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Created: Mon, Nov 18, 18:26

facet_stress_synchronizer.cc
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	/**
	* @file facet_stress_synchronizer.cc
	* @author Marco Vocialta <marco.vocialta@epfl.ch>
	* @date Mon Aug 26 10:19:47 2013
	*
	* @brief Stress check on facets synchronizer
	*
	* @section LICENSE
	*
	* Copyright (©) 2010-2011 EPFL (Ecole Polytechnique Fédérale de Lausanne)
	* Laboratory (LSMS - Laboratoire de Simulation en Mécanique des Solides)
	*
	* Akantu is free software: you can redistribute it and/or modify it under the
	* terms of the GNU Lesser General Public License as published by the Free
	* Software Foundation, either version 3 of the License, or (at your option) any
	* later version.
	*
	* Akantu is distributed in the hope that it will be useful, but WITHOUT ANY
	* WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR
	* A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
	* details.
	*
	* You should have received a copy of the GNU Lesser General Public License
	* along with Akantu. If not, see <http://www.gnu.org/licenses/>.
	*
	*/

	/* -------------------------------------------------------------------------- */

	#include "facet_stress_synchronizer.hh"

	/* -------------------------------------------------------------------------- */

	__BEGIN_AKANTU__

	/* -------------------------------------------------------------------------- */
	FacetStressSynchronizer::FacetStressSynchronizer(Mesh & mesh_facets,
	SynchronizerID id,
	MemoryID memory_id) :
	DistributedSynchronizer(mesh_facets, id, memory_id) {
	AKANTU_DEBUG_IN();

	AKANTU_DEBUG_OUT();
	}

	/* -------------------------------------------------------------------------- */
	FacetStressSynchronizer * FacetStressSynchronizer::
	createFacetStressSynchronizer(FacetSynchronizer & facet_synchronizer,
	Mesh & mesh_facets,
	SynchronizerID id,
	MemoryID memory_id) {
	AKANTU_DEBUG_IN();

	FacetStressSynchronizer & fs_synchronizer =
	*(new FacetStressSynchronizer(mesh_facets, id, memory_id));

	for (UInt p = 0; p < fs_synchronizer.nb_proc; ++p) {
	fs_synchronizer.send_element[p].copy(facet_synchronizer.recv_element[p]);
	fs_synchronizer.recv_element[p].copy(facet_synchronizer.send_element[p]);
	}

	AKANTU_DEBUG_OUT();
	return &fs_synchronizer;
	}

	/* -------------------------------------------------------------------------- */
	void FacetStressSynchronizer::updateFacetStressSynchronizer(const CohesiveElementInserter & inserter,
	const ElementTypeMapArray<UInt> & rank_to_element,
	DataAccessor & data_accessor) {
	AKANTU_DEBUG_IN();

	updateElementList(send_element, inserter, rank_to_element);
	updateElementList(recv_element, inserter, rank_to_element);

	std::map<SynchronizationTag, Communication>::iterator it = communications.begin();
	std::map<SynchronizationTag, Communication>::iterator end = communications.end();

	for (; it != end; ++it) {
	SynchronizationTag tag = it->first;
	computeBufferSize(data_accessor, tag);
	}

	AKANTU_DEBUG_OUT();
	}

	/* -------------------------------------------------------------------------- */
	void FacetStressSynchronizer::updateElementList(Array<Element> * elements,
	const CohesiveElementInserter & inserter,
	const ElementTypeMapArray<UInt> & rank_to_element) {
	AKANTU_DEBUG_IN();

	for (UInt p = 0; p < nb_proc; ++p) {

	ElementType current_element_type = _not_defined;
	GhostType current_ghost_type = _casper;
	const Array<bool> * f_check = NULL;
	const Array< std::vector<Element> > * element_to_facet = NULL;

	UInt nb_element = 0;

	Array<Element>::iterator<Element> it_new = elements[p].begin();
	Array<Element>::iterator<Element> it = elements[p].begin();
	Array<Element>::iterator<Element> end = elements[p].end();
	for (; it != end; ++it) {
	const Element & el = *it;

	if(el.type != current_element_type \|\| el.ghost_type != current_ghost_type) {
	current_element_type = el.type;
	current_ghost_type = el.ghost_type;

	element_to_facet = & mesh.getElementToSubelement(el.type, el.ghost_type);

	f_check = & inserter.getCheckFacets(el.type, el.ghost_type);
	}

	if ( (*f_check)(el.element) ) {

	const Element & el_0 = (*element_to_facet)(el.element)[0];
	const Array<UInt> & rank_el_0 = rank_to_element(el_0.type, el_0.ghost_type);

	const Element & el_1 = (*element_to_facet)(el.element)[1];
	const Array<UInt> & rank_el_1 = rank_to_element(el_1.type, el_1.ghost_type);

	if ( (rank_el_0(el_0.element) == rank && rank_el_1(el_1.element) == p) \|\|
	(rank_el_0(el_0.element) == p && rank_el_1(el_1.element) == rank) ) {
	*it_new = el;
	++it_new;
	++nb_element;
	}
	}
	}
	elements[p].resize(nb_element);
	}

	AKANTU_DEBUG_OUT();
	}


	__END_AKANTU__

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