src/reader/spirv/parser_impl_test_helper.h - tint - Git at Google

 // Copyright 2020 The Tint Authors.
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //     http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.

 #ifndef SRC_READER_SPIRV_PARSER_IMPL_TEST_HELPER_H_
 #define SRC_READER_SPIRV_PARSER_IMPL_TEST_HELPER_H_

 #include <memory>
 #include <string>
 #include <unordered_set>
 #include <utility>
 #include <vector>

 #if TINT_BUILD_SPV_READER
 #include "source/opt/ir_context.h"
 #endif

 #include "gtest/gtest.h"
 #include "src/demangler.h"
 #include "src/reader/spirv/fail_stream.h"
 #include "src/reader/spirv/function.h"
 #include "src/reader/spirv/namer.h"
 #include "src/reader/spirv/parser_impl.h"
 #include "src/reader/spirv/spirv_tools_helpers_test.h"
 #include "src/reader/spirv/usage.h"

 namespace tint {
 namespace reader {
 namespace spirv {
 namespace test {

 /// A test class that wraps ParseImpl
 class ParserImplWrapperForTest {
  public:
   /// Constructor
   /// @param input the input data to parse
   explicit ParserImplWrapperForTest(const std::vector<uint32_t>& input);
   /// Dumps SPIR-V if the conversion succeeded, then destroys the wrapper.
   ~ParserImplWrapperForTest();

   /// Sets global state to force dumping of the assembly text of succesfully
   /// SPIR-V.
   static void DumpSuccessfullyConvertedSpirv() {
     dump_successfully_converted_spirv_ = true;
   }
   /// Marks the test has having deliberately invalid SPIR-V
   void DeliberatelyInvalidSpirv() { skip_dumping_spirv_ = true; }
   /// Marks the test's SPIR-V as not being suitable for dumping, for a stated
   /// reason.
   void SkipDumpingPending(std::string) { skip_dumping_spirv_ = true; }

   /// @returns a new function emitter for the given function ID.
   /// Assumes ParserImpl::BuildInternalRepresentation has been run and
   /// succeeded.
   /// @param function_id the SPIR-V identifier of the function
   FunctionEmitter function_emitter(uint32_t function_id) {
     auto* spirv_function = impl_.ir_context()->GetFunction(function_id);
     return FunctionEmitter(&impl_, *spirv_function);
   }

   /// Run the parser
   /// @returns true if the parse was successful, false otherwise.
   bool Parse() { return impl_.Parse(); }

   /// @returns the program. The program builder in the parser will be reset
   /// after this.
   Program program() { return impl_.program(); }

   /// @returns the namer object
   Namer& namer() { return impl_.namer(); }

   /// @returns a reference to the internal builder, without building the
   /// program. To be used only for testing.
   ProgramBuilder& builder() { return impl_.builder(); }

   /// @returns the accumulated error string
   const std::string error() { return impl_.error(); }

   /// @return true if failure has not yet occurred
   bool success() { return impl_.success(); }

   /// Logs failure, ands return a failure stream to accumulate diagnostic
   /// messages. By convention, a failure should only be logged along with
   /// a non-empty string diagnostic.
   /// @returns the failure stream
   FailStream& Fail() { return impl_.Fail(); }

   /// @returns a borrowed pointer to the internal representation of the module.
   /// This is null until BuildInternalModule has been called.
   spvtools::opt::IRContext* ir_context() { return impl_.ir_context(); }

   /// Builds the internal representation of the SPIR-V module.
   /// Assumes the module is somewhat well-formed.  Normally you
   /// would want to validate the SPIR-V module before attempting
   /// to build this internal representation. Also computes a topological
   /// ordering of the functions.
   /// This is a no-op if the parser has already failed.
   /// @returns true if the parser is still successful.
   bool BuildInternalModule() { return impl_.BuildInternalModule(); }

   /// Builds an internal representation of the SPIR-V binary,
   /// and parses the module, except functions, into a Tint AST module.
   /// Diagnostics are emitted to the error stream.
   /// @returns true if it was successful.
   bool BuildAndParseInternalModuleExceptFunctions() {
     return impl_.BuildAndParseInternalModuleExceptFunctions();
   }

   /// Builds an internal representation of the SPIR-V binary,
   /// and parses it into a Tint AST module.  Diagnostics are emitted
   /// to the error stream.
   /// @returns true if it was successful.
   bool BuildAndParseInternalModule() {
     return impl_.BuildAndParseInternalModule();
   }

   /// Registers user names for SPIR-V objects, from OpName, and OpMemberName.
   /// Also synthesizes struct field names.  Ensures uniqueness for names for
   /// SPIR-V IDs, and uniqueness of names of fields within any single struct.
   /// This is a no-op if the parser has already failed.
   /// @returns true if parser is still successful.
   bool RegisterUserAndStructMemberNames() {
     return impl_.RegisterUserAndStructMemberNames();
   }

   /// Register Tint AST types for SPIR-V types, including type aliases as
   /// needed.  This is a no-op if the parser has already failed.
   /// @returns true if parser is still successful.
   bool RegisterTypes() { return impl_.RegisterTypes(); }

   /// Register sampler and texture usage for memory object declarations.
   /// This must be called after we've registered line numbers for all
   /// instructions. This is a no-op if the parser has already failed.
   /// @returns true if parser is still successful.
   bool RegisterHandleUsage() { return impl_.RegisterHandleUsage(); }

   /// Emits module-scope variables.
   /// This is a no-op if the parser has already failed.
   /// @returns true if parser is still successful.
   bool EmitModuleScopeVariables() { return impl_.EmitModuleScopeVariables(); }

   /// @returns the set of SPIR-V IDs for imports of the "GLSL.std.450"
   /// extended instruction set.
   const std::unordered_set<uint32_t>& glsl_std_450_imports() const {
     return impl_.glsl_std_450_imports();
   }

   /// Converts a SPIR-V type to a Tint type, and saves it for fast lookup.
   /// If the type is only used for builtins, then register that specially,
   /// and return null.  If the type is a sampler, image, or sampled image, then
   /// return the Void type, because those opaque types are handled in a
   /// different way.
   /// On failure, logs an error and returns null.  This should only be called
   /// after the internal representation of the module has been built.
   /// @param id the SPIR-V ID of a type.
   /// @returns a Tint type, or nullptr
   const Type* ConvertType(uint32_t id) { return impl_.ConvertType(id); }

   /// Gets the list of decorations for a SPIR-V result ID.  Returns an empty
   /// vector if the ID is not a result ID, or if no decorations target that ID.
   /// The internal representation must have already been built.
   /// @param id SPIR-V ID
   /// @returns the list of decorations on the given ID
   DecorationList GetDecorationsFor(uint32_t id) const {
     return impl_.GetDecorationsFor(id);
   }

   /// Gets the list of decorations for the member of a struct.  Returns an empty
   /// list if the `id` is not the ID of a struct, or if the member index is out
   /// of range, or if the target member has no decorations.
   /// The internal representation must have already been built.
   /// @param id SPIR-V ID of a struct
   /// @param member_index the member within the struct
   /// @returns the list of decorations on the member
   DecorationList GetDecorationsForMember(uint32_t id,
                                          uint32_t member_index) const {
     return impl_.GetDecorationsForMember(id, member_index);
   }

   /// Converts a SPIR-V struct member decoration into a number of AST
   /// decorations. If the decoration is recognized but deliberately dropped,
   /// then returns an empty list without a diagnostic. On failure, emits a
   /// diagnostic and returns an empty list.
   /// @param struct_type_id the ID of the struct type
   /// @param member_index the index of the member
   /// @param member_ty the type of the member
   /// @param decoration an encoded SPIR-V Decoration
   /// @returns the AST decorations
   ast::AttributeList ConvertMemberDecoration(uint32_t struct_type_id,
                                              uint32_t member_index,
                                              const Type* member_ty,
                                              const Decoration& decoration) {
     return impl_.ConvertMemberDecoration(struct_type_id, member_index,
                                          member_ty, decoration);
   }

   /// For a SPIR-V ID that might define a sampler, image, or sampled image
   /// value, return the SPIR-V instruction that represents the memory object
   /// declaration for the object.  If we encounter an OpSampledImage along the
   /// way, follow the image operand when follow_image is true; otherwise follow
   /// the sampler operand. Returns nullptr if we can't trace back to a memory
   /// object declaration.  Emits an error and returns nullptr when the scan
   /// fails due to a malformed module. This method can be used any time after
   /// BuildInternalModule has been invoked.
   /// @param id the SPIR-V ID of the sampler, image, or sampled image
   /// @param follow_image indicates whether to follow the image operand of
   /// OpSampledImage
   /// @returns the memory object declaration for the handle, or nullptr
   const spvtools::opt::Instruction* GetMemoryObjectDeclarationForHandle(
       uint32_t id,
       bool follow_image) {
     return impl_.GetMemoryObjectDeclarationForHandle(id, follow_image);
   }

   /// @param entry_point the SPIR-V ID of an entry point.
   /// @returns the entry point info for the given ID
   const std::vector<EntryPointInfo>& GetEntryPointInfo(uint32_t entry_point) {
     return impl_.GetEntryPointInfo(entry_point);
   }

   /// Returns the handle usage for a memory object declaration.
   /// @param id SPIR-V ID of a sampler or image OpVariable or
   /// OpFunctionParameter
   /// @returns the handle usage, or an empty usage object.
   Usage GetHandleUsage(uint32_t id) const { return impl_.GetHandleUsage(id); }

   /// Returns the SPIR-V instruction with the given ID, or nullptr.
   /// @param id the SPIR-V result ID
   /// @returns the instruction, or nullptr on error
   const spvtools::opt::Instruction* GetInstructionForTest(uint32_t id) const {
     return impl_.GetInstructionForTest(id);
   }

   /// @returns info about the gl_Position builtin variable.
   const ParserImpl::BuiltInPositionInfo& GetBuiltInPositionInfo() {
     return impl_.GetBuiltInPositionInfo();
   }

   /// Returns the source record for the SPIR-V instruction with the given
   /// result ID.
   /// @param id the SPIR-V result id.
   /// @return the Source record, or a default one
   Source GetSourceForResultIdForTest(uint32_t id) const {
     return impl_.GetSourceForResultIdForTest(id);
   }

  private:
   ParserImpl impl_;
   /// When true, indicates the input SPIR-V module should not be emitted.
   /// It's either deliberately invalid, or not supported for some pending
   /// reason.
   bool skip_dumping_spirv_ = false;
   static bool dump_successfully_converted_spirv_;
 };

 // Sets global state to force dumping of the assembly text of succesfully
 // SPIR-V.
 inline void DumpSuccessfullyConvertedSpirv() {
   ParserImplWrapperForTest::DumpSuccessfullyConvertedSpirv();
 }

 /// Returns the WGSL printed string of a program.
 /// @param program the Program
 /// @returns the WGSL printed string the program.
 std::string ToString(const Program& program);

 /// Returns the WGSL printed string of a statement list.
 /// @param program the Program
 /// @param stmts the statement list
 /// @returns the WGSL printed string of a statement list.
 std::string ToString(const Program& program, const ast::StatementList& stmts);

 /// Returns the WGSL printed string of an AST node.
 /// @param program the Program
 /// @param node the AST node
 /// @returns the WGSL printed string of the AST node.
 std::string ToString(const Program& program, const ast::Node* node);

 }  // namespace test

 /// SPIR-V Parser test class
 template <typename T>
 class SpvParserTestBase : public T {
  public:
   SpvParserTestBase() = default;
   ~SpvParserTestBase() override = default;

   /// Retrieves the parser from the helper
   /// @param input the SPIR-V binary to parse
   /// @returns a parser for the given binary
   std::unique_ptr<test::ParserImplWrapperForTest> parser(
       const std::vector<uint32_t>& input) {
     auto parser = std::make_unique<test::ParserImplWrapperForTest>(input);

     // Don't run the Resolver when building the program.
     // We're not interested in type information with these tests.
     parser->builder().SetResolveOnBuild(false);
     return parser;
   }
 };

 // Use this form when you don't need to template any further.
 using SpvParserTest = SpvParserTestBase<::testing::Test>;

 }  // namespace spirv
 }  // namespace reader
 }  // namespace tint

 #endif  // SRC_READER_SPIRV_PARSER_IMPL_TEST_HELPER_H_
	// Copyright 2020 The Tint Authors.
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.

	#ifndef SRC_READER_SPIRV_PARSER_IMPL_TEST_HELPER_H_
	#define SRC_READER_SPIRV_PARSER_IMPL_TEST_HELPER_H_

	#include <memory>
	#include <string>
	#include <unordered_set>
	#include <utility>
	#include <vector>

	#if TINT_BUILD_SPV_READER
	#include "source/opt/ir_context.h"
	#endif

	#include "gtest/gtest.h"
	#include "src/demangler.h"
	#include "src/reader/spirv/fail_stream.h"
	#include "src/reader/spirv/function.h"
	#include "src/reader/spirv/namer.h"
	#include "src/reader/spirv/parser_impl.h"
	#include "src/reader/spirv/spirv_tools_helpers_test.h"
	#include "src/reader/spirv/usage.h"

	namespace tint {
	namespace reader {
	namespace spirv {
	namespace test {

	/// A test class that wraps ParseImpl
	class ParserImplWrapperForTest {
	public:
	/// Constructor
	/// @param input the input data to parse
	explicit ParserImplWrapperForTest(const std::vector<uint32_t>& input);
	/// Dumps SPIR-V if the conversion succeeded, then destroys the wrapper.
	~ParserImplWrapperForTest();

	/// Sets global state to force dumping of the assembly text of succesfully
	/// SPIR-V.
	static void DumpSuccessfullyConvertedSpirv() {
	dump_successfully_converted_spirv_ = true;
	}
	/// Marks the test has having deliberately invalid SPIR-V
	void DeliberatelyInvalidSpirv() { skip_dumping_spirv_ = true; }
	/// Marks the test's SPIR-V as not being suitable for dumping, for a stated
	/// reason.
	void SkipDumpingPending(std::string) { skip_dumping_spirv_ = true; }

	/// @returns a new function emitter for the given function ID.
	/// Assumes ParserImpl::BuildInternalRepresentation has been run and
	/// succeeded.
	/// @param function_id the SPIR-V identifier of the function
	FunctionEmitter function_emitter(uint32_t function_id) {
	auto* spirv_function = impl_.ir_context()->GetFunction(function_id);
	return FunctionEmitter(&impl_, *spirv_function);
	}

	/// Run the parser
	/// @returns true if the parse was successful, false otherwise.
	bool Parse() { return impl_.Parse(); }

	/// @returns the program. The program builder in the parser will be reset
	/// after this.
	Program program() { return impl_.program(); }

	/// @returns the namer object
	Namer& namer() { return impl_.namer(); }

	/// @returns a reference to the internal builder, without building the
	/// program. To be used only for testing.
	ProgramBuilder& builder() { return impl_.builder(); }

	/// @returns the accumulated error string
	const std::string error() { return impl_.error(); }

	/// @return true if failure has not yet occurred
	bool success() { return impl_.success(); }

	/// Logs failure, ands return a failure stream to accumulate diagnostic
	/// messages. By convention, a failure should only be logged along with
	/// a non-empty string diagnostic.
	/// @returns the failure stream
	FailStream& Fail() { return impl_.Fail(); }

	/// @returns a borrowed pointer to the internal representation of the module.
	/// This is null until BuildInternalModule has been called.
	spvtools::opt::IRContext* ir_context() { return impl_.ir_context(); }

	/// Builds the internal representation of the SPIR-V module.
	/// Assumes the module is somewhat well-formed. Normally you
	/// would want to validate the SPIR-V module before attempting
	/// to build this internal representation. Also computes a topological
	/// ordering of the functions.
	/// This is a no-op if the parser has already failed.
	/// @returns true if the parser is still successful.
	bool BuildInternalModule() { return impl_.BuildInternalModule(); }

	/// Builds an internal representation of the SPIR-V binary,
	/// and parses the module, except functions, into a Tint AST module.
	/// Diagnostics are emitted to the error stream.
	/// @returns true if it was successful.
	bool BuildAndParseInternalModuleExceptFunctions() {
	return impl_.BuildAndParseInternalModuleExceptFunctions();
	}

	/// Builds an internal representation of the SPIR-V binary,
	/// and parses it into a Tint AST module. Diagnostics are emitted
	/// to the error stream.
	/// @returns true if it was successful.
	bool BuildAndParseInternalModule() {
	return impl_.BuildAndParseInternalModule();
	}

	/// Registers user names for SPIR-V objects, from OpName, and OpMemberName.
	/// Also synthesizes struct field names. Ensures uniqueness for names for
	/// SPIR-V IDs, and uniqueness of names of fields within any single struct.
	/// This is a no-op if the parser has already failed.
	/// @returns true if parser is still successful.
	bool RegisterUserAndStructMemberNames() {
	return impl_.RegisterUserAndStructMemberNames();
	}

	/// Register Tint AST types for SPIR-V types, including type aliases as
	/// needed. This is a no-op if the parser has already failed.
	/// @returns true if parser is still successful.
	bool RegisterTypes() { return impl_.RegisterTypes(); }

	/// Register sampler and texture usage for memory object declarations.
	/// This must be called after we've registered line numbers for all
	/// instructions. This is a no-op if the parser has already failed.
	/// @returns true if parser is still successful.
	bool RegisterHandleUsage() { return impl_.RegisterHandleUsage(); }

	/// Emits module-scope variables.
	/// This is a no-op if the parser has already failed.
	/// @returns true if parser is still successful.
	bool EmitModuleScopeVariables() { return impl_.EmitModuleScopeVariables(); }

	/// @returns the set of SPIR-V IDs for imports of the "GLSL.std.450"
	/// extended instruction set.
	const std::unordered_set<uint32_t>& glsl_std_450_imports() const {
	return impl_.glsl_std_450_imports();
	}

	/// Converts a SPIR-V type to a Tint type, and saves it for fast lookup.
	/// If the type is only used for builtins, then register that specially,
	/// and return null. If the type is a sampler, image, or sampled image, then
	/// return the Void type, because those opaque types are handled in a
	/// different way.
	/// On failure, logs an error and returns null. This should only be called
	/// after the internal representation of the module has been built.
	/// @param id the SPIR-V ID of a type.
	/// @returns a Tint type, or nullptr
	const Type* ConvertType(uint32_t id) { return impl_.ConvertType(id); }

	/// Gets the list of decorations for a SPIR-V result ID. Returns an empty
	/// vector if the ID is not a result ID, or if no decorations target that ID.
	/// The internal representation must have already been built.
	/// @param id SPIR-V ID
	/// @returns the list of decorations on the given ID
	DecorationList GetDecorationsFor(uint32_t id) const {
	return impl_.GetDecorationsFor(id);
	}

	/// Gets the list of decorations for the member of a struct. Returns an empty
	/// list if the `id` is not the ID of a struct, or if the member index is out
	/// of range, or if the target member has no decorations.
	/// The internal representation must have already been built.
	/// @param id SPIR-V ID of a struct
	/// @param member_index the member within the struct
	/// @returns the list of decorations on the member
	DecorationList GetDecorationsForMember(uint32_t id,
	uint32_t member_index) const {
	return impl_.GetDecorationsForMember(id, member_index);
	}

	/// Converts a SPIR-V struct member decoration into a number of AST
	/// decorations. If the decoration is recognized but deliberately dropped,
	/// then returns an empty list without a diagnostic. On failure, emits a
	/// diagnostic and returns an empty list.
	/// @param struct_type_id the ID of the struct type
	/// @param member_index the index of the member
	/// @param member_ty the type of the member
	/// @param decoration an encoded SPIR-V Decoration
	/// @returns the AST decorations
	ast::AttributeList ConvertMemberDecoration(uint32_t struct_type_id,
	uint32_t member_index,
	const Type* member_ty,
	const Decoration& decoration) {
	return impl_.ConvertMemberDecoration(struct_type_id, member_index,
	member_ty, decoration);
	}

	/// For a SPIR-V ID that might define a sampler, image, or sampled image
	/// value, return the SPIR-V instruction that represents the memory object
	/// declaration for the object. If we encounter an OpSampledImage along the
	/// way, follow the image operand when follow_image is true; otherwise follow
	/// the sampler operand. Returns nullptr if we can't trace back to a memory
	/// object declaration. Emits an error and returns nullptr when the scan
	/// fails due to a malformed module. This method can be used any time after
	/// BuildInternalModule has been invoked.
	/// @param id the SPIR-V ID of the sampler, image, or sampled image
	/// @param follow_image indicates whether to follow the image operand of
	/// OpSampledImage
	/// @returns the memory object declaration for the handle, or nullptr
	const spvtools::opt::Instruction* GetMemoryObjectDeclarationForHandle(
	uint32_t id,
	bool follow_image) {
	return impl_.GetMemoryObjectDeclarationForHandle(id, follow_image);
	}

	/// @param entry_point the SPIR-V ID of an entry point.
	/// @returns the entry point info for the given ID
	const std::vector<EntryPointInfo>& GetEntryPointInfo(uint32_t entry_point) {
	return impl_.GetEntryPointInfo(entry_point);
	}

	/// Returns the handle usage for a memory object declaration.
	/// @param id SPIR-V ID of a sampler or image OpVariable or
	/// OpFunctionParameter
	/// @returns the handle usage, or an empty usage object.
	Usage GetHandleUsage(uint32_t id) const { return impl_.GetHandleUsage(id); }

	/// Returns the SPIR-V instruction with the given ID, or nullptr.
	/// @param id the SPIR-V result ID
	/// @returns the instruction, or nullptr on error
	const spvtools::opt::Instruction* GetInstructionForTest(uint32_t id) const {
	return impl_.GetInstructionForTest(id);
	}

	/// @returns info about the gl_Position builtin variable.
	const ParserImpl::BuiltInPositionInfo& GetBuiltInPositionInfo() {
	return impl_.GetBuiltInPositionInfo();
	}

	/// Returns the source record for the SPIR-V instruction with the given
	/// result ID.
	/// @param id the SPIR-V result id.
	/// @return the Source record, or a default one
	Source GetSourceForResultIdForTest(uint32_t id) const {
	return impl_.GetSourceForResultIdForTest(id);
	}

	private:
	ParserImpl impl_;
	/// When true, indicates the input SPIR-V module should not be emitted.
	/// It's either deliberately invalid, or not supported for some pending
	/// reason.
	bool skip_dumping_spirv_ = false;
	static bool dump_successfully_converted_spirv_;
	};

	// Sets global state to force dumping of the assembly text of succesfully
	// SPIR-V.
	inline void DumpSuccessfullyConvertedSpirv() {
	ParserImplWrapperForTest::DumpSuccessfullyConvertedSpirv();
	}

	/// Returns the WGSL printed string of a program.
	/// @param program the Program
	/// @returns the WGSL printed string the program.
	std::string ToString(const Program& program);

	/// Returns the WGSL printed string of a statement list.
	/// @param program the Program
	/// @param stmts the statement list
	/// @returns the WGSL printed string of a statement list.
	std::string ToString(const Program& program, const ast::StatementList& stmts);

	/// Returns the WGSL printed string of an AST node.
	/// @param program the Program
	/// @param node the AST node
	/// @returns the WGSL printed string of the AST node.
	std::string ToString(const Program& program, const ast::Node* node);

	} // namespace test

	/// SPIR-V Parser test class
	template <typename T>
	class SpvParserTestBase : public T {
	public:
	SpvParserTestBase() = default;
	~SpvParserTestBase() override = default;

	/// Retrieves the parser from the helper
	/// @param input the SPIR-V binary to parse
	/// @returns a parser for the given binary
	std::unique_ptr<test::ParserImplWrapperForTest> parser(
	const std::vector<uint32_t>& input) {
	auto parser = std::make_unique<test::ParserImplWrapperForTest>(input);

	// Don't run the Resolver when building the program.
	// We're not interested in type information with these tests.
	parser->builder().SetResolveOnBuild(false);
	return parser;
	}
	};

	// Use this form when you don't need to template any further.
	using SpvParserTest = SpvParserTestBase<::testing::Test>;

	} // namespace spirv
	} // namespace reader
	} // namespace tint

	#endif // SRC_READER_SPIRV_PARSER_IMPL_TEST_HELPER_H_