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LIVE / thrust /testing /functional_bitwise.cu

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	#include <unittest/unittest.h>
	#include <thrust/functional.h>
	#include <thrust/transform.h>

	#include <functional>
	#include <algorithm>

	const size_t NUM_SAMPLES = 10000;

	// STL doesn't necessarily have these available
	namespace ref
	{

	template<typename T>
	struct bit_and
	{
	T operator()(const T &lhs, const T &rhs) const
	{
	return lhs & rhs;
	}
	};

	template<typename T>
	struct bit_or
	{
	T operator()(const T &lhs, const T &rhs) const
	{
	return lhs \| rhs;
	}
	};

	template<typename T>
	struct bit_xor
	{
	T operator()(const T &lhs, const T &rhs) const
	{
	return lhs ^ rhs;
	}
	};

	}

	template <class InputVector, class OutputVector, class Operator, class ReferenceOperator>
	void TestBinaryFunctional(void)
	{
	typedef typename InputVector::value_type InputType;
	typedef typename OutputVector::value_type OutputType;

	thrust::host_vector<InputType> std_input1 = unittest::random_samples<InputType>(NUM_SAMPLES);
	thrust::host_vector<InputType> std_input2 = unittest::random_samples<InputType>(NUM_SAMPLES);
	thrust::host_vector<OutputType> std_output(NUM_SAMPLES);

	// Replace zeros to avoid divide by zero exceptions
	std::replace(std_input2.begin(), std_input2.end(), (InputType) 0, (InputType) 1);

	InputVector input1 = std_input1;
	InputVector input2 = std_input2;
	OutputVector output(NUM_SAMPLES);

	thrust::transform( input1.begin(), input1.end(), input2.begin(), output.begin(), Operator());
	thrust::transform(std_input1.begin(), std_input1.end(), std_input2.begin(), std_output.begin(), ReferenceOperator());

	// Note: FP division is not bit-equal, even when nvcc is invoked with --prec-div
	ASSERT_ALMOST_EQUAL(output, std_output);
	}



	// XXX add bool to list
	// Instantiate a macro for all integer-like data types
	#define INSTANTIATE_INTEGER_TYPES(Macro, vector_type, operator_name) \
	Macro(vector_type, operator_name, unittest::int8_t ) \
	Macro(vector_type, operator_name, unittest::uint8_t ) \
	Macro(vector_type, operator_name, unittest::int16_t ) \
	Macro(vector_type, operator_name, unittest::uint16_t) \
	Macro(vector_type, operator_name, unittest::int32_t ) \
	Macro(vector_type, operator_name, unittest::uint32_t) \
	Macro(vector_type, operator_name, unittest::int64_t ) \
	Macro(vector_type, operator_name, unittest::uint64_t)

	// Instantiate a macro for all integer and floating point data types
	#define INSTANTIATE_ALL_TYPES(Macro, vector_type, operator_name) \
	INSTANTIATE_INTEGER_TYPES(Macro, vector_type, operator_name) \
	Macro(vector_type, operator_name, float)

	// bitwise_op(T,T) -> T
	#define INSTANTIATE_BINARY_BITWISE_FUNCTIONAL_TEST(vector_type, operator_name, data_type) \
	TestBinaryFunctional< thrust::vector_type<data_type>, \
	thrust::vector_type<data_type>, \
	thrust::operator_name<data_type>, \
	ref::operator_name<data_type> >();

	// op(T,T) -> T (for bitwise op and integer T only)
	#define DECLARE_BINARY_BITWISE_FUNCTIONAL_UNITTEST(operator_name, OperatorName) \
	void Test##OperatorName##FunctionalHost(void) \
	{ \
	INSTANTIATE_INTEGER_TYPES( INSTANTIATE_BINARY_BITWISE_FUNCTIONAL_TEST, host_vector, operator_name); \
	} \
	DECLARE_UNITTEST(Test##OperatorName##FunctionalHost); \
	void Test##OperatorName##FunctionalDevice(void) \
	{ \
	INSTANTIATE_INTEGER_TYPES( INSTANTIATE_BINARY_BITWISE_FUNCTIONAL_TEST, device_vector, operator_name); \
	} \
	DECLARE_UNITTEST(Test##OperatorName##FunctionalDevice);


	// Create the unit tests
	DECLARE_BINARY_BITWISE_FUNCTIONAL_UNITTEST(bit_and, BitAnd );
	DECLARE_BINARY_BITWISE_FUNCTIONAL_UNITTEST(bit_or, BitOr );
	DECLARE_BINARY_BITWISE_FUNCTIONAL_UNITTEST(bit_xor, BitXor );