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glslang/gtests/TestFixture.h
Greg Fischer 90c5214344 Improve ResourceLimits interface to be more forward compatible 
New interface allows users to generate ResourceLimits for interface so
that additions to TBuiltInResource do not break the ABI.

Users should use the glslang-default-resource-limits library and the
Public/ResourceLimits.h header. Similar changes have been made to the
C interface. Use Public/resource_limits_c.h.

Fixes #2822
2022-11-01 12:06:51 -06:00

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//
// Copyright (C) 2016 Google, Inc.
//
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions
// are met:
//
// Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
//
// Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following
// disclaimer in the documentation and/or other materials provided
// with the distribution.
//
// Neither the name of Google Inc. nor the names of its
// contributors may be used to endorse or promote products derived
// from this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
// FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
// COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
// INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
// BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
// LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
// CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
// LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
// ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
// POSSIBILITY OF SUCH DAMAGE.
#ifndef GLSLANG_GTESTS_TEST_FIXTURE_H
#define GLSLANG_GTESTS_TEST_FIXTURE_H
#include <cstdint>
#include <fstream>
#include <sstream>
#include <streambuf>
#include <tuple>
#include <string>
#include <gtest/gtest.h>
#include "SPIRV/GlslangToSpv.h"
#include "SPIRV/disassemble.h"
#include "SPIRV/doc.h"
#include "SPIRV/SPVRemapper.h"
#include "glslang/Public/ResourceLimits.h"
#include "glslang/Public/ShaderLang.h"
#include "Initializer.h"
#include "Settings.h"
namespace glslangtest {
// This function is used to provide custom test name suffixes based on the
// shader source file names. Otherwise, the test name suffixes will just be
// numbers, which are not quite obvious.
std::string FileNameAsCustomTestSuffix(
const ::testing::TestParamInfo<std::string>& info);
enum class Source {
GLSL,
HLSL,
};
// Enum for shader compilation semantics.
enum class Semantics {
OpenGL,
Vulkan
};
// Enum for compilation target.
enum class Target {
AST,
Spv,
BothASTAndSpv,
};
EShLanguage GetShaderStage(const std::string& stage);
EShMessages DeriveOptions(Source, Semantics, Target);
// Reads the content of the file at the given |path|. On success, returns true
// and the contents; otherwise, returns false and an empty string.
std::pair<bool, std::string> ReadFile(const std::string& path);
std::pair<bool, std::vector<std::uint32_t> > ReadSpvBinaryFile(const std::string& path);
// Writes the given |contents| into the file at the given |path|. Returns true
// on successful output.
bool WriteFile(const std::string& path, const std::string& contents);
// Returns the suffix of the given |name|.
std::string GetSuffix(const std::string& name);
// Base class for glslang integration tests. It contains many handy utility-like
// methods such as reading shader source files, compiling into AST/SPIR-V, and
// comparing with expected outputs.
//
// To write value-Parameterized tests:
// using ValueParamTest = GlslangTest<::testing::TestWithParam<std::string>>;
// To use as normal fixture:
// using FixtureTest = GlslangTest<::testing::Test>;
template <typename GT>
class GlslangTest : public GT {
public:
GlslangTest()
: defaultVersion(100),
defaultProfile(ENoProfile),
forceVersionProfile(false),
isForwardCompatible(false) {
// Perform validation by default.
spirvOptions.validate = true;
}
// Tries to load the contents from the file at the given |path|. On success,
// writes the contents into |contents|. On failure, errors out.
void tryLoadFile(const std::string& path, const std::string& tag,
std::string* contents)
{
bool fileReadOk;
std::tie(fileReadOk, *contents) = ReadFile(path);
ASSERT_TRUE(fileReadOk) << "Cannot open " << tag << " file: " << path;
}
// Tries to load the contents from the file at the given |path|. On success,
// writes the contents into |contents|. On failure, errors out.
void tryLoadSpvFile(const std::string& path, const std::string& tag,
std::vector<uint32_t>& contents)
{
bool fileReadOk;
std::tie(fileReadOk, contents) = ReadSpvBinaryFile(path);
ASSERT_TRUE(fileReadOk) << "Cannot open " << tag << " file: " << path;
}
// Checks the equality of |expected| and |real|. If they are not equal,
// write |real| to the given file named as |fname| if update mode is on.
void checkEqAndUpdateIfRequested(const std::string& expected,
const std::string& real,
const std::string& fname,
const std::string& errorsAndWarnings = "")
{
// In order to output the message we want under proper circumstances,
// we need the following operator<< stuff.
EXPECT_EQ(expected, real)
<< (GlobalTestSettings.updateMode
? ("Mismatch found and update mode turned on - "
"flushing expected result output.\n")
: "")
<< "The following warnings/errors occurred:\n"
<< errorsAndWarnings;
// Update the expected output file if requested.
// It looks weird to duplicate the comparison between expected_output
// and stream.str(). However, if creating a variable for the comparison
// result, we cannot have pretty print of the string diff in the above.
if (GlobalTestSettings.updateMode && expected != real) {
EXPECT_TRUE(WriteFile(fname, real)) << "Flushing failed";
}
}
struct ShaderResult {
std::string shaderName;
std::string output;
std::string error;
};
// A struct for holding all the information returned by glslang compilation
// and linking.
struct GlslangResult {
std::vector<ShaderResult> shaderResults;
std::string linkingOutput;
std::string linkingError;
bool validationResult;
std::string spirvWarningsErrors;
std::string spirv; // Optional SPIR-V disassembly text.
};
// Compiles and the given source |code| of the given shader |stage| into
// the target under the semantics conveyed via |controls|. Returns true
// and modifies |shader| on success.
bool compile(glslang::TShader* shader, const std::string& code,
const std::string& entryPointName, EShMessages controls,
const TBuiltInResource* resources=nullptr,
const std::string* shaderName=nullptr)
{
const char* shaderStrings = code.data();
const int shaderLengths = static_cast<int>(code.size());
const char* shaderNames = nullptr;
if ((controls & EShMsgDebugInfo) && shaderName != nullptr) {
shaderNames = shaderName->data();
shader->setStringsWithLengthsAndNames(
&shaderStrings, &shaderLengths, &shaderNames, 1);
} else
shader->setStringsWithLengths(&shaderStrings, &shaderLengths, 1);
if (!entryPointName.empty()) shader->setEntryPoint(entryPointName.c_str());
return shader->parse(
(resources ? resources : GetDefaultResources()),
defaultVersion, isForwardCompatible, controls);
}
// Compiles and links the given source |code| of the given shader
// |stage| into the target under the semantics specified via |controls|.
// Returns a GlslangResult instance containing all the information generated
// during the process. If the target includes SPIR-V, also disassembles
// the result and returns disassembly text.
GlslangResult compileAndLink(
const std::string& shaderName, const std::string& code,
const std::string& entryPointName, EShMessages controls,
glslang::EShTargetClientVersion clientTargetVersion,
glslang::EShTargetLanguageVersion targetLanguageVersion,
bool flattenUniformArrays = false,
EShTextureSamplerTransformMode texSampTransMode = EShTexSampTransKeep,
bool enableOptimizer = false,
bool enableDebug = false,
bool enableNonSemanticShaderDebugInfo = false,
bool automap = true)
{
const EShLanguage stage = GetShaderStage(GetSuffix(shaderName));
glslang::TShader shader(stage);
if (automap) {
shader.setAutoMapLocations(true);
shader.setAutoMapBindings(true);
}
shader.setTextureSamplerTransformMode(texSampTransMode);
#ifdef ENABLE_HLSL
shader.setFlattenUniformArrays(flattenUniformArrays);
#endif
if (controls & EShMsgSpvRules) {
if (controls & EShMsgVulkanRules) {
shader.setEnvInput((controls & EShMsgReadHlsl) ? glslang::EShSourceHlsl
: glslang::EShSourceGlsl,
stage, glslang::EShClientVulkan, 100);
shader.setEnvClient(glslang::EShClientVulkan, clientTargetVersion);
shader.setEnvTarget(glslang::EShTargetSpv, targetLanguageVersion);
} else {
shader.setEnvInput((controls & EShMsgReadHlsl) ? glslang::EShSourceHlsl
: glslang::EShSourceGlsl,
stage, glslang::EShClientOpenGL, 100);
shader.setEnvClient(glslang::EShClientOpenGL, clientTargetVersion);
shader.setEnvTarget(glslang::EshTargetSpv, glslang::EShTargetSpv_1_0);
}
}
bool success = compile(
&shader, code, entryPointName, controls, nullptr, &shaderName);
glslang::TProgram program;
program.addShader(&shader);
success &= program.link(controls);
#if !defined(GLSLANG_WEB) && !defined(GLSLANG_ANGLE)
if (success)
program.mapIO();
#endif
if (success && (controls & EShMsgSpvRules)) {
spv::SpvBuildLogger logger;
std::vector<uint32_t> spirv_binary;
options().disableOptimizer = !enableOptimizer;
options().generateDebugInfo = enableDebug;
options().emitNonSemanticShaderDebugInfo = enableNonSemanticShaderDebugInfo;
options().emitNonSemanticShaderDebugSource = enableNonSemanticShaderDebugInfo;
glslang::GlslangToSpv(*program.getIntermediate(stage),
spirv_binary, &logger, &options());
std::ostringstream disassembly_stream;
spv::Parameterize();
spv::Disassemble(disassembly_stream, spirv_binary);
bool validation_result = !options().validate || logger.getAllMessages().empty();
return {{{shaderName, shader.getInfoLog(), shader.getInfoDebugLog()},},
program.getInfoLog(), program.getInfoDebugLog(),
validation_result, logger.getAllMessages(), disassembly_stream.str()};
} else {
return {{{shaderName, shader.getInfoLog(), shader.getInfoDebugLog()},},
program.getInfoLog(), program.getInfoDebugLog(), true, "", ""};
}
}
// Compiles and links the given source |code| of the given shader
// |stage| into the target under the semantics specified via |controls|.
// Returns a GlslangResult instance containing all the information generated
// during the process. If the target includes SPIR-V, also disassembles
// the result and returns disassembly text.
GlslangResult compileLinkIoMap(
const std::string shaderName, const std::string& code,
const std::string& entryPointName, EShMessages controls,
int baseSamplerBinding,
int baseTextureBinding,
int baseImageBinding,
int baseUboBinding,
int baseSsboBinding,
bool autoMapBindings,
bool flattenUniformArrays)
{
const EShLanguage stage = GetShaderStage(GetSuffix(shaderName));
glslang::TShader shader(stage);
shader.setShiftSamplerBinding(baseSamplerBinding);
shader.setShiftTextureBinding(baseTextureBinding);
shader.setShiftImageBinding(baseImageBinding);
shader.setShiftUboBinding(baseUboBinding);
shader.setShiftSsboBinding(baseSsboBinding);
shader.setAutoMapBindings(autoMapBindings);
shader.setAutoMapLocations(true);
#ifdef ENABLE_HLSL
shader.setFlattenUniformArrays(flattenUniformArrays);
#endif
bool success = compile(&shader, code, entryPointName, controls);
glslang::TProgram program;
program.addShader(&shader);
success &= program.link(controls);
#if !defined(GLSLANG_WEB) && !defined(GLSLANG_ANGLE)
if (success)
program.mapIO();
#endif
spv::SpvBuildLogger logger;
if (success && (controls & EShMsgSpvRules)) {
std::vector<uint32_t> spirv_binary;
glslang::GlslangToSpv(*program.getIntermediate(stage),
spirv_binary, &logger, &options());
std::ostringstream disassembly_stream;
spv::Parameterize();
spv::Disassemble(disassembly_stream, spirv_binary);
bool validation_result = !options().validate || logger.getAllMessages().empty();
return {{{shaderName, shader.getInfoLog(), shader.getInfoDebugLog()},},
program.getInfoLog(), program.getInfoDebugLog(),
validation_result, logger.getAllMessages(), disassembly_stream.str()};
} else {
return {{{shaderName, shader.getInfoLog(), shader.getInfoDebugLog()},},
program.getInfoLog(), program.getInfoDebugLog(), true, "", ""};
}
}
// This is like compileAndLink but with remapping of the SPV binary
// through spirvbin_t::remap(). While technically this could be merged
// with compileAndLink() above (with the remap step optionally being a no-op)
// it is given separately here for ease of future extraction.
GlslangResult compileLinkRemap(
const std::string shaderName, const std::string& code,
const std::string& entryPointName, EShMessages controls,
const unsigned int remapOptions = spv::spirvbin_t::NONE)
{
const EShLanguage stage = GetShaderStage(GetSuffix(shaderName));
glslang::TShader shader(stage);
shader.setAutoMapBindings(true);
shader.setAutoMapLocations(true);
bool success = compile(&shader, code, entryPointName, controls);
glslang::TProgram program;
program.addShader(&shader);
success &= program.link(controls);
#if !defined(GLSLANG_WEB) && !defined(GLSLANG_ANGLE)
if (success)
program.mapIO();
#endif
if (success && (controls & EShMsgSpvRules)) {
spv::SpvBuildLogger logger;
std::vector<std::string> whiteListStrings;
std::vector<uint32_t> spirv_binary;
glslang::GlslangToSpv(*program.getIntermediate(stage),
spirv_binary, &logger, &options());
spv::spirvbin_t(0 /*verbosity*/).remap(spirv_binary, whiteListStrings, remapOptions);
std::ostringstream disassembly_stream;
spv::Parameterize();
spv::Disassemble(disassembly_stream, spirv_binary);
bool validation_result = !options().validate || logger.getAllMessages().empty();
return {{{shaderName, shader.getInfoLog(), shader.getInfoDebugLog()},},
program.getInfoLog(), program.getInfoDebugLog(),
validation_result, logger.getAllMessages(), disassembly_stream.str()};
} else {
return {{{shaderName, shader.getInfoLog(), shader.getInfoDebugLog()},},
program.getInfoLog(), program.getInfoDebugLog(), true, "", ""};
}
}
// remap the binary in 'code' with the options in remapOptions
GlslangResult remap(
const std::string shaderName, const std::vector<uint32_t>& code,
EShMessages controls,
const unsigned int remapOptions = spv::spirvbin_t::NONE)
{
if ((controls & EShMsgSpvRules)) {
std::vector<uint32_t> spirv_binary(code); // scratch copy
std::vector<std::string> whiteListStrings;
spv::spirvbin_t(0 /*verbosity*/).remap(spirv_binary, whiteListStrings, remapOptions);
std::ostringstream disassembly_stream;
spv::Parameterize();
spv::Disassemble(disassembly_stream, spirv_binary);
return {{{shaderName, "", ""},},
"", "",
true, "", disassembly_stream.str()};
} else {
return {{{shaderName, "", ""},}, "", "", true, "", ""};
}
}
void outputResultToStream(std::ostringstream* stream,
const GlslangResult& result,
EShMessages controls)
{
const auto outputIfNotEmpty = [&stream](const std::string& str) {
if (!str.empty()) *stream << str << "\n";
};
for (const auto& shaderResult : result.shaderResults) {
*stream << shaderResult.shaderName << "\n";
outputIfNotEmpty(shaderResult.output);
outputIfNotEmpty(shaderResult.error);
}
outputIfNotEmpty(result.linkingOutput);
outputIfNotEmpty(result.linkingError);
if (!result.validationResult) {
*stream << "Validation failed\n";
}
if (controls & EShMsgSpvRules) {
*stream
<< (result.spirv.empty()
? "SPIR-V is not generated for failed compile or link\n"
: result.spirv);
}
}
void loadFileCompileAndCheck(const std::string& testDir,
const std::string& testName,
Source source,
Semantics semantics,
glslang::EShTargetClientVersion clientTargetVersion,
glslang::EShTargetLanguageVersion targetLanguageVersion,
Target target,
bool automap = true,
const std::string& entryPointName="",
const std::string& baseDir="/baseResults/",
const bool enableOptimizer = false,
const bool enableDebug = false,
const bool enableNonSemanticShaderDebugInfo = false)
{
const std::string inputFname = testDir + "/" + testName;
const std::string expectedOutputFname =
testDir + baseDir + testName + ".out";
std::string input, expectedOutput;
tryLoadFile(inputFname, "input", &input);
tryLoadFile(expectedOutputFname, "expected output", &expectedOutput);
EShMessages controls = DeriveOptions(source, semantics, target);
if (enableOptimizer)
controls = static_cast<EShMessages>(controls & ~EShMsgHlslLegalization);
if (enableDebug)
controls = static_cast<EShMessages>(controls | EShMsgDebugInfo);
GlslangResult result = compileAndLink(testName, input, entryPointName, controls, clientTargetVersion,
targetLanguageVersion, false, EShTexSampTransKeep, enableOptimizer, enableDebug,
enableNonSemanticShaderDebugInfo, automap);
// Generate the hybrid output in the way of glslangValidator.
std::ostringstream stream;
outputResultToStream(&stream, result, controls);
checkEqAndUpdateIfRequested(expectedOutput, stream.str(),
expectedOutputFname, result.spirvWarningsErrors);
}
void loadFileCompileAndCheckWithOptions(const std::string &testDir,
const std::string &testName,
Source source,
Semantics semantics,
glslang::EShTargetClientVersion clientTargetVersion,
glslang::EShTargetLanguageVersion targetLanguageVersion,
Target target, bool automap = true, const std::string &entryPointName = "",
const std::string &baseDir = "/baseResults/",
const EShMessages additionalOptions = EShMessages::EShMsgDefault)
{
const std::string inputFname = testDir + "/" + testName;
const std::string expectedOutputFname = testDir + baseDir + testName + ".out";
std::string input, expectedOutput;
tryLoadFile(inputFname, "input", &input);
tryLoadFile(expectedOutputFname, "expected output", &expectedOutput);
EShMessages controls = DeriveOptions(source, semantics, target);
controls = static_cast<EShMessages>(controls | additionalOptions);
GlslangResult result = compileAndLink(testName, input, entryPointName, controls, clientTargetVersion,
targetLanguageVersion, false, EShTexSampTransKeep, false, automap);
// Generate the hybrid output in the way of glslangValidator.
std::ostringstream stream;
outputResultToStream(&stream, result, controls);
checkEqAndUpdateIfRequested(expectedOutput, stream.str(), expectedOutputFname);
}
void loadFileCompileFlattenUniformsAndCheck(const std::string& testDir,
const std::string& testName,
Source source,
Semantics semantics,
Target target,
const std::string& entryPointName="")
{
const std::string inputFname = testDir + "/" + testName;
const std::string expectedOutputFname =
testDir + "/baseResults/" + testName + ".out";
std::string input, expectedOutput;
tryLoadFile(inputFname, "input", &input);
tryLoadFile(expectedOutputFname, "expected output", &expectedOutput);
const EShMessages controls = DeriveOptions(source, semantics, target);
GlslangResult result = compileAndLink(testName, input, entryPointName, controls,
glslang::EShTargetVulkan_1_0, glslang::EShTargetSpv_1_0, true);
// Generate the hybrid output in the way of glslangValidator.
std::ostringstream stream;
outputResultToStream(&stream, result, controls);
checkEqAndUpdateIfRequested(expectedOutput, stream.str(),
expectedOutputFname, result.spirvWarningsErrors);
}
void loadFileCompileIoMapAndCheck(const std::string& testDir,
const std::string& testName,
Source source,
Semantics semantics,
Target target,
const std::string& entryPointName,
int baseSamplerBinding,
int baseTextureBinding,
int baseImageBinding,
int baseUboBinding,
int baseSsboBinding,
bool autoMapBindings,
bool flattenUniformArrays)
{
const std::string inputFname = testDir + "/" + testName;
const std::string expectedOutputFname =
testDir + "/baseResults/" + testName + ".out";
std::string input, expectedOutput;
tryLoadFile(inputFname, "input", &input);
tryLoadFile(expectedOutputFname, "expected output", &expectedOutput);
const EShMessages controls = DeriveOptions(source, semantics, target);
GlslangResult result = compileLinkIoMap(testName, input, entryPointName, controls,
baseSamplerBinding, baseTextureBinding, baseImageBinding,
baseUboBinding, baseSsboBinding,
autoMapBindings,
flattenUniformArrays);
// Generate the hybrid output in the way of glslangValidator.
std::ostringstream stream;
outputResultToStream(&stream, result, controls);
checkEqAndUpdateIfRequested(expectedOutput, stream.str(),
expectedOutputFname, result.spirvWarningsErrors);
}
void loadFileCompileRemapAndCheck(const std::string& testDir,
const std::string& testName,
Source source,
Semantics semantics,
Target target,
const std::string& entryPointName="",
const unsigned int remapOptions = spv::spirvbin_t::NONE)
{
const std::string inputFname = testDir + "/" + testName;
const std::string expectedOutputFname =
testDir + "/baseResults/" + testName + ".out";
std::string input, expectedOutput;
tryLoadFile(inputFname, "input", &input);
tryLoadFile(expectedOutputFname, "expected output", &expectedOutput);
const EShMessages controls = DeriveOptions(source, semantics, target);
GlslangResult result = compileLinkRemap(testName, input, entryPointName, controls, remapOptions);
// Generate the hybrid output in the way of glslangValidator.
std::ostringstream stream;
outputResultToStream(&stream, result, controls);
checkEqAndUpdateIfRequested(expectedOutput, stream.str(),
expectedOutputFname, result.spirvWarningsErrors);
}
void loadFileRemapAndCheck(const std::string& testDir,
const std::string& testName,
Source source,
Semantics semantics,
Target target,
const unsigned int remapOptions = spv::spirvbin_t::NONE)
{
const std::string inputFname = testDir + "/" + testName;
const std::string expectedOutputFname =
testDir + "/baseResults/" + testName + ".out";
std::vector<std::uint32_t> input;
std::string expectedOutput;
tryLoadSpvFile(inputFname, "input", input);
tryLoadFile(expectedOutputFname, "expected output", &expectedOutput);
const EShMessages controls = DeriveOptions(source, semantics, target);
GlslangResult result = remap(testName, input, controls, remapOptions);
// Generate the hybrid output in the way of glslangValidator.
std::ostringstream stream;
outputResultToStream(&stream, result, controls);
checkEqAndUpdateIfRequested(expectedOutput, stream.str(),
expectedOutputFname, result.spirvWarningsErrors);
}
// Preprocesses the given |source| code. On success, returns true, the
// preprocessed shader, and warning messages. Otherwise, returns false, an
// empty string, and error messages.
std::tuple<bool, std::string, std::string> preprocess(
const std::string& source)
{
const char* shaderStrings = source.data();
const int shaderLengths = static_cast<int>(source.size());
glslang::TShader shader(EShLangVertex);
shader.setStringsWithLengths(&shaderStrings, &shaderLengths, 1);
std::string ppShader;
glslang::TShader::ForbidIncluder includer;
const bool success = shader.preprocess(
GetDefaultResources(), defaultVersion, defaultProfile,
forceVersionProfile, isForwardCompatible, (EShMessages)(EShMsgOnlyPreprocessor | EShMsgCascadingErrors),
&ppShader, includer);
std::string log = shader.getInfoLog();
log += shader.getInfoDebugLog();
if (success) {
return std::make_tuple(true, ppShader, log);
} else {
return std::make_tuple(false, "", log);
}
}
void loadFilePreprocessAndCheck(const std::string& testDir,
const std::string& testName)
{
const std::string inputFname = testDir + "/" + testName;
const std::string expectedOutputFname =
testDir + "/baseResults/" + testName + ".out";
const std::string expectedErrorFname =
testDir + "/baseResults/" + testName + ".err";
std::string input, expectedOutput, expectedError;
tryLoadFile(inputFname, "input", &input);
tryLoadFile(expectedOutputFname, "expected output", &expectedOutput);
tryLoadFile(expectedErrorFname, "expected error", &expectedError);
bool ppOk;
std::string output, error;
std::tie(ppOk, output, error) = preprocess(input);
if (!output.empty()) output += '\n';
if (!error.empty()) error += '\n';
checkEqAndUpdateIfRequested(expectedOutput, output,
expectedOutputFname);
checkEqAndUpdateIfRequested(expectedError, error,
expectedErrorFname);
}
void loadCompileUpgradeTextureToSampledTextureAndDropSamplersAndCheck(const std::string& testDir,
const std::string& testName,
Source source,
Semantics semantics,
Target target,
const std::string& entryPointName = "")
{
const std::string inputFname = testDir + "/" + testName;
const std::string expectedOutputFname = testDir + "/baseResults/" + testName + ".out";
std::string input, expectedOutput;
tryLoadFile(inputFname, "input", &input);
tryLoadFile(expectedOutputFname, "expected output", &expectedOutput);
const EShMessages controls = DeriveOptions(source, semantics, target);
GlslangResult result = compileAndLink(testName, input, entryPointName, controls,
glslang::EShTargetVulkan_1_0, glslang::EShTargetSpv_1_0, false,
EShTexSampTransUpgradeTextureRemoveSampler);
// Generate the hybrid output in the way of glslangValidator.
std::ostringstream stream;
outputResultToStream(&stream, result, controls);
checkEqAndUpdateIfRequested(expectedOutput, stream.str(),
expectedOutputFname, result.spirvWarningsErrors);
}
glslang::SpvOptions& options() { return spirvOptions; }
private:
const int defaultVersion;
const EProfile defaultProfile;
const bool forceVersionProfile;
const bool isForwardCompatible;
glslang::SpvOptions spirvOptions;
};
} // namespace glslangtest
#endif // GLSLANG_GTESTS_TEST_FIXTURE_H
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