From ddcd41eaa71f49eebfc45b18e13874f6deedb07f Mon Sep 17 00:00:00 2001 From: cvw Date: Tue, 6 Mar 2012 10:05:14 +0000 Subject: [PATCH] gnu indent and rules --- .../MEDPARTITIONER_MESHCollection.cxx | 1971 ----------------- .../MEDPARTITIONER_MESHCollection.hxx | 249 --- .../MEDPARTITIONER_MESHCollectionDriver.cxx | 557 ----- .../MEDPARTITIONER_MESHCollectionDriver.hxx | 64 - ...PARTITIONER_MESHCollectionMedAsciiDriver.H | 66 - ...RTITIONER_MESHCollectionMedAsciiDriver.cxx | 182 -- ...RTITIONER_MESHCollectionMedAsciiDriver.hxx | 76 - ...EDPARTITIONER_MESHCollectionMedXMLDriver.H | 122 - ...PARTITIONER_MESHCollectionMedXMLDriver.cxx | 335 --- ...PARTITIONER_MESHCollectionMedXMLDriver.hxx | 76 - .../MEDPARTITIONER_METISGraph.cxx | 232 -- .../MEDPARTITIONER_METISGraph.hxx | 38 - .../MEDPARTITIONER_MeshCollection.cxx | 1764 +++++++++++++++ .../MEDPARTITIONER_MeshCollection.hxx | 229 ++ .../MEDPARTITIONER_MeshCollectionDriver.cxx | 467 ++++ .../MEDPARTITIONER_MeshCollectionDriver.hxx | 54 + ...RTITIONER_MeshCollectionMedAsciiDriver.cxx | 177 ++ ...RTITIONER_MeshCollectionMedAsciiDriver.hxx | 41 + ...PARTITIONER_MeshCollectionMedXmlDriver.cxx | 284 +++ ...PARTITIONER_MeshCollectionMedXmlDriver.hxx | 41 + .../MEDPARTITIONER_MetisGraph.cxx | 236 ++ .../MEDPARTITIONER_MetisGraph.hxx | 38 + .../MEDPARTITIONER_SCOTCHGraph.hxx | 36 - ...aph.cxx => MEDPARTITIONER_ScotchGraph.cxx} | 47 +- .../MEDPARTITIONER_ScotchGraph.hxx | 38 + src/MEDPartitioner/MEDPARTITIONER_Utils.cxx | 1618 ++++++++++++++ src/MEDPartitioner/MEDPARTITIONER_Utils.hxx | 141 ++ src/MEDPartitioner/MEDPARTITIONER_utils.cxx | 1627 -------------- src/MEDPartitioner/MEDPARTITIONER_utils.hxx | 147 -- src/MEDPartitioner/Makefile.am | 76 +- .../Test/MEDPARTITIONERTest.cxx | 772 ++++--- .../Test/MEDPARTITIONERTest.hxx | 8 +- .../Test/TestMEDPARTITIONER.cxx | 9 +- src/MEDPartitioner/medpartitioner.cxx | 311 --- 34 files changed, 5570 insertions(+), 6559 deletions(-) delete mode 100644 src/MEDPartitioner/MEDPARTITIONER_MESHCollection.cxx delete mode 100644 src/MEDPartitioner/MEDPARTITIONER_MESHCollection.hxx delete mode 100644 src/MEDPartitioner/MEDPARTITIONER_MESHCollectionDriver.cxx delete mode 100644 src/MEDPartitioner/MEDPARTITIONER_MESHCollectionDriver.hxx delete mode 100644 src/MEDPartitioner/MEDPARTITIONER_MESHCollectionMedAsciiDriver.H delete mode 100644 src/MEDPartitioner/MEDPARTITIONER_MESHCollectionMedAsciiDriver.cxx delete mode 100644 src/MEDPartitioner/MEDPARTITIONER_MESHCollectionMedAsciiDriver.hxx delete mode 100644 src/MEDPartitioner/MEDPARTITIONER_MESHCollectionMedXMLDriver.H delete mode 100644 src/MEDPartitioner/MEDPARTITIONER_MESHCollectionMedXMLDriver.cxx delete mode 100644 src/MEDPartitioner/MEDPARTITIONER_MESHCollectionMedXMLDriver.hxx delete mode 100644 src/MEDPartitioner/MEDPARTITIONER_METISGraph.cxx delete mode 100644 src/MEDPartitioner/MEDPARTITIONER_METISGraph.hxx create mode 100644 src/MEDPartitioner/MEDPARTITIONER_MeshCollection.cxx create mode 100644 src/MEDPartitioner/MEDPARTITIONER_MeshCollection.hxx create mode 100644 src/MEDPartitioner/MEDPARTITIONER_MeshCollectionDriver.cxx create mode 100644 src/MEDPartitioner/MEDPARTITIONER_MeshCollectionDriver.hxx create mode 100644 src/MEDPartitioner/MEDPARTITIONER_MeshCollectionMedAsciiDriver.cxx create mode 100644 src/MEDPartitioner/MEDPARTITIONER_MeshCollectionMedAsciiDriver.hxx create mode 100644 src/MEDPartitioner/MEDPARTITIONER_MeshCollectionMedXmlDriver.cxx create mode 100644 src/MEDPartitioner/MEDPARTITIONER_MeshCollectionMedXmlDriver.hxx create mode 100644 src/MEDPartitioner/MEDPARTITIONER_MetisGraph.cxx create mode 100644 src/MEDPartitioner/MEDPARTITIONER_MetisGraph.hxx delete mode 100644 src/MEDPartitioner/MEDPARTITIONER_SCOTCHGraph.hxx rename src/MEDPartitioner/{MEDPARTITIONER_SCOTCHGraph.cxx => MEDPARTITIONER_ScotchGraph.cxx} (60%) create mode 100644 src/MEDPartitioner/MEDPARTITIONER_ScotchGraph.hxx create mode 100644 src/MEDPartitioner/MEDPARTITIONER_Utils.cxx create mode 100644 src/MEDPartitioner/MEDPARTITIONER_Utils.hxx delete mode 100644 src/MEDPartitioner/MEDPARTITIONER_utils.cxx delete mode 100644 src/MEDPartitioner/MEDPARTITIONER_utils.hxx delete mode 100644 src/MEDPartitioner/medpartitioner.cxx diff --git a/src/MEDPartitioner/MEDPARTITIONER_MESHCollection.cxx b/src/MEDPartitioner/MEDPARTITIONER_MESHCollection.cxx deleted file mode 100644 index eaab9f521..000000000 --- a/src/MEDPartitioner/MEDPARTITIONER_MESHCollection.cxx +++ /dev/null @@ -1,1971 +0,0 @@ -// Copyright (C) 2007-2010 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. -// -// This library 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 this library; if not, write to the Free Software -// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA -// -// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com -// - -#include "MEDCouplingUMesh.hxx" -#include "MEDCouplingNormalizedUnstructuredMesh.hxx" -#include "MEDCouplingMemArray.hxx" -#include "PointLocator3DIntersectorP0P0.hxx" -#include "BBTree.txx" -#include "MEDPARTITIONER_utils.hxx" - -#include "MEDPARTITIONER_Graph.hxx" - -#include "MEDPARTITIONER_ParallelTopology.hxx" -#include "MEDPARTITIONER_ParaDomainSelector.hxx" - -#include "MEDPARTITIONER_MESHCollection.hxx" -#include "MEDPARTITIONER_MESHCollectionDriver.hxx" -#include "MEDPARTITIONER_MESHCollectionMedXMLDriver.hxx" -#include "MEDPARTITIONER_MESHCollectionMedAsciiDriver.hxx" -#include "MEDPARTITIONER_JointFinder.hxx" -#include "MEDPARTITIONER_UserGraph.hxx" -#include "MEDLoader.hxx" -#include "MEDCouplingFieldDouble.hxx" - -#ifdef HAVE_MPI2 -#include -#endif - -#ifdef ENABLE_METIS -#include "MEDPARTITIONER_METISGraph.hxx" -#endif -#ifdef ENABLE_SCOTCH -#include "MEDPARTITIONER_SCOTCHGraph.hxx" -#endif - -#include -#include -#include - -#include - -#include -#include - -using namespace MEDPARTITIONER; - -#ifndef WNT -using namespace __gnu_cxx; -#else -using namespace std; -#endif - - -MESHCollection::MESHCollection() - : _topology(0), - _owns_topology(false), - _driver(0), - _domain_selector( 0 ), - _i_non_empty_mesh(-1), - _driver_type(MEDPARTITIONER::MedXML), - _subdomain_boundary_creates(false), - _family_splitting(false), - _create_empty_groups(false), - _joint_finder(0) -{ -} - -/*!constructor creating a new mesh collection (mesh series + topology) - *from an old collection and a new topology - * - * On output, the constructor has built the meshes corresponding to the new mesh collection. - * The new topology has been updated so that face and node mappings are included. - * The families have been cast to their projections in the new topology. - * - * \param initial_collection collection from which the data (coordinates, connectivity) are taken - * \param topology topology containing the cell mappings - */ - -MESHCollection::MESHCollection( - MESHCollection& initialCollection, - Topology* topology, - bool family_splitting, - bool create_empty_groups) //cvwat04 - : _name(initialCollection._name), - _topology(topology), - _owns_topology(false), - _driver(0), - _domain_selector( initialCollection._domain_selector ), - _i_non_empty_mesh(-1), - _driver_type(MEDPARTITIONER::MedXML), - _subdomain_boundary_creates(false), - _family_splitting(family_splitting), - _create_empty_groups(create_empty_groups), - _joint_finder(0) -{ - std::vector > > new2oldIds(initialCollection.getTopology()->nbDomain()); - if (MyGlobals::_verbose>10) std::cout<<"proc "<(inewdomain,inewnode) - createNodeMapping(initialCollection, nodeMapping); - //cvw std::cout<<"castMeshes"< > > new2oldFaceIds; - castFaceMeshes(initialCollection, nodeMapping, new2oldFaceIds); - - //////////////////// - //treating families - //////////////////// - - if (MyGlobals::_is0verbose) - if (isParallelMode()) std::cout<<"ParallelMode on "<nbDomain()<<" Domains"<nbDomain()<<" Domains"<10) std::cout<<"treating cell and face families"<getMesh(), - initialCollection.getCellFamilyIds(), - "cellFamily"); - castIntField2(initialCollection.getFaceMesh(), - this->getFaceMesh(), - initialCollection.getFaceFamilyIds(), - "faceFamily"); - - ////////////////// - //treating groups - ////////////////// - if (MyGlobals::_is0verbose) std::cout<<"treating groups"< > >& new2oldIds) -{ - if (_topology==0) throw INTERP_KERNEL::Exception(LOCALIZED("Topology has not been defined on call to castCellMeshes")); - - int nbNewDomain=_topology->nbDomain(); - int nbOldDomain=initialCollection.getTopology()->nbDomain(); - - _mesh.resize(nbNewDomain); - int rank=MyGlobals::_rank; - //if (MyGlobals::_verbose>10) std::cout<<"proc "< > splitMeshes; - splitMeshes.resize(nbNewDomain); - for (int inew=0; inewisMyDomain(iold)) - { - int size=(initialCollection._mesh)[iold]->getNumberOfCells(); - std::vector globalids(size); - initialCollection.getTopology()->getCellList(iold, &globalids[0]); - std::vector ilocalnew(size); //local - std::vector ipnew(size); //idomain old - //cvw work locally - _topology->convertGlobalCellList(&globalids[0],size,&ilocalnew[0],&ipnew[0]); - - new2oldIds[iold].resize(nbNewDomain); - for (int i=0; ibuildPartOfMySelf( - &new2oldIds[iold][inew][0], - &new2oldIds[iold][inew][0]+new2oldIds[iold][inew].size(), - true); - if (MyGlobals::_verbose>400) - std::cout<<"proc "<getNumberOfCells()<300) std::cout<<"proc "<isMyDomain(iold) && _domain_selector->isMyDomain(inew)) continue; - - if(initialCollection._domain_selector->isMyDomain(iold)) - _domain_selector->sendMesh(*(splitMeshes[inew][iold]),_domain_selector->getProcessorID(inew)); - - if (_domain_selector->isMyDomain(inew)) - _domain_selector->recvMesh(splitMeshes[inew][iold],_domain_selector->getProcessorID(iold)); - - } - } - - //fusing the split meshes - if (MyGlobals::_verbose>200) std::cout<<"proc "< meshes; - - for (int i=0; i< splitMeshes[inew].size();i++) - if (splitMeshes[inew][i]!=0) - if (splitMeshes[inew][i]->getNumberOfCells()>0) - meshes.push_back(splitMeshes[inew][i]); - - if (!isParallelMode()||_domain_selector->isMyDomain(inew)) - { - if (meshes.size()==0) - { - _mesh[inew]=createEmptyMEDCouplingUMesh(); - //throw INTERP_KERNEL::Exception(LOCALIZED("castCellMeshes fusing : no meshes")); - cout<<"WARNING : castCellMeshes fusing : no meshes try another number of processors"<mergeNodes(1e-12,areNodesMerged,nbNodesMerged); - array->decrRef(); // array is not used in this case - _mesh[inew]->zipCoords(); - } - } - for (int i=0; i< splitMeshes[inew].size(); i++) - if (splitMeshes[inew][i]!=0) splitMeshes[inew][i]->decrRef(); - } - if (MyGlobals::_verbose>300) std::cout<<"proc "<nbDomain();iold++) - { - - double* bbox; - BBTree<3>* tree; - if (!isParallelMode() || (_domain_selector->isMyDomain(iold))) - { - // std::map >, int > nodeClassifier; - int nvertices=initialCollection.getMesh(iold)->getNumberOfNodes(); - bbox=new double[nvertices*6]; - ParaMEDMEM::DataArrayDouble* coords = initialCollection.getMesh(iold)->getCoords(); - double* coordsPtr=coords->getPointer(); - - for (int i=0; i(bbox,0,0,nvertices,1e-9); - } - - for (int inew=0; inew<_topology->nbDomain(); inew++) //cvwat12 - { - //sending meshes for parallel computation - if (isParallelMode() && _domain_selector->isMyDomain(inew) && !_domain_selector->isMyDomain(iold)) - _domain_selector->sendMesh(*(getMesh(inew)), _domain_selector->getProcessorID(iold)); - else if (isParallelMode() && !_domain_selector->isMyDomain(inew)&& _domain_selector->isMyDomain(iold)) - { - ParaMEDMEM::MEDCouplingUMesh* mesh; - _domain_selector->recvMesh(mesh, _domain_selector->getProcessorID(inew)); - ParaMEDMEM::DataArrayDouble* coords = mesh->getCoords(); - for (int inode=0; inodegetNumberOfNodes();inode++) - { - double* coordsPtr=coords->getPointer()+inode*3; - vector elems; - tree->getElementsAroundPoint(coordsPtr,elems); - if (elems.size()==0) continue; - nodeMapping.insert(make_pair(make_pair(iold,elems[0]),make_pair(inew,inode))); - } - mesh->decrRef(); - } - else if (!isParallelMode() || (_domain_selector->isMyDomain(inew) && _domain_selector->isMyDomain(iold))) - { - ParaMEDMEM::DataArrayDouble* coords = getMesh(inew)->getCoords(); - for (int inode=0; inode<_mesh[inew]->getNumberOfNodes();inode++) - { - double* coordsPtr=coords->getPointer()+inode*3; - vector elems; - tree->getElementsAroundPoint(coordsPtr,elems); - if (elems.size()==0) continue; - nodeMapping.insert(make_pair(make_pair(iold,elems[0]),make_pair(inew,inode))); - } - } - } - if (!isParallelMode() || (_domain_selector->isMyDomain(iold))) - { - delete tree; - delete[] bbox; - } - } - -} - -//getNodeIds(meshCell, meshFace, nodeIds) -//inodeCell=nodeIds[inodeFace] -//(put the biggest mesh in One) -//if no corresponding node then inodeCell==-1 -void getNodeIds(ParaMEDMEM::MEDCouplingUMesh& meshOne, ParaMEDMEM::MEDCouplingUMesh& meshTwo, vector& nodeIds) -{ - using std::vector; - if (!&meshOne || !&meshTwo) return; //empty or not existing - double* bbox; - BBTree<3>* tree; - int nv1=meshOne.getNumberOfNodes(); - bbox=new double[nv1*6]; - ParaMEDMEM::DataArrayDouble* coords=meshOne.getCoords(); - double* coordsPtr=coords->getPointer(); - for (int i=0; i(bbox,0,0,nv1,1e-9); - - int nv2=meshTwo.getNumberOfNodes(); - nodeIds.resize(nv2,-1); - coords=meshTwo.getCoords(); - for (int inode=0; inodegetPointer()+inode*3; - vector elems; - tree->getElementsAroundPoint(coordsPtr,elems); - if (elems.size()==0) continue; - nodeIds[inode]=elems[0]; - } - delete tree; - delete[] bbox; -} - -/*! - creates the face meshes on the new domains from the faces on the old domain and the node mapping - faces at the interface are duplicated -*/ -void MESHCollection::castFaceMeshes(MESHCollection& initialCollection, - const std::multimap, std::pair >& nodeMapping, - std::vector > >& new2oldIds) -{ - - //splitMeshes structure will contain the partition of - //the old faces on the new ones - //splitMeshes[4][2] contains the faces from old domain 2 - //that have to be added to domain 4 - - using std::vector; - using std::map; - using std::multimap; - using std::pair; - using std::make_pair; - - vector& meshesCastFrom=initialCollection.getFaceMesh(); - vector& meshesCastTo=this->getFaceMesh(); - - vector< vector > splitMeshes; - int newSize=_topology->nbDomain(); - int fromSize=meshesCastFrom.size(); - - splitMeshes.resize(newSize); - for (int inew=0;inewisMyDomain(iold)) continue; - if (meshesCastFrom[iold] != 0) - { - for (int ielem=0; ielemgetNumberOfCells(); ielem++) - { - vector nodes; - meshesCastFrom[iold]->getNodeIdsOfCell(ielem,nodes); - - map faces; - - //analysis of element ielem - //counters are set for the element - //for each source node, the mapping is interrogated and the domain counters - //are incremented for each target node - //the face is considered as going to target domains if the counter of the domain - //is equal to the number of nodes - for (int inode=0; inode,pair >::const_iterator MI; - int mynode=nodes[inode]; - - pair myRange = nodeMapping.equal_range(make_pair(iold,mynode)); - for (MI iter=myRange.first; iter!=myRange.second; iter++) - { - int inew=iter->second.first; - if (faces.find(inew)==faces.end()) - faces[inew]=1; - else - faces[inew]++; - } - } - - for (map::iterator iter=faces.begin(); iter!=faces.end(); iter++) - { - if (iter->second==nodes.size()) - //cvw eligible but may be have to be face of a cell of this->getMesh()[inew]? - //it is not sure here... - //done before writeMedfile on option?... see filterFaceOnCell() - new2oldIds[iold][iter->first].push_back(ielem); - } - } - - //creating the splitMeshes from the face ids - for (int inew=0;inew<_topology->nbDomain();inew++) - { - if (meshesCastFrom[iold]->getNumberOfCells() > 0) //cvw - { - splitMeshes[inew][iold]= - (ParaMEDMEM::MEDCouplingUMesh*) - ( meshesCastFrom[iold]->buildPartOfMySelf( - &new2oldIds[iold][inew][0], - &new2oldIds[iold][inew][0]+new2oldIds[iold][inew].size(), - true) - ); - splitMeshes[inew][iold]->zipCoords(); - } - else - { - //std::cout<<"one empty mesh from "<isMyDomain(iold)<<" "<< - _domain_selector->isMyDomain(inew)<isMyDomain(iold) && !_domain_selector->isMyDomain(inew)) - if (splitMeshes[inew][iold] != 0) { - //cvw std::cout<<"send NOT empty mesh "<getName()<<" "<sendMesh(*(splitMeshes[inew][iold]), _domain_selector->getProcessorID(inew)); - } - else { - //std::cout<<"send empty mesh "<sendMesh(*(empty), _domain_selector->getProcessorID(inew)); - } - if (!_domain_selector->isMyDomain(iold) && _domain_selector->isMyDomain(inew)) - _domain_selector->recvMesh(splitMeshes[inew][iold], _domain_selector->getProcessorID(iold)); - } - empty->decrRef(); - } - - //recollecting the bits of splitMeshes to fuse them into one - if (MyGlobals::_verbose>300) std::cout<<"proc "< myMeshes; - for (int iold=0; ioldgetNumberOfCells()>0) { - myMeshes.push_back(umesh); - } - //else { - // std::cout<<"one empty mesh "<0) - { - meshesCastTo[inew]=ParaMEDMEM::MEDCouplingUMesh::MergeUMeshes(myMeshes); - } - else - { - //std::cout<<"one empty meshes to merge "<setName("emptyMesh"); - //empty->setMeshDimension(3); - //empty->allocateCells(0); - ParaMEDMEM::MEDCouplingUMesh *empty=createEmptyMEDCouplingUMesh(); - meshesCastTo[inew]=empty; - } - // meshesCastTo[inew]->zipCoords(); - for (int iold=0; iolddecrRef(); - } - //if (MyGlobals::_verbose>1) std::cout<<"proc "<setCoords(sourceCoords); - vector c; - vector cI; - tmpMesh->getNodeIdsNearPoints(targetCoords->getConstPointer(),targetMesh.getNumberOfCells(),1e-10,c,cI); - if (cI.size()!= targetMesh.getNumberOfCells()+1) - throw INTERP_KERNEL::Exception(LOCALIZED("Error in source/target projection")); - for (int itargetnode=0; itargetnodedecrRef(); - targetCoords->decrRef(); - tmpMesh->decrRef(); -} - -void MESHCollection::castIntField2( //cvwat08 - std::vector& meshesCastFrom, - std::vector& meshesCastTo, - std::vector& arrayFrom, - std::string nameArrayTo) -{ - using std::vector; - - int ioldMax=meshesCastFrom.size(); - int inewMax=meshesCastTo.size(); - // send-recv operations - for (int inew=0; inewisMyDomain(iold) && !_domain_selector->isMyDomain(inew)) - { - //send mesh - _domain_selector->sendMesh(*meshesCastFrom[iold],_domain_selector->getProcessorID(inew)); - //send vector - int size=arrayFrom[iold]->getNumberOfTuples(); //cvw may be -1! - vectorsendIds; - if (MyGlobals::_verbose>400) std::cout<<"proc "<<_domain_selector->rank()<<" : castIntField sendIntVec size "<0) //no empty - { - sendIds.resize(size); - std::copy(arrayFrom[iold]->getPointer(),arrayFrom[iold]->getPointer()+size,&sendIds[0]); - } - else //empty - { - size=0; - sendIds.resize(size); - } - //std::cout<<"proc "<<_domain_selector->rank()<<" : castIntField sendIntVec "<getProcessorID(inew)); - } - //receiving arrays from distant domains - if (isParallelMode() && !_domain_selector->isMyDomain(iold) && _domain_selector->isMyDomain(inew)) - { - //receive mesh - vector recvIds; - ParaMEDMEM::MEDCouplingUMesh* recvMesh; - _domain_selector->recvMesh(recvMesh,_domain_selector->getProcessorID(iold)); - //receive vector - if (MyGlobals::_verbose>400) std::cout<<"proc "<<_domain_selector->rank()<<" : castIntField recIntVec "<getProcessorID(iold)); - remapIntField2(inew,iold,*recvMesh,*meshesCastTo[inew],&recvIds[0],nameArrayTo); - recvMesh->decrRef(); //cww is it correct? - } - } - } - - //local contributions and aggregation - for (int inew=0; inewisMyDomain(iold) && _domain_selector->isMyDomain(inew))) - { - remapIntField2(inew,iold,*meshesCastFrom[iold],*meshesCastTo[inew],arrayFrom[iold]->getConstPointer(),nameArrayTo); - } - } -} - -void MESHCollection::remapIntField2(int inew,int iold, - const ParaMEDMEM::MEDCouplingUMesh& sourceMesh, - const ParaMEDMEM::MEDCouplingUMesh& targetMesh, - const int* fromArray, - string nameArrayTo) -//here we store ccI for next use in future call of castAllFields and remapDoubleField2 -{ - using std::vector; - //cout<<"remapIntField2 "<setCoords(sourceCoords); - vector c; - vector cI; - vector ccI; //memorize intersection target<-source(inew,iold) - string str,cle; - str=nameArrayTo+"_toArray"; - cle=cle1ToStr(str,inew); - int* toArray; - int targetSize=targetMesh.getNumberOfCells(); - //first time iold : create and initiate - if (_mapDataArrayInt.find(cle)==_mapDataArrayInt.end()) - { - if (MyGlobals::_is0verbose>100) cout<<"create "<alloc(targetSize,1); - p->fillWithZero(); - toArray=p->getPointer(); - _mapDataArrayInt[cle]=p; - } - else //other times iold: refind and complete - { - toArray=_mapDataArrayInt.find(cle)->second->getPointer(); - } - tmpMesh->getNodeIdsNearPoints(targetCoords->getConstPointer(),targetSize,1e-10,c,cI); - if (cI.size()!=targetSize+1) - throw INTERP_KERNEL::Exception(LOCALIZED("Error in source/target projection")); - for (int itargetnode=0; itargetnode700) cout<<"proc "<decrRef(); - targetCoords->decrRef(); - tmpMesh->decrRef(); -} - -void MESHCollection::castAllFields(MESHCollection& initialCollection, string nameArrayTo) //cvwat08 -{ - using std::vector; - if (nameArrayTo!="cellFieldDouble") - throw INTERP_KERNEL::Exception(LOCALIZED("Error castAllField only on cellFieldDouble")); - - string nameTo="typeData=6"; //resume the type of field casted - // send-recv operations - int ioldMax=initialCollection.getMesh().size(); - int inewMax=this->getMesh().size(); - int iFieldMax=initialCollection.getFieldDescriptions().size(); - if (MyGlobals::_verbose>10) cout<<"castAllFields with:\n"< initialCollection.getFieldDescriptions() - //getFieldDescriptions() is a string description of field coherent and tested and set BEFORE. - //see collection.prepareFieldDescriptions() - for (int ifield=0; ifieldisMyDomain(iold) && !_domain_selector->isMyDomain(inew)) - { - int target=_domain_selector->getProcessorID(inew); - ParaMEDMEM::DataArrayDouble* field=initialCollection.getField(descriptionField,iold); //cvwat14 - //getField look for and read it if not done, and assume decrRef() in ~MESHCollection; - if (MyGlobals::_verbose>10) - std::cout<<"proc "<<_domain_selector->rank()<<" : castAllFields sendDouble"<isMyDomain(iold) && _domain_selector->isMyDomain(inew)) - { - int source=_domain_selector->getProcessorID(iold); - //receive vector - if (MyGlobals::_verbose>10) - std::cout<<"proc "<<_domain_selector->rank()<<" : castAllFields recvDouble"<isMyDomain(iold) && _domain_selector->isMyDomain(inew))) - { - ParaMEDMEM::DataArrayDouble* field=initialCollection.getField(descriptionField,iold); //cvwat14 - remapDoubleField3(inew,iold,field,nameArrayTo,descriptionField); - } - } - } -} - -void MESHCollection::remapDoubleField3(int inew, int iold, - ParaMEDMEM::DataArrayDouble* fromArray, - string nameArrayTo, - string descriptionField) -//here we use 'cellFamily_ccI inew iold' set in remapIntField2 -{ - using std::vector; - if (nameArrayTo!="cellFieldDouble") - throw INTERP_KERNEL::Exception(LOCALIZED("Error remapDoubleField3 only on cellFieldDouble")); - string cle=cle2ToStr("cellFamily_ccI",inew,iold); - - map::iterator it1; - it1=_mapDataArrayInt.find(cle); - if (it1==_mapDataArrayInt.end()) - { - cerr<<"proc "<second; - if (MyGlobals::_verbose>300) cout<<"proc "<getNbOfElems()<getMesh()[inew]->getNumberOfCells(); //number of cell of mesh - int nbcomp=fromArray->getNumberOfComponents(); - int nbPtGauss=strToInt(extractFromDescription(descriptionField, "nbPtGauss=")); - - //int nbk=fromArray->getNumberOfTuples(); - - //cle=reprGenericDescription(descriptionField)+" "+intToStr(inew); - string tag="inewFieldDouble="+intToStr(inew); - cle=descriptionField+serializeFromString(tag); - //cout<<"descriptionField in remapDoubleField3 : "<getNbOfElems(); - int fromArrayNbOfComp=fromArray->getNumberOfComponents(); - int fromArrayNbOfCell=fromArrayNbOfElem/fromArrayNbOfComp/nbPtGauss; - - if (MyGlobals::_verbose>1000) - { - cout<<"proc "<getNumberOfTuples()<< - " nbcells "<getNumberOfComponents()<::iterator it2; - it2=_mapDataArrayDouble.find(cle); - if (it2==_mapDataArrayDouble.end()) - { - if (MyGlobals::_verbose>300) cout<<"proc "<alloc(nbcell*nbPtGauss,nbcomp); - field->fillWithZero(); - } - else - { - field=it2->second; - if (field->getNumberOfTuples()!=nbcell*nbPtGauss || field->getNumberOfComponents()!=nbcomp) - { - cerr<<"proc "<getNbOfElems()<setPartOfValuesAdv(fromArray,ccI); - } - else - { - //replaced by setPartOfValuesAdv if nbPtGauss==1 - int iMax=ccI->getNbOfElems(); - int* pccI=ccI->getPointer(); - double* pField=field->getPointer(); - double* pFrom=fromArray->getPointer(); - int itarget, isource, delta=nbPtGauss*nbcomp; - for (int i=0; i=nbcell) || (isource<0) || (isource>=fromArrayNbOfCell)) - throw INTERP_KERNEL::Exception(LOCALIZED("Error field override")); - int ita=itarget*delta; - int iso=isource*delta; - for (int k=0; ksetCoords(sourceCoords); - vector c; - vector cI; - tmpMesh->getNodeIdsNearPoints(targetCoords->getConstPointer(),targetMesh.getNumberOfCells(),1e-10,c,cI); - if (cI.size()!= targetMesh.getNumberOfCells()+1) - throw INTERP_KERNEL::Exception(LOCALIZED("Error in source/target projection")); - - for (int itargetnode=0; itargetnodedecrRef(); - targetCoords->decrRef(); - tmpMesh->decrRef(); -} -*/ - -/*! constructing the MESH collection from a distributed file - * - * \param filename name of the master file containing the list of all the MED files - */ -MESHCollection::MESHCollection(const std::string& filename) - : _topology(0), - _owns_topology(true), - _driver(0), - _domain_selector( 0 ), - _i_non_empty_mesh(-1), - _driver_type(MEDPARTITIONER::Undefined), - _subdomain_boundary_creates(false), - _family_splitting(false), - _create_empty_groups(false), - _joint_finder(0) -{ - // char filenamechar[256]; - // strcpy(filenamechar,filename.c_str()); - try - { - _driver=new MESHCollectionMedXMLDriver(this); - _driver->read (filename.c_str()); - _driver_type = MedXML; - } - catch(...) - { // Handle all exceptions - if ( _driver ) delete _driver; _driver=0; - try - { - _driver=new MESHCollectionMedAsciiDriver(this); - _driver->read (filename.c_str()); - _driver_type=MedAscii; - } - catch(...) - { - if ( _driver ) delete _driver; _driver=0; - throw INTERP_KERNEL::Exception(LOCALIZED("file does not comply with any recognized format")); - } - } - for ( int idomain = 0; idomain < _mesh.size(); ++idomain ) - if ( _mesh[idomain] && _mesh[idomain]->getNumberOfNodes() > 0 ) - _i_non_empty_mesh = idomain; -} - -/*! Constructing the MESH collection from selected domains of a distributed file - * - * \param filename - name of the master file containing the list of all the MED files - * \param domainSelector - selector of domains to load - */ -MESHCollection::MESHCollection(const std::string& filename, ParaDomainSelector& domainSelector) //cvwat01 - : _topology(0), - _owns_topology(true), - _driver(0), - //cvw _domain_selector( domainSelector.nbProcs() > 1 ? & domainSelector : 0 ), - _domain_selector( &domainSelector ), - _i_non_empty_mesh(-1), - _driver_type(MEDPARTITIONER::Undefined), - _subdomain_boundary_creates(false), - _family_splitting(false), - _create_empty_groups(false), - _joint_finder(0) -{ - std::string myfile=filename; - std::size_t found=myfile.find(".xml"); - if (found!=std::string::npos) //file .xml - { - try - { - _driver=new MESHCollectionMedXMLDriver(this); //cvwat02 - _driver->read ( (char*)filename.c_str(), _domain_selector ); - _driver_type = MedXML; - } - catch(...) - { // Handle all exceptions - if ( _driver ) delete _driver; _driver=0; - throw INTERP_KERNEL::Exception(LOCALIZED("file .xml does not comply with any recognized format")); - } - } - else - { - found=myfile.find(".med"); - if (found!=std::string::npos) //file .med single - { - //make a temporary file .xml and retry MedXMLDriver - std::string xml="\ -\n \ -\n \ - \n \ - \n \ - \n \ - \n \ - \n \ - \n \ - \n \ - \n \ - \n \ - \n \ - \n \ - $fileName\n \ - localhost\n \ - \n \ - \n \ - \n \ - \n \ - \n \ - $meshName\n \ - \n \ - \n \ - \n \ -\n"; - std::vector meshNames=MEDLoader::GetMeshNames(myfile.c_str()); - xml.replace(xml.find("$fileName"),9,myfile); - xml.replace(xml.find("$meshName"),9,meshNames[0]); - xml.replace(xml.find("$meshName"),9,meshNames[0]); - xml.replace(xml.find("$meshName"),9,meshNames[0]); - //std::cout<rank()==0) //only on to write it - { - std::ofstream f(nameFileXml.c_str()); - f<read ( (char*)nameFileXml.c_str(), _domain_selector ); - _driver_type = MedXML; - } - catch(...) - { // Handle all exceptions - if ( _driver ) delete _driver; _driver=0; - throw INTERP_KERNEL::Exception(LOCALIZED("file medpartitioner_xxx.xml does not comply with any recognized format")); - } - } - else //no extension - { - try - { - _driver=new MESHCollectionMedAsciiDriver(this); - _driver->read ( (char*)filename.c_str(), _domain_selector ); - _driver_type=MedAscii; - } - catch(...) - { - if ( _driver ) delete _driver; _driver=0; - throw INTERP_KERNEL::Exception(LOCALIZED("file name with no extension does not comply with any recognized format")); - } - } - } - - /*done in MESHCollectionMedXMLDriver read - if ( isParallelMode() ) - // to know nb of cells on each proc to compute global cell ids from locally global - _domain_selector->gatherNbOf( getMesh() );*/ - - // find non-empty domain mesh - for ( int idomain = 0; idomain < _mesh.size(); ++idomain ) - if ( _mesh[idomain] && _mesh[idomain]->getNumberOfNodes() > 0 ) - _i_non_empty_mesh = idomain; - - try - { - //check for all proc/file compatibility of _fieldDescriptions - //*MyGlobals::_fileNames=allgathervVectorOfString(*MyGlobals::_fileNames); - _fieldDescriptions=allgathervVectorOfString(MyGlobals::_fieldDescriptions); //cvwat07 - } - catch(INTERP_KERNEL::Exception& e) - { - cerr<<"proc "< v2=allgathervVectorOfString(vectorizeFromMapOfStringInt(_familyInfo)); - _familyInfo=devectorizeToMapOfStringInt(v2); - } - catch(INTERP_KERNEL::Exception& e) - { - cerr<<"proc "< v2=allgathervVectorOfString( - vectorizeFromMapOfStringVectorOfString(_groupInfo)); - _groupInfo=deleteDuplicatesInMapOfStringVectorOfString( - devectorizeToMapOfStringVectorOfString(v2)); - } - catch(INTERP_KERNEL::Exception& e) - { - cerr<<"proc "< _meshes=MEDLoader::GetMeshNames(filename); - //std::vector< std::string > _fields=MEDLoader::GetAllFieldNamesOnMesh(filename,meshname[0]); - //cout<<"number of fields "<<_fields.size()<readSeq (filename.c_str(),meshname.c_str()); - } - catch (...) - { - if ( _driver ) delete _driver; _driver=0; - throw INTERP_KERNEL::Exception(LOCALIZED("problem reading .med files")); - } - if ( _mesh[0] && _mesh[0]->getNumberOfNodes() > 0 ) - _i_non_empty_mesh = 0; -} - -MESHCollection::~MESHCollection() -{ - for (int i=0; i<_mesh.size();i++) - if (_mesh[i]!=0) _mesh[i]->decrRef(); - - for (int i=0; i<_cellFamilyIds.size();i++) - if (_cellFamilyIds[i]!=0) _cellFamilyIds[i]->decrRef(); - - for (int i=0; i<_faceMesh.size();i++) - if (_faceMesh[i]!=0) _faceMesh[i]->decrRef(); - - for (int i=0; i<_faceFamilyIds.size();i++) - if (_faceFamilyIds[i]!=0) _faceFamilyIds[i]->decrRef(); - - for (map::iterator it=_mapDataArrayInt.begin() ; it!=_mapDataArrayInt.end(); it++ ) - if ((*it).second!=0) (*it).second->decrRef(); - - for (map::iterator it=_mapDataArrayDouble.begin() ; it!=_mapDataArrayDouble.end(); it++ ) - if ((*it).second!=0) (*it).second->decrRef(); - - if (_driver !=0) {delete _driver; _driver=0;} - if (_topology!=0 && _owns_topology) {delete _topology; _topology=0;} - - if (_joint_finder!=0) {delete _joint_finder; _joint_finder=0;} -} - -/*! constructing the MESH collection from a file - * - * The method creates as many MED-files as there are domains in the - * collection. It also creates a master file that lists all the MED files. - * The MED files created in ths manner contain joints that describe the - * connectivity between subdomains. - * - * \param filename name of the master file that will contain the list of the MED files - * - */ -void MESHCollection::write(const std::string& filename) -{ - //building the connect zones necessary for writing joints - // if (_topology->nbDomain()>1) - // buildConnectZones(); - //suppresses link with driver so that it can be changed for writing - if (_driver!=0) delete _driver; - _driver=0; - - //char filenamechar[256]; - // strcpy(filenamechar,filename.c_str()); - retrieveDriver()->write (filename.c_str(), _domain_selector); -} - -/*! creates or gets the link to the collection driver - */ -MESHCollectionDriver* MESHCollection::retrieveDriver() -{ - if (_driver==0) - { - switch(_driver_type) - { - case MedXML: - _driver=new MESHCollectionMedXMLDriver(this); - break; - case MedAscii: - _driver=new MESHCollectionMedAsciiDriver(this); - break; - default: - throw INTERP_KERNEL::Exception(LOCALIZED("Unrecognized driver")); - } - } - return _driver; -} - - -/*! gets an existing driver - * - */ -MESHCollectionDriver* MESHCollection::getDriver() const { - return _driver; -} - -// /*! retrieves the mesh dimension*/ -int MESHCollection::getMeshDimension() const { - return _i_non_empty_mesh < 0 ? -1 : _mesh[_i_non_empty_mesh]->getMeshDimension(); -} - -std::vector& MESHCollection::getMesh() { - return _mesh; -} - -std::vector& MESHCollection::getFaceMesh() { - return _faceMesh; -} - -ParaMEDMEM::MEDCouplingUMesh* MESHCollection::getMesh(int idomain) const { - return _mesh[idomain]; -} - -ParaMEDMEM::MEDCouplingUMesh* MESHCollection::getFaceMesh(int idomain) { - return _faceMesh[idomain]; -} - -std::vector& MESHCollection::getCZ() { - return _connect_zones; -} - -Topology* MESHCollection::getTopology() const { - return _topology; -} - -void MESHCollection::setTopology(Topology* topo) { - if (_topology!=0) - { - throw INTERP_KERNEL::Exception(LOCALIZED("topology is already set")); - } - else - _topology = topo; -} - -/*! Method creating the cell graph - * - * \param array returns the pointer to the structure that contains the graph - * \param edgeweight returns the pointer to the table that contains the edgeweights - * (only used if indivisible regions are required) - */ -void MESHCollection::buildCellGraph(MEDPARTITIONER::MEDSKYLINEARRAY* & array, int *& edgeweights ) //cvwat09 -{ - using std::multimap; - using std::vector; - using std::make_pair; - using std::pair; - - multimap< int, int > node2cell; - multimap< int, int > cell2cell; - multimap< int, int > cell2node; - - vector > > commonDistantNodes; - int nbdomain=_topology->nbDomain(); - if (isParallelMode()) - { - _joint_finder=new JointFinder(*this); - _joint_finder->findCommonDistantNodes(); - commonDistantNodes=_joint_finder->getDistantNodeCell(); - } - - if (MyGlobals::_verbose>500) _joint_finder->print(); - - //looking for reverse nodal connectivity i global numbering - for (int idomain=0; idomainisMyDomain(idomain)) continue; - - /*obsolete - int offsetCell=0, offsetNode=0; - if (isParallelMode()) - { - offsetCell=_domain_selector->getDomainCellShift(idomain); - offsetNode=_domain_selector->getDomainNodeShift(idomain); - }*/ - - ParaMEDMEM::DataArrayInt* index=ParaMEDMEM::DataArrayInt::New(); - ParaMEDMEM::DataArrayInt* revConn=ParaMEDMEM::DataArrayInt::New(); - int nbNodes=_mesh[idomain]->getNumberOfNodes(); - //cout<<"proc "<getReverseNodalConnectivity(revConn,index); - //problem saturation over 1 000 000 nodes for 1 proc - if (MyGlobals::_verbose>100) cout<<"proc "<getPointer(); - int* revConnPtr=revConn->getPointer(); - //if (MyGlobals::_verbose>100) cout<<"proc "<convertNodeToGlobal(idomain,i); - int globalCell=_topology->convertCellToGlobal(idomain,revConnPtr[icell]); - node2cell.insert(make_pair(globalNode, globalCell)); - //cvw cout<<" "<decrRef(); - index->decrRef(); - //vector > > dNC=getDistantNodeCell() - for (int iother=0; iother::iterator it; - int isource=idomain; - int itarget=iother; - for (it=_joint_finder->_distant_node_cell[isource][itarget].begin(); - it!=_joint_finder->_distant_node_cell[isource][itarget].end(); it++) - { - int globalNode=_topology->convertNodeToGlobal(idomain,(*it).first); - int globalCell=(*it).second; - node2cell.insert(make_pair(globalNode, globalCell)); - //cout<<"processor "<100) cout<<"proc "<nbNodes()<nbNodes(); inode++) //on all nodes - { - typedef multimap::const_iterator MI; - pair myRange=node2cell.equal_range(inode); - for (MI cell1=myRange.first; cell1!=myRange.second; cell1++) //on cells with inode - { - pair myNodes1=cell2node.equal_range(cell1->second); //nodes of one cell - for (MI cell2=myRange.first; cell2!=myRange.second; cell2++) //on one of these cell - { - if (cell1->second!=cell2->second) //in cells of my domain - { - pair myNodes2=cell2node.equal_range(cell2->second); //on nodes of this cell - int nbcn=0; //number of common nodes between cells: at least 3 for cells - for (MI it1=myNodes1.first; it1!=myNodes1.second; ++it1) - { - for (MI it2=myNodes2.first; it2!=myNodes2.second; ++it2) - { - if ((*it1).second==(*it2).second) - { - nbcn=nbcn+1 ; break; - } - } - } - if (nbcn>=3) //cvw TODO if 2d cells set at 2 - cell2cell.insert(make_pair(cell1->second,cell2->second)); - //note here there is some global numerotation of cell which come from other domain (not mydomain) - //cout<<" "<second<<"!"<second; //cvw - } - } - } - } - - if (MyGlobals::_verbose>100) cout<<"proc "< index,value; - index.push_back(0); - int idep=0; - - for (int idomain=0; idomainisMyDomain(idomain)) continue; - int nbCells=_mesh[idomain]->getNumberOfCells(); - for (int icell=0; icellconvertCellToGlobal(idomain,icell); - multimap::iterator it; - pair::iterator,multimap::iterator> ret; - ret=cell2cell.equal_range(globalCell); - //cout<<" "<100) - { - std::cout<<"\nproc "<<_domain_selector->rank()<<" : end MESHCollection::buildCellGraph "<< - index.size()-1<<" "<1) - { - for (int i=0; i<10; ++i) cout< node2cell; - multimap< int, int > cell2cell; - - vector > > commonDistantNodes; - int nbdomain=_topology->nbDomain(); - if (isParallelMode()) - { - _joint_finder=new JointFinder(*this); - _joint_finder->findCommonDistantNodes(); - commonDistantNodes=_joint_finder->getDistantNodeCell(); - } - - //looking for reverse nodal connectivity i global numbering - for (int idomain=0; idomainisMyDomain(idomain)) continue; - int offset=0, procOffset=0; - if (isParallelMode()) - { - offset=_domain_selector->getDomainCellShift(idomain); - procOffset=_domain_selector->getProcShift(); - } - ParaMEDMEM::DataArrayInt* index=ParaMEDMEM::DataArrayInt::New(); - ParaMEDMEM::DataArrayInt* revConn=ParaMEDMEM::DataArrayInt::New(); - _mesh[idomain]->getReverseNodalConnectivity(revConn,index); - int* index_ptr=index->getPointer(); - ParaMEDMEM::DataArrayInt* globalRevConn=revConn->deepCpy(); - _topology->convertCellToGlobal(idomain, - revConn->getPointer(), - index_ptr[_mesh[idomain]->getNumberOfNodes()], - globalRevConn->getPointer()); - - int min=std::numeric_limits::max(),max=-1; - for (int i=0; i< index_ptr[_mesh[idomain]->getNumberOfNodes()];i++) - { - if (revConn->getPointer()[i]getPointer()[i]; - if (revConn->getPointer()[i]>max) max=revConn->getPointer()[i]; - } - int* globalNodeIds=new int[_mesh[idomain]->getNumberOfNodes()]; - _topology->getNodeList(idomain,globalNodeIds); - - int* globalRevConnPtr=globalRevConn->getPointer(); - for (int i=0; i<_mesh[idomain]->getNumberOfNodes();i++) - { - for (int icell=index_ptr[i]; icellnbDomain();mydomain++) - { - if (_domain_selector->isMyDomain(mydomain)) continue; - multimap::iterator iter; - for (iter=commonDistantNodes[idomain][mydomain].begin();iter!=commonDistantNodes[idomain][mydomain].end();iter++) - { - int ilocnode=iter->first; - int icell=iter->second; - node2cell.insert(make_pair(globalNodeIds[ilocnode],icell+offset)); - } - } - } - - globalRevConn->decrRef(); - revConn->decrRef(); - index->decrRef(); - delete[] globalNodeIds; - } - - //creating graph arcs (cell to cell relations) - //arcs are stored in terms of (index,value) notation - // 0 3 5 6 6 - // 1 2 3 2 3 3 - // means 6 arcs (0,1), (0,2), (0,3), (1,2), (1,3), (2,3) - // in present version arcs are not doubled but reflexive (1,1) arcs are present for each cell - - //warning here one node have effective number of cell with it - //but cell could have more than effective nodes - //is it normal??? because other equals nodes in other domain (with other inode)??? - - int mincell,maxcell; - if (isParallelMode()) - { - mincell=_domain_selector->getProcShift(); - maxcell=mincell; - for (int i=0; iisMyDomain(i)) maxcell+=_mesh[i]->getNumberOfCells(); - } - else - { - mincell=0; - maxcell=_topology->nbCells(); - } - for (int inode=0; inode<_topology->nbNodes(); inode++) //on all nodes - { - typedef multimap::const_iterator MI; - pair myRange = node2cell.equal_range(inode); - - - for (MI cell1=myRange.first; cell1!=myRange.second; cell1++) //on cells with inode - { - for (MI cell2 = myRange.first; cell2!=myRange.second; cell2++) //on one of these cell - { - if (cell1->second!=cell2->second && cell1->second>=mincell && cell1->secondsecond,cell2->second)); - } - } - } - } - //cout<<"proc "<::const_iterator iter; - - iter=cell2cell.begin(); - vector index,value; - index.push_back(0); - int idep=0; - while (iter != cell2cell.end()) - { - multimap::const_iterator next_iter = cell2cell.upper_bound(iter->first); - int size=0; - for (multimap::const_iterator current_iter=iter; current_iter!=next_iter; current_iter++) - { - int ival=current_iter->second; //no adding one existing yet - for (int i=idep ; i10) cout<<"proc "< 0")); - MEDPARTITIONER::MEDSKYLINEARRAY* array=0; - int* edgeweights=0; - - //cout<<"Building cell graph... "; - // if ( _domain_selector ) - // buildCellGraphParallel(array,edgeweights); - // else - buildCellGraph(array,edgeweights); //cvwat09 - //MPI_Barrier(MPI_COMM_WORLD); - //cout<<"proc "<10) cout<<"METISGraph"<10) cout<<"SCOTCHGraph"<setEdgesWeights(user_edge_weights); - if (user_vertices_weights!=0) - cellGraph->setVerticesWeights(user_vertices_weights); - - if (MyGlobals::_is0verbose>10) cout<<"partitioning graph on "<partGraph(nbdomain, options_string, _domain_selector); //cvwat10 - - if (MyGlobals::_is0verbose>10) cout<<"building new topology"<11) cout<<"proc "< domains; - for (int i=0; i<_topology->nbCells(); i++) - { - domains.insert(partition[i]); - } - int nbdomain=domains.size(); - - cellGraph=(Graph*)(new UserGraph(array, partition, _topology->nbCells())); - - //cellGraph is a shared pointer - Topology* topology = new ParallelTopology (cellGraph, getTopology(), nbdomain, getMeshDimension()); - - // if (array!=0) delete array; - delete cellGraph; - return topology; -} - -void MESHCollection::setDomainNames(const std::string& name) -{ - for (int i=0; i<_topology->nbDomain(); i++) - { - std::ostringstream oss; - oss<isMyDomain(i)) - _mesh[i]->setName(oss.str().c_str()); - } -} - -ParaMEDMEM::DataArrayDouble* MESHCollection::getField(std::string descriptionField, int iold) -//getField look for and read it if not done, and assume decrRef() in ~MESHCollection; -//something like MEDCouplingFieldDouble *f2=MEDLoader::ReadFieldCell(name.c_str(),f1->getMesh()->getName(),0,f1->getName(),0,1); - { - int rank=MyGlobals::_rank; - string tag="ioldFieldDouble="+intToStr(iold); - string descriptionIold=descriptionField+serializeFromString(tag); - if (_mapDataArrayDouble.find(descriptionIold)!=_mapDataArrayDouble.end()) - { - if (MyGlobals::_verbose>300) cout<<"proc "<reprZip()<200) cout<<"proc "<10) - cout<<"proc "<getArray(); - //to know names of components - vector browse=browseFieldDouble(f2); - //done yet - //double time=f2->getTime(IT,DT); - //browse.push_back("time="+doubleToStr(time)); - string localFieldInformation=descriptionIold+serializeFromVectorOfString(browse); - if (MyGlobals::_verbose>10) cout<<"proc "<incrRef(); //free field, keep res - f2->decrRef(); - _mapDataArrayDouble[descriptionIold]=res; - - //duplicate it! because f2->decRef!! - //DataArrayDouble* res=f2->getArray()->deepCpy(); - //f2->decrRef(); - //cout<reprZip()< r2; - //from allgatherv then vector(procs) of serialised vector(fields) of vector(description) data - for (int i=0; i<_fieldDescriptions.size(); i++) - { - vector r1=deserializeToVectorOfString(_fieldDescriptions[i]); - for (int i=0; i& inodesFace,vector< int >& inodesCell) -{ - int ires=0; - int nbok=inodesFace.size(); - for (int i=0; inbDomain(); inew++) - { - if (isParallelMode() && _domain_selector->isMyDomain(inew)) - { - if (MyGlobals::_verbose>200) - std::cout<<"proc "<getNumberOfCells()< nodeIds; - //cout<<"proc "<getReverseNodalConnectivity(revNodalCel,revNodalIndxCel); - int *revC=revNodalCel->getPointer(); - int *revIndxC=revNodalIndxCel->getPointer(); - - vector< int > faceOnCell; - vector< int > faceNotOnCell; - int nbface=mfac->getNumberOfCells(); - for (int iface=0; iface inodesFace; - mfac->getNodeIdsOfCell(iface, inodesFace); - int nbnodFace=inodesFace.size(); - //set inodesFace in mcel - for (int i=0; i inodesCell; - mcel->getNodeIdsOfCell(icel, inodesCell); - ok=isFaceOncell(inodesFace, inodesCell); - if (ok) break; - } - if (ok) - { - faceOnCell.push_back(iface); - //if (MyGlobals::_is0verbose) cout<<"face on cell "<decrRef(); - revNodalIndxCel->decrRef(); - - string cle; - cle=cle1ToStr("filterFaceOnCell",inew); - _mapDataArrayInt[cle]=createDataArrayIntFromVector(faceOnCell); - cle=cle1ToStr("filterNotFaceOnCell",inew); - _mapDataArrayInt[cle]=createDataArrayIntFromVector(faceNotOnCell); - - /*ParaMEDMEM::DataArrayInt* index=ParaMEDMEM::DataArrayInt::New(); - ParaMEDMEM::DataArrayInt* revConn=ParaMEDMEM::DataArrayInt::New(); - _mesh[idomain]->getReverseNodalConnectivity(revConn,index); - int* index_ptr=index->getPointer();*/ - - /*if (MyGlobals::_is0verbose) - { - cout<<"proc "<nbDomain(); inew++) - { - if (isParallelMode() && _domain_selector->isMyDomain(inew)) - { - if (MyGlobals::_verbose>1) std::cout<<"proc "<getNumberOfCells()<buildDescendingConnectivity(desc,descIndx,revDesc,revDescIndx); - revDesc->decrRef(); - desc->decrRef(); - descIndx->decrRef(); - int nbOfCells=meshDM1->getNumberOfCells(); - const int *revDescIndxC=revDescIndx->getConstPointer(); - std::vector boundaryCells; - for(int i=0; idecrRef(); - bool keepCoords=true; - MEDCouplingUMesh *ret=(MEDCouplingUMesh *)meshDM1->buildPartOfMySelf(&boundaryCells[0],&boundaryCells[0]+boundaryCells.size(),keepCoords); - meshDM1->decrRef(); - //don't know what to do with result yet.. - //_faceMesh[inew]->decrRef(); - //_faceMesh[inew]=ret; - } - } -} -*/ - diff --git a/src/MEDPartitioner/MEDPARTITIONER_MESHCollection.hxx b/src/MEDPartitioner/MEDPARTITIONER_MESHCollection.hxx deleted file mode 100644 index e30a9b639..000000000 --- a/src/MEDPartitioner/MEDPARTITIONER_MESHCollection.hxx +++ /dev/null @@ -1,249 +0,0 @@ -// Copyright (C) 2007-2010 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. -// -// This library 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 this library; if not, write to the Free Software -// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA -// -// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com -// -#ifndef __MEDPARTITIONER_MESHCOLLECTION_HXX__ -#define __MEDPARTITIONER_MESHCOLLECTION_HXX__ - -#include "MEDPARTITIONER.hxx" - -#include "MEDPARTITIONER_Graph.hxx" -#include "MEDCouplingUMesh.hxx" - -//#include "MEDPARTITIONER_FaceModel.hxx" -//#include "boost/shared_ptr.hpp" -#include -#include -#include -namespace ParaMEDMEM -{ - class MEDCouplingUMesh; - class DataArrayInt; -} - - -namespace MEDPARTITIONER -{ - - class Topology; - class MESHCollectionDriver; - class ParaDomainSelector; - class MEDSKYLINEARRAY; - class CONNECTZONE; - class JointFinder; - typedef enum{MedAscii, MedXML, Undefined} DriverType; - - typedef std::multimap, std::pair > NodeMapping ; - typedef std::vector > NodeList; - - class MEDPARTITIONER_EXPORT MESHCollection - { - - public: - - //Default constructor - MESHCollection(); - - //Constructing from an existing mesh and a new topology - MESHCollection(MESHCollection&, Topology*, bool family_splitting=false, bool create_empty_groups=false); - - //Constructing the mesh collection from a file - MESHCollection(const std::string& filename); - - //Constructing the mesh collection from a file - MESHCollection(const std::string& filename, ParaDomainSelector& domainSelector); - - //Constructing the mesh collection from a file - MESHCollection(const std::string& filename, const std::string& meshname); - - ~MESHCollection(); - - bool isParallelMode() const { return _domain_selector; } - - //writing to a distributed file - void write(const std::string& filename); - - //getting the driver - MESHCollectionDriver* retrieveDriver(); - MESHCollectionDriver* getDriver() const; - void setDriverType(MEDPARTITIONER::DriverType type) {_driver_type=type;} - - //creation of the cell graph - void buildCellGraph(MEDPARTITIONER::MEDSKYLINEARRAY* & array,int *& edgeweights ); - - //creation and partition of the associated graph - Topology* createPartition(int nbdomain, Graph::splitter_type type = Graph::METIS, - const std::string& ="", int* edgeweights=0, int* verticesweights=0); - - //creation of a user specified partition - Topology* createPartition(const int* partition); - - //getting mesh dimension - int getMeshDimension() const ; - - //getting a reference to mesh vector - std::vector& getMesh(); - std::vector& getFaceMesh(); - std::vector >& getGroupMeshes(); - - ParaMEDMEM::MEDCouplingUMesh* getMesh(int idomain) const; - ParaMEDMEM::MEDCouplingUMesh* getFaceMesh(int idomain); - std::vector& getGroupMeshes(int idomain); - - std::vector& getCellFamilyIds() {return _cellFamilyIds;} - std::vector& getFaceFamilyIds() {return _faceFamilyIds;} - - std::map& getMapDataArrayInt() {return _mapDataArrayInt;} - std::map& getMapDataArrayDouble() {return _mapDataArrayDouble;} - - std::map& getFamilyInfo() {return _familyInfo;} - std::map >& getGroupInfo() {return _groupInfo;} - - ParaMEDMEM::DataArrayDouble* getField(std::string descriptionField, int iold); - std::vector& getFieldDescriptions() {return _fieldDescriptions;} - void prepareFieldDescriptions(); - void filterFaceOnCell(); - - //getting a reference to connect zones vector - std::vector& getCZ(); - - //getting a pointer to topology - Topology* getTopology() const ; - ParaDomainSelector* getParaDomainSelector() const{return _domain_selector;} - //settig a new topology - void setTopology(Topology* topology); - - //getting/setting the name of the global mesh (as opposed - //to the name of a subdomain \a nn, which is name_nn) - std::string getName() const {return _name;} - void setName(const std::string& name){_name=name;} - void setDomainNames(const std::string& name); - - //getting/setting the description of the global mesh - std::string getDescription() const {return _description;} - void setDescription(const std::string& name) { _description=name;} - - //creates the node mapping between an old collection and the present one - void createNodeMapping(MESHCollection& initialCollection, - std::multimap,std::pair >& nodeMapping); - - void castCellMeshes(MESHCollection& initialCollection, - std::vector > >& new2oldIds); - - //creates faces on the new collection - void castFaceMeshes(MESHCollection& initialCollection, - const std::multimap, std::pair >& nodeMapping, - std::vector > >& new2oldIds); - - private: - - void castIntField2(std::vector& meshesCastFrom, - std::vector& meshesCastTo, - std::vector& arrayFrom, - std::string nameArrayTo); - - void castAllFields(MESHCollection& initialCollection, - std::string nameArrayTo); - - void findCommonDistantNodes(std::vector > >& commonDistantNodes); - - void remapIntField(const ParaMEDMEM::MEDCouplingUMesh& sourceMesh, - const ParaMEDMEM::MEDCouplingUMesh& targetMesh, - const int* fromArray, - int* toArray); - - void remapIntField2(int inew, int iold, - const ParaMEDMEM::MEDCouplingUMesh& sourceMesh, - const ParaMEDMEM::MEDCouplingUMesh& targetMesh, - const int* fromArray, - std::string nameArrayTo); - - void remapDoubleField3(int inew, int iold, - ParaMEDMEM::DataArrayDouble* fromArray, - std::string nameArrayTo, - std::string descriptionField); - - //!link to mesh_collection topology - Topology* _topology; - - //!control over topology - bool _owns_topology; - - //!link to graph - //Graph* _cell_graph; - - //! Driver for read/write operations - MESHCollectionDriver* _driver; - - //! Parallelizer - mark of parallel execution mode - ParaDomainSelector* _domain_selector; - - //!links to meshes - std::vector _mesh; - std::vector _faceMesh; - - //!index of a non empty mesh within _mesh (in parallel mode all of meshes can be empty) - int _i_non_empty_mesh; - - //!links to connectzones - std::vector _connect_zones; - - //!family ids storages - std::vector _cellFamilyIds; - std::vector _faceFamilyIds; - - //!DataArrayInt* storages - std::map _mapDataArrayInt; - //!DataArrayDouble* storages - std::map _mapDataArrayDouble; - - std::vector _fieldDescriptions; //fields to be partitioned - - //!group family conversion - std::map _familyInfo; - std::map > _groupInfo; - - //!list of groups that are not to be splitted - std::vector _indivisible_regions; - - //!name of global mesh - std::string _name; - - //!description of global mesh - std::string _description; - - //! specifies the driver associated to the collection - DriverType _driver_type; - - /*! flag specifying that the splitter should create boundary constituent entity - so that they are written in joints*/ - bool _subdomain_boundary_creates; - - /*! flag specifying that families must be preserved by the - splitting*/ - bool _family_splitting; - - /*! flag specifying that groups must be created on all domains, - even if they are empty*/ - bool _create_empty_groups; - - JointFinder* _joint_finder; - }; - -}//of namespace - -#endif /*MESHCOLLECTION_*/ diff --git a/src/MEDPartitioner/MEDPARTITIONER_MESHCollectionDriver.cxx b/src/MEDPartitioner/MEDPARTITIONER_MESHCollectionDriver.cxx deleted file mode 100644 index 78b1e5edf..000000000 --- a/src/MEDPartitioner/MEDPARTITIONER_MESHCollectionDriver.cxx +++ /dev/null @@ -1,557 +0,0 @@ -// Copyright (C) 2007-2010 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. -// -// This library 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 this library; if not, write to the Free Software -// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA -// -// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com -// -#include -#include -#include -#include - -#include -#include - -#include -#include -#include -#include - -#include -#include "MEDCouplingUMesh.hxx" -#include "MEDCouplingFieldDouble.hxx" -#include "MEDLoader.hxx" -#include "MEDFileMesh.hxx" - -extern "C" { -#include "med.h" -} -//MEDPARTITIONER includes -#include "MEDPARTITIONER_ParallelTopology.hxx" -#include "MEDPARTITIONER_MESHCollectionDriver.hxx" -#include "MEDPARTITIONER_MESHCollection.hxx" -#include "MEDPARTITIONER_ParaDomainSelector.hxx" -#include "MEDPARTITIONER_utils.hxx" - -using namespace MEDPARTITIONER; -using namespace std; - -//template inclusion -//#include "MEDPARTITIONER_MESHCollectionDriver.H" - -// med_geometrie_element typmai[MED_NBR_GEOMETRIE_MAILLE+2] = { MED_POINT1, -// MED_SEG2, -// MED_SEG3, -// MED_TRIA3, -// MED_TRIA6, -// MED_QUAD4, -// MED_QUAD8, -// MED_TETRA4, -// MED_TETRA10, -// MED_HEXA8, -// MED_HEXA20, -// MED_PENTA6, -// MED_PENTA15, -// MED_PYRA5, -// MED_PYRA13, -// MED_POLYGONE, -// MED_POLYEDRE }; - -MESHCollectionDriver::MESHCollectionDriver(MESHCollection* collection):_collection(collection) -{ -} - - -/*!reads a unique MED File v>=2.1 - * and mounts the corresponding mesh in memory - *\param filename binary file - *\param meshname mesh name in the MED file - * */ -int MESHCollectionDriver::readSeq(const char* filename, const char* meshname) -{ - cout<<"readSeq"<getMesh()).push_back(mfm->getLevel0Mesh(false)); - (_collection->getFaceMesh()).push_back(mfm->getLevelM1Mesh(false)); - - //reading family ids - - ParaMEDMEM::DataArrayInt* cellIds(mfm->getFamilyFieldAtLevel(0)->deepCpy()); - ParaMEDMEM::DataArrayInt* faceIds(mfm->getFamilyFieldAtLevel(-1)->deepCpy()); - (_collection->getCellFamilyIds()).push_back(cellIds); - (_collection->getFaceFamilyIds()).push_back(faceIds); - - //reading groups - (_collection->getFamilyInfo())=mfm->getFamilyInfo(); - (_collection->getGroupInfo())=mfm->getGroupInfo(); - -// (_collection->getGroupMeshes()).resize(groupNames.size()); - -// for (int i=0; i< groupNames.size();i++) -// { -// vector myGroup; -// myGroup.push_back(groupNames[i]); -// (_collection->getGroupMeshes())[i].push_back(MEDLoader::ReadUMeshFromGroups(filename,meshname,-1,myGroup)); -// } - - - (_collection->getCZ()).clear(); - /*cvw - vector cellglobal,nodeglobal,faceglobal; - cellglobal.resize(1); - nodeglobal.resize(1); - faceglobal.resize(1); - cellglobal[0]=0; - nodeglobal[0]=0; - faceglobal[0]=0; - //creation of topology from mesh - //connectzone argument is 0 - ParallelTopology* aPT = new ParallelTopology - ((_collection->getMesh()), (_collection->getCZ()), cellglobal, nodeglobal, faceglobal); - */ - - ParallelTopology* aPT = new ParallelTopology((_collection->getMesh())); - _collection->setTopology(aPT); - _collection->setName(meshname); - _collection->setDomainNames(meshname); - return 0; -} - - -//================================================================================ -/*! - * \brief Return mesh dimension from distributed med file had being read - */ -//================================================================================ - -void MESHCollectionDriver::readSubdomain(vector& cellglobal, //cvwat03 - vector& faceglobal, - vector& nodeglobal, int idomain) -{ - string meshname=MyGlobals::_meshNames[idomain]; - string file=MyGlobals::_fileNames[idomain]; - - //cout << "Reading "< nonEmpty=mfm->getNonEmptyLevels(); - - try - { - (_collection->getMesh())[idomain]=mfm->getLevel0Mesh(false); - //reading families groups - ParaMEDMEM::DataArrayInt* cellIds(mfm->getFamilyFieldAtLevel(0)->deepCpy()); - (_collection->getCellFamilyIds())[idomain]=cellIds; - } - catch(...) - { - (_collection->getMesh())[idomain]=createEmptyMEDCouplingUMesh(); // or 0 if you want tests; - ParaMEDMEM::DataArrayInt* empty=ParaMEDMEM::DataArrayInt::New(); - empty->alloc(0,1); - (_collection->getCellFamilyIds())[idomain]=empty; - cout<<"\nNO Level0Mesh (Cells)\n"; - } - try - { - if (nonEmpty.size()>1 && nonEmpty[1]==-1) - { - (_collection->getFaceMesh())[idomain]=mfm->getLevelM1Mesh(false); - //reading families groups - ParaMEDMEM::DataArrayInt* faceIds(mfm->getFamilyFieldAtLevel(-1)->deepCpy()); - (_collection->getFaceFamilyIds())[idomain]=faceIds; - } - else - { - throw "no faces"; - } - } - catch(...) - { - //ParaMEDMEM::MEDCouplingUMesh *umesh=ParaMEDMEM::MEDCouplingUMesh::New(); //empty one - //umesh->setMeshDimension(3); - //umesh->allocateCells(0); - //int nb=umesh->getNumberOfCells(); //no use if no allocateCells(0)! because thrown exception - //cout<<"\nempty mesh"<getFaceMesh())[idomain]=createEmptyMEDCouplingUMesh(); // or 0 if you want test; - ParaMEDMEM::DataArrayInt* empty=ParaMEDMEM::DataArrayInt::New(); - (_collection->getFaceFamilyIds())[idomain]=empty; - if (MyGlobals::_verbose>10) cout<<"proc "<getFamilyInfo()=mfm->getFamilyInfo(); - _collection->getGroupInfo()=mfm->getGroupInfo(); - - mfm->decrRef(); - - vector localInformation; - string str; - localInformation.push_back(str+"ioldDomain="+intToStr(idomain)); - localInformation.push_back(str+"meshName="+meshname); - MyGlobals::_generalInformations.push_back(serializeFromVectorOfString(localInformation)); - vector localFields=browseAllFieldsOnMesh(file, meshname, idomain); //cvwat07 - if (localFields.size()>0) - MyGlobals::_fieldDescriptions.push_back(serializeFromVectorOfString(localFields)); - //cout<< "End Reading "< nonEmpty=mfm->getNonEmptyLevels(); - - try - { - (_collection->getMesh())[idomain]=mfm->getLevel0Mesh(false); - //reading families groups - ParaMEDMEM::DataArrayInt* cellIds(mfm->getFamilyFieldAtLevel(0)->deepCpy()); - (_collection->getCellFamilyIds())[idomain]=cellIds; - } - catch(...) - { - (_collection->getMesh())[idomain]=createEmptyMEDCouplingUMesh(); // or 0 if you want tests; - ParaMEDMEM::DataArrayInt* empty=ParaMEDMEM::DataArrayInt::New(); - empty->alloc(0,1); - (_collection->getCellFamilyIds())[idomain]=empty; - cout<<"\nNO Level0Mesh (Cells)\n"; - } - try - { - if (nonEmpty.size()>1 && nonEmpty[1]==-1) - { - (_collection->getFaceMesh())[idomain]=mfm->getLevelM1Mesh(false); - //reading families groups - ParaMEDMEM::DataArrayInt* faceIds(mfm->getFamilyFieldAtLevel(-1)->deepCpy()); - (_collection->getFaceFamilyIds())[idomain]=faceIds; - } - else - { - throw "no faces"; - } - } - catch(...) - { - (_collection->getFaceMesh())[idomain]=createEmptyMEDCouplingUMesh(); // or 0 if you want test; - ParaMEDMEM::DataArrayInt* empty=ParaMEDMEM::DataArrayInt::New(); - (_collection->getFaceFamilyIds())[idomain]=empty; - if (MyGlobals::_verbose>10) cout<<"proc "<getFamilyInfo()=mfm->getFamilyInfo(); - _collection->getGroupInfo()=mfm->getGroupInfo(); - - mfm->decrRef(); - - vector localInformation; - string str; - localInformation.push_back(str+"ioldDomain="+intToStr(idomain)); - localInformation.push_back(str+"meshName="+meshname); - MyGlobals::_generalInformations.push_back(serializeFromVectorOfString(localInformation)); - vector localFields=browseAllFieldsOnMesh(file, meshname, idomain); //cvwat07 - if (localFields.size()>0) - MyGlobals::_fieldDescriptions.push_back(serializeFromVectorOfString(localFields)); - //cout<< "End Reading "< meshes; - ParaMEDMEM::MEDCouplingUMesh* cellMesh=_collection->getMesh(idomain); - ParaMEDMEM::MEDCouplingUMesh* faceMesh=_collection->getFaceMesh(idomain); - ParaMEDMEM::MEDCouplingUMesh* faceMeshFilter=0; - - string finalMeshName=extractFromDescription(MyGlobals::_generalInformations[0], "finalMeshName="); - string cleFilter=cle1ToStr("filterFaceOnCell",idomain); - DataArrayInt* filter=0; - if (_collection->getMapDataArrayInt().find(cleFilter)!=_collection->getMapDataArrayInt().end()) - { - filter=_collection->getMapDataArrayInt().find(cleFilter)->second; - int* index=filter->getPointer(); - faceMeshFilter=(MEDCouplingUMesh *) faceMesh->buildPartOfMySelf(index,index+filter->getNbOfElems(),true); - faceMesh=faceMeshFilter; - } - cellMesh->setName(finalMeshName.c_str()); - meshes.push_back(cellMesh); - - //cellMesh->zipCoords(); - //faceMesh->zipCoords(); - - faceMesh->checkCoherency(); - if (faceMesh->getNumberOfCells()>0) - { - faceMesh->tryToShareSameCoordsPermute(*cellMesh, 1e-10); - meshes.push_back(faceMesh); - } - - /*do not work - ParaMEDMEM::MEDFileUMesh* mfm2=ParaMEDMEM::MEDFileUMesh::New(); - MEDFileUMesh* mfm2 = static_cast(cellMesh->getMeshes()->getMeshAtPos(0)); - MEDFileUMesh* mfm2 = ParaMEDMEM::MEDFileUMesh::New(cellMesh); - string fname="FUM_"+distfilename; - mfm2->setMeshAtLevel(0, cellMesh ); - mfm2->setMeshAtLevel(-1, faceMesh ); - mfm2->write(fname.c_str(),0); - mfm2->decrRef(); - */ - - ParaMEDMEM::MEDCouplingUMesh* boundaryMesh=0; - //ParaMEDMEM::MEDCouplingUMesh* boundaryMesh1=0; - //ParaMEDMEM::MEDCouplingUMesh* finalboundaryMesh=0; - if (MyGlobals::_creates_boundary_faces>0) - { - //try to write Boundary meshes - bool keepCoords=false; //TODO or true - boundaryMesh=(MEDCouplingUMesh *) cellMesh->buildBoundaryMesh(keepCoords); - boundaryMesh->setName("boundaryMesh"); - //cout<<"boundaryMesh "<getNumberOfCells()<checkCoherency(); - //boundaryMesh->tryToShareSameCoordsPermute(*cellMesh, 1e-10); - //meshes.push_back(boundaryMesh); - //string boundary="boundary_"+distfilename; - - /*try to find joint do no work - int rang=MyGlobals::_rank; - if (rang==1) (_collection->getParaDomainSelector())->sendMesh(*(boundaryMesh),0); - if (rang==0) - { - (_collection->getParaDomainSelector())->recvMesh(boundaryMesh1,1); - //vector meshes; - //vector corr; - //meshes.push_back(boundaryMesh); - //meshes.push_back(boundaryMesh1); - //need share the same coords - //boundaryMesh1->tryToShareSameCoordsPermute(*boundaryMesh, 1e-10); - //finalboundaryMesh=MEDCouplingUMesh::FuseUMeshesOnSameCoords(meshes,2, corr); - //boundaryMesh=finalboundaryMesh; - - boundaryMesh->zipCoords(); - boundaryMesh1->zipCoords(); - finalboundaryMesh=MEDCouplingUMesh::MergeUMeshes(boundaryMesh,boundaryMesh1); - DataArrayInt* commonNodes=0; - commonNodes=finalboundaryMesh->zipCoordsTraducer(); - boundaryMesh=finalboundaryMesh; - cout<<"zipcoords"<repr()<decrRef(); - - - if (boundaryMesh!=0) - { - //doing that testMesh becomes second mesh sorted by alphabetical order of name - MEDLoader::WriteUMesh(distfilename.c_str(), boundaryMesh, false); - boundaryMesh->decrRef(); - } - - //cout<<"familyInfo :\n"<getFamilyInfo())<getGroupInfo())<getMesh(idomain)->getName()); - - /*example of adding new family - (_collection->getFamilyInfo())["FaceNotOnCell"]=-500; - vector FaceNotOnCell; - FaceNotOnCell.push_back("FaceNotOnCell"); - (_collection->getGroupInfo())["FaceNotOnCell"]=FaceNotOnCell; - */ - - mfm->setFamilyInfo(_collection->getFamilyInfo()); - mfm->setGroupInfo(_collection->getGroupInfo()); - - //cvwat08 - //without filter mfm->setFamilyFieldArr(-1,(_collection->getFaceFamilyIds())[idomain]); - - string cle=cle1ToStr("faceFamily_toArray",idomain); - if (_collection->getMapDataArrayInt().find(cle)!=_collection->getMapDataArrayInt().end()) - { - DataArrayInt* fam=_collection->getMapDataArrayInt().find(cle)->second; - DataArrayInt* famFilter=0; - if (filter!=0) - { - int* index=filter->getPointer(); - int nbTuples=filter->getNbOfElems(); - //not the good one...buildPartOfMySelf do not exist for DataArray - //Filter=fam->renumberAndReduce(index, filter->getNbOfElems()); - famFilter=DataArrayInt::New(); - famFilter->alloc(nbTuples,1); - int* pfamFilter=famFilter->getPointer(); - int* pfam=fam->getPointer(); - for (int i=0; isetFamilyFieldArr(-1,fam); - famFilter->decrRef(); - } - //cout<<"proc "<setFamilyFieldArr(-1,fam); - // if (famFilter!=0) famFilter->decrRef(); - } - - /*example visualisation of filter - if (_collection->getMapDataArrayInt().find(cle)!=_collection->getMapDataArrayInt().end()) - { - DataArrayInt* fam=_collection->getMapDataArrayInt().find(cle)->second; - string cle2=cle1ToStr("filterNotFaceOnCell",idomain); - if (_collection->getMapDataArrayInt().find(cle2)!=_collection->getMapDataArrayInt().end()) - { - DataArrayInt* filter=_collection->getMapDataArrayInt().find(cle2)->second; - int* index=filter->getPointer(); - int* pfam=fam->getPointer(); - for (int i=0; igetNbOfElems(); i++) pfam[index[i]]=-500; - } - mfm->setFamilyFieldArr(-1,fam); - //mfm->setFamilyFieldArr(-1,_collection->getMapDataArrayInt().find(cle)->second); - } - */ - - cle=cle1ToStr("cellFamily_toArray",idomain); - if (_collection->getMapDataArrayInt().find(cle)!=_collection->getMapDataArrayInt().end()) - mfm->setFamilyFieldArr(0,_collection->getMapDataArrayInt().find(cle)->second); - - mfm->write(distfilename.c_str(),0); - cle="/inewFieldDouble="+intToStr(idomain)+"/"; - - map::iterator it; - int nbfFieldFound=0; - for (it=_collection->getMapDataArrayDouble().begin() ; it!=_collection->getMapDataArrayDouble().end(); it++) - { - string desc=(*it).first; - size_t found=desc.find(cle); - if (found==string::npos) continue; - if (MyGlobals::_verbose>20) cout<<"proc "<setName(fieldName.c_str()); - field->setMesh(mfm->getLevel0Mesh(false)); - DataArrayDouble* da=(*it).second; - - //get information for components etc.. - vector r1; - r1=selectTagsInVectorOfString(MyGlobals::_generalInformations,"fieldName="+fieldName); - r1=selectTagsInVectorOfString(r1,"typeField="+intToStr(typeField)); - r1=selectTagsInVectorOfString(r1,"DT="+intToStr(DT)); - r1=selectTagsInVectorOfString(r1,"IT="+intToStr(IT)); - //not saved in file? field->setDescription(extractFromDescription(r1[0], "fieldDescription=").c_str()); - int nbc=strToInt(extractFromDescription(r1[0], "nbComponents=")); - //double time=strToDouble(extractFromDescription(r1[0], "time=")); - if (nbc==da->getNumberOfComponents()) - { - for (int i=0; isetInfoOnComponent(i,extractFromDescription(r1[0], "componentInfo"+intToStr(i)+"=").c_str()); - } - else - { - cerr<<"Problem On field "<getNumberOfComponents()<setArray(da); - field->setTime(time,DT,IT); - field->checkCoherency(); - try - { - MEDLoader::WriteField(distfilename.c_str(),field,false); - //if entityName=="MED_NODE_ELEMENT" - //AN INTERP_KERNEL::EXCEPTION HAS BEEN THROWN : Not implemented other profile fitting from already written mesh for fields than on NODES and on CELLS.********** - //modification MEDLoader.cxx done - } - catch(INTERP_KERNEL::Exception& e) - { - //cout trying rewrite all data, only one field defined - string tmp,newName=distfilename; - tmp+="_"+fieldName+"_"+intToStr(nbfFieldFound)+".med"; - newName.replace(newName.find(".med"),4,tmp); - cout<<"WARNING : writeMedFile : new file name with only one field :"<decrRef(); - -} - -/* -void writeFieldNodeCellTryingToFitExistingMesh(const char *fileName, const ParaMEDMEM::MEDCouplingFieldDouble *f) -{ - med_int numdt,numo; - med_float dt; - int nbComp=f->getNumberOfComponents(); - med_idt fid=appendFieldSimpleAtt(fileName,f,numdt,numo,dt); - std::list split; - prepareCellFieldDoubleForWriting(f,thisMeshCellIdsPerType,split); - const double *pt=f->getArray()->getConstPointer(); - int number=0; - for(std::list::const_iterator iter=split.begin();iter!=split.end();iter++) - { - INTERP_KERNEL::AutoPtr nommaa=MEDLoaderBase::buildEmptyString(MED_NAME_SIZE); - MEDLoaderBase::safeStrCpy(f->getMesh()->getName(),MED_NAME_SIZE,nommaa,MEDLoader::_TOO_LONG_STR); - INTERP_KERNEL::AutoPtr profileName=MEDLoaderBase::buildEmptyString(MED_NAME_SIZE); - std::ostringstream oss; oss << "Pfl" << f->getName() << "_" << number++; - MEDLoaderBase::safeStrCpy(oss.str().c_str(),MED_NAME_SIZE,profileName,MEDLoader::_TOO_LONG_STR); - const std::vector& ids=(*iter).getCellIdPerType(); - int *profile=new int [ids.size()]; - std::transform(ids.begin(),ids.end(),profile,std::bind2nd(std::plus(),1)); - MEDprofileWr(fid,profileName,ids.size(),profile); - delete [] profile; - MEDfieldValueWithProfileWr(fid,f->getName(),numdt,numo,dt,MED_NODE_CELL,typmai3[(int)(*iter).getType()],MED_COMPACT_PFLMODE,profileName, - MED_NO_LOCALIZATION,MED_FULL_INTERLACE,MED_ALL_CONSTITUENT,(*iter).getNbOfTuple(),(const unsigned char*)pt); - pt+=(*iter).getNbOfTuple()*nbComp; - } - MEDfileClose(fid); -}*/ - diff --git a/src/MEDPartitioner/MEDPARTITIONER_MESHCollectionDriver.hxx b/src/MEDPartitioner/MEDPARTITIONER_MESHCollectionDriver.hxx deleted file mode 100644 index 53ec045db..000000000 --- a/src/MEDPartitioner/MEDPARTITIONER_MESHCollectionDriver.hxx +++ /dev/null @@ -1,64 +0,0 @@ -// Copyright (C) 2007-2010 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. -// -// This library 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 this library; if not, write to the Free Software -// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA -// -// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com -// -#ifndef MEDPARTITIONER_MESHCOLLECTIONDRIVER_HXX_ -#define MEDPARTITIONER_MESHCOLLECTIONDRIVER_HXX_ - -#include "MEDPARTITIONER.hxx" - -#include -#include - -namespace MEDPARTITIONER -{ - class MESHCollection; - class ParaDomainSelector; - - class MEDPARTITIONER_EXPORT MESHCollectionDriver - { - public: - - MESHCollectionDriver(MESHCollection*); - virtual ~MESHCollectionDriver(){} - - virtual int read(const char*, ParaDomainSelector* sel=0)=0; - int readSeq(const char*,const char*); - - virtual void write(const char*, ParaDomainSelector* sel=0)=0; - - protected: - - void readSubdomain(std::vector& cellglobal, - std::vector& faceglobal, - std::vector& nodeglobal, int idomain); - void readSubdomain(int idomain); - void writeMedFile(int idomain, const std::string& distfilename); - - - MESHCollection* _collection; - - //to Globals - //std::vector _filename; - //std::vector _meshname; - - }; - -} - - -#endif /*MESHCOLLECTIONDRIVER_HXX_*/ diff --git a/src/MEDPartitioner/MEDPARTITIONER_MESHCollectionMedAsciiDriver.H b/src/MEDPartitioner/MEDPARTITIONER_MESHCollectionMedAsciiDriver.H deleted file mode 100644 index c253b586f..000000000 --- a/src/MEDPartitioner/MEDPARTITIONER_MESHCollectionMedAsciiDriver.H +++ /dev/null @@ -1,66 +0,0 @@ -// Copyright (C) 2007-2010 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. -// -// This library 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 this library; if not, write to the Free Software -// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA -// -// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com -// -#ifndef MEDSPLITTER_MESHCOLLECTIONMEDASCIIDRIVER_H -#define MEDSPLITTER_MESHCOLLECTIONMEDASCIIDRIVER_H - - -#include -#include -#include -#include - -/*!reads a distributed field - * - * \param fields vector of fields (one field per subdomain) - * \param fieldname name of the field - * \param itnumber number of iteration - * \param ordernumber internal number inside the iteration - * */ -template -void MESHCollectionMedAsciiDriver::_readFields(vector* >& fields,char* fieldname, int itnumber, int ordernumber) -{ - for (int i=0; i<_collection->getMesh().size(); i++) - { - char filename[256]; - strcpy(filename,_filename[i].c_str()); - cout << "maillage : " << filename << " champ : " << fieldname << endl; - // MEDMEM::FIELD* field = new MEDMEM::FIELD(MEDMEM::MED_DRIVER,filename,fieldname,itnumber,ordernumber); - fields.push_back (new MEDMEM::FIELD(MEDMEM::MED_DRIVER,filename,fieldname,itnumber,ordernumber)); - } -} - - -/*!writes a distributed field - * - * \param fields vector of fields (one field per subdomain) - * \param fieldname name of the field - * */ -template -void MESHCollectionMedAsciiDriver::_writeFields(vector* >& fields,char* fieldname) -{ - for (int i=0; i<_collection->getMesh().size(); i++) - { - char filename[256]; - strcpy(filename,_filename[i].c_str()); - int driverid = fields[i]->addDriver(MEDMEM::MED_DRIVER, filename, fieldname); - fields[i]->write(driverid); - } -} - -#endif diff --git a/src/MEDPartitioner/MEDPARTITIONER_MESHCollectionMedAsciiDriver.cxx b/src/MEDPartitioner/MEDPARTITIONER_MESHCollectionMedAsciiDriver.cxx deleted file mode 100644 index 515b1f8ec..000000000 --- a/src/MEDPartitioner/MEDPARTITIONER_MESHCollectionMedAsciiDriver.cxx +++ /dev/null @@ -1,182 +0,0 @@ -// Copyright (C) 2007-2010 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. -// -// This library 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 this library; if not, write to the Free Software -// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA -// -// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com -// -#include -#include -#include -#include - -#include -#include - -#include -#include -#include -#include - -#include - -#include "MEDCouplingUMesh.hxx" -#include "MEDLoader.hxx" - -//MEDPARTITIONER includes -#include "MEDPARTITIONER_ParallelTopology.hxx" -#include "MEDPARTITIONER_MESHCollectionDriver.hxx" -#include "MEDPARTITIONER_MESHCollection.hxx" -#include "MEDPARTITIONER_MESHCollectionMedAsciiDriver.hxx" -#include "MEDPARTITIONER_ParaDomainSelector.hxx" -#include "MEDPARTITIONER_utils.hxx" - -using namespace MEDPARTITIONER; -using namespace std; - -//template inclusion -//#include "MEDPARTITIONER_MESHCollectionMedAsciiDriver.H" - - -MESHCollectionMedAsciiDriver::MESHCollectionMedAsciiDriver(MESHCollection* collection):MESHCollectionDriver(collection) -{ -} - -/*!reads a MED File v>=2.3 - * and mounts the corresponding meshes in memory - * the connect zones are created from the joints - * - *\param filename ascii file containing the list of MED v2.3 files - * */ - -int MESHCollectionMedAsciiDriver::read(const char* filename, ParaDomainSelector* domainSelector) -{ - //distributed meshes - vector cellglobal; - vector nodeglobal; - vector faceglobal; - int nbdomain; - - // reading ascii master file - try - { - ifstream asciiinput(filename); - if (!asciiinput) throw INTERP_KERNEL::Exception(LOCALIZED("Master ASCII File does not exist")); - char charbuffer[512]; - asciiinput.getline(charbuffer,512); - - while (charbuffer[0]=='#') - { - asciiinput.getline(charbuffer,512); - } - - //reading number of domains - nbdomain=atoi(charbuffer); - //cout << "nb domain "<>nbdomain; - MyGlobals::_fileNames.resize(nbdomain); - MyGlobals::_meshNames.resize(nbdomain); - (_collection->getMesh()).resize(nbdomain); - cellglobal.resize(nbdomain); - nodeglobal.resize(nbdomain); - faceglobal.resize(nbdomain); - - if (nbdomain == 0) throw INTERP_KERNEL::Exception(LOCALIZED("Empty ASCII master file")); - for (int i=0; i> mesh >> idomain >> MyGlobals::_meshNames[i] >> host >> MyGlobals::_fileNames[i]; - - //Setting the name of the global mesh (which should be is the same for all the subdomains) - if (i==0) - _collection->setName(mesh); - - if (idomain!=i+1) - { - throw INTERP_KERNEL::Exception(LOCALIZED("domain must be written from 1 to N in ASCII file descriptor")); - } - if ( !domainSelector || domainSelector->isMyDomain(i)) - readSubdomain(cellglobal,faceglobal,nodeglobal, i); - - }//loop on domains - }//of try - catch(...) - { - throw INTERP_KERNEL::Exception(LOCALIZED("I/O error reading parallel MED file")); - } - - //creation of topology from mesh and connect zones - ParallelTopology* aPT = new ParallelTopology - ((_collection->getMesh()), (_collection->getCZ()), cellglobal, nodeglobal, faceglobal); - _collection->setTopology(aPT); - - for (int i=0; igetMesh().size(); - vector filenames; - filenames.resize(nbdomains); - - //loop on the domains - for (int idomain=0; idomainisMyDomain( idomain ) ) - { - if ( !_collection->getMesh()[idomain]->getNumberOfCells()==0 ) continue;//empty domain - MEDLoader::WriteUMesh(distfilename.c_str(),(_collection->getMesh())[idomain],true); - // writeSubdomain(idomain, nbdomains, distfilename.c_str(), domainSelector); - } - } - - // write master file - if ( !domainSelector || domainSelector->rank() == 0 ) - { - ofstream file(filename); - file << "#MED Fichier V 2.3"<<" "<getMesh().size()<<" "<getName() <<" "<< idomain+1 << " " - << (_collection->getMesh())[idomain]->getName() << " localhost " - << filenames[idomain] << " "< *>& filenames, char* fieldname, -// int itnumber, int ordernumber) -// { -// _readFields(filenames,fieldname,itnumber,ordernumber); -// } -// void readFields(vector *>& filenames, char* fieldname, -// int itnumber, int ordernumber) -// { -// _readFields(filenames,fieldname,itnumber,ordernumber); -// } - -// void writeFields(vector *>& filenames, char* fieldname) -// { -// _writeFields( filenames, fieldname); -// } - -// void writeFields(vector *>& filenames, char* fieldname) -// { -// _writeFields( filenames, fieldname); -// } - - - private : -// template void _readFields(vector *>& filenames, char* fieldname, -// int itnumber, int ordernumber); - -// template -// void _writeFields(vector *>& filenames, char* fieldname); - - - - std::string _master_filename; - }; - -} - - -#endif /*MESHCOLLECTIONDRIVER_HXX_*/ diff --git a/src/MEDPartitioner/MEDPARTITIONER_MESHCollectionMedXMLDriver.H b/src/MEDPartitioner/MEDPARTITIONER_MESHCollectionMedXMLDriver.H deleted file mode 100644 index 54b9c18d5..000000000 --- a/src/MEDPartitioner/MEDPARTITIONER_MESHCollectionMedXMLDriver.H +++ /dev/null @@ -1,122 +0,0 @@ -// Copyright (C) 2007-2010 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. -// -// This library 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 this library; if not, write to the Free Software -// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA -// -// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com -// -#ifndef MEDSPLITTER_MESHCOLLECTIONMEDXMLDRIVER_H -#define MEDSPLITTER_MESHCOLLECTIONMEDXMLDRIVER_H - - -#include -#include -#include -#include - - - -/*!reads a distributed field - * - * \param fields vector of fields (one field per subdomain) - * \param fieldname name of the field - * \param itnumber number of iteration - * \param ordernumber internal number inside the iteration - * */ -template -void MESHCollectionMedXMLDriver::_readFields(vector* >& fields,char* fieldname, int itnumber, int ordernumber) -{ - for (int i=0; i<_collection->getMesh().size(); i++) - { - char filename[256]; - strcpy(filename,_filename[i].c_str()); - cout << "maillage : " << filename << " champ : " << fieldname << endl; - // MEDMEM::FIELD* field = new MEDMEM::FIELD(MEDMEM::MED_DRIVER,filename,fieldname,itnumber,ordernumber); - fields.push_back (new MEDMEM::FIELD(MEDMEM::MED_DRIVER,filename,fieldname,itnumber,ordernumber)); - } -} - - -/*!writes a distributed field - * - * \param fields vector of fields (one field per subdomain) - * \param fieldname name of the field - * */ -template -void MESHCollectionMedXMLDriver::_writeFields(vector* >& fields,const char* fieldname) -{ - xmlDocPtr master_doc=xmlParseFile(_master_filename.c_str()); - - if (!master_doc) - throw MEDEXCEPTION("MEDSPLITTER writeFields - Master File does not exist"); - - //number of domains - - xmlXPathContextPtr xpathCtx = xmlXPathNewContext(master_doc); - xmlXPathObjectPtr xpathObj = xmlXPathEvalExpression(BAD_CAST "//mapping/mesh", xpathCtx); - //assuming there is only one mesh in the XML file - xmlNodePtr mesh_node= xpathObj->nodesetval->nodeTab[0]; - - //adds the field to the master file if necessary - bool exist_field =false; - xpathObj = xmlXPathEvalExpression(BAD_CAST "//mapping/mesh/field", xpathCtx); - //assuming there is only one mesh in the XML file - int field_nr = xpathObj->nodesetval->nodeNr; - for (int i=0; inodesetval->nodeTab[i]->properties->children->content, fieldname)==0) - exist_field = true; - } - - xmlNodePtr field_node; - if (!exist_field) - { - field_node = xmlNewChild(mesh_node, 0, BAD_CAST "field",0); - xmlNewProp(field_node,BAD_CAST "name",BAD_CAST fieldname); - } - - - for (int i=0; i<_collection->getMesh().size(); i++) - { - char filename[256]; - strcpy(filename,_filename[i].c_str()); - int driverid = fields[i]->addDriver(MEDMEM::MED_DRIVER, filename, fieldname); - fields[i]->write(driverid); - - //adds the partition to the master file if the field had not been - //added already - if (!exist_field) - { - xmlNodePtr chunk_node= xmlNewChild(field_node,0,BAD_CAST "chunk",0); - char id[8]; - sprintf(id,"%d",i+1); - xmlNewProp(chunk_node,BAD_CAST "subdomain",BAD_CAST id); - //xmlNewProp(chunk_node,BAD_CAST "name", BAD_CAST fieldname); - //xmlNodePtr fieldname_node= - xmlNewChild(chunk_node,0,BAD_CAST "name", BAD_CAST fieldname); - } - } - //Writing file - xmlKeepBlanksDefault(0); - xmlSaveFormatFileEnc(_master_filename.c_str(), master_doc, "UTF-8", 1); - - //Clean up - xmlXPathFreeContext(xpathCtx); - xmlFreeDoc(master_doc); - //xmlCleanupParser(); - -} - -#endif diff --git a/src/MEDPartitioner/MEDPARTITIONER_MESHCollectionMedXMLDriver.cxx b/src/MEDPartitioner/MEDPARTITIONER_MESHCollectionMedXMLDriver.cxx deleted file mode 100644 index 49c2ac35d..000000000 --- a/src/MEDPartitioner/MEDPARTITIONER_MESHCollectionMedXMLDriver.cxx +++ /dev/null @@ -1,335 +0,0 @@ -// Copyright (C) 2007-2010 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. -// -// This library 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 this library; if not, write to the Free Software -// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA -// -// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com -// -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include - -#include - -//MEDSPLITTER includes -#include "MEDCouplingUMesh.hxx" -#include "MEDLoader.hxx" -#include "MEDFileMesh.hxx" -#include "MEDPARTITIONER_ParallelTopology.hxx" -#include "MEDPARTITIONER_MESHCollectionDriver.hxx" -#include "MEDPARTITIONER_MESHCollection.hxx" -#include "MEDPARTITIONER_MESHCollectionMedXMLDriver.hxx" -#include "MEDPARTITIONER_ParaDomainSelector.hxx" -#include "MEDPARTITIONER_utils.hxx" - -using namespace MEDPARTITIONER; -using namespace std; - -//template inclusion -//#include "MEDPARTITIONER_MESHCollectionMedXMLDriver.H" - -/*!\class MESHCollectionMedXMLDriver - * - *\brief Driver for MED 3.2 files having XML master files - * - * Driver for reading and writing distributed files - * for which the master file is written in an XML format compliant with - * the MED 3.2 specification. - * The reading and writing of the meshes and fields are apart : - * the meshes must always be written/read before the fields. Reading/Writing fields - * is optional and is done field after field. API for reading/writing fields - * is written with a template so that MEDMEM::FIELD and MEDMEM::FIELD - * can be conveniently handled. -*/ - -MESHCollectionMedXMLDriver::MESHCollectionMedXMLDriver(MESHCollection* collection):MESHCollectionDriver(collection) -{ -} - -/*!reads a MED File XML Master File v>=2.3 - * and mounts the corresponding meshes in memory - * the connect zones are created from the joints - * - *\param filename XML file containing the list of MED v2.3 files - * */ - -int MESHCollectionMedXMLDriver::read(const char* filename, ParaDomainSelector* domainSelector) -{ - - //distributed meshes //cvwat02 - /*cvw - vector cellglobal; - vector nodeglobal; - vector faceglobal;*/ - - int nbdomain; - - _master_filename=filename; - - // reading ascii master file - try{ - // Setting up the XML tree corresponding to filename - xmlDocPtr master_doc=xmlParseFile(filename); - - if (!master_doc) - throw INTERP_KERNEL::Exception(LOCALIZED("XML Master File does not exist or is not compliant with XML scheme")); - - //////////////////// - //number of domains - //////////////////// - xmlXPathContextPtr xpathCtx = xmlXPathNewContext(master_doc); - xmlXPathObjectPtr xpathObj = xmlXPathEvalExpression(BAD_CAST "//splitting/subdomain", xpathCtx); - if (xpathObj==0 || xpathObj->nodesetval->nodeNr ==0) - throw INTERP_KERNEL::Exception(LOCALIZED("XML Master File does not contain /MED/splitting/subdomain node")); - - /* as subdomain has only one property which is "number" - * it suffices to take the content of its first child */ - const char* mystring = (const char*)xpathObj->nodesetval->nodeTab[0]->properties->children->content; - sscanf(mystring, "%d", &nbdomain); - - ////////////////// - //mesh name - ////////////////// - xmlXPathFreeObject(xpathObj); - xpathObj = xmlXPathEvalExpression(BAD_CAST "//content/mesh", xpathCtx); - if (xpathObj==0 || xpathObj->nodesetval->nodeNr ==0) - throw INTERP_KERNEL::Exception(LOCALIZED("XML Master File does not contain /MED/content/mesh node")); - _collection->setName( (const char*)xpathObj->nodesetval->nodeTab[0]->properties->children->content); - - //cout << "nb domain " << nbdomain << endl; - MyGlobals::_fileNames.resize(nbdomain); - MyGlobals::_meshNames.resize(nbdomain); - (_collection->getMesh()).resize(nbdomain); - (_collection->getFaceMesh()).resize(nbdomain); - (_collection->getCellFamilyIds()).resize(nbdomain); - (_collection->getFaceFamilyIds()).resize(nbdomain); - - /*cvw - cellglobal.resize(nbdomain); - nodeglobal.resize(nbdomain); - faceglobal.resize(nbdomain); - */ - - // retrieving the node which contains the file names - const char filechar[]="//files/subfile"; - xmlXPathFreeObject(xpathObj); - xpathObj = xmlXPathEvalExpression(BAD_CAST filechar, xpathCtx); - if (xpathObj==0 || xpathObj->nodesetval->nodeNr ==0) - throw INTERP_KERNEL::Exception(LOCALIZED("XML Master File does not contain /MED/files/subfile nodes")); - int nbfiles = xpathObj->nodesetval ->nodeNr; - - for (int i=0; inodesetval ==0) - throw INTERP_KERNEL::Exception(LOCALIZED("Error retrieving a file name from subfile of XML Master File")); - MyGlobals::_fileNames[i]=(const char*)xpathObjfilename->nodesetval->nodeTab[0]->children->content; - - //////////////////////////////// - //reading the local mesh names - //////////////////////////////// - ostringstream mesh_search_string; - mesh_search_string<<"//mapping/mesh/chunk[@subdomain=\""<nodesetval ==0) - throw INTERP_KERNEL::Exception(LOCALIZED("Error retrieving mesh name from chunk of XML Master File")); - MyGlobals::_meshNames[i]=(const char*)xpathMeshObj->nodesetval->nodeTab[0]->children->content; - - if ( !domainSelector || domainSelector->isMyDomain(i)) - readSubdomain(i); //cvwat03 - //cvw readSubdomain(cellglobal, faceglobal, nodeglobal, i); //cvwat03 - xmlXPathFreeObject(xpathObjfilename); - xmlXPathFreeObject(xpathMeshObj); - }//loop on domains - - // LIBXML cleanup - xmlXPathFreeObject(xpathObj); - xmlXPathFreeContext(xpathCtx); - xmlFreeDoc(master_doc); - - }//of try - catch(...) - { - throw INTERP_KERNEL::Exception(LOCALIZED("I/O error reading parallel MED file")); - } - - - ParallelTopology* aPT = new ParallelTopology(_collection->getMesh()); - //creation of topology from mesh and connect zones - if ( _collection->isParallelMode() ) - { - //to know nb of cells on each proc to compute global cell ids from locally global - domainSelector->gatherNbOf(_collection->getMesh()); - } - /*cvw - ParallelTopology* aPT = new ParallelTopology - ((_collection->getMesh()), (_collection->getCZ()), cellglobal, nodeglobal, faceglobal); - */ - _collection->setTopology(aPT); - _collection->setDomainNames(_collection->getName()); - /*cvw - for (int i=0; itm_year - ,time_asc->tm_mon+1 - ,time_asc->tm_mday); - - node = xmlNewChild(root_node,0, BAD_CAST "description",0); - - xmlNewProp(node, BAD_CAST "what", BAD_CAST _collection->getDescription().c_str()); - xmlNewProp(node, BAD_CAST "when", BAD_CAST date); - - //Content tag - node =xmlNewChild(root_node,0, BAD_CAST "content",0); - node2 = xmlNewChild(node, 0, BAD_CAST "mesh",0); - xmlNewProp(node2, BAD_CAST "name", BAD_CAST _collection->getName().c_str()); - - //Splitting tag - node=xmlNewChild(root_node,0,BAD_CAST "splitting",0); - node2=xmlNewChild(node,0,BAD_CAST "subdomain",0); - sprintf(buff, "%d", _collection->getMesh().size()); - xmlNewProp(node2, BAD_CAST "number", BAD_CAST buff); - node2=xmlNewChild(node,0,BAD_CAST "global_numbering",0); - xmlNewProp(node2, BAD_CAST "present", BAD_CAST "yes"); - - //Files tag - xmlNodePtr file_node=xmlNewChild(root_node,0,BAD_CAST "files",0); - - //Mapping tag - node = xmlNewChild(root_node,0,BAD_CAST "mapping",0); - xmlNodePtr mesh_node = xmlNewChild(node, 0, BAD_CAST "mesh",0); - xmlNewProp(mesh_node, BAD_CAST "name", BAD_CAST _collection->getName().c_str()); - - int nbdomains= _collection->getMesh().size(); - //vector filenames; - //filenames.resize(nbdomains); - - //loop on the domains - string finalMeshName=extractFromDescription(MyGlobals::_generalInformations[0], "finalMeshName="); - for (int idomain=nbdomains-1; idomain>=0;idomain--) - { - string distfilename; - ostringstream suffix; - suffix<isMyDomain( idomain ) ) - { - if ( (_collection->getMesh())[idomain]->getNumberOfCells()==0 ) continue; //empty domain - if (MyGlobals::_verbose>1) - cout<<"proc "<rank()<<" : writeMedFile "<getMesh())[idomain]->getNumberOfCells()<<" cells" - << " "<<(_collection->getFaceMesh())[idomain]->getNumberOfCells()<<" faces" - << " "<<(_collection->getMesh())[idomain]->getNumberOfNodes()<<" nodes"<rank()==0) - { - //updating the ascii description file - node = xmlNewChild(file_node, 0, BAD_CAST "subfile",0); - sprintf (buff,"%d",idomain+1); - xmlNewProp(node, BAD_CAST "id", BAD_CAST buff); - xmlNewChild(node,0,BAD_CAST "name",BAD_CAST distfilename.c_str()); - xmlNewChild(node,0,BAD_CAST "machine",BAD_CAST "localhost"); - - node = xmlNewChild(mesh_node,0, BAD_CAST "chunk",0); - xmlNewProp(node, BAD_CAST "subdomain", BAD_CAST buff); - xmlNewChild(node,0,BAD_CAST "name", BAD_CAST finalMeshName.c_str()); - //xmlNewChild(node,0,BAD_CAST "name", BAD_CAST (_collection->getMesh())[idomain]->getName()); - } - } - - //create the ascii description file - if (domainSelector->rank()==0) - { - string myfile(filename); - myfile.append(".xml"); - _master_filename=myfile; - if ( !domainSelector || domainSelector->rank() == 0 ) - xmlSaveFormatFileEnc(myfile.c_str(), master_doc, "UTF-8", 1); - //xmlFreeDoc(master_doc); - //xmlCleanupParser(); - } - xmlFreeDoc(master_doc); - xmlCleanupParser(); -} diff --git a/src/MEDPartitioner/MEDPARTITIONER_MESHCollectionMedXMLDriver.hxx b/src/MEDPartitioner/MEDPARTITIONER_MESHCollectionMedXMLDriver.hxx deleted file mode 100644 index 8a946b60c..000000000 --- a/src/MEDPartitioner/MEDPARTITIONER_MESHCollectionMedXMLDriver.hxx +++ /dev/null @@ -1,76 +0,0 @@ -// Copyright (C) 2007-2010 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. -// -// This library 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 this library; if not, write to the Free Software -// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA -// -// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com -// -#ifndef MESHCOLLECTIONMEDXMLDRIVER_HXX_ -#define MESHCOLLECTIONMEDXMLDRIVER_HXX_ - -#include "MEDPARTITIONER_MESHCollectionDriver.hxx" - -namespace MEDPARTITIONER -{ - class MESHCollection; - - class MESHCollectionMedXMLDriver:public MESHCollectionDriver - { - public: - - MESHCollectionMedXMLDriver(MESHCollection*); - virtual ~MESHCollectionMedXMLDriver(){} - - - int read(const char*, ParaDomainSelector* sel=0); - - void write(const char*, ParaDomainSelector* sel=0); - -// void readFields(vector *>& filenames, char* fieldname, -// int itnumber, int ordernumber) -// { -// _readFields(filenames,fieldname,itnumber,ordernumber); -// } -// void readFields(vector *>& filenames, char* fieldname, -// int itnumber, int ordernumber) -// { -// _readFields(filenames,fieldname,itnumber,ordernumber); -// } - -// void writeFields(vector *>& filenames, char* fieldname) -// { -// _writeFields( filenames, fieldname); -// } -// void writeFields(vector *>& filenames, char* fieldname) -// { -// _writeFields( filenames, fieldname); -// } - - - - private : - - // template void _readFields(vector *>& filenames, char* fieldname, -// int itnumber, int ordernumber); - -// template -// void _writeFields(vector *>& filenames, char* fieldname); - - std::string _master_filename; - }; - -} - - -#endif /*MESHCOLLECTIONDRIVER_HXX_*/ diff --git a/src/MEDPartitioner/MEDPARTITIONER_METISGraph.cxx b/src/MEDPartitioner/MEDPARTITIONER_METISGraph.cxx deleted file mode 100644 index 84731f495..000000000 --- a/src/MEDPartitioner/MEDPARTITIONER_METISGraph.cxx +++ /dev/null @@ -1,232 +0,0 @@ -// Copyright (C) 2007-2010 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. -// -// This library 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 this library; if not, write to the Free Software -// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA -// -// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com -// - -#ifdef ENABLE_PARMETIS -#include -#endif -extern "C" { -#include -} -#include "MEDPARTITIONER_METISGraph.hxx" -#include "MEDPARTITIONER_ParaDomainSelector.hxx" -#include "MEDPARTITIONER_utils.hxx" -#include "InterpKernelException.hxx" - -#include - -using namespace MEDPARTITIONER; - -METISGraph::METISGraph():Graph() -{ -} - -METISGraph::METISGraph(MEDPARTITIONER::MEDSKYLINEARRAY* graph, int* edgeweight) - :Graph(graph,edgeweight) -{ -} - -METISGraph::~METISGraph() -{ -} - -void METISGraph::partGraph(int ndomain, //cvwat10 - const std::string& options_string, - ParaDomainSelector* parallelizer) -{ - using std::vector; - vector ran,vx,va; //for randomize - - if (MyGlobals::_verbose>10) cout<<"proc "<getNumberOf(); - //graph - int * xadj=const_cast(_graph->getIndex()); - int * adjncy=const_cast(_graph->getValue()); - //constraints - int * vwgt=_cellweight; - int * adjwgt=_edgeweight; - int wgtflag=(_edgeweight!=0)?1:0+(_cellweight!=0)?2:0; - //base 0 or 1 - int base=0; - //ndomain - int nparts=ndomain; - //options - /* - (0=default_option,option,random_seed) see defs.h - #define PMV3_OPTION_DBGLVL 1 - #define PMV3_OPTION_SEED 2 - #define PMV3_OPTION_IPART 3 - #define PMV3_OPTION_PSR 3 - seems no changes int options[4]={1,0,33,0}; //test for a random seed of 33 - */ - int options[4]={0,0,0,0}; - // output parameters - int edgecut; - int* partition=new int[n]; - - //if (MyGlobals::_verbose>10) cout<<"proc "<getProcVtxdist(); - MPI_Comm comm=MPI_COMM_WORLD; - try - { - if (MyGlobals::_verbose>200) - { - cout<<"proc "<0) - { - cout<<"\nproc "<1000) - { - cout<<"\n -cell "<imaxx) imaxx=ilg; - } - cout<<"\nproc "<10) - cout<<"proc "< index(n+1); - vector value(n); - index[0]=0; - if (ran.size()>0 && MyGlobals::_atomize==0) //there is randomize - { - if (MyGlobals::_is0verbose>100) cout<<"randomize"< - -namespace MEDPARTITIONER { - class MEDSKYLINEARRAY; - class MEDPARTITIONER_EXPORT METISGraph:public Graph - { - public: - METISGraph(); - METISGraph(MEDPARTITIONER::MEDSKYLINEARRAY*, int* edgeweight=0); - virtual ~METISGraph(); - void partGraph(int ndomain, const std::string& options_string="", ParaDomainSelector* sel=0); - //private: - // const MEDMEM::MEDSKYLINEARRAY* m_graph; - }; -} -#endif /*METISGRAPH_HXX_*/ diff --git a/src/MEDPartitioner/MEDPARTITIONER_MeshCollection.cxx b/src/MEDPartitioner/MEDPARTITIONER_MeshCollection.cxx new file mode 100644 index 000000000..5a09f7997 --- /dev/null +++ b/src/MEDPartitioner/MEDPARTITIONER_MeshCollection.cxx @@ -0,0 +1,1764 @@ +// Copyright (C) 2007-2011 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. +// +// This library 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 this library; if not, write to the Free Software +// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA +// +// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com +// + +#include "MEDPARTITIONER_MeshCollection.hxx" +#include "MEDPARTITIONER_MeshCollectionDriver.hxx" +#include "MEDPARTITIONER_MeshCollectionMedXmlDriver.hxx" +#include "MEDPARTITIONER_MeshCollectionMedAsciiDriver.hxx" +#include "MEDPARTITIONER_ParallelTopology.hxx" +#include "MEDPARTITIONER_ParaDomainSelector.hxx" +#include "MEDPARTITIONER_JointFinder.hxx" +#include "MEDPARTITIONER_Graph.hxx" +#include "MEDPARTITIONER_UserGraph.hxx" +#include "MEDPARTITIONER_Utils.hxx" + +#include "MEDLoader.hxx" +#include "MEDCouplingMemArray.hxx" +#include "MEDCouplingUMesh.hxx" +#include "MEDCouplingNormalizedUnstructuredMesh.hxx" +#include "MEDCouplingFieldDouble.hxx" +#include "PointLocator3DIntersectorP0P0.hxx" +#include "BBTree.txx" + +#ifdef HAVE_MPI2 +#include +#endif + +#ifdef ENABLE_METIS +#include "MEDPARTITIONER_MetisGraph.hxx" +#endif +#ifdef ENABLE_SCOTCH +#include "MEDPARTITIONER_ScotchGraph.hxx" +#endif + +#include +#include +#include +#include +#include +#include + +using namespace std; +using namespace ParaMEDMEM; +using namespace MEDPARTITIONER; + +MeshCollection::MeshCollection() + : _topology(0), + _owns_topology(false), + _driver(0), + _domain_selector( 0 ), + _i_non_empty_mesh(-1), + _driver_type(MEDPARTITIONER::MedXml), + _subdomain_boundary_creates(false), + _family_splitting(false), + _create_empty_groups(false), + _joint_finder(0) +{ + cout<<"coucou"< > > new2oldIds(initialCollection.getTopology()->nbDomain()); + if (MyGlobals::_Verbose>10) std::cout<<"proc "<(inewdomain,inewnode) + createNodeMapping(initialCollection, nodeMapping); + //cvw std::cout<<"castMeshes"< > > new2oldFaceIds; + castFaceMeshes(initialCollection, nodeMapping, new2oldFaceIds); + + //////////////////// + //treating families + //////////////////// + + if (MyGlobals::_Is0verbose) + if (isParallelMode()) std::cout<<"ParallelMode on "<nbDomain()<<" Domains"<nbDomain()<<" Domains"<10) std::cout<<"treating cell and face families"<getMesh(), + initialCollection.getCellFamilyIds(), + "cellFamily"); + castIntField2(initialCollection.getFaceMesh(), + this->getFaceMesh(), + initialCollection.getFaceFamilyIds(), + "faceFamily"); + + ////////////////// + //treating groups + ////////////////// + if (MyGlobals::_Is0verbose) std::cout<<"treating groups"< > >& new2oldIds) +{ + if (_topology==0) throw INTERP_KERNEL::Exception(LOCALIZED("Topology has not been defined on call to castCellMeshes")); + + int nbNewDomain=_topology->nbDomain(); + int nbOldDomain=initialCollection.getTopology()->nbDomain(); + + _mesh.resize(nbNewDomain); + int rank=MyGlobals::_Rank; + //if (MyGlobals::_Verbose>10) std::cout<<"proc "< > splitMeshes; + splitMeshes.resize(nbNewDomain); + for (int inew=0; inewisMyDomain(iold)) + { + int size=(initialCollection._mesh)[iold]->getNumberOfCells(); + std::vector globalids(size); + initialCollection.getTopology()->getCellList(iold, &globalids[0]); + std::vector ilocalnew(size); //local + std::vector ipnew(size); //idomain old + //cvw work locally + _topology->convertGlobalCellList(&globalids[0],size,&ilocalnew[0],&ipnew[0]); + + new2oldIds[iold].resize(nbNewDomain); + for (int i=0; ibuildPartOfMySelf(&new2oldIds[iold][inew][0], + &new2oldIds[iold][inew][0]+new2oldIds[iold][inew].size(), + true); + if (MyGlobals::_Verbose>400) + std::cout<<"proc "<getNumberOfCells()<300) std::cout<<"proc "<isMyDomain(iold) && _domain_selector->isMyDomain(inew)) continue; + + if(initialCollection._domain_selector->isMyDomain(iold)) + _domain_selector->sendMesh(*(splitMeshes[inew][iold]),_domain_selector->getProcessorID(inew)); + + if (_domain_selector->isMyDomain(inew)) + _domain_selector->recvMesh(splitMeshes[inew][iold],_domain_selector->getProcessorID(iold)); + + } + } + + //fusing the split meshes + if (MyGlobals::_Verbose>200) std::cout<<"proc "< meshes; + + for (int i=0; i< splitMeshes[inew].size();i++) + if (splitMeshes[inew][i]!=0) + if (splitMeshes[inew][i]->getNumberOfCells()>0) + meshes.push_back(splitMeshes[inew][i]); + + if (!isParallelMode()||_domain_selector->isMyDomain(inew)) + { + if (meshes.size()==0) + { + _mesh[inew]=CreateEmptyMEDCouplingUMesh(); + //throw INTERP_KERNEL::Exception(LOCALIZED("castCellMeshes fusing : no meshes")); + cout<<"WARNING : castCellMeshes fusing : no meshes try another number of processors"<mergeNodes(1e-12,areNodesMerged,nbNodesMerged); + array->decrRef(); // array is not used in this case + _mesh[inew]->zipCoords(); + } + } + for (int i=0; i< splitMeshes[inew].size(); i++) + if (splitMeshes[inew][i]!=0) splitMeshes[inew][i]->decrRef(); + } + if (MyGlobals::_Verbose>300) std::cout<<"proc "<nbDomain();iold++) + { + + double* bbox; + BBTree<3>* tree; + if (!isParallelMode() || (_domain_selector->isMyDomain(iold))) + { + // std::map >, int > nodeClassifier; + int nvertices=initialCollection.getMesh(iold)->getNumberOfNodes(); + bbox=new double[nvertices*6]; + ParaMEDMEM::DataArrayDouble* coords = initialCollection.getMesh(iold)->getCoords(); + double* coordsPtr=coords->getPointer(); + + for (int i=0; i(bbox,0,0,nvertices,1e-9); + } + + for (int inew=0; inew<_topology->nbDomain(); inew++) //cvwat12 + { + //sending meshes for parallel computation + if (isParallelMode() && _domain_selector->isMyDomain(inew) && !_domain_selector->isMyDomain(iold)) + _domain_selector->sendMesh(*(getMesh(inew)), _domain_selector->getProcessorID(iold)); + else if (isParallelMode() && !_domain_selector->isMyDomain(inew)&& _domain_selector->isMyDomain(iold)) + { + ParaMEDMEM::MEDCouplingUMesh* mesh; + _domain_selector->recvMesh(mesh, _domain_selector->getProcessorID(inew)); + ParaMEDMEM::DataArrayDouble* coords = mesh->getCoords(); + for (int inode=0; inodegetNumberOfNodes();inode++) + { + double* coordsPtr=coords->getPointer()+inode*3; + vector elems; + tree->getElementsAroundPoint(coordsPtr,elems); + if (elems.size()==0) continue; + nodeMapping.insert(make_pair(make_pair(iold,elems[0]),make_pair(inew,inode))); + } + mesh->decrRef(); + } + else if (!isParallelMode() || (_domain_selector->isMyDomain(inew) && _domain_selector->isMyDomain(iold))) + { + ParaMEDMEM::DataArrayDouble* coords = getMesh(inew)->getCoords(); + for (int inode=0; inode<_mesh[inew]->getNumberOfNodes();inode++) + { + double* coordsPtr=coords->getPointer()+inode*3; + vector elems; + tree->getElementsAroundPoint(coordsPtr,elems); + if (elems.size()==0) continue; + nodeMapping.insert(make_pair(make_pair(iold,elems[0]),make_pair(inew,inode))); + } + } + } + if (!isParallelMode() || (_domain_selector->isMyDomain(iold))) + { + delete tree; + delete[] bbox; + } + } + +} + +//getNodeIds(meshCell, meshFace, nodeIds) +//inodeCell=nodeIds[inodeFace] +//(put the biggest mesh in One) +//if no corresponding node then inodeCell = -1 +void getNodeIds(ParaMEDMEM::MEDCouplingUMesh& meshOne, ParaMEDMEM::MEDCouplingUMesh& meshTwo, vector& nodeIds) +{ + using std::vector; + if (!&meshOne || !&meshTwo) return; //empty or not existing + double* bbox; + BBTree<3>* tree; + int nv1=meshOne.getNumberOfNodes(); + bbox=new double[nv1*6]; + ParaMEDMEM::DataArrayDouble* coords=meshOne.getCoords(); + double* coordsPtr=coords->getPointer(); + for (int i=0; i(bbox,0,0,nv1,1e-9); + + int nv2=meshTwo.getNumberOfNodes(); + nodeIds.resize(nv2,-1); + coords=meshTwo.getCoords(); + for (int inode=0; inodegetPointer()+inode*3; + vector elems; + tree->getElementsAroundPoint(coordsPtr,elems); + if (elems.size()==0) continue; + nodeIds[inode]=elems[0]; + } + delete tree; + delete[] bbox; +} + +/*! + creates the face meshes on the new domains from the faces on the old domain and the node mapping + faces at the interface are duplicated +*/ +void MeshCollection::castFaceMeshes(MeshCollection& initialCollection, + const std::multimap, std::pair >& nodeMapping, + std::vector > >& new2oldIds) +{ + + //splitMeshes structure will contain the partition of + //the old faces on the new ones + //splitMeshes[4][2] contains the faces from old domain 2 + //that have to be added to domain 4 + + using std::vector; + using std::map; + using std::multimap; + using std::pair; + using std::make_pair; + + vector& meshesCastFrom=initialCollection.getFaceMesh(); + vector& meshesCastTo=this->getFaceMesh(); + + vector< vector > splitMeshes; + int newSize=_topology->nbDomain(); + int fromSize=meshesCastFrom.size(); + + splitMeshes.resize(newSize); + for (int inew=0;inewisMyDomain(iold)) continue; + if (meshesCastFrom[iold] != 0) + { + for (int ielem=0; ielemgetNumberOfCells(); ielem++) + { + vector nodes; + meshesCastFrom[iold]->getNodeIdsOfCell(ielem,nodes); + + map faces; + + //analysis of element ielem + //counters are set for the element + //for each source node, the mapping is interrogated and the domain counters + //are incremented for each target node + //the face is considered as going to target domains if the counter of the domain + //is equal to the number of nodes + for (int inode=0; inode,pair >::const_iterator MI; + int mynode=nodes[inode]; + + pair myRange = nodeMapping.equal_range(make_pair(iold,mynode)); + for (MI iter=myRange.first; iter!=myRange.second; iter++) + { + int inew=iter->second.first; + if (faces.find(inew)==faces.end()) + faces[inew]=1; + else + faces[inew]++; + } + } + + for (map::iterator iter=faces.begin(); iter!=faces.end(); iter++) + { + if (iter->second==nodes.size()) + //cvw eligible but may be have to be face of a cell of this->getMesh()[inew]? + //it is not sure here... + //done before writeMedfile on option?... see filterFaceOnCell() + new2oldIds[iold][iter->first].push_back(ielem); + } + } + + //creating the splitMeshes from the face ids + for (int inew=0;inew<_topology->nbDomain();inew++) + { + if (meshesCastFrom[iold]->getNumberOfCells() > 0) //cvw + { + splitMeshes[inew][iold]= + (ParaMEDMEM::MEDCouplingUMesh*) + ( meshesCastFrom[iold]->buildPartOfMySelf(&new2oldIds[iold][inew][0], + &new2oldIds[iold][inew][0]+new2oldIds[iold][inew].size(), + true) + ); + splitMeshes[inew][iold]->zipCoords(); + } + else + { + //std::cout<<"one empty mesh from "<isMyDomain(iold)<<" "<< + _domain_selector->isMyDomain(inew)<isMyDomain(iold) && !_domain_selector->isMyDomain(inew)) + if (splitMeshes[inew][iold] != 0) { + //cvw std::cout<<"send NOT empty mesh "<getName()<<" "<sendMesh(*(splitMeshes[inew][iold]), _domain_selector->getProcessorID(inew)); + } + else { + //std::cout<<"send empty mesh "<sendMesh(*(empty), _domain_selector->getProcessorID(inew)); + } + if (!_domain_selector->isMyDomain(iold) && _domain_selector->isMyDomain(inew)) + _domain_selector->recvMesh(splitMeshes[inew][iold], _domain_selector->getProcessorID(iold)); + } + empty->decrRef(); + } + + //recollecting the bits of splitMeshes to fuse them into one + if (MyGlobals::_Verbose>300) std::cout<<"proc "< myMeshes; + for (int iold=0; ioldgetNumberOfCells()>0) + { + myMeshes.push_back(umesh); + } + //else { + // std::cout<<"one empty mesh "<0) + { + meshesCastTo[inew]=ParaMEDMEM::MEDCouplingUMesh::MergeUMeshes(myMeshes); + } + else + { + //std::cout<<"one empty meshes to merge "<setName("emptyMesh"); + //empty->setMeshDimension(3); + //empty->allocateCells(0); + ParaMEDMEM::MEDCouplingUMesh *empty=CreateEmptyMEDCouplingUMesh(); + meshesCastTo[inew]=empty; + } + // meshesCastTo[inew]->zipCoords(); + for (int iold=0; iolddecrRef(); + } + //if (MyGlobals::_Verbose>1) std::cout<<"proc "<setCoords(sourceCoords); + vector c; + vector cI; + tmpMesh->getNodeIdsNearPoints(targetCoords->getConstPointer(),targetMesh.getNumberOfCells(),1e-10,c,cI); + if (cI.size()!= targetMesh.getNumberOfCells()+1) + throw INTERP_KERNEL::Exception(LOCALIZED("Error in source/target projection")); + for (int itargetnode=0; itargetnodedecrRef(); + targetCoords->decrRef(); + tmpMesh->decrRef(); +} + +void MeshCollection::castIntField2(std::vector& meshesCastFrom, + std::vector& meshesCastTo, + std::vector& arrayFrom, + std::string nameArrayTo) +{ + using std::vector; + + int ioldMax=meshesCastFrom.size(); + int inewMax=meshesCastTo.size(); + // send-recv operations + for (int inew=0; inewisMyDomain(iold) && !_domain_selector->isMyDomain(inew)) + { + //send mesh + _domain_selector->sendMesh(*meshesCastFrom[iold],_domain_selector->getProcessorID(inew)); + //send vector + int size=arrayFrom[iold]->getNumberOfTuples(); //cvw may be -1! + vectorsendIds; + if (MyGlobals::_Verbose>400) std::cout<<"proc "<<_domain_selector->rank()<<" : castIntField SendIntVec size "<0) //no empty + { + sendIds.resize(size); + std::copy(arrayFrom[iold]->getPointer(),arrayFrom[iold]->getPointer()+size,&sendIds[0]); + } + else //empty + { + size=0; + sendIds.resize(size); + } + //std::cout<<"proc "<<_domain_selector->rank()<<" : castIntField SendIntVec "<getProcessorID(inew)); + } + //receiving arrays from distant domains + if (isParallelMode() && !_domain_selector->isMyDomain(iold) && _domain_selector->isMyDomain(inew)) + { + //receive mesh + vector recvIds; + ParaMEDMEM::MEDCouplingUMesh* recvMesh; + _domain_selector->recvMesh(recvMesh,_domain_selector->getProcessorID(iold)); + //receive vector + if (MyGlobals::_Verbose>400) std::cout<<"proc "<<_domain_selector->rank()<<" : castIntField recIntVec "<getProcessorID(iold)); + remapIntField2(inew,iold,*recvMesh,*meshesCastTo[inew],&recvIds[0],nameArrayTo); + recvMesh->decrRef(); //cww is it correct? + } + } + } + + //local contributions and aggregation + for (int inew=0; inewisMyDomain(iold) && _domain_selector->isMyDomain(inew))) + { + remapIntField2(inew,iold,*meshesCastFrom[iold],*meshesCastTo[inew],arrayFrom[iold]->getConstPointer(),nameArrayTo); + } + } +} + +void MeshCollection::remapIntField2(int inew,int iold, + const ParaMEDMEM::MEDCouplingUMesh& sourceMesh, + const ParaMEDMEM::MEDCouplingUMesh& targetMesh, + const int* fromArray, + string nameArrayTo) +//here we store ccI for next use in future call of castAllFields and remapDoubleField2 +{ + //cout<<"remapIntField2 "<setCoords(sourceCoords); + vector c; + vector cI; + vector ccI; //memorize intersection target<-source(inew,iold) + string str,cle; + str=nameArrayTo+"_toArray"; + cle=Cle1ToStr(str,inew); + int* toArray; + int targetSize=targetMesh.getNumberOfCells(); + //first time iold : create and initiate + if (_mapDataArrayInt.find(cle)==_mapDataArrayInt.end()) + { + if (MyGlobals::_Is0verbose>100) cout<<"create "<alloc(targetSize,1); + p->fillWithZero(); + toArray=p->getPointer(); + _mapDataArrayInt[cle]=p; + } + else //other times iold: refind and complete + { + toArray=_mapDataArrayInt.find(cle)->second->getPointer(); + } + tmpMesh->getNodeIdsNearPoints(targetCoords->getConstPointer(),targetSize,1e-10,c,cI); + if (cI.size()!=targetSize+1) + throw INTERP_KERNEL::Exception(LOCALIZED("Error in source/target projection")); + for (int itargetnode=0; itargetnode700) cout<<"proc "<decrRef(); + targetCoords->decrRef(); + tmpMesh->decrRef(); +} + +void MeshCollection::castAllFields(MeshCollection& initialCollection, string nameArrayTo) //cvwat08 +{ + using std::vector; + if (nameArrayTo!="cellFieldDouble") + throw INTERP_KERNEL::Exception(LOCALIZED("Error castAllField only on cellFieldDouble")); + + string nameTo="typeData=6"; //resume the type of field casted + // send-recv operations + int ioldMax=initialCollection.getMesh().size(); + int inewMax=this->getMesh().size(); + int iFieldMax=initialCollection.getFieldDescriptions().size(); + if (MyGlobals::_Verbose>10) cout<<"castAllFields with:\n"< initialCollection.getFieldDescriptions() + //getFieldDescriptions() is a string description of field coherent and tested and set BEFORE. + //see collection.prepareFieldDescriptions() + for (int ifield=0; ifieldisMyDomain(iold) && !_domain_selector->isMyDomain(inew)) + { + int target=_domain_selector->getProcessorID(inew); + ParaMEDMEM::DataArrayDouble* field=initialCollection.getField(descriptionField,iold); //cvwat14 + //getField look for and read it if not done, and assume decrRef() in ~MeshCollection; + if (MyGlobals::_Verbose>10) + std::cout<<"proc "<<_domain_selector->rank()<<" : castAllFields sendDouble"<isMyDomain(iold) && _domain_selector->isMyDomain(inew)) + { + int source=_domain_selector->getProcessorID(iold); + //receive vector + if (MyGlobals::_Verbose>10) + std::cout<<"proc "<<_domain_selector->rank()<<" : castAllFields recvDouble"<isMyDomain(iold) && _domain_selector->isMyDomain(inew))) + { + ParaMEDMEM::DataArrayDouble* field=initialCollection.getField(descriptionField,iold); //cvwat14 + remapDoubleField3(inew,iold,field,nameArrayTo,descriptionField); + } + } + } +} + +void MeshCollection::remapDoubleField3(int inew, int iold, + ParaMEDMEM::DataArrayDouble* fromArray, + string nameArrayTo, + string descriptionField) +//here we use 'cellFamily_ccI inew iold' set in remapIntField2 +{ + using std::vector; + if (nameArrayTo!="cellFieldDouble") + throw INTERP_KERNEL::Exception(LOCALIZED("Error remapDoubleField3 only on cellFieldDouble")); + string cle=Cle2ToStr("cellFamily_ccI",inew,iold); + + map::iterator it1; + it1=_mapDataArrayInt.find(cle); + if (it1==_mapDataArrayInt.end()) + { + cerr<<"proc "<second; + if (MyGlobals::_Verbose>300) cout<<"proc "<getNbOfElems()<getMesh()[inew]->getNumberOfCells(); //number of cell of mesh + int nbcomp=fromArray->getNumberOfComponents(); + int nbPtGauss=StrToInt(ExtractFromDescription(descriptionField, "nbPtGauss=")); + + //int nbk=fromArray->getNumberOfTuples(); + + //cle=reprGenericDescription(descriptionField)+" "+IntToStr(inew); + string tag="inewFieldDouble="+IntToStr(inew); + cle=descriptionField+SerializeFromString(tag); + //cout<<"descriptionField in remapDoubleField3 : "<getNbOfElems(); + int fromArrayNbOfComp=fromArray->getNumberOfComponents(); + int fromArrayNbOfCell=fromArrayNbOfElem/fromArrayNbOfComp/nbPtGauss; + + if (MyGlobals::_Verbose>1000) + { + cout<<"proc "<getNumberOfTuples()<< + " nbcells "<getNumberOfComponents()<::iterator it2; + it2=_mapDataArrayDouble.find(cle); + if (it2==_mapDataArrayDouble.end()) + { + if (MyGlobals::_Verbose>300) cout<<"proc "<alloc(nbcell*nbPtGauss,nbcomp); + field->fillWithZero(); + } + else + { + field=it2->second; + if (field->getNumberOfTuples()!=nbcell*nbPtGauss || field->getNumberOfComponents()!=nbcomp) + { + cerr<<"proc "<getNbOfElems()<setPartOfValuesAdv(fromArray,ccI); + } + else + { + //replaced by setPartOfValuesAdv if nbPtGauss==1 + int iMax=ccI->getNbOfElems(); + int* pccI=ccI->getPointer(); + double* pField=field->getPointer(); + double* pFrom=fromArray->getPointer(); + int itarget, isource, delta=nbPtGauss*nbcomp; + for (int i=0; i=nbcell) || (isource<0) || (isource>=fromArrayNbOfCell)) + throw INTERP_KERNEL::Exception(LOCALIZED("Error field override")); + int ita=itarget*delta; + int iso=isource*delta; + for (int k=0; kread (filename.c_str()); + _driver_type = MedXml; + } + catch(...) + { // Handle all exceptions + if ( _driver ) delete _driver; _driver=0; + try + { + _driver=new MeshCollectionMedAsciiDriver(this); + _driver->read (filename.c_str()); + _driver_type=MedAscii; + } + catch(...) + { + if ( _driver ) delete _driver; _driver=0; + throw INTERP_KERNEL::Exception(LOCALIZED("file does not comply with any recognized format")); + } + } + for ( int idomain = 0; idomain < _mesh.size(); ++idomain ) + if ( _mesh[idomain] && _mesh[idomain]->getNumberOfNodes() > 0 ) + _i_non_empty_mesh = idomain; +} + +/*! Constructing the MESH collection from selected domains of a distributed file + * + * \param filename - name of the master file containing the list of all the MED files + * \param domainSelector - selector of domains to load + */ +MeshCollection::MeshCollection(const std::string& filename, ParaDomainSelector& domainSelector) //cvwat01 + : _topology(0), + _owns_topology(true), + _driver(0), + //cvw _domain_selector( domainSelector.nbProcs() > 1 ? & domainSelector : 0 ), + _domain_selector( &domainSelector ), + _i_non_empty_mesh(-1), + _driver_type(MEDPARTITIONER::Undefined), + _subdomain_boundary_creates(false), + _family_splitting(false), + _create_empty_groups(false), + _joint_finder(0) +{ + std::string myfile=filename; + std::size_t found=myfile.find(".xml"); + if (found!=std::string::npos) //file .xml + { + try + { + _driver=new MeshCollectionMedXmlDriver(this); //cvwat02 + _driver->read ( (char*)filename.c_str(), _domain_selector ); + _driver_type = MedXml; + } + catch(...) + { // Handle all exceptions + if ( _driver ) delete _driver; _driver=0; + throw INTERP_KERNEL::Exception(LOCALIZED("file .xml does not comply with any recognized format")); + } + } + else + { + found=myfile.find(".med"); + if (found!=std::string::npos) //file .med single + { + //make a temporary file .xml and retry MedXmlDriver + std::string xml="\ +\n \ +\n \ + \n \ + \n \ + \n \ + \n \ + \n \ + \n \ + \n \ + \n \ + \n \ + \n \ + \n \ + $fileName\n \ + localhost\n \ + \n \ + \n \ + \n \ + \n \ + \n \ + $meshName\n \ + \n \ + \n \ + \n \ +\n"; + std::vector meshNames=MEDLoader::GetMeshNames(myfile.c_str()); + xml.replace(xml.find("$fileName"),9,myfile); + xml.replace(xml.find("$meshName"),9,meshNames[0]); + xml.replace(xml.find("$meshName"),9,meshNames[0]); + xml.replace(xml.find("$meshName"),9,meshNames[0]); + //std::cout<rank()==0) //only on to write it + { + std::ofstream f(nameFileXml.c_str()); + f<read ( (char*)nameFileXml.c_str(), _domain_selector ); + _driver_type = MedXml; + } + catch(...) + { // Handle all exceptions + if ( _driver ) delete _driver; _driver=0; + throw INTERP_KERNEL::Exception(LOCALIZED("file medpartitioner_xxx.xml does not comply with any recognized format")); + } + } + else //no extension + { + try + { + _driver=new MeshCollectionMedAsciiDriver(this); + _driver->read ( (char*)filename.c_str(), _domain_selector ); + _driver_type=MedAscii; + } + catch(...) + { + if ( _driver ) delete _driver; _driver=0; + throw INTERP_KERNEL::Exception(LOCALIZED("file name with no extension does not comply with any recognized format")); + } + } + } + + /*done in MeshCollectionMedXmlDriver read + if ( isParallelMode() ) + // to know nb of cells on each proc to compute global cell ids from locally global + _domain_selector->gatherNbOf( getMesh() );*/ + + // find non-empty domain mesh + for ( int idomain = 0; idomain < _mesh.size(); ++idomain ) + if ( _mesh[idomain] && _mesh[idomain]->getNumberOfNodes() > 0 ) + _i_non_empty_mesh = idomain; + + try + { + //check for all proc/file compatibility of _fieldDescriptions + //*MyGlobals::_File_Names=AllgathervVectorOfString(*MyGlobals::_File_Names); + _fieldDescriptions=AllgathervVectorOfString(MyGlobals::_Field_Descriptions); //cvwat07 + } + catch(INTERP_KERNEL::Exception& e) + { + cerr<<"proc "< v2=AllgathervVectorOfString(VectorizeFromMapOfStringInt(_familyInfo)); + _familyInfo=DevectorizeToMapOfStringInt(v2); + } + catch(INTERP_KERNEL::Exception& e) + { + cerr<<"proc "< v2=AllgathervVectorOfString( + VectorizeFromMapOfStringVectorOfString(_groupInfo)); + _groupInfo=DeleteDuplicatesInMapOfStringVectorOfString( + DevectorizeToMapOfStringVectorOfString(v2)); + } + catch(INTERP_KERNEL::Exception& e) + { + cerr<<"proc "< _meshes=MEDLoader::GetMeshNames(filename); + //std::vector< std::string > _fields=MEDLoader::GetAllFieldNamesOnMesh(filename,meshname[0]); + //cout<<"number of fields "<<_fields.size()<readSeq (filename.c_str(),meshname.c_str()); + } + catch (...) + { + if ( _driver ) delete _driver; _driver=0; + throw INTERP_KERNEL::Exception(LOCALIZED("problem reading .med files")); + } + if ( _mesh[0] && _mesh[0]->getNumberOfNodes() > 0 ) + _i_non_empty_mesh = 0; +} + +MeshCollection::~MeshCollection() +{ + for (int i=0; i<_mesh.size();i++) + if (_mesh[i]!=0) _mesh[i]->decrRef(); + + for (int i=0; i<_cellFamilyIds.size();i++) + if (_cellFamilyIds[i]!=0) _cellFamilyIds[i]->decrRef(); + + for (int i=0; i<_faceMesh.size();i++) + if (_faceMesh[i]!=0) _faceMesh[i]->decrRef(); + + for (int i=0; i<_faceFamilyIds.size();i++) + if (_faceFamilyIds[i]!=0) _faceFamilyIds[i]->decrRef(); + + for (map::iterator it=_mapDataArrayInt.begin() ; it!=_mapDataArrayInt.end(); it++ ) + if ((*it).second!=0) (*it).second->decrRef(); + + for (map::iterator it=_mapDataArrayDouble.begin() ; it!=_mapDataArrayDouble.end(); it++ ) + if ((*it).second!=0) (*it).second->decrRef(); + + if (_driver !=0) {delete _driver; _driver=0;} + if (_topology!=0 && _owns_topology) {delete _topology; _topology=0;} + + if (_joint_finder!=0) {delete _joint_finder; _joint_finder=0;} +} + +/*! constructing the MESH collection from a file + * + * The method creates as many MED-files as there are domains in the + * collection. It also creates a master file that lists all the MED files. + * The MED files created in ths manner contain joints that describe the + * connectivity between subdomains. + * + * \param filename name of the master file that will contain the list of the MED files + * + */ +void MeshCollection::write(const std::string& filename) +{ + //building the connect zones necessary for writing joints + // if (_topology->nbDomain()>1) + // buildConnectZones(); + //suppresses link with driver so that it can be changed for writing + if (_driver!=0) delete _driver; + _driver=0; + + //char filenamechar[256]; + // strcpy(filenamechar,filename.c_str()); + retrieveDriver()->write (filename.c_str(), _domain_selector); +} + +/*! creates or gets the link to the collection driver + */ +MeshCollectionDriver* MeshCollection::retrieveDriver() +{ + if (_driver==0) + { + switch(_driver_type) + { + case MedXml: + _driver=new MeshCollectionMedXmlDriver(this); + break; + case MedAscii: + _driver=new MeshCollectionMedAsciiDriver(this); + break; + default: + throw INTERP_KERNEL::Exception(LOCALIZED("Unrecognized driver")); + } + } + return _driver; +} + + +/*! gets an existing driver + * + */ +MeshCollectionDriver* MeshCollection::getDriver() const { + return _driver; +} + +// /*! retrieves the mesh dimension*/ +int MeshCollection::getMeshDimension() const { + return _i_non_empty_mesh < 0 ? -1 : _mesh[_i_non_empty_mesh]->getMeshDimension(); +} + +std::vector& MeshCollection::getMesh() { + return _mesh; +} + +std::vector& MeshCollection::getFaceMesh() { + return _faceMesh; +} + +ParaMEDMEM::MEDCouplingUMesh* MeshCollection::getMesh(int idomain) const { + return _mesh[idomain]; +} + +ParaMEDMEM::MEDCouplingUMesh* MeshCollection::getFaceMesh(int idomain) { + return _faceMesh[idomain]; +} + +std::vector& MeshCollection::getCZ() { + return _connect_zones; +} + +Topology* MeshCollection::getTopology() const { + return _topology; +} + +void MeshCollection::setTopology(Topology* topo) { + if (_topology!=0) + { + throw INTERP_KERNEL::Exception(LOCALIZED("topology is already set")); + } + else + _topology = topo; +} + +/*! Method creating the cell graph + * + * \param array returns the pointer to the structure that contains the graph + * \param edgeweight returns the pointer to the table that contains the edgeweights + * (only used if indivisible regions are required) + */ +void MeshCollection::buildCellGraph(MEDPARTITIONER::SkyLineArray* & array, int *& edgeweights ) //cvwat09 +{ + using std::multimap; + using std::vector; + using std::make_pair; + using std::pair; + + multimap< int, int > node2cell; + multimap< int, int > cell2cell; + multimap< int, int > cell2node; + + vector > > commonDistantNodes; + int nbdomain=_topology->nbDomain(); + if (isParallelMode()) + { + _joint_finder=new JointFinder(*this); + _joint_finder->findCommonDistantNodes(); + commonDistantNodes=_joint_finder->getDistantNodeCell(); + } + + if (MyGlobals::_Verbose>500) _joint_finder->print(); + + //looking for reverse nodal connectivity i global numbering + for (int idomain=0; idomainisMyDomain(idomain)) continue; + + /*obsolete + int offsetCell=0, offsetNode=0; + if (isParallelMode()) + { + offsetCell=_domain_selector->getDomainCellShift(idomain); + offsetNode=_domain_selector->getDomainNodeShift(idomain); + }*/ + + ParaMEDMEM::DataArrayInt* index=ParaMEDMEM::DataArrayInt::New(); + ParaMEDMEM::DataArrayInt* revConn=ParaMEDMEM::DataArrayInt::New(); + int nbNodes=_mesh[idomain]->getNumberOfNodes(); + //cout<<"proc "<getReverseNodalConnectivity(revConn,index); + //problem saturation over 1 000 000 nodes for 1 proc + if (MyGlobals::_Verbose>100) cout<<"proc "<getPointer(); + int* revConnPtr=revConn->getPointer(); + //if (MyGlobals::_Verbose>100) cout<<"proc "<convertNodeToGlobal(idomain,i); + int globalCell=_topology->convertCellToGlobal(idomain,revConnPtr[icell]); + node2cell.insert(make_pair(globalNode, globalCell)); + //cvw cout<<" "<decrRef(); + index->decrRef(); + //vector > > dNC=getDistantNodeCell() + for (int iother=0; iother::iterator it; + int isource=idomain; + int itarget=iother; + for (it=_joint_finder->_distant_node_cell[isource][itarget].begin(); + it!=_joint_finder->_distant_node_cell[isource][itarget].end(); it++) + { + int globalNode=_topology->convertNodeToGlobal(idomain,(*it).first); + int globalCell=(*it).second; + node2cell.insert(make_pair(globalNode, globalCell)); + //cout<<"processor "<100) cout<<"proc "<nbNodes()<nbNodes(); inode++) //on all nodes + { + typedef multimap::const_iterator MI; + pair myRange=node2cell.equal_range(inode); + for (MI cell1=myRange.first; cell1!=myRange.second; cell1++) //on cells with inode + { + pair myNodes1=cell2node.equal_range(cell1->second); //nodes of one cell + for (MI cell2=myRange.first; cell2!=myRange.second; cell2++) //on one of these cell + { + if (cell1->second!=cell2->second) //in cells of my domain + { + pair myNodes2=cell2node.equal_range(cell2->second); //on nodes of this cell + int nbcn=0; //number of common nodes between cells: at least 3 for cells + for (MI it1=myNodes1.first; it1!=myNodes1.second; ++it1) + { + for (MI it2=myNodes2.first; it2!=myNodes2.second; ++it2) + { + if ((*it1).second==(*it2).second) + { + nbcn=nbcn+1 ; break; + } + } + } + if (nbcn>=3) //cvw TODO if 2d cells set at 2 + cell2cell.insert(make_pair(cell1->second,cell2->second)); + //note here there is some global numerotation of cell which come from other domain (not mydomain) + //cout<<" "<second<<"!"<second; //cvw + } + } + } + } + + if (MyGlobals::_Verbose>100) cout<<"proc "< index,value; + index.push_back(0); + int idep=0; + + for (int idomain=0; idomainisMyDomain(idomain)) continue; + int nbCells=_mesh[idomain]->getNumberOfCells(); + for (int icell=0; icellconvertCellToGlobal(idomain,icell); + multimap::iterator it; + pair::iterator,multimap::iterator> ret; + ret=cell2cell.equal_range(globalCell); + //cout<<" "<100) + { + std::cout<<"\nproc "<<_domain_selector->rank()<<" : end MeshCollection::buildCellGraph "<< + index.size()-1<<" "<1) + { + for (int i=0; i<10; ++i) cout<10) cout<<"proc "< 0")); + MEDPARTITIONER::SkyLineArray* array=0; + int* edgeweights=0; + + //cout<<"Building cell graph... "; + // if ( _domain_selector ) + // buildCellGraphParallel(array,edgeweights); + // else + buildCellGraph(array,edgeweights); //cvwat09 + //MPI_Barrier(MPI_COMM_WORLD); + //cout<<"proc "<10) cout<<"METISGraph"<10) cout<<"SCOTCHGraph"<setEdgesWeights(user_edge_weights); + if (user_vertices_weights!=0) + cellGraph->setVerticesWeights(user_vertices_weights); + + if (MyGlobals::_Is0verbose>10) cout<<"partitioning graph on "<partGraph(nbdomain, options_string, _domain_selector); //cvwat10 + + if (MyGlobals::_Is0verbose>10) cout<<"building new topology"<11) cout<<"proc "< domains; + for (int i=0; i<_topology->nbCells(); i++) + { + domains.insert(partition[i]); + } + int nbdomain=domains.size(); + + cellGraph=(Graph*)(new UserGraph(array, partition, _topology->nbCells())); + + //cellGraph is a shared pointer + Topology* topology = new ParallelTopology (cellGraph, getTopology(), nbdomain, getMeshDimension()); + + // if (array!=0) delete array; + delete cellGraph; + return topology; +} + +void MeshCollection::setDomainNames(const std::string& name) +{ + for (int i=0; i<_topology->nbDomain(); i++) + { + std::ostringstream oss; + oss<isMyDomain(i)) + _mesh[i]->setName(oss.str().c_str()); + } +} + +ParaMEDMEM::DataArrayDouble* MeshCollection::getField(std::string descriptionField, int iold) +//getField look for and read it if not done, and assume decrRef() in ~MeshCollection; +//something like MEDCouplingFieldDouble *f2=MEDLoader::ReadFieldCell(name.c_str(),f1->getMesh()->getName(),0,f1->getName(),0,1); +{ + int rank=MyGlobals::_Rank; + string tag="ioldFieldDouble="+IntToStr(iold); + string descriptionIold=descriptionField+SerializeFromString(tag); + if (_mapDataArrayDouble.find(descriptionIold)!=_mapDataArrayDouble.end()) + { + if (MyGlobals::_Verbose>300) cout<<"proc "<reprZip()<200) cout<<"proc "<10) + cout<<"proc "<getArray(); + //to know names of components + vector browse=BrowseFieldDouble(f2); + //done yet + //double time=f2->getTime(IT,DT); + //browse.push_back("time="+DoubleToStr(time)); + string localFieldInformation=descriptionIold+SerializeFromVectorOfString(browse); + if (MyGlobals::_Verbose>10) cout<<"proc "<incrRef(); //free field, keep res + f2->decrRef(); + _mapDataArrayDouble[descriptionIold]=res; + + //duplicate it! because f2->decRef!! + //DataArrayDouble* res=f2->getArray()->deepCpy(); + //f2->decrRef(); + //cout<reprZip()< r2; + //from allgatherv then vector(procs) of serialised vector(fields) of vector(description) data + for (int i=0; i<_fieldDescriptions.size(); i++) + { + vector r1=DeserializeToVectorOfString(_fieldDescriptions[i]); + for (int i=0; i& inodesFace,vector< int >& inodesCell) +{ + int ires=0; + int nbok=inodesFace.size(); + for (int i=0; inbDomain(); inew++) + { + if (isParallelMode() && _domain_selector->isMyDomain(inew)) + { + if (MyGlobals::_Verbose>200) + std::cout<<"proc "<getNumberOfCells()< nodeIds; + //cout<<"proc "<getReverseNodalConnectivity(revNodalCel,revNodalIndxCel); + int *revC=revNodalCel->getPointer(); + int *revIndxC=revNodalIndxCel->getPointer(); + + vector< int > faceOnCell; + vector< int > faceNotOnCell; + int nbface=mfac->getNumberOfCells(); + for (int iface=0; iface inodesFace; + mfac->getNodeIdsOfCell(iface, inodesFace); + int nbnodFace=inodesFace.size(); + //set inodesFace in mcel + for (int i=0; i inodesCell; + mcel->getNodeIdsOfCell(icel, inodesCell); + ok=isFaceOncell(inodesFace, inodesCell); + if (ok) break; + } + if (ok) + { + faceOnCell.push_back(iface); + //if (MyGlobals::_Is0verbose) cout<<"face on cell "<decrRef(); + revNodalIndxCel->decrRef(); + + string cle; + cle=Cle1ToStr("filterFaceOnCell",inew); + _mapDataArrayInt[cle]=CreateDataArrayIntFromVector(faceOnCell); + cle=Cle1ToStr("filterNotFaceOnCell",inew); + _mapDataArrayInt[cle]=CreateDataArrayIntFromVector(faceNotOnCell); + + /*ParaMEDMEM::DataArrayInt* index=ParaMEDMEM::DataArrayInt::New(); + ParaMEDMEM::DataArrayInt* revConn=ParaMEDMEM::DataArrayInt::New(); + _mesh[idomain]->getReverseNodalConnectivity(revConn,index); + int* index_ptr=index->getPointer();*/ + + /*if (MyGlobals::_Is0verbose) + { + cout<<"proc "<nbDomain(); inew++) + { + if (isParallelMode() && _domain_selector->isMyDomain(inew)) + { + if (MyGlobals::_Verbose>1) std::cout<<"proc "<getNumberOfCells()<buildDescendingConnectivity(desc,descIndx,revDesc,revDescIndx); + revDesc->decrRef(); + desc->decrRef(); + descIndx->decrRef(); + int nbOfCells=meshDM1->getNumberOfCells(); + const int *revDescIndxC=revDescIndx->getConstPointer(); + std::vector boundaryCells; + for(int i=0; idecrRef(); + bool keepCoords=true; + MEDCouplingUMesh *ret=(MEDCouplingUMesh *)meshDM1->buildPartOfMySelf(&boundaryCells[0],&boundaryCells[0]+boundaryCells.size(),keepCoords); + meshDM1->decrRef(); + //don't know what to do with result yet.. + //_faceMesh[inew]->decrRef(); + //_faceMesh[inew]=ret; + } + } +} +*/ + diff --git a/src/MEDPartitioner/MEDPARTITIONER_MeshCollection.hxx b/src/MEDPartitioner/MEDPARTITIONER_MeshCollection.hxx new file mode 100644 index 000000000..569c04566 --- /dev/null +++ b/src/MEDPartitioner/MEDPARTITIONER_MeshCollection.hxx @@ -0,0 +1,229 @@ +// Copyright (C) 2007-2011 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. +// +// This library 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 this library; if not, write to the Free Software +// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA +// +// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com +// + +#ifndef __MEDPARTITIONER_MESHCOLLECTION_HXX__ +#define __MEDPARTITIONER_MESHCOLLECTION_HXX__ + +#include "MEDPARTITIONER.hxx" +#include "MEDPARTITIONER_Graph.hxx" + +#include "MEDCouplingUMesh.hxx" + +#include +#include +#include + +namespace ParaMEDMEM +{ + class MEDCouplingUMesh; + class DataArrayInt; +} + +namespace MEDPARTITIONER +{ + class Topology; + class MeshCollectionDriver; + class ParaDomainSelector; + class SkyLineArray; + class ConnectZone; + class JointFinder; + + typedef enum{MedAscii, MedXml, Undefined} DriverType; + typedef std::multimap, std::pair > NodeMapping ; + typedef std::vector > NodeList; + + class MEDPARTITIONER_EXPORT MeshCollection + { + public: + MeshCollection(); + //Constructing from an existing mesh and a new topology + MeshCollection(MeshCollection&, Topology*, bool family_splitting=false, bool create_empty_groups=false); + //Constructing the mesh collection from a file + MeshCollection(const std::string& filename); + //Constructing the mesh collection from a file + MeshCollection(const std::string& filename, ParaDomainSelector& domainSelector); + //Constructing the mesh collection from a file + MeshCollection(const std::string& filename, const std::string& meshname); + ~MeshCollection(); + bool isParallelMode() const { return _domain_selector; } + + //writing to a distributed file + void write(const std::string& filename); + + //getting the driver + MeshCollectionDriver* retrieveDriver(); + MeshCollectionDriver* getDriver() const; + void setDriverType(MEDPARTITIONER::DriverType type) {_driver_type=type;} + + //creation of the cell graph + void buildCellGraph(MEDPARTITIONER::SkyLineArray* & array,int *& edgeweights ); + //creation and partition of the associated graph + Topology* createPartition(int nbdomain, Graph::splitter_type type = Graph::METIS, + const std::string& ="", int* edgeweights=0, int* verticesweights=0); + + //creation of a user specified partition + Topology* createPartition(const int* partition); + + //getting mesh dimension + int getMeshDimension() const ; + //getting a reference to mesh vector + std::vector& getMesh(); + std::vector& getFaceMesh(); + std::vector >& getGroupMeshes(); + + ParaMEDMEM::MEDCouplingUMesh* getMesh(int idomain) const; + ParaMEDMEM::MEDCouplingUMesh* getFaceMesh(int idomain); + std::vector& getGroupMeshes(int idomain); + + std::vector& getCellFamilyIds() {return _cellFamilyIds;} + std::vector& getFaceFamilyIds() {return _faceFamilyIds;} + + std::map& getMapDataArrayInt() {return _mapDataArrayInt;} + std::map& getMapDataArrayDouble() {return _mapDataArrayDouble;} + + std::map& getFamilyInfo() {return _familyInfo;} + std::map >& getGroupInfo() {return _groupInfo;} + + ParaMEDMEM::DataArrayDouble* getField(std::string descriptionField, int iold); + std::vector& getFieldDescriptions() {return _fieldDescriptions;} + void prepareFieldDescriptions(); + void filterFaceOnCell(); + + //getting a reference to connect zones vector + std::vector& getCZ(); + + //getting a pointer to topology + Topology* getTopology() const ; + ParaDomainSelector* getParaDomainSelector() const{return _domain_selector;} + //setting a new topology + void setTopology(Topology* topology); + + //getting/setting the name of the global mesh (as opposed + //to the name of a subdomain \a nn, which is name_nn) + std::string getName() const {return _name;} + void setName(const std::string& name){_name=name;} + void setDomainNames(const std::string& name); + + //getting/setting the description of the global mesh + std::string getDescription() const {return _description;} + void setDescription(const std::string& name) { _description=name;} + + //creates the node mapping between an old collection and the present one + void createNodeMapping(MeshCollection& initialCollection, + std::multimap,std::pair >& nodeMapping); + + void castCellMeshes(MeshCollection& initialCollection, + std::vector > >& new2oldIds); + + //creates faces on the new collection + void castFaceMeshes(MeshCollection& initialCollection, + const std::multimap, std::pair >& nodeMapping, + std::vector > >& new2oldIds); + + private: + void castIntField2(std::vector& meshesCastFrom, + std::vector& meshesCastTo, + std::vector& arrayFrom, + std::string nameArrayTo); + + void castAllFields(MeshCollection& initialCollection, + std::string nameArrayTo); + + void findCommonDistantNodes(std::vector > >& commonDistantNodes); + + void remapIntField(const ParaMEDMEM::MEDCouplingUMesh& sourceMesh, + const ParaMEDMEM::MEDCouplingUMesh& targetMesh, + const int* fromArray, + int* toArray); + + void remapIntField2(int inew, int iold, + const ParaMEDMEM::MEDCouplingUMesh& sourceMesh, + const ParaMEDMEM::MEDCouplingUMesh& targetMesh, + const int* fromArray, + std::string nameArrayTo); + + void remapDoubleField3(int inew, int iold, + ParaMEDMEM::DataArrayDouble* fromArray, + std::string nameArrayTo, + std::string descriptionField); + + //link to mesh_collection topology + Topology* _topology; + + //control over topology + bool _owns_topology; + + //Driver for read/write operations + MeshCollectionDriver* _driver; + + //Parallelizer - mark of parallel execution mode + ParaDomainSelector* _domain_selector; + + //links to meshes + std::vector _mesh; + std::vector _faceMesh; + + //index of a non empty mesh within _mesh (in parallel mode all of meshes can be empty) + int _i_non_empty_mesh; + + //links to connectzones + std::vector _connect_zones; + + //family ids storages + std::vector _cellFamilyIds; + std::vector _faceFamilyIds; + + //DataArrayInt* storages + std::map _mapDataArrayInt; + //DataArrayDouble* storages + std::map _mapDataArrayDouble; + + //fields to be partitioned + std::vector _fieldDescriptions; + + //group family conversion + std::map _familyInfo; + std::map > _groupInfo; + + //list of groups that are not to be splitted + std::vector _indivisible_regions; + + //name of global mesh + std::string _name; + + //description of global mesh + std::string _description; + + //specifies the driver associated to the collection + DriverType _driver_type; + + //flag specifying that the splitter should create boundary constituent entity + //so that they are written in joints + bool _subdomain_boundary_creates; + + //flag specifying that families must be preserved by the splitting + bool _family_splitting; + + //flag specifying that groups must be created on all domains, even if they are empty + bool _create_empty_groups; + + JointFinder* _joint_finder; + }; +} +#endif diff --git a/src/MEDPartitioner/MEDPARTITIONER_MeshCollectionDriver.cxx b/src/MEDPartitioner/MEDPARTITIONER_MeshCollectionDriver.cxx new file mode 100644 index 000000000..e82ed7284 --- /dev/null +++ b/src/MEDPartitioner/MEDPARTITIONER_MeshCollectionDriver.cxx @@ -0,0 +1,467 @@ +// Copyright (C) 2007-2011 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. +// +// This library 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 this library; if not, write to the Free Software +// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA +// +// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com +// + +#include "MEDPARTITIONER_ParallelTopology.hxx" +#include "MEDPARTITIONER_MeshCollectionDriver.hxx" +#include "MEDPARTITIONER_MeshCollection.hxx" +#include "MEDPARTITIONER_ParaDomainSelector.hxx" +#include "MEDPARTITIONER_Utils.hxx" + +#include "MEDCouplingUMesh.hxx" +#include "MEDCouplingFieldDouble.hxx" +#include "MEDLoader.hxx" +#include "MEDFileMesh.hxx" + +#include +#include +#include +#include +#include +#include + +#include +#include +#include +#include + +#include + +extern "C" { +#include "med.h" +} + +using namespace std; +using namespace ParaMEDMEM; +using namespace MEDPARTITIONER; + +MeshCollectionDriver::MeshCollectionDriver(MeshCollection* collection):_collection(collection) +{ +} + +/*!reads a unique MED File v>=2.1 + * and mounts the corresponding mesh in memory + *\param filename binary file + *\param meshname mesh name in the MED file + * */ +int MeshCollectionDriver::readSeq(const char* filename, const char* meshname) +{ + cout<<"readSeq"<getMesh()).push_back(mfm->getLevel0Mesh(false)); + (_collection->getFaceMesh()).push_back(mfm->getLevelM1Mesh(false)); + + //reading family ids + ParaMEDMEM::DataArrayInt* cellIds(mfm->getFamilyFieldAtLevel(0)->deepCpy()); + ParaMEDMEM::DataArrayInt* faceIds(mfm->getFamilyFieldAtLevel(-1)->deepCpy()); + (_collection->getCellFamilyIds()).push_back(cellIds); + (_collection->getFaceFamilyIds()).push_back(faceIds); + + //reading groups + (_collection->getFamilyInfo())=mfm->getFamilyInfo(); + (_collection->getGroupInfo())=mfm->getGroupInfo(); + + (_collection->getCZ()).clear(); + + ParallelTopology* aPT = new ParallelTopology((_collection->getMesh())); + _collection->setTopology(aPT); + _collection->setName(meshname); + _collection->setDomainNames(meshname); + return 0; +} + + +//================================================================================ +/*! + * \brief Return mesh dimension from distributed med file had being read + */ +//================================================================================ + +void MeshCollectionDriver::readSubdomain(vector& cellglobal, //cvwat03 + vector& faceglobal, + vector& nodeglobal, int idomain) +{ + string meshname=MyGlobals::_Mesh_Names[idomain]; + string file=MyGlobals::_File_Names[idomain]; + //cout << "Reading "< nonEmpty=mfm->getNonEmptyLevels(); + + try + { + (_collection->getMesh())[idomain]=mfm->getLevel0Mesh(false); + //reading families groups + ParaMEDMEM::DataArrayInt* cellIds(mfm->getFamilyFieldAtLevel(0)->deepCpy()); + (_collection->getCellFamilyIds())[idomain]=cellIds; + } + catch(...) + { + (_collection->getMesh())[idomain]=CreateEmptyMEDCouplingUMesh(); // or 0 if you want tests; + ParaMEDMEM::DataArrayInt* empty=ParaMEDMEM::DataArrayInt::New(); + empty->alloc(0,1); + (_collection->getCellFamilyIds())[idomain]=empty; + cout<<"\nNO Level0Mesh (Cells)\n"; + } + try + { + if (nonEmpty.size()>1 && nonEmpty[1]==-1) + { + (_collection->getFaceMesh())[idomain]=mfm->getLevelM1Mesh(false); + //reading families groups + ParaMEDMEM::DataArrayInt* faceIds(mfm->getFamilyFieldAtLevel(-1)->deepCpy()); + (_collection->getFaceFamilyIds())[idomain]=faceIds; + } + else + { + throw "no faces"; + } + } + catch(...) + { + (_collection->getFaceMesh())[idomain]=CreateEmptyMEDCouplingUMesh(); // or 0 if you want test; + ParaMEDMEM::DataArrayInt* empty=ParaMEDMEM::DataArrayInt::New(); + (_collection->getFaceFamilyIds())[idomain]=empty; + if (MyGlobals::_Verbose>10) cout<<"proc "<getFamilyInfo()=mfm->getFamilyInfo(); + _collection->getGroupInfo()=mfm->getGroupInfo(); + + mfm->decrRef(); + + vector localInformation; + string str; + localInformation.push_back(str+"ioldDomain="+IntToStr(idomain)); + localInformation.push_back(str+"meshName="+meshname); + MyGlobals::_General_Informations.push_back(SerializeFromVectorOfString(localInformation)); + vector localFields=BrowseAllFieldsOnMesh(file, meshname, idomain); //cvwat07 + if (localFields.size()>0) + MyGlobals::_Field_Descriptions.push_back(SerializeFromVectorOfString(localFields)); +} + + +void MeshCollectionDriver::readSubdomain(int idomain) +{ + string meshname=MyGlobals::_Mesh_Names[idomain]; + string file=MyGlobals::_File_Names[idomain]; + //cout << "Reading "< nonEmpty=mfm->getNonEmptyLevels(); + + try + { + (_collection->getMesh())[idomain]=mfm->getLevel0Mesh(false); + //reading families groups + ParaMEDMEM::DataArrayInt* cellIds(mfm->getFamilyFieldAtLevel(0)->deepCpy()); + (_collection->getCellFamilyIds())[idomain]=cellIds; + } + catch(...) + { + (_collection->getMesh())[idomain]=CreateEmptyMEDCouplingUMesh(); // or 0 if you want tests; + ParaMEDMEM::DataArrayInt* empty=ParaMEDMEM::DataArrayInt::New(); + empty->alloc(0,1); + (_collection->getCellFamilyIds())[idomain]=empty; + cout<<"\nNO Level0Mesh (Cells)\n"; + } + try + { + if (nonEmpty.size()>1 && nonEmpty[1]==-1) + { + (_collection->getFaceMesh())[idomain]=mfm->getLevelM1Mesh(false); + //reading families groups + ParaMEDMEM::DataArrayInt* faceIds(mfm->getFamilyFieldAtLevel(-1)->deepCpy()); + (_collection->getFaceFamilyIds())[idomain]=faceIds; + } + else + { + throw "no faces"; + } + } + catch(...) + { + (_collection->getFaceMesh())[idomain]=CreateEmptyMEDCouplingUMesh(); // or 0 if you want test; + ParaMEDMEM::DataArrayInt* empty=ParaMEDMEM::DataArrayInt::New(); + (_collection->getFaceFamilyIds())[idomain]=empty; + if (MyGlobals::_Verbose>10) cout<<"proc "<getFamilyInfo()=mfm->getFamilyInfo(); + _collection->getGroupInfo()=mfm->getGroupInfo(); + + mfm->decrRef(); + + vector localInformation; + string str; + localInformation.push_back(str+"ioldDomain="+IntToStr(idomain)); + localInformation.push_back(str+"meshName="+meshname); + MyGlobals::_General_Informations.push_back(SerializeFromVectorOfString(localInformation)); + vector localFields=BrowseAllFieldsOnMesh(file, meshname, idomain); //cvwat07 + if (localFields.size()>0) + MyGlobals::_Field_Descriptions.push_back(SerializeFromVectorOfString(localFields)); +} + + +void MeshCollectionDriver::writeMedFile(int idomain, const string& distfilename) +{ + vector meshes; + ParaMEDMEM::MEDCouplingUMesh* cellMesh=_collection->getMesh(idomain); + ParaMEDMEM::MEDCouplingUMesh* faceMesh=_collection->getFaceMesh(idomain); + ParaMEDMEM::MEDCouplingUMesh* faceMeshFilter=0; + + string finalMeshName=ExtractFromDescription(MyGlobals::_General_Informations[0], "finalMeshName="); + string cleFilter=Cle1ToStr("filterFaceOnCell",idomain); + DataArrayInt* filter=0; + if (_collection->getMapDataArrayInt().find(cleFilter)!=_collection->getMapDataArrayInt().end()) + { + filter=_collection->getMapDataArrayInt().find(cleFilter)->second; + int* index=filter->getPointer(); + faceMeshFilter=(MEDCouplingUMesh *) faceMesh->buildPartOfMySelf(index,index+filter->getNbOfElems(),true); + faceMesh=faceMeshFilter; + } + cellMesh->setName(finalMeshName.c_str()); + meshes.push_back(cellMesh); + //cellMesh->zipCoords(); + //faceMesh->zipCoords(); + + faceMesh->checkCoherency(); + if (faceMesh->getNumberOfCells()>0) + { + faceMesh->tryToShareSameCoordsPermute(*cellMesh, 1e-10); + meshes.push_back(faceMesh); + } + + /*do not work + ParaMEDMEM::MEDFileUMesh* mfm2=ParaMEDMEM::MEDFileUMesh::New(); + MEDFileUMesh* mfm2 = static_cast(cellMesh->getMeshes()->getMeshAtPos(0)); + MEDFileUMesh* mfm2 = ParaMEDMEM::MEDFileUMesh::New(cellMesh); + string fname="FUM_"+distfilename; + mfm2->setMeshAtLevel(0, cellMesh ); + mfm2->setMeshAtLevel(-1, faceMesh ); + mfm2->write(fname.c_str(),0); + mfm2->decrRef(); + */ + + ParaMEDMEM::MEDCouplingUMesh* boundaryMesh=0; + //ParaMEDMEM::MEDCouplingUMesh* boundaryMesh1=0; + //ParaMEDMEM::MEDCouplingUMesh* finalboundaryMesh=0; + if (MyGlobals::_Creates_Boundary_Faces>0) + { + //try to write Boundary meshes + bool keepCoords=false; //TODO or true + boundaryMesh=(MEDCouplingUMesh *) cellMesh->buildBoundaryMesh(keepCoords); + boundaryMesh->setName("boundaryMesh"); + //cout<<"boundaryMesh "<getNumberOfCells()<checkCoherency(); + //boundaryMesh->tryToShareSameCoordsPermute(*cellMesh, 1e-10); + //meshes.push_back(boundaryMesh); + //string boundary="boundary_"+distfilename; + + /*try to find joint do no work + int rang=MyGlobals::_Rank; + if (rang==1) (_collection->getParaDomainSelector())->sendMesh(*(boundaryMesh),0); + if (rang==0) + { + (_collection->getParaDomainSelector())->recvMesh(boundaryMesh1,1); + //vector meshes; + //vector corr; + //meshes.push_back(boundaryMesh); + //meshes.push_back(boundaryMesh1); + //need share the same coords + //boundaryMesh1->tryToShareSameCoordsPermute(*boundaryMesh, 1e-10); + //finalboundaryMesh=MEDCouplingUMesh::FuseUMeshesOnSameCoords(meshes,2, corr); + //boundaryMesh=finalboundaryMesh; + + boundaryMesh->zipCoords(); + boundaryMesh1->zipCoords(); + finalboundaryMesh=MEDCouplingUMesh::MergeUMeshes(boundaryMesh,boundaryMesh1); + DataArrayInt* commonNodes=0; + commonNodes=finalboundaryMesh->zipCoordsTraducer(); + boundaryMesh=finalboundaryMesh; + cout<<"zipcoords"<repr()<decrRef(); + + + if (boundaryMesh!=0) + { + //doing that testMesh becomes second mesh sorted by alphabetical order of name + MEDLoader::WriteUMesh(distfilename.c_str(), boundaryMesh, false); + boundaryMesh->decrRef(); + } + + //cout<<"familyInfo :\n"<getFamilyInfo())<getGroupInfo())<getMesh(idomain)->getName()); + + /*example of adding new family + (_collection->getFamilyInfo())["FaceNotOnCell"]=-500; + vector FaceNotOnCell; + FaceNotOnCell.push_back("FaceNotOnCell"); + (_collection->getGroupInfo())["FaceNotOnCell"]=FaceNotOnCell; + */ + + mfm->setFamilyInfo(_collection->getFamilyInfo()); + mfm->setGroupInfo(_collection->getGroupInfo()); + + //without filter mfm->setFamilyFieldArr(-1,(_collection->getFaceFamilyIds())[idomain]); + + string cle=Cle1ToStr("faceFamily_toArray",idomain); + if (_collection->getMapDataArrayInt().find(cle)!=_collection->getMapDataArrayInt().end()) + { + DataArrayInt* fam=_collection->getMapDataArrayInt().find(cle)->second; + DataArrayInt* famFilter=0; + if (filter!=0) + { + int* index=filter->getPointer(); + int nbTuples=filter->getNbOfElems(); + //not the good one...buildPartOfMySelf do not exist for DataArray + //Filter=fam->renumberAndReduce(index, filter->getNbOfElems()); + famFilter=DataArrayInt::New(); + famFilter->alloc(nbTuples,1); + int* pfamFilter=famFilter->getPointer(); + int* pfam=fam->getPointer(); + for (int i=0; isetFamilyFieldArr(-1,fam); + famFilter->decrRef(); + } + //cout<<"proc "<setFamilyFieldArr(-1,fam); + //if (famFilter!=0) famFilter->decrRef(); + } + + /*example visualisation of filter + if (_collection->getMapDataArrayInt().find(cle)!=_collection->getMapDataArrayInt().end()) + { + DataArrayInt* fam=_collection->getMapDataArrayInt().find(cle)->second; + string cle2=Cle1ToStr("filterNotFaceOnCell",idomain); + if (_collection->getMapDataArrayInt().find(cle2)!=_collection->getMapDataArrayInt().end()) + { + DataArrayInt* filter=_collection->getMapDataArrayInt().find(cle2)->second; + int* index=filter->getPointer(); + int* pfam=fam->getPointer(); + for (int i=0; igetNbOfElems(); i++) pfam[index[i]]=-500; + } + mfm->setFamilyFieldArr(-1,fam); + //mfm->setFamilyFieldArr(-1,_collection->getMapDataArrayInt().find(cle)->second); + } + */ + + cle=Cle1ToStr("cellFamily_toArray",idomain); + if (_collection->getMapDataArrayInt().find(cle)!=_collection->getMapDataArrayInt().end()) + mfm->setFamilyFieldArr(0,_collection->getMapDataArrayInt().find(cle)->second); + + mfm->write(distfilename.c_str(),0); + cle="/inewFieldDouble="+IntToStr(idomain)+"/"; + + map::iterator it; + int nbfFieldFound=0; + for (it=_collection->getMapDataArrayDouble().begin() ; it!=_collection->getMapDataArrayDouble().end(); it++) + { + string desc=(*it).first; + size_t found=desc.find(cle); + if (found==string::npos) continue; + if (MyGlobals::_Verbose>20) cout<<"proc "<setName(fieldName.c_str()); + field->setMesh(mfm->getLevel0Mesh(false)); + DataArrayDouble* da=(*it).second; + + //get information for components etc.. + vector r1; + r1=SelectTagsInVectorOfString(MyGlobals::_General_Informations,"fieldName="+fieldName); + r1=SelectTagsInVectorOfString(r1,"typeField="+IntToStr(typeField)); + r1=SelectTagsInVectorOfString(r1,"DT="+IntToStr(DT)); + r1=SelectTagsInVectorOfString(r1,"IT="+IntToStr(IT)); + //not saved in file? field->setDescription(ExtractFromDescription(r1[0], "fieldDescription=").c_str()); + int nbc=StrToInt(ExtractFromDescription(r1[0], "nbComponents=")); + //double time=StrToDouble(ExtractFromDescription(r1[0], "time=")); + if (nbc==da->getNumberOfComponents()) + { + for (int i=0; isetInfoOnComponent(i,ExtractFromDescription(r1[0], "componentInfo"+IntToStr(i)+"=").c_str()); + } + else + { + cerr<<"Problem On field "<getNumberOfComponents()<setArray(da); + field->setTime(time,DT,IT); + field->checkCoherency(); + try + { + MEDLoader::WriteField(distfilename.c_str(),field,false); + //if entityName=="MED_NODE_ELEMENT" + //AN INTERP_KERNEL::EXCEPTION HAS BEEN THROWN : Not implemented other profile fitting from already written mesh for fields than on NODES and on CELLS.********** + //modification MEDLoader.cxx done + } + catch(INTERP_KERNEL::Exception& e) + { + //cout trying rewrite all data, only one field defined + string tmp,newName=distfilename; + tmp+="_"+fieldName+"_"+IntToStr(nbfFieldFound)+".med"; + newName.replace(newName.find(".med"),4,tmp); + cout<<"WARNING : writeMedFile : new file name with only one field :"<decrRef(); +} diff --git a/src/MEDPartitioner/MEDPARTITIONER_MeshCollectionDriver.hxx b/src/MEDPartitioner/MEDPARTITIONER_MeshCollectionDriver.hxx new file mode 100644 index 000000000..5ff51849f --- /dev/null +++ b/src/MEDPartitioner/MEDPARTITIONER_MeshCollectionDriver.hxx @@ -0,0 +1,54 @@ +// Copyright (C) 2007-2011 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. +// +// This library 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 this library; if not, write to the Free Software +// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA +// +// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com +// + +#ifndef __MEDPARTITIONER_MESHCOLLECTIONDRIVER_HXX__ +#define __MEDPARTITIONER_MESHCOLLECTIONDRIVER_HXX__ + +#include "MEDPARTITIONER.hxx" + +#include +#include + +namespace MEDPARTITIONER +{ + class MeshCollection; + class ParaDomainSelector; + + class MEDPARTITIONER_EXPORT MeshCollectionDriver + { + public: + MeshCollectionDriver(MeshCollection*); + virtual ~MeshCollectionDriver() + { + } + virtual int read(const char*, ParaDomainSelector* sel=0) = 0; + int readSeq(const char*,const char*); + virtual void write(const char*, ParaDomainSelector* sel=0) = 0; + + protected: + void readSubdomain(std::vector& cellglobal, + std::vector& faceglobal, + std::vector& nodeglobal, int idomain); + void readSubdomain(int idomain); + void writeMedFile(int idomain, const std::string& distfilename); + + MeshCollection* _collection; + }; +} +#endif diff --git a/src/MEDPartitioner/MEDPARTITIONER_MeshCollectionMedAsciiDriver.cxx b/src/MEDPartitioner/MEDPARTITIONER_MeshCollectionMedAsciiDriver.cxx new file mode 100644 index 000000000..5a60695fb --- /dev/null +++ b/src/MEDPartitioner/MEDPARTITIONER_MeshCollectionMedAsciiDriver.cxx @@ -0,0 +1,177 @@ +// Copyright (C) 2007-2011 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. +// +// This library 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 this library; if not, write to the Free Software +// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA +// +// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com +// + +#include "MEDPARTITIONER_ParallelTopology.hxx" +#include "MEDPARTITIONER_MeshCollectionDriver.hxx" +#include "MEDPARTITIONER_MeshCollection.hxx" +#include "MEDPARTITIONER_MeshCollectionMedAsciiDriver.hxx" +#include "MEDPARTITIONER_ParaDomainSelector.hxx" +#include "MEDPARTITIONER_Utils.hxx" + +#include "MEDCouplingUMesh.hxx" +#include "MEDLoader.hxx" + +#include +#include +#include +#include +#include +#include + +#include +#include +#include +#include + +#include + +using namespace MEDPARTITIONER; +using namespace std; + +MeshCollectionMedAsciiDriver::MeshCollectionMedAsciiDriver(MeshCollection* collection):MeshCollectionDriver(collection) +{ +} + +/*!reads a MED File v>=2.3 + * and mounts the corresponding meshes in memory + * the connect zones are created from the joints + * + *\param filename ascii file containing the list of MED v2.3 files + * */ + +int MeshCollectionMedAsciiDriver::read(const char* filename, ParaDomainSelector* domainSelector) +{ + //distributed meshes + vector cellglobal; + vector nodeglobal; + vector faceglobal; + int nbdomain; + + //reading ascii master file + try + { + ifstream asciiinput(filename); + if (!asciiinput) throw INTERP_KERNEL::Exception(LOCALIZED("Master ASCII File does not exist")); + char charbuffer[512]; + asciiinput.getline(charbuffer,512); + + while (charbuffer[0]=='#') + { + asciiinput.getline(charbuffer,512); + } + + //reading number of domains + nbdomain=atoi(charbuffer); + //cout << "nb domain "<>nbdomain; + MyGlobals::_File_Names.resize(nbdomain); + MyGlobals::_Mesh_Names.resize(nbdomain); + (_collection->getMesh()).resize(nbdomain); + cellglobal.resize(nbdomain); + nodeglobal.resize(nbdomain); + faceglobal.resize(nbdomain); + + if (nbdomain == 0) throw INTERP_KERNEL::Exception(LOCALIZED("Empty ASCII master file")); + for (int i=0; i> mesh >> idomain >> MyGlobals::_Mesh_Names[i] >> host >> MyGlobals::_File_Names[i]; + + //Setting the name of the global mesh (which should be is the same for all the subdomains) + if (i==0) + _collection->setName(mesh); + + if (idomain!=i+1) + { + throw INTERP_KERNEL::Exception(LOCALIZED("domain must be written from 1 to N in ASCII file descriptor")); + } + if ( !domainSelector || domainSelector->isMyDomain(i)) + readSubdomain(cellglobal,faceglobal,nodeglobal, i); + + } //loop on domains + } //of try + catch(...) + { + throw INTERP_KERNEL::Exception(LOCALIZED("I/O error reading parallel MED file")); + } + + //creation of topology from mesh and connect zones + ParallelTopology* aPT = new ParallelTopology + ((_collection->getMesh()), (_collection->getCZ()), cellglobal, nodeglobal, faceglobal); + _collection->setTopology(aPT); + + for (int i=0; igetMesh().size(); + vector filenames; + filenames.resize(nbdomains); + + //loop on the domains + for (int idomain=0; idomainisMyDomain( idomain ) ) + { + if ( !_collection->getMesh()[idomain]->getNumberOfCells()==0 ) continue;//empty domain + MEDLoader::WriteUMesh(distfilename.c_str(),(_collection->getMesh())[idomain],true); + //writeSubdomain(idomain, nbdomains, distfilename.c_str(), domainSelector); + } + } + + //write master file + if ( !domainSelector || domainSelector->rank() == 0 ) + { + ofstream file(filename); + file << "#MED Fichier V 2.3"<<" "<getMesh().size()<<" "<getName() <<" "<< idomain+1 << " " + << (_collection->getMesh())[idomain]->getName() << " localhost " + << filenames[idomain] << " "< +#include +#include +#include +#include +#include +#include +#include + +#include +#include +#include +#include + +#include + +using namespace MEDPARTITIONER; +using namespace std; + +/*!\class MeshCollectionMedXmlDriver + * + *\brief Driver for MED 3.2 files having Xml master files + * + * Driver for reading and writing distributed files + * for which the master file is written in an Xml format compliant with + * the MED 3.2 specification. + * The reading and writing of the meshes and fields are apart : + * the meshes must always be written/read before the fields. Reading/Writing fields + * is optional and is done field after field. API for reading/writing fields + * is written with a template so that FIELD and FIELD + * can be conveniently handled. + */ + +MeshCollectionMedXmlDriver::MeshCollectionMedXmlDriver(MeshCollection* collection):MeshCollectionDriver(collection) +{ +} + +/*!reads a MED File Xml Master File v>=2.3 + * and mounts the corresponding meshes in memory + * the connect zones are created from the joints + * + *\param filename Xml file containing the list of MED v2.3 files + * */ + +int MeshCollectionMedXmlDriver::read(const char* filename, ParaDomainSelector* domainSelector) +{ + //distributed meshes + int nbdomain; + _master_filename=filename; + + //reading ascii master file + try + { + //Setting up the Xml tree corresponding to filename + xmlDocPtr master_doc=xmlParseFile(filename); + + if (!master_doc) + throw INTERP_KERNEL::Exception(LOCALIZED("Xml Master File does not exist or is not compliant with Xml scheme")); + + //number of domains + xmlXPathContextPtr xpathCtx = xmlXPathNewContext(master_doc); + xmlXPathObjectPtr xpathObj = xmlXPathEvalExpression(BAD_CAST "//splitting/subdomain", xpathCtx); + if (xpathObj==0 || xpathObj->nodesetval->nodeNr ==0) + throw INTERP_KERNEL::Exception(LOCALIZED("Xml Master File does not contain /MED/splitting/subdomain node")); + + //as subdomain has only one property which is "number" + //it suffices to take the content of its first child + const char* mystring = (const char*)xpathObj->nodesetval->nodeTab[0]->properties->children->content; + sscanf(mystring, "%d", &nbdomain); + + //mesh name + xmlXPathFreeObject(xpathObj); + xpathObj = xmlXPathEvalExpression(BAD_CAST "//content/mesh", xpathCtx); + if (xpathObj==0 || xpathObj->nodesetval->nodeNr ==0) + throw INTERP_KERNEL::Exception(LOCALIZED("Xml Master File does not contain /MED/content/mesh node")); + _collection->setName( (const char*)xpathObj->nodesetval->nodeTab[0]->properties->children->content); + + //cout << "nb domain " << nbdomain << endl; + MyGlobals::_File_Names.resize(nbdomain); + MyGlobals::_Mesh_Names.resize(nbdomain); + (_collection->getMesh()).resize(nbdomain); + (_collection->getFaceMesh()).resize(nbdomain); + (_collection->getCellFamilyIds()).resize(nbdomain); + (_collection->getFaceFamilyIds()).resize(nbdomain); + + //retrieving the node which contains the file names + const char filechar[]="//files/subfile"; + xmlXPathFreeObject(xpathObj); + xpathObj = xmlXPathEvalExpression(BAD_CAST filechar, xpathCtx); + if (xpathObj==0 || xpathObj->nodesetval->nodeNr ==0) + throw INTERP_KERNEL::Exception(LOCALIZED("Xml Master File does not contain /MED/files/subfile nodes")); + int nbfiles = xpathObj->nodesetval ->nodeNr; + + for (int i=0; inodesetval ==0) + throw INTERP_KERNEL::Exception(LOCALIZED("Error retrieving a file name from subfile of Xml Master File")); + MyGlobals::_File_Names[i]=(const char*)xpathObjfilename->nodesetval->nodeTab[0]->children->content; + + //reading the local mesh names + ostringstream mesh_search_string; + mesh_search_string<<"//mapping/mesh/chunk[@subdomain=\""<nodesetval ==0) + throw INTERP_KERNEL::Exception(LOCALIZED("Error retrieving mesh name from chunk of Xml Master File")); + MyGlobals::_Mesh_Names[i]=(const char*)xpathMeshObj->nodesetval->nodeTab[0]->children->content; + + if ( !domainSelector || domainSelector->isMyDomain(i)) + readSubdomain(i); //cvwat03 + xmlXPathFreeObject(xpathObjfilename); + xmlXPathFreeObject(xpathMeshObj); + } //loop on domains + + //LIBXML cleanup + xmlXPathFreeObject(xpathObj); + xmlXPathFreeContext(xpathCtx); + xmlFreeDoc(master_doc); + + } //of try + catch(...) + { + throw INTERP_KERNEL::Exception(LOCALIZED("I/O error reading parallel MED file")); + } + + + ParallelTopology* aPT = new ParallelTopology(_collection->getMesh()); + //creation of topology from mesh and connect zones + if ( _collection->isParallelMode() ) + { + //to know nb of cells on each proc to compute global cell ids from locally global + domainSelector->gatherNbOf(_collection->getMesh()); + } + _collection->setTopology(aPT); + _collection->setDomainNames(_collection->getName()); + return 0; +} + + +/*! writes the collection of meshes in a + * MED v2.3 Xml file + * with the connect zones being written as joints + * \param filename name of the Xml file containing the meshes description + */ +void MeshCollectionMedXmlDriver::write(const char* filename, ParaDomainSelector* domainSelector) +{ + xmlDocPtr master_doc = 0; + xmlNodePtr root_node = 0, node, node2; + char buff[256]; + + //Creating the Xml document + master_doc = xmlNewDoc(BAD_CAST "1.0"); + root_node = xmlNewNode(0, BAD_CAST "root"); + xmlDocSetRootElement(master_doc,root_node); + + //Creating child nodes + // Version tag + node = xmlNewChild(root_node, 0, BAD_CAST "version",0); + xmlNewProp(node, BAD_CAST "maj", BAD_CAST "2"); + xmlNewProp(node, BAD_CAST "min", BAD_CAST "3"); + xmlNewProp(node, BAD_CAST "ver", BAD_CAST "1"); + + //Description tag + time_t present; + time( &present); + struct tm *time_asc = localtime(&present); + char date[6]; + sprintf(date,"%02d%02d%02d",time_asc->tm_year + ,time_asc->tm_mon+1 + ,time_asc->tm_mday); + + node = xmlNewChild(root_node,0, BAD_CAST "description",0); + + xmlNewProp(node, BAD_CAST "what", BAD_CAST _collection->getDescription().c_str()); + xmlNewProp(node, BAD_CAST "when", BAD_CAST date); + + //Content tag + node =xmlNewChild(root_node,0, BAD_CAST "content",0); + node2 = xmlNewChild(node, 0, BAD_CAST "mesh",0); + xmlNewProp(node2, BAD_CAST "name", BAD_CAST _collection->getName().c_str()); + + //Splitting tag + node=xmlNewChild(root_node,0,BAD_CAST "splitting",0); + node2=xmlNewChild(node,0,BAD_CAST "subdomain",0); + sprintf(buff, "%d", _collection->getMesh().size()); + xmlNewProp(node2, BAD_CAST "number", BAD_CAST buff); + node2=xmlNewChild(node,0,BAD_CAST "global_numbering",0); + xmlNewProp(node2, BAD_CAST "present", BAD_CAST "yes"); + + //Files tag + xmlNodePtr file_node=xmlNewChild(root_node,0,BAD_CAST "files",0); + + //Mapping tag + node = xmlNewChild(root_node,0,BAD_CAST "mapping",0); + xmlNodePtr mesh_node = xmlNewChild(node, 0, BAD_CAST "mesh",0); + xmlNewProp(mesh_node, BAD_CAST "name", BAD_CAST _collection->getName().c_str()); + + int nbdomains= _collection->getMesh().size(); + + //loop on the domains + string finalMeshName=ExtractFromDescription(MyGlobals::_General_Informations[0], "finalMeshName="); + for (int idomain=nbdomains-1; idomain>=0;idomain--) + { + string distfilename; + ostringstream suffix; + suffix<isMyDomain( idomain ) ) + { + if ( (_collection->getMesh())[idomain]->getNumberOfCells()==0 ) continue; //empty domain + if (MyGlobals::_Verbose>1) + cout<<"proc "<rank()<<" : writeMedFile "<getMesh())[idomain]->getNumberOfCells()<<" cells" + << " "<<(_collection->getFaceMesh())[idomain]->getNumberOfCells()<<" faces" + << " "<<(_collection->getMesh())[idomain]->getNumberOfNodes()<<" nodes"<rank()==0) + { + //updating the ascii description file + node = xmlNewChild(file_node, 0, BAD_CAST "subfile",0); + sprintf (buff,"%d",idomain+1); + xmlNewProp(node, BAD_CAST "id", BAD_CAST buff); + xmlNewChild(node,0,BAD_CAST "name",BAD_CAST distfilename.c_str()); + xmlNewChild(node,0,BAD_CAST "machine",BAD_CAST "localhost"); + + node = xmlNewChild(mesh_node,0, BAD_CAST "chunk",0); + xmlNewProp(node, BAD_CAST "subdomain", BAD_CAST buff); + xmlNewChild(node,0,BAD_CAST "name", BAD_CAST finalMeshName.c_str()); + //xmlNewChild(node,0,BAD_CAST "name", BAD_CAST (_collection->getMesh())[idomain]->getName()); + } + } + + //create the ascii description file + if (domainSelector->rank()==0) + { + string myfile(filename); + myfile.append(".xml"); + _master_filename=myfile; + if ( !domainSelector || domainSelector->rank() == 0 ) + xmlSaveFormatFileEnc(myfile.c_str(), master_doc, "UTF-8", 1); + } + xmlFreeDoc(master_doc); + xmlCleanupParser(); +} diff --git a/src/MEDPartitioner/MEDPARTITIONER_MeshCollectionMedXmlDriver.hxx b/src/MEDPartitioner/MEDPARTITIONER_MeshCollectionMedXmlDriver.hxx new file mode 100644 index 000000000..61b4c90f7 --- /dev/null +++ b/src/MEDPartitioner/MEDPARTITIONER_MeshCollectionMedXmlDriver.hxx @@ -0,0 +1,41 @@ +// Copyright (C) 2007-2011 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. +// +// This library 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 this library; if not, write to the Free Software +// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA +// +// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com +// + +#ifndef __MEDPARTITIONER_MESHCOLLECTIONMEDXMLDRIVER_HXX__ +#define __MEDPARTITIONER_MESHCOLLECTIONMEDXMLDRIVER_HXX__ + +#include "MEDPARTITIONER_MeshCollectionDriver.hxx" + +namespace MEDPARTITIONER +{ + class MeshCollection; + class MeshCollectionMedXmlDriver : public MeshCollectionDriver + { + public: + MeshCollectionMedXmlDriver(MeshCollection*); + virtual ~MeshCollectionMedXmlDriver() + { + } + int read(const char*, ParaDomainSelector* sel=0); + void write(const char*, ParaDomainSelector* sel=0); + private : + std::string _master_filename; + }; +} +#endif diff --git a/src/MEDPartitioner/MEDPARTITIONER_MetisGraph.cxx b/src/MEDPartitioner/MEDPARTITIONER_MetisGraph.cxx new file mode 100644 index 000000000..401f9ed52 --- /dev/null +++ b/src/MEDPartitioner/MEDPARTITIONER_MetisGraph.cxx @@ -0,0 +1,236 @@ +// Copyright (C) 2007-2011 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. +// +// This library 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 this library; if not, write to the Free Software +// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA +// +// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com +// + +#include "MEDPARTITIONER_MetisGraph.hxx" +#include "MEDPARTITIONER_ParaDomainSelector.hxx" +#include "MEDPARTITIONER_Utils.hxx" + +#include "InterpKernelException.hxx" + +#include + +#ifdef ENABLE_PARMETIS +#include +#endif +extern "C" { +#include +} + +using namespace std; +using namespace ParaMEDMEM; +using namespace MEDPARTITIONER; + +METISGraph::METISGraph():Graph() +{ +} + +METISGraph::METISGraph(MEDPARTITIONER::SkyLineArray* graph, int* edgeweight) + :Graph(graph,edgeweight) +{ +} + +METISGraph::~METISGraph() +{ +} + +void METISGraph::partGraph(int ndomain, + const std::string& options_string, + ParaDomainSelector* parallelizer) +{ + using std::vector; + vector ran,vx,va; //for randomize + + if (MyGlobals::_Verbose>10) cout<<"proc "<getNumberOf(); + //graph + int * xadj=const_cast(_graph->getIndex()); + int * adjncy=const_cast(_graph->getValue()); + //constraints + int * vwgt=_cellweight; + int * adjwgt=_edgeweight; + int wgtflag=(_edgeweight!=0)?1:0+(_cellweight!=0)?2:0; + //base 0 or 1 + int base=0; + //ndomain + int nparts=ndomain; + //options + /* + (0=default_option,option,random_seed) see defs.h + #define PMV3_OPTION_DBGLVL 1 + #define PMV3_OPTION_SEED 2 + #define PMV3_OPTION_IPART 3 + #define PMV3_OPTION_PSR 3 + seems no changes int options[4]={1,0,33,0}; //test for a random seed of 33 + */ + int options[4]={0,0,0,0}; + // output parameters + int edgecut; + int* partition=new int[n]; + + //if (MyGlobals::_Verbose>10) cout<<"proc "<getProcVtxdist(); + MPI_Comm comm=MPI_COMM_WORLD; + try + { + if (MyGlobals::_Verbose>200) + { + cout<<"proc "<0) + { + cout<<"\nproc "<1000) + { + cout<<"\n -cell "<imaxx) imaxx=ilg; + } + cout<<"\nproc "<10) + cout<<"proc "< index(n+1); + vector value(n); + index[0]=0; + if (ran.size()>0 && MyGlobals::_Atomize==0) //there is randomize + { + if (MyGlobals::_Is0verbose>100) cout<<"randomize"< + +namespace MEDPARTITIONER { + class SkyLineArray; + class MEDPARTITIONER_EXPORT METISGraph : public Graph + { + public: + METISGraph(); + METISGraph(MEDPARTITIONER::SkyLineArray*, int* edgeweight=0); + virtual ~METISGraph(); + void partGraph(int ndomain, const std::string& options_string="", ParaDomainSelector* sel=0); + }; +} +#endif diff --git a/src/MEDPartitioner/MEDPARTITIONER_SCOTCHGraph.hxx b/src/MEDPartitioner/MEDPARTITIONER_SCOTCHGraph.hxx deleted file mode 100644 index 01dab7f24..000000000 --- a/src/MEDPartitioner/MEDPARTITIONER_SCOTCHGraph.hxx +++ /dev/null @@ -1,36 +0,0 @@ -// Copyright (C) 2007-2010 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. -// -// This library 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 this library; if not, write to the Free Software -// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA -// -// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com -// -#ifndef MEDPARTITIONER_SCOTCHGRAPH_HXX_ -#define MEDPARTITIONER_SCOTCHGRAPH_HXX_ - -#include "MEDPARTITIONER.hxx" -#include - -namespace MEDPARTITIONER { - class MEDSKYLINEARRAY; - class MEDPARTITIONER_EXPORT SCOTCHGraph:public Graph - { - public: - SCOTCHGraph(); - SCOTCHGraph(MEDPARTITIONER::MEDSKYLINEARRAY*, int* edgeweight=0); - virtual ~SCOTCHGraph(); - void partGraph(int ndomain, const std::string& options_string="", ParaDomainSelector* sel=0); - }; -} -#endif /*SCOTCHGRAPH_HXX_*/ diff --git a/src/MEDPartitioner/MEDPARTITIONER_SCOTCHGraph.cxx b/src/MEDPartitioner/MEDPARTITIONER_ScotchGraph.cxx similarity index 60% rename from src/MEDPartitioner/MEDPARTITIONER_SCOTCHGraph.cxx rename to src/MEDPartitioner/MEDPARTITIONER_ScotchGraph.cxx index eba5ef4a1..be737cee7 100644 --- a/src/MEDPartitioner/MEDPARTITIONER_SCOTCHGraph.cxx +++ b/src/MEDPartitioner/MEDPARTITIONER_ScotchGraph.cxx @@ -1,28 +1,31 @@ -// Copyright (C) 2007-2010 CEA/DEN, EDF R&D +// Copyright (C) 2007-2011 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. +// 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. // -// This library 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. +// This library 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 this library; if not, write to the Free Software -// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA +// You should have received a copy of the GNU Lesser General Public +// License along with this library; if not, write to the Free Software +// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA // -// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com +// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com // + +#include "MEDPARTITIONER_Graph.hxx" +#include "MEDPARTITIONER_ScotchGraph.hxx" + #include + extern "C" { #define restrict #include "scotch.h" } -#include "MEDPARTITIONER_Graph.hxx" -#include "MEDPARTITIONER_SCOTCHGraph.hxx" using namespace MEDPARTITIONER; @@ -30,7 +33,7 @@ SCOTCHGraph::SCOTCHGraph():Graph() { } -SCOTCHGraph::SCOTCHGraph(MEDPARTITIONER::MEDSKYLINEARRAY* graph, int* edgeweight):Graph(graph,edgeweight) +SCOTCHGraph::SCOTCHGraph(MEDPARTITIONER::SkyLineArray* graph, int* edgeweight):Graph(graph,edgeweight) { } @@ -87,19 +90,19 @@ void SCOTCHGraph::partGraph(int ndomain, const std::string& options_string, Para SCOTCH_stratExit(&scotch_strategy); SCOTCH_graphExit(&scotch_graph); - std::vector index(n+1); + std::vector index(n+1); std::vector value(n); index[0]=0; for (int i=0; i + +namespace MEDPARTITIONER { + class SkyLineArray; + class MEDPARTITIONER_EXPORT SCOTCHGraph : public Graph + { + public: + SCOTCHGraph(); + SCOTCHGraph(MEDPARTITIONER::SkyLineArray*, int* edgeweight=0); + virtual ~SCOTCHGraph(); + void partGraph(int ndomain, const std::string& options_string="", ParaDomainSelector* sel=0); + }; +} +#endif diff --git a/src/MEDPartitioner/MEDPARTITIONER_Utils.cxx b/src/MEDPartitioner/MEDPARTITIONER_Utils.cxx new file mode 100644 index 000000000..4cc67f39b --- /dev/null +++ b/src/MEDPartitioner/MEDPARTITIONER_Utils.cxx @@ -0,0 +1,1618 @@ +// Copyright (C) 2007-2011 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. +// +// This library 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 this library; if not, write to the Free Software +// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA +// +// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com +// + +#include "MEDPARTITIONER_Utils.hxx" + +#include "MEDLoader.hxx" +#include "MEDLoaderBase.hxx" +#include "MEDFileUtilities.hxx" +#include "CellModel.hxx" +#include "MEDCouplingUMesh.hxx" +#include "MEDCouplingFieldDouble.hxx" +#include "InterpKernelException.hxx" +#include "MEDCouplingAutoRefCountObjectPtr.hxx" +#include "InterpKernelAutoPtr.hxx" + +#include +#include +#include +#include +#include + +#ifdef HAVE_MPI2 +#include +#endif + +using namespace std; +using namespace ParaMEDMEM; +using namespace MEDPARTITIONER; + +int MEDPARTITIONER::MyGlobals::_Verbose=0; +int MEDPARTITIONER::MyGlobals::_Is0verbose=0; +int MEDPARTITIONER::MyGlobals::_Rank=(-1); +int MEDPARTITIONER::MyGlobals::_World_Size=(-1); +int MEDPARTITIONER::MyGlobals::_Randomize=0; +int MEDPARTITIONER::MyGlobals::_Atomize=0; +int MEDPARTITIONER::MyGlobals::_Creates_Boundary_Faces=0; +vector MEDPARTITIONER::MyGlobals::_File_Names; +vector MEDPARTITIONER::MyGlobals::_Mesh_Names; +vector MEDPARTITIONER::MyGlobals::_Field_Descriptions; +vector MEDPARTITIONER::MyGlobals::_General_Informations; + +std::string MEDPARTITIONER::Trim(const std::string& s,const std::string& drop) +{ + string r=s; + r.erase(r.find_last_not_of(drop)+1); + return r.erase(0,r.find_first_not_of(drop)); +} + +std::string MEDPARTITIONER::IntToStr(const int i) +{ + ostringstream oss; + oss<>res; + return res; +} + +double MEDPARTITIONER::StrToDouble(const std::string& s) +{ + double res; + istringstream iss(s); + iss>>res; + return res; +} + +bool MEDPARTITIONER::TestArg(const char *arg, const char *argExpected, string& argValue) +{ + argValue=""; + int i; + for (i=0; i MEDPARTITIONER::CreateRandomSize(const int size) +{ + vector res(size); + for (int i=0; i& ran, vector& vx, vector& va) +//randomize a xadj and adjncy, renumbering vertices belong rand. +//work only on one processor!!!! +{ + if (MyGlobals::_World_Size>1) + { + cerr<<"MEDPARTITIONER::RandomizeAdj only works on one proc!"< invran(size); + for (int i=0; i r=CreateRandomSize(size); + vector vx,va; + RandomizeAdj(&xadj[0],&adjncy[0],r,vx,va); + for (int i=0; i& vec) +{ + if (vec.size()==0) return string(" NONE\n"); + ostringstream oss; + for (vector::const_iterator i=vec.begin(); i!=vec.end(); ++i) + oss<<" -> '"<<*i<<"'"<& vec, const std::string separator) +{ + if (vec.size()==0) return string(" NONE\n"); + ostringstream oss; + for (vector::const_iterator i=vec.begin(); i!=vec.end(); ++i) + oss<& mymap) +{ + if (mymap.size()==0) return string(" NONE\n"); + ostringstream oss; + for (map::const_iterator i=mymap.begin(); i!=mymap.end(); ++i) + oss<<" -> ["<<(*i).first<<"]="<<(*i).second< >& mymap) +{ + if (mymap.size()==0) return string(" NONE\n"); + ostringstream oss; + for (map< string,vector >::const_iterator i=mymap.begin(); i!=mymap.end(); ++i) + oss<<" -> ["<<(*i).first<<"]="<& vec, const std::string separator) +{ + if (vec.size()==0) return string(" NONE\n"); + ostringstream oss; + for (vector::const_iterator i=vec.begin(); i!=vec.end(); ++i) + { + oss<<" ->"; + oss<.push_back("toto") on serialized_FromVectorOfString_string +{ + ostringstream oss; + oss<& vec) +//a vector of string gives a string +{ + ostringstream oss; + for (vector::const_iterator i=vec.begin(); i!=vec.end(); ++i) + oss< MEDPARTITIONER::DeserializeToVectorOfString(const std::string& str) +//a string gives a vector of string +{ + //vector res=new vector; + vector res; + size_t pos=0; + size_t posmax=str.size(); + if (posmax==0) return res; //empty vector + size_t length; + while (pos < posmax-6) //setw(5)+" " + { + istringstream iss(str.substr(pos,5)); + iss>>length; + //cout<<"length "< vec=DeserializeToVectorOfString(fromStr); + vector res; + for (int i=0; i MEDPARTITIONER::VectorizeFromMapOfStringInt(const std::map& mymap) +//elements first and second of map give one elements in result vector of string +//converting formatted the int second as firsts characters ending at first slash +{ + vector res; + for (map::const_iterator i=mymap.begin(); i!=mymap.end(); ++i) + { + ostringstream oss; + oss<<(*i).second<<"/"<<(*i).first; + res.push_back(oss.str()); + } + return res; +} + +std::map MEDPARTITIONER::DevectorizeToMapOfStringInt(const std::vector& vec) +//if existing identicals (first,second) in vector no problem, else Exception +{ + map res; + for (vector::const_iterator i=vec.begin(); i!=vec.end(); ++i) + { + size_t pos=0; + size_t posmax=(*i).size(); + size_t found=(*i).find('/'); //first slash + if ((found==string::npos) || (found<1)) + throw INTERP_KERNEL::Exception(LOCALIZED("Error aIntNumber/anyString is expected")); + int second; + istringstream iss((*i).substr(pos,found)); + iss>>second; + string first=(*i).substr(pos+found+1,posmax-found); + map::iterator it=res.find(first); + if (it!=res.end()) + if ((*it).second!=second) + throw INTERP_KERNEL::Exception(LOCALIZED("Error not the same map value")); + res[first]=second; + } + return res; +} + +std::vector MEDPARTITIONER::VectorizeFromMapOfStringVectorOfString(const std::map< std::string,std::vector >& mymap) +//elements first and second of map give one elements in result vector of string +//adding key map and length of second vector as first string in each serialized vector +//one serialized vector per key map +{ + vector res; + for (map< string,vector >::const_iterator i=mymap.begin(); i!=mymap.end(); ++i) + { + vector vs=(*i).second; //a vector of string; + ostringstream oss; + oss<<"Keymap/"<<(*i).first<<"/"<<(*i).second.size(); + vs.insert(vs.begin(), oss.str()); + res.push_back(SerializeFromVectorOfString(vs)); + } + return res; +} + +std::map< std::string,std::vector > MEDPARTITIONER::DevectorizeToMapOfStringVectorOfString(const std::vector& vec) +//if existing identicals keymap in vector no problem +//duplicates in second vector +{ + map< string,vector > res; + for (vector::const_iterator i=vec.begin(); i!=vec.end(); ++i) + { + vector vs=DeserializeToVectorOfString(*i); + + string enTete=vs[0]; + size_t posmax=enTete.size(); + size_t foundKey=enTete.find("Keymap/"); + size_t foundSizeVector=enTete.find_last_of('/'); + if ((foundKey==string::npos) || (foundKey!=0) || ((foundKey+7)>=foundSizeVector)) + throw INTERP_KERNEL::Exception(LOCALIZED("Error Keymap/anyString/aIntNumber is expected")); + int sizeVector; + istringstream iss(enTete.substr(foundSizeVector+1,posmax-foundSizeVector)); + iss>>sizeVector; + string keymap=enTete.substr(foundKey+7,foundSizeVector-foundKey-7); + //cout< MEDPARTITIONER::RecvVectorOfString(const int source) + //non conseille, interblocages, utiliser sendAndReceive + { + throw INTERP_KERNEL::Exception(LOCALIZED("use SendAndReceiveVectorOfString please.")); + int recSize=0; + int tag=111000; + MPI_Status status; + MPI_Recv(&recSize, 1, MPI_INT, source, tag, MPI_COMM_WORLD, &status); + string recData(recSize,'x'); + MPI_Recv((void*)recData.data(), recSize, MPI_CHAR, 1, tag+100, MPI_COMM_WORLD, &status); + //cout<<"proc "< MEDPARTITIONER::SendAndReceiveVectorOfString(const std::vector& vec, const int source, const int target) +//not optimized but suffisant +//return empty vector if i am not target +{ + int rank=MyGlobals::_Rank; + + /*for test + ostringstream oss; + oss<<"sendAndReceive from "< res; + return res; //empty one for other proc +} + +std::vector MEDPARTITIONER::AllgathervVectorOfString(const std::vector& vec) +//strings NO need all same size!!!! +{ + int world_size=MyGlobals::_World_Size; + string str=SerializeFromVectorOfString(vec); + + /*for test + int rank=MyGlobals::_Rank; + ostringstream oss; + oss<<"allgatherv from "< indexes(world_size); + int size=str.length(); + MPI_Allgather(&size, 1, MPI_INT, + &indexes[0], 1, MPI_INT, MPI_COMM_WORLD); + + /*{ + ostringstream oss; + for (int i=0; i disp(1,0); + for (int i=0; i deserial=DeserializeToVectorOfString(recData); + if (MyGlobals::_Verbose>1000) + { + cout<<"proc "<& vec, const int source, const int target) +//TODO + +std::string MEDPARTITIONER::Cle1ToStr(const std::string& s, const int inew) +{ + ostringstream oss; + oss<>inew; +} + +std::string MEDPARTITIONER::Cle2ToStr(const std::string& s, const int inew, const int iold) +{ + ostringstream oss; + oss<>inew>>iold; +} + +std::string MEDPARTITIONER::ExtractFromDescription(const std::string& description,const std::string& tag) +{ + size_t found=description.find(tag); + if ((found==string::npos) || (found<1)) + { + cerr<<"ERROR : not found '"<alloc(v.size()/nbComponents,nbComponents); + std::copy(v.begin(),v.end(),p->getPointer()); + return p; +} + +ParaMEDMEM::DataArrayDouble* MEDPARTITIONER::CreateDataArrayDoubleFromVector(const std::vector& v) +{ + ParaMEDMEM::DataArrayDouble* p=DataArrayDouble::New(); + p->alloc(v.size(),1); + std::copy(v.begin(),v.end(),p->getPointer()); + return p; +} + +std::vector MEDPARTITIONER::BrowseFieldDouble(const MEDCouplingFieldDouble* fd) +//quick almost human readable information on a field double + +/* + example done by fd->simpleRepr() : + FieldDouble with name : "VectorFieldOnCells" + Description of field is : "" + FieldDouble space discretization is : P0 + FieldDouble time discretization is : One time label. Time is defined by iteration=0 order=1 and time=2. + Time unit is : "" + FieldDouble nature of field is : NoNature + FieldDouble default array has 3 components and 30000 tuples. + FieldDouble default array has following info on components : "vx" "vy" "vz" + Mesh support information : + __________________________ + Unstructured mesh with name : "testMesh" + Description of mesh : "" + Time attached to the mesh [unit] : 0 [] + Iteration : -1 Order : -1 + Mesh dimension : 3 + Space dimension : 3 + Info attached on space dimension : "" "" "" + Number of nodes : 33201 + Number of cells : 30000 + Cell types present : NORM_HEXA8 +*/ + +{ + vector res; + //res.push_back("fieldName="); res.back()+=fd->getName(); + //not saved in file? res.push_back("fieldDescription="); res.back()+=fd->getDescription(); + //ret << "FieldDouble space discretization is : " << _type->getStringRepr() << "\n"; + //ret << "FieldDouble time discretization is : " << _time_discr->getStringRepr() << "\n"; + //ret << "FieldDouble nature of field is : " << MEDCouplingNatureOfField::getRepr(_nature) << "\n"; + if (fd->getArray()) + { + int nb=fd->getArray()->getNumberOfComponents(); + res.push_back("nbComponents="); res.back()+=IntToStr(nb); + //ret << "FieldDouble default array has " << nbOfCompo << " components and " << getArray()->getNumberOfTuples() << " tuples.\n"; + //ret << "FieldDouble default array has following info on components : "; + for (int i=0; igetInfoOnComponent(i) << "\" "; + res.push_back("componentInfo"); + res.back()+=IntToStr(i)+"="+fd->getArray()->getInfoOnComponent(i); + } + } + else + { + res.push_back("nbComponents=0"); //unknown + } + return res; +} + +std::vector MEDPARTITIONER::BrowseAllFields(const std::string& myfile) +//quick almost human readable information on all fields in a .med file +{ + vector res; + vector meshNames=MEDLoader::GetMeshNames(myfile.c_str()); + + for (int i=0; i fieldNames= + MEDLoader::GetAllFieldNamesOnMesh(myfile.c_str(),meshNames[i].c_str()); + for (int j = 0; j < fieldNames.size(); j++) + { + vector< ParaMEDMEM::TypeOfField > typeFields= + MEDLoader::GetTypesOfField(myfile.c_str(), meshNames[i].c_str(), fieldNames[j].c_str()); + for (int k = 0; k < typeFields.size(); k++) + { + vector< pair< int, int > > its= + MEDLoader::GetFieldIterations(typeFields[k], myfile.c_str(), meshNames[i].c_str(), fieldNames[j].c_str()); + if (MyGlobals::_Is0verbose>100) cout<<"fieldName "< resi; + resi.push_back("fileName="); resi.back()+=myfile; + resi.push_back("meshName="); resi.back()+=meshNames[i]; + resi.push_back("fieldName="); resi.back()+=fieldNames[j]; + resi.push_back("typeField="); resi.back()+=IntToStr((int)typeFields[k]); + resi.push_back("DT="); resi.back()+=IntToStr((int)its[m].first); + resi.push_back("IT="); resi.back()+=IntToStr((int)its[m].second); + res.push_back(SerializeFromVectorOfString(resi)); + } + } + } + } + return res; +} + +std::vector MEDPARTITIONER::GetInfosOfField(const char *fileName, const char *meshName, const int idomain) +{ + const int lggeom=10; + const med_geometry_type GEOMTYPE[lggeom]={ //MED_N_CELL_FIXED_GEO] = { + //MED_POINT1, + //MED_SEG2, + //MED_SEG3, + //MED_SEG4, + //MED_TRIA3, + //MED_QUAD4, + //MED_TRIA6, + //MED_TRIA7, + //MED_QUAD8, + //MED_QUAD9, + MED_TETRA4, + MED_PYRA5, + MED_PENTA6, + MED_HEXA8, + MED_OCTA12, + MED_TETRA10, + MED_PYRA13, + MED_PENTA15, + MED_HEXA20, + MED_HEXA27, + //MED_POLYGON, + //MED_POLYHEDRON + }; + + const char * const GEOMTYPENAME[lggeom]={ + //"MED_POINT1", + //"MED_SEG2", + //"MED_SEG3", + //"MED_SEG4", + //"MED_TRIA3", + //"MED_QUAD4", + //"MED_TRIA6", + //"MED_TRIA7", + //"MED_QUAD8", + //"MED_QUAD9", + "MED_TETRA4", + "MED_PYRA5", + "MED_PENTA6", + "MED_HEXA8", + "MED_OCTA12", + "MED_TETRA10", + "MED_PYRA13", + "MED_PENTA15", + "MED_HEXA20", + "MED_HEXA27", + //"MED_POLYGONE", + //"MED_POLYEDRE", + }; + + + const int lgentity=3; + const med_entity_type ENTITYTYPE[lgentity]={ //MED_N_ENTITY_TYPES+2]={ + //MED_UNDEF_ENTITY_TYPE, + MED_CELL, + //MED_DESCENDING_FACE, + //MED_DESCENDING_EDGE, + MED_NODE, + MED_NODE_ELEMENT, + //MED_STRUCT_ELEMENT, + //MED_UNDEF_ENTITY_TYPE + }; + + const char * const ENTITYTYPENAME[lgentity]={ //MED_N_ENTITY_TYPES+2]={ + //"MED_UNDEF_ENTITY_TYPE", + "MED_CELL", + //"MED_FACE", + //"MED_ARETE", + "MED_NODE", + "MED_NODE_ELEMENT", + //"MED_STRUCT_ELEMENT", + //"MED_UNDEF_ENTITY_TYPE" + }; + + vector res; + med_idt fid=MEDfileOpen(fileName,MED_ACC_RDONLY); + med_int nbFields=MEDnField(fid); + if (MyGlobals::_Verbose>20) cout<<"on filename "< comp=new char[ncomp*MED_SNAME_SIZE+1]; + INTERP_KERNEL::AutoPtr unit=new char[ncomp*MED_SNAME_SIZE+1]; + INTERP_KERNEL::AutoPtr dt_unit=new char[MED_LNAME_SIZE+1]; + med_int nbPdt; + MEDfieldInfo(fid,i,nomcha,maa_ass,&localmesh,&typcha,comp,unit,dt_unit,&nbPdt); + string curFieldName=MEDLoaderBase::buildStringFromFortran(nomcha,MED_NAME_SIZE+1); + string curMeshName=MEDLoaderBase::buildStringFromFortran(maa_ass,MED_NAME_SIZE+1); + for (int k=1; k<=nbPdt; k++) + { + MEDfieldComputingStepInfo(fid,nomcha,k,&numdt,&numo,&dt); + if (MyGlobals::_Verbose>20) + cout<<"on filename "<0) + { + if (MyGlobals::_Verbose>20) + cout<<"on filename "< resi; + resi.push_back("idomain="); resi.back()+=IntToStr(idomain); + resi.push_back("fileName="); resi.back()+=fileName; + resi.push_back("meshName="); resi.back()+=curMeshName; + resi.push_back("fieldName="); resi.back()+=curFieldName; + resi.push_back("typeField="); resi.back()+=IntToStr((int)ON_NODES); + resi.push_back("typeData="); resi.back()+=IntToStr((int)typcha); //6 for double? + resi.push_back("nbComponent="); resi.back()+=IntToStr((int)ncomp); + resi.push_back("DT="); resi.back()+=IntToStr((int)numdt); + resi.push_back("IT="); resi.back()+=IntToStr((int)numo); + resi.push_back("time="); resi.back()+=DoubleToStr(dt); + resi.push_back("entity="); resi.back()+=IntToStr((int)enttype); + resi.push_back("entityName="); resi.back()+=ENTITYTYPENAME[ie]; + resi.push_back("nbOfVal="); resi.back()+=IntToStr((int)nbOfVal); + resi.push_back("profilName="); resi.back()+=pflname; + resi.push_back("profileSize="); resi.back()+=IntToStr((int)profilesize); + resi.push_back("nbPtGauss="); resi.back()+=IntToStr((int)nbi); + res.push_back(SerializeFromVectorOfString(resi)); + } + break; //on nodes no need to scute all geomtype + } + else + { + med_geometry_type mygeomtype=GEOMTYPE[j]; + med_int nbOfVal=MEDfieldnValueWithProfile(fid,nomcha,numdt,numo,enttype,mygeomtype,profileit, + MED_COMPACT_PFLMODE,pflname,&profilesize,locname,&nbi); + if (nbOfVal>0) + { + if (MyGlobals::_Verbose>20) + cout<<"on filename "< resi; + resi.push_back("idomain="); resi.back()+=IntToStr(idomain); + resi.push_back("fileName="); resi.back()+=fileName; + resi.push_back("meshName="); resi.back()+=curMeshName; + resi.push_back("fieldName="); resi.back()+=curFieldName; + resi.push_back("typeField="); resi.back()+=IntToStr((int)typeField); + resi.push_back("typeData="); resi.back()+=IntToStr((int)typcha); //6 for double? + resi.push_back("nbComponent="); resi.back()+=IntToStr((int)ncomp); + resi.push_back("DT="); resi.back()+=IntToStr((int)numdt); + resi.push_back("IT="); resi.back()+=IntToStr((int)numo); + resi.push_back("time="); resi.back()+=DoubleToStr(dt); + resi.push_back("entity="); resi.back()+=IntToStr((int)enttype); + resi.push_back("entityName="); resi.back()+=ENTITYTYPENAME[ie]; + resi.push_back("geomType="); resi.back()+=IntToStr((int)GEOMTYPE[j]); + resi.push_back("geomTypeName="); resi.back()+=GEOMTYPENAME[j]; + resi.push_back("nbOfVal="); resi.back()+=IntToStr((int)nbOfVal); + resi.push_back("profilName="); resi.back()+=pflname; + resi.push_back("profileSize="); resi.back()+=IntToStr((int)profilesize); + resi.push_back("nbPtGauss="); resi.back()+=IntToStr((int)nbi); + if (typeField==(-1)) + { + cout<<"WARNING : unknown typeField for entity type "<10) cout<<"detected fields:\n"< MEDPARTITIONER::BrowseAllFieldsOnMesh(const std::string& myfile, const std::string& mymesh, const int idomain) +//quick almost human readable information on all fields on a mesh in a .med file +{ + vector res=GetInfosOfField(myfile.c_str(),mymesh.c_str(),idomain); + return res; + + /*obsolete do no work on GetTypesOfField ON_GAUSS_NE + vector res; + vector meshNames; + meshNames.push_back(mymesh); + + for (int i=0; i fieldNames= + MEDLoader::GetAllFieldNamesOnMesh(myfile.c_str(),meshNames[i].c_str()); + for (int j=0; j typeFields= + MEDLoader::GetTypesOfField(myfile.c_str(), meshNames[i].c_str(), fieldNames[j].c_str()); + //if (MyGlobals::_Is0verbose>100) cout<<"fieldName "< > its; + its=MEDLoader::GetFieldIterations(typeFields[k], myfile.c_str(), meshNames[i].c_str(), fieldNames[j].c_str()); + //if (typeFields[k]==ON_GAUSS_NE) its.push_back(make_pair(5,6)); + if (MyGlobals::_Is0verbose>100) cout<<"fieldName "< resi; + resi.push_back("idomain="); resi.back()+=IntToStr(idomain); + resi.push_back("fileName="); resi.back()+=myfile; + resi.push_back("meshName="); resi.back()+=meshNames[i]; + resi.push_back("fieldName="); resi.back()+=fieldNames[j]; + resi.push_back("typeField="); resi.back()+=IntToStr((int)typeFields[k]); + resi.push_back("DT="); resi.back()+=IntToStr((int)its[m].first); + resi.push_back("IT="); resi.back()+=IntToStr((int)its[m].second); + //cout<<"BrowseAllFieldsOnMesh add "<& vec, const int target) +{ + int tag = 111002; + int size=vec.size(); + if (MyGlobals::_Verbose>1000) + cout<<"proc "< SendDoubleVec "<(&vec[0]), size, MPI_DOUBLE, target, tag+100, MPI_COMM_WORLD); +#endif +} + +/*! Receives messages from proc \a source to fill vector vec. + To be used with \a SendDoubleVec method. + + \param vec vector that is filled + \param source processor id of the incoming messages +*/ +std::vector* MEDPARTITIONER::RecvDoubleVec(const int source) +{ + int tag = 111002; + int size; +#ifdef HAVE_MPI2 + MPI_Status status; + MPI_Recv(&size, 1, MPI_INT, source, tag, MPI_COMM_WORLD, &status); + if (MyGlobals::_Verbose>1000) + cout<<"proc "<* vec=new vector; + vec->resize(size); + MPI_Recv(&vec[0], size, MPI_DOUBLE, source, tag+100, MPI_COMM_WORLD, &status); +#endif + return vec; +} + +void MEDPARTITIONER::RecvDoubleVec(std::vector& vec, const int source) +{ + int tag = 111002; + int size; +#ifdef HAVE_MPI2 + MPI_Status status; + MPI_Recv(&size, 1, MPI_INT, source, tag, MPI_COMM_WORLD, &status); + if (MyGlobals::_Verbose>1000) + cout<<"proc "<& vec, const int target) +{ + int tag = 111003; + int size=vec.size(); + if (MyGlobals::_Verbose>1000) + cout<<"proc "< SendIntVec "<(&vec[0]), size,MPI_INT, target, tag+100, MPI_COMM_WORLD); +#endif +} + +/*! Receives messages from proc \a source to fill vector vec. + To be used with \a SendIntVec method. + \param vec vector that is filled + \param source processor id of the incoming messages +*/ +std::vector* MEDPARTITIONER::RecvIntVec(const int source) +{ + int tag = 111003; + int size; +#ifdef HAVE_MPI2 + MPI_Status status; + MPI_Recv(&size, 1, MPI_INT, source, tag, MPI_COMM_WORLD, &status); + if (MyGlobals::_Verbose>1000) + cout<<"proc "<* vec=new vector; + vec->resize(size); + MPI_Recv(&vec[0], size, MPI_INT, source, tag+100, MPI_COMM_WORLD, &status); +#endif + return vec; +} + +void MEDPARTITIONER::RecvIntVec(std::vector& vec, const int source) +{ + int tag = 111003; + int size; +#ifdef HAVE_MPI2 + MPI_Status status; + MPI_Recv(&size, 1, MPI_INT, source, tag, MPI_COMM_WORLD, &status); + if (MyGlobals::_Verbose>1000) + cout<<"proc "<getNbOfElems(); + size[1]=da->getNumberOfTuples(); + size[2]=da->getNumberOfComponents(); + if (MyGlobals::_Verbose>1000) + cout<<"proc "< SendDataArrayInt "<getConstPointer(); + MPI_Send(const_cast(&p[0]), size[0] ,MPI_INT, target, tag+100, MPI_COMM_WORLD); +#endif +} + +/*! Receives messages from proc \a source to fill dataArrayInt da. + To be used with \a SendIntVec method. + \param da dataArrayInt that is filled + \param source processor id of the incoming messages +*/ +ParaMEDMEM::DataArrayInt* MEDPARTITIONER::RecvDataArrayInt(const int source) +{ + int tag = 111004; + int size[3]; +#ifdef HAVE_MPI2 + MPI_Status status; + MPI_Recv(size, 3, MPI_INT, source, tag, MPI_COMM_WORLD, &status); + if (MyGlobals::_Verbose>1000) + cout<<"proc "<alloc(size[1],size[2]); + int * p=da->getPointer(); + MPI_Recv(const_cast(&p[0]), size[0], MPI_INT, source, tag+100, MPI_COMM_WORLD, &status); +#endif + return da; +} + +/*! + Sends content of \a dataArrayInt to processor \a target. + To be used with \a RecvDataArrayDouble method. + \param da dataArray to be sent + \param target processor id of the target +*/ +void MEDPARTITIONER::SendDataArrayDouble(const ParaMEDMEM::DataArrayDouble* da, const int target) +{ + if (da==0) throw INTERP_KERNEL::Exception(LOCALIZED("Problem send DataArrayDouble* NULL")); + int tag = 111005; + int size[3]; + size[0]=da->getNbOfElems(); + size[1]=da->getNumberOfTuples(); + size[2]=da->getNumberOfComponents(); + if (MyGlobals::_Verbose>1000) + cout<<"proc "< SendDataArrayDouble "<getConstPointer(); + MPI_Send(const_cast(&p[0]), size[0] ,MPI_DOUBLE, target, tag+100, MPI_COMM_WORLD); +#endif +} + +/*! Receives messages from proc \a source to fill dataArrayDouble da. + To be used with \a SendDoubleVec method. + \param da dataArrayDouble that is filled + \param source processor id of the incoming messages +*/ +ParaMEDMEM::DataArrayDouble* MEDPARTITIONER::RecvDataArrayDouble(const int source) +{ + int tag = 111005; + int size[3]; +#ifdef HAVE_MPI2 + MPI_Status status; + MPI_Recv(size, 3, MPI_INT, source, tag, MPI_COMM_WORLD, &status); + if (MyGlobals::_Verbose>1000) + cout<<"proc "<alloc(size[1],size[2]); + double * p=da->getPointer(); + MPI_Recv(const_cast(&p[0]), size[0], MPI_DOUBLE, source, tag+100, MPI_COMM_WORLD, &status); +#endif + return da; +} + +ParaMEDMEM::MEDCouplingUMesh* MEDPARTITIONER::CreateEmptyMEDCouplingUMesh() +//create empty MEDCouplingUMesh* dim 3 +{ + ParaMEDMEM::MEDCouplingUMesh* umesh=ParaMEDMEM::MEDCouplingUMesh::New(); + umesh->setMeshDimension(3); + umesh->allocateCells(0); + umesh->finishInsertingCells(); + ParaMEDMEM::DataArrayDouble *myCoords=ParaMEDMEM::DataArrayDouble::New(); + myCoords->alloc(0,3); + umesh->setCoords(myCoords); + umesh->setName("EMPTY"); + myCoords->decrRef(); + umesh->checkCoherency(); + return umesh; +} + +void MEDPARTITIONER::TestVectorOfStringMpi() +{ + int rank=MyGlobals::_Rank; + int world_size=MyGlobals::_World_Size; + vector myVector; + ostringstream oss; + oss<<"hello from "< v0=DeserializeToVectorOfString(s0); + cout<<"v0 is : a vector of size "< res=DeserializeToVectorOfString(s0); + if (res.size()!=myVector.size()) + throw INTERP_KERNEL::Exception(LOCALIZED("Problem in (de)serialise VectorOfString incoherent sizes")); + for (int i=0; i res=SendAndReceiveVectorOfString(myVector, i, j); + if ((rank==j) && MyGlobals::_Verbose>20) + cout<<"proc "< res=AllgathervVectorOfString(myVector); + //sometimes for test + res=AllgathervVectorOfString(myVector); + res=AllgathervVectorOfString(myVector); + if (rank==0 && MyGlobals::_Verbose>20) + cout<<"proc "< myMap; + myMap["one"]=1; + myMap["two"]=22; //a bug + myMap["three"]=3; + myMap["two"]=2; //last speaking override + + if (rank==0) + { + vector v2=VectorizeFromMapOfStringInt(myMap); + /* + cout<<"v2 is : a vector of size "< m3=DevectorizeToMapOfStringInt(v2); + if (ReprMapOfStringInt(m3)!=ReprMapOfStringInt(myMap)) + throw INTERP_KERNEL::Exception(LOCALIZED("Problem in (de)vectorize MapOfStringInt")); + } + + vector v2=AllgathervVectorOfString(VectorizeFromMapOfStringInt(myMap)); + if (rank==0 && MyGlobals::_Verbose>20) + { + cout<<"v2 is : a vector of size "< m2=DevectorizeToMapOfStringInt(v2); + cout<<"m2 is : a map of size "< myVector; + ostringstream oss; + oss<<"hello from "< > m2; + m2["first key"]=myVector; + m2["second key"]=myVector; + vector v2=VectorizeFromMapOfStringVectorOfString(m2); + map< string,vector > m3=DevectorizeToMapOfStringVectorOfString(v2); + if (rank==0 && MyGlobals::_Verbose>20) + cout<<"m2 is : a MapOfStringVectorOfString of size "< > m4; + m4["1rst key"]=myVector; + m4["2snd key"]=myVector; + vector v4=AllgathervVectorOfString(VectorizeFromMapOfStringVectorOfString(m4)); + if (rank==0 && MyGlobals::_Verbose>20) + { + map< string,vector > m5=DevectorizeToMapOfStringVectorOfString(v4); + map< string,vector > m6=DeleteDuplicatesInMapOfStringVectorOfString(m5); + cout<<"m5 is : a map of size "<alloc(nbOfTuples,numberOfComponents); + vector vals; + for (int j=0; jgetPointer()); + if (rank==0) SendDataArrayInt(send, 1); + if (rank==1) recv=RecvDataArrayInt(0); + if (rank==1 && MyGlobals::_Verbose>20) + { + cout<repr()<repr()<repr()!=recv->repr()) + throw INTERP_KERNEL::Exception(LOCALIZED("Problem in send&recv DataArrayInt")); + } + send->decrRef(); + if (rank==1) recv->decrRef(); + } + //double + { + ParaMEDMEM::DataArrayDouble* send=ParaMEDMEM::DataArrayDouble::New(); + ParaMEDMEM::DataArrayDouble* recv=0; + int nbOfTuples=5; + int numberOfComponents=3; + send->alloc(nbOfTuples,numberOfComponents); + vector vals; + for (int j=0; jgetPointer()); + if (rank==0) SendDataArrayDouble(send, 1); + if (rank==1) recv=RecvDataArrayDouble(0); + if (rank==1 && MyGlobals::_Verbose>20) + { + cout<repr()<repr()<repr()!=recv->repr()) + throw INTERP_KERNEL::Exception(LOCALIZED("Problem in send&recv DataArrayDouble")); + } + send->decrRef(); + if (rank==1) recv->decrRef(); + } + + if (MyGlobals::_Verbose) cout<<"proc "< x, y; + int tag=111111; + MPI_Request requete0, requete1; + MPI_Status statut; + int ok=0; + string res; + if (rang==0) + { + x.resize(taille); + MPI_Ssend_init(&x[0], taille, MPI_INT, 1, tag, MPI_COMM_WORLD , &requete0); + for(int k=0; k cela peut prendre du temps + MPI_Start(&requete0); + //Traitement sequentiel independant de "x" + //... + MPI_Wait(&requete0, &statut); + //Traitement sequentiel impliquant une modification de "x" en memoire + //x=... + } + MPI_Request_free(&requete0); + } + else if (rang == 1) + { + y.resize(taille); + MPI_Recv_init(&y[0], taille, MPI_INT, 0, tag, MPI_COMM_WORLD , &requete1); + for(int k=0; k cela peut prendre du temps + MPI_Start(&requete1); + //Traitement sequentiel independant de "y" + //... + MPI_Wait(&requete1, &statut); + //Traitement sequentiel dependant de "y" + //...=f(y) + int nb=0; + for (int i=0; i9) + { + res="0K"; if (nb!=taille) res="KO"; + cout<1) + cout<<"resultat "<=wsize) next=0; + vector x, y; + tagbefo=111111+befo; + tagnext=111111+rang; + MPI_Request requete0, requete1; + MPI_Status statut1, statut2; + int ok=0; + string res; + //cout<<"ini|"< cela peut prendre du temps + MPI_Start(&requete0); + //Reception du gros message --> cela peut prendre du temps + for (int i=0; i9) + { + res="0K"+IntToStr(rang); if (nb!=taille) res="KO"+IntToStr(rang); + cout<1) + cout<<"resultat proc "<=rangMax) couleur=MPI_UNDEFINED; + cout<<"coul|"<MyGlobals::_World_Size) wsize=MyGlobals::_World_Size; + befo=rang-1; if (befo<0) befo=wsize-1; + next=rang+1; if (next>=wsize) next=0; + vector x, y; + tagbefo=111111+befo; + tagnext=111111+rang; + MPI_Request requete0, requete1; + MPI_Status statut1, statut2; + int ok=0; + string res; + + //cout<<"ini|"< cela peut prendre du temps + MPI_Start(&requete0); + //Reception du gros message --> cela peut prendre du temps + for (int i=0; i9) + { + res="0K"+IntToStr(rang); if (nb!=taille) res="KO"+IntToStr(rang); + cout<1) + cout<<"resultat proc "< +#include +#include + +#ifdef LOCALIZED +#undef LOCALIZED +#endif + +#if defined(_DEBUG_) || defined(_DEBUG) +//only for debug # define LOCALIZED(message) #message , __FILE__ , __FUNCTION__ , __LINE__ +# define LOCALIZED(message) #message , __FUNCTION__ , __LINE__ +#else +# define LOCALIZED(message) #message +#endif + +namespace MEDPARTITIONER +{ + std::string Trim(const std::string& s,const std::string& drop); + std::string IntToStr(const int i); + std::string DoubleToStr(const double i); + int StrToInt(const std::string& s); + double StrToDouble(const std::string& s); + bool TestArg(const char *arg, const char *argExpected, std::string& argValue); + std::vector CreateRandomSize(const int size); + void RandomizeAdj(int* xadj, int* adjncy, std::vector& ran, std::vector& vx, std::vector& va); + void TestRandomize(); + + std::string ReprVectorOfString(const std::vector& vec); + std::string ReprVectorOfString(const std::vector& vec, const std::string separator); + std::string ReprMapOfStringInt(const std::map& mymap); + std::string ReprMapOfStringVectorOfString(const std::map< std::string,std::vector >& mymap); + std::string ReprFieldDescriptions(const std::vector& vec,const std::string separator); + + std::string SerializeFromString(const std::string& s); + std::string SerializeFromVectorOfString(const std::vector& vec); + std::vector DeserializeToVectorOfString(const std::string& str); + std::string EraseTagSerialized(const std::string& fromStr, const std::string& tag); + + std::vector VectorizeFromMapOfStringInt(const std::map& mymap); + std::map DevectorizeToMapOfStringInt(const std::vector& vec); + + std::vector VectorizeFromMapOfStringVectorOfString(const std::map< std::string,std::vector >& mymap); + std::map< std::string,std::vector > DevectorizeToMapOfStringVectorOfString(const std::vector& vec); + + std::vector SelectTagsInVectorOfString(const std::vector& vec, const std::string tag); + std::vector DeleteDuplicatesInVectorOfString(const std::vector& vec); + std::map< std::string,std::vector > DeleteDuplicatesInMapOfStringVectorOfString(const std::map< std::string,std::vector >& mymap); + + std::string Cle1ToStr(const std::string& s, const int inew); + void Cle1ToData(const std::string& cle, std::string& s, int& inew); + + std::string Cle2ToStr(const std::string& s,const int inew,const int iold); + void Cle2ToData(const std::string& cle, std::string& s, int& inew, int& iold); + + std::string ExtractFromDescription(const std::string& description,const std::string& tag); + void FieldDescriptionToData(const std::string& description, + int& idomain, std::string& fileName, std::string& meshName, std::string& fieldName, + int& typeField, int& DT, int& IT); + void FieldShortDescriptionToData(const std::string& description, + std::string& fieldName, int& typeField, int& entity, int& DT, int& IT); + + ParaMEDMEM::DataArrayInt* CreateDataArrayIntFromVector(const std::vector& v); + ParaMEDMEM::DataArrayInt* CreateDataArrayIntFromVector(const std::vector& v, const int nbComponents); + ParaMEDMEM::DataArrayDouble* CreateDataArrayDoubleFromVector(const std::vector& v); + + //non conseille, interblocages, utiliser sendAndReceive + //void SendVectorOfString(const std::vector& vec, const int target); + //std::vector RecvVectorOfString(const int source); + //TODO void sendRecvVectorOfString(const std::vector& vec, const int source, const int target); + std::vector SendAndReceiveVectorOfString(const std::vector& vec, const int source, const int target); + std::vector AllgathervVectorOfString(const std::vector& vec); + + std::vector BrowseFieldDouble(const ParaMEDMEM::MEDCouplingFieldDouble* fd); + std::vector BrowseAllFields(const std::string& myfile); + std::vector BrowseAllFieldsOnMesh(const std::string& myfile, const std::string& mymesh, const int idomain); + std::vector GetInfosOfField(const char *fileName, const char *meshName, const int idomain ); + + void SendDoubleVec(const std::vector& vec, const int target); + std::vector* RecvDoubleVec(const int source); + void RecvDoubleVec(std::vector& vec, const int source); + + void SendIntVec(const std::vector& vec, const int target); + std::vector* RecvIntVec(int source); + void RecvIntVec(std::vector& vec, const int source); + + void SendDataArrayInt(const ParaMEDMEM::DataArrayInt* da, const int target); + ParaMEDMEM::DataArrayInt* RecvDataArrayInt(const int source); + void SendDataArrayDouble(const ParaMEDMEM::DataArrayDouble* da, const int target); + ParaMEDMEM::DataArrayDouble* RecvDataArrayDouble(const int source); + + ParaMEDMEM::MEDCouplingUMesh* CreateEmptyMEDCouplingUMesh(); + + void TestVectorOfStringMpi(); + void TestMapOfStringIntMpi(); + void TestMapOfStringVectorOfStringMpi(); + void TestDataArrayMpi(); + void TestPersistantMpi0To1(int taille, int nb); + void TestPersistantMpiRing(int taille, int nb); + void TestPersistantMpiRingOnCommSplit(int taille, int nb); + + class MyGlobals + { + public : static int _Verbose; //0 to 1000 over 200 is debug + public : static int _Rank; + public : static int _World_Size; + public : static int _Randomize; + public : static int _Atomize; + public : static int _Creates_Boundary_Faces; + public : static int _Is0verbose; //trace cout if rank 0 and verbose + public : static std::vector _File_Names; //on [iold] + public : static std::vector _Mesh_Names; //on [iold] + public : static std::vector _Field_Descriptions; + //used for descriptions of components of fields for example... + public : static std::vector _General_Informations; + }; +} +#endif diff --git a/src/MEDPartitioner/MEDPARTITIONER_utils.cxx b/src/MEDPartitioner/MEDPARTITIONER_utils.cxx deleted file mode 100644 index 19843caba..000000000 --- a/src/MEDPartitioner/MEDPARTITIONER_utils.cxx +++ /dev/null @@ -1,1627 +0,0 @@ -// Copyright (C) 2007-2010 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. -// -// This library 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 this library; if not, write to the Free Software -// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA -// -// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com -// - -#include "MEDLoader.hxx" -#include "MEDLoaderBase.hxx" -#include "MEDFileUtilities.hxx" -#include "CellModel.hxx" -#include "MEDCouplingUMesh.hxx" -#include "MEDCouplingFieldDouble.hxx" -#include "MEDPARTITIONER_utils.hxx" -#include "InterpKernelException.hxx" -#include "MEDCouplingAutoRefCountObjectPtr.hxx" -#include "InterpKernelAutoPtr.hxx" - -#ifdef HAVE_MPI2 -#include -#endif - -#include -#include -#include -#include -#include - -using namespace std; -using namespace MEDPARTITIONER; - -int MEDPARTITIONER::MyGlobals::_verbose=0; -int MEDPARTITIONER::MyGlobals::_is0verbose=0; -int MEDPARTITIONER::MyGlobals::_rank=-1; -int MEDPARTITIONER::MyGlobals::_world_size=-1; -int MEDPARTITIONER::MyGlobals::_randomize=0; -int MEDPARTITIONER::MyGlobals::_atomize=0; -int MEDPARTITIONER::MyGlobals::_creates_boundary_faces=0; -vector MEDPARTITIONER::MyGlobals::_fileNames; -vector MEDPARTITIONER::MyGlobals::_meshNames; -vector MEDPARTITIONER::MyGlobals::_fieldDescriptions; -vector MEDPARTITIONER::MyGlobals::_generalInformations; - -string MEDPARTITIONER::trim(string& s, const string& drop) -{ - string r=s.erase(s.find_last_not_of(drop)+1); - return r.erase(0,r.find_first_not_of(drop)); -} - -string MEDPARTITIONER::intToStr(int i) -{ - ostringstream oss; - oss<>res; - return res; -} - -string MEDPARTITIONER::doubleToStr(double i) -{ - ostringstream oss; - oss<>res; - return res; -} - -bool MEDPARTITIONER::testArg(const char *arg, const char *argExpected, string& argValue) -{ - argValue=""; - int i; - for (i=0; i MEDPARTITIONER::createRandomSize(int size) -{ - vector res(size); - for (int i=0; i& ran, vector& vx, vector& va) -//randomize a xadj and adjncy, renumbering vertices belong rand. -//work only on one processor!!!! -{ - if (MyGlobals::_world_size>1) - { - cerr<<"randomizeAdj only on one proc!"< invran(size); - for (int i=0; i r=createRandomSize(size); - vector vx,va; - randomizeAdj(&xadj[0],&adjncy[0],r,vx,va); - for (int i=0; i& vec) -{ - if (vec.size()==0) return string(" NONE\n"); - ostringstream oss; - for (vector::const_iterator i=vec.begin(); i!=vec.end(); ++i) - oss<<" -> '"<<*i<<"'"<& vec, string sep) -{ - if (vec.size()==0) return string(" NONE\n"); - ostringstream oss; - for (vector::const_iterator i=vec.begin(); i!=vec.end(); ++i) - oss<& mymap) -{ - if (mymap.size()==0) return string(" NONE\n"); - ostringstream oss; - for (map::const_iterator i=mymap.begin(); i!=mymap.end(); ++i) - oss<<" -> ["<<(*i).first<<"]="<<(*i).second< >& mymap) -{ - if (mymap.size()==0) return string(" NONE\n"); - ostringstream oss; - for (map< string,vector >::const_iterator i=mymap.begin(); i!=mymap.end(); ++i) - oss<<" -> ["<<(*i).first<<"]="<& vec, string sep) -{ - if (vec.size()==0) return string(" NONE\n"); - ostringstream oss; - for (vector::const_iterator i=vec.begin(); i!=vec.end(); ++i) - { - oss<<" ->"; - oss< vec2=deserializeToVectorOfString(*i); - for (vector::const_iterator j=vec2.begin(); j!=vec2.end(); ++j) - oss<.push_back("toto") on serialized_FromVectorOfString_string -{ - ostringstream oss; - oss<& vec) -//a vector of string gives a string -{ - ostringstream oss; - for (vector::const_iterator i=vec.begin(); i!=vec.end(); ++i) - oss< MEDPARTITIONER::deserializeToVectorOfString(const string& str) -//a string gives a vector of string -{ - //vector res=new vector; - vector res; - size_t pos=0; - size_t posmax=str.size(); - if (posmax==0) return res; //empty vector - size_t length; - while (pos < posmax-6) //setw(5)+" " - { - istringstream iss(str.substr(pos,5)); - iss>>length; - //cout<<"length "< vec=deserializeToVectorOfString(fromStr); - vector res; - for (int i=0; i MEDPARTITIONER::vectorizeFromMapOfStringInt(const map& mymap) -//elements first and second of map give one elements in result vector of string -//converting formatted the int second as firsts characters ending at first slash -{ - vector res; - for (map::const_iterator i=mymap.begin(); i!=mymap.end(); ++i) - { - ostringstream oss; - oss<<(*i).second<<"/"<<(*i).first; - res.push_back(oss.str()); - } - return res; -} - -map MEDPARTITIONER::devectorizeToMapOfStringInt(const vector& vec) -//if existing identicals (first,second) in vector no problem, else Exception -{ - map res; - for (vector::const_iterator i=vec.begin(); i!=vec.end(); ++i) - { - size_t pos=0; - size_t posmax=(*i).size(); - size_t found=(*i).find('/'); //first slash - if ((found==string::npos) || (found<1)) - throw INTERP_KERNEL::Exception(LOCALIZED("Error aIntNumber/anyString is expected")); - int second; - istringstream iss((*i).substr(pos,found)); - iss>>second; - string first=(*i).substr(pos+found+1,posmax-found); - map::iterator it=res.find(first); - if (it!=res.end()) - if ((*it).second!=second) - throw INTERP_KERNEL::Exception(LOCALIZED("Error not the same map value")); - res[first]=second; - } - return res; -} - -vector MEDPARTITIONER::vectorizeFromMapOfStringVectorOfString(const map< string,vector >& mymap) -//elements first and second of map give one elements in result vector of string -//adding key map and length of second vector as first string in each serialized vector -//one serialized vector per key map -{ - vector res; - for (map< string,vector >::const_iterator i=mymap.begin(); i!=mymap.end(); ++i) - { - vector vs=(*i).second; //a vector of string; - ostringstream oss; - oss<<"Keymap/"<<(*i).first<<"/"<<(*i).second.size(); - vs.insert(vs.begin(), oss.str()); - res.push_back(serializeFromVectorOfString(vs)); - } - return res; -} - -map< string,vector > MEDPARTITIONER::devectorizeToMapOfStringVectorOfString(const vector& vec) -//if existing identicals keymap in vector no problem -//duplicates in second vector -{ - map< string,vector > res; - for (vector::const_iterator i=vec.begin(); i!=vec.end(); ++i) - { - vector vs=deserializeToVectorOfString(*i); - - string enTete=vs[0]; - size_t posmax=enTete.size(); - size_t foundKey=enTete.find("Keymap/"); - size_t foundSizeVector=enTete.find_last_of('/'); - if ((foundKey==string::npos) || (foundKey!=0) || ((foundKey+7)>=foundSizeVector)) - throw INTERP_KERNEL::Exception(LOCALIZED("Error Keymap/anyString/aIntNumber is expected")); - int sizeVector; - istringstream iss(enTete.substr(foundSizeVector+1,posmax-foundSizeVector)); - iss>>sizeVector; - string keymap=enTete.substr(foundKey+7,foundSizeVector-foundKey-7); - //cout< MEDPARTITIONER::recvVectorOfString(const int source) -//non conseille, interblocages, utiliser sendAndReceive -{ - throw INTERP_KERNEL::Exception(LOCALIZED("use sendAndReceiveVectorOfString please.")); - int recSize=0; - int tag=111000; - MPI_Status status; - MPI_Recv(&recSize, 1, MPI_INT, source, tag, MPI_COMM_WORLD, &status); - string recData(recSize,'x'); - MPI_Recv((void*)recData.data(), recSize, MPI_CHAR, 1, tag+100, MPI_COMM_WORLD, &status); - //cout<<"proc "< MEDPARTITIONER::sendAndReceiveVectorOfString(const vector& vec, const int source, const int target) -//not optimized but suffisant -//return empty vector if i am not target -{ - int rank=MyGlobals::_rank; - - /*for test - ostringstream oss; - oss<<"sendAndReceive from "< res; - return res; //empty one for other proc -} - -vector MEDPARTITIONER::allgathervVectorOfString(const vector& vec) -//strings NO need all same size!!!! -{ - int world_size=MyGlobals::_world_size; - string str=serializeFromVectorOfString(vec); - - /*for test - int rank=MyGlobals::_rank; - ostringstream oss; - oss<<"allgatherv from "< indexes(world_size); - int size=str.length(); - MPI_Allgather(&size, 1, MPI_INT, - &indexes[0], 1, MPI_INT, MPI_COMM_WORLD); - - /*{ - ostringstream oss; - for (int i=0; i disp(1,0); - for (int i=0; i deserial=deserializeToVectorOfString(recData); - if (MyGlobals::_verbose>1000) - { - cout<<"proc "<& vec, const int source, const int target) -//TODO - -string MEDPARTITIONER::cle1ToStr(string s, int inew) -{ - ostringstream oss; - oss<>inew; -} - -string MEDPARTITIONER::cle2ToStr(string s, int inew, int iold) -{ - ostringstream oss; - oss<>inew>>iold; -} - -string MEDPARTITIONER::extractFromDescription(string description,string tag) -{ - size_t found=description.find(tag); - if ((found==string::npos) || (found<1)) - { - cerr<<"ERROR : not found '"<alloc(v.size()/nbComponents,nbComponents); - std::copy(v.begin(),v.end(),p->getPointer()); - return p; -} - -ParaMEDMEM::DataArrayDouble* MEDPARTITIONER::createDataArrayDoubleFromVector(vector& v) -{ - ParaMEDMEM::DataArrayDouble* p=DataArrayDouble::New(); - p->alloc(v.size(),1); - std::copy(v.begin(),v.end(),p->getPointer()); - return p; -} - -vector MEDPARTITIONER::browseFieldDouble(const MEDCouplingFieldDouble* fd) -//quick almost human readable information on a field double -/* example done by fd->simpleRepr() : -FieldDouble with name : "VectorFieldOnCells" -Description of field is : "" -FieldDouble space discretization is : P0 -FieldDouble time discretization is : One time label. Time is defined by iteration=0 order=1 and time=2. -Time unit is : "" -FieldDouble nature of field is : NoNature -FieldDouble default array has 3 components and 30000 tuples. -FieldDouble default array has following info on components : "vx" "vy" "vz" -Mesh support information : -__________________________ -Unstructured mesh with name : "testMesh" -Description of mesh : "" -Time attached to the mesh [unit] : 0 [] -Iteration : -1 Order : -1 -Mesh dimension : 3 -Space dimension : 3 -Info attached on space dimension : "" "" "" -Number of nodes : 33201 -Number of cells : 30000 -Cell types present : NORM_HEXA8 -*/ -{ - vector res; - //res.push_back("fieldName="); res.back()+=fd->getName(); - //not saved in file? res.push_back("fieldDescription="); res.back()+=fd->getDescription(); - //ret << "FieldDouble space discretization is : " << _type->getStringRepr() << "\n"; - //ret << "FieldDouble time discretization is : " << _time_discr->getStringRepr() << "\n"; - //ret << "FieldDouble nature of field is : " << MEDCouplingNatureOfField::getRepr(_nature) << "\n"; - if (fd->getArray()) - { - int nb=fd->getArray()->getNumberOfComponents(); - res.push_back("nbComponents="); res.back()+=intToStr(nb); - //ret << "FieldDouble default array has " << nbOfCompo << " components and " << getArray()->getNumberOfTuples() << " tuples.\n"; - //ret << "FieldDouble default array has following info on components : "; - for (int i=0; igetInfoOnComponent(i) << "\" "; - res.push_back("componentInfo"); - res.back()+=intToStr(i)+"="+fd->getArray()->getInfoOnComponent(i); - } - } - else - { - res.push_back("nbComponents=0"); //unknown - } - return res; -} - -vector MEDPARTITIONER::browseAllFields(const string& myfile) -//quick almost human readable information on all fields in a .med file -{ - vector res; - vector meshNames=MEDLoader::GetMeshNames(myfile.c_str()); - - for (int i=0; i fieldNames= - MEDLoader::GetAllFieldNamesOnMesh(myfile.c_str(),meshNames[i].c_str()); - for (int j = 0; j < fieldNames.size(); j++) - { - vector< ParaMEDMEM::TypeOfField > typeFields= - MEDLoader::GetTypesOfField(myfile.c_str(), meshNames[i].c_str(), fieldNames[j].c_str()); - for (int k = 0; k < typeFields.size(); k++) - { - vector< pair< int, int > > its= - MEDLoader::GetFieldIterations(typeFields[k], myfile.c_str(), meshNames[i].c_str(), fieldNames[j].c_str()); - if (MyGlobals::_is0verbose>100) cout<<"fieldName "< resi; - resi.push_back("fileName="); resi.back()+=myfile; - resi.push_back("meshName="); resi.back()+=meshNames[i]; - resi.push_back("fieldName="); resi.back()+=fieldNames[j]; - resi.push_back("typeField="); resi.back()+=intToStr((int)typeFields[k]); - resi.push_back("DT="); resi.back()+=intToStr((int)its[m].first); - resi.push_back("IT="); resi.back()+=intToStr((int)its[m].second); - res.push_back(serializeFromVectorOfString(resi)); - } - } - } - } - return res; -} - -/* -vector MEDPARTITIONER::browseAllFieldsOnMesh(const string& myfile, const string& mymesh, int idomain) -//quick almost human readable information on all fields on a mesh in a .med file using MEDFILEBROWSER -{ - vector res; - vector meshNames; - meshNames.push_back(mymesh); - MEDMEM::MEDFILEBROWSER myMed(myfile); - for (int i=0; i MEDPARTITIONER::GetInfosOfField(const char *fileName, const char *meshName, int idomain) -{ -const int lggeom=10; -const med_geometry_type GEOMTYPE[lggeom]={ //MED_N_CELL_FIXED_GEO] = { - //MED_POINT1, - //MED_SEG2, - //MED_SEG3, - //MED_SEG4, - //MED_TRIA3, - //MED_QUAD4, - //MED_TRIA6, - //MED_TRIA7, - //MED_QUAD8, - //MED_QUAD9, - MED_TETRA4, - MED_PYRA5, - MED_PENTA6, - MED_HEXA8, - MED_OCTA12, - MED_TETRA10, - MED_PYRA13, - MED_PENTA15, - MED_HEXA20, - MED_HEXA27, - //MED_POLYGON, - //MED_POLYHEDRON -}; - -const char * const GEOMTYPENAME[lggeom]={ - //"MED_POINT1", - //"MED_SEG2", - //"MED_SEG3", - //"MED_SEG4", - //"MED_TRIA3", - //"MED_QUAD4", - //"MED_TRIA6", - //"MED_TRIA7", - //"MED_QUAD8", - //"MED_QUAD9", - "MED_TETRA4", - "MED_PYRA5", - "MED_PENTA6", - "MED_HEXA8", - "MED_OCTA12", - "MED_TETRA10", - "MED_PYRA13", - "MED_PENTA15", - "MED_HEXA20", - "MED_HEXA27", - //"MED_POLYGONE", - //"MED_POLYEDRE", -}; - - -const int lgentity=3; -const med_entity_type ENTITYTYPE[lgentity]={ //MED_N_ENTITY_TYPES+2]={ - //MED_UNDEF_ENTITY_TYPE, - MED_CELL, - //MED_DESCENDING_FACE, - //MED_DESCENDING_EDGE, - MED_NODE, - MED_NODE_ELEMENT, - //MED_STRUCT_ELEMENT, - //MED_UNDEF_ENTITY_TYPE -}; - -const char * const ENTITYTYPENAME[lgentity]={ //MED_N_ENTITY_TYPES+2]={ - //"MED_UNDEF_ENTITY_TYPE", - "MED_CELL", - //"MED_FACE", - //"MED_ARETE", - "MED_NODE", - "MED_NODE_ELEMENT", - //"MED_STRUCT_ELEMENT", - //"MED_UNDEF_ENTITY_TYPE" -}; - - vector res; - med_idt fid=MEDfileOpen(fileName,MED_ACC_RDONLY); - med_int nbFields=MEDnField(fid); - if (MyGlobals::_verbose>20) cout<<"on filename "< comp=new char[ncomp*MED_SNAME_SIZE+1]; - INTERP_KERNEL::AutoPtr unit=new char[ncomp*MED_SNAME_SIZE+1]; - INTERP_KERNEL::AutoPtr dt_unit=new char[MED_LNAME_SIZE+1]; - med_int nbPdt; - MEDfieldInfo(fid,i,nomcha,maa_ass,&localmesh,&typcha,comp,unit,dt_unit,&nbPdt); - std::string curFieldName=MEDLoaderBase::buildStringFromFortran(nomcha,MED_NAME_SIZE+1); - std::string curMeshName=MEDLoaderBase::buildStringFromFortran(maa_ass,MED_NAME_SIZE+1); - for (int k=1; k<=nbPdt; k++) - { - MEDfieldComputingStepInfo(fid,nomcha,k,&numdt,&numo,&dt); - if (MyGlobals::_verbose>20) - cout<<"on filename "<0) - { - if (MyGlobals::_verbose>20) - cout<<"on filename "< resi; - resi.push_back("idomain="); resi.back()+=intToStr(idomain); - resi.push_back("fileName="); resi.back()+=fileName; - resi.push_back("meshName="); resi.back()+=curMeshName; - resi.push_back("fieldName="); resi.back()+=curFieldName; - resi.push_back("typeField="); resi.back()+=intToStr((int)ON_NODES); - resi.push_back("typeData="); resi.back()+=intToStr((int)typcha); //6 for double? - resi.push_back("nbComponent="); resi.back()+=intToStr((int)ncomp); - resi.push_back("DT="); resi.back()+=intToStr((int)numdt); - resi.push_back("IT="); resi.back()+=intToStr((int)numo); - resi.push_back("time="); resi.back()+=doubleToStr(dt); - resi.push_back("entity="); resi.back()+=intToStr((int)enttype); - resi.push_back("entityName="); resi.back()+=ENTITYTYPENAME[ie]; - resi.push_back("nbOfVal="); resi.back()+=intToStr((int)nbOfVal); - resi.push_back("profilName="); resi.back()+=pflname; - resi.push_back("profileSize="); resi.back()+=intToStr((int)profilesize); - resi.push_back("nbPtGauss="); resi.back()+=intToStr((int)nbi); - res.push_back(serializeFromVectorOfString(resi)); - } - break; //on nodes no need to scute all geomtype - } - else - { - med_geometry_type mygeomtype=GEOMTYPE[j]; - med_int nbOfVal=MEDfieldnValueWithProfile(fid,nomcha,numdt,numo,enttype,mygeomtype,profileit, - MED_COMPACT_PFLMODE,pflname,&profilesize,locname,&nbi); - if (nbOfVal>0) - { - if (MyGlobals::_verbose>20) - cout<<"on filename "< resi; - resi.push_back("idomain="); resi.back()+=intToStr(idomain); - resi.push_back("fileName="); resi.back()+=fileName; - resi.push_back("meshName="); resi.back()+=curMeshName; - resi.push_back("fieldName="); resi.back()+=curFieldName; - resi.push_back("typeField="); resi.back()+=intToStr((int)typeField); - resi.push_back("typeData="); resi.back()+=intToStr((int)typcha); //6 for double? - resi.push_back("nbComponent="); resi.back()+=intToStr((int)ncomp); - resi.push_back("DT="); resi.back()+=intToStr((int)numdt); - resi.push_back("IT="); resi.back()+=intToStr((int)numo); - resi.push_back("time="); resi.back()+=doubleToStr(dt); - resi.push_back("entity="); resi.back()+=intToStr((int)enttype); - resi.push_back("entityName="); resi.back()+=ENTITYTYPENAME[ie]; - resi.push_back("geomType="); resi.back()+=intToStr((int)GEOMTYPE[j]); - resi.push_back("geomTypeName="); resi.back()+=GEOMTYPENAME[j]; - resi.push_back("nbOfVal="); resi.back()+=intToStr((int)nbOfVal); - resi.push_back("profilName="); resi.back()+=pflname; - resi.push_back("profileSize="); resi.back()+=intToStr((int)profilesize); - resi.push_back("nbPtGauss="); resi.back()+=intToStr((int)nbi); - if (typeField==-1) - { - cout<<"WARNING : unknown typeField for entity type "<10) cout<<"detected fields:\n"< MEDPARTITIONER::browseAllFieldsOnMesh(const string& myfile, const string& mymesh, int idomain) -//quick almost human readable information on all fields on a mesh in a .med file -{ - vector res=GetInfosOfField(myfile.c_str(),mymesh.c_str(),idomain); - return res; - - /*obsolete do no work on GetTypesOfField ON_GAUSS_NE - vector res; - vector meshNames; - meshNames.push_back(mymesh); - - for (int i=0; i fieldNames= - MEDLoader::GetAllFieldNamesOnMesh(myfile.c_str(),meshNames[i].c_str()); - for (int j=0; j typeFields= - MEDLoader::GetTypesOfField(myfile.c_str(), meshNames[i].c_str(), fieldNames[j].c_str()); - //if (MyGlobals::_is0verbose>100) cout<<"fieldName "< > its; - its=MEDLoader::GetFieldIterations(typeFields[k], myfile.c_str(), meshNames[i].c_str(), fieldNames[j].c_str()); - //if (typeFields[k]==ON_GAUSS_NE) its.push_back(make_pair(5,6)); - if (MyGlobals::_is0verbose>100) cout<<"fieldName "< resi; - resi.push_back("idomain="); resi.back()+=intToStr(idomain); - resi.push_back("fileName="); resi.back()+=myfile; - resi.push_back("meshName="); resi.back()+=meshNames[i]; - resi.push_back("fieldName="); resi.back()+=fieldNames[j]; - resi.push_back("typeField="); resi.back()+=intToStr((int)typeFields[k]); - resi.push_back("DT="); resi.back()+=intToStr((int)its[m].first); - resi.push_back("IT="); resi.back()+=intToStr((int)its[m].second); - //cout<<"browseAllFieldsOnMesh add "<& vec, int target) -{ - int tag = 111002; - int size=vec.size(); - if (MyGlobals::_verbose>1000) - cout<<"proc "< sendDoubleVec "<(&vec[0]), size, MPI_DOUBLE, target, tag+100, MPI_COMM_WORLD); -#endif -} - -/*! Receives messages from proc \a source to fill vector vec. -To be used with \a sendDoubleVec method. - -\param vec vector that is filled -\param source processor id of the incoming messages - */ -std::vector* MEDPARTITIONER::recvDoubleVec(int source) -{ - int tag = 111002; - int size; -#ifdef HAVE_MPI2 - MPI_Status status; - MPI_Recv(&size, 1, MPI_INT, source, tag, MPI_COMM_WORLD, &status); - if (MyGlobals::_verbose>1000) - cout<<"proc "<* vec=new std::vector; - vec->resize(size); - MPI_Recv(&vec[0], size, MPI_DOUBLE, source, tag+100, MPI_COMM_WORLD, &status); -#endif - return vec; -} - -void MEDPARTITIONER::recvDoubleVec(std::vector& vec, int source) -{ - int tag = 111002; - int size; -#ifdef HAVE_MPI2 - MPI_Status status; - MPI_Recv(&size, 1, MPI_INT, source, tag, MPI_COMM_WORLD, &status); - if (MyGlobals::_verbose>1000) - cout<<"proc "<& vec, int target) -{ - int tag = 111003; - int size=vec.size(); - if (MyGlobals::_verbose>1000) - cout<<"proc "< sendIntVec "<(&vec[0]), size,MPI_INT, target, tag+100, MPI_COMM_WORLD); -#endif -} - -/*! Receives messages from proc \a source to fill vector vec. -To be used with \a sendIntVec method. -\param vec vector that is filled -\param source processor id of the incoming messages - */ -std::vector* MEDPARTITIONER::recvIntVec(int source) -{ - int tag = 111003; - int size; -#ifdef HAVE_MPI2 - MPI_Status status; - MPI_Recv(&size, 1, MPI_INT, source, tag, MPI_COMM_WORLD, &status); - if (MyGlobals::_verbose>1000) - cout<<"proc "<* vec=new std::vector; - vec->resize(size); - MPI_Recv(&vec[0], size, MPI_INT, source, tag+100, MPI_COMM_WORLD, &status); -#endif - return vec; -} - -void MEDPARTITIONER::recvIntVec(std::vector& vec, int source) -{ - int tag = 111003; - int size; -#ifdef HAVE_MPI2 - MPI_Status status; - MPI_Recv(&size, 1, MPI_INT, source, tag, MPI_COMM_WORLD, &status); - if (MyGlobals::_verbose>1000) - cout<<"proc "<getNbOfElems(); - size[1]=da->getNumberOfTuples(); - size[2]=da->getNumberOfComponents(); - if (MyGlobals::_verbose>1000) - cout<<"proc "< sendDataArrayInt "<getPointer(); - MPI_Send(const_cast(&p[0]), size[0] ,MPI_INT, target, tag+100, MPI_COMM_WORLD); -#endif -} - -/*! Receives messages from proc \a source to fill dataArrayInt da. -To be used with \a sendIntVec method. -\param da dataArrayInt that is filled -\param source processor id of the incoming messages - */ -ParaMEDMEM::DataArrayInt* MEDPARTITIONER::recvDataArrayInt(int source) -//std::vector& vec, int source)const -{ - int tag = 111004; - int size[3]; -#ifdef HAVE_MPI2 - MPI_Status status; - MPI_Recv(size, 3, MPI_INT, source, tag, MPI_COMM_WORLD, &status); - if (MyGlobals::_verbose>1000) - cout<<"proc "<alloc(size[1],size[2]); - int * p=da->getPointer(); - MPI_Recv(const_cast(&p[0]), size[0], MPI_INT, source, tag+100, MPI_COMM_WORLD, &status); -#endif - return da; -} - -/*! -Sends content of \a dataArrayInt to processor \a target. -To be used with \a recvDataArrayDouble method. -\param da dataArray to be sent -\param target processor id of the target -*/ -void MEDPARTITIONER::sendDataArrayDouble(ParaMEDMEM::DataArrayDouble* da, int target) -{ - if (da==0) throw INTERP_KERNEL::Exception(LOCALIZED("Problem send DataArrayDouble* NULL")); - int tag = 111005; - int size[3]; - size[0]=da->getNbOfElems(); - size[1]=da->getNumberOfTuples(); - size[2]=da->getNumberOfComponents(); - if (MyGlobals::_verbose>1000) - cout<<"proc "< sendDataArrayDouble "<getPointer(); - MPI_Send(const_cast(&p[0]), size[0] ,MPI_DOUBLE, target, tag+100, MPI_COMM_WORLD); -#endif -} - -/*! Receives messages from proc \a source to fill dataArrayDouble da. -To be used with \a sendDoubleVec method. -\param da dataArrayDouble that is filled -\param source processor id of the incoming messages - */ -ParaMEDMEM::DataArrayDouble* MEDPARTITIONER::recvDataArrayDouble(int source) -//std::vector& vec, int source)const -{ - int tag = 111005; - int size[3]; -#ifdef HAVE_MPI2 - MPI_Status status; - MPI_Recv(size, 3, MPI_INT, source, tag, MPI_COMM_WORLD, &status); - if (MyGlobals::_verbose>1000) - cout<<"proc "<alloc(size[1],size[2]); - double * p=da->getPointer(); - MPI_Recv(const_cast(&p[0]), size[0], MPI_DOUBLE, source, tag+100, MPI_COMM_WORLD, &status); -#endif - return da; -} - -ParaMEDMEM::MEDCouplingUMesh* MEDPARTITIONER::createEmptyMEDCouplingUMesh() - //create empty MEDCouplingUMesh* dim 3 -{ - ParaMEDMEM::MEDCouplingUMesh* umesh=ParaMEDMEM::MEDCouplingUMesh::New(); - umesh->setMeshDimension(3); - umesh->allocateCells(0); - umesh->finishInsertingCells(); - ParaMEDMEM::DataArrayDouble *myCoords=ParaMEDMEM::DataArrayDouble::New(); - myCoords->alloc(0,3); - umesh->setCoords(myCoords); - umesh->setName("EMPTY"); - myCoords->decrRef(); - umesh->checkCoherency(); - return umesh; -} - -void MEDPARTITIONER::testVectorOfStringMPI() -{ - int rank=MyGlobals::_rank; - int world_size=MyGlobals::_world_size; - vector myVector; - ostringstream oss; - oss<<"hello from "< v0=deserializeToVectorOfString(s0); - cout<<"v0 is : a vector of size "< res=deserializeToVectorOfString(s0); - if (res.size()!=myVector.size()) - throw INTERP_KERNEL::Exception(LOCALIZED("Problem in (de)serialise VectorOfString incoherent sizes")); - for (int i=0; i res=sendAndReceiveVectorOfString(myVector, i, j); - if ((rank==j) && MyGlobals::_verbose>20) - cout<<"proc "< res=allgathervVectorOfString(myVector); - //sometimes for test - res=allgathervVectorOfString(myVector); - res=allgathervVectorOfString(myVector); - if (rank==0 && MyGlobals::_verbose>20) - cout<<"proc "< myMap; - myMap["one"]=1; - myMap["two"]=22; //a bug - myMap["three"]=3; - myMap["two"]=2; //last speaking override - - if (rank==0) - { - vector v2=vectorizeFromMapOfStringInt(myMap); - /* - cout<<"v2 is : a vector of size "< m3=devectorizeToMapOfStringInt(v2); - if (reprMapOfStringInt(m3)!=reprMapOfStringInt(myMap)) - throw INTERP_KERNEL::Exception(LOCALIZED("Problem in (de)vectorize MapOfStringInt")); - } - - vector v2=allgathervVectorOfString(vectorizeFromMapOfStringInt(myMap)); - if (rank==0 && MyGlobals::_verbose>20) - { - cout<<"v2 is : a vector of size "< m2=devectorizeToMapOfStringInt(v2); - cout<<"m2 is : a map of size "< myVector; - ostringstream oss; - oss<<"hello from "< > m2; - m2["first key"]=myVector; - m2["second key"]=myVector; - vector v2=vectorizeFromMapOfStringVectorOfString(m2); - map< string,vector > m3=devectorizeToMapOfStringVectorOfString(v2); - if (rank==0 && MyGlobals::_verbose>20) - cout<<"m2 is : a MapOfStringVectorOfString of size "< > m4; - m4["1rst key"]=myVector; - m4["2snd key"]=myVector; - vector v4=allgathervVectorOfString(vectorizeFromMapOfStringVectorOfString(m4)); - if (rank==0 && MyGlobals::_verbose>20) - { - map< string,vector > m5=devectorizeToMapOfStringVectorOfString(v4); - map< string,vector > m6=deleteDuplicatesInMapOfStringVectorOfString(m5); - cout<<"m5 is : a map of size "<alloc(nbOfTuples,numberOfComponents); - vector vals; - for (int j=0; jgetPointer()); - if (rank==0) sendDataArrayInt(send, 1); - if (rank==1) recv=recvDataArrayInt(0); - if (rank==1 && MyGlobals::_verbose>20) - { - cout<repr()<repr()<repr()!=recv->repr()) - throw INTERP_KERNEL::Exception(LOCALIZED("Problem in send&recv DataArrayInt")); - } - send->decrRef(); - if (rank==1) recv->decrRef(); - } - //double - { - ParaMEDMEM::DataArrayDouble* send=ParaMEDMEM::DataArrayDouble::New(); - ParaMEDMEM::DataArrayDouble* recv=0; - int nbOfTuples=5; - int numberOfComponents=3; - send->alloc(nbOfTuples,numberOfComponents); - vector vals; - for (int j=0; jgetPointer()); - if (rank==0) sendDataArrayDouble(send, 1); - if (rank==1) recv=recvDataArrayDouble(0); - if (rank==1 && MyGlobals::_verbose>20) - { - cout<repr()<repr()<repr()!=recv->repr()) - throw INTERP_KERNEL::Exception(LOCALIZED("Problem in send&recv DataArrayDouble")); - } - send->decrRef(); - if (rank==1) recv->decrRef(); - } - - if (MyGlobals::_verbose) cout<<"proc "< x, y; - int tag=111111; - MPI_Request requete0, requete1; - MPI_Status statut; - int ok=0; - string res; - if (rang==0) - { - x.resize(taille); - MPI_Ssend_init(&x[0], taille, MPI_INT, 1, tag, MPI_COMM_WORLD , &requete0); - for(int k=0; k cela peut prendre du temps - MPI_Start(&requete0); - //Traitement sequentiel independant de "x" - //... - MPI_Wait(&requete0, &statut); - //Traitement sequentiel impliquant une modification de "x" en memoire - //x=... - } - MPI_Request_free(&requete0); - } - else if (rang == 1) - { - y.resize(taille); - MPI_Recv_init(&y[0], taille, MPI_INT, 0, tag, MPI_COMM_WORLD , &requete1); - for(int k=0; k cela peut prendre du temps - MPI_Start(&requete1); - //Traitement sequentiel independant de "y" - //... - MPI_Wait(&requete1, &statut); - //Traitement sequentiel dependant de "y" - //...=f(y) - int nb=0; - for (int i=0; i9) - { - res="0K"; if (nb!=taille) res="KO"; - cout<1) - cout<<"resultat "<=wsize) next=0; - vector x, y; - tagbefo=111111+befo; - tagnext=111111+rang; - MPI_Request requete0, requete1; - MPI_Status statut1, statut2; - int ok=0; - string res; - //cout<<"ini|"< cela peut prendre du temps - MPI_Start(&requete0); - //Reception du gros message --> cela peut prendre du temps - for (int i=0; i9) - { - res="0K"+intToStr(rang); if (nb!=taille) res="KO"+intToStr(rang); - cout<1) - cout<<"resultat proc "<=rangMax) couleur=MPI_UNDEFINED; - cout<<"coul|"<MyGlobals::_world_size) wsize=MyGlobals::_world_size; - befo=rang-1; if (befo<0) befo=wsize-1; - next=rang+1; if (next>=wsize) next=0; - vector x, y; - tagbefo=111111+befo; - tagnext=111111+rang; - MPI_Request requete0, requete1; - MPI_Status statut1, statut2; - int ok=0; - string res; - - //cout<<"ini|"< cela peut prendre du temps - MPI_Start(&requete0); - //Reception du gros message --> cela peut prendre du temps - for (int i=0; i9) - { - res="0K"+intToStr(rang); if (nb!=taille) res="KO"+intToStr(rang); - cout<1) - cout<<"resultat proc "< -#include -#include - -#ifdef LOCALIZED -#undef LOCALIZED -#endif - -#if defined(_DEBUG_) || defined(_DEBUG) -//# define LOCALIZED(message) #message , __FILE__ , __FUNCTION__ , __LINE__ -# define LOCALIZED(message) #message , __FUNCTION__ , __LINE__ -#else -# define LOCALIZED(message) #message -#endif - -namespace MEDPARTITIONER -{ - using namespace std; - using namespace ParaMEDMEM; - - string trim(string& s,const string& drop); - string intToStr(int i); - string doubleToStr(double i); - int strToInt(string s); - double strToDouble(string s); - bool testArg(const char *arg, const char *argExpected, string& argValue); - vector createRandomSize(int size); - void randomizeAdj(int* xadj, int* adjncy, vector& ran, vector& vx, vector& va); - void testRandomize(); - - string reprVectorOfString(const vector& vec); - string reprVectorOfString(const vector& vec, string sep); - string reprMapOfStringInt(const map& mymap); - string reprMapOfStringVectorOfString(const map< string,vector >& mymap); - string reprFieldDescriptions(const vector& vec, string sep); - - string serializeFromString(const string& s); - string serializeFromVectorOfString(const vector& vec); - vector deserializeToVectorOfString(const string& str); - string eraseTagSerialized(string fromStr, string tag); - - vector vectorizeFromMapOfStringInt(const map& mymap); - map devectorizeToMapOfStringInt(const vector& vec); - - vector vectorizeFromMapOfStringVectorOfString(const map< string,vector >& mymap); - map< string,vector > devectorizeToMapOfStringVectorOfString(const vector& vec); - - vector selectTagsInVectorOfString(const vector& vec, string tag); - vector deleteDuplicatesInVectorOfString(const vector& vec); - map< string,vector > deleteDuplicatesInMapOfStringVectorOfString(const map< string,vector >& mymap); - - string cle1ToStr(string s, int inew); - void cle1ToData(string cle, string& s, int& inew); - - string cle2ToStr(string s, int inew, int iold); - void cle2ToData(string cle, string& s, int& inew, int& iold); - - string extractFromDescription(string description, string tag); - void fieldDescriptionToData(string description, - int& idomain, string& fileName, string& meshName, string& fieldName, - int& typeField, int& DT, int& IT); - void fieldShortDescriptionToData(string description, - string& fieldName, int& typeField, int& entity, int& DT, int& IT); - - ParaMEDMEM::DataArrayInt* createDataArrayIntFromVector(vector& v); - ParaMEDMEM::DataArrayInt* createDataArrayIntFromVector(vector& v, int nbComponents); - ParaMEDMEM::DataArrayDouble* createDataArrayDoubleFromVector(vector& v); - - void sendVectorOfString(const vector& vec, const int target); - vector recvVectorOfString(const int source); - //TODO void sendrecvVectorOfString(const vector& vec, const int source, const int target); - vector sendAndReceiveVectorOfString(const vector& vec, const int source, const int target); - vector allgathervVectorOfString(const vector& vec); - - vector browseFieldDouble(const MEDCouplingFieldDouble* fd); - vector browseAllFields(const string& myfile); - vector browseAllFieldsOnMesh(const string& myfile, const string& mymesh, int idomain); - vector GetInfosOfField(const char *fileName, const char *meshName, int idomain ); - - void sendDoubleVec(const std::vector& vec, int target); - std::vector* recvDoubleVec(int source); - void recvDoubleVec(std::vector& vec, int source); - - void sendIntVec(const std::vector& vec, int target); - std::vector* recvIntVec(int source); - void recvIntVec(std::vector& vec, int source); - - void sendDataArrayInt(ParaMEDMEM::DataArrayInt* da, int target); - ParaMEDMEM::DataArrayInt* recvDataArrayInt(int source); - void sendDataArrayDouble(ParaMEDMEM::DataArrayDouble* da, int target); - ParaMEDMEM::DataArrayDouble* recvDataArrayDouble(int source); - - ParaMEDMEM::MEDCouplingUMesh* createEmptyMEDCouplingUMesh(); - - void testVectorOfStringMPI(); - void testMapOfStringIntMPI(); - void testMapOfStringVectorOfStringMPI(); - void testDataArrayMPI(); - void testPersistantMpi0To1(int taille, int nb); - void testPersistantMpiRing(int taille, int nb); - void testPersistantMpiRingOnCommSplit(int taille, int nb); - - class MyGlobals - { - public : static int _verbose; //0 to 1000 over 200 is debug - public : static int _rank; - public : static int _world_size; - public : static int _randomize; - public : static int _atomize; - public : static int _creates_boundary_faces; - public : static int _is0verbose; //cout if rank 0 and verbose - public : static vector _fileNames; //on [iold] - public : static vector _meshNames; //on [iold] - public : static vector _fieldDescriptions; - //used for descriptions of components of fields for example... - public : static vector _generalInformations; - - }; - - /*int MyGlobals::_verbose=0; - int MyGlobals::_is0verbose=0; - int MyGlobals::_rank=-1; - int MyGlobals::_world_size=-1;*/ -} -#endif /*MEDPARTITIONER_UTILS_HXX_*/ diff --git a/src/MEDPartitioner/Makefile.am b/src/MEDPartitioner/Makefile.am index b7f36c185..34256d2a8 100644 --- a/src/MEDPartitioner/Makefile.am +++ b/src/MEDPartitioner/Makefile.am @@ -1,23 +1,22 @@ -# Copyright (C) 2007-2010 CEA/DEN, EDF R&D +# Copyright (C) 2007-2011 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. +# 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. # -# This library 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. +# This library 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 this library; if not, write to the Free Software -# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA +# You should have received a copy of the GNU Lesser General Public +# License along with this library; if not, write to the Free Software +# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA # -# See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com -# -# MED : MED files in memory +# See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com # + include $(top_srcdir)/adm_local/unix/make_common_starter.am # this directory must be recompiled before Test folder @@ -29,35 +28,33 @@ endif lib_LTLIBRARIES= libmedpartitioner.la salomeinclude_HEADERS= \ -MEDPARTITIONER_MESHCollection.hxx \ -MEDPARTITIONER_MESHCollectionMedXMLDriver.H \ -MEDPARTITIONER_MESHCollectionMedAsciiDriver.H \ -MEDPARTITIONER_MESHCollectionDriver.hxx \ -MEDPARTITIONER_MESHCollectionMedXMLDriver.hxx \ -MEDPARTITIONER_MESHCollectionMedAsciiDriver.hxx \ +MEDPARTITIONER_MeshCollection.hxx \ +MEDPARTITIONER_MeshCollectionDriver.hxx \ +MEDPARTITIONER_MeshCollectionMedXmlDriver.hxx \ +MEDPARTITIONER_MeshCollectionMedAsciiDriver.hxx \ MEDPARTITIONER_ParallelTopology.hxx \ MEDPARTITIONER_JointFinder.hxx \ MEDPARTITIONER_Graph.hxx\ MEDPARTITIONER_UserGraph.hxx\ -MEDPARTITIONER_utils.hxx \ +MEDPARTITIONER_Utils.hxx \ MEDPARTITIONER.hxx \ MEDPARTITIONER_ParaDomainSelector.hxx \ MEDPARTITIONER_ConnectZone.hxx \ MEDPARTITIONER_SkyLineArray.hxx if MED_ENABLE_METIS - salomeinclude_HEADERS+= MEDPARTITIONER_METISGraph.hxx + salomeinclude_HEADERS+= MEDPARTITIONER_MetisGraph.hxx endif if MED_ENABLE_SCOTCH - salomeinclude_HEADERS+= MEDPARTITIONER_SCOTCHGraph.hxx + salomeinclude_HEADERS+= MEDPARTITIONER_ScotchGraph.hxx endif dist_libmedpartitioner_la_SOURCES= \ -MEDPARTITIONER_utils.cxx \ -MEDPARTITIONER_MESHCollection.cxx \ -MEDPARTITIONER_MESHCollectionDriver.cxx \ -MEDPARTITIONER_MESHCollectionMedXMLDriver.cxx \ -MEDPARTITIONER_MESHCollectionMedAsciiDriver.cxx \ +MEDPARTITIONER_Utils.cxx \ +MEDPARTITIONER_MeshCollection.cxx \ +MEDPARTITIONER_MeshCollectionDriver.cxx \ +MEDPARTITIONER_MeshCollectionMedXmlDriver.cxx \ +MEDPARTITIONER_MeshCollectionMedAsciiDriver.cxx \ MEDPARTITIONER_ParallelTopology.cxx \ MEDPARTITIONER_Graph.cxx\ MEDPARTITIONER_UserGraph.cxx\ @@ -67,10 +64,10 @@ MEDPARTITIONER_SkyLineArray.cxx \ MEDPARTITIONER_ConnectZone.cxx if MED_ENABLE_METIS - dist_libmedpartitioner_la_SOURCES+= MEDPARTITIONER_METISGraph.cxx + dist_libmedpartitioner_la_SOURCES+= MEDPARTITIONER_MetisGraph.cxx endif if MED_ENABLE_SCOTCH - dist_libmedpartitioner_la_SOURCES+= MEDPARTITIONER_SCOTCHGraph.cxx + dist_libmedpartitioner_la_SOURCES+= MEDPARTITIONER_ScotchGraph.cxx endif libmedpartitioner_la_CPPFLAGS= $(MPI_INCLUDES) $(MED3_INCLUDES) $(HDF5_INCLUDES) @CXXTMPDPTHFLAGS@ \ @@ -79,8 +76,6 @@ libmedpartitioner_la_CPPFLAGS= $(MPI_INCLUDES) $(MED3_INCLUDES) $(HDF5_INCLUDES) -I$(srcdir)/../MEDLoader -I$(srcdir)/../INTERP_KERNEL libmedpartitioner_la_LDFLAGS= -#libmedpartitioner_la_LDFLAGS= $(MED2_LIBS) $(HDF5_LIBS) $(STDLIB) $(LIBXML_LIBS) \ -# ../MEDMEM/libmedmem.la ../MEDWrapper/V2_1/Core/libmed_V2_1.la if MED_ENABLE_PARMETIS libmedpartitioner_la_CPPFLAGS+= $(PARMETIS_CPPFLAGS) @@ -99,31 +94,24 @@ if MED_ENABLE_KERNEL libmedpartitioner_la_LDFLAGS+= ${KERNEL_LDFLAGS} -lSALOMELocalTrace endif -#libmedpartitioner_la_LDFLAGS+= $(MED2_LIBS) $(HDF5_LIBS) $(STDLIB) $(LIBXML_LIBS) $(MPI_LIBS) \ -# ../MEDMEM/libmedmem.la ../INTERP_KERNEL/libinterpkernel.la ../MEDCoupling/libmedcoupling.la ../MEDLoader/libmedloader.la libmedpartitioner_la_LDFLAGS+= $(MED2_LIBS) $(HDF5_LIBS) $(STDLIB) $(LIBXML_LIBS) $(MPI_LIBS) \ ../INTERP_KERNEL/libinterpkernel.la ../MEDCoupling/libmedcoupling.la ../MEDLoader/libmedloader.la -# Executables targets -bin_PROGRAMS= medpartitioner - -dist_medpartitioner_SOURCES= medpartitioner.cxx - medpartitioner_CPPFLAGS= $(libmedpartitioner_la_CPPFLAGS) medpartitioner_LDADD= $(libmedpartitioner_la_LDFLAGS) -lm $(BOOST_LIBS) libmedpartitioner.la + if MED_ENABLE_KERNEL medpartitioner_LDADD+= -lSALOMEBasics endif +# Executables targets if MPI_IS_OK - bin_PROGRAMS+=medpartitioner_para + bin_PROGRAMS= medpartitioner_para dist_medpartitioner_para_SOURCES= medpartitioner_para.cxx medpartitioner_para_CPPFLAGS= $(medpartitioner_CPPFLAGS) medpartitioner_para_LDADD= $(medpartitioner_LDADD) endif -OBSOLETE_FILES = \ - MEDPARTITIONER_SequentialTopology.cxx \ - test_HighLevelAPI.cxx +OBSOLETE_FILES = EXTRA_DIST += $(OBSOLETE_FILES) diff --git a/src/MEDPartitioner/Test/MEDPARTITIONERTest.cxx b/src/MEDPartitioner/Test/MEDPARTITIONERTest.cxx index 7b8bde6cc..4be16f918 100644 --- a/src/MEDPartitioner/Test/MEDPARTITIONERTest.cxx +++ b/src/MEDPartitioner/Test/MEDPARTITIONERTest.cxx @@ -17,7 +17,6 @@ // See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com // - #include #include #include @@ -28,8 +27,6 @@ //#include "MEDPARTITIONERTest.hxx" #include -//#include "MEDMEM_STRING.hxx" - #include "MEDPARTITIONERTest.hxx" #include "CellModel.hxx" @@ -42,39 +39,30 @@ #include "MEDCouplingMemArray.hxx" #include "MEDCouplingMultiFields.hxx" -#include "MEDPARTITIONER_MESHCollection.hxx" -//#include "MEDPARTITIONER_Topology.hxx" +#include "MEDPARTITIONER_MeshCollection.hxx" #include "MEDPARTITIONER_ParallelTopology.hxx" #include "MEDPARTITIONER_ParaDomainSelector.hxx" -#include "MEDPARTITIONER_utils.hxx" +#include "MEDPARTITIONER_Utils.hxx" #ifdef HAVE_MPI2 #include #endif using namespace std; -//using namespace MEDPARTITIONER; using namespace ParaMEDMEM; using namespace MEDPARTITIONER; -/*string intToStr(int i) -{ - ostringstream oss; - oss<_ni=ni; //nb of hexa9 this->_nj=nj; this->_nk=nk; this->_ntot=_ni*_nj*_nk; - string ijk=intToStr(ni)+"x"+intToStr(nj)+"x"+intToStr(nk); + string ijk=IntToStr(ni)+"x"+IntToStr(nj)+"x"+IntToStr(nk); this->_fileName="tmp_testMesh_"+ijk+".med"; this->_fileNameWithFaces="tmp_testMeshWithFaces_"+ijk+".med"; - string ij=intToStr(ni)+"x"+intToStr(nj); + string ij=IntToStr(ni)+"x"+IntToStr(nj); this->_fileName2="tmp_testMesh_"+ij+".med"; this->_meshName="testMesh"; } @@ -102,7 +90,7 @@ void MEDPARTITIONERTest::setbigSize() // ============================================================================ void MEDPARTITIONERTest::setUp() { - this->_verbose=0; + this->_verbose=100; } // ============================================================================ @@ -120,46 +108,46 @@ ParaMEDMEM::MEDCouplingUMesh * MEDPARTITIONERTest::buildCUBE3DMesh() vector conn; vector coor; for (int k=0; k<=_nk; k++) - for (int j=0; j<=_nj; j++) - for (int i=0; i<=_ni; i++) - { - coor.push_back(i+.1); - coor.push_back(j+.2); - coor.push_back(k+.3); - } + for (int j=0; j<=_nj; j++) + for (int i=0; i<=_ni; i++) + { + coor.push_back(i+.1); + coor.push_back(j+.2); + coor.push_back(k+.3); + } int ii; for (int k=0; k<_nk; k++) - for (int j=0; j<_nj; j++) - for (int i=0; i<_ni; i++) - { - ii=i + j*(_ni+1) + k*(_ni+1)*(_nj+1); - conn.push_back(ii); - conn.push_back(ii+1); - ii=ii + _ni + 2 ; - conn.push_back(ii); - conn.push_back(ii-1); + for (int j=0; j<_nj; j++) + for (int i=0; i<_ni; i++) + { + ii=i + j*(_ni+1) + k*(_ni+1)*(_nj+1); + conn.push_back(ii); + conn.push_back(ii+1); + ii=ii + _ni + 2 ; + conn.push_back(ii); + conn.push_back(ii-1); - ii=i + j*(_ni+1) + (k+1)*(_ni+1)*(_nj+1); - conn.push_back(ii); - conn.push_back(ii+1); - ii=ii + _ni + 2 ; - conn.push_back(ii); - conn.push_back(ii-1); - } + ii=i + j*(_ni+1) + (k+1)*(_ni+1)*(_nj+1); + conn.push_back(ii); + conn.push_back(ii+1); + ii=ii + _ni + 2 ; + conn.push_back(ii); + conn.push_back(ii-1); + } if (false) //(_verbose) - { - cout<<"\nnb coor "<<(_ni+1)*(_nj+1)*(_nk+1)*3<<" "<setMeshDimension(3); @@ -167,16 +155,16 @@ ParaMEDMEM::MEDCouplingUMesh * MEDPARTITIONERTest::buildCUBE3DMesh() int nbv=coor.size()/3; //nb of vertices mesh->allocateCells(nbc); for(int i=0; iinsertNextCell(INTERP_KERNEL::NORM_HEXA8,8,onehexa); } - mesh->insertNextCell(INTERP_KERNEL::NORM_HEXA8,8,onehexa); - } mesh->finishInsertingCells(); DataArrayDouble *myCoords=DataArrayDouble::New(); myCoords->alloc(nbv,3); @@ -194,39 +182,39 @@ ParaMEDMEM::MEDCouplingUMesh * MEDPARTITIONERTest::buildCARRE3DMesh() vector conn; vector coor; for (int j=0; j<=_nj; j++) - for (int i=0; i<=_ni; i++) - { - int k=j; - coor.push_back(i+.1); - coor.push_back(j+.2); - coor.push_back(k+.3); - } + for (int i=0; i<=_ni; i++) + { + int k=j; + coor.push_back(i+.1); + coor.push_back(j+.2); + coor.push_back(k+.3); + } int ii; int k=0; for (int j=0; j<_nj; j++) - for (int i=0; i<_ni; i++) - { - ii=i + j*(_ni+1) + k*(_ni+1)*(_nj+1); - conn.push_back(ii); - conn.push_back(ii+1); - ii=ii + _ni + 2 ; - conn.push_back(ii); - conn.push_back(ii-1); - } + for (int i=0; i<_ni; i++) + { + ii=i + j*(_ni+1) + k*(_ni+1)*(_nj+1); + conn.push_back(ii); + conn.push_back(ii+1); + ii=ii + _ni + 2 ; + conn.push_back(ii); + conn.push_back(ii-1); + } if (false) //(_verbose) - { - cout<<"\nnb coor "<<(_ni+1)*(_nj+1)*3<<" "<setMeshDimension(2); @@ -234,16 +222,16 @@ ParaMEDMEM::MEDCouplingUMesh * MEDPARTITIONERTest::buildCARRE3DMesh() int nbv=coor.size()/3; //nb of vertices mesh->allocateCells(nbc); for(int i=0; iinsertNextCell(INTERP_KERNEL::NORM_QUAD4,4,onequa); } - mesh->insertNextCell(INTERP_KERNEL::NORM_QUAD4,4,onequa); - } mesh->finishInsertingCells(); DataArrayDouble *myCoords=DataArrayDouble::New(); myCoords->alloc(nbv,3); @@ -261,39 +249,39 @@ ParaMEDMEM::MEDCouplingUMesh * MEDPARTITIONERTest::buildFACE3DMesh() vector conn; vector coor; for (int j=0; j<=_nj; j++) - for (int i=0; i<=_ni; i++) - { - int k=0; - coor.push_back(i+.1); - coor.push_back(j+.2); - coor.push_back(k+.3); - } + for (int i=0; i<=_ni; i++) + { + int k=0; + coor.push_back(i+.1); + coor.push_back(j+.2); + coor.push_back(k+.3); + } int ii; int k=0; for (int j=0; j<_nj; j++) - for (int i=0; i<_ni; i++) - { - ii=i + j*(_ni+1) + k*(_ni+1)*(_nj+1); - conn.push_back(ii); - conn.push_back(ii+1); - ii=ii + _ni + 2 ; - conn.push_back(ii); - conn.push_back(ii-1); - } + for (int i=0; i<_ni; i++) + { + ii=i + j*(_ni+1) + k*(_ni+1)*(_nj+1); + conn.push_back(ii); + conn.push_back(ii+1); + ii=ii + _ni + 2 ; + conn.push_back(ii); + conn.push_back(ii-1); + } if (false) //(_verbose) - { - cout<<"\nnb coor "<<(_ni+1)*(_nj+1)*3<<" "<setMeshDimension(2); @@ -301,16 +289,16 @@ ParaMEDMEM::MEDCouplingUMesh * MEDPARTITIONERTest::buildFACE3DMesh() int nbv=coor.size()/3; //nb of vertices mesh->allocateCells(nbc); for(int i=0; iinsertNextCell(INTERP_KERNEL::NORM_QUAD4,4,onequa); } - mesh->insertNextCell(INTERP_KERNEL::NORM_QUAD4,4,onequa); - } mesh->finishInsertingCells(); DataArrayDouble *myCoords=DataArrayDouble::New(); myCoords->alloc(nbv,3); @@ -327,13 +315,13 @@ MEDCouplingFieldDouble * MEDPARTITIONERTest::buildVecFieldOnCells(string myfileN //int ni=2,nj=3,nk=5; //nb of hexa9 vector field; for (int k=0; k<_nk; k++) - for (int j=0; j<_nj; j++) - for (int i=0; i<_ni; i++) - { - field.push_back(i+.1); - field.push_back(j+.2); - field.push_back(k+.3); - } + for (int j=0; j<_nj; j++) + for (int i=0; i<_ni; i++) + { + field.push_back(i+.1); + field.push_back(j+.2); + field.push_back(k+.3); + } //cvwat MEDCouplingUMesh *mesh=MEDLoader::ReadUMeshFromFile(myfileName.c_str(),_meshName.c_str(),0); int nbOfCells=mesh->getNumberOfCells(); @@ -360,13 +348,13 @@ MEDCouplingFieldDouble * MEDPARTITIONERTest::buildVecFieldOnNodes() //int ni=2,nj=3,nk=5; //nb of hexa9 vector field; for (int k=0; k<=_nk; k++) - for (int j=0; j<=_nj; j++) - for (int i=0; i<=_ni; i++) - { - field.push_back(i+.1); - field.push_back(j+.2); - field.push_back(k+.3); - } + for (int j=0; j<=_nj; j++) + for (int i=0; i<=_ni; i++) + { + field.push_back(i+.1); + field.push_back(j+.2); + field.push_back(k+.3); + } MEDCouplingUMesh *mesh=MEDLoader::ReadUMeshFromFile(_fileName.c_str(),_meshName.c_str(),0); int nbOfNodes=mesh->getNumberOfNodes(); @@ -392,83 +380,83 @@ MEDCouplingFieldDouble * MEDPARTITIONERTest::buildVecFieldOnNodes() void MEDPARTITIONERTest::createTestMeshWithoutField() { { - MEDCouplingUMesh * mesh = buildCUBE3DMesh(); - MEDLoader::WriteUMesh(_fileName.c_str(),mesh,true); - if (_verbose) cout<getName(),0); - if (_verbose) cout<<_fileName<<" reread"<isEqual(mesh_rw,1e-12)); - mesh_rw->decrRef(); - } - mesh->decrRef(); + MEDCouplingUMesh * mesh = buildCUBE3DMesh(); + MEDLoader::WriteUMesh(_fileName.c_str(),mesh,true); + if (_verbose) cout<getName(),0); + if (_verbose) cout<<_fileName<<" reread"<isEqual(mesh_rw,1e-12)); + mesh_rw->decrRef(); + } + mesh->decrRef(); } { - vector meshes; - MEDCouplingUMesh * mesh1 = buildCUBE3DMesh(); - MEDCouplingUMesh * mesh2 = buildFACE3DMesh(); - mesh1->setName("testMesh"); - mesh2->setName("theFaces"); - mesh2->tryToShareSameCoordsPermute(*mesh1, 1e-9); - mesh2->checkCoherency(); - mesh1->checkCoherency(); - meshes.push_back(mesh1); - meshes.push_back(mesh2); - MEDLoader::WriteUMeshes(_fileNameWithFaces.c_str(), meshes, true); + vector meshes; + MEDCouplingUMesh * mesh1 = buildCUBE3DMesh(); + MEDCouplingUMesh * mesh2 = buildFACE3DMesh(); + mesh1->setName("testMesh"); + mesh2->setName("theFaces"); + mesh2->tryToShareSameCoordsPermute(*mesh1, 1e-9); + mesh2->checkCoherency(); + mesh1->checkCoherency(); + meshes.push_back(mesh1); + meshes.push_back(mesh2); + MEDLoader::WriteUMeshes(_fileNameWithFaces.c_str(), meshes, true); - ParaMEDMEM::MEDFileUMesh* mfm=ParaMEDMEM::MEDFileUMesh::New(_fileNameWithFaces.c_str(), mesh1->getName()); - DataArrayInt* FacesFam=DataArrayInt::New(); - FacesFam->alloc(mfm->getSizeAtLevel(-1),1); - FacesFam->fillWithValue(-1); - DataArrayInt* CellsFam=DataArrayInt::New(); - CellsFam->alloc(mfm->getSizeAtLevel(0),1); - CellsFam->fillWithValue(1); - mfm->setFamilyFieldArr(-1,FacesFam); - mfm->setFamilyFieldArr(0,CellsFam); - map theFamilies; - theFamilies["FAMILLE_ZERO"]=0; - theFamilies["FamilyFaces"]=-1; - theFamilies["FamilyCells"]=1; - map > theGroups; - theGroups["GroupFaces"].push_back("FamilyFaces"); - theGroups["GroupCells"].push_back("FamilyCells"); - mfm->setFamilyInfo(theFamilies); - mfm->setGroupInfo(theGroups); - mfm->write(_fileNameWithFaces.c_str(),0); - FacesFam->decrRef(); - CellsFam->decrRef(); + ParaMEDMEM::MEDFileUMesh* mfm=ParaMEDMEM::MEDFileUMesh::New(_fileNameWithFaces.c_str(), mesh1->getName()); + DataArrayInt* FacesFam=DataArrayInt::New(); + FacesFam->alloc(mfm->getSizeAtLevel(-1),1); + FacesFam->fillWithValue(-1); + DataArrayInt* CellsFam=DataArrayInt::New(); + CellsFam->alloc(mfm->getSizeAtLevel(0),1); + CellsFam->fillWithValue(1); + mfm->setFamilyFieldArr(-1,FacesFam); + mfm->setFamilyFieldArr(0,CellsFam); + map theFamilies; + theFamilies["FAMILLE_ZERO"]=0; + theFamilies["FamilyFaces"]=-1; + theFamilies["FamilyCells"]=1; + map > theGroups; + theGroups["GroupFaces"].push_back("FamilyFaces"); + theGroups["GroupCells"].push_back("FamilyCells"); + mfm->setFamilyInfo(theFamilies); + mfm->setGroupInfo(theGroups); + mfm->write(_fileNameWithFaces.c_str(),0); + FacesFam->decrRef(); + CellsFam->decrRef(); - /*ce truc marche pas! - ParaMEDMEM::MEDFileUMesh* mfm=ParaMEDMEM::MEDFileUMesh::New(_fileNameWithFaces.c_str(), mesh1->getName()); - vector ms; - ms.push_back(mesh2); - mfm->setGroupsFromScratch(-1, ms); - mfm->write(_fileNameWithFaces.c_str(),0); - */ + /*ce truc marche pas! + ParaMEDMEM::MEDFileUMesh* mfm=ParaMEDMEM::MEDFileUMesh::New(_fileNameWithFaces.c_str(), mesh1->getName()); + vector ms; + ms.push_back(mesh2); + mfm->setGroupsFromScratch(-1, ms); + mfm->write(_fileNameWithFaces.c_str(),0); + */ - if (_verbose) cout<getName(),0); - if (_verbose) cout<<_fileNameWithFaces<<" reread"<isEqual(mesh_rw,1e-12)); - mesh_rw->decrRef(); - } - mesh1->decrRef(); - mesh2->decrRef(); + if (_verbose) cout<getName(),0); + if (_verbose) cout<<_fileNameWithFaces<<" reread"<isEqual(mesh_rw,1e-12)); + mesh_rw->decrRef(); + } + mesh1->decrRef(); + mesh2->decrRef(); } { - MEDCouplingUMesh * mesh = buildCARRE3DMesh(); - MEDLoader::WriteUMesh(_fileName2.c_str(),mesh,true); - if (_verbose) cout<getName(),0); - if (_verbose) cout<<_fileName2<<" reread"<isEqual(mesh_rw,1e-12)); - mesh_rw->decrRef(); - mesh->decrRef(); + MEDCouplingUMesh * mesh = buildCARRE3DMesh(); + MEDLoader::WriteUMesh(_fileName2.c_str(),mesh,true); + if (_verbose) cout<getName(),0); + if (_verbose) cout<<_fileName2<<" reread"<isEqual(mesh_rw,1e-12)); + mesh_rw->decrRef(); + mesh->decrRef(); } } @@ -524,44 +512,44 @@ void MEDPARTITIONERTest::createHugeTestMesh(int ni, int nj, int nk, int nbx, int double dz=0.; for (int z=0; zgetCoords(); - //int nbOfComp=coords->getNumberOfComponents(); //be 3D - int nbOfTuple=coords->getNumberOfTuples(); - double* ptr=coords->getPointer(); - double* ptrini=ptrInit; - for (int i=0; igetCoords(); + //int nbOfComp=coords->getNumberOfComponents(); //be 3D + int nbOfTuple=coords->getNumberOfTuples(); + double* ptr=coords->getPointer(); + double* ptrini=ptrInit; + for (int i=0; idecrRef(); tagXml.replace(tagXml.find("$subdomainNumber"),16,sxyz); @@ -569,7 +557,7 @@ void MEDPARTITIONERTest::createHugeTestMesh(int ni, int nj, int nk, int nbx, int tagXml.replace(tagXml.find("$tagMesh"),8,tagMeshes); string nameFileXml; - _fileNameHugeXml="tmp_testMeshHuge_"+intToStr(_ni)+"x"+intToStr(_nj)+"x"+intToStr(_nk)+"_"+sxyz+".xml"; + _fileNameHugeXml="tmp_testMeshHuge_"+IntToStr(_ni)+"x"+IntToStr(_nj)+"x"+IntToStr(_nk)+"_"+sxyz+".xml"; std::ofstream f(_fileNameHugeXml.c_str()); f<setTime(3.,1,1); //time,it,order - f1->applyFunc("x/2."); - MEDLoader::WriteField(name.c_str(),f1,false); - if (_verbose) cout<getMesh()->getName(),0,f1->getName(),0,1); - //DataArrayDouble *res=f2->getArray(); - if (_verbose) cout<isEqual(f2,1e-12,1e-12)); - f2->decrRef(); - } - f1->decrRef(); + string name=_fileName; + MEDCouplingFieldDouble *f1=buildVecFieldOnCells(name); + name.replace(name.find(".med"),4,"_WithVecFieldOnCells.med"); + MEDLoader::WriteField(name.c_str(),f1,true); + f1->setTime(3.,1,1); //time,it,order + f1->applyFunc("x/2."); + MEDLoader::WriteField(name.c_str(),f1,false); + if (_verbose) cout<getMesh()->getName(),0,f1->getName(),0,1); + //DataArrayDouble *res=f2->getArray(); + if (_verbose) cout<isEqual(f2,1e-12,1e-12)); + f2->decrRef(); + } + f1->decrRef(); } { - string name=_fileName; - MEDCouplingFieldDouble *f1=buildVecFieldOnCells(name); - name.replace(name.find(".med"),4,"_WithVecFieldOnGaussNe.med"); - MEDCouplingFieldDouble *f3=MEDCouplingFieldDouble::New(ON_GAUSS_NE,ONE_TIME); - f3->setMesh(f1->getMesh()); - //cout<<"\nNumberOfMeshPlacesExpected "<getNumberOfMeshPlacesExpected()<<" " - // /*<getMesh())<<" "*/ - // <getMesh()->getNumberOfNodes()<<" " - // <getMesh()->getNumberOfCells()<setName("MyFieldOnGaussNE"); - f3->setDescription("MyDescriptionNE"); - DataArrayDouble *array=DataArrayDouble::New(); - //int nb=f1->getMesh()->getNumberOfNodes(); + string name=_fileName; + MEDCouplingFieldDouble *f1=buildVecFieldOnCells(name); + name.replace(name.find(".med"),4,"_WithVecFieldOnGaussNe.med"); + MEDCouplingFieldDouble *f3=MEDCouplingFieldDouble::New(ON_GAUSS_NE,ONE_TIME); + f3->setMesh(f1->getMesh()); + //cout<<"\nNumberOfMeshPlacesExpected "<getNumberOfMeshPlacesExpected()<<" " + // /*<getMesh())<<" "*/ + // <getMesh()->getNumberOfNodes()<<" " + // <getMesh()->getNumberOfCells()<setName("MyFieldOnGaussNE"); + f3->setDescription("MyDescriptionNE"); + DataArrayDouble *array=DataArrayDouble::New(); + //int nb=f1->getMesh()->getNumberOfNodes(); - /*8 pt de gauss by cell - int nb=f3->getMesh()->getNumberOfCells()*8; - array->alloc(nb,2); - double *ptr=array->getPointer(); - for (int i=0; igetMesh()->getNumberOfCells()*8; + array->alloc(nb,2); + double *ptr=array->getPointer(); + for (int i=0; igetMesh()->getNumberOfCells(); - int nb=nbcell*nbptgauss; - int nbcomp=2; - array->alloc(nb,nbcomp); - double *ptr=array->getPointer(); - int ii=0; - for (int i=0; igetMesh()->getNumberOfCells(); + int nb=nbcell*nbptgauss; + int nbcomp=2; + array->alloc(nb,nbcomp); + double *ptr=array->getPointer(); + int ii=0; + for (int i=0; isetInfoOnComponent(0,"vGx"); + array->setInfoOnComponent(1,"vGy"); + f3->setTime(4.,5,6); + f3->setArray(array); + array->decrRef(); + MEDLoader::WriteField(name.c_str(),f3,true); + if (_verbose) cout<checkCoherency(); + f1->decrRef(); + if (_ntot<1000000) //too long { - //123.4 for 12th cell,3rd component, 4th gausspoint - ptr[ii]=(double)((i+1)*10+(k+1))+((double)(j+1))/10.; - ii++; + MEDCouplingFieldDouble* f4=MEDLoader::ReadField(ON_GAUSS_NE, + name.c_str(), f3->getMesh()->getName(), 0, "MyFieldOnGaussNE", 5, 6); + if (_verbose) cout<<"MyFieldOnGaussNE reread"<decrRef(); } - array->setInfoOnComponent(0,"vGx"); - array->setInfoOnComponent(1,"vGy"); - f3->setTime(4.,5,6); - f3->setArray(array); - array->decrRef(); - MEDLoader::WriteField(name.c_str(),f3,true); - if (_verbose) cout<checkCoherency(); - f1->decrRef(); - if (_ntot<1000000) //too long - { - MEDCouplingFieldDouble* f4=MEDLoader::ReadField(ON_GAUSS_NE, - name.c_str(), f3->getMesh()->getName(), 0, "MyFieldOnGaussNE", 5, 6); - if (_verbose) cout<<"MyFieldOnGaussNE reread"<decrRef(); + f3->decrRef(); } - f3->decrRef(); - } - { - string name=_fileNameWithFaces; - MEDCouplingFieldDouble *f1=buildVecFieldOnCells(name); - name.replace(name.find(".med"),4,"_WithVecFieldOnCells.med"); - MEDLoader::WriteField(name.c_str(),f1,true); - if (_verbose) cout<getMesh()->getName(),0,f1->getName(),0,1); - if (_verbose) cout<isEqual(f2,1e-12,1e-12)); assertion failed!! - f2->decrRef(); - } - f1->decrRef(); + string name=_fileNameWithFaces; + MEDCouplingFieldDouble *f1=buildVecFieldOnCells(name); + name.replace(name.find(".med"),4,"_WithVecFieldOnCells.med"); + MEDLoader::WriteField(name.c_str(),f1,true); + if (_verbose) cout<getMesh()->getName(),0,f1->getName(),0,1); + if (_verbose) cout<isEqual(f2,1e-12,1e-12)); assertion failed!! + f2->decrRef(); + } + f1->decrRef(); } } @@ -681,12 +669,12 @@ void MEDPARTITIONERTest::createTestMeshWithVecFieldOnNodes() MEDLoader::WriteField(name.c_str(),f1,true); if (_verbose) cout<getMesh()->getName(),0,f1->getName(),0,1); - if (_verbose) cout<isEqual(f2,1e-12,1e-12)); assertion failed!! - f2->decrRef(); - } + { + MEDCouplingFieldDouble *f2=MEDLoader::ReadFieldNode(name.c_str(),f1->getMesh()->getName(),0,f1->getName(),0,1); + if (_verbose) cout<isEqual(f2,1e-12,1e-12)); assertion failed!! + f2->decrRef(); + } f1->decrRef(); } @@ -697,16 +685,16 @@ void MEDPARTITIONERTest::verifyTestMeshWithVecFieldOnNodes() MEDCouplingUMesh * m=MEDLoader::ReadUMeshFromFile(name.c_str(),_meshName.c_str(),0); const std::set& types=m->getAllTypes(); if (_verbose) - { - cout<<"\n types in "<::iterator t=types.begin(); t!=types.end(); ++t) cout<<" "<<*t; - for (std::set::iterator t=types.begin(); t!=types.end(); ++t) { - //INTERP_KERNEL::CellModel essai=INTERP_KERNEL::CellModel::GetCellModel(*t); - cout<<" "<<(INTERP_KERNEL::CellModel::GetCellModel(*t)).getRepr(); + cout<<"\n types in "<::iterator t=types.begin(); t!=types.end(); ++t) cout<<" "<<*t; + for (std::set::iterator t=types.begin(); t!=types.end(); ++t) + { + //INTERP_KERNEL::CellModel essai=INTERP_KERNEL::CellModel::GetCellModel(*t); + cout<<" "<<(INTERP_KERNEL::CellModel::GetCellModel(*t)).getRepr(); + } + cout<decrRef(); MEDFileUMesh * mf; @@ -714,11 +702,11 @@ void MEDPARTITIONERTest::verifyTestMeshWithVecFieldOnNodes() vector lev; lev=mf->getNonEmptyLevels(); if (_verbose) - { - cout<<" levels in "<::iterator l=lev.begin(); l!=lev.end(); ++l) cout<<" "<<*l; - cout<::iterator l=lev.begin(); l!=lev.end(); ++l) cout<<" "<<*l; + cout<decrRef(); } @@ -738,18 +726,18 @@ void MEDPARTITIONERTest::verifyMedpartitionerOnSmallSizeForMesh() sourceName=fileName; targetName=fileName; targetName.replace(targetName.find(".med"),4,"_partitionedTo5_"); - cmd+=" --input-file="+sourceName+" --output-file="+targetName+" --verbose="+intToStr(_verbose); + cmd+=" --input-file="+sourceName+" --output-file="+targetName+" --verbose="+IntToStr(_verbose); if (_verbose) cout<cellMeshes=collection.getMesh(); CPPUNIT_ASSERT_EQUAL(5, (int) cellMeshes.size()); @@ -768,7 +756,7 @@ void MEDPARTITIONERTest::verifyMedpartitionerOnSmallSizeForMesh() sourceName=targetName+".xml"; targetName=fileName; targetName.replace(targetName.find(".med"),4,"_remergedFrom5_"); - cmd+=" --input-file="+sourceName+" --output-file="+targetName+" --verbose="+intToStr(_verbose); + cmd+=" --input-file="+sourceName+" --output-file="+targetName+" --verbose="+IntToStr(_verbose); if (_verbose) cout<getNumberOfCells(), refusedFaceMesh->getNumberOfCells()); /*not the good job - ParaMEDMEM::MEDCouplingMesh* mergeCell=cellMesh->mergeMyselfWith(refusedCellMesh); - CPPUNIT_ASSERT_EQUAL(cellMesh->getNumberOfCells(), mergeCell->getNumberOfCells()); + ParaMEDMEM::MEDCouplingMesh* mergeCell=cellMesh->mergeMyselfWith(refusedCellMesh); + CPPUNIT_ASSERT_EQUAL(cellMesh->getNumberOfCells(), mergeCell->getNumberOfCells()); - ParaMEDMEM::MEDCouplingMesh* mergeFace=faceMesh->mergeMyselfWith(refusedFaceMesh); - CPPUNIT_ASSERT_EQUAL(faceMesh->getNumberOfCells(), mergeFace->getNumberOfCells()); + ParaMEDMEM::MEDCouplingMesh* mergeFace=faceMesh->mergeMyselfWith(refusedFaceMesh); + CPPUNIT_ASSERT_EQUAL(faceMesh->getNumberOfCells(), mergeFace->getNumberOfCells()); - CPPUNIT_ASSERT(faceMesh->isEqual(refusedFaceMesh,1e-12)); + CPPUNIT_ASSERT(faceMesh->isEqual(refusedFaceMesh,1e-12)); */ std::vector meshes; @@ -836,7 +824,7 @@ void MEDPARTITIONERTest::verifyMedpartitionerOnSmallSizeForFieldOnCells() sourceName=fileName; targetName=fileName; targetName.replace(targetName.find(".med"),4,"_partitionedTo5_"); - cmd+=" --input-file="+sourceName+" --output-file="+targetName+" --verbose="+intToStr(_verbose); + cmd+=" --input-file="+sourceName+" --output-file="+targetName+" --verbose="+IntToStr(_verbose); if (_verbose) cout<reprZip(); - cout<<"\nf2 : "<reprZip(); //field2->advancedRepradvancedRepr(); - for (int i = 0; i < corr.size(); i++) cout<<"\ncorr "<reprZip(); + { + cout<<"\nf1 : "<reprZip(); + cout<<"\nf2 : "<reprZip(); //field2->advancedRepradvancedRepr(); + for (int i = 0; i < corr.size(); i++) cout<<"\ncorr "<reprZip(); - } + } int nbequal=0; int nbcomp=field1->getNumberOfComponents(); double* p1=f1->getPointer(); double* p2=f2->getPointer(); int* pc=corr[1]->getPointer(); for (int i = 0; i < nbcells; i++) - { - int i1=pc[i]*nbcomp; - int i2=i*nbcomp; - for (int j = 0; j < nbcomp; j++) { - if (p1[i1+j]==p2[i2+j]) nbequal++; - //cout<<" "<reprZip(); //123.4 for 12th cell,3rd component, 4th gausspoint - cout<<"\nf2 : "<reprZip(); //field2->advancedRepradvancedRepr(); - for (int i = 0; i < corr.size(); i++) cout<<"\ncorr "<reprZip(); + { + cout<<"\nf1 : "<reprZip(); //123.4 for 12th cell,3rd component, 4th gausspoint + cout<<"\nf2 : "<reprZip(); //field2->advancedRepradvancedRepr(); + for (int i = 0; i < corr.size(); i++) cout<<"\ncorr "<reprZip(); - } + } int nbequal=0; int nbptgauss=8; int nbcomp=field1->getNumberOfComponents(); @@ -974,15 +962,15 @@ void MEDPARTITIONERTest::verifyMedpartitionerOnSmallSizeForFieldOnGaussNe() double* p2=f2->getPointer(); int* pc=corr[1]->getPointer(); for (int i = 0; i < nbcells; i++) - { - int i1=pc[i]*nbcomp*nbptgauss; - int i2=i*nbcomp*nbptgauss; - for (int j = 0; j < nbcomp*nbptgauss; j++) { - if (p1[i1+j]==p2[i2+j]) nbequal++; - //cout<<" "< -namespace po=boost::program_options; -#endif - -#include -#include -#include -#include -#include - -#include "MEDPARTITIONER_Graph.hxx" -#include "MEDPARTITIONER_MESHCollection.hxx" -#include "MEDPARTITIONER_Topology.hxx" - -using namespace std; - -int main(int argc, char** argv) -{ -#ifndef ENABLE_METIS -#ifndef ENABLE_SCOTCH - cout << "Sorry, no one split method is available. Please, compile with METIS or SCOTCH."<(),"name of the input MED file") - ("output-file",po::value(),"name of the resulting file") - ("meshname",po::value(),"name of the input mesh") -#ifdef ENABLE_METIS -#ifdef ENABLE_SCOTCH - ("split-method",po::value(&library)->default_value("metis"),"name of the splitting library (metis,scotch)") -#endif -#endif - ("ndomains",po::value(&ndomains)->default_value(1),"number of subdomains in the output file") - ("plain-master","creates a plain masterfile instead of an XML file") - ("creates-boundary-faces","creates the necessary faces so that faces joints are created in the output files") - ("family-splitting","preserves the family names instead of focusing on the groups") - ("empty-groups","creates empty groups in zones that do not contain a group from the original domain"); - - po::variables_map vm; - po::store(po::parse_command_line(argc,argv,desc),vm); - po::notify(vm); - - if (vm.count("help")) - { - cout<(); - if (!vm.count("input-file") || !vm.count("output-file")) - { - cout << "input-file and output-file names must be specified"<(); - output = vm["output-file"].as(); - - if (vm.count("mesh-only")) - mesh_only=true; - - if (vm.count("distributed")) - is_sequential=false; - - if (is_sequential) - meshname = vm["meshname"].as(); - - if (vm.count("plain-master")) - xml_output_master=false; - - if (vm.count("creates-boundary-faces")) - creates_boundary_faces=true; - - if (vm.count("split-families")) - split_families=true; - - if (vm.count("empty-groups")) - empty_groups=true; - -#else // BOOST_PROGRAM_OPTIONS_LIB - - // Primitive parsing of command-line options - - string desc ("Available options of medpartitioner V1.0:\n" - "\t--help : produces this help message\n" - "\t--mesh-only : do not create the fields contained in the original file(s)\n" - "\t--distributed : specifies that the input file is distributed\n" - "\t--input-file= : name of the input MED file\n" - "\t--output-file= : name of the resulting file\n" - "\t--meshname= : name of the input mesh (not used with --distributed option)\n" - "\t--ndomains= : number of subdomains in the output file, default is 1\n" -#ifdef ENABLE_METIS -#ifdef ENABLE_SCOTCH - "\t--split-method=: name of the splitting library (metis/scotch), default is metis\n" -#endif -#endif - "\t--plain-master : creates a plain masterfile instead of an XML file\n" - "\t--creates-boundary-faces: creates the necessary faces so that faces joints are created in the output files\n" - "\t--family-splitting : preserves the family names instead of focusing on the groups\n" - "\t--empty-groups : creates empty groups in zones that do not contain a group from the original domain" - ); - - if (argc < 4) { - cout << desc.c_str() << endl; - return 1; - } - - for (int i = 1; i < argc; i++) { - if (strlen(argv[i]) < 3) { - cout << desc.c_str() << endl; - return 1; - } - - if (strncmp(argv[i],"--m",3) == 0) { - if (strcmp(argv[i],"--mesh-only") == 0) { - mesh_only = true; - cout << "\tmesh-only = " << mesh_only << endl; // tmp - } - else if (strlen(argv[i]) > 11) { // "--meshname=" - meshname = (argv[i] + 11); - cout << "\tmeshname = " << meshname << endl; // tmp - } - } - else if (strncmp(argv[i],"--d",3) == 0) { - is_sequential = false; - cout << "\tis_sequential = " << is_sequential << endl; // tmp - } - else if (strncmp(argv[i],"--i",3) == 0) { - if (strlen(argv[i]) > 13) { // "--input-file=" - input = (argv[i] + 13); - cout << "\tinput-file = " << input << endl; // tmp - } - } - else if (strncmp(argv[i],"--o",3) == 0) { - if (strlen(argv[i]) > 14) { // "--output-file=" - output = (argv[i] + 14); - cout << "\toutput-file = " << output << endl; // tmp - } - } - else if (strncmp(argv[i],"--s",3) == 0) { - if (strlen(argv[i]) > 15) { // "--split-method=" - library = (argv[i] + 15); - cout << "\tsplit-method = " << library << endl; // tmp - } - } - else if (strncmp(argv[i],"--f",3) == 0) { //"--family-splitting" - split_families=true; - cout << "\tfamily-splitting true" << endl; // tmp - } - else if (strncmp(argv[i],"--n",3) == 0) { - if (strlen(argv[i]) > 11) { // "--ndomains=" - ndomains = atoi(argv[i] + 11); - cout << "\tndomains = " << ndomains << endl; // tmp - } - } - else if (strncmp(argv[i],"--p",3) == 0) { // "--plain-master" - xml_output_master = false; - cout << "\txml_output_master = " << xml_output_master << endl; // tmp - } - else if (strncmp(argv[i],"--c",3) == 0) { // "--creates-boundary-faces" - creates_boundary_faces = true; - cout << "\tcreates_boundary_faces = " << creates_boundary_faces << endl; // tmp - } - else if (strncmp(argv[i],"--e",3) == 0) { // "--empty-groups" - empty_groups = true; - cout << "\tempty_groups = true" << endl; // tmp - } - else { - cout << desc.c_str() << endl; - return 1; - } - } - - if (is_sequential && meshname.empty()) { - cout << "Mesh name must be given for sequential(not distributed) input file." << endl; - cout << desc << endl; - return 1; - } - -#endif // BOOST_PROGRAM_OPTIONS_LIB - - - //testing whether it is possible to write a file at the specified location - string outputtest = output + ".testioms."; - ofstream testfile (outputtest.c_str()); - if (testfile.fail()) - { - cout << "MEDPARTITIONER : output-file directory does not exist or is in read-only access" << endl; - return 1; - }; - //deletes test file - remove(outputtest.c_str()); - - // Beginning of the computation - - // Loading the mesh collection - MEDPARTITIONER::MESHCollection* collection; - cout << "MEDPARTITIONER : reading input files "<createPartition(ndomains,MEDPARTITIONER::Graph::METIS); - else - new_topo = collection->createPartition(ndomains,MEDPARTITIONER::Graph::SCOTCH); - - cout << "MEDPARTITIONER : creating new meshes"<