MeshDistributor.cc 60.8 KB
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//
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// Software License for AMDiS
//
// Copyright (c) 2010 Dresden University of Technology 
// All rights reserved.
// Authors: Simon Vey, Thomas Witkowski et al.
//
// This file is part of AMDiS
//
// See also license.opensource.txt in the distribution.


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#include <algorithm>
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#include <iostream>
#include <fstream>
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#include <limits>
#include <stdint.h>
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#include <boost/lexical_cast.hpp>
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#include <boost/filesystem.hpp>

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#include "parallel/MeshDistributor.h"
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#include "parallel/MeshManipulation.h"
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#include "parallel/ParallelDebug.h"
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#include "parallel/StdMpi.h"
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#include "parallel/ParMetisPartitioner.h"
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#include "io/ElementFileWriter.h"
#include "io/MacroInfo.h"
#include "io/VtkWriter.h"
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#include "Mesh.h"
#include "Traverse.h"
#include "ElInfo.h"
#include "Element.h"
#include "MacroElement.h"
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#include "DOFMatrix.h"
#include "DOFVector.h"
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#include "SystemVector.h"
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#include "ElementDofIterator.h"
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#include "ProblemStatBase.h"
#include "StandardProblemIteration.h"
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#include "VertexVector.h"
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#include "MeshStructure.h"
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#include "ProblemVec.h"
#include "ProblemInstat.h"
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#include "Debug.h"
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namespace AMDiS {

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  using boost::lexical_cast;
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  using namespace boost::filesystem;
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  using namespace std;
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  inline bool cmpDofsByValue(const DegreeOfFreedom* dof1, const DegreeOfFreedom* dof2)
  {
    return (*dof1 < *dof2);
  }

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  MeshDistributor::MeshDistributor(string str)
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    : probStat(0),
      name(str),
      feSpace(NULL),
      mesh(NULL),
      refineManager(NULL),
      info(10),
      partitioner(NULL),
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      nRankDofs(0),
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      nOverallDofs(0),
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      rstart(0),
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      deserialized(false),
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      writeSerializationFile(false),
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      repartitioningAllowed(false),
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      repartitionIthChange(20),
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      nMeshChangesAfterLastRepartitioning(0),
      repartitioningCounter(0),
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      debugOutputDir(""),
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      lastMeshChangeIndex(0)
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  {
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    FUNCNAME("MeshDistributor::ParalleDomainBase()");
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    mpiRank = MPI::COMM_WORLD.Get_rank();
    mpiSize = MPI::COMM_WORLD.Get_size();
    mpiComm = MPI::COMM_WORLD;
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    int tmp = 0;
    GET_PARAMETER(0, name + "->repartitioning", "%d", &tmp);
    repartitioningAllowed = (tmp > 0);
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    GET_PARAMETER(0, name + "->debug output dir", &debugOutputDir);
    GET_PARAMETER(0, name + "->repartition ith change", "%d", &repartitionIthChange);
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    tmp = 0;
    GET_PARAMETER(0, name + "->log main rank", "%d", &tmp);
    Msg::outputMainRank = (tmp > 0);
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  }

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  void MeshDistributor::initParallelization()
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  {
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    FUNCNAME("MeshDistributor::initParallelization()");
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    TEST_EXIT(mpiSize > 1)
      ("Parallelization does not work with only one process!\n");

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    TEST_EXIT(feSpace)("No FE space has been defined for the mesh distributor!\n");
    TEST_EXIT(mesh)("No mesh has been defined for the mesh distributor!\n");
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    elObjects.setFeSpace(feSpace);

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    // If the problem has been already read from a file, we need only to set
    // isRankDofs to all matrices and rhs vector and to remove periodic 
    // boundary conditions (if there are some).
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    if (deserialized) {
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      updateMacroElementInfo();

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      setRankDofs();
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      removePeriodicBoundaryConditions();
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      macroElIndexMap.clear();
      macroElIndexTypeMap.clear();
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      map<int, bool>& elementInRank = partitioner->getElementInRank();
      for (vector<MacroElement*>::iterator it = allMacroElements.begin();
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	   it != allMacroElements.end(); ++it) {
	elementInRank[(*it)->getIndex()] = false;
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	macroElIndexMap[(*it)->getIndex()] = (*it)->getElement();
	macroElIndexTypeMap[(*it)->getIndex()] = (*it)->getElType();
      }

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      for (deque<MacroElement*>::iterator it = mesh->getMacroElements().begin();
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	   it != mesh->getMacroElements().end(); ++it)
	elementInRank[(*it)->getIndex()] = true;      

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      return;
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    }
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    // Test, if the mesh is the macro mesh only! Paritioning of the mesh is supported
    // only for macro meshes, so it will not work yet if the mesh is already refined
    // in some way.
    testForMacroMesh();

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    // For later mesh repartitioning, we need to store some information about the
    // macro mesh.
    createMacroElementInfo();

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    // create an initial partitioning of the mesh
    partitioner->createPartitionData();
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    // set the element weights, which are 1 at the very first begin
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    setInitialElementWeights();
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    // and now partition the mesh    
    partitioner->fillCoarsePartitionVec(&oldPartitionVec);
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    bool partitioningSucceed = partitioner->partition(elemWeights, INITIAL);
    TEST_EXIT(partitioningSucceed)("Initial partitioning does not work!\n");

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    partitioner->fillCoarsePartitionVec(&partitionVec);

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#if (DEBUG != 0)
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    debug::ElementIdxToDofs elMap;
    debug::createSortedDofs(mesh, elMap);
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    if (mpiRank == 0) {
      int writePartMesh = 1;
      GET_PARAMETER(0, "dbg->write part mesh", "%d", &writePartMesh);
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      if (writePartMesh > 0) {
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	debug::writeElementIndexMesh(mesh, debugOutputDir + "elementIndex.vtu");
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	ParallelDebug::writePartitioning(*this, debugOutputDir + "part.vtu");
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      }
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    }
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#endif
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    // === Create interior boundary information. ===
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    createInteriorBoundaryInfo();
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#if (DEBUG != 0)
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    ParallelDebug::printBoundaryInfo(*this);
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#endif

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    for (deque<MacroElement*>::iterator it = mesh->firstMacroElement();
	 it != mesh->endOfMacroElements(); ++it) {
      for (int i = 0; i < mesh->getGeo(NEIGH); i++) {
	if ((*it)->getNeighbour(i) && 
	    mesh->isPeriodicAssociation((*it)->getBoundary(i))) {
	  (*it)->getNeighbour(i)->setNeighbour((*it)->getOppVertex(i), NULL);
	  (*it)->setNeighbour(i, NULL);
	  (*it)->setBoundary(i, 0);

	  macroElementNeighbours[(*it)->getIndex()][i] = -1;
	}
      }
    }

    for (vector<MacroElement*>::iterator it = allMacroElements.begin();
	 it != allMacroElements.end(); ++it) {
      for (int i = 0; i < mesh->getGeo(NEIGH); i++) {
	if ((*it)->getNeighbour(i) && 
	    mesh->isPeriodicAssociation((*it)->getBoundary(i))) {
	  (*it)->getNeighbour(i)->setNeighbour((*it)->getOppVertex(i), NULL);
	  (*it)->setNeighbour(i, NULL);
	  (*it)->setBoundary(i, 0);

	  macroElementNeighbours[(*it)->getIndex()][i] = -1;
	}
      }
    }
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    // === Remove all macro elements that are not part of the rank partition. ===

    removeMacroElements();
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    // === Create new global and local DOF numbering. ===

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    // We have to remove the VertexVectors, which contain periodic assoiciations, 
    // because they are not valid anymore after some macro elements have been removed
    // and the corresponding DOFs were deleted.
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    for (map<BoundaryType, VertexVector*>::iterator it = mesh->getPeriodicAssociations().begin();
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	 it != mesh->getPeriodicAssociations().end(); ++it)
      const_cast<DOFAdmin&>(mesh->getDofAdmin(0)).removeDOFContainer(dynamic_cast<DOFContainer*>(it->second));
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    updateLocalGlobalNumbering();
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    // === If in debug mode, make some tests. ===

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#if (DEBUG != 0)
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    MSG("AMDiS runs in debug mode, so make some test ...\n");
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    ParallelDebug::testAllElements(*this);
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    debug::testSortedDofs(mesh, elMap);
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    ParallelDebug::testInteriorBoundary(*this);
    ParallelDebug::testCommonDofs(*this, true);
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    ParallelDebug::testGlobalIndexByCoords(*this);
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    debug::writeMesh(feSpace, -1, debugOutputDir + "macro_mesh");   
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    MSG("Debug mode tests finished!\n");
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#endif
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    // === Create periodic dof mapping, if there are periodic boundaries. ===

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    createPeriodicMap();
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    // === Global refinements. ===
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    int globalRefinement = 0;
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    GET_PARAMETER(0, mesh->getName() + "->global refinements", "%d", &globalRefinement);
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    if (globalRefinement > 0) {
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      refineManager->globalRefine(mesh, globalRefinement);
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      updateLocalGlobalNumbering();
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      // === Update periodic mapping, if there are periodic boundaries. ===     

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      createPeriodicMap();
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    }
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    /// === Set DOF rank information to all matrices and vectors. ===

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    setRankDofs();
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    // === Remove periodic boundary conditions in sequential problem definition. ===

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    removePeriodicBoundaryConditions();
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  }

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  void MeshDistributor::addProblemStat(ProblemVec *probVec)
  {
    FUNCNAME("MeshDistributor::addProblemVec()");

    if (feSpace != NULL) {
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      vector<FiniteElemSpace*> feSpaces = probVec->getFeSpaces();
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      for (unsigned int i = 0; i < feSpaces.size(); i++) {
	TEST_EXIT(feSpace == feSpaces[i])
	  ("Parallelizaton is not supported for multiple FE spaces!\n");
      }
    } else {
      feSpace = probVec->getFeSpace(0);
      mesh = feSpace->getMesh();
      info = probVec->getInfo();
      
      TEST_EXIT(mesh->getNumberOfDOFAdmin() == 1)
	("Only meshes with one DOFAdmin are supported!\n");
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      TEST_EXIT(mesh->getDofAdmin(0).getNumberOfPreDofs(VERTEX) == 0)
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	("Wrong pre dof number for DOFAdmin!\n");
      
      switch (mesh->getDim()) {
      case 2:
	refineManager = new RefinementManager2d();
	break;
      case 3:
	refineManager = new RefinementManager3d();
	break;
      default:
	ERROR_EXIT("This should not happen for dim = %d!\n", mesh->getDim());
      }

      partitioner = new ParMetisPartitioner(mesh, &mpiComm);
    }

    // Create parallel serialization file writer, if needed.
    int writeSerialization = 0;
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    GET_PARAMETER(0, probVec->getName() + "->output->write serialization", "%d", 
		  &writeSerialization);
    if (writeSerialization && !writeSerializationFile) {
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      string filename = "";
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      GET_PARAMETER(0, name + "->output->serialization filename", &filename);
      
      TEST_EXIT(filename != "")
	("No filename defined for parallel serialization file!\n");
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      int tsModulo = -1;
      GET_PARAMETER(0, probVec->getName() + "->output->write every i-th timestep", 
		    "%d", &tsModulo);
      
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      probVec->getFileWriterList().push_back(new Serializer<MeshDistributor>(this, filename, tsModulo));
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      writeSerializationFile = true;
    }    
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    int readSerialization = 0;
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    GET_PARAMETER(0, probVec->getName() + "->input->read serialization", "%d", 
		  &readSerialization);
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    if (readSerialization) {
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      string filename = "";
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      GET_PARAMETER(0, probVec->getName() + "->input->serialization filename", &filename);
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      filename += ".p" + lexical_cast<string>(mpiRank);
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      MSG("Start deserialization with %s\n", filename.c_str());
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      ifstream in(filename.c_str());
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      TEST_EXIT(!in.fail())("Could not open deserialization file: %s\n",
			    filename.c_str());

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      probVec->deserialize(in);
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      in.close();
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      MSG("Deserialization from file: %s\n", filename.c_str());

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      filename = "";
      GET_PARAMETER(0, name + "->input->serialization filename", &filename);
      
      TEST_EXIT(filename != "")
	("No filename defined for parallel deserialization file!\n");
      
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      string rankFilename = filename + ".p" + lexical_cast<string>(mpiRank);
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      in.open(rankFilename.c_str());
      
      TEST_EXIT(!in.fail())("Could not open parallel deserialization file: %s\n",
			    filename.c_str());
      
      deserialize(in);
      in.close();
      MSG("Deserializtion of mesh distributor from file: %s\n", rankFilename.c_str());
      deserialized = true;
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    }

    probStat.push_back(probVec);
  }


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  void MeshDistributor::exitParallelization()
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  {}
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  void MeshDistributor::testForMacroMesh()
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  {
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    FUNCNAME("MeshDistributor::testForMacroMesh()");
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    int nMacroElements = 0;

    TraverseStack stack;
    ElInfo *elInfo = stack.traverseFirst(mesh, -1, Mesh::CALL_LEAF_EL);
    while (elInfo) {
      TEST_EXIT(elInfo->getLevel() == 0)
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	("Mesh is already refined! This does not work with parallelization!\n");
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      TEST_EXIT(elInfo->getType() == 0)
	("Only macro elements with level 0 are supported!\n");
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      nMacroElements++;

      elInfo = stack.traverseNext(elInfo);
    }

    TEST_EXIT(nMacroElements >= mpiSize)
      ("The mesh has less macro elements than number of mpi processes!\n");
  }

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  void MeshDistributor::synchVector(DOFVector<double> &vec)
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  {
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    StdMpi<vector<double> > stdMpi(mpiComm);
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    for (RankToDofContainer::iterator sendIt = sendDofs.begin();
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	 sendIt != sendDofs.end(); ++sendIt) {
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      vector<double> dofs;
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      int nSendDofs = sendIt->second.size();
      dofs.reserve(nSendDofs);
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      for (int i = 0; i < nSendDofs; i++)
	dofs.push_back(vec[*((sendIt->second)[i])]);
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      stdMpi.send(sendIt->first, dofs);
    }

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    for (RankToDofContainer::iterator recvIt = recvDofs.begin();
	 recvIt != recvDofs.end(); ++recvIt)
      stdMpi.recv(recvIt->first, recvIt->second.size());
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    stdMpi.startCommunication();
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    for (RankToDofContainer::iterator recvIt = recvDofs.begin();
	 recvIt != recvDofs.end(); ++recvIt)
      for (unsigned int i = 0; i < recvIt->second.size(); i++)
	vec[*(recvIt->second)[i]] = stdMpi.getRecvData(recvIt->first)[i];
  }
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  void MeshDistributor::synchVector(SystemVector &vec)
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  {
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    int nComponents = vec.getSize();
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    StdMpi<vector<double> > stdMpi(mpiComm);
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    for (RankToDofContainer::iterator sendIt = sendDofs.begin();
	 sendIt != sendDofs.end(); ++sendIt) {
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      vector<double> dofs;
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      int nSendDofs = sendIt->second.size();
      dofs.reserve(nComponents * nSendDofs);
      
      for (int i = 0; i < nComponents; i++) {
	DOFVector<double> *dofvec = vec.getDOFVector(i);
	for (int j = 0; j < nSendDofs; j++)
	  dofs.push_back((*dofvec)[*((sendIt->second)[j])]);
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      }

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      stdMpi.send(sendIt->first, dofs);
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    }

    for (RankToDofContainer::iterator recvIt = recvDofs.begin();
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	 recvIt != recvDofs.end(); ++recvIt)
      stdMpi.recv(recvIt->first, recvIt->second.size() * nComponents);
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    stdMpi.startCommunication();
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    for (RankToDofContainer::iterator recvIt = recvDofs.begin();
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	 recvIt != recvDofs.end(); ++recvIt) {
      int nRecvDofs = recvIt->second.size();
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      int counter = 0;
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      for (int i = 0; i < nComponents; i++) {
	DOFVector<double> *dofvec = vec.getDOFVector(i);
 	for (int j = 0; j < nRecvDofs; j++)
	  (*dofvec)[*(recvIt->second)[j]] = 
	    stdMpi.getRecvData(recvIt->first)[counter++];
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      }
    }
  }

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  void MeshDistributor::setRankDofs()
  {
    for (unsigned int i = 0; i < probStat.size(); i++) {
      int nComponents = probStat[i]->getNumComponents();
      for (int j = 0; j < nComponents; j++) {
	for (int k = 0; k < nComponents; k++)
	  if (probStat[i]->getSystemMatrix(j, k))
	    probStat[i]->getSystemMatrix(j, k)->setRankDofs(isRankDof);

	TEST_EXIT_DBG(probStat[i]->getRhs()->getDOFVector(j))("No RHS vector!\n");
	TEST_EXIT_DBG(probStat[i]->getSolution()->getDOFVector(j))("No solution vector!\n");
	
	probStat[i]->getRhs()->getDOFVector(j)->setRankDofs(isRankDof);
	probStat[i]->getSolution()->getDOFVector(j)->setRankDofs(isRankDof);
      }
    }
  }


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  void MeshDistributor::removePeriodicBoundaryConditions()
  {
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    FUNCNAME("MeshDistributor::removePeriodicBoundaryConditions()");

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    // Remove periodic boundaries in boundary manager on matrices and vectors.
    for (unsigned int i = 0; i < probStat.size(); i++) {
      int nComponents = probStat[i]->getNumComponents();

      for (int j = 0; j < nComponents; j++) {
	for (int k = 0; k < nComponents; k++) {
	  DOFMatrix* mat = probStat[i]->getSystemMatrix(j, k);
	  if (mat && mat->getBoundaryManager())
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	    removePeriodicBoundaryConditions(const_cast<BoundaryIndexMap&>(mat->getBoundaryManager()->getBoundaryConditionMap()));
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	}
	
	if (probStat[i]->getSolution()->getDOFVector(j)->getBoundaryManager())
	  removePeriodicBoundaryConditions(const_cast<BoundaryIndexMap&>(probStat[i]->getSolution()->getDOFVector(j)->getBoundaryManager()->getBoundaryConditionMap()));
	
	if (probStat[i]->getRhs()->getDOFVector(j)->getBoundaryManager())
	  removePeriodicBoundaryConditions(const_cast<BoundaryIndexMap&>(probStat[i]->getRhs()->getDOFVector(j)->getBoundaryManager()->getBoundaryConditionMap()));
      }
    }

    // Remove periodic boundaries on elements in mesh.
    TraverseStack stack;
    ElInfo *elInfo = stack.traverseFirst(mesh,  -1, Mesh::CALL_EVERY_EL_PREORDER);
    while (elInfo) {
      elInfo->getElement()->deleteElementData(PERIODIC);
      elInfo = stack.traverseNext(elInfo);
    }    
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    // Remove periodic vertex associations
    mesh->getPeriodicAssociations().clear();
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  }


  void MeshDistributor::removePeriodicBoundaryConditions(BoundaryIndexMap& boundaryMap)
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  {
    BoundaryIndexMap::iterator it = boundaryMap.begin();
    while (it != boundaryMap.end()) {
      if (it->second->isPeriodic())
	boundaryMap.erase(it++);
      else
	++it;      
    }    
  }


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  void MeshDistributor::checkMeshChange()
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  {
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    FUNCNAME("MeshDistributor::checkMeshChange()");
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    double first = MPI::Wtime();

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    // === If mesh has not been changed on all ranks, return. ===

    int recvAllValues = 0;
    int sendValue = static_cast<int>(mesh->getChangeIndex() != lastMeshChangeIndex);
    mpiComm.Allreduce(&sendValue, &recvAllValues, 1, MPI_INT, MPI_SUM);
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    if (recvAllValues == 0)
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      return;

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    // === At least one rank mesh has been changed, so the boundaries must be ===
    // === adapted to the new mesh structure.                                 ===
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    do {
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      bool meshChanged = false;

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      // To check the interior boundaries, the ownership of the boundaries is not 
      // important. Therefore, we add all boundaries to one boundary container.
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      RankToBoundMap allBound;
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      for (InteriorBoundary::iterator it(myIntBoundary); !it.end(); ++it)
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	if ((mesh->getDim() == 2 && it->rankObj.subObj == EDGE) || 
	    (mesh->getDim() == 3 && it->rankObj.subObj == FACE))
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 	  allBound[it.getRank()].push_back(*it);
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      for (InteriorBoundary::iterator it(otherIntBoundary); !it.end(); ++it)
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	if ((mesh->getDim() == 2 && it->rankObj.subObj == EDGE) || 
	    (mesh->getDim() == 3 && it->rankObj.subObj == FACE))
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	  allBound[it.getRank()].push_back(*it);
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      for (InteriorBoundary::iterator it(periodicBoundary); !it.end(); ++it) {
	if (it.getRank() == mpiRank) {
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	  if ((mesh->getDim() == 2 && it->rankObj.subObj == EDGE) || 
	      (mesh->getDim() == 3 && it->rankObj.subObj == FACE)) {
	    MeshStructure elCode;
	    elCode.init(it->rankObj);
	    
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	    MeshManipulation mm(feSpace);
	    meshChanged |= !(mm.fitElementToMeshCode(elCode, it->neighObj));
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	  }
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	} else {
	  if ((mesh->getDim() == 2 && it->rankObj.subObj == EDGE) || 
	      (mesh->getDim() == 3 && it->rankObj.subObj == FACE))
	    allBound[it.getRank()].push_back(*it);	
	}
      }
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      // === Check the boundaries and adapt mesh if necessary. ===
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#if (DEBUG != 0)
      MSG("Run checkAndAdaptBoundary ...\n");
#endif

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      meshChanged |= checkAndAdaptBoundary(allBound);
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      // === Check on all ranks if at least one rank's mesh has changed. ===

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      int sendValue = static_cast<int>(meshChanged);
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      recvAllValues = 0;
      mpiComm.Allreduce(&sendValue, &recvAllValues, 1, MPI_INT, MPI_SUM);
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#if (DEBUG != 0)
      MSG("Mesh changed on %d ranks!\n", recvAllValues);
#endif
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    } while (recvAllValues != 0);
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#if (DEBUG != 0)
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    debug::writeMesh(feSpace, -1, debugOutputDir + "mesh");
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#endif

    // === Because the mesh has been changed, update the DOF numbering and mappings. ===
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    updateLocalGlobalNumbering();

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    // === Update periodic mapping, if there are periodic boundaries. ===

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    createPeriodicMap();
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    INFO(info, 8)("Parallel mesh adaption needed %.5f seconds\n", 
		  MPI::Wtime() - first);


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    // === The mesh has changed, so check if it is required to repartition the mesh. ===

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    nMeshChangesAfterLastRepartitioning++;
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    if (repartitioningAllowed && 
	nMeshChangesAfterLastRepartitioning >= repartitionIthChange) {
      repartitionMesh();
      nMeshChangesAfterLastRepartitioning = 0;
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    }
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  }

  
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  bool MeshDistributor::checkAndAdaptBoundary(RankToBoundMap &allBound)
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  {
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    FUNCNAME("MeshDistributor::checkAndAdaptBoundary()");
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    // === Create mesh structure codes for all ranks boundary elements. ===
       
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    map<int, MeshCodeVec> sendCodes;
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    for (RankToBoundMap::iterator it = allBound.begin(); it != allBound.end(); ++it) {
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      for (vector<AtomicBoundary>::iterator boundIt = it->second.begin();
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	   boundIt != it->second.end(); ++boundIt) {
	MeshStructure elCode;
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	elCode.init(boundIt->rankObj);
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	sendCodes[it->first].push_back(elCode);
      }
    }

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    StdMpi<MeshCodeVec> stdMpi(mpiComm, true);
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    stdMpi.send(sendCodes);
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    for (RankToBoundMap::iterator it = allBound.begin(); it != allBound.end(); ++it)
      stdMpi.recv(it->first);
    stdMpi.startCommunication();
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    // === Compare received mesh structure codes. ===
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    bool meshChanged = false;
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    for (RankToBoundMap::iterator it = allBound.begin(); it != allBound.end(); ++it) {
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      MeshCodeVec &recvCodes = stdMpi.getRecvData()[it->first];
      int i = 0;
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      for (vector<AtomicBoundary>::iterator boundIt = it->second.begin();
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	   boundIt != it->second.end(); ++boundIt, i++) {
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	MeshStructure elCode;	
	elCode.init(boundIt->rankObj);
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	if (elCode.getCode() != recvCodes[i].getCode()) {
	  TEST_EXIT_DBG(refineManager)("Refinement manager is not set correctly!\n");
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	  MeshManipulation mm(feSpace);
	  meshChanged |= mm.fitElementToMeshCode(recvCodes[i], boundIt->rankObj);
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 	}
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      }
    }

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    return meshChanged;
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  }
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  void MeshDistributor::serialize(ostream &out, DofContainer &data)
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  {    
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    int vecSize = data.size();
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    SerUtil::serialize(out, vecSize);
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    for (int i = 0; i < vecSize; i++) {
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      int dofIndex = *(data[i]);
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      SerUtil::serialize(out, dofIndex);
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    }
  }


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  void MeshDistributor::deserialize(istream &in, DofContainer &data,
				    map<int, const DegreeOfFreedom*> &dofMap)
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  {
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    FUNCNAME("MeshDistributor::deserialize()");
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    int vecSize = 0;
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    SerUtil::deserialize(in, vecSize);
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    data.clear();
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    data.resize(vecSize);
    for (int i = 0; i < vecSize; i++) {
      int dofIndex = 0;
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      SerUtil::deserialize(in, dofIndex);
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      TEST_EXIT_DBG(dofMap.count(dofIndex) != 0)
	("Dof index could not be deserialized correctly!\n");

      data[i] = dofMap[dofIndex];
    }
  }


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  void MeshDistributor::serialize(ostream &out, RankToDofContainer &data)
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  {
    int mapSize = data.size();
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    SerUtil::serialize(out, mapSize);
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    for (RankToDofContainer::iterator it = data.begin(); it != data.end(); ++it) {
      int rank = it->first;
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      SerUtil::serialize(out, rank);
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      serialize(out, it->second);
    }
  }

  
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  void MeshDistributor::deserialize(istream &in, RankToDofContainer &data,
				    map<int, const DegreeOfFreedom*> &dofMap)
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  {
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    data.clear();

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    int mapSize = 0;
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    SerUtil::deserialize(in, mapSize);
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    for (int i = 0; i < mapSize; i++) {
      int rank = 0;
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      SerUtil::deserialize(in, rank);
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      deserialize(in, data[rank], dofMap);      
    }
  }

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  void MeshDistributor::setInitialElementWeights() 
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  {
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    FUNCNAME("MeshDistributor::setInitialElementWeights()");
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    elemWeights.clear();
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    string filename = "";
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    GET_PARAMETER(0, mesh->getName() + "->macro weights", &filename);
    if (filename != "") {
      MSG("Read macro weights from %s\n", filename.c_str());

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      ifstream infile;
      infile.open(filename.c_str(), ifstream::in);
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      while (!infile.eof()) {
	int elNum, elWeight;
	infile >> elNum;
	if (infile.eof())
	  break;
	infile >> elWeight;
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	elemWeights[elNum] = elWeight;
      }
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      infile.close();
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    } else {           
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      TraverseStack stack;
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      ElInfo *elInfo = stack.traverseFirst(mesh, -1, Mesh::CALL_LEAF_EL);
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      while (elInfo) {
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	elemWeights[elInfo->getElement()->getIndex()] = 1.0;
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	elInfo = stack.traverseNext(elInfo);
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      }
    }
  }

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  void MeshDistributor::repartitionMesh()
  {
    FUNCNAME("MeshDistributor::repartitionMesh()");

    TEST_EXIT(mesh->getNumberOfDOFAdmin() == 1)
      ("Only meshes with one DOFAdmin are supported!\n");

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    // === First we check if the rank with the maximum number of DOFs has at  ===
    // === least 20% more DOFs than the rank with the minimum number of DOFs. ===
    // === In this case, the mesh will be repartition.                        ===

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    int repartitioning = 0;

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    vector<int> nDofsInRank(mpiSize);
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    int nDofs = mesh->getDofAdmin(0).getUsedDofs();
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    mpiComm.Gather(&nDofs, 1, MPI_INT, &(nDofsInRank[0]), 1, MPI_INT, 0);

    if (mpiRank == 0) {
      int nOverallDofs = 0;
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      int minDofs = numeric_limits<int>::max();
      int maxDofs = numeric_limits<int>::min();
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      for (int i = 0; i < mpiSize; i++) {
	nOverallDofs += nDofsInRank[i];
	minDofs = std::min(minDofs, nDofsInRank[i]);
	maxDofs = std::max(maxDofs, nDofsInRank[i]);
      }      
     
      MSG("Overall DOFs: %d    Min DOFs: %d    Max DOFs: %d\n", 
	  nOverallDofs, minDofs, maxDofs);

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      if (static_cast<double>(maxDofs) / static_cast<double>(minDofs) > 1.2) 
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	repartitioning = 1;

      mpiComm.Bcast(&repartitioning, 1, MPI_INT, 0);
    } else {
      mpiComm.Bcast(&repartitioning, 1, MPI_INT, 0);
    }


    if (repartitioning == 0)
      return;

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    ParallelDebug::testDoubleDofs(mesh);

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    if (repartitioningCounter == 0)
      ParallelDebug::writePartitioningFile(debugOutputDir + "partitioning", 
					   repartitioningCounter, feSpace);
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#endif

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    // === Create new element weights. ===
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    elemWeights.clear();
    TraverseStack stack;
    ElInfo *elInfo = stack.traverseFirst(mesh, -1, Mesh::CALL_LEAF_EL);
    while (elInfo) {
      elemWeights[elInfo->getMacroElement()->getIndex()]++;      
      elInfo = stack.traverseNext(elInfo);
    }

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    // === Run ParMETiS to calculate a new mesh partitioning.  ===

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    partitioner->useLocalGlobalDofMap(&mapLocalGlobalDofs);
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    bool partitioningSucceed =
      partitioner->partition(elemWeights, ADAPTIVE_REPART, 1000.0);
    if (!partitioningSucceed) {
      MSG("ParMETIS created empty partition!\n");
      return;
    }
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    oldPartitionVec = partitionVec;


    // === Create map that maps macro element indices to pointers to the ===
    // === macro elements.                                               ===