599 lines
35 KiB
C++
599 lines
35 KiB
C++
/*
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* Copyright (C) 2017-2021 Intel Corporation
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*
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* SPDX-License-Identifier: MIT
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*
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*/
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#include "shared/source/memory_manager/unified_memory_manager.h"
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#include "shared/test/unit_test/utilities/base_object_utils.h"
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#include "opencl/source/accelerators/intel_accelerator.h"
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#include "opencl/source/accelerators/intel_motion_estimation.h"
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#include "opencl/source/helpers/sampler_helpers.h"
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#include "opencl/source/kernel/kernel.h"
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#include "opencl/source/mem_obj/pipe.h"
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#include "opencl/test/unit_test/fixtures/context_fixture.h"
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#include "opencl/test/unit_test/fixtures/image_fixture.h"
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#include "opencl/test/unit_test/fixtures/multi_root_device_fixture.h"
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#include "opencl/test/unit_test/mocks/mock_buffer.h"
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#include "opencl/test/unit_test/mocks/mock_device_queue.h"
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#include "opencl/test/unit_test/mocks/mock_kernel.h"
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#include "opencl/test/unit_test/mocks/mock_pipe.h"
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#include "opencl/test/unit_test/mocks/mock_program.h"
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#include "opencl/test/unit_test/mocks/mock_sampler.h"
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#include "opencl/test/unit_test/test_macros/test_checks_ocl.h"
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#include "test.h"
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#include "CL/cl.h"
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#include "gtest/gtest.h"
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#include <memory>
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using namespace NEO;
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class CloneKernelTest : public MultiRootDeviceWithSubDevicesFixture {
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public:
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CloneKernelTest() {
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}
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protected:
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void SetUp() override {
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MultiRootDeviceWithSubDevicesFixture::SetUp();
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pProgram = std::make_unique<MockProgram>(context.get(), false, context->getDevices());
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KernelInfoContainer kernelInfos;
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kernelInfos.resize(3);
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for (auto &rootDeviceIndex : this->context->getRootDeviceIndices()) {
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// define kernel info
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pKernelInfo[rootDeviceIndex] = std::make_unique<KernelInfo>();
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pKernelInfo[rootDeviceIndex]->kernelDescriptor.kernelAttributes.simdSize = 1;
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// setup kernel arg offsets
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KernelArgPatchInfo kernelArgPatchInfo;
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pKernelInfo[rootDeviceIndex]->heapInfo.SurfaceStateHeapSize = sizeof(surfaceStateHeap);
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pKernelInfo[rootDeviceIndex]->heapInfo.pSsh = surfaceStateHeap;
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pKernelInfo[rootDeviceIndex]->usesSsh = true;
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pKernelInfo[rootDeviceIndex]->requiresSshForBuffers = true;
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pKernelInfo[rootDeviceIndex]->kernelArgInfo.resize(1);
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pKernelInfo[rootDeviceIndex]->kernelArgInfo[0].kernelArgPatchInfoVector.push_back(kernelArgPatchInfo);
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pKernelInfo[rootDeviceIndex]->kernelArgInfo[0].kernelArgPatchInfoVector[0].crossthreadOffset = 0x20;
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pKernelInfo[rootDeviceIndex]->kernelArgInfo[0].kernelArgPatchInfoVector[0].size = (uint32_t)sizeof(void *);
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pKernelInfo[rootDeviceIndex]->kernelArgInfo[0].offsetHeap = 0x20;
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pKernelInfo[rootDeviceIndex]->kernelArgInfo[0].offsetObjectId = 0x0;
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// image
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pKernelInfo[rootDeviceIndex]->kernelArgInfo[0].offsetImgWidth = 0x4;
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pKernelInfo[rootDeviceIndex]->kernelArgInfo[0].offsetImgHeight = 0x8;
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pKernelInfo[rootDeviceIndex]->kernelArgInfo[0].offsetImgDepth = 0xc;
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// sampler
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pKernelInfo[rootDeviceIndex]->kernelArgInfo[0].offsetSamplerSnapWa = 0x4;
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pKernelInfo[rootDeviceIndex]->kernelArgInfo[0].offsetSamplerAddressingMode = 0x8;
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pKernelInfo[rootDeviceIndex]->kernelArgInfo[0].offsetSamplerNormalizedCoords = 0x10;
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// accelerator
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pKernelInfo[rootDeviceIndex]->kernelArgInfo[0].samplerArgumentType = iOpenCL::SAMPLER_OBJECT_VME;
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pKernelInfo[rootDeviceIndex]->kernelArgInfo[0].offsetVmeMbBlockType = 0x4;
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pKernelInfo[rootDeviceIndex]->kernelArgInfo[0].offsetVmeSubpixelMode = 0xc;
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pKernelInfo[rootDeviceIndex]->kernelArgInfo[0].offsetVmeSadAdjustMode = 0x14;
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pKernelInfo[rootDeviceIndex]->kernelArgInfo[0].offsetVmeSearchPathType = 0x1c;
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kernelInfos[rootDeviceIndex] = pKernelInfo[rootDeviceIndex].get();
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}
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KernelVectorType sourceKernels;
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sourceKernels.resize(3);
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KernelVectorType clonedKernels;
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clonedKernels.resize(3);
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for (auto &rootDeviceIndex : this->context->getRootDeviceIndices()) {
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pSourceKernel[rootDeviceIndex] = new MockKernel(pProgram.get(), kernelInfos, *deviceFactory->rootDevices[rootDeviceIndex]);
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ASSERT_EQ(CL_SUCCESS, pSourceKernel[rootDeviceIndex]->initialize());
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char pSourceCrossThreadData[64] = {};
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sourceKernels[rootDeviceIndex] = pSourceKernel[rootDeviceIndex];
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pClonedKernel[rootDeviceIndex] = new MockKernel(pProgram.get(), kernelInfos, *deviceFactory->rootDevices[rootDeviceIndex]);
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ASSERT_EQ(CL_SUCCESS, pClonedKernel[rootDeviceIndex]->initialize());
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char pClonedCrossThreadData[64] = {};
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clonedKernels[rootDeviceIndex] = pClonedKernel[rootDeviceIndex];
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for (auto &rootDeviceIndex2 : this->context->getRootDeviceIndices()) {
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pSourceKernel[rootDeviceIndex]->setCrossThreadDataForRootDeviceIndex(rootDeviceIndex2, pSourceCrossThreadData, sizeof(pSourceCrossThreadData));
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pClonedKernel[rootDeviceIndex]->setCrossThreadDataForRootDeviceIndex(rootDeviceIndex2, pClonedCrossThreadData, sizeof(pClonedCrossThreadData));
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}
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}
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pSourceMultiDeviceKernel = std::make_unique<MultiDeviceKernel>(sourceKernels);
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pClonedMultiDeviceKernel = std::make_unique<MultiDeviceKernel>(clonedKernels);
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}
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void TearDown() override {
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MultiRootDeviceWithSubDevicesFixture::TearDown();
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}
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cl_int retVal = CL_SUCCESS;
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std::unique_ptr<MockProgram> pProgram;
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std::unique_ptr<MultiDeviceKernel> pSourceMultiDeviceKernel;
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std::unique_ptr<MultiDeviceKernel> pClonedMultiDeviceKernel;
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MockKernel *pSourceKernel[3] = {nullptr};
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MockKernel *pClonedKernel[3] = {nullptr};
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std::unique_ptr<KernelInfo> pKernelInfo[3];
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char surfaceStateHeap[128];
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};
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TEST_F(CloneKernelTest, GivenUnsetArgWhenCloningKernelThenKernelInfoIsCorrect) {
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for (auto &rootDeviceIndex : this->context->getRootDeviceIndices()) {
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EXPECT_EQ(1u, pSourceKernel[rootDeviceIndex]->getKernelArguments().size());
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EXPECT_EQ(Kernel::NONE_OBJ, pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).type);
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EXPECT_EQ(nullptr, pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).object);
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EXPECT_EQ(nullptr, pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).value);
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EXPECT_EQ(0u, pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).size);
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EXPECT_EQ(0u, pSourceKernel[rootDeviceIndex]->getPatchedArgumentsNum());
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EXPECT_FALSE(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).isPatched);
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}
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retVal = pClonedMultiDeviceKernel->cloneKernel(pSourceMultiDeviceKernel.get());
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EXPECT_EQ(CL_SUCCESS, retVal);
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for (auto &rootDeviceIndex : this->context->getRootDeviceIndices()) {
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EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArguments().size(), pClonedKernel[rootDeviceIndex]->getKernelArguments().size());
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EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).type, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).type);
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EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).object, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).object);
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EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).value, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).value);
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EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).size, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).size);
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EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getPatchedArgumentsNum(), pClonedKernel[rootDeviceIndex]->getPatchedArgumentsNum());
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EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).isPatched, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).isPatched);
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}
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}
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TEST_F(CloneKernelTest, GivenArgLocalWhenCloningKernelThenKernelInfoIsCorrect) {
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const size_t slmSize = 0x800;
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for (auto &rootDeviceIndex : this->context->getRootDeviceIndices()) {
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pSourceKernel[rootDeviceIndex]->setKernelArgHandler(0, &Kernel::setArgLocal);
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pClonedKernel[rootDeviceIndex]->setKernelArgHandler(0, &Kernel::setArgLocal);
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}
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retVal = pSourceMultiDeviceKernel->setArg(0, slmSize, nullptr);
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ASSERT_EQ(CL_SUCCESS, retVal);
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for (auto &rootDeviceIndex : this->context->getRootDeviceIndices()) {
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EXPECT_EQ(1u, pSourceKernel[rootDeviceIndex]->getKernelArguments().size());
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EXPECT_EQ(Kernel::SLM_OBJ, pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).type);
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EXPECT_NE(0u, pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).size);
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EXPECT_EQ(1u, pSourceKernel[rootDeviceIndex]->getPatchedArgumentsNum());
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EXPECT_TRUE(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).isPatched);
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}
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retVal = pClonedMultiDeviceKernel->cloneKernel(pSourceMultiDeviceKernel.get());
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EXPECT_EQ(CL_SUCCESS, retVal);
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for (auto &rootDeviceIndex : this->context->getRootDeviceIndices()) {
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EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArguments().size(), pClonedKernel[rootDeviceIndex]->getKernelArguments().size());
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EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).type, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).type);
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EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).object, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).object);
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EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).value, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).value);
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EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).size, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).size);
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EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getPatchedArgumentsNum(), pClonedKernel[rootDeviceIndex]->getPatchedArgumentsNum());
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EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).isPatched, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).isPatched);
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EXPECT_EQ(alignUp(slmSize, 1024), pClonedKernel[rootDeviceIndex]->kernelDeviceInfos[rootDeviceIndex].slmTotalSize);
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}
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}
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TEST_F(CloneKernelTest, GivenArgBufferWhenCloningKernelThenKernelInfoIsCorrect) {
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auto buffer = clUniquePtr(Buffer::create(context.get(), 0, MemoryConstants::pageSize, nullptr, retVal));
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cl_mem memObj = buffer.get();
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for (auto &rootDeviceIndex : this->context->getRootDeviceIndices()) {
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pSourceKernel[rootDeviceIndex]->setKernelArgHandler(0, &Kernel::setArgBuffer);
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pClonedKernel[rootDeviceIndex]->setKernelArgHandler(0, &Kernel::setArgBuffer);
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}
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retVal = pSourceMultiDeviceKernel->setArg(0, sizeof(cl_mem), &memObj);
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ASSERT_EQ(CL_SUCCESS, retVal);
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for (auto &rootDeviceIndex : this->context->getRootDeviceIndices()) {
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EXPECT_EQ(1u, pSourceKernel[rootDeviceIndex]->getKernelArguments().size());
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EXPECT_EQ(Kernel::BUFFER_OBJ, pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).type);
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EXPECT_NE(0u, pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).size);
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EXPECT_EQ(1u, pSourceKernel[rootDeviceIndex]->getPatchedArgumentsNum());
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EXPECT_TRUE(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).isPatched);
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}
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retVal = pClonedMultiDeviceKernel->cloneKernel(pSourceMultiDeviceKernel.get());
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EXPECT_EQ(CL_SUCCESS, retVal);
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for (auto &rootDeviceIndex : this->context->getRootDeviceIndices()) {
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EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArguments().size(), pClonedKernel[rootDeviceIndex]->getKernelArguments().size());
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EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).type, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).type);
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EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).object, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).object);
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EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).value, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).value);
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EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).size, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).size);
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EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getPatchedArgumentsNum(), pClonedKernel[rootDeviceIndex]->getPatchedArgumentsNum());
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EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).isPatched, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).isPatched);
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auto pKernelArg = (cl_mem *)(pClonedKernel[rootDeviceIndex]->getCrossThreadData(rootDeviceIndex) +
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pClonedKernel[rootDeviceIndex]->getKernelInfo(rootDeviceIndex).kernelArgInfo[0].kernelArgPatchInfoVector[0].crossthreadOffset);
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EXPECT_EQ(buffer->getGraphicsAllocation(rootDeviceIndex)->getGpuAddressToPatch(), reinterpret_cast<uint64_t>(*pKernelArg));
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}
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}
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TEST_F(CloneKernelTest, GivenArgPipeWhenCloningKernelThenKernelInfoIsCorrect) {
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auto pipe = clUniquePtr(Pipe::create(context.get(), 0, 1, 20, nullptr, retVal));
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EXPECT_EQ(CL_SUCCESS, retVal);
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cl_mem memObj = pipe.get();
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auto rootDeviceIndex = *context->getRootDeviceIndices().begin();
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pSourceKernel[rootDeviceIndex]->setKernelArgHandler(0, &Kernel::setArgPipe);
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pClonedKernel[rootDeviceIndex]->setKernelArgHandler(0, &Kernel::setArgPipe);
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retVal = pSourceKernel[rootDeviceIndex]->setArg(0, sizeof(cl_mem), &memObj);
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ASSERT_EQ(CL_SUCCESS, retVal);
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EXPECT_EQ(1u, pSourceKernel[rootDeviceIndex]->getKernelArguments().size());
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EXPECT_EQ(Kernel::PIPE_OBJ, pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).type);
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EXPECT_NE(0u, pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).size);
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EXPECT_EQ(1u, pSourceKernel[rootDeviceIndex]->getPatchedArgumentsNum());
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EXPECT_TRUE(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).isPatched);
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retVal = pClonedMultiDeviceKernel->cloneKernel(pSourceMultiDeviceKernel.get());
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EXPECT_EQ(CL_SUCCESS, retVal);
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EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArguments().size(), pClonedKernel[rootDeviceIndex]->getKernelArguments().size());
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EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).type, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).type);
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EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).object, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).object);
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EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).value, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).value);
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EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).size, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).size);
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EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getPatchedArgumentsNum(), pClonedKernel[rootDeviceIndex]->getPatchedArgumentsNum());
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EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).isPatched, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).isPatched);
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auto pKernelArg = (cl_mem *)(pClonedKernel[rootDeviceIndex]->getCrossThreadData(rootDeviceIndex) +
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pClonedKernel[rootDeviceIndex]->getKernelInfo(rootDeviceIndex).kernelArgInfo[0].kernelArgPatchInfoVector[0].crossthreadOffset);
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EXPECT_EQ(pipe->getGraphicsAllocation(rootDeviceIndex)->getGpuAddressToPatch(), reinterpret_cast<uint64_t>(*pKernelArg));
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}
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TEST_F(CloneKernelTest, GivenArgImageWhenCloningKernelThenKernelInfoIsCorrect) {
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auto image = std::unique_ptr<Image>(Image2dHelper<>::create(context.get()));
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ASSERT_NE(nullptr, image);
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auto rootDeviceIndex = *context->getRootDeviceIndices().begin();
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uint32_t objectId = pKernelInfo[rootDeviceIndex]->kernelArgInfo[0].offsetHeap;
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size_t imageWidth = image->getImageDesc().image_width;
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size_t imageHeight = image->getImageDesc().image_height;
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size_t imageDepth = image->getImageDesc().image_depth;
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cl_mem memObj = image.get();
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pSourceKernel[rootDeviceIndex]->setKernelArgHandler(0, &Kernel::setArgImage);
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pClonedKernel[rootDeviceIndex]->setKernelArgHandler(0, &Kernel::setArgImage);
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retVal = pSourceMultiDeviceKernel->setArg(0, sizeof(cl_mem), &memObj);
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ASSERT_EQ(CL_SUCCESS, retVal);
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EXPECT_EQ(1u, pSourceKernel[rootDeviceIndex]->getKernelArguments().size());
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EXPECT_EQ(Kernel::IMAGE_OBJ, pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).type);
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EXPECT_NE(0u, pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).size);
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EXPECT_EQ(1u, pSourceKernel[rootDeviceIndex]->getPatchedArgumentsNum());
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EXPECT_TRUE(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).isPatched);
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retVal = pClonedMultiDeviceKernel->cloneKernel(pSourceMultiDeviceKernel.get());
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EXPECT_EQ(CL_SUCCESS, retVal);
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EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArguments().size(), pClonedKernel[rootDeviceIndex]->getKernelArguments().size());
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EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).type, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).type);
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EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).object, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).object);
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EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).value, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).value);
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EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).size, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).size);
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EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getPatchedArgumentsNum(), pClonedKernel[rootDeviceIndex]->getPatchedArgumentsNum());
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EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).isPatched, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).isPatched);
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auto crossThreadData = reinterpret_cast<uint32_t *>(pClonedKernel[rootDeviceIndex]->getCrossThreadData(rootDeviceIndex));
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EXPECT_EQ(objectId, *crossThreadData);
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const auto &argInfo = pClonedKernel[rootDeviceIndex]->getKernelInfo(rootDeviceIndex).kernelArgInfo[0];
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auto pImgWidth = ptrOffset(crossThreadData, argInfo.offsetImgWidth);
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EXPECT_EQ(imageWidth, *pImgWidth);
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auto pImgHeight = ptrOffset(crossThreadData, argInfo.offsetImgHeight);
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EXPECT_EQ(imageHeight, *pImgHeight);
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auto pImgDepth = ptrOffset(crossThreadData, argInfo.offsetImgDepth);
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EXPECT_EQ(imageDepth, *pImgDepth);
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}
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TEST_F(CloneKernelTest, GivenArgAcceleratorWhenCloningKernelThenKernelInfoIsCorrect) {
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cl_motion_estimation_desc_intel desc = {
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CL_ME_MB_TYPE_4x4_INTEL,
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CL_ME_SUBPIXEL_MODE_QPEL_INTEL,
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CL_ME_SAD_ADJUST_MODE_HAAR_INTEL,
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CL_ME_SEARCH_PATH_RADIUS_16_12_INTEL};
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cl_accelerator_intel accelerator = VmeAccelerator::create(
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context.get(),
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CL_ACCELERATOR_TYPE_MOTION_ESTIMATION_INTEL, sizeof(desc), &desc,
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retVal);
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ASSERT_EQ(CL_SUCCESS, retVal);
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ASSERT_NE(nullptr, accelerator);
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auto rootDeviceIndex = *context->getRootDeviceIndices().begin();
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pSourceKernel[rootDeviceIndex]->setKernelArgHandler(0, &Kernel::setArgAccelerator);
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pClonedKernel[rootDeviceIndex]->setKernelArgHandler(0, &Kernel::setArgAccelerator);
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retVal = pSourceMultiDeviceKernel->setArg(0, sizeof(cl_accelerator_intel), &accelerator);
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ASSERT_EQ(CL_SUCCESS, retVal);
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EXPECT_EQ(1u, pSourceKernel[rootDeviceIndex]->getKernelArguments().size());
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EXPECT_EQ(Kernel::ACCELERATOR_OBJ, pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).type);
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EXPECT_NE(0u, pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).size);
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EXPECT_EQ(1u, pSourceKernel[rootDeviceIndex]->getPatchedArgumentsNum());
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EXPECT_TRUE(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).isPatched);
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retVal = pClonedMultiDeviceKernel->cloneKernel(pSourceMultiDeviceKernel.get());
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EXPECT_EQ(CL_SUCCESS, retVal);
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EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArguments().size(), pClonedKernel[rootDeviceIndex]->getKernelArguments().size());
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EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).type, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).type);
|
|
EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).object, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).object);
|
|
EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).value, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).value);
|
|
EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).size, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).size);
|
|
EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getPatchedArgumentsNum(), pClonedKernel[rootDeviceIndex]->getPatchedArgumentsNum());
|
|
EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).isPatched, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).isPatched);
|
|
|
|
auto crossThreadData = reinterpret_cast<uint32_t *>(pClonedKernel[rootDeviceIndex]->getCrossThreadData(rootDeviceIndex));
|
|
|
|
const auto &argInfo = pClonedKernel[rootDeviceIndex]->getKernelInfo(rootDeviceIndex).kernelArgInfo[0];
|
|
|
|
uint32_t *pMbBlockType = ptrOffset(crossThreadData, argInfo.offsetVmeMbBlockType);
|
|
EXPECT_EQ(desc.mb_block_type, *pMbBlockType);
|
|
|
|
uint32_t *pSubpixelMode = ptrOffset(crossThreadData, argInfo.offsetVmeSubpixelMode);
|
|
EXPECT_EQ(desc.subpixel_mode, *pSubpixelMode);
|
|
|
|
uint32_t *pSadAdjustMode = ptrOffset(crossThreadData, argInfo.offsetVmeSadAdjustMode);
|
|
EXPECT_EQ(desc.sad_adjust_mode, *pSadAdjustMode);
|
|
|
|
uint32_t *pSearchPathType = ptrOffset(crossThreadData, argInfo.offsetVmeSearchPathType);
|
|
EXPECT_EQ(desc.search_path_type, *pSearchPathType);
|
|
|
|
retVal = clReleaseAcceleratorINTEL(accelerator);
|
|
EXPECT_EQ(CL_SUCCESS, retVal);
|
|
}
|
|
|
|
TEST_F(CloneKernelTest, GivenArgSamplerWhenCloningKernelThenKernelInfoIsCorrect) {
|
|
auto sampler = clUniquePtr<Sampler>(new MockSampler(context.get(),
|
|
true,
|
|
(cl_addressing_mode)CL_ADDRESS_MIRRORED_REPEAT,
|
|
(cl_filter_mode)CL_FILTER_NEAREST));
|
|
|
|
uint32_t objectId = SAMPLER_OBJECT_ID_SHIFT + pKernelInfo[*context->getRootDeviceIndices().begin()]->kernelArgInfo[0].offsetHeap;
|
|
|
|
cl_sampler samplerObj = sampler.get();
|
|
auto rootDeviceIndex = *context->getRootDeviceIndices().begin();
|
|
|
|
pSourceKernel[rootDeviceIndex]->setKernelArgHandler(0, &Kernel::setArgSampler);
|
|
pClonedKernel[rootDeviceIndex]->setKernelArgHandler(0, &Kernel::setArgSampler);
|
|
|
|
retVal = pSourceMultiDeviceKernel->setArg(0, sizeof(cl_sampler), &samplerObj);
|
|
ASSERT_EQ(CL_SUCCESS, retVal);
|
|
|
|
EXPECT_EQ(1u, pSourceKernel[rootDeviceIndex]->getKernelArguments().size());
|
|
EXPECT_EQ(Kernel::SAMPLER_OBJ, pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).type);
|
|
EXPECT_NE(0u, pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).size);
|
|
EXPECT_EQ(1u, pSourceKernel[rootDeviceIndex]->getPatchedArgumentsNum());
|
|
EXPECT_TRUE(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).isPatched);
|
|
|
|
retVal = pClonedMultiDeviceKernel->cloneKernel(pSourceMultiDeviceKernel.get());
|
|
EXPECT_EQ(CL_SUCCESS, retVal);
|
|
|
|
EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArguments().size(), pClonedKernel[rootDeviceIndex]->getKernelArguments().size());
|
|
EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).type, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).type);
|
|
EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).object, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).object);
|
|
EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).value, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).value);
|
|
EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).size, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).size);
|
|
EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getPatchedArgumentsNum(), pClonedKernel[rootDeviceIndex]->getPatchedArgumentsNum());
|
|
EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).isPatched, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).isPatched);
|
|
|
|
auto crossThreadData = reinterpret_cast<uint32_t *>(pClonedKernel[rootDeviceIndex]->getCrossThreadData(rootDeviceIndex));
|
|
EXPECT_EQ(objectId, *crossThreadData);
|
|
|
|
const auto &argInfo = pClonedKernel[rootDeviceIndex]->getKernelInfo(rootDeviceIndex).kernelArgInfo[0];
|
|
|
|
auto pSnapWa = ptrOffset(crossThreadData, argInfo.offsetSamplerSnapWa);
|
|
EXPECT_EQ(sampler->getSnapWaValue(), *pSnapWa);
|
|
|
|
auto pAddressingMode = ptrOffset(crossThreadData, argInfo.offsetSamplerAddressingMode);
|
|
EXPECT_EQ(GetAddrModeEnum(sampler->addressingMode), *pAddressingMode);
|
|
|
|
auto pNormalizedCoords = ptrOffset(crossThreadData, argInfo.offsetSamplerNormalizedCoords);
|
|
EXPECT_EQ(GetNormCoordsEnum(sampler->normalizedCoordinates), *pNormalizedCoords);
|
|
EXPECT_EQ(3, sampler->getRefInternalCount());
|
|
}
|
|
|
|
HWCMDTEST_F(IGFX_GEN8_CORE, CloneKernelTest, GivenArgDeviceQueueWhenCloningKernelThenKernelInfoIsCorrect) {
|
|
REQUIRE_DEVICE_ENQUEUE_OR_SKIP(device1);
|
|
|
|
cl_queue_properties queueProps[5] = {
|
|
CL_QUEUE_PROPERTIES,
|
|
CL_QUEUE_ON_DEVICE | CL_QUEUE_OUT_OF_ORDER_EXEC_MODE_ENABLE,
|
|
0, 0, 0};
|
|
|
|
MockDeviceQueueHw<FamilyType> mockDevQueue(context.get(), device1, queueProps[0]);
|
|
auto clDeviceQueue = static_cast<cl_command_queue>(&mockDevQueue);
|
|
auto rootDeviceIndex = *context->getRootDeviceIndices().begin();
|
|
|
|
pSourceKernel[rootDeviceIndex]->setKernelArgHandler(0, &Kernel::setArgDevQueue);
|
|
pClonedKernel[rootDeviceIndex]->setKernelArgHandler(0, &Kernel::setArgDevQueue);
|
|
|
|
retVal = pSourceMultiDeviceKernel->setArg(0, sizeof(cl_command_queue), &clDeviceQueue);
|
|
ASSERT_EQ(CL_SUCCESS, retVal);
|
|
|
|
EXPECT_EQ(1u, pSourceKernel[rootDeviceIndex]->getKernelArguments().size());
|
|
EXPECT_EQ(Kernel::DEVICE_QUEUE_OBJ, pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).type);
|
|
EXPECT_NE(0u, pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).size);
|
|
EXPECT_EQ(1u, pSourceKernel[rootDeviceIndex]->getPatchedArgumentsNum());
|
|
EXPECT_TRUE(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).isPatched);
|
|
|
|
retVal = pClonedMultiDeviceKernel->cloneKernel(pSourceMultiDeviceKernel.get());
|
|
EXPECT_EQ(CL_SUCCESS, retVal);
|
|
|
|
EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArguments().size(), pClonedKernel[rootDeviceIndex]->getKernelArguments().size());
|
|
EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).type, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).type);
|
|
EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).object, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).object);
|
|
EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).value, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).value);
|
|
EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).size, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).size);
|
|
EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getPatchedArgumentsNum(), pClonedKernel[rootDeviceIndex]->getPatchedArgumentsNum());
|
|
EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).isPatched, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).isPatched);
|
|
|
|
auto pKernelArg = (uintptr_t *)(pClonedKernel[rootDeviceIndex]->getCrossThreadData(rootDeviceIndex) +
|
|
pClonedKernel[rootDeviceIndex]->getKernelInfo(rootDeviceIndex).kernelArgInfo[0].kernelArgPatchInfoVector[0].crossthreadOffset);
|
|
EXPECT_EQ(static_cast<uintptr_t>(mockDevQueue.getQueueBuffer()->getGpuAddressToPatch()), *pKernelArg);
|
|
}
|
|
|
|
TEST_F(CloneKernelTest, GivenArgSvmWhenCloningKernelThenKernelInfoIsCorrect) {
|
|
char *svmPtr = new char[256];
|
|
|
|
for (auto &rootDeviceIndex : this->context->getRootDeviceIndices()) {
|
|
retVal = pSourceKernel[rootDeviceIndex]->setArgSvm(0, 256, svmPtr, nullptr, 0u);
|
|
ASSERT_EQ(CL_SUCCESS, retVal);
|
|
|
|
EXPECT_EQ(1u, pSourceKernel[rootDeviceIndex]->getKernelArguments().size());
|
|
EXPECT_EQ(Kernel::SVM_OBJ, pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).type);
|
|
EXPECT_NE(0u, pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).size);
|
|
EXPECT_EQ(1u, pSourceKernel[rootDeviceIndex]->getPatchedArgumentsNum());
|
|
EXPECT_TRUE(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).isPatched);
|
|
}
|
|
|
|
retVal = pClonedMultiDeviceKernel->cloneKernel(pSourceMultiDeviceKernel.get());
|
|
EXPECT_EQ(CL_SUCCESS, retVal);
|
|
|
|
for (auto &rootDeviceIndex : this->context->getRootDeviceIndices()) {
|
|
EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArguments().size(), pClonedKernel[rootDeviceIndex]->getKernelArguments().size());
|
|
EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).type, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).type);
|
|
EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).object, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).object);
|
|
EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).value, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).value);
|
|
EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).size, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).size);
|
|
EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getPatchedArgumentsNum(), pClonedKernel[rootDeviceIndex]->getPatchedArgumentsNum());
|
|
EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).isPatched, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).isPatched);
|
|
|
|
auto pKernelArg = (void **)(pClonedKernel[rootDeviceIndex]->getCrossThreadData(rootDeviceIndex) +
|
|
pClonedKernel[rootDeviceIndex]->getKernelInfo(rootDeviceIndex).kernelArgInfo[0].kernelArgPatchInfoVector[0].crossthreadOffset);
|
|
EXPECT_EQ(svmPtr, *pKernelArg);
|
|
}
|
|
|
|
delete[] svmPtr;
|
|
}
|
|
|
|
TEST_F(CloneKernelTest, GivenArgSvmAllocWhenCloningKernelThenKernelInfoIsCorrect) {
|
|
char *svmPtr = new char[256];
|
|
MockGraphicsAllocation svmAlloc(svmPtr, 256);
|
|
|
|
auto rootDeviceIndex = *context->getRootDeviceIndices().begin();
|
|
retVal = pSourceMultiDeviceKernel->setArgSvmAlloc(0, svmPtr, &svmAlloc);
|
|
ASSERT_EQ(CL_SUCCESS, retVal);
|
|
|
|
EXPECT_EQ(1u, pSourceKernel[rootDeviceIndex]->getKernelArguments().size());
|
|
EXPECT_EQ(Kernel::SVM_ALLOC_OBJ, pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).type);
|
|
EXPECT_NE(0u, pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).size);
|
|
EXPECT_EQ(1u, pSourceKernel[rootDeviceIndex]->getPatchedArgumentsNum());
|
|
EXPECT_TRUE(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).isPatched);
|
|
|
|
retVal = pClonedMultiDeviceKernel->cloneKernel(pSourceMultiDeviceKernel.get());
|
|
EXPECT_EQ(CL_SUCCESS, retVal);
|
|
|
|
EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArguments().size(), pClonedKernel[rootDeviceIndex]->getKernelArguments().size());
|
|
EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).type, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).type);
|
|
EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).object, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).object);
|
|
EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).value, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).value);
|
|
EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).size, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).size);
|
|
EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getPatchedArgumentsNum(), pClonedKernel[rootDeviceIndex]->getPatchedArgumentsNum());
|
|
EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).isPatched, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).isPatched);
|
|
|
|
auto pKernelArg = (void **)(pClonedKernel[rootDeviceIndex]->getCrossThreadData(rootDeviceIndex) +
|
|
pClonedKernel[rootDeviceIndex]->getKernelInfo(rootDeviceIndex).kernelArgInfo[0].kernelArgPatchInfoVector[0].crossthreadOffset);
|
|
EXPECT_EQ(svmPtr, *pKernelArg);
|
|
|
|
delete[] svmPtr;
|
|
}
|
|
|
|
TEST_F(CloneKernelTest, GivenArgImmediateWhenCloningKernelThenKernelInfoIsCorrect) {
|
|
using TypeParam = unsigned long;
|
|
auto value = (TypeParam)0xAA55AA55UL;
|
|
|
|
retVal = pSourceMultiDeviceKernel->setArg(0, sizeof(TypeParam), &value);
|
|
ASSERT_EQ(CL_SUCCESS, retVal);
|
|
|
|
for (auto &rootDeviceIndex : this->context->getRootDeviceIndices()) {
|
|
EXPECT_EQ(1u, pSourceKernel[rootDeviceIndex]->getKernelArguments().size());
|
|
EXPECT_EQ(Kernel::NONE_OBJ, pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).type);
|
|
EXPECT_NE(0u, pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).size);
|
|
EXPECT_EQ(1u, pSourceKernel[rootDeviceIndex]->getPatchedArgumentsNum());
|
|
EXPECT_TRUE(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).isPatched);
|
|
}
|
|
|
|
retVal = pClonedMultiDeviceKernel->cloneKernel(pSourceMultiDeviceKernel.get());
|
|
EXPECT_EQ(CL_SUCCESS, retVal);
|
|
|
|
for (auto &rootDeviceIndex : this->context->getRootDeviceIndices()) {
|
|
EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArguments().size(), pClonedKernel[rootDeviceIndex]->getKernelArguments().size());
|
|
EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).type, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).type);
|
|
EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).object, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).object);
|
|
EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).value, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).value);
|
|
EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).size, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).size);
|
|
EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getPatchedArgumentsNum(), pClonedKernel[rootDeviceIndex]->getPatchedArgumentsNum());
|
|
EXPECT_EQ(pSourceKernel[rootDeviceIndex]->getKernelArgInfo(0).isPatched, pClonedKernel[rootDeviceIndex]->getKernelArgInfo(0).isPatched);
|
|
|
|
auto pKernelArg = (TypeParam *)(pClonedKernel[rootDeviceIndex]->getCrossThreadData(rootDeviceIndex) +
|
|
pClonedKernel[rootDeviceIndex]->getKernelInfo(rootDeviceIndex).kernelArgInfo[0].kernelArgPatchInfoVector[0].crossthreadOffset);
|
|
EXPECT_EQ(value, *pKernelArg);
|
|
}
|
|
}
|
|
|
|
TEST_F(CloneKernelTest, GivenExecInfoWhenCloningKernelThenSvmAllocationIsCorrect) {
|
|
REQUIRE_SVM_OR_SKIP(device1);
|
|
void *ptrSVM = context->getSVMAllocsManager()->createSVMAlloc(256, {}, context->getRootDeviceIndices(), context->getDeviceBitfields());
|
|
ASSERT_NE(nullptr, ptrSVM);
|
|
|
|
auto svmData = context->getSVMAllocsManager()->getSVMAlloc(ptrSVM);
|
|
ASSERT_NE(nullptr, svmData);
|
|
GraphicsAllocation *pSvmAlloc = svmData->gpuAllocations.getGraphicsAllocation(device1->getRootDeviceIndex());
|
|
ASSERT_NE(nullptr, pSvmAlloc);
|
|
|
|
pSourceMultiDeviceKernel->setSvmKernelExecInfo(pSvmAlloc);
|
|
|
|
for (auto &rootDeviceIndex : this->context->getRootDeviceIndices()) {
|
|
EXPECT_EQ(1u, pSourceKernel[rootDeviceIndex]->kernelSvmGfxAllocations.size());
|
|
}
|
|
|
|
retVal = pClonedMultiDeviceKernel->cloneKernel(pSourceMultiDeviceKernel.get());
|
|
EXPECT_EQ(CL_SUCCESS, retVal);
|
|
|
|
for (auto &rootDeviceIndex : this->context->getRootDeviceIndices()) {
|
|
EXPECT_EQ(pSourceKernel[rootDeviceIndex]->kernelSvmGfxAllocations.size(), pClonedKernel[rootDeviceIndex]->kernelSvmGfxAllocations.size());
|
|
EXPECT_EQ(pSourceKernel[rootDeviceIndex]->kernelSvmGfxAllocations.at(0), pClonedKernel[rootDeviceIndex]->kernelSvmGfxAllocations.at(0));
|
|
}
|
|
|
|
context->getSVMAllocsManager()->freeSVMAlloc(ptrSVM);
|
|
}
|
|
|
|
TEST_F(CloneKernelTest, givenBuiltinSourceKernelWhenCloningThenSetBuiltinFlagToClonedKernel) {
|
|
for (auto &rootDeviceIndex : this->context->getRootDeviceIndices()) {
|
|
pSourceKernel[rootDeviceIndex]->isBuiltIn = true;
|
|
}
|
|
pClonedMultiDeviceKernel->cloneKernel(pSourceMultiDeviceKernel.get());
|
|
for (auto &rootDeviceIndex : this->context->getRootDeviceIndices()) {
|
|
EXPECT_TRUE(pClonedKernel[rootDeviceIndex]->isBuiltIn);
|
|
}
|
|
}
|