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| #include <unittest/unittest.h> | |
| #include <thrust/count.h> | |
| #include <thrust/execution_policy.h> | |
| template<typename ExecutionPolicy, typename Iterator, typename T, typename Iterator2> | |
| __global__ | |
| void count_kernel(ExecutionPolicy exec, Iterator first, Iterator last, T value, Iterator2 result) | |
| { | |
| *result = thrust::count(exec, first, last, value); | |
| } | |
| template<typename T, typename ExecutionPolicy> | |
| void TestCountDevice(ExecutionPolicy exec, const size_t n) | |
| { | |
| thrust::host_vector<T> h_data = unittest::random_samples<T>(n); | |
| thrust::device_vector<T> d_data = h_data; | |
| thrust::device_vector<size_t> d_result(1); | |
| size_t h_result = thrust::count(h_data.begin(), h_data.end(), T(5)); | |
| count_kernel<<<1,1>>>(exec, d_data.begin(), d_data.end(), T(5), d_result.begin()); | |
| cudaError_t const err = cudaDeviceSynchronize(); | |
| ASSERT_EQUAL(cudaSuccess, err); | |
| ASSERT_EQUAL(h_result, d_result[0]); | |
| } | |
| template<typename T> | |
| void TestCountDeviceSeq(const size_t n) | |
| { | |
| TestCountDevice<T>(thrust::seq, n); | |
| } | |
| DECLARE_VARIABLE_UNITTEST(TestCountDeviceSeq); | |
| template<typename T> | |
| void TestCountDeviceDevice(const size_t n) | |
| { | |
| TestCountDevice<T>(thrust::device, n); | |
| } | |
| DECLARE_VARIABLE_UNITTEST(TestCountDeviceDevice); | |
| template<typename ExecutionPolicy, typename Iterator, typename Predicate, typename Iterator2> | |
| __global__ | |
| void count_if_kernel(ExecutionPolicy exec, Iterator first, Iterator last, Predicate pred, Iterator2 result) | |
| { | |
| *result = thrust::count_if(exec, first, last, pred); | |
| } | |
| template<typename T> | |
| struct greater_than_five | |
| { | |
| __host__ __device__ bool operator()(const T &x) const {return x > 5;} | |
| }; | |
| template<typename T, typename ExecutionPolicy> | |
| void TestCountIfDevice(ExecutionPolicy exec, const size_t n) | |
| { | |
| thrust::host_vector<T> h_data = unittest::random_samples<T>(n); | |
| thrust::device_vector<T> d_data = h_data; | |
| thrust::device_vector<size_t> d_result(1); | |
| size_t h_result = thrust::count_if(h_data.begin(), h_data.end(), greater_than_five<T>()); | |
| count_if_kernel<<<1,1>>>(exec, d_data.begin(), d_data.end(), greater_than_five<T>(), d_result.begin()); | |
| cudaError_t const err = cudaDeviceSynchronize(); | |
| ASSERT_EQUAL(cudaSuccess, err); | |
| ASSERT_EQUAL(h_result, d_result[0]); | |
| } | |
| template<typename T> | |
| void TestCountIfDeviceSeq(const size_t n) | |
| { | |
| TestCountIfDevice<T>(thrust::seq, n); | |
| } | |
| DECLARE_VARIABLE_UNITTEST(TestCountIfDeviceSeq); | |
| template<typename T> | |
| void TestCountIfDeviceDevice(const size_t n) | |
| { | |
| TestCountIfDevice<T>(thrust::device, n); | |
| } | |
| DECLARE_VARIABLE_UNITTEST(TestCountIfDeviceDevice); | |
| void TestCountCudaStreams() | |
| { | |
| thrust::device_vector<int> data(5); | |
| data[0] = 1; data[1] = 1; data[2] = 0; data[3] = 0; data[4] = 1; | |
| cudaStream_t s; | |
| cudaStreamCreate(&s); | |
| ASSERT_EQUAL(thrust::count(thrust::cuda::par.on(s), data.begin(), data.end(), 0), 2); | |
| ASSERT_EQUAL(thrust::count(thrust::cuda::par.on(s), data.begin(), data.end(), 1), 3); | |
| ASSERT_EQUAL(thrust::count(thrust::cuda::par.on(s), data.begin(), data.end(), 2), 0); | |
| cudaStreamDestroy(s); | |
| } | |
| DECLARE_UNITTEST(TestCountCudaStreams); | |