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https://github.com/KhronosGroup/SPIRV-Tools
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65ecfd1093
Found via `codespell -q 3 -L fo,lod,parm
371 lines
14 KiB
C++
371 lines
14 KiB
C++
// Copyright (c) 2016 Google Inc.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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#ifndef INCLUDE_SPIRV_TOOLS_LIBSPIRV_HPP_
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#define INCLUDE_SPIRV_TOOLS_LIBSPIRV_HPP_
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#include <functional>
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#include <memory>
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#include <string>
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#include <vector>
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#include "spirv-tools/libspirv.h"
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namespace spvtools {
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// Message consumer. The C strings for source and message are only alive for the
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// specific invocation.
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using MessageConsumer = std::function<void(
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spv_message_level_t /* level */, const char* /* source */,
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const spv_position_t& /* position */, const char* /* message */
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)>;
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// C++ RAII wrapper around the C context object spv_context.
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class Context {
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public:
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// Constructs a context targeting the given environment |env|.
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//
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// See specific API calls for how the target environment is interpreted
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// (particularly assembly and validation).
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//
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// The constructed instance will have an empty message consumer, which just
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// ignores all messages from the library. Use SetMessageConsumer() to supply
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// one if messages are of concern.
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explicit Context(spv_target_env env);
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// Enables move constructor/assignment operations.
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Context(Context&& other);
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Context& operator=(Context&& other);
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// Disables copy constructor/assignment operations.
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Context(const Context&) = delete;
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Context& operator=(const Context&) = delete;
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// Destructs this instance.
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~Context();
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// Sets the message consumer to the given |consumer|. The |consumer| will be
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// invoked once for each message communicated from the library.
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void SetMessageConsumer(MessageConsumer consumer);
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// Returns the underlying spv_context.
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spv_context& CContext();
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const spv_context& CContext() const;
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private:
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spv_context context_;
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};
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// A RAII wrapper around a validator options object.
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class ValidatorOptions {
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public:
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ValidatorOptions() : options_(spvValidatorOptionsCreate()) {}
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~ValidatorOptions() { spvValidatorOptionsDestroy(options_); }
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// Allow implicit conversion to the underlying object.
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operator spv_validator_options() const { return options_; }
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// Sets a limit.
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void SetUniversalLimit(spv_validator_limit limit_type, uint32_t limit) {
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spvValidatorOptionsSetUniversalLimit(options_, limit_type, limit);
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}
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void SetRelaxStructStore(bool val) {
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spvValidatorOptionsSetRelaxStoreStruct(options_, val);
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}
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// Enables VK_KHR_relaxed_block_layout when validating standard
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// uniform/storage buffer/push-constant layout. If true, disables
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// scalar block layout rules.
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void SetRelaxBlockLayout(bool val) {
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spvValidatorOptionsSetRelaxBlockLayout(options_, val);
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}
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// Enables VK_KHR_uniform_buffer_standard_layout when validating standard
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// uniform layout. If true, disables scalar block layout rules.
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void SetUniformBufferStandardLayout(bool val) {
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spvValidatorOptionsSetUniformBufferStandardLayout(options_, val);
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}
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// Enables VK_EXT_scalar_block_layout when validating standard
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// uniform/storage buffer/push-constant layout. If true, disables
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// relaxed block layout rules.
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void SetScalarBlockLayout(bool val) {
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spvValidatorOptionsSetScalarBlockLayout(options_, val);
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}
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// Enables scalar layout when validating Workgroup blocks. See
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// VK_KHR_workgroup_memory_explicit_layout.
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void SetWorkgroupScalarBlockLayout(bool val) {
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spvValidatorOptionsSetWorkgroupScalarBlockLayout(options_, val);
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}
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// Skips validating standard uniform/storage buffer/push-constant layout.
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void SetSkipBlockLayout(bool val) {
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spvValidatorOptionsSetSkipBlockLayout(options_, val);
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}
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// Enables LocalSizeId decorations where the environment would not otherwise
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// allow them.
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void SetAllowLocalSizeId(bool val) {
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spvValidatorOptionsSetAllowLocalSizeId(options_, val);
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}
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// Records whether or not the validator should relax the rules on pointer
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// usage in logical addressing mode.
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//
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// When relaxed, it will allow the following usage cases of pointers:
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// 1) OpVariable allocating an object whose type is a pointer type
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// 2) OpReturnValue returning a pointer value
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void SetRelaxLogicalPointer(bool val) {
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spvValidatorOptionsSetRelaxLogicalPointer(options_, val);
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}
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// Records whether or not the validator should relax the rules because it is
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// expected that the optimizations will make the code legal.
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//
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// When relaxed, it will allow the following:
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// 1) It will allow relaxed logical pointers. Setting this option will also
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// set that option.
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// 2) Pointers that are pass as parameters to function calls do not have to
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// match the storage class of the formal parameter.
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// 3) Pointers that are actual parameters on function calls do not have to
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// point to the same type pointed as the formal parameter. The types just
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// need to logically match.
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// 4) GLSLstd450 Interpolate* instructions can have a load of an interpolant
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// for a first argument.
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void SetBeforeHlslLegalization(bool val) {
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spvValidatorOptionsSetBeforeHlslLegalization(options_, val);
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}
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private:
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spv_validator_options options_;
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};
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// A C++ wrapper around an optimization options object.
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class OptimizerOptions {
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public:
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OptimizerOptions() : options_(spvOptimizerOptionsCreate()) {}
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~OptimizerOptions() { spvOptimizerOptionsDestroy(options_); }
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// Allow implicit conversion to the underlying object.
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operator spv_optimizer_options() const { return options_; }
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// Records whether or not the optimizer should run the validator before
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// optimizing. If |run| is true, the validator will be run.
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void set_run_validator(bool run) {
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spvOptimizerOptionsSetRunValidator(options_, run);
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}
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// Records the validator options that should be passed to the validator if it
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// is run.
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void set_validator_options(const ValidatorOptions& val_options) {
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spvOptimizerOptionsSetValidatorOptions(options_, val_options);
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}
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// Records the maximum possible value for the id bound.
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void set_max_id_bound(uint32_t new_bound) {
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spvOptimizerOptionsSetMaxIdBound(options_, new_bound);
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}
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// Records whether all bindings within the module should be preserved.
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void set_preserve_bindings(bool preserve_bindings) {
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spvOptimizerOptionsSetPreserveBindings(options_, preserve_bindings);
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}
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// Records whether all specialization constants within the module
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// should be preserved.
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void set_preserve_spec_constants(bool preserve_spec_constants) {
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spvOptimizerOptionsSetPreserveSpecConstants(options_,
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preserve_spec_constants);
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}
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private:
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spv_optimizer_options options_;
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};
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// A C++ wrapper around a reducer options object.
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class ReducerOptions {
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public:
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ReducerOptions() : options_(spvReducerOptionsCreate()) {}
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~ReducerOptions() { spvReducerOptionsDestroy(options_); }
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// Allow implicit conversion to the underlying object.
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operator spv_reducer_options() const { // NOLINT(google-explicit-constructor)
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return options_;
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}
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// See spvReducerOptionsSetStepLimit.
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void set_step_limit(uint32_t step_limit) {
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spvReducerOptionsSetStepLimit(options_, step_limit);
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}
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// See spvReducerOptionsSetFailOnValidationError.
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void set_fail_on_validation_error(bool fail_on_validation_error) {
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spvReducerOptionsSetFailOnValidationError(options_,
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fail_on_validation_error);
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}
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// See spvReducerOptionsSetTargetFunction.
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void set_target_function(uint32_t target_function) {
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spvReducerOptionsSetTargetFunction(options_, target_function);
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}
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private:
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spv_reducer_options options_;
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};
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// A C++ wrapper around a fuzzer options object.
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class FuzzerOptions {
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public:
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FuzzerOptions() : options_(spvFuzzerOptionsCreate()) {}
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~FuzzerOptions() { spvFuzzerOptionsDestroy(options_); }
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// Allow implicit conversion to the underlying object.
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operator spv_fuzzer_options() const { // NOLINT(google-explicit-constructor)
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return options_;
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}
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// See spvFuzzerOptionsEnableReplayValidation.
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void enable_replay_validation() {
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spvFuzzerOptionsEnableReplayValidation(options_);
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}
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// See spvFuzzerOptionsSetRandomSeed.
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void set_random_seed(uint32_t seed) {
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spvFuzzerOptionsSetRandomSeed(options_, seed);
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}
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// See spvFuzzerOptionsSetReplayRange.
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void set_replay_range(int32_t replay_range) {
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spvFuzzerOptionsSetReplayRange(options_, replay_range);
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}
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// See spvFuzzerOptionsSetShrinkerStepLimit.
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void set_shrinker_step_limit(uint32_t shrinker_step_limit) {
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spvFuzzerOptionsSetShrinkerStepLimit(options_, shrinker_step_limit);
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}
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// See spvFuzzerOptionsEnableFuzzerPassValidation.
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void enable_fuzzer_pass_validation() {
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spvFuzzerOptionsEnableFuzzerPassValidation(options_);
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}
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// See spvFuzzerOptionsEnableAllPasses.
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void enable_all_passes() { spvFuzzerOptionsEnableAllPasses(options_); }
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private:
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spv_fuzzer_options options_;
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};
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// C++ interface for SPIRV-Tools functionalities. It wraps the context
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// (including target environment and the corresponding SPIR-V grammar) and
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// provides methods for assembling, disassembling, and validating.
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//
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// Instances of this class provide basic thread-safety guarantee.
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class SpirvTools {
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public:
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enum {
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// Default assembling option used by assemble():
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kDefaultAssembleOption = SPV_TEXT_TO_BINARY_OPTION_NONE,
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// Default disassembling option used by Disassemble():
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// * Avoid prefix comments from decoding the SPIR-V module header, and
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// * Use friendly names for variables.
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kDefaultDisassembleOption = SPV_BINARY_TO_TEXT_OPTION_NO_HEADER |
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SPV_BINARY_TO_TEXT_OPTION_FRIENDLY_NAMES
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};
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// Constructs an instance targeting the given environment |env|.
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//
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// The constructed instance will have an empty message consumer, which just
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// ignores all messages from the library. Use SetMessageConsumer() to supply
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// one if messages are of concern.
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explicit SpirvTools(spv_target_env env);
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// Disables copy/move constructor/assignment operations.
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SpirvTools(const SpirvTools&) = delete;
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SpirvTools(SpirvTools&&) = delete;
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SpirvTools& operator=(const SpirvTools&) = delete;
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SpirvTools& operator=(SpirvTools&&) = delete;
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// Destructs this instance.
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~SpirvTools();
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// Sets the message consumer to the given |consumer|. The |consumer| will be
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// invoked once for each message communicated from the library.
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void SetMessageConsumer(MessageConsumer consumer);
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// Assembles the given assembly |text| and writes the result to |binary|.
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// Returns true on successful assembling. |binary| will be kept untouched if
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// assembling is unsuccessful.
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// The SPIR-V binary version is set to the highest version of SPIR-V supported
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// by the target environment with which this SpirvTools object was created.
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bool Assemble(const std::string& text, std::vector<uint32_t>* binary,
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uint32_t options = kDefaultAssembleOption) const;
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// |text_size| specifies the number of bytes in |text|. A terminating null
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// character is not required to present in |text| as long as |text| is valid.
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// The SPIR-V binary version is set to the highest version of SPIR-V supported
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// by the target environment with which this SpirvTools object was created.
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bool Assemble(const char* text, size_t text_size,
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std::vector<uint32_t>* binary,
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uint32_t options = kDefaultAssembleOption) const;
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// Disassembles the given SPIR-V |binary| with the given |options| and writes
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// the assembly to |text|. Returns true on successful disassembling. |text|
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// will be kept untouched if diassembling is unsuccessful.
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bool Disassemble(const std::vector<uint32_t>& binary, std::string* text,
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uint32_t options = kDefaultDisassembleOption) const;
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// |binary_size| specifies the number of words in |binary|.
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bool Disassemble(const uint32_t* binary, size_t binary_size,
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std::string* text,
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uint32_t options = kDefaultDisassembleOption) const;
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// Validates the given SPIR-V |binary|. Returns true if no issues are found.
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// Otherwise, returns false and communicates issues via the message consumer
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// registered.
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// Validates for SPIR-V spec rules for the SPIR-V version named in the
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// binary's header (at word offset 1). Additionally, if the target
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// environment is a client API (such as Vulkan 1.1), then validate for that
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// client API version, to the extent that it is verifiable from data in the
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// binary itself.
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bool Validate(const std::vector<uint32_t>& binary) const;
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// Like the previous overload, but provides the binary as a pointer and size:
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// |binary_size| specifies the number of words in |binary|.
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// Validates for SPIR-V spec rules for the SPIR-V version named in the
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// binary's header (at word offset 1). Additionally, if the target
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// environment is a client API (such as Vulkan 1.1), then validate for that
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// client API version, to the extent that it is verifiable from data in the
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// binary itself.
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bool Validate(const uint32_t* binary, size_t binary_size) const;
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// Like the previous overload, but takes an options object.
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// Validates for SPIR-V spec rules for the SPIR-V version named in the
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// binary's header (at word offset 1). Additionally, if the target
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// environment is a client API (such as Vulkan 1.1), then validate for that
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// client API version, to the extent that it is verifiable from data in the
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// binary itself, or in the validator options.
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bool Validate(const uint32_t* binary, size_t binary_size,
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spv_validator_options options) const;
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// Was this object successfully constructed.
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bool IsValid() const;
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private:
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struct Impl; // Opaque struct for holding the data fields used by this class.
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std::unique_ptr<Impl> impl_; // Unique pointer to implementation data.
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};
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} // namespace spvtools
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#endif // INCLUDE_SPIRV_TOOLS_LIBSPIRV_HPP_
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