
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position->index++;
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return advance(text, position);
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default:
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break;
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}
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return SPV_SUCCESS;
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}
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// Fetches the next word from the given text stream starting from the given
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// *position. On success, writes the decoded word into *word and updates
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// *position to the location past the returned word.
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//
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// A word ends at the next comment or whitespace. However, double-quoted
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// strings remain intact, and a backslash always escapes the next character.
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spv_result_t getWord(spv_text text, spv_position position, std::string* word) {
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if (!text->str || !text->length) return SPV_ERROR_INVALID_TEXT;
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if (!position) return SPV_ERROR_INVALID_POINTER;
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const size_t start_index = position->index;
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bool quoting = false;
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bool escaping = false;
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// NOTE: Assumes first character is not white space!
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while (true) {
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if (position->index >= text->length) {
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word->assign(text->str + start_index, text->str + position->index);
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return SPV_SUCCESS;
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}
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const char ch = text->str[position->index];
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if (ch == '\\') {
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escaping = !escaping;
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} else {
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switch (ch) {
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case '"':
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if (!escaping) quoting = !quoting;
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break;
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case ' ':
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case ';':
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case '\t':
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case '\n':
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case '\r':
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if (escaping || quoting) break;
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// Fall through.
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case '\0': { // NOTE: End of word found!
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word->assign(text->str + start_index, text->str + position->index);
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return SPV_SUCCESS;
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}
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default:
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break;
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}
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escaping = false;
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}
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position->column++;
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position->index++;
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}
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}
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// Returns true if the characters in the text as position represent
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// the start of an Opcode.
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bool startsWithOp(spv_text text, spv_position position) {
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if (text->length < position->index + 3) return false;
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char ch0 = text->str[position->index];
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char ch1 = text->str[position->index + 1];
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char ch2 = text->str[position->index + 2];
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return ('O' == ch0 && 'p' == ch1 && ('A' <= ch2 && ch2 <= 'Z'));
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}
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} // namespace
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const IdType kUnknownType = {0, false, IdTypeClass::kBottom};
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// TODO(dneto): Reorder AssemblyContext definitions to match declaration order.
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// This represents all of the data that is only valid for the duration of
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// a single compilation.
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uint32_t AssemblyContext::spvNamedIdAssignOrGet(const char* textValue) {
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if (!ids_to_preserve_.empty()) {
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uint32_t id = 0;
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if (spvtools::utils::ParseNumber(textValue, &id)) {
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if (ids_to_preserve_.find(id) != ids_to_preserve_.end()) {
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bound_ = std::max(bound_, id + 1);
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return id;
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}
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}
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}
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const auto it = named_ids_.find(textValue);
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if (it == named_ids_.end()) {
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uint32_t id = next_id_++;
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if (!ids_to_preserve_.empty()) {
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while (ids_to_preserve_.find(id) != ids_to_preserve_.end()) {
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id = next_id_++;
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}
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}
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named_ids_.emplace(textValue, id);
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bound_ = std::max(bound_, id + 1);
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return id;
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}
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return it->second;
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}
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uint32_t AssemblyContext::getBound() const { return bound_; }
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spv_result_t AssemblyContext::advance() {
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return spvtools::advance(text_, ¤t_position_);
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}
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spv_result_t AssemblyContext::getWord(std::string* word,
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spv_position next_position) {
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*next_position = current_position_;
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return spvtools::getWord(text_, next_position, word);
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}
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bool AssemblyContext::startsWithOp() {
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return spvtools::startsWithOp(text_, ¤t_position_);
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}
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bool AssemblyContext::isStartOfNewInst() {
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spv_position_t pos = current_position_;
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if (spvtools::advance(text_, &pos)) return false;
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if (spvtools::startsWithOp(text_, &pos)) return true;
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std::string word;
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pos = current_position_;
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if (spvtools::getWord(text_, &pos, &word)) return false;
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if ('%' != word.front()) return false;
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if (spvtools::advance(text_, &pos)) return false;
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if (spvtools::getWord(text_, &pos, &word)) return false;
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if ("=" != word) return false;
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if (spvtools::advance(text_, &pos)) return false;
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if (spvtools::startsWithOp(text_, &pos)) return true;
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return false;
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}
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char AssemblyContext::peek() const {
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return text_->str[current_position_.index];
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}
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bool AssemblyContext::hasText() const {
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return text_->length > current_position_.index;
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}
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void AssemblyContext::seekForward(uint32_t size) {
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current_position_.index += size;
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current_position_.column += size;
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}
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spv_result_t AssemblyContext::binaryEncodeU32(const uint32_t value,
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spv_instruction_t* pInst) {
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pInst->words.insert(pInst->words.end(), value);
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return SPV_SUCCESS;
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}
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spv_result_t AssemblyContext::binaryEncodeNumericLiteral(
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const char* val, spv_result_t error_code, const IdType& type,
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spv_instruction_t* pInst) {
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using spvtools::utils::EncodeNumberStatus;
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// Populate the NumberType from the IdType for parsing.
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spvtools::utils::NumberType number_type;
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switch (type.type_class) {
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case IdTypeClass::kOtherType:
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return diagnostic(SPV_ERROR_INTERNAL)
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<< "Unexpected numeric literal type";
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case IdTypeClass::kScalarIntegerType:
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if (type.isSigned) {
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number_type = {type.bitwidth, SPV_NUMBER_SIGNED_INT};
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} else {
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number_type = {type.bitwidth, SPV_NUMBER_UNSIGNED_INT};
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}
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break;
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case IdTypeClass::kScalarFloatType:
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number_type = {type.bitwidth, SPV_NUMBER_FLOATING};
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break;
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case IdTypeClass::kBottom:
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// kBottom means the type is unknown and we need to infer the type before
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// parsing the number. The rule is: If there is a decimal point, treat
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// the value as a floating point value, otherwise a integer value, then
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// if the first char of the integer text is '-', treat the integer as a
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// signed integer, otherwise an unsigned integer.
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uint32_t bitwidth = static_cast<uint32_t>(assumedBitWidth(type));
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if (strchr(val, '.')) {
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number_type = {bitwidth, SPV_NUMBER_FLOATING};
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} else if (type.isSigned || val[0] == '-') {
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number_type = {bitwidth, SPV_NUMBER_SIGNED_INT};
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} else {
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number_type = {bitwidth, SPV_NUMBER_UNSIGNED_INT};
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}
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break;
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}
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std::string error_msg;
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EncodeNumberStatus parse_status = ParseAndEncodeNumber(
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val, number_type,
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[this, pInst](uint32_t d) { this->binaryEncodeU32(d, pInst); },
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&error_msg);
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switch (parse_status) {
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case EncodeNumberStatus::kSuccess:
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return SPV_SUCCESS;
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case EncodeNumberStatus::kInvalidText:
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return diagnostic(error_code) << error_msg;
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case EncodeNumberStatus::kUnsupported:
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return diagnostic(SPV_ERROR_INTERNAL) << error_msg;
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case EncodeNumberStatus::kInvalidUsage:
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return diagnostic(SPV_ERROR_INVALID_TEXT) << error_msg;
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}
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// This line is not reachable, only added to satisfy the compiler.
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return diagnostic(SPV_ERROR_INTERNAL)
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<< "Unexpected result code from ParseAndEncodeNumber()";
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}
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spv_result_t AssemblyContext::binaryEncodeString(const char* value,
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spv_instruction_t* pInst) {
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const size_t length = strlen(value);
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const size_t wordCount = (length / 4) + 1;
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const size_t oldWordCount = pInst->words.size();
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const size_t newWordCount = oldWordCount + wordCount;
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// TODO(dneto): We can just defer this check until later.
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if (newWordCount > SPV_LIMIT_INSTRUCTION_WORD_COUNT_MAX) {
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return diagnostic() << "Instruction too long: more than "
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<< SPV_LIMIT_INSTRUCTION_WORD_COUNT_MAX << " words.";
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}
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pInst->words.resize(newWordCount);
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// Make sure all the bytes in the last word are 0, in case we only
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// write a partial word at the end.
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pInst->words.back() = 0;
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char* dest = (char*)&pInst->words[oldWordCount];
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strncpy(dest, value, length + 1);
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return SPV_SUCCESS;
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}
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spv_result_t AssemblyContext::recordTypeDefinition(
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const spv_instruction_t* pInst) {
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uint32_t value = pInst->words[1];
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if (types_.find(value) != types_.end()) {
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return diagnostic() << "Value " << value
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<< " has already been used to generate a type";
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}
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if (pInst->opcode == SpvOpTypeInt) {
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if (pInst->words.size() != 4)
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return diagnostic() << "Invalid OpTypeInt instruction";
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types_[value] = {pInst->words[2], pInst->words[3] != 0,
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IdTypeClass::kScalarIntegerType};
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} else if (pInst->opcode == SpvOpTypeFloat) {
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if (pInst->words.size() != 3)
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return diagnostic() << "Invalid OpTypeFloat instruction";
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types_[value] = {pInst->words[2], false, IdTypeClass::kScalarFloatType};
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} else {
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types_[value] = {0, false, IdTypeClass::kOtherType};
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}
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return SPV_SUCCESS;
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}
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IdType AssemblyContext::getTypeOfTypeGeneratingValue(uint32_t value) const {
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auto type = types_.find(value);
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if (type == types_.end()) {
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return kUnknownType;
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}
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return std::get<1>(*type);
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}
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IdType AssemblyContext::getTypeOfValueInstruction(uint32_t value) const {
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auto type_value = value_types_.find(value);
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if (type_value == value_types_.end()) {
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return {0, false, IdTypeClass::kBottom};
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}
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return getTypeOfTypeGeneratingValue(std::get<1>(*type_value));
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}
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spv_result_t AssemblyContext::recordTypeIdForValue(uint32_t value,
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uint32_t type) {
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bool successfully_inserted = false;
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std::tie(std::ignore, successfully_inserted) =
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value_types_.insert(std::make_pair(value, type));
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if (!successfully_inserted)
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return diagnostic() << "Value is being defined a second time";
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return SPV_SUCCESS;
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}
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spv_result_t AssemblyContext::recordIdAsExtInstImport(
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uint32_t id, spv_ext_inst_type_t type) {
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bool successfully_inserted = false;
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std::tie(std::ignore, successfully_inserted) =
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import_id_to_ext_inst_type_.insert(std::make_pair(id, type));
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if (!successfully_inserted)
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return diagnostic() << "Import Id is being defined a second time";
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return SPV_SUCCESS;
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}
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spv_ext_inst_type_t AssemblyContext::getExtInstTypeForId(uint32_t id) const {
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auto type = import_id_to_ext_inst_type_.find(id);
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if (type == import_id_to_ext_inst_type_.end()) {
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return SPV_EXT_INST_TYPE_NONE;
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}
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return std::get<1>(*type);
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}
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std::set<uint32_t> AssemblyContext::GetNumericIds() const {
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std::set<uint32_t> ids;
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for (const auto& kv : named_ids_) {
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uint32_t id;
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if (spvtools::utils::ParseNumber(kv.first.c_str(), &id)) ids.insert(id);
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}
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return ids;
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}
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} // namespace spvtools
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