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Created: Fri, Aug 30, 07:57

TestFixture.hpp
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	// Kokkos v. 2.0
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	#ifndef KOKKOS_EXAMPLE_TESTFIXTURE_HPP
	#define KOKKOS_EXAMPLE_TESTFIXTURE_HPP

	#include <utility>
	#include <iostream>

	#include <Kokkos_Core.hpp>

	#include <BoxElemPart.hpp>
	#include <BoxElemFixture.hpp>

	namespace Kokkos {
	namespace Example {

	template< class Device >
	struct FixtureVerifyElemNodeCoord
	{
	typedef Device execution_space ;

	typedef struct { size_t success , error ; } value_type ;

	typedef Kokkos::Example::BoxElemFixture< Device , Kokkos::Example::BoxElemPart::ElemLinear > FixtureType ;

	FixtureType m_fixture ;

	KOKKOS_INLINE_FUNCTION
	void init( value_type & update ) const { update.success = update.error = 0 ; }

	KOKKOS_INLINE_FUNCTION
	void join( volatile value_type & update ,
	volatile const value_type & input ) const
	{
	update.success += input.success ;
	update.error += input.error ;
	}


	KOKKOS_INLINE_FUNCTION
	void operator()( size_t ielem , value_type & update ) const
	{
	unsigned node_coord[ FixtureType::ElemNode ][3] ;

	for ( unsigned i = 0 ; i < FixtureType::ElemNode ; ++i ) {
	const unsigned node_id = m_fixture.elem_node(ielem,i);
	node_coord[i][0] = m_fixture.node_grid(node_id,0);
	node_coord[i][1] = m_fixture.node_grid(node_id,1);
	node_coord[i][2] = m_fixture.node_grid(node_id,2);
	}

	int error = 0 ;
	for ( unsigned i = 1 ; i < FixtureType::ElemNode ; ++i ) {
	if ( node_coord[0][0] + m_fixture.elem_node_local(i,0) != node_coord[i][0] \|\|
	node_coord[0][1] + m_fixture.elem_node_local(i,1) != node_coord[i][1] \|\|
	node_coord[0][2] + m_fixture.elem_node_local(i,2) != node_coord[i][2] ) {
	error = 1 ;
	}
	}

	if ( error ) {
	++update.error ;
	}
	else {
	++update.success ;
	}
	}

	FixtureVerifyElemNodeCoord( const FixtureType & f ) : m_fixture(f) {}
	};


	template< class Device >
	void test_fixture()
	{
	typedef Kokkos::Example::BoxElemFixture< Device , Kokkos::Example::BoxElemPart::ElemLinear > FixtureType ;

	const Kokkos::Example::BoxElemPart::Decompose
	decompose = Kokkos::Example::BoxElemPart:: DecomposeElem ; // DecomposeElem \| DecomposeNode ;

	const unsigned global_size = 256 ;
	const unsigned global_nx = 400 ;
	const unsigned global_ny = 400 ;
	const unsigned global_nz = 400 ;

	for ( unsigned my_rank = 0 ; my_rank < global_size ; ++my_rank ) {

	const FixtureType fixture( decompose , global_size , my_rank , global_nx , global_ny , global_nz );

	// Verify grid coordinates of element's nodes

	typename FixtureVerifyElemNodeCoord<Device>::value_type result = { 0 , 0 };

	Kokkos::parallel_reduce( fixture.elem_node().dimension_0() , FixtureVerifyElemNodeCoord<Device>( fixture ) , result );

	if ( result.error ) {
	std::cout << "P[" << my_rank << ":" << global_size
	<< "] Fixture elem_node_coord"
	<< " success(" << result.success << ")"
	<< " error(" << result.error << ")"
	<< std::endl ;
	}

	// Check send/recv alignment


	}
	}


	} /* namespace Example */
	} /* namespace Kokkos */

	#endif /* #ifndef KOKKOS_EXAMPLE_TESTFIXTURE_HPP */

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