-// Copyright (C) 2007-2013 CEA/DEN, EDF R&D
+// Copyright (C) 2007-2020 CEA/DEN, EDF R&D
//
// This library 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 2.1 of the License.
+// version 2.1 of the License, or (at your option) any later version.
//
// This library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
#include "ParaMEDMEMTest.hxx"
#include <cppunit/TestAssert.h>
-#include <string>
#include "CommInterface.hxx"
#include "ProcessorGroup.hxx"
#include "MPIProcessorGroup.hxx"
#include "DEC.hxx"
#include "InterpKernelDEC.hxx"
+#include "MEDCouplingUMesh.hxx"
+#include "MEDCouplingFieldDouble.hxx"
+#include "ParaMESH.hxx"
+#include "ParaFIELD.hxx"
+#include "ComponentTopology.hxx"
+#include "BlockTopology.hxx"
+
#include <set>
#include <time.h>
-#include "ICoCoTrioField.hxx"
#include <iostream>
#include <assert.h>
+#include <string>
#include <math.h>
using namespace std;
-using namespace ParaMEDMEM;
+using namespace MEDCoupling;
using namespace ICoCo;
-void afficheGauthier1( const TrioField& field, const double *vals, int lgth)
-{
- CPPUNIT_ASSERT_EQUAL(lgth,field._nb_elems);
- for (int ele=0;ele<field._nb_elems;ele++)
- CPPUNIT_ASSERT_DOUBLES_EQUAL(vals[ele],field._field[ele],1e-12);
-}
-
-void remplit_coordGauthier1(double* coords)
+void afficheGauthier1(const ParaFIELD& field, const double *vals, int lgth)
{
- double angle,epaisseur;
- angle=0*45*(asin(1.)/90);
- epaisseur=1e-0;
- coords[0*3+0]=0.;
- coords[0*3+1]=0.;
- coords[0*3+2]=0.;
-
- coords[1*3+0]=cos(angle);
- coords[1*3+1]=0.;
- coords[1*3+2]=sin(angle);
-
-
- coords[2*3+0]=-sin(angle);
- coords[2*3+1]=0.;
- coords[2*3+2]=cos(angle);
-
- for (int d=0;d<3;d++)
- coords[3*3+d]=coords[1*3+d]+ coords[2*3+d];
-
- for (int i=4;i<8;i++)
- {
- for (int d=0;d<3;d++)
- coords[i*3+d]=coords[(i-4)*3+d];
- coords[i*3+1]+=epaisseur;
- }
-
+ const DataArrayDouble *valsOfField(field.getField()->getArray());
+ CPPUNIT_ASSERT_EQUAL(lgth,(int)valsOfField->getNumberOfTuples());
+ for (int ele=0;ele<valsOfField->getNumberOfTuples();ele++)
+ CPPUNIT_ASSERT_DOUBLES_EQUAL(vals[ele],valsOfField->getIJ(ele,0),1e-12);
}
-void init_quadGauthier1(TrioField& champ_quad,int is_master)
+MEDCouplingUMesh *init_quadGauthier1(int is_master)
{
-
- champ_quad.setName("champ_quad");
- champ_quad._space_dim=3;
- champ_quad._mesh_dim=2;
- champ_quad._nodes_per_elem=4;
- champ_quad._itnumber=0;
- champ_quad._time1=0;
- champ_quad._time2=1;
- champ_quad._nb_field_components=1;
-
- if (is_master)
+ MCAuto<MEDCouplingUMesh> m(MEDCouplingUMesh::New("champ_quad",2));
+ MCAuto<DataArrayDouble> coo(DataArrayDouble::New());
+ if(is_master)
{
- champ_quad._nbnodes=8;
- champ_quad._nb_elems=2;
-
- champ_quad._coords=new double[champ_quad._nbnodes*champ_quad._space_dim];
- //memcpy(afield._coords,sommets.addr(),champ_quad._nbnodes*champ_quad._space_dim*sizeof(double));
-
- remplit_coordGauthier1(champ_quad._coords);
-
-
- champ_quad._connectivity=new int[champ_quad._nb_elems*champ_quad._nodes_per_elem];
- champ_quad._connectivity[0*champ_quad._nodes_per_elem+0]=0;
- champ_quad._connectivity[0*champ_quad._nodes_per_elem+1]=1;
- champ_quad._connectivity[0*champ_quad._nodes_per_elem+2]=3;
- champ_quad._connectivity[0*champ_quad._nodes_per_elem+3]=2;
- champ_quad._connectivity[1*champ_quad._nodes_per_elem+0]=4;
- champ_quad._connectivity[1*champ_quad._nodes_per_elem+1]=5;
- champ_quad._connectivity[1*champ_quad._nodes_per_elem+2]=7;
- champ_quad._connectivity[1*champ_quad._nodes_per_elem+3]=6;
-
+ const double dataCoo[24]={0,0,0,1,0,0,0,0,1,1,0,1,0,1,0,1,1,0,0,1,1,1,1,1};
+ coo->alloc(8,3);
+ std::copy(dataCoo,dataCoo+24,coo->getPointer());
+ const mcIdType conn[8]={0,1,3,2,4,5,7,6};
+ m->allocateCells(2);
+ m->insertNextCell(INTERP_KERNEL::NORM_QUAD4,4,conn);
+ m->insertNextCell(INTERP_KERNEL::NORM_QUAD4,4,conn+4);
}
else
{
- champ_quad._nbnodes=0;
- champ_quad._nb_elems=0;
- champ_quad._coords=new double[champ_quad._nbnodes*champ_quad._space_dim];
-
+ coo->alloc(0,3);
+ m->allocateCells(0);
}
- champ_quad._has_field_ownership=false;
- champ_quad._field=0;
- //champ_quad._field=new double[champ_quad._nb_elems];
- // assert(champ_quad._nb_field_components==1);
+ m->setCoords(coo);
+ return m.retn();
}
-void init_triangleGauthier1(TrioField& champ_triangle,int is_master)
+
+MEDCouplingUMesh *init_triangleGauthier1(int is_master)
{
-
- champ_triangle.setName("champ_triangle");
- champ_triangle._space_dim=3;
- champ_triangle._mesh_dim=2;
- champ_triangle._nodes_per_elem=3;
- champ_triangle._itnumber=0;
- champ_triangle._time1=0;
- champ_triangle._time2=1;
- champ_triangle._nb_field_components=1;
-
- if (is_master)
+ MCAuto<MEDCouplingUMesh> m(MEDCouplingUMesh::New("champ_triangle",2));
+ MCAuto<DataArrayDouble> coo(DataArrayDouble::New());
+ if(is_master)
{
- champ_triangle._nb_elems=4;
- champ_triangle._nbnodes=8;
-
- champ_triangle._coords=new double[champ_triangle._nbnodes*champ_triangle._space_dim];
- //memcpy(afield._coords,sommets.addr(),champ_triangle._nbnodes*champ_triangle._space_dim*sizeof(double));
- remplit_coordGauthier1(champ_triangle._coords);
-
- champ_triangle._connectivity=new int[champ_triangle._nb_elems*champ_triangle._nodes_per_elem];
- champ_triangle._connectivity[0*champ_triangle._nodes_per_elem+0]=0;
- champ_triangle._connectivity[0*champ_triangle._nodes_per_elem+1]=1;
- champ_triangle._connectivity[0*champ_triangle._nodes_per_elem+2]=2;
- champ_triangle._connectivity[1*champ_triangle._nodes_per_elem+0]=1;
- champ_triangle._connectivity[1*champ_triangle._nodes_per_elem+1]=2;
- champ_triangle._connectivity[1*champ_triangle._nodes_per_elem+2]=3;
-
- champ_triangle._connectivity[2*champ_triangle._nodes_per_elem+0]=4;
- champ_triangle._connectivity[2*champ_triangle._nodes_per_elem+1]=5;
- champ_triangle._connectivity[2*champ_triangle._nodes_per_elem+2]=7;
- champ_triangle._connectivity[3*champ_triangle._nodes_per_elem+0]=4;
- champ_triangle._connectivity[3*champ_triangle._nodes_per_elem+1]=6;
- champ_triangle._connectivity[3*champ_triangle._nodes_per_elem+2]=7;
+ const double dataCoo[24]={0,0,0,1,0,0,0,0,1,1,0,1,0,1,0,1,1,0,0,1,1,1,1,1};
+ coo->alloc(8,3);
+ std::copy(dataCoo,dataCoo+24,coo->getPointer());
+ const mcIdType conn[12]={0,1,2,1,2,3,4,5,7,4,6,7};
+ m->allocateCells(2);
+ for(int i=0;i<4;i++)
+ m->insertNextCell(INTERP_KERNEL::NORM_TRI3,3,conn+3*i);
}
else
{
- champ_triangle._nb_elems=0;
- champ_triangle._nbnodes=0;
- champ_triangle._coords=new double[champ_triangle._nbnodes*champ_triangle._space_dim];
-
+ coo->alloc(0,3);
+ m->allocateCells(0);
}
- champ_triangle._has_field_ownership=false;
- // champ_triangle._field=new double[champ_triangle._nb_elems];
- champ_triangle._field=0;
-
+ m->setCoords(coo);
+ return m.retn();
}
MPIProcessorGroup recepteur_group(comm,recepteur_ids);
MPIProcessorGroup emetteur_group(comm,emetteur_ids);
-
string cas;
if (recepteur_group.containsMyRank())
{
cas="recepteur";
//freopen("recpeteur.out","w",stdout);
//freopen("recepteur.err","w",stderr);
-
}
else
{
{1.,1.,1e200,1e200},
{20.5,1.,1e200,1e200}
};
-
int expectedLgth[8]={4,4,2,2,4,4,2,2};
for (int send=0;send<2;send++)
for (int rec=0;rec<2;rec++)
{
InterpKernelDEC dec_emetteur(emetteur_group, recepteur_group);
+ MEDCoupling::ParaFIELD *champ_emetteur(0),*champ_recepteur(0);
+ MEDCoupling::ParaMESH *paramesh(0);
+ MCAuto<MEDCouplingUMesh> mesh;
dec_emetteur.setOrientation(2);
- TrioField champ_emetteur, champ_recepteur;
-
if (send==0)
- init_quadGauthier1(champ_emetteur,is_master);
+ {
+ mesh=init_quadGauthier1(is_master);
+ }
else
- init_triangleGauthier1(champ_emetteur,is_master);
+ {
+ mesh=init_triangleGauthier1(is_master);
+ }
+ paramesh=new MEDCoupling::ParaMESH(mesh,recepteur_group.containsMyRank()?recepteur_group:emetteur_group,"emetteur mesh");
+ MEDCoupling::ComponentTopology comptopo;
+ champ_emetteur=new MEDCoupling::ParaFIELD(ON_CELLS,ONE_TIME,paramesh,comptopo);
+ champ_emetteur->getField()->setNature(IntensiveMaximum);
+ champ_emetteur->setOwnSupport(true);
if (rec==0)
- init_triangleGauthier1(champ_recepteur,is_master);
+ {
+ mesh=init_triangleGauthier1(is_master);
+ }
else
- init_quadGauthier1(champ_recepteur,is_master);
-
+ {
+ mesh=init_quadGauthier1(is_master);
+ }
+ paramesh=new MEDCoupling::ParaMESH(mesh,recepteur_group.containsMyRank()?recepteur_group:emetteur_group,"recepteur mesh");
+ champ_recepteur=new MEDCoupling::ParaFIELD(ON_CELLS,ONE_TIME,paramesh,comptopo);
+ champ_recepteur->getField()->setNature(IntensiveMaximum);
+ champ_recepteur->setOwnSupport(true);
if (cas=="emetteur")
{
- champ_emetteur._field=new double[champ_emetteur._nb_elems];
- for (int ele=0;ele<champ_emetteur._nb_elems;ele++)
- champ_emetteur._field[ele]=1;
-
- champ_emetteur._has_field_ownership=true;
+ champ_emetteur->getField()->getArray()->fillWithValue(1.);
}
//cout << compti << " CLOCK " << (clocki-clock0)*1.e-6 << endl;
for (int non_unif=0;non_unif<2;non_unif++)
{
- // if (champ_recepteur._field)
- // delete [] champ_recepteur._field;
- champ_recepteur._field=0;
- // champ_recepteur._has_field_ownership=false;
-
-
-
if (cas=="emetteur")
{
if (non_unif)
if(rank!=3)
- champ_emetteur._field[0]=40;
+ champ_emetteur->getField()->getArray()->setIJ(0,0,40);
}
//bool ok=false; // Is the time interval successfully solved ?
if (cas=="emetteur")
- dec_emetteur.attachLocalField((ICoCo::Field*) &champ_emetteur);
+ dec_emetteur.attachLocalField(champ_emetteur);
else
- dec_emetteur.attachLocalField((ICoCo::Field*) &champ_recepteur);
+ dec_emetteur.attachLocalField(champ_recepteur);
if(init) dec_emetteur.synchronize();
{
dec_emetteur.recvData();
if (is_master)
- afficheGauthier1(champ_recepteur,expected[num_cas],expectedLgth[num_cas]);
+ afficheGauthier1(*champ_recepteur,expected[num_cas],expectedLgth[num_cas]);
}
else
throw 0;
stop=true;
num_cas++;
}
- // destruction des champs, des DEC, et des tableaux associƩs
}
+ delete champ_emetteur;
+ delete champ_recepteur;
}
}
void ParaMEDMEMTest::testGauthier2()
{
- const char save_vit_in_2[]="VITESSE_P1_OUT\n1\n2\n3\n63\n3\n80\n0\n 0 1 2\n 3 4 5\n 6 7 8\n 9 10 11\n 12 13 14\n 15 16 17\n 18 19 20\n 21 22 23\n 24 25 26\n 27 28 29\n 30 2 1\n 31 5 4\n 32 8 7\n 33 11 10\n 34 14 13\n 35 17 16\n 36 20 19\n 37 23 22\n 38 26 25\n 39 29 28\n 30 40 2\n 31 41 5\n 32 42 8\n 33 43 11\n 34 44 14\n 35 45 17\n 36 46 20\n 37 47 23\n 38 48 26\n 39 49 29\n 31 2 40\n 32 5 41\n 33 8 42\n 34 11 43\n 35 14 44\n 36 17 45\n 37 20 46\n 38 23 47\n 39 26 48\n 50 29 49\n 3 2 4\n 6 5 7\n 9 8 10\n 12 11 13\n 15 14 16\n 18 17 19\n 21 20 22\n 24 23 25\n 27 26 28\n 51 29 52\n 31 4 2\n 32 7 5\n 33 10 8\n 34 13 11\n 35 16 14\n 36 19 17\n 37 22 20\n 38 25 23\n 39 28 26\n 50 52 29\n 0 2 53\n 3 5 54\n 6 8 55\n 9 11 56\n 12 14 57\n 15 17 58\n 18 20 59\n 21 23 60\n 24 26 61\n 27 29 62\n 3 53 2\n 6 54 5\n 9 55 8\n 12 56 11\n 15 57 14\n 18 58 17\n 21 59 20\n 24 60 23\n 27 61 26\n 51 62 29\n 0 0 0\n 0.5 0 0\n 0.5 0.05 0\n 0 0.1 0\n 0.5 0.1 0\n 0.5 0.15 0\n 0 0.2 0\n 0.5 0.2 0\n 0.5 0.25 0\n 0 0.3 0\n 0.5 0.3 0\n 0.5 0.35 0\n 0 0.4 0\n 0.5 0.4 0\n 0.5 0.45 0\n 0 0.5 0\n 0.5 0.5 0\n 0.5 0.55 0\n 0 0.6 0\n 0.5 0.6 0\n 0.5 0.65 0\n 0 0.7 0\n 0.5 0.7 0\n 0.5 0.75 0\n 0 0.8 0\n 0.5 0.8 0\n 0.5 0.85 0\n 0 0.9 0\n 0.5 0.9 0\n 0.5 0.95 0\n 1 0 0\n 1 0.1 0\n 1 0.2 0\n 1 0.3 0\n 1 0.4 0\n 1 0.5 0\n 1 0.6 0\n 1 0.7 0\n 1 0.8 0\n 1 0.9 0\n 1 0.05 0\n 1 0.15 0\n 1 0.25 0\n 1 0.35 0\n 1 0.45 0\n 1 0.55 0\n 1 0.65 0\n 1 0.75 0\n 1 0.85 0\n 1 0.95 0\n 1 1 0\n 0 1 0\n 0.5 1 0\n 0 0.05 0\n 0 0.15 0\n 0 0.25 0\n 0 0.35 0\n 0 0.45 0\n 0 0.55 0\n 0 0.65 0\n 0 0.75 0\n 0 0.85 0\n 0 0.95 0\n2.9268\n3.1707\n3\n1\n 0 0 0\n 0 0 0\n 0 0 0.05\n 0 0 0.1\n 0 0 0.1\n 0 0 0.15\n 0 0 0.2\n 0 0 0.2\n 0 0 0.25\n 0 0 0.3\n 0 0 0.3\n 0 0 0.35\n 0 0 0.4\n 0 0 0.4\n 0 0 0.45\n 0 0 0.5\n 0 0 0.5\n 0 0 0.55\n 0 0 0.6\n 0 0 0.6\n 0 0 0.65\n 0 0 0.7\n 0 0 0.7\n 0 0 0.75\n 0 0 0.8\n 0 0 0.8\n 0 0 0.85\n 0 0 0.9\n 0 0 0.9\n 0 0 0.95\n 0 0 0\n 0 0 0.1\n 0 0 0.2\n 0 0 0.3\n 0 0 0.4\n 0 0 0.5\n 0 0 0.6\n 0 0 0.7\n 0 0 0.8\n 0 0 0.9\n 0 0 0.05\n 0 0 0.15\n 0 0 0.25\n 0 0 0.35\n 0 0 0.45\n 0 0 0.55\n 0 0 0.65\n 0 0 0.75\n 0 0 0.85\n 0 0 0.95\n 0 0 1\n 0 0 1\n 0 0 1\n 0 0 0.05\n 0 0 0.15\n 0 0 0.25\n 0 0 0.35\n 0 0 0.45\n 0 0 0.55\n 0 0 0.65\n 0 0 0.75\n 0 0 0.85\n 0 0 0.95\n1\n";
-
- const char save_vit_out_0_2[]="vitesse_in_chaude\n0\n2\n3\n22\n4\n10\n-1081737852\n 0 1 3 2\n 2 3 5 4\n 4 5 7 6\n 6 7 9 8\n 8 9 11 10\n 10 11 13 12\n 12 13 15 14\n 14 15 17 16\n 16 17 19 18\n 18 19 21 20\n 0 0 0\n 1 0 0\n 0 0.1 0\n 1 0.1 0\n 0 0.2 0\n 1 0.2 0\n 0 0.3 0\n 1 0.3 0\n 0 0.4 0\n 1 0.4 0\n 0 0.5 0\n 1 0.5 0\n 0 0.6 0\n 1 0.6 0\n 0 0.7 0\n 1 0.7 0\n 0 0.8 0\n 1 0.8 0\n 0 0.9 0\n 1 0.9 0\n 0 1 0\n 1 1 0\n2.9268\n3.1707\n3\n1\n 0 0 0.05\n 0 0 0.15\n 0 0 0.25\n 0 0 0.35\n 0 0 0.45\n 0 0 0.55\n 0 0 0.65\n 0 0 0.75\n 0 0 0.85\n 0 0 0.95\n0\n";
- const char save_vit_out_1_2[]="vitesse_in_chaude\n1\n2\n3\n22\n4\n10\n-1081737852\n 0 1 3 2\n 2 3 5 4\n 4 5 7 6\n 6 7 9 8\n 8 9 11 10\n 10 11 13 12\n 12 13 15 14\n 14 15 17 16\n 16 17 19 18\n 18 19 21 20\n 0 0 0\n 1 0 0\n 0 0.1 0\n 1 0.1 0\n 0 0.2 0\n 1 0.2 0\n 0 0.3 0\n 1 0.3 0\n 0 0.4 0\n 1 0.4 0\n 0 0.5 0\n 1 0.5 0\n 0 0.6 0\n 1 0.6 0\n 0 0.7 0\n 1 0.7 0\n 0 0.8 0\n 1 0.8 0\n 0 0.9 0\n 1 0.9 0\n 0 1 0\n 1 1 0\n2.9268\n3.1707\n3\n1\n 0 0 0.029375\n 0 0 0.029375\n 0 0 0.1\n 0 0 0.1\n 0 0 0.2\n 0 0 0.2\n 0 0 0.3\n 0 0 0.3\n 0 0 0.4\n 0 0 0.4\n 0 0 0.5\n 0 0 0.5\n 0 0 0.6\n 0 0 0.6\n 0 0 0.7\n 0 0 0.7\n 0 0 0.8\n 0 0 0.8\n 0 0 0.9\n 0 0 0.9\n 0 0 0.970625\n 0 0 0.970625\n0\n";
-
- const char *save_vit_outs[2]={save_vit_out_1_2,save_vit_out_0_2};
-
- const char save_vit_out_1_0[]="vitesse_in_chaude\n1\n2\n3\n22\n4\n10\n-1081737852\n 0 1 3 2\n 2 3 5 4\n 4 5 7 6\n 6 7 9 8\n 8 9 11 10\n 10 11 13 12\n 12 13 15 14\n 14 15 17 16\n 16 17 19 18\n 18 19 21 20\n 0 0 0\n 1 0 0\n 0 0.1 0\n 1 0.1 0\n 0 0.2 0\n 1 0.2 0\n 0 0.3 0\n 1 0.3 0\n 0 0.4 0\n 1 0.4 0\n 0 0.5 0\n 1 0.5 0\n 0 0.6 0\n 1 0.6 0\n 0 0.7 0\n 1 0.7 0\n 0 0.8 0\n 1 0.8 0\n 0 0.9 0\n 1 0.9 0\n 0 1 0\n 1 1 0\n2.9268\n3.1707\n3\n1\n 0 0 0.029375\n 0 0 0.029375\n 0 0 0.1\n 0 0 0.1\n 0 0 0.2\n 0 0 0.2\n 0 0 0.3\n 0 0 0.3\n 0 0 0.4\n 0 0 0.4\n 0 0 0.5\n 0 0 0.5\n 0 0 0.6\n 0 0 0.6\n 0 0 0.7\n 0 0 0.7\n 0 0 0.8\n 0 0 0.8\n 0 0 0.9\n 0 0 0.9\n 0 0 0.970625\n 0 0 0.970625\n0\n";
-
- const char save_vit_in[]="VITESSE_P1_OUT\n1\n2\n3\n63\n3\n80\n0\n 0 1 2\n 3 4 5\n 6 7 8\n 9 10 11\n 12 13 14\n 15 16 17\n 18 19 20\n 21 22 23\n 24 25 26\n 27 28 29\n 30 2 1\n 31 5 4\n 32 8 7\n 33 11 10\n 34 14 13\n 35 17 16\n 36 20 19\n 37 23 22\n 38 26 25\n 39 29 28\n 30 40 2\n 31 41 5\n 32 42 8\n 33 43 11\n 34 44 14\n 35 45 17\n 36 46 20\n 37 47 23\n 38 48 26\n 39 49 29\n 31 2 40\n 32 5 41\n 33 8 42\n 34 11 43\n 35 14 44\n 36 17 45\n 37 20 46\n 38 23 47\n 39 26 48\n 50 29 49\n 3 2 4\n 6 5 7\n 9 8 10\n 12 11 13\n 15 14 16\n 18 17 19\n 21 20 22\n 24 23 25\n 27 26 28\n 51 29 52\n 31 4 2\n 32 7 5\n 33 10 8\n 34 13 11\n 35 16 14\n 36 19 17\n 37 22 20\n 38 25 23\n 39 28 26\n 50 52 29\n 0 2 53\n 3 5 54\n 6 8 55\n 9 11 56\n 12 14 57\n 15 17 58\n 18 20 59\n 21 23 60\n 24 26 61\n 27 29 62\n 3 53 2\n 6 54 5\n 9 55 8\n 12 56 11\n 15 57 14\n 18 58 17\n 21 59 20\n 24 60 23\n 27 61 26\n 51 62 29\n 0 0 0\n 0.5 0 0\n 0.5 0.05 0\n 0 0.1 0\n 0.5 0.1 0\n 0.5 0.15 0\n 0 0.2 0\n 0.5 0.2 0\n 0.5 0.25 0\n 0 0.3 0\n 0.5 0.3 0\n 0.5 0.35 0\n 0 0.4 0\n 0.5 0.4 0\n 0.5 0.45 0\n 0 0.5 0\n 0.5 0.5 0\n 0.5 0.55 0\n 0 0.6 0\n 0.5 0.6 0\n 0.5 0.65 0\n 0 0.7 0\n 0.5 0.7 0\n 0.5 0.75 0\n 0 0.8 0\n 0.5 0.8 0\n 0.5 0.85 0\n 0 0.9 0\n 0.5 0.9 0\n 0.5 0.95 0\n 1 0 0\n 1 0.1 0\n 1 0.2 0\n 1 0.3 0\n 1 0.4 0\n 1 0.5 0\n 1 0.6 0\n 1 0.7 0\n 1 0.8 0\n 1 0.9 0\n 1 0.05 0\n 1 0.15 0\n 1 0.25 0\n 1 0.35 0\n 1 0.45 0\n 1 0.55 0\n 1 0.65 0\n 1 0.75 0\n 1 0.85 0\n 1 0.95 0\n 1 1 0\n 0 1 0\n 0.5 1 0\n 0 0.05 0\n 0 0.15 0\n 0 0.25 0\n 0 0.35 0\n 0 0.45 0\n 0 0.55 0\n 0 0.65 0\n 0 0.75 0\n 0 0.85 0\n 0 0.95 0\n2.9268\n3.1707\n3\n1\n 0 0 0\n 0 0 0\n 0 0 0.05\n 0 0 0.1\n 0 0 0.1\n 0 0 0.15\n 0 0 0.2\n 0 0 0.2\n 0 0 0.25\n 0 0 0.3\n 0 0 0.3\n 0 0 0.35\n 0 0 0.4\n 0 0 0.4\n 0 0 0.45\n 0 0 0.5\n 0 0 0.5\n 0 0 0.55\n 0 0 0.6\n 0 0 0.6\n 0 0 0.65\n 0 0 0.7\n 0 0 0.7\n 0 0 0.75\n 0 0 0.8\n 0 0 0.8\n 0 0 0.85\n 0 0 0.9\n 0 0 0.9\n 0 0 0.95\n 0 0 0\n 0 0 0.1\n 0 0 0.2\n 0 0 0.3\n 0 0 0.4\n 0 0 0.5\n 0 0 0.6\n 0 0 0.7\n 0 0 0.8\n 0 0 0.9\n 0 0 0.05\n 0 0 0.15\n 0 0 0.25\n 0 0 0.35\n 0 0 0.45\n 0 0 0.55\n 0 0 0.65\n 0 0 0.75\n 0 0 0.85\n 0 0 0.95\n 0 0 1\n 0 0 1\n 0 0 1\n 0 0 0.05\n 0 0 0.15\n 0 0 0.25\n 0 0 0.35\n 0 0 0.45\n 0 0 0.55\n 0 0 0.65\n 0 0 0.75\n 0 0 0.85\n 0 0 0.95\n1\n";
-
+ std::cout << "testGauthier2\n";
double valuesExpected1[2]={0.,0.};
double valuesExpected2[2]={0.95,0.970625};
MPIProcessorGroup entree_chaude_group(comm,entree_chaude_ids);
MPIProcessorGroup Genepi_group(comm,Genepi_ids);
- TrioField vitesse;
+ MEDCoupling::ParaFIELD *vitesse(0);
InterpKernelDEC dec_vit_in_chaude(entree_chaude_group, Genepi_group);
if ( entree_chaude_group.containsMyRank())
{
- istringstream save_vit(save_vit_in);
- vitesse.restore(save_vit);
+ MCAuto<MEDCouplingUMesh> mesh(MEDCouplingUMesh::New("mesh",2));
+ MCAuto<DataArrayDouble> arr(DataArrayDouble::New()); arr->alloc(63,3);
+ const double cooData[189]={0.,0.,0.,0.5,0.,0.,0.5,0.05,0.,0.,0.1,0.,0.5,0.1,0.,0.5,0.15,0.,0.,0.2,0.,0.5,0.2,0.,0.5,0.25,0.,0.,0.3,0.,0.5,0.3,0.,0.5,0.35,0.,0.,0.4,0.,0.5,0.4,0.,0.5,0.45,0.,0.,0.5,0.,0.5,0.5,0.,0.5,0.55,0.,0.,0.6,0.,0.5,0.6,0.,0.5,0.65,0.,0.,0.7,0.,0.5,0.7,0.,0.5,0.75,0.,0.,0.8,0.,0.5,0.8,0.,0.5,0.85,0.,0.,0.9,0.,0.5,0.9,0.,0.5,0.95,0.,1.,0.,0.,1.,0.1,0.,1.,0.2,0.,1.,0.3,0.,1.,0.4,0.,1.,0.5,0.,1.,0.6,0.,1.,0.7,0.,1.,0.8,0.,1.,0.9,0.,1.,0.05,0.,1.,0.15,0.,1.,0.25,0.,1.,0.35,0.,1.,0.45,0.,1.,0.55,0.,1.,0.65,0.,1.,0.75,0.,1.,0.85,0.,1.,0.95,0.,1.,1.,0.,0.,1.,0.,0.5,1.,0.,0.,0.05,0.,0.,0.15,0.,0.,0.25,0.,0.,0.35,0.,0.,0.45,0.,0.,0.55,0.,0.,0.65,0.,0.,0.75,0.,0.,0.85,0.,0.,0.95,0.};
+ std::copy(cooData,cooData+189,arr->getPointer());
+ mesh->setCoords(arr);
+ mesh->allocateCells(80);
+ const mcIdType conn[240]={0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,2,1,31,5,4,32,8,7,33,11,10,34,14,13,35,17,16,36,20,19,37,23,22,38,26,25,39,29,28,30,40,2,31,41,5,32,42,8,33,43,11,34,44,14,35,45,17,36,46,20,37,47,23,38,48,26,39,49,29,31,2,40,32,5,41,33,8,42,34,11,43,35,14,44,36,17,45,37,20,46,38,23,47,39,26,48,50,29,49,3,2,4,6,5,7,9,8,10,12,11,13,15,14,16,18,17,19,21,20,22,24,23,25,27,26,28,51,29,52,31,4,2,32,7,5,33,10,8,34,13,11,35,16,14,36,19,17,37,22,20,38,25,23,39,28,26,50,52,29,0,2,53,3,5,54,6,8,55,9,11,56,12,14,57,15,17,58,18,20,59,21,23,60,24,26,61,27,29,62,3,53,2,6,54,5,9,55,8,12,56,11,15,57,14,18,58,17,21,59,20,24,60,23,27,61,26,51,62,29};
+ for(int i=0;i<80;i++)
+ mesh->insertNextCell(INTERP_KERNEL::NORM_TRI3,3,conn+3*i);
+ MCAuto<MEDCouplingFieldDouble> f(MEDCouplingFieldDouble::New(ON_NODES,ONE_TIME));
+ const double valsOfField[189]={0.,0.,0.,0.,0.,0.,0.,0.,0.05,0.,0.,0.1,0.,0.,0.1,0.,0.,0.15,0.,0.,0.2,0.,0.,0.2,0.,0.,0.25,0.,0.,0.3,0.,0.,0.3,0.,0.,0.35,0.,0.,0.4,0.,0.,0.4,0.,0.,0.45,0.,0.,0.5,0.,0.,0.5,0.,0.,0.55,0.,0.,0.6,0.,0.,0.6,0.,0.,0.65,0.,0.,0.7,0.,0.,0.7,0.,0.,0.75,0.,0.,0.8,0.,0.,0.8,0.,0.,0.85,0.,0.,0.9,0.,0.,0.9,0.,0.,0.95,0.,0.,0.,0.,0.,0.1,0.,0.,0.2,0.,0.,0.3,0.,0.,0.4,0.,0.,0.5,0.,0.,0.6,0.,0.,0.7,0.,0.,0.8,0.,0.,0.9,0.,0.,0.05,0.,0.,0.15,0.,0.,0.25,0.,0.,0.35,0.,0.,0.45,0.,0.,0.55,0.,0.,0.65,0.,0.,0.75,0.,0.,0.85,0.,0.,0.95,0.,0.,1.,0.,0.,1.,0.,0.,1.,0.,0.,0.05,0.,0.,0.15,0.,0.,0.25,0.,0.,0.35,0.,0.,0.45,0.,0.,0.55,0.,0.,0.65,0.,0.,0.75,0.,0.,0.85,0.,0.,0.95};
+ f->setMesh(mesh); f->setName("VITESSE_P1_OUT");
+ arr=DataArrayDouble::New(); arr->alloc(63,3);
+ std::copy(valsOfField,valsOfField+189,arr->getPointer());
+ f->setArray(arr); f->setNature(IntensiveMaximum);
+ MEDCoupling::ParaMESH *paramesh(new MEDCoupling::ParaMESH(mesh,entree_chaude_group,"emetteur mesh"));
+ vitesse=new MEDCoupling::ParaFIELD(f,paramesh,entree_chaude_group);
+ vitesse->setOwnSupport(true);
+ dec_vit_in_chaude.setMethod("P1");
}
else
{
- istringstream save_vit(save_vit_out_1_0);
- vitesse.restore(save_vit);
- vitesse._has_field_ownership=false;
-
- if (vitesse._field)
- {
- delete [] vitesse._field;
- // cette ligne est super importante sinon c'est tout faux !!!!!!!
- vitesse._field=0;
- }
- // pour tester P1->P0
- vitesse._type=type;
+ MCAuto<MEDCouplingUMesh> mesh(MEDCouplingUMesh::New("mesh",2));
+ MCAuto<DataArrayDouble> arr(DataArrayDouble::New()); arr->alloc(22,3);
+ const double cooData[66]={0,0,0,1,0,0,0,0.1,0,1,0.1,0,0,0.2,0,1,0.2,0,0,0.3,0,1,0.3,0,0,0.4,0,1,0.4,0,0,0.5,0,1,0.5,0,0,0.6,0,1,0.6,0,0,0.7,0,1,0.7,0,0,0.8,0,1,0.8,0,0,0.9,0,1,0.9,0,0,1,0,1,1,0};
+ std::copy(cooData,cooData+66,arr->getPointer());
+ mesh->setCoords(arr);
+ mesh->allocateCells(10);
+ const mcIdType conn[40]={0,1,3,2,2,3,5,4,4,5,7,6,6,7,9,8,8,9,11,10,10,11,13,12,12,13,15,14,14,15,17,16,16,17,19,18,18,19,21,20};
+ for(int i=0;i<10;i++)
+ mesh->insertNextCell(INTERP_KERNEL::NORM_QUAD4,4,conn+4*i);
+ MCAuto<MEDCouplingFieldDouble> f(MEDCouplingFieldDouble::New(type==0?ON_CELLS:ON_NODES,ONE_TIME));
+ f->setMesh(mesh); f->setName("vitesse_in_chaude");
+ arr=DataArrayDouble::New(); arr->alloc(f->getNumberOfTuplesExpected()*3); arr->fillWithZero(); arr->rearrange(3);
+ f->setArray(arr); f->setNature(IntensiveMaximum);
+ MEDCoupling::ParaMESH *paramesh(new MEDCoupling::ParaMESH(mesh,Genepi_group,"recepteur mesh"));
+ vitesse=new MEDCoupling::ParaFIELD(f,paramesh,Genepi_group);
+ vitesse->setOwnSupport(true);
+ dec_vit_in_chaude.setMethod(f->getDiscretization()->getRepr());
}
-
- if (vitesse._type==1)
- dec_vit_in_chaude.setMethod("P1");
-
-
- dec_vit_in_chaude.attachLocalField((ICoCo::Field*) &vitesse);
+ dec_vit_in_chaude.attachLocalField(vitesse);
dec_vit_in_chaude.synchronize();
{
dec_vit_in_chaude.recvData();
}
- if (entree_chaude_group.containsMyRank() )
+ if ( !entree_chaude_group.containsMyRank() )
{
- if (1)
- {
- ostringstream save_vit(save_vit_in_2);
- vitesse.save(save_vit);
- }
- }
- else
- {
-
double pmin=1e38, pmax=-1e38;
-
- for(int i=0;i<vitesse.nb_values()*vitesse._nb_field_components;i++)
+ const double *p(vitesse->getField()->getArray()->begin());
+ for(mcIdType i=0;i<vitesse->getField()->getArray()->getNbOfElems();i++,p++)
{
- double p=*(vitesse._field+i);
- if (p<pmin) pmin=p;
- if (p>pmax) pmax=p;
+ if (*p<pmin) pmin=*p;
+ if (*p>pmax) pmax=*p;
}
CPPUNIT_ASSERT_DOUBLES_EQUAL(valuesExpected1[type],pmin,1e-12);
CPPUNIT_ASSERT_DOUBLES_EQUAL(valuesExpected2[type],pmax,1e-12);
-
- ostringstream save_vit(save_vit_outs[type]);
- vitesse.save(save_vit);
- for(int i=0;i<vitesse.nb_values();i++)
- {
- for(int c=0;c<vitesse._nb_field_components;c++)
- {
- double p=vitesse._field[i*vitesse._nb_field_components+c];
- CPPUNIT_ASSERT_DOUBLES_EQUAL(valuesExpected3[type][i*vitesse._nb_field_components+c],p,1e-12);
- }
- }
-
+ std::size_t nbCompo(vitesse->getField()->getNumberOfComponents());
+ p=vitesse->getField()->getArray()->begin();
+ for(int i=0;i<vitesse->getField()->getNumberOfTuples();i++)
+ for(std::size_t c=0;c<nbCompo;c++,p++)
+ CPPUNIT_ASSERT_DOUBLES_EQUAL(valuesExpected3[type][i*nbCompo+c],*p,1e-12);
}
+ delete vitesse;
}
}
+void ParaMEDMEMTest::testGauthier3_1()
+{
+ testGauthier3_GEN(true,4);
+}
+
+void ParaMEDMEMTest::testGauthier3_2()
+{
+ testGauthier3_GEN(false,4);
+}
+
+void ParaMEDMEMTest::testGauthier3_3()
+{
+ testGauthier3_GEN(true,5);
+}
+
+void ParaMEDMEMTest::testGauthier3_4()
+{
+ int size;
+ MPI_Comm_size(MPI_COMM_WORLD,&size);
+
+ if(size!=5)
+ return;
+
+ // Should throw since the two groups (source/target) do not form a partition of
+ // all the procs.
+ CPPUNIT_ASSERT_THROW(testGauthier3_GEN(false,5), INTERP_KERNEL::Exception);
+}
+
+
/*!
* Non regression test testing copy constructor of InterpKernelDEC.
*/
-void ParaMEDMEMTest::testGauthier3()
+void ParaMEDMEMTest::testGauthier3_GEN(bool withIDs, int nprocs)
{
int num_cas=0;
int rank, size;
MPI_Comm_rank(MPI_COMM_WORLD,&rank);
MPI_Comm_size(MPI_COMM_WORLD,&size);
-
+
int is_master=0;
CommInterface comm;
set<int> emetteur_ids;
set<int> recepteur_ids;
emetteur_ids.insert(0);
- if(size!=4)
+ if(size!=nprocs)
return;
recepteur_ids.insert(1);
- if (size >2)
- recepteur_ids.insert(2);
- if (size >2)
- emetteur_ids.insert(3);
- if ((rank==0)||(rank==1))
+
+ recepteur_ids.insert(size-2);
+
+ emetteur_ids.insert(size-1);
+ if ((rank==0)||(rank==1))
is_master=1;
-
+
MPIProcessorGroup recepteur_group(comm,recepteur_ids);
MPIProcessorGroup emetteur_group(comm,emetteur_ids);
-
string cas;
if (recepteur_group.containsMyRank())
{
cas="recepteur";
//freopen("recpeteur.out","w",stdout);
//freopen("recepteur.err","w",stderr);
-
}
else
{
- cas="emetteur";
+ if (emetteur_group.containsMyRank())
+ cas="emetteur";
+ else
+ cas="vide";
// freopen("emetteur.out","w",stdout);
//freopen("emetteur.err","w",stderr);
}
+
double expected[8][4]={
{1.,1.,1.,1.},
{40., 40., 1., 1.},
{1.,1.,1e200,1e200},
{20.5,1.,1e200,1e200}
};
-
int expectedLgth[8]={4,4,2,2,4,4,2,2};
-
+
for (int send=0;send<2;send++)
for (int rec=0;rec<2;rec++)
{
-
std::vector<InterpKernelDEC> decu(1);
- decu[0]=InterpKernelDEC(emetteur_group, recepteur_group);
+ if (withIDs)
+ decu[0] = InterpKernelDEC(emetteur_ids,recepteur_ids);
+ else
+ decu[0] = InterpKernelDEC(emetteur_group,recepteur_group);
InterpKernelDEC& dec_emetteur=decu[0];
-
- //InterpKernelDEC dec_emetteur(emetteur_group, recepteur_group);
+ MEDCoupling::ParaFIELD *champ_emetteur(0),*champ_recepteur(0);
+ MEDCoupling::ParaMESH *paramesh(0);
+ MCAuto<MEDCouplingUMesh> mesh;
dec_emetteur.setOrientation(2);
- TrioField champ_emetteur, champ_recepteur;
-
if (send==0)
- init_quadGauthier1(champ_emetteur,is_master);
- else
- init_triangleGauthier1(champ_emetteur,is_master);
- if (rec==0)
- init_triangleGauthier1(champ_recepteur,is_master);
+ {
+ mesh=init_quadGauthier1(is_master);
+ }
else
- init_quadGauthier1(champ_recepteur,is_master);
-
- if (cas=="emetteur")
{
- champ_emetteur._field=new double[champ_emetteur._nb_elems];
- for (int ele=0;ele<champ_emetteur._nb_elems;ele++)
- champ_emetteur._field[ele]=1;
-
- champ_emetteur._has_field_ownership=true;
+ mesh=init_triangleGauthier1(is_master);
}
-
-
+ if (cas!="vide")
+ {
+ paramesh=new MEDCoupling::ParaMESH(mesh,recepteur_group.containsMyRank()?recepteur_group:emetteur_group,"emetteur mesh");
+ MEDCoupling::ComponentTopology comptopo;
+ champ_emetteur=new MEDCoupling::ParaFIELD(ON_CELLS,ONE_TIME,paramesh,comptopo);
+ champ_emetteur->getField()->setNature(IntensiveMaximum);
+ champ_emetteur->setOwnSupport(true);
+ if (rec==0)
+ {
+ mesh=init_triangleGauthier1(is_master);
+ }
+ else
+ {
+ mesh=init_quadGauthier1(is_master);
+ }
+ paramesh=new MEDCoupling::ParaMESH(mesh,recepteur_group.containsMyRank()?recepteur_group:emetteur_group,"recepteur mesh");
+ champ_recepteur=new MEDCoupling::ParaFIELD(ON_CELLS,ONE_TIME,paramesh,comptopo);
+ champ_recepteur->getField()->setNature(IntensiveMaximum);
+ champ_recepteur->setOwnSupport(true);
+ if (cas=="emetteur")
+ {
+ champ_emetteur->getField()->getArray()->fillWithValue(1.);
+ }
+ }
+
MPI_Barrier(MPI_COMM_WORLD);
//clock_t clock0= clock ();
bool stop=false;
//boucle sur les pas de quads
while (!stop) {
-
- compti++;
- //clock_t clocki= clock ();
- //cout << compti << " CLOCK " << (clocki-clock0)*1.e-6 << endl;
- for (int non_unif=0;non_unif<2;non_unif++)
- {
- // if (champ_recepteur._field)
- // delete [] champ_recepteur._field;
- champ_recepteur._field=0;
- // champ_recepteur._has_field_ownership=false;
-
-
-
- if (cas=="emetteur")
- {
- if (non_unif)
- if(rank!=3)
- champ_emetteur._field[0]=40;
- }
- //bool ok=false; // Is the time interval successfully solved ?
-
- // Loop on the time interval tries
- if(1) {
-
+ compti++;
+ //clock_t clocki= clock ();
+ //cout << compti << " CLOCK " << (clocki-clock0)*1.e-6 << endl;
+ for (int non_unif=0;non_unif<2;non_unif++)
+ {
if (cas=="emetteur")
- dec_emetteur.attachLocalField((ICoCo::Field*) &champ_emetteur);
- else
- dec_emetteur.attachLocalField((ICoCo::Field*) &champ_recepteur);
-
-
- if(init) dec_emetteur.synchronize();
- init=false;
-
- if (cas=="emetteur") {
- // affiche(champ_emetteur);
- dec_emetteur.sendData();
- }
- else if (cas=="recepteur")
{
- dec_emetteur.recvData();
- if (is_master)
- afficheGauthier1(champ_recepteur,expected[num_cas],expectedLgth[num_cas]);
+ if (non_unif)
+ if(rank!=3)
+ champ_emetteur->getField()->getArray()->setIJ(0,0,40);
}
- else
- throw 0;
- MPI_Barrier(MPI_COMM_WORLD);
+ //bool ok=false; // Is the time interval successfully solved ?
+
+ // Loop on the time interval tries
+ if(1) {
+
+
+ if (cas=="emetteur")
+ dec_emetteur.attachLocalField(champ_emetteur);
+ else
+ dec_emetteur.attachLocalField(champ_recepteur);
+
+
+ if(init) dec_emetteur.synchronize();
+ init=false;
+
+ if (cas=="emetteur") {
+ // affiche(champ_emetteur);
+ dec_emetteur.sendData();
+ }
+ else if (cas=="recepteur")
+ {
+ dec_emetteur.recvData();
+ if (is_master)
+ afficheGauthier1(*champ_recepteur,expected[num_cas],expectedLgth[num_cas]);
+ }
+ // else
+ // throw 0;
+ MPI_Barrier(MPI_COMM_WORLD);
+ }
+ stop=true;
+ num_cas++;
}
- stop=true;
- num_cas++;
- }
- // destruction des champs, des DEC, et des tableaux associƩs
}
+ delete champ_emetteur;
+ delete champ_recepteur;
}
}
+
+/*!
+ * This test is the parallel version of MEDCouplingBasicsTest.test3D1DOnP1P0_1 test.
+ */
+void ParaMEDMEMTest::testGauthier4()
+{
+ //
+ const double sourceCoords[19*3]={0.5,0.5,0.1,0.5,0.5,1.2,0.5,0.5,1.6,0.5,0.5,1.8,0.5,0.5,2.43,0.5,0.5,2.55,0.5,0.5,4.1,0.5,0.5,4.4,0.5,0.5,4.9,0.5,0.5,5.1,0.5,0.5,7.6,0.5,0.5,7.7,0.5,0.5,8.2,0.5,0.5,8.4,0.5,0.5,8.6,0.5,0.5,8.8,0.5,0.5,9.2,0.5,0.5,9.6,0.5,0.5,11.5};
+ const mcIdType sourceConn[18*2]={0,1,1,2,2,3,3,4,4,5,5,6,6,7,7,8,8,9,9,10,10,11,11,12,12,13,13,14,14,15,15,16,16,17,17,18};
+ const double sourceVals[19]={0.49,2.8899999999999997,7.29,13.69,22.09,32.49,44.89,59.29,75.69,94.09, 114.49,136.89,161.29,187.69,216.09,246.49,278.89,313.29,349.69};
+ const double targetCoords0[20*3]={0.,0.,0.,1.,0.,0.,0.,1.,0.,1.,1.,0.,0.,0.,1.,1.,0.,1.,0.,1.,1.,1.,1.,1.,0.,0.,2.,1.,0.,2.,0.,1.,2.,1.,1.,2.,0.,0.,3.,1.,0.,3.,0.,1.,3.,1.,1.,3.,0.,0.,4.,1.,0.,4.,0.,1.,4.,1.,1.,4.};
+ const mcIdType targetConn0[8*4]={1,0,2,3,5,4,6,7,5,4,6,7,9,8,10,11,9,8,10,11,13,12,14,15,13,12,14,15,17,16,18,19};
+ const double targetCoords1[28*3]={0.,0.,4.,1.,0.,4.,0.,1.,4.,1.,1.,4.,0.,0.,5.,1.,0.,5.,0.,1.,5.,1.,1.,5.,0.,0.,6.,1.,0.,6.,0.,1.,6.,1.,1.,6.,0.,0.,7.,1.,0.,7.,0.,1.,7.,1.,1.,7.,0.,0.,8.,1.,0.,8.,0.,1.,8.,1.,1.,8.,0.,0.,9.,1.,0.,9.,0.,1.,9.,1.,1.,9.,0.,0.,10.,1.,0.,10.,0.,1.,10.,1.,1.,10.};
+ const mcIdType targetConn1[8*6]={1,0,2,3,5,4,6,7,5,4,6,7,9,8,10,11,9,8,10,11,13,12,14,15,13,12,14,15,17,16,18,19,17,16,18,19,21,20,22,23,21,20,22,23,25,24,26,27};
+ //
+ int size;
+ int rank;
+ MPI_Comm_size(MPI_COMM_WORLD,&size);
+ MPI_Comm_rank(MPI_COMM_WORLD,&rank);
+ //
+ if(size!=3)
+ return ;
+ int nproc_source = 1;
+ set<int> self_procs;
+ set<int> procs_source;
+ set<int> procs_target;
+
+ for (int i=0; i<nproc_source; i++)
+ procs_source.insert(i);
+ for (int i=nproc_source; i<size; i++)
+ procs_target.insert(i);
+ self_procs.insert(rank);
+ //
+ MEDCoupling::MEDCouplingUMesh *mesh=0;
+ MEDCoupling::ParaMESH *paramesh=0;
+ MEDCoupling::ParaFIELD* parafield=0;
+ //
+ MEDCoupling::CommInterface interface;
+ //
+ ProcessorGroup* self_group = new MEDCoupling::MPIProcessorGroup(interface,self_procs);
+ ProcessorGroup* target_group = new MEDCoupling::MPIProcessorGroup(interface,procs_target);
+ ProcessorGroup* source_group = new MEDCoupling::MPIProcessorGroup(interface,procs_source);
+ //
+ MPI_Barrier(MPI_COMM_WORLD);
+ if(source_group->containsMyRank())
+ {
+ std::ostringstream stream; stream << "sourcemesh2D proc " << rank;
+ mesh=MEDCouplingUMesh::New(stream.str().c_str(),1);
+ mesh->allocateCells();
+ for(int i=0;i<18;i++)
+ mesh->insertNextCell(INTERP_KERNEL::NORM_SEG2,2,sourceConn+2*i);
+ mesh->finishInsertingCells();
+ DataArrayDouble *myCoords=DataArrayDouble::New();
+ myCoords->alloc(19,3);
+ std::copy(sourceCoords,sourceCoords+19*3,myCoords->getPointer());
+ mesh->setCoords(myCoords);
+ myCoords->decrRef();
+ paramesh=new ParaMESH(mesh,*source_group,"source mesh");
+ MEDCoupling::ComponentTopology comptopo;
+ parafield = new ParaFIELD(ON_NODES,NO_TIME,paramesh,comptopo);
+ double *value=parafield->getField()->getArray()->getPointer();
+ std::copy(sourceVals,sourceVals+19,value);
+ }
+ else
+ {
+ if(rank==1)
+ {
+ std::ostringstream stream; stream << "targetmesh2D proc " << rank-nproc_source;
+ mesh=MEDCouplingUMesh::New(stream.str().c_str(),3);
+ mesh->allocateCells();
+ for(int i=0;i<4;i++)
+ mesh->insertNextCell(INTERP_KERNEL::NORM_HEXA8,8,targetConn0+8*i);
+ mesh->finishInsertingCells();
+ DataArrayDouble *myCoords=DataArrayDouble::New();
+ myCoords->alloc(20,3);
+ std::copy(targetCoords0,targetCoords0+20*3,myCoords->getPointer());
+ mesh->setCoords(myCoords);
+ myCoords->decrRef();
+ paramesh=new ParaMESH (mesh,*target_group,"target mesh");
+ MEDCoupling::ComponentTopology comptopo;
+ parafield = new ParaFIELD(ON_CELLS,NO_TIME,paramesh, comptopo);
+ }
+ else if(rank==2)
+ {
+ std::ostringstream stream; stream << "targetmesh2D proc " << rank-nproc_source;
+ mesh=MEDCouplingUMesh::New(stream.str().c_str(),3);
+ mesh->allocateCells();
+ for(int i=0;i<6;i++)
+ mesh->insertNextCell(INTERP_KERNEL::NORM_HEXA8,8,targetConn1+8*i);
+ mesh->finishInsertingCells();
+ DataArrayDouble *myCoords=DataArrayDouble::New();
+ myCoords->alloc(28,3);
+ std::copy(targetCoords1,targetCoords1+28*3,myCoords->getPointer());
+ mesh->setCoords(myCoords);
+ myCoords->decrRef();
+ paramesh=new ParaMESH (mesh,*target_group,"target mesh");
+ MEDCoupling::ComponentTopology comptopo;
+ parafield = new ParaFIELD(ON_CELLS,NO_TIME,paramesh, comptopo);
+ }
+ }
+ //test 1 - primaire -> secondaire
+ MEDCoupling::InterpKernelDEC dec(*source_group,*target_group);
+ dec.setIntersectionType(INTERP_KERNEL::PointLocator);
+ parafield->getField()->setNature(IntensiveMaximum);//very important
+ if (source_group->containsMyRank())
+ {
+ dec.setMethod("P1");
+ dec.attachLocalField(parafield);
+ dec.synchronize();
+ dec.setForcedRenormalization(false);
+ dec.sendData();
+ }
+ else
+ {
+ dec.setMethod("P0");
+ dec.attachLocalField(parafield);
+ dec.synchronize();
+ dec.setForcedRenormalization(false);
+ dec.recvData();
+ const double *res(parafield->getField()->getArray()->getConstPointer());
+ if(rank==1)
+ {
+ const double expected0[4]={0.49,7.956666666666667,27.29,0.};
+ for(int i=0;i<4;i++)
+ CPPUNIT_ASSERT_DOUBLES_EQUAL(expected0[i],res[i],1e-13);
+ }
+ else
+ {
+ const double expected1[6]={59.95666666666667,94.09,0.,125.69,202.89,296.09};
+ for(int i=0;i<6;i++)
+ CPPUNIT_ASSERT_DOUBLES_EQUAL(expected1[i],res[i],1e-13);
+ }
+ }
+ MPI_Barrier(MPI_COMM_WORLD);
+ if (source_group->containsMyRank())
+ {
+ dec.recvData();
+ const double expected2[19]={0.49,7.956666666666667,7.956666666666667,7.956666666666667,27.29,27.29,59.95666666666667,59.95666666666667,59.95666666666667,94.09,125.69,125.69,202.89,202.89,202.89,202.89,296.09,296.09,0.};
+ const double *res(parafield->getField()->getArray()->getConstPointer());
+ for(int i=0;i<19;i++)
+ CPPUNIT_ASSERT_DOUBLES_EQUAL(expected2[i],res[i],1e-13);
+ }
+ else
+ {
+ dec.sendData();
+ }
+ delete parafield;
+ mesh->decrRef();
+ delete paramesh;
+ delete self_group;
+ delete target_group;
+ delete source_group;
+ //
+ MPI_Barrier(MPI_COMM_WORLD);
+}