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82f0ce2726
This provide several advantages: - more flexibility in designing unit tests - unit tests can be glued to speed up compilation - unit tests are compiled with same predefined macros, which is a requirement for zapcc
145 lines
5.6 KiB
C++
145 lines
5.6 KiB
C++
// This file is part of Eigen, a lightweight C++ template library
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// for linear algebra.
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//
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// Copyright (C) 2016
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// Mehdi Goli Codeplay Software Ltd.
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// Ralph Potter Codeplay Software Ltd.
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// Luke Iwanski Codeplay Software Ltd.
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// Contact: <eigen@codeplay.com>
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//
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// This Source Code Form is subject to the terms of the Mozilla
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// Public License v. 2.0. If a copy of the MPL was not distributed
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// with this file, You can obtain one at http://mozilla.org/MPL/2.0/.
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#define EIGEN_TEST_NO_LONGDOUBLE
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#define EIGEN_TEST_NO_COMPLEX
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#define EIGEN_DEFAULT_DENSE_INDEX_TYPE int64_t
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#define EIGEN_USE_SYCL
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#include "main.h"
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#include <unsupported/Eigen/CXX11/Tensor>
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using Eigen::array;
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using Eigen::SyclDevice;
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using Eigen::Tensor;
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using Eigen::TensorMap;
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template <typename DataType, int DataLayout, typename IndexType>
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static void test_broadcast_sycl_fixed(const Eigen::SyclDevice &sycl_device){
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// BROADCAST test:
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IndexType inDim1=2;
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IndexType inDim2=3;
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IndexType inDim3=5;
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IndexType inDim4=7;
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IndexType bDim1=2;
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IndexType bDim2=3;
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IndexType bDim3=1;
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IndexType bDim4=4;
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array<IndexType, 4> in_range = {{inDim1, inDim2, inDim3, inDim4}};
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array<IndexType, 4> broadcasts = {{bDim1, bDim2, bDim3, bDim4}};
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array<IndexType, 4> out_range; // = in_range * broadcasts
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for (size_t i = 0; i < out_range.size(); ++i)
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out_range[i] = in_range[i] * broadcasts[i];
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Tensor<DataType, 4, DataLayout, IndexType> input(in_range);
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Tensor<DataType, 4, DataLayout, IndexType> out(out_range);
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for (size_t i = 0; i < in_range.size(); ++i)
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VERIFY_IS_EQUAL(out.dimension(i), out_range[i]);
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for (IndexType i = 0; i < input.size(); ++i)
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input(i) = static_cast<DataType>(i);
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DataType * gpu_in_data = static_cast<DataType*>(sycl_device.allocate(input.dimensions().TotalSize()*sizeof(DataType)));
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DataType * gpu_out_data = static_cast<DataType*>(sycl_device.allocate(out.dimensions().TotalSize()*sizeof(DataType)));
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TensorMap<TensorFixedSize<DataType, Sizes<2, 3, 5, 7>, DataLayout, IndexType>> gpu_in(gpu_in_data, in_range);
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TensorMap<Tensor<DataType, 4, DataLayout, IndexType>> gpu_out(gpu_out_data, out_range);
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sycl_device.memcpyHostToDevice(gpu_in_data, input.data(),(input.dimensions().TotalSize())*sizeof(DataType));
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gpu_out.device(sycl_device) = gpu_in.broadcast(broadcasts);
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sycl_device.memcpyDeviceToHost(out.data(), gpu_out_data,(out.dimensions().TotalSize())*sizeof(DataType));
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for (IndexType i = 0; i < inDim1*bDim1; ++i) {
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for (IndexType j = 0; j < inDim2*bDim2; ++j) {
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for (IndexType k = 0; k < inDim3*bDim3; ++k) {
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for (IndexType l = 0; l < inDim4*bDim4; ++l) {
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VERIFY_IS_APPROX(input(i%2,j%3,k%5,l%7), out(i,j,k,l));
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}
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}
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}
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}
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printf("Broadcast Test with fixed size Passed\n");
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sycl_device.deallocate(gpu_in_data);
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sycl_device.deallocate(gpu_out_data);
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}
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template <typename DataType, int DataLayout, typename IndexType>
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static void test_broadcast_sycl(const Eigen::SyclDevice &sycl_device){
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// BROADCAST test:
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IndexType inDim1=2;
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IndexType inDim2=3;
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IndexType inDim3=5;
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IndexType inDim4=7;
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IndexType bDim1=2;
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IndexType bDim2=3;
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IndexType bDim3=1;
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IndexType bDim4=4;
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array<IndexType, 4> in_range = {{inDim1, inDim2, inDim3, inDim4}};
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array<IndexType, 4> broadcasts = {{bDim1, bDim2, bDim3, bDim4}};
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array<IndexType, 4> out_range; // = in_range * broadcasts
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for (size_t i = 0; i < out_range.size(); ++i)
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out_range[i] = in_range[i] * broadcasts[i];
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Tensor<DataType, 4, DataLayout, IndexType> input(in_range);
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Tensor<DataType, 4, DataLayout, IndexType> out(out_range);
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for (size_t i = 0; i < in_range.size(); ++i)
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VERIFY_IS_EQUAL(out.dimension(i), out_range[i]);
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for (IndexType i = 0; i < input.size(); ++i)
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input(i) = static_cast<DataType>(i);
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DataType * gpu_in_data = static_cast<DataType*>(sycl_device.allocate(input.dimensions().TotalSize()*sizeof(DataType)));
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DataType * gpu_out_data = static_cast<DataType*>(sycl_device.allocate(out.dimensions().TotalSize()*sizeof(DataType)));
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TensorMap<Tensor<DataType, 4, DataLayout, IndexType>> gpu_in(gpu_in_data, in_range);
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TensorMap<Tensor<DataType, 4, DataLayout, IndexType>> gpu_out(gpu_out_data, out_range);
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sycl_device.memcpyHostToDevice(gpu_in_data, input.data(),(input.dimensions().TotalSize())*sizeof(DataType));
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gpu_out.device(sycl_device) = gpu_in.broadcast(broadcasts);
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sycl_device.memcpyDeviceToHost(out.data(), gpu_out_data,(out.dimensions().TotalSize())*sizeof(DataType));
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for (IndexType i = 0; i < inDim1*bDim1; ++i) {
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for (IndexType j = 0; j < inDim2*bDim2; ++j) {
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for (IndexType k = 0; k < inDim3*bDim3; ++k) {
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for (IndexType l = 0; l < inDim4*bDim4; ++l) {
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VERIFY_IS_APPROX(input(i%inDim1,j%inDim2,k%inDim3,l%inDim4), out(i,j,k,l));
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}
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}
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}
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}
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printf("Broadcast Test Passed\n");
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sycl_device.deallocate(gpu_in_data);
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sycl_device.deallocate(gpu_out_data);
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}
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template<typename DataType> void sycl_broadcast_test_per_device(const cl::sycl::device& d){
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std::cout << "Running on " << d.template get_info<cl::sycl::info::device::name>() << std::endl;
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QueueInterface queueInterface(d);
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auto sycl_device = Eigen::SyclDevice(&queueInterface);
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test_broadcast_sycl<DataType, RowMajor, int64_t>(sycl_device);
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test_broadcast_sycl<DataType, ColMajor, int64_t>(sycl_device);
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test_broadcast_sycl_fixed<DataType, RowMajor, int64_t>(sycl_device);
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test_broadcast_sycl_fixed<DataType, ColMajor, int64_t>(sycl_device);
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}
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EIGEN_DECLARE_TEST(cxx11_tensor_broadcast_sycl) {
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for (const auto& device :Eigen::get_sycl_supported_devices()) {
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CALL_SUBTEST(sycl_broadcast_test_per_device<float>(device));
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}
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}
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