/*------------------------------------------------------------------------ * Vulkan Conformance Tests * ------------------------ * * Copyright (c) 2019 The Khronos Group Inc. * Copyright (c) 2019 Google Inc. * Copyright (c) 2017 Codeplay Software Ltd. * * 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. * */ /*! * \file * \brief Subgroups Tests */ /*--------------------------------------------------------------------*/ #include "vktSubgroupsArithmeticTests.hpp" #include "vktSubgroupsScanHelpers.hpp" #include "vktSubgroupsTestsUtils.hpp" #include #include using namespace tcu; using namespace std; using namespace vk; using namespace vkt; namespace { enum OpType { OPTYPE_ADD = 0, OPTYPE_MUL, OPTYPE_MIN, OPTYPE_MAX, OPTYPE_AND, OPTYPE_OR, OPTYPE_XOR, OPTYPE_INCLUSIVE_ADD, OPTYPE_INCLUSIVE_MUL, OPTYPE_INCLUSIVE_MIN, OPTYPE_INCLUSIVE_MAX, OPTYPE_INCLUSIVE_AND, OPTYPE_INCLUSIVE_OR, OPTYPE_INCLUSIVE_XOR, OPTYPE_EXCLUSIVE_ADD, OPTYPE_EXCLUSIVE_MUL, OPTYPE_EXCLUSIVE_MIN, OPTYPE_EXCLUSIVE_MAX, OPTYPE_EXCLUSIVE_AND, OPTYPE_EXCLUSIVE_OR, OPTYPE_EXCLUSIVE_XOR, OPTYPE_LAST }; struct CaseDefinition { Operator op; ScanType scanType; VkShaderStageFlags shaderStage; VkFormat format; de::SharedPtr geometryPointSizeSupported; deBool requiredSubgroupSize; }; static Operator getOperator (OpType opType) { switch (opType) { case OPTYPE_ADD: case OPTYPE_INCLUSIVE_ADD: case OPTYPE_EXCLUSIVE_ADD: return OPERATOR_ADD; case OPTYPE_MUL: case OPTYPE_INCLUSIVE_MUL: case OPTYPE_EXCLUSIVE_MUL: return OPERATOR_MUL; case OPTYPE_MIN: case OPTYPE_INCLUSIVE_MIN: case OPTYPE_EXCLUSIVE_MIN: return OPERATOR_MIN; case OPTYPE_MAX: case OPTYPE_INCLUSIVE_MAX: case OPTYPE_EXCLUSIVE_MAX: return OPERATOR_MAX; case OPTYPE_AND: case OPTYPE_INCLUSIVE_AND: case OPTYPE_EXCLUSIVE_AND: return OPERATOR_AND; case OPTYPE_OR: case OPTYPE_INCLUSIVE_OR: case OPTYPE_EXCLUSIVE_OR: return OPERATOR_OR; case OPTYPE_XOR: case OPTYPE_INCLUSIVE_XOR: case OPTYPE_EXCLUSIVE_XOR: return OPERATOR_XOR; default: DE_FATAL("Unsupported op type"); return OPERATOR_ADD; } } static ScanType getScanType(OpType opType) { switch (opType) { case OPTYPE_ADD: case OPTYPE_MUL: case OPTYPE_MIN: case OPTYPE_MAX: case OPTYPE_AND: case OPTYPE_OR: case OPTYPE_XOR: return SCAN_REDUCE; case OPTYPE_INCLUSIVE_ADD: case OPTYPE_INCLUSIVE_MUL: case OPTYPE_INCLUSIVE_MIN: case OPTYPE_INCLUSIVE_MAX: case OPTYPE_INCLUSIVE_AND: case OPTYPE_INCLUSIVE_OR: case OPTYPE_INCLUSIVE_XOR: return SCAN_INCLUSIVE; case OPTYPE_EXCLUSIVE_ADD: case OPTYPE_EXCLUSIVE_MUL: case OPTYPE_EXCLUSIVE_MIN: case OPTYPE_EXCLUSIVE_MAX: case OPTYPE_EXCLUSIVE_AND: case OPTYPE_EXCLUSIVE_OR: case OPTYPE_EXCLUSIVE_XOR: return SCAN_EXCLUSIVE; default: DE_FATAL("Unsupported op type"); return SCAN_REDUCE; } } static bool checkVertexPipelineStages (const void* internalData, vector datas, deUint32 width, deUint32) { DE_UNREF(internalData); return subgroups::check(datas, width, 0x3); } static bool checkComputeOrMesh (const void* internalData, vector datas, const deUint32 numWorkgroups[3], const deUint32 localSize[3], deUint32) { DE_UNREF(internalData); return subgroups::checkComputeOrMesh(datas, numWorkgroups, localSize, 0x3); } string getOpTypeName (Operator op, ScanType scanType) { return getScanOpName("subgroup", "", op, scanType); } string getExtHeader (const CaseDefinition& caseDef) { return "#extension GL_KHR_shader_subgroup_arithmetic: enable\n" "#extension GL_KHR_shader_subgroup_ballot: enable\n" + subgroups::getAdditionalExtensionForFormat(caseDef.format); } string getIndexVars (const CaseDefinition& caseDef) { switch (caseDef.scanType) { case SCAN_REDUCE: return " uint start = 0, end = gl_SubgroupSize;\n"; case SCAN_INCLUSIVE: return " uint start = 0, end = gl_SubgroupInvocationID + 1;\n"; case SCAN_EXCLUSIVE: return " uint start = 0, end = gl_SubgroupInvocationID;\n"; default: TCU_THROW(InternalError, "Unreachable"); } } string getTestSrc (const CaseDefinition& caseDef) { const string indexVars = getIndexVars(caseDef); return " uvec4 mask = subgroupBallot(true);\n" + indexVars + " " + subgroups::getFormatNameForGLSL(caseDef.format) + " ref = " + getIdentity(caseDef.op, caseDef.format) + ";\n" " tempRes = 0;\n" " for (uint index = start; index < end; index++)\n" " {\n" " if (subgroupBallotBitExtract(mask, index))\n" " {\n" " ref = " + getOpOperation(caseDef.op, caseDef.format, "ref", "data[index]") + ";\n" " }\n" " }\n" " tempRes = " + getCompare(caseDef.op, caseDef.format, "ref", getOpTypeName(caseDef.op, caseDef.scanType) + "(data[gl_SubgroupInvocationID])") + " ? 0x1 : 0;\n" " if (1 == (gl_SubgroupInvocationID % 2))\n" " {\n" " mask = subgroupBallot(true);\n" " ref = " + getIdentity(caseDef.op, caseDef.format) + ";\n" " for (uint index = start; index < end; index++)\n" " {\n" " if (subgroupBallotBitExtract(mask, index))\n" " {\n" " ref = " + getOpOperation(caseDef.op, caseDef.format, "ref", "data[index]") + ";\n" " }\n" " }\n" " tempRes |= " + getCompare(caseDef.op, caseDef.format, "ref", getOpTypeName(caseDef.op, caseDef.scanType) + "(data[gl_SubgroupInvocationID])") + " ? 0x2 : 0;\n" " }\n" " else\n" " {\n" " tempRes |= 0x2;\n" " }\n"; } void initFrameBufferPrograms (SourceCollections& programCollection, CaseDefinition caseDef) { const ShaderBuildOptions buildOptions (programCollection.usedVulkanVersion, SPIRV_VERSION_1_3, 0u); const string extHeader = getExtHeader(caseDef); const string testSrc = getTestSrc(caseDef); subgroups::initStdFrameBufferPrograms(programCollection, buildOptions, caseDef.shaderStage, caseDef.format, *caseDef.geometryPointSizeSupported, extHeader, testSrc, ""); } void initPrograms (SourceCollections& programCollection, CaseDefinition caseDef) { #ifndef CTS_USES_VULKANSC const bool spirv14required = (isAllRayTracingStages(caseDef.shaderStage) || isAllMeshShadingStages(caseDef.shaderStage)); #else const bool spirv14required = false; #endif // CTS_USES_VULKANSC const SpirvVersion spirvVersion = spirv14required ? SPIRV_VERSION_1_4 : SPIRV_VERSION_1_3; const ShaderBuildOptions buildOptions (programCollection.usedVulkanVersion, spirvVersion, 0u, spirv14required); const string extHeader = getExtHeader(caseDef); const string testSrc = getTestSrc(caseDef); subgroups::initStdPrograms(programCollection, buildOptions, caseDef.shaderStage, caseDef.format, *caseDef.geometryPointSizeSupported, extHeader, testSrc, ""); } void supportedCheck (Context& context, CaseDefinition caseDef) { if (!subgroups::isSubgroupSupported(context)) TCU_THROW(NotSupportedError, "Subgroup operations are not supported"); if (!subgroups::isSubgroupFeatureSupportedForDevice(context, VK_SUBGROUP_FEATURE_ARITHMETIC_BIT)) TCU_THROW(NotSupportedError, "Device does not support subgroup arithmetic operations"); if (!subgroups::isFormatSupportedForDevice(context, caseDef.format)) TCU_THROW(NotSupportedError, "Device does not support the specified format in subgroup operations"); if (caseDef.requiredSubgroupSize) { context.requireDeviceFunctionality("VK_EXT_subgroup_size_control"); #ifndef CTS_USES_VULKANSC const VkPhysicalDeviceSubgroupSizeControlFeatures& subgroupSizeControlFeatures = context.getSubgroupSizeControlFeatures(); const VkPhysicalDeviceSubgroupSizeControlProperties& subgroupSizeControlProperties = context.getSubgroupSizeControlProperties(); #else const VkPhysicalDeviceSubgroupSizeControlFeaturesEXT& subgroupSizeControlFeatures = context.getSubgroupSizeControlFeaturesEXT(); const VkPhysicalDeviceSubgroupSizeControlPropertiesEXT& subgroupSizeControlProperties = context.getSubgroupSizeControlPropertiesEXT(); #endif // CTS_USES_VULKANSC if (subgroupSizeControlFeatures.subgroupSizeControl == DE_FALSE) TCU_THROW(NotSupportedError, "Device does not support varying subgroup sizes nor required subgroup size"); if (subgroupSizeControlFeatures.computeFullSubgroups == DE_FALSE) TCU_THROW(NotSupportedError, "Device does not support full subgroups in compute shaders"); if ((subgroupSizeControlProperties.requiredSubgroupSizeStages & caseDef.shaderStage) != caseDef.shaderStage) TCU_THROW(NotSupportedError, "Required subgroup size is not supported for shader stage"); } *caseDef.geometryPointSizeSupported = subgroups::isTessellationAndGeometryPointSizeSupported(context); #ifndef CTS_USES_VULKANSC if (isAllRayTracingStages(caseDef.shaderStage)) { context.requireDeviceFunctionality("VK_KHR_ray_tracing_pipeline"); } else if (isAllMeshShadingStages(caseDef.shaderStage)) { context.requireDeviceCoreFeature(DEVICE_CORE_FEATURE_VERTEX_PIPELINE_STORES_AND_ATOMICS); context.requireDeviceFunctionality("VK_EXT_mesh_shader"); if ((caseDef.shaderStage & VK_SHADER_STAGE_TASK_BIT_EXT) != 0u) { const auto& features = context.getMeshShaderFeaturesEXT(); if (!features.taskShader) TCU_THROW(NotSupportedError, "Task shaders not supported"); } } #endif // CTS_USES_VULKANSC subgroups::supportedCheckShader(context, caseDef.shaderStage); } TestStatus noSSBOtest (Context& context, const CaseDefinition caseDef) { const subgroups::SSBOData inputData = { subgroups::SSBOData::InitializeNonZero, // InputDataInitializeType initializeType; subgroups::SSBOData::LayoutStd140, // InputDataLayoutType layout; caseDef.format, // vk::VkFormat format; subgroups::maxSupportedSubgroupSize(), // vk::VkDeviceSize numElements; subgroups::SSBOData::BindingUBO, // BindingType bindingType; }; switch (caseDef.shaderStage) { case VK_SHADER_STAGE_VERTEX_BIT: return subgroups::makeVertexFrameBufferTest(context, VK_FORMAT_R32_UINT, &inputData, 1, DE_NULL, checkVertexPipelineStages); case VK_SHADER_STAGE_GEOMETRY_BIT: return subgroups::makeGeometryFrameBufferTest(context, VK_FORMAT_R32_UINT, &inputData, 1, DE_NULL, checkVertexPipelineStages); case VK_SHADER_STAGE_TESSELLATION_CONTROL_BIT: return subgroups::makeTessellationEvaluationFrameBufferTest(context, VK_FORMAT_R32_UINT, &inputData, 1, DE_NULL, checkVertexPipelineStages, caseDef.shaderStage); case VK_SHADER_STAGE_TESSELLATION_EVALUATION_BIT: return subgroups::makeTessellationEvaluationFrameBufferTest(context, VK_FORMAT_R32_UINT, &inputData, 1, DE_NULL, checkVertexPipelineStages, caseDef.shaderStage); default: TCU_THROW(InternalError, "Unhandled shader stage"); } } TestStatus test (Context& context, const CaseDefinition caseDef) { const bool isCompute = isAllComputeStages(caseDef.shaderStage); #ifndef CTS_USES_VULKANSC const bool isMesh = isAllMeshShadingStages(caseDef.shaderStage); #else const bool isMesh = false; #endif // CTS_USES_VULKANSC DE_ASSERT(!(isCompute && isMesh)); if (isCompute || isMesh) { #ifndef CTS_USES_VULKANSC const VkPhysicalDeviceSubgroupSizeControlProperties& subgroupSizeControlProperties = context.getSubgroupSizeControlProperties(); #else const VkPhysicalDeviceSubgroupSizeControlPropertiesEXT& subgroupSizeControlProperties = context.getSubgroupSizeControlPropertiesEXT(); #endif // CTS_USES_VULKANSC TestLog& log = context.getTestContext().getLog(); const subgroups::SSBOData inputData = { subgroups::SSBOData::InitializeNonZero, // InputDataInitializeType initializeType; subgroups::SSBOData::LayoutStd430, // InputDataLayoutType layout; caseDef.format, // vk::VkFormat format; subgroups::maxSupportedSubgroupSize(), // vk::VkDeviceSize numElements; }; if (caseDef.requiredSubgroupSize == DE_FALSE) { if (isMesh) return subgroups::makeMeshTest(context, VK_FORMAT_R32_UINT, &inputData, 1, DE_NULL, checkComputeOrMesh); else return subgroups::makeComputeTest(context, VK_FORMAT_R32_UINT, &inputData, 1, DE_NULL, checkComputeOrMesh); } log << TestLog::Message << "Testing required subgroup size range [" << subgroupSizeControlProperties.minSubgroupSize << ", " << subgroupSizeControlProperties.maxSubgroupSize << "]" << TestLog::EndMessage; // According to the spec, requiredSubgroupSize must be a power-of-two integer. for (deUint32 size = subgroupSizeControlProperties.minSubgroupSize; size <= subgroupSizeControlProperties.maxSubgroupSize; size *= 2) { TestStatus result (QP_TEST_RESULT_INTERNAL_ERROR, "Internal Error"); if (isCompute) result = subgroups::makeComputeTest(context, VK_FORMAT_R32_UINT, &inputData, 1, DE_NULL, checkComputeOrMesh, size); else result = subgroups::makeMeshTest(context, VK_FORMAT_R32_UINT, &inputData, 1, DE_NULL, checkComputeOrMesh, size); if (result.getCode() != QP_TEST_RESULT_PASS) { log << TestLog::Message << "subgroupSize " << size << " failed" << TestLog::EndMessage; return result; } } return TestStatus::pass("OK"); } else if (isAllGraphicsStages(caseDef.shaderStage)) { const VkShaderStageFlags stages = subgroups::getPossibleGraphicsSubgroupStages(context, caseDef.shaderStage); const subgroups::SSBOData inputData = { subgroups::SSBOData::InitializeNonZero, // InputDataInitializeType initializeType; subgroups::SSBOData::LayoutStd430, // InputDataLayoutType layout; caseDef.format, // vk::VkFormat format; subgroups::maxSupportedSubgroupSize(), // vk::VkDeviceSize numElements; subgroups::SSBOData::BindingSSBO, // bool isImage; 4u, // deUint32 binding; stages, // vk::VkShaderStageFlags stages; }; return subgroups::allStages(context, VK_FORMAT_R32_UINT, &inputData, 1, DE_NULL, checkVertexPipelineStages, stages); } #ifndef CTS_USES_VULKANSC else if (isAllRayTracingStages(caseDef.shaderStage)) { const VkShaderStageFlags stages = subgroups::getPossibleRayTracingSubgroupStages(context, caseDef.shaderStage); const subgroups::SSBOData inputData = { subgroups::SSBOData::InitializeNonZero, // InputDataInitializeType initializeType; subgroups::SSBOData::LayoutStd430, // InputDataLayoutType layout; caseDef.format, // vk::VkFormat format; subgroups::maxSupportedSubgroupSize(), // vk::VkDeviceSize numElements; subgroups::SSBOData::BindingSSBO, // bool isImage; 6u, // deUint32 binding; stages, // vk::VkShaderStageFlags stages; }; return subgroups::allRayTracingStages(context, VK_FORMAT_R32_UINT, &inputData, 1, DE_NULL, checkVertexPipelineStages, stages); } #endif // CTS_USES_VULKANSC else TCU_THROW(InternalError, "Unknown stage or invalid stage set"); } } namespace vkt { namespace subgroups { TestCaseGroup* createSubgroupsArithmeticTests (TestContext& testCtx) { de::MovePtr group (new TestCaseGroup(testCtx, "arithmetic", "Subgroup arithmetic category tests")); de::MovePtr graphicGroup (new TestCaseGroup(testCtx, "graphics", "Subgroup arithmetic category tests: graphics")); de::MovePtr computeGroup (new TestCaseGroup(testCtx, "compute", "Subgroup arithmetic category tests: compute")); de::MovePtr framebufferGroup (new TestCaseGroup(testCtx, "framebuffer", "Subgroup arithmetic category tests: framebuffer")); #ifndef CTS_USES_VULKANSC de::MovePtr raytracingGroup (new TestCaseGroup(testCtx, "ray_tracing", "Subgroup arithmetic category tests: ray tracing")); de::MovePtr meshGroup (new TestCaseGroup(testCtx, "mesh", "Subgroup arithmetic category tests: mesh")); #endif // CTS_USES_VULKANSC const VkShaderStageFlags fbStages[] = { VK_SHADER_STAGE_VERTEX_BIT, VK_SHADER_STAGE_TESSELLATION_EVALUATION_BIT, VK_SHADER_STAGE_TESSELLATION_CONTROL_BIT, VK_SHADER_STAGE_GEOMETRY_BIT, }; #ifndef CTS_USES_VULKANSC const VkShaderStageFlags meshStages[] = { VK_SHADER_STAGE_MESH_BIT_EXT, VK_SHADER_STAGE_TASK_BIT_EXT, }; #endif // CTS_USES_VULKANSC const deBool boolValues[] = { DE_FALSE, DE_TRUE }; { const vector formats = subgroups::getAllFormats(); for (size_t formatIndex = 0; formatIndex < formats.size(); ++formatIndex) { const VkFormat format = formats[formatIndex]; const string formatName = subgroups::getFormatNameForGLSL(format); const bool isBool = subgroups::isFormatBool(format); const bool isFloat = subgroups::isFormatFloat(format); for (int opTypeIndex = 0; opTypeIndex < OPTYPE_LAST; ++opTypeIndex) { const OpType opType = static_cast(opTypeIndex); const Operator op = getOperator(opType); const ScanType st = getScanType(opType); const bool isBitwiseOp = (op == OPERATOR_AND || op == OPERATOR_OR || op == OPERATOR_XOR); // Skip float with bitwise category. if (isFloat && isBitwiseOp) continue; // Skip bool when its not the bitwise category. if (isBool && !isBitwiseOp) continue; const string name = de::toLower(getOpTypeName(op, st)) + "_" + formatName; for (size_t groupSizeNdx = 0; groupSizeNdx < DE_LENGTH_OF_ARRAY(boolValues); ++groupSizeNdx) { const deBool requiredSubgroupSize = boolValues[groupSizeNdx]; const string testName = name + (requiredSubgroupSize ? "_requiredsubgroupsize" : ""); const CaseDefinition caseDef = { op, // Operator op; st, // ScanType scanType; VK_SHADER_STAGE_COMPUTE_BIT, // VkShaderStageFlags shaderStage; format, // VkFormat format; de::SharedPtr(new bool), // de::SharedPtr geometryPointSizeSupported; requiredSubgroupSize // deBool requiredSubgroupSize; }; addFunctionCaseWithPrograms(computeGroup.get(), testName, "", supportedCheck, initPrograms, test, caseDef); } #ifndef CTS_USES_VULKANSC for (size_t groupSizeNdx = 0; groupSizeNdx < DE_LENGTH_OF_ARRAY(boolValues); ++groupSizeNdx) { for (const auto& meshStage : meshStages) { const deBool requiredSubgroupSize = boolValues[groupSizeNdx]; const string testName = name + "_" + getShaderStageName(meshStage) + (requiredSubgroupSize ? "_requiredsubgroupsize" : ""); const CaseDefinition caseDef = { op, // Operator op; st, // ScanType scanType; meshStage, // VkShaderStageFlags shaderStage; format, // VkFormat format; de::SharedPtr(new bool), // de::SharedPtr geometryPointSizeSupported; requiredSubgroupSize // deBool requiredSubgroupSize; }; addFunctionCaseWithPrograms(meshGroup.get(), testName, "", supportedCheck, initPrograms, test, caseDef); } } #endif // CTS_USES_VULKANSC { const CaseDefinition caseDef = { op, // Operator op; st, // ScanType scanType; VK_SHADER_STAGE_ALL_GRAPHICS, // VkShaderStageFlags shaderStage; format, // VkFormat format; de::SharedPtr(new bool), // de::SharedPtr geometryPointSizeSupported; DE_FALSE // deBool requiredSubgroupSize; }; addFunctionCaseWithPrograms(graphicGroup.get(), name, "", supportedCheck, initPrograms, test, caseDef); } for (int stageIndex = 0; stageIndex < DE_LENGTH_OF_ARRAY(fbStages); ++stageIndex) { const CaseDefinition caseDef = { op, // Operator op; st, // ScanType scanType; fbStages[stageIndex], // VkShaderStageFlags shaderStage; format, // VkFormat format; de::SharedPtr(new bool), // de::SharedPtr geometryPointSizeSupported; DE_FALSE // deBool requiredSubgroupSize; }; const string testName = name + "_" + getShaderStageName(caseDef.shaderStage); addFunctionCaseWithPrograms(framebufferGroup.get(), testName, "", supportedCheck, initFrameBufferPrograms, noSSBOtest, caseDef); } } } } #ifndef CTS_USES_VULKANSC { const vector formats = subgroups::getAllRayTracingFormats(); for (size_t formatIndex = 0; formatIndex < formats.size(); ++formatIndex) { const VkFormat format = formats[formatIndex]; const string formatName = subgroups::getFormatNameForGLSL(format); const bool isBool = subgroups::isFormatBool(format); const bool isFloat = subgroups::isFormatFloat(format); for (int opTypeIndex = 0; opTypeIndex < OPTYPE_LAST; ++opTypeIndex) { const OpType opType = static_cast(opTypeIndex); const Operator op = getOperator(opType); const ScanType st = getScanType(opType); const bool isBitwiseOp = (op == OPERATOR_AND || op == OPERATOR_OR || op == OPERATOR_XOR); // Skip float with bitwise category. if (isFloat && isBitwiseOp) continue; // Skip bool when its not the bitwise category. if (isBool && !isBitwiseOp) continue; { const CaseDefinition caseDef = { op, // Operator op; st, // ScanType scanType; SHADER_STAGE_ALL_RAY_TRACING, // VkShaderStageFlags shaderStage; format, // VkFormat format; de::SharedPtr(new bool), // de::SharedPtr geometryPointSizeSupported; DE_FALSE // deBool requiredSubgroupSize; }; const string name = de::toLower(getOpTypeName(op, st)) + "_" + formatName; addFunctionCaseWithPrograms(raytracingGroup.get(), name, "", supportedCheck, initPrograms, test, caseDef); } } } } #endif // CTS_USES_VULKANSC group->addChild(graphicGroup.release()); group->addChild(computeGroup.release()); group->addChild(framebufferGroup.release()); #ifndef CTS_USES_VULKANSC group->addChild(raytracingGroup.release()); group->addChild(meshGroup.release()); #endif // CTS_USES_VULKANSC return group.release(); } } // subgroups } // vkt