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Xu Ma

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	#include <unittest/unittest.h>
	#include <thrust/equal.h>
	#include <thrust/functional.h>
	#include <thrust/execution_policy.h>


	template<typename ExecutionPolicy, typename Iterator1, typename Iterator2, typename Iterator3>
	__global__
	void equal_kernel(ExecutionPolicy exec, Iterator1 first1, Iterator1 last1, Iterator2 first2, Iterator3 result)
	{
	*result = thrust::equal(exec, first1, last1, first2);
	}


	template<typename ExecutionPolicy, typename Iterator1, typename Iterator2, typename BinaryPredicate, typename Iterator3>
	__global__
	void equal_kernel(ExecutionPolicy exec, Iterator1 first1, Iterator1 last1, Iterator2 first2, BinaryPredicate pred, Iterator3 result)
	{
	*result = thrust::equal(exec, first1, last1, first2, pred);
	}


	template<typename T, typename ExecutionPolicy>
	void TestEqualDevice(ExecutionPolicy exec, const size_t n)
	{
	thrust::device_vector<T> d_data1 = unittest::random_samples<T>(n);
	thrust::device_vector<T> d_data2 = unittest::random_samples<T>(n);
	thrust::device_vector<bool> d_result(1, false);

	//empty ranges
	equal_kernel<<<1,1>>>(exec, d_data1.begin(), d_data1.begin(), d_data1.begin(), d_result.begin());
	{
	cudaError_t const err = cudaDeviceSynchronize();
	ASSERT_EQUAL(cudaSuccess, err);
	}

	ASSERT_EQUAL(d_result[0], true);

	//symmetric cases
	equal_kernel<<<1,1>>>(exec, d_data1.begin(), d_data1.end(), d_data1.begin(), d_result.begin());
	{
	cudaError_t const err = cudaDeviceSynchronize();
	ASSERT_EQUAL(cudaSuccess, err);
	}

	ASSERT_EQUAL(d_result[0], true);

	if(n > 0)
	{
	d_data1[0] = 0; d_data2[0] = 1;

	//different vectors
	equal_kernel<<<1,1>>>(exec, d_data1.begin(), d_data1.end(), d_data2.begin(), d_result.begin());
	{
	cudaError_t const err = cudaDeviceSynchronize();
	ASSERT_EQUAL(cudaSuccess, err);
	}

	ASSERT_EQUAL(d_result[0], false);

	//different predicates
	equal_kernel<<<1,1>>>(exec, d_data1.begin(), d_data1.begin() + 1, d_data2.begin(), thrust::less<T>(), d_result.begin());
	{
	cudaError_t const err = cudaDeviceSynchronize();
	ASSERT_EQUAL(cudaSuccess, err);
	}

	ASSERT_EQUAL(d_result[0], true);

	equal_kernel<<<1,1>>>(exec, d_data1.begin(), d_data1.begin() + 1, d_data2.begin(), thrust::greater<T>(), d_result.begin());
	{
	cudaError_t const err = cudaDeviceSynchronize();
	ASSERT_EQUAL(cudaSuccess, err);
	}

	ASSERT_EQUAL(d_result[0], false);
	}
	}


	template<typename T>
	void TestEqualDeviceSeq(const size_t n)
	{
	TestEqualDevice<T>(thrust::seq, n);
	}
	DECLARE_VARIABLE_UNITTEST(TestEqualDeviceSeq);


	template<typename T>
	void TestEqualDeviceDevice(const size_t n)
	{
	TestEqualDevice<T>(thrust::device, n);
	}
	DECLARE_VARIABLE_UNITTEST(TestEqualDeviceDevice);


	void TestEqualCudaStreams()
	{
	thrust::device_vector<int> v1(5);
	thrust::device_vector<int> v2(5);
	v1[0] = 5; v1[1] = 2; v1[2] = 0; v1[3] = 0; v1[4] = 0;
	v2[0] = 5; v2[1] = 2; v2[2] = 0; v2[3] = 6; v2[4] = 1;

	cudaStream_t s;
	cudaStreamCreate(&s);

	ASSERT_EQUAL(thrust::equal(thrust::cuda::par.on(s), v1.begin(), v1.end(), v1.begin()), true);
	ASSERT_EQUAL(thrust::equal(thrust::cuda::par.on(s), v1.begin(), v1.end(), v2.begin()), false);
	ASSERT_EQUAL(thrust::equal(thrust::cuda::par.on(s), v2.begin(), v2.end(), v2.begin()), true);

	ASSERT_EQUAL(thrust::equal(thrust::cuda::par.on(s), v1.begin(), v1.begin() + 0, v1.begin()), true);
	ASSERT_EQUAL(thrust::equal(thrust::cuda::par.on(s), v1.begin(), v1.begin() + 1, v1.begin()), true);
	ASSERT_EQUAL(thrust::equal(thrust::cuda::par.on(s), v1.begin(), v1.begin() + 3, v2.begin()), true);
	ASSERT_EQUAL(thrust::equal(thrust::cuda::par.on(s), v1.begin(), v1.begin() + 4, v2.begin()), false);

	ASSERT_EQUAL(thrust::equal(thrust::cuda::par.on(s), v1.begin(), v1.end(), v2.begin(), thrust::less_equal<int>()), true);
	ASSERT_EQUAL(thrust::equal(thrust::cuda::par.on(s), v1.begin(), v1.end(), v2.begin(), thrust::greater<int>()), false);

	cudaStreamDestroy(s);
	}
	DECLARE_UNITTEST(TestEqualCudaStreams);