6ef967abd7
Change-Id: I0701a02087feb75d9a878a9edce17cf0ee1b5b53
550 строки
20 KiB
C++
550 строки
20 KiB
C++
/*
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Copyright (c) 2023 Advanced Micro Devices, Inc. All rights reserved.
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Permission is hereby granted, free of charge, to any person obtaining a copy
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of this software and associated documentation files (the "Software"), to deal
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in the Software without restriction, including without limitation the rights
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to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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copies of the Software, and to permit persons to whom the Software is
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furnished to do so, subject to the following conditions:
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The above copyright notice and this permission notice shall be included in
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all copies or substantial portions of the Software.
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THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANNTY OF ANY KIND, EXPRESS OR
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IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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FITNNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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LIABILITY, WHETHER INN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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OUT OF OR INN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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THE SOFTWARE.
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*/
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/**
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Negative Testcase Scenarios for api hipGraphAddMemsetNode :
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1) Pass pGraphNode as nullptr and check if api returns error.
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2) Pass pGraphNode as un-initialize object and check.
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3) Pass Graph as nullptr and check if api returns error.
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4) Pass Graph as empty object(skipping graph creation), api should return error code.
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5) Pass pDependencies as nullptr, api should return success.
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6) Pass numDependencies is max(size_t) and pDependencies is not valid ptr, api expected to return error code.
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7) Pass pDependencies is nullptr, but numDependencies is non-zero, api expected to return error.
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8) Pass pMemsetParams as nullptr and check if api returns error code.
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9) Pass pMemsetParams as un-initialize object and check if api returns error code.
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10) Pass hipMemsetParams::dst as nullptr should return error code.
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11) Pass hipMemsetParams::element size other than 1, 2, or 4 and check api should return error code.
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12) Pass hipMemsetParams::height as zero and check api should return error code.
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Functional Scenarios for api hipGraphAddMemsetNode :
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1. Allocate a 2D array using hipMallocPitch. Initialize the allocated memory using hipGraphAddMemsetNode.
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Copy the values in device memory to host using hipGraphAddMemcpyNode. Verify the results
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2. Allocate a 1D array using hipMallocPitch. Initialize the allocated memory using hipGraphAddMemsetNode.
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Copy the values in device memory to host using hipGraphAddMemcpyNode. Verify the results..
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3. Allocate a 2D array using hipMalloc3D. Initialize the allocated memory using hipGraphAddMemsetNode.
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Copy the values in device memory to host using hipGraphAddMemcpyNode. Verify the results.
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4. Allocate a 1D array using hipMalloc3D. Initialize the allocated memory using hipGraphAddMemsetNode.
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Copy the values in device memory to host using hipGraphAddMemcpyNode. Verify the results.
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5. Allocate a 1D array using hipMalloc. Initialize the allocated memory using hipGraphAddMemsetNode.
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Copy the values in device memory to host using hipGraphAddMemcpyNode. Verify the results.
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6. Allocate memory using hipMallocManaged. Initialize the allocated memory using hipGraphAddMemsetNode.
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Copy the values in device memory to host using hipGraphAddMemcpyNode. Verify the results.
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*/
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#include <hip_test_common.hh>
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/**
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* Negative Test for API hipGraphAddMemsetNode
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*/
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#define SIZE 1024
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static char memSetVal = 'a';
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TEST_CASE("Unit_hipGraphAddMemsetNode_Negative") {
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hipError_t ret;
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hipGraph_t graph;
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hipGraphNode_t memsetNode;
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char *devData;
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HIP_CHECK(hipMalloc(&devData, 1024));
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HIP_CHECK(hipGraphCreate(&graph, 0));
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hipMemsetParams memsetParams{};
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memset(&memsetParams, 0, sizeof(memsetParams));
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memsetParams.dst = reinterpret_cast<void*>(devData);
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memsetParams.value = 0;
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memsetParams.pitch = 0;
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memsetParams.elementSize = sizeof(char);
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memsetParams.width = 1024;
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memsetParams.height = 1;
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SECTION("Pass pGraphNode as nullptr") {
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ret = hipGraphAddMemsetNode(nullptr, graph, nullptr, 0, &memsetParams);
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REQUIRE(hipErrorInvalidValue == ret);
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}
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SECTION("Pass pGraphNode as un-initialize object") {
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hipGraphNode_t memsetNode_1;
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ret = hipGraphAddMemsetNode(&memsetNode_1, graph,
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nullptr, 0, &memsetParams);
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REQUIRE(hipSuccess == ret);
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}
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SECTION("Pass graph as nullptr") {
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ret = hipGraphAddMemsetNode(&memsetNode, nullptr,
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nullptr, 0, &memsetParams);
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REQUIRE(hipErrorInvalidValue == ret);
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}
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SECTION("Pass Graph as empty object") {
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hipGraph_t graph_1{};
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ret = hipGraphAddMemsetNode(&memsetNode, graph_1,
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nullptr, 0, &memsetParams);
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REQUIRE(hipErrorInvalidValue == ret);
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}
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SECTION("Pass pDependencies as nullptr") {
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ret = hipGraphAddMemsetNode(&memsetNode, graph, nullptr, 0, &memsetParams);
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REQUIRE(hipSuccess == ret);
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}
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SECTION("Pass numDependencies is max and pDependencies is not valid ptr") {
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ret = hipGraphAddMemsetNode(&memsetNode, graph,
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nullptr, INT_MAX, &memsetParams);
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REQUIRE(hipErrorInvalidValue == ret);
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}
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SECTION("Pass pDependencies as nullptr, but numDependencies is non-zero") {
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ret = hipGraphAddMemsetNode(&memsetNode, graph, nullptr, 9, &memsetParams);
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REQUIRE(hipErrorInvalidValue == ret);
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}
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SECTION("Pass pMemsetParams as nullptr") {
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ret = hipGraphAddMemsetNode(&memsetNode, graph, nullptr, 0, nullptr);
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REQUIRE(hipErrorInvalidValue == ret);
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}
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SECTION("Pass pMemsetParams as un-initialize object") {
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hipMemsetParams memsetParams1;
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ret = hipGraphAddMemsetNode(&memsetNode, graph, nullptr, 0,
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&memsetParams1);
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REQUIRE(hipErrorInvalidValue == ret);
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}
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SECTION("Pass hipMemsetParams::dst as nullptr") {
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memsetParams.dst = nullptr;
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ret = hipGraphAddMemsetNode(&memsetNode, graph, nullptr, 0, &memsetParams);
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REQUIRE(hipErrorInvalidValue == ret);
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}
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SECTION("Pass hipMemsetParams::element size other than 1, 2, or 4") {
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memsetParams.dst = reinterpret_cast<void*>(devData);
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memsetParams.elementSize = 9;
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ret = hipGraphAddMemsetNode(&memsetNode, graph, nullptr, 0, &memsetParams);
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REQUIRE(hipErrorInvalidValue == ret);
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}
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SECTION("Pass hipMemsetParams::height as zero") {
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memsetParams.elementSize = sizeof(char);
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memsetParams.height = 0;
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ret = hipGraphAddMemsetNode(&memsetNode, graph, nullptr, 0, &memsetParams);
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REQUIRE(hipErrorInvalidValue == ret);
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}
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HIP_CHECK(hipFree(devData));
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HIP_CHECK(hipGraphDestroy(graph));
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}
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/*
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* Allocate a 2D array using hipMallocPitch. Initialize the allocated memory
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* using hipGraphAddMemsetNode. Copy the values in device memory to host using
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* hipGraphAddMemcpyNode. Verify the results.
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*/
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TEST_CASE("Unit_hipGraphAddMemsetNode_hipMallocPitch_2D") {
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size_t width = SIZE * sizeof(char), numW{SIZE},
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numH{SIZE}, pitch_A;
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char *A_d;
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hipGraph_t graph;
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std::vector<hipGraphNode_t> nodeDependencies;
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// Host memory.
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char* A_h = new char[numW * numH];
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for (size_t i = 0; i < numW; i++) {
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for (size_t j = 0; j < numH; j++) {
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*(A_h + i * numH + j) = ' ';
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}
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}
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// 2D Memory allocation hipMallocPitch
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HIP_CHECK(hipMallocPitch(reinterpret_cast<void**>(&A_d), &pitch_A, width,
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numH));
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// Create Graph
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HIP_CHECK(hipGraphCreate(&graph, 0));
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hipGraphNode_t memsetNode, memcpyNode;
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// Add MemSet Node
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hipMemsetParams memsetParams{};
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memset(&memsetParams, 0, sizeof(memsetParams));
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memsetParams.dst = reinterpret_cast<void *>(A_d);
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memsetParams.value = memSetVal;
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memsetParams.pitch = pitch_A;
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memsetParams.elementSize = sizeof(char);
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memsetParams.width = numW;
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memsetParams.height = numH;
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HIP_CHECK(hipGraphAddMemsetNode(&memsetNode, graph, nullptr, 0,
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&memsetParams));
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nodeDependencies.push_back(memsetNode);
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// Add MemCpy Node
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hipMemcpy3DParms myparms{};
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myparms.srcPos = make_hipPos(0, 0, 0);
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myparms.dstPos = make_hipPos(0, 0, 0);
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myparms.srcPtr = make_hipPitchedPtr(A_d, pitch_A, numW, numH);
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myparms.dstPtr = make_hipPitchedPtr(A_h, width, numW, numH);
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myparms.extent = make_hipExtent(width, numH, 1);
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myparms.kind = hipMemcpyDeviceToHost;
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HIP_CHECK(hipGraphAddMemcpyNode(&memcpyNode, graph, nodeDependencies.data(),
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nodeDependencies.size(), &myparms));
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nodeDependencies.clear();
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// Create executable graph
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hipStream_t streamForGraph;
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hipGraphExec_t graphExec;
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HIP_CHECK(hipStreamCreate(&streamForGraph));
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HIP_CHECK(hipGraphInstantiate(&graphExec, graph, nullptr,
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nullptr, 0));
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HIP_CHECK(hipGraphLaunch(graphExec, streamForGraph));
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HIP_CHECK(hipStreamSynchronize(streamForGraph));
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// Verfication
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for (size_t i = 0; i < numW; i++) {
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for (size_t j = 0; j < numH; j++) {
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REQUIRE(*(A_h + i*numH + j) == memSetVal);
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}
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}
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HIP_CHECK(hipGraphExecDestroy(graphExec));
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HIP_CHECK(hipGraphDestroy(graph));
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HIP_CHECK(hipStreamDestroy(streamForGraph));
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delete[] A_h;
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HIP_CHECK(hipFree(A_d));
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}
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/*
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* Allocate a 1D array using hipMallocPitch. Initialize the allocated memory using
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* hipGraphAddMemsetNode. Copy the values in device memory to host using
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* hipGraphAddMemcpyNode. Verify the results.
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*/
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TEST_CASE("Unit_hipGraphAddMemsetNode_hipMallocPitch_1D") {
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size_t width = SIZE * sizeof(char), numW{SIZE}, pitch_A;
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char *A_d;
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// Initialize the host memory
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std::vector<char> A_h(numW, ' ');
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hipGraph_t graph;
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std::vector<hipGraphNode_t> nodeDependencies;
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// 1D Memory allocation hipMallocPitch
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HIP_CHECK(hipMallocPitch(reinterpret_cast<void**>(&A_d), &pitch_A, width,
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1));
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// Create Graph
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HIP_CHECK(hipGraphCreate(&graph, 0));
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hipGraphNode_t memsetNode, memcpyNode;
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// Add MemSet Node
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hipMemsetParams memsetParams{};
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memset(&memsetParams, 0, sizeof(memsetParams));
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memsetParams.dst = reinterpret_cast<void *>(A_d);
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memsetParams.value = memSetVal;
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memsetParams.pitch = pitch_A;
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memsetParams.elementSize = sizeof(char);
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memsetParams.width = numW;
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memsetParams.height = 1;
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HIP_CHECK(hipGraphAddMemsetNode(&memsetNode, graph, nullptr, 0,
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&memsetParams));
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nodeDependencies.push_back(memsetNode);
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// Add MemCpy Node
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hipMemcpy3DParms myparms{};
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myparms.srcPos = make_hipPos(0, 0, 0);
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myparms.dstPos = make_hipPos(0, 0, 0);
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myparms.srcPtr = make_hipPitchedPtr(A_d, pitch_A, numW, 1);
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myparms.dstPtr = make_hipPitchedPtr(A_h.data(), width, numW, 1);
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myparms.extent = make_hipExtent(width, 1, 1);
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myparms.kind = hipMemcpyDeviceToHost;
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HIP_CHECK(hipGraphAddMemcpyNode(&memcpyNode, graph, nodeDependencies.data(),
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nodeDependencies.size(), &myparms));
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nodeDependencies.clear();
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// Create executable graph
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hipStream_t streamForGraph;
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hipGraphExec_t graphExec;
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HIP_CHECK(hipStreamCreate(&streamForGraph));
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HIP_CHECK(hipGraphInstantiate(&graphExec, graph, nullptr,
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nullptr, 0));
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HIP_CHECK(hipGraphLaunch(graphExec, streamForGraph));
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HIP_CHECK(hipStreamSynchronize(streamForGraph));
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// Verfication
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for (size_t i = 0; i < numW; i++) {
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REQUIRE(A_h[i] == memSetVal);
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}
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HIP_CHECK(hipGraphExecDestroy(graphExec));
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HIP_CHECK(hipGraphDestroy(graph));
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HIP_CHECK(hipStreamDestroy(streamForGraph));
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HIP_CHECK(hipFree(A_d));
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}
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/*
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* Allocate a 2D array using hipMalloc3D. Initialize the allocated memory using
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* hipGraphAddMemsetNode. Copy the values in device memory to host using
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* hipGraphAddMemcpyNode. Verify the results.
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*/
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TEST_CASE("Unit_hipGraphAddMemsetNode_hipMalloc3D_2D") {
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size_t width = SIZE * sizeof(char);
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size_t numW = SIZE, numH = SIZE;
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// Host Memory
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char* A_h = new char[numW * numH];
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for (size_t i = 0; i < numW; i++) {
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for (size_t j = 0; j < numH; j++) {
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*(A_h + i * numH + j) = ' ';
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}
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}
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hipGraph_t graph;
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std::vector<hipGraphNode_t> nodeDependencies;
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hipPitchedPtr A_d;
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hipExtent extent3D = make_hipExtent(width, numH, 1);
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// Allocate 3D memory.
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HIPCHECK(hipMalloc3D(&A_d, extent3D));
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// Create Graph
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HIP_CHECK(hipGraphCreate(&graph, 0));
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hipGraphNode_t memsetNode, memcpyNode;
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// Add MemSet Node
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hipMemsetParams memsetParams{};
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memset(&memsetParams, 0, sizeof(memsetParams));
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memsetParams.dst = A_d.ptr;
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memsetParams.value = memSetVal;
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memsetParams.pitch = A_d.pitch;
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memsetParams.elementSize = sizeof(char);
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memsetParams.width = numW;
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memsetParams.height = numH;
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HIP_CHECK(hipGraphAddMemsetNode(&memsetNode, graph, nullptr, 0,
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&memsetParams));
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nodeDependencies.push_back(memsetNode);
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// MemCpy params
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hipMemcpy3DParms myparms{};
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myparms.srcPos = make_hipPos(0, 0, 0);
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myparms.dstPos = make_hipPos(0, 0, 0);
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myparms.srcPtr = A_d;
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myparms.dstPtr = make_hipPitchedPtr(A_h, width, numW, numH);
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myparms.extent = make_hipExtent(width, numH, 1);
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myparms.kind = hipMemcpyDeviceToHost;
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// Add MemCpy Node
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HIP_CHECK(hipGraphAddMemcpyNode(&memcpyNode, graph, nodeDependencies.data(),
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nodeDependencies.size(), &myparms));
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nodeDependencies.clear();
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// Create executable graph
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hipStream_t streamForGraph;
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hipGraphExec_t graphExec;
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HIP_CHECK(hipStreamCreate(&streamForGraph));
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HIP_CHECK(hipGraphInstantiate(&graphExec, graph, nullptr,
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nullptr, 0));
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HIP_CHECK(hipGraphLaunch(graphExec, streamForGraph));
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HIP_CHECK(hipStreamSynchronize(streamForGraph));
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// Verfication
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for (size_t i = 0; i < numW; i++) {
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for (size_t j = 0; j < numH; j++) {
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REQUIRE(*(A_h + i*numH + j) == memSetVal);
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}
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}
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HIP_CHECK(hipGraphExecDestroy(graphExec));
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HIP_CHECK(hipGraphDestroy(graph));
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HIP_CHECK(hipStreamDestroy(streamForGraph));
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delete[] A_h;
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HIP_CHECK(hipFree(A_d.ptr));
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}
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/*
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* Allocate a 1D array using hipMalloc3D. Initialize the allocated
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* memory using hipGraphAddMemsetNode. Copy the values in device
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* memory to host using hipGraphAddMemcpyNode. Verify the results.
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*/
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TEST_CASE("Unit_hipGraphAddMemsetNode_hipMalloc3D_1D") {
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size_t width = SIZE * sizeof(char);
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size_t numW = SIZE;
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// Initialize the host memory
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std::vector<char> A_h(numW, ' ');
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hipGraph_t graph;
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std::vector<hipGraphNode_t> nodeDependencies;
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hipPitchedPtr A_d;
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hipExtent extent1D = make_hipExtent(width, 1, 1);
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// Allocate 3D memory.
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HIPCHECK(hipMalloc3D(&A_d, extent1D));
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// Create Graph
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HIP_CHECK(hipGraphCreate(&graph, 0));
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hipGraphNode_t memsetNode, memcpyNode;
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// Add MemSet Node
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hipMemsetParams memsetParams{};
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memset(&memsetParams, 0, sizeof(memsetParams));
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memsetParams.dst = A_d.ptr;
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memsetParams.value = memSetVal;
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memsetParams.pitch = A_d.pitch;
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memsetParams.elementSize = sizeof(char);
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memsetParams.width = numW;
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memsetParams.height = 1;
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HIP_CHECK(hipGraphAddMemsetNode(&memsetNode, graph, nullptr, 0,
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&memsetParams));
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nodeDependencies.push_back(memsetNode);
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// MemCpy params
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hipMemcpy3DParms myparms{};
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myparms.srcPos = make_hipPos(0, 0, 0);
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myparms.dstPos = make_hipPos(0, 0, 0);
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myparms.srcPtr = A_d;
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myparms.dstPtr = make_hipPitchedPtr(A_h.data(), width, numW, 1);
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myparms.extent = make_hipExtent(width, 1, 1);
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myparms.kind = hipMemcpyDeviceToHost;
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// Add MemCpy Node
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HIP_CHECK(hipGraphAddMemcpyNode(&memcpyNode, graph, nodeDependencies.data(),
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nodeDependencies.size(), &myparms));
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nodeDependencies.clear();
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// Create executable graph
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hipStream_t streamForGraph;
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hipGraphExec_t graphExec;
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HIP_CHECK(hipStreamCreate(&streamForGraph));
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HIP_CHECK(hipGraphInstantiate(&graphExec, graph, nullptr,
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nullptr, 0));
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HIP_CHECK(hipGraphLaunch(graphExec, streamForGraph));
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HIP_CHECK(hipStreamSynchronize(streamForGraph));
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// Verfication
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for (size_t i = 0; i < numW; i++) {
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REQUIRE(A_h[i] == memSetVal);
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}
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HIP_CHECK(hipGraphExecDestroy(graphExec));
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HIP_CHECK(hipGraphDestroy(graph));
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HIP_CHECK(hipStreamDestroy(streamForGraph))
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HIP_CHECK(hipFree(A_d.ptr));
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}
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/*
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* Allocate a 1D array using hipMalloc. Initialize the allocated memory using
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* hipGraphAddMemsetNode. Copy the values in device memory to host using
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* hipGraphAddMemcpyNode. Verify the results.
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*/
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TEST_CASE("Unit_hipGraphAddMemsetNode_hipMalloc_1D") {
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char *A_d;
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size_t NumW = SIZE;
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size_t Nbytes1D = SIZE * sizeof(char);
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// Initialize the host memory
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std::vector<char> A_h(NumW, ' ');
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// Allocate memory to Device pointer
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HIP_CHECK(hipMalloc(reinterpret_cast<void**>(&A_d), Nbytes1D));
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// Create the graph
|
|
hipGraph_t graph;
|
|
std::vector<hipGraphNode_t> nodeDependencies;
|
|
hipGraphNode_t memsetNode, memcpyNode;
|
|
HIP_CHECK(hipGraphCreate(&graph, 0));
|
|
|
|
// Add Memset node
|
|
hipMemsetParams memsetParams{};
|
|
memset(&memsetParams, 0, sizeof(memsetParams));
|
|
memsetParams.dst = reinterpret_cast<void *>(A_d);
|
|
memsetParams.value = memSetVal;
|
|
memsetParams.pitch = Nbytes1D;
|
|
memsetParams.elementSize = sizeof(char);
|
|
memsetParams.width = NumW;
|
|
memsetParams.height = 1;
|
|
HIP_CHECK(hipGraphAddMemsetNode(&memsetNode, graph, nullptr, 0,
|
|
&memsetParams));
|
|
nodeDependencies.push_back(memsetNode);
|
|
// Add MemCpy Node
|
|
hipPitchedPtr devPitchedPtr{A_d, Nbytes1D, NumW, 0};
|
|
hipPitchedPtr hostPitchedPtr{A_h.data(), Nbytes1D, NumW, 0};
|
|
hipMemcpy3DParms myparms{};
|
|
myparms.srcPos = make_hipPos(0, 0, 0);
|
|
myparms.dstPos = make_hipPos(0, 0, 0);
|
|
myparms.srcPtr = devPitchedPtr;
|
|
myparms.dstPtr = hostPitchedPtr;
|
|
myparms.extent = make_hipExtent(Nbytes1D, 1, 1);
|
|
myparms.kind = hipMemcpyDeviceToHost;
|
|
HIP_CHECK(hipGraphAddMemcpyNode(&memcpyNode, graph, nodeDependencies.data(),
|
|
nodeDependencies.size(), &myparms));
|
|
nodeDependencies.clear();
|
|
// Create executable graph
|
|
hipStream_t streamForGraph;
|
|
hipGraphExec_t graphExec;
|
|
HIP_CHECK(hipStreamCreate(&streamForGraph));
|
|
HIP_CHECK(hipGraphInstantiate(&graphExec, graph, nullptr,
|
|
nullptr, 0));
|
|
HIP_CHECK(hipGraphLaunch(graphExec, streamForGraph));
|
|
HIP_CHECK(hipStreamSynchronize(streamForGraph));
|
|
|
|
// Verfication
|
|
for (size_t i = 0; i < NumW; i++) {
|
|
REQUIRE(A_h[i] == memSetVal);
|
|
}
|
|
HIP_CHECK(hipGraphExecDestroy(graphExec));
|
|
HIP_CHECK(hipGraphDestroy(graph));
|
|
HIP_CHECK(hipStreamDestroy(streamForGraph));
|
|
HIP_CHECK(hipFree(A_d));
|
|
}
|
|
|
|
TEST_CASE("Unit_hipGraphAddMemsetNode_hipMallocManaged") {
|
|
int managed = 0;
|
|
HIP_CHECK(hipDeviceGetAttribute(&managed,
|
|
hipDeviceAttributeManagedMemory, 0));
|
|
INFO("hipDeviceAttributeManagedMemory: " << managed);
|
|
if (managed != 1) {
|
|
WARN(
|
|
"GPU 0 doesn't support hipDeviceAttributeManagedMemory attribute"
|
|
"so defaulting to system memory.");
|
|
}
|
|
size_t Nbytes1D = SIZE * sizeof(char);
|
|
char *A_d;
|
|
// Initialize the host memory
|
|
std::vector<char> A_h(SIZE, ' ');
|
|
// Device Memory
|
|
HIP_CHECK(hipMallocManaged(&A_d, SIZE * sizeof(char)));
|
|
// Create the graph
|
|
hipGraph_t graph;
|
|
std::vector<hipGraphNode_t> nodeDependencies;
|
|
hipGraphNode_t memsetNode, memcpyNode;
|
|
HIP_CHECK(hipGraphCreate(&graph, 0));
|
|
|
|
// Add Memset node
|
|
hipMemsetParams memsetParams{};
|
|
memset(&memsetParams, 0, sizeof(memsetParams));
|
|
memsetParams.dst = reinterpret_cast<void *>(A_d);
|
|
memsetParams.value = memSetVal;
|
|
memsetParams.pitch = Nbytes1D;
|
|
memsetParams.elementSize = sizeof(char);
|
|
memsetParams.width = SIZE;
|
|
memsetParams.height = 1;
|
|
HIP_CHECK(hipGraphAddMemsetNode(&memsetNode, graph, nullptr, 0,
|
|
&memsetParams));
|
|
nodeDependencies.push_back(memsetNode);
|
|
|
|
// Add MemCpy Node
|
|
hipPitchedPtr devPitchedPtr{A_d, Nbytes1D, SIZE, 1};
|
|
hipPitchedPtr hostPitchedPtr{A_h.data(), Nbytes1D, SIZE, 1};
|
|
|
|
hipMemcpy3DParms myparms{};
|
|
myparms.srcPos = make_hipPos(0, 0, 0);
|
|
myparms.dstPos = make_hipPos(0, 0, 0);
|
|
myparms.srcPtr = devPitchedPtr;
|
|
myparms.dstPtr = hostPitchedPtr;
|
|
myparms.extent = make_hipExtent(Nbytes1D, 1, 1);
|
|
myparms.kind = hipMemcpyDeviceToHost;
|
|
HIP_CHECK(hipGraphAddMemcpyNode(&memcpyNode, graph, nodeDependencies.data(),
|
|
nodeDependencies.size(), &myparms));
|
|
nodeDependencies.clear();
|
|
|
|
// Create executable graph
|
|
hipStream_t streamForGraph;
|
|
hipGraphExec_t graphExec;
|
|
HIP_CHECK(hipStreamCreate(&streamForGraph));
|
|
HIP_CHECK(hipGraphInstantiate(&graphExec, graph, nullptr,
|
|
nullptr, 0));
|
|
HIP_CHECK(hipGraphLaunch(graphExec, streamForGraph));
|
|
HIP_CHECK(hipStreamSynchronize(streamForGraph));
|
|
|
|
// Verfication
|
|
for (size_t i = 0; i < SIZE; i++) {
|
|
REQUIRE(A_h[i] == memSetVal);
|
|
}
|
|
|
|
HIP_CHECK(hipGraphExecDestroy(graphExec));
|
|
HIP_CHECK(hipGraphDestroy(graph));
|
|
HIP_CHECK(hipStreamDestroy(streamForGraph));
|
|
HIP_CHECK(hipFree(A_d));
|
|
}
|