#include #include #include #include template struct is_even { __host__ __device__ bool operator()(T x) { return (static_cast(x) & 1) == 0; } }; template struct mod_3 { __host__ __device__ unsigned int operator()(T x) { return static_cast(x) % 3; } }; template __global__ void copy_if_kernel(ExecutionPolicy exec, Iterator1 first, Iterator1 last, Iterator2 result1, Predicate pred, Iterator3 result2) { *result2 = thrust::copy_if(exec, first, last, result1, pred); } template void TestCopyIfDevice(ExecutionPolicy exec) { size_t n = 1000; thrust::host_vector h_data = unittest::random_integers(n); thrust::device_vector d_data = h_data; typename thrust::host_vector::iterator h_new_end; typename thrust::device_vector::iterator d_new_end; thrust::device_vector< typename thrust::device_vector::iterator > d_new_end_vec(1); // test with Predicate that returns a bool { thrust::host_vector h_result(n); thrust::device_vector d_result(n); h_new_end = thrust::copy_if(h_data.begin(), h_data.end(), h_result.begin(), is_even()); copy_if_kernel<<<1,1>>>(exec, d_data.begin(), d_data.end(), d_result.begin(), is_even(), d_new_end_vec.begin()); cudaError_t const err = cudaDeviceSynchronize(); ASSERT_EQUAL(cudaSuccess, err); d_new_end = d_new_end_vec[0]; h_result.resize(h_new_end - h_result.begin()); d_result.resize(d_new_end - d_result.begin()); ASSERT_EQUAL(h_result, d_result); } // test with Predicate that returns a non-bool { thrust::host_vector h_result(n); thrust::device_vector d_result(n); h_new_end = thrust::copy_if(h_data.begin(), h_data.end(), h_result.begin(), mod_3()); copy_if_kernel<<<1,1>>>(exec, d_data.begin(), d_data.end(), d_result.begin(), mod_3(), d_new_end_vec.begin()); cudaError_t const err = cudaDeviceSynchronize(); ASSERT_EQUAL(cudaSuccess, err); d_new_end = d_new_end_vec[0]; h_result.resize(h_new_end - h_result.begin()); d_result.resize(d_new_end - d_result.begin()); ASSERT_EQUAL(h_result, d_result); } } void TestCopyIfDeviceSeq() { TestCopyIfDevice(thrust::seq); } DECLARE_UNITTEST(TestCopyIfDeviceSeq); void TestCopyIfDeviceDevice() { TestCopyIfDevice(thrust::device); } DECLARE_UNITTEST(TestCopyIfDeviceDevice); void TestCopyIfCudaStreams() { typedef thrust::device_vector Vector; Vector data(5); data[0] = 1; data[1] = 2; data[2] = 1; data[3] = 3; data[4] = 2; Vector result(5); cudaStream_t s; cudaStreamCreate(&s); Vector::iterator end = thrust::copy_if(thrust::cuda::par.on(s), data.begin(), data.end(), result.begin(), is_even()); ASSERT_EQUAL(end - result.begin(), 2); ASSERT_EQUAL(result[0], 2); ASSERT_EQUAL(result[1], 2); cudaStreamDestroy(s); } DECLARE_UNITTEST(TestCopyIfCudaStreams); template __global__ void copy_if_kernel(ExecutionPolicy exec, Iterator1 first, Iterator1 last, Iterator2 stencil_first, Iterator3 result1, Predicate pred, Iterator4 result2) { *result2 = thrust::copy_if(exec, first, last, stencil_first, result1, pred); } template void TestCopyIfStencilDevice(ExecutionPolicy exec) { size_t n = 1000; thrust::host_vector h_data(n); thrust::sequence(h_data.begin(), h_data.end()); thrust::device_vector d_data(n); thrust::sequence(d_data.begin(), d_data.end()); thrust::host_vector h_stencil = unittest::random_integers(n); thrust::device_vector d_stencil = unittest::random_integers(n); thrust::host_vector h_result(n); thrust::device_vector d_result(n); typename thrust::host_vector::iterator h_new_end; typename thrust::device_vector::iterator d_new_end; thrust::device_vector< typename thrust::device_vector::iterator > d_new_end_vec(1); // test with Predicate that returns a bool { thrust::host_vector h_result(n); thrust::device_vector d_result(n); h_new_end = thrust::copy_if(h_data.begin(), h_data.end(), h_result.begin(), is_even()); copy_if_kernel<<<1,1>>>(exec, d_data.begin(), d_data.end(), d_result.begin(), is_even(), d_new_end_vec.begin()); cudaError_t const err = cudaDeviceSynchronize(); ASSERT_EQUAL(cudaSuccess, err); d_new_end = d_new_end_vec[0]; h_result.resize(h_new_end - h_result.begin()); d_result.resize(d_new_end - d_result.begin()); ASSERT_EQUAL(h_result, d_result); } // test with Predicate that returns a non-bool { thrust::host_vector h_result(n); thrust::device_vector d_result(n); h_new_end = thrust::copy_if(h_data.begin(), h_data.end(), h_result.begin(), mod_3()); copy_if_kernel<<<1,1>>>(exec, d_data.begin(), d_data.end(), d_result.begin(), mod_3(), d_new_end_vec.begin()); cudaError_t const err = cudaDeviceSynchronize(); ASSERT_EQUAL(cudaSuccess, err); d_new_end = d_new_end_vec[0]; h_result.resize(h_new_end - h_result.begin()); d_result.resize(d_new_end - d_result.begin()); ASSERT_EQUAL(h_result, d_result); } } void TestCopyIfStencilDeviceSeq() { TestCopyIfStencilDevice(thrust::seq); } DECLARE_UNITTEST(TestCopyIfStencilDeviceSeq); void TestCopyIfStencilDeviceDevice() { TestCopyIfStencilDevice(thrust::device); } DECLARE_UNITTEST(TestCopyIfStencilDeviceDevice); void TestCopyIfStencilCudaStreams() { typedef thrust::device_vector Vector; typedef Vector::value_type T; Vector data(5); data[0] = 1; data[1] = 2; data[2] = 1; data[3] = 3; data[4] = 2; Vector result(5); Vector stencil(5); stencil[0] = 0; stencil[1] = 1; stencil[2] = 0; stencil[3] = 0; stencil[4] = 1; cudaStream_t s; cudaStreamCreate(&s); Vector::iterator end = thrust::copy_if(thrust::cuda::par.on(s), data.begin(), data.end(), stencil.begin(), result.begin(), thrust::identity()); ASSERT_EQUAL(end - result.begin(), 2); ASSERT_EQUAL(result[0], 2); ASSERT_EQUAL(result[1], 2); cudaStreamDestroy(s); } DECLARE_UNITTEST(TestCopyIfStencilCudaStreams);