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Textured_Word_Illustration / diffvg /thrust /testing /scatter.cu

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	#include <unittest/unittest.h>
	#include <thrust/scatter.h>
	#include <thrust/iterator/counting_iterator.h>
	#include <thrust/iterator/discard_iterator.h>
	#include <thrust/iterator/retag.h>
	#include <thrust/sequence.h>
	#include <thrust/fill.h>
	#include <algorithm>

	template <class Vector>
	void TestScatterSimple(void)
	{
	Vector map(5); // scatter indices
	Vector src(5); // source vector
	Vector dst(8); // destination vector

	map[0] = 6; map[1] = 3; map[2] = 1; map[3] = 7; map[4] = 2;
	src[0] = 0; src[1] = 1; src[2] = 2; src[3] = 3; src[4] = 4;
	dst[0] = 0; dst[1] = 0; dst[2] = 0; dst[3] = 0; dst[4] = 0; dst[5] = 0; dst[6] = 0; dst[7] = 0;

	thrust::scatter(src.begin(), src.end(), map.begin(), dst.begin());

	ASSERT_EQUAL(dst[0], 0);
	ASSERT_EQUAL(dst[1], 2);
	ASSERT_EQUAL(dst[2], 4);
	ASSERT_EQUAL(dst[3], 1);
	ASSERT_EQUAL(dst[4], 0);
	ASSERT_EQUAL(dst[5], 0);
	ASSERT_EQUAL(dst[6], 0);
	ASSERT_EQUAL(dst[7], 3);
	}
	DECLARE_INTEGRAL_VECTOR_UNITTEST(TestScatterSimple);


	template<typename InputIterator1,
	typename InputIterator2,
	typename RandomAccessIterator>
	void scatter(my_system &system,
	InputIterator1,
	InputIterator1,
	InputIterator2,
	RandomAccessIterator)
	{
	system.validate_dispatch();
	}


	void TestScatterDispatchExplicit()
	{
	thrust::device_vector<int> vec(1);

	my_system sys(0);
	thrust::scatter(sys,
	vec.begin(),
	vec.begin(),
	vec.begin(),
	vec.begin());

	ASSERT_EQUAL(true, sys.is_valid());
	}
	DECLARE_UNITTEST(TestScatterDispatchExplicit);


	template<typename InputIterator1,
	typename InputIterator2,
	typename RandomAccessIterator>
	void scatter(my_tag,
	InputIterator1,
	InputIterator1,
	InputIterator2,
	RandomAccessIterator output)
	{
	*output = 13;
	}

	void TestScatterDispatchImplicit()
	{
	thrust::device_vector<int> vec(1);

	thrust::scatter(thrust::retag<my_tag>(vec.begin()),
	thrust::retag<my_tag>(vec.begin()),
	thrust::retag<my_tag>(vec.begin()),
	thrust::retag<my_tag>(vec.begin()));

	ASSERT_EQUAL(13, vec.front());
	}
	DECLARE_UNITTEST(TestScatterDispatchImplicit);


	template <typename T>
	void TestScatter(const size_t n)
	{
	const size_t output_size = std::min((size_t) 10, 2 * n);

	thrust::host_vector<T> h_input(n, (T) 1);
	thrust::device_vector<T> d_input(n, (T) 1);

	thrust::host_vector<unsigned int> h_map = unittest::random_integers<unsigned int>(n);

	for(size_t i = 0; i < n; i++)
	h_map[i] = h_map[i] % output_size;

	thrust::device_vector<unsigned int> d_map = h_map;

	thrust::host_vector<T> h_output(output_size, (T) 0);
	thrust::device_vector<T> d_output(output_size, (T) 0);

	thrust::scatter(h_input.begin(), h_input.end(), h_map.begin(), h_output.begin());
	thrust::scatter(d_input.begin(), d_input.end(), d_map.begin(), d_output.begin());

	ASSERT_EQUAL(h_output, d_output);
	}
	DECLARE_VARIABLE_UNITTEST(TestScatter);


	template <typename T>
	void TestScatterToDiscardIterator(const size_t n)
	{
	const size_t output_size = std::min((size_t) 10, 2 * n);

	thrust::host_vector<T> h_input(n, (T) 1);
	thrust::device_vector<T> d_input(n, (T) 1);

	thrust::host_vector<unsigned int> h_map = unittest::random_integers<unsigned int>(n);

	for(size_t i = 0; i < n; i++)
	h_map[i] = h_map[i] % output_size;

	thrust::device_vector<unsigned int> d_map = h_map;

	thrust::scatter(h_input.begin(), h_input.end(), h_map.begin(), thrust::make_discard_iterator());
	thrust::scatter(d_input.begin(), d_input.end(), d_map.begin(), thrust::make_discard_iterator());

	// there's nothing to check -- just make sure it compiles
	}
	DECLARE_VARIABLE_UNITTEST(TestScatterToDiscardIterator);


	template <class Vector>
	void TestScatterIfSimple(void)
	{
	Vector flg(5); // predicate array
	Vector map(5); // scatter indices
	Vector src(5); // source vector
	Vector dst(8); // destination vector

	flg[0] = 0; flg[1] = 1; flg[2] = 0; flg[3] = 1; flg[4] = 0;
	map[0] = 6; map[1] = 3; map[2] = 1; map[3] = 7; map[4] = 2;
	src[0] = 0; src[1] = 1; src[2] = 2; src[3] = 3; src[4] = 4;
	dst[0] = 0; dst[1] = 0; dst[2] = 0; dst[3] = 0; dst[4] = 0; dst[5] = 0; dst[6] = 0; dst[7] = 0;

	thrust::scatter_if(src.begin(), src.end(), map.begin(), flg.begin(), dst.begin());

	ASSERT_EQUAL(dst[0], 0);
	ASSERT_EQUAL(dst[1], 0);
	ASSERT_EQUAL(dst[2], 0);
	ASSERT_EQUAL(dst[3], 1);
	ASSERT_EQUAL(dst[4], 0);
	ASSERT_EQUAL(dst[5], 0);
	ASSERT_EQUAL(dst[6], 0);
	ASSERT_EQUAL(dst[7], 3);
	}
	DECLARE_INTEGRAL_VECTOR_UNITTEST(TestScatterIfSimple);


	template<typename InputIterator1,
	typename InputIterator2,
	typename InputIterator3,
	typename RandomAccessIterator>
	void scatter_if(my_system &system,
	InputIterator1,
	InputIterator1,
	InputIterator2,
	InputIterator3,
	RandomAccessIterator)
	{
	system.validate_dispatch();
	}

	void TestScatterIfDispatchExplicit()
	{
	thrust::device_vector<int> vec(1);

	my_system sys(0);
	thrust::scatter_if(sys,
	vec.begin(),
	vec.begin(),
	vec.begin(),
	vec.begin(),
	vec.begin());

	ASSERT_EQUAL(true, sys.is_valid());
	}
	DECLARE_UNITTEST(TestScatterIfDispatchExplicit);


	template<typename InputIterator1,
	typename InputIterator2,
	typename InputIterator3,
	typename RandomAccessIterator>
	void scatter_if(my_tag,
	InputIterator1,
	InputIterator1,
	InputIterator2,
	InputIterator3,
	RandomAccessIterator output)
	{
	*output = 13;
	}

	void TestScatterIfDispatchImplicit()
	{
	thrust::device_vector<int> vec(1);

	thrust::scatter_if(thrust::retag<my_tag>(vec.begin()),
	thrust::retag<my_tag>(vec.begin()),
	thrust::retag<my_tag>(vec.begin()),
	thrust::retag<my_tag>(vec.begin()),
	thrust::retag<my_tag>(vec.begin()));

	ASSERT_EQUAL(13, vec.front());
	}
	DECLARE_UNITTEST(TestScatterIfDispatchImplicit);


	template <typename T>
	class is_even_scatter_if
	{
	public:
	__host__ __device__ bool operator()(const T i) const { return (i % 2) == 0; }
	};

	template <typename T>
	void TestScatterIf(const size_t n)
	{
	const size_t output_size = std::min((size_t) 10, 2 * n);

	thrust::host_vector<T> h_input(n, (T) 1);
	thrust::device_vector<T> d_input(n, (T) 1);

	thrust::host_vector<unsigned int> h_map = unittest::random_integers<unsigned int>(n);

	for(size_t i = 0; i < n; i++)
	h_map[i] = h_map[i] % output_size;

	thrust::device_vector<unsigned int> d_map = h_map;

	thrust::host_vector<T> h_output(output_size, (T) 0);
	thrust::device_vector<T> d_output(output_size, (T) 0);

	thrust::scatter_if(h_input.begin(), h_input.end(), h_map.begin(), h_map.begin(), h_output.begin(), is_even_scatter_if<unsigned int>());
	thrust::scatter_if(d_input.begin(), d_input.end(), d_map.begin(), d_map.begin(), d_output.begin(), is_even_scatter_if<unsigned int>());

	ASSERT_EQUAL(h_output, d_output);
	}
	DECLARE_VARIABLE_UNITTEST(TestScatterIf);


	template <typename T>
	void TestScatterIfToDiscardIterator(const size_t n)
	{
	const size_t output_size = std::min((size_t) 10, 2 * n);

	thrust::host_vector<T> h_input(n, (T) 1);
	thrust::device_vector<T> d_input(n, (T) 1);

	thrust::host_vector<unsigned int> h_map = unittest::random_integers<unsigned int>(n);

	for(size_t i = 0; i < n; i++)
	h_map[i] = h_map[i] % output_size;

	thrust::device_vector<unsigned int> d_map = h_map;

	thrust::scatter_if(h_input.begin(), h_input.end(), h_map.begin(), h_map.begin(), thrust::make_discard_iterator(), is_even_scatter_if<unsigned int>());
	thrust::scatter_if(d_input.begin(), d_input.end(), d_map.begin(), d_map.begin(), thrust::make_discard_iterator(), is_even_scatter_if<unsigned int>());
	}
	DECLARE_VARIABLE_UNITTEST(TestScatterIfToDiscardIterator);


	template <typename Vector>
	void TestScatterCountingIterator(void)
	{
	Vector source(10);
	thrust::sequence(source.begin(), source.end(), 0);

	Vector map(10);
	thrust::sequence(map.begin(), map.end(), 0);

	Vector output(10);

	// source has any_system_tag
	thrust::fill(output.begin(), output.end(), 0);
	thrust::scatter(thrust::make_counting_iterator(0), thrust::make_counting_iterator(10),
	map.begin(),
	output.begin());

	ASSERT_EQUAL(output, map);

	// map has any_system_tag
	thrust::fill(output.begin(), output.end(), 0);
	thrust::scatter(source.begin(), source.end(),
	thrust::make_counting_iterator(0),
	output.begin());

	ASSERT_EQUAL(output, map);

	// source and map have any_system_tag
	thrust::fill(output.begin(), output.end(), 0);
	thrust::scatter(thrust::make_counting_iterator(0), thrust::make_counting_iterator(10),
	thrust::make_counting_iterator(0),
	output.begin());

	ASSERT_EQUAL(output, map);
	}
	DECLARE_INTEGRAL_VECTOR_UNITTEST(TestScatterCountingIterator);


	template <typename Vector>
	void TestScatterIfCountingIterator(void)
	{
	Vector source(10);
	thrust::sequence(source.begin(), source.end(), 0);

	Vector map(10);
	thrust::sequence(map.begin(), map.end(), 0);

	Vector stencil(10, 1);

	Vector output(10);

	// source has any_system_tag
	thrust::fill(output.begin(), output.end(), 0);
	thrust::scatter_if(thrust::make_counting_iterator(0), thrust::make_counting_iterator(10),
	map.begin(),
	stencil.begin(),
	output.begin());

	ASSERT_EQUAL(output, map);

	// map has any_system_tag
	thrust::fill(output.begin(), output.end(), 0);
	thrust::scatter_if(source.begin(), source.end(),
	thrust::make_counting_iterator(0),
	stencil.begin(),
	output.begin());

	ASSERT_EQUAL(output, map);

	// source and map have any_system_tag
	thrust::fill(output.begin(), output.end(), 0);
	thrust::scatter_if(thrust::make_counting_iterator(0), thrust::make_counting_iterator(10),
	thrust::make_counting_iterator(0),
	stencil.begin(),
	output.begin());

	ASSERT_EQUAL(output, map);
	}
	DECLARE_INTEGRAL_VECTOR_UNITTEST(TestScatterIfCountingIterator);