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arlequin_template.hh
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rLIBMULTISCALE LibMultiScale
arlequin_template.hh
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/**
* @file arlequin_template.hh
*
* @author Guillaume Anciaux <guillaume.anciaux@epfl.ch>
*
* @date Mon Nov 25 15:05:56 2013
*
* @brief Internal class to factor code for the Arlequin kind methods
*
* @section LICENSE
*
* Copyright INRIA and CEA
*
* The LibMultiScale is a C++ parallel framework for the multiscale
* coupling methods dedicated to material simulations. This framework
* provides an API which makes it possible to program coupled simulations
* and integration of already existing codes.
*
* This Project was initiated in a collaboration between INRIA Futurs Bordeaux
* within ScAlApplix team and CEA/DPTA Ile de France.
* The project is now continued at the Ecole Polytechnique Fédérale de Lausanne
* within the LSMS/ENAC laboratory.
*
* This software is governed by the CeCILL-C license under French law and
* abiding by the rules of distribution of free software. You can use,
* modify and/ or redistribute the software under the terms of the CeCILL-C
* license as circulated by CEA, CNRS and INRIA at the following URL
* "http://www.cecill.info".
*
* As a counterpart to the access to the source code and rights to copy,
* modify and redistribute granted by the license, users are provided only
* with a limited warranty and the software's author, the holder of the
* economic rights, and the successive licensors have only limited
* liability.
*
* In this respect, the user's attention is drawn to the risks associated
* with loading, using, modifying and/or developing or reproducing the
* software by the user in light of its specific status of free software,
* that may mean that it is complicated to manipulate, and that also
* therefore means that it is reserved for developers and experienced
* professionals having in-depth computer knowledge. Users are therefore
* encouraged to load and test the software's suitability as regards their
* requirements in conditions enabling the security of their systems and/or
* data to be ensured and, more generally, to use and operate it in the
* same conditions as regards security.
*
* The fact that you are presently reading this means that you have had
* knowledge of the CeCILL-C license and that you accept its terms.
*
*/
#ifndef __LIBMULTISCALE_ARLEQUIN_TEMPLATE_HH__
#define __LIBMULTISCALE_ARLEQUIN_TEMPLATE_HH__
/* -------------------------------------------------------------------------- */
#include "bridging_atomic_continuum.hh"
#include "compute_arlequin_weight.hh"
#include "compute_compatibility.hh"
#include "coupling_atomic_continuum.hh"
#include "lib_continuum.hh"
#include "lib_md.hh"
/* -------------------------------------------------------------------------- */
__BEGIN_LIBMULTISCALE__
class ArlequinTemplate : public CouplingAtomicContinuum {
public:
ArlequinTemplate(const std::string &name);
~ArlequinTemplate();
void declareParams();
virtual void clearAll();
void init();
protected:
void allocate(UInt size);
friend void toto();
DECORATE_FUNCTION_DISPATCH(computeAtomWeights, MD)
//! Compute the weighting function of the coupled MD DOFs
template <typename ContA> void computeAtomWeights(ContA &atoms);
//! Compute the weighting function of the coupled FE DOFs
template <typename ContC> void computeContinuumWeights(ContC &mesh);
DECORATE_FUNCTION_DISPATCH(correctAtomWeights, MD)
//! Correct the weighting function of the coupled MD DOFs
template <typename ContA> void correctAtomWeights(ContA &pointList);
DECORATE_FUNCTION_DISPATCH(correctContinuumWeights, MD)
//! Correct the weighting function of the coupled FE DOFs
template <typename ContC> void correctContinuumWeights(ContC &meshList);
//! Build the contribution from FE to the constraint matrix(using
//! shapematrix)
void buildContinuumConstraintMatrix();
//! Build the contribution from MD to the constraUInt matrix
void buildAtomsConstraintMatrix();
//! Build the right hand side contribution from FE
void buildContinuumRHS(ArrayView field);
DECORATE_FUNCTION_DISPATCH(buildAtomsRHS, MD)
//! Build the right hand side contribution from MD
template <typename ContA> void buildAtomsRHS(ContA &contA);
//! reset to zero the RHS vector
void cleanRHS();
//! solve the constraUInt system
template <typename DomainA, typename DomainC> void solveConstraint();
//! average multipliers : usefull for mesh when doing multitimestep to kill
//! problematic wave frequencies
template <typename DomainA, typename DomainC> void averageMultipliers();
//! apply correction to local FE Dofs
void applyContinuumCorrection(ArrayView field);
DECORATE_FUNCTION_DISPATCH(applyAtomsCorrection, MD)
//! apply correction to local MD Dofs
template <typename ContA> void applyAtomsCorrection(ContA &contA);
protected:
//! array to store matrix
ContainerArray<Real> A;
//! array to store rhs/multipliers data
ContainerArray<Real> rhs;
//! variable containing the size of the constraint system
UInt size_constraint;
//! multiple timestep indicator
UInt multi_time_step;
//! The bridging zone
BridgingAtomicContinuum bridging_zone;
//! The bridge zone used for surface effects
BridgingAtomicContinuum MDboundary_zone;
//! geometry id for the bridging zone
LMID bridging_geom;
//! geometry id for the boundary zone
LMID boundary_geom;
//! quality factor (see anciaux, coulaud, roman, zerah publication)
Real quality;
//! weighting vector for FE DOFs
ComputeArlequinWeight weightFE;
//! weighting vector for MD DOFs
ComputeArlequinWeight weightMD;
//! weighting vector for FE DOFs
ComputeCompatibility lambdasC;
//! weighting vector for MD DOFs
ComputeCompatibility lambdasA;
//! flag to know wether we have to chack for coherency
bool check_coherency;
};
/* -------------------------------------------------------------------------- */
__END_LIBMULTISCALE__
/* -------------------------------------------------------------------------- */
#endif /* __LIBMULTISCALE_ARLEQUIN_TEMPLATE_HH__ */
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