https://github.com/geodynamics/citcoms
Tip revision: 5e00adb55606023f60c06fc591f8539d9057d77f authored by Eh Tan on 19 June 2008, 22:48:01 UTC
Tag v3.0.2
Tag v3.0.2
Tip revision: 5e00adb
CitcomSource.cc
// -*- C++ -*-
//
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
//
//<LicenseText>
//
// CitcomS.py by Eh Tan, Eun-seo Choi, and Pururav Thoutireddy.
// Copyright (C) 2002-2005, California Institute of Technology.
//
// This program is free software; you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation; either version 2 of the License, or
// (at your option) any later version.
//
// This program 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 General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program; if not, write to the Free Software
// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
//
//</LicenseText>
//
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
//
#include "config.h"
#include "global_defs.h"
#include "journal/diagnostics.h"
#include "Exchanger/BoundedMesh.h"
#include "CitcomInterpolator.h"
using Exchanger::Array2D;
using Exchanger::BoundedBox;
using Exchanger::BoundedMesh;
using Exchanger::DIM;
using Exchanger::STRESS_DIM;
#include "CitcomSource.h"
extern "C" {
void allocate_STD_mem(const struct All_variables *E,
float** SXX, float** SYY, float** SZZ,
float** SXY, float** SXZ, float** SZY,
float** divv, float** vorv);
void free_STD_mem(const struct All_variables *E,
float** SXX, float** SYY, float** SZZ,
float** SXY, float** SXZ, float** SZY,
float** divv, float** vorv);
void compute_nodal_stress(const struct All_variables *E,
float** SXX, float** SYY, float** SZZ,
float** SXY, float** SXZ, float** SZY,
float** divv, float** vorv);
}
CitcomSource::CitcomSource(MPI_Comm comm,
int sinkRank,
BoundedMesh& mesh,
const BoundedBox& mybbox,
const All_variables* e) :
Exchanger::Source(comm, sinkRank, mesh, mybbox),
E(e)
{
journal::debug_t debug("CitcomS-Exchanger");
debug << journal::at(__HERE__) << journal::endl;
// mesh is empty right now, will receive the node coordinate from sink,
// will use interpolator to find out which nodes are inside this proc.
init(mesh, mybbox);
}
CitcomSource::~CitcomSource()
{}
void CitcomSource::interpolatePressure(Array2D<double,1>& P) const
{
journal::debug_t debug("CitcomS-Exchanger");
debug << journal::at(__HERE__) << journal::endl;
if(size())
interp->interpolatePressure(P);
}
void CitcomSource::interpolateStress(Array2D<double,STRESS_DIM>& S) const
{
journal::debug_t debug("CitcomS-Exchanger");
debug << journal::at(__HERE__) << journal::endl;
// copied and modified from get_STD_topo() in Topo_gravity.c
float *SXX[NCS], *SYY[NCS], *SZZ[NCS];
float *SXY[NCS], *SXZ[NCS], *SZY[NCS];
float *divv[NCS], *vorv[NCS];
allocate_STD_mem(E, SXX, SYY, SZZ, SXY, SXZ, SZY, divv, vorv);
compute_nodal_stress(E, SXX, SYY, SZZ, SXY, SXZ, SZY, divv, vorv);
free_STD_mem(E, SXX, SYY, SZZ, SXY, SXZ, SZY, divv, vorv);
if(size())
interp->interpolateStress(S);
}
void CitcomSource::interpolateTemperature(Array2D<double,1>& T) const
{
journal::debug_t debug("CitcomS-Exchanger");
debug << journal::at(__HERE__) << journal::endl;
if(size())
interp->interpolateTemperature(T);
}
void CitcomSource::interpolateVelocity(Array2D<double,DIM>& V) const
{
journal::debug_t debug("CitcomS-Exchanger");
debug << journal::at(__HERE__) << journal::endl;
if(size())
interp->interpolateVelocity(V);
}
// private functions
void CitcomSource::createInterpolator(const BoundedMesh& mesh)
{
interp = new CitcomInterpolator(mesh, meshNode_, E);
}
// version
// $Id$
// End of file