ParallelDofMapping.h 13.6 KB
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// ============================================================================
// ==                                                                        ==
// == AMDiS - Adaptive multidimensional simulations                          ==
// ==                                                                        ==
// ==  http://www.amdis-fem.org                                              ==
// ==                                                                        ==
// ============================================================================
//
// 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.



/** \file FeSpaceMapping.h */

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#include <vector>
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#include <map>
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#include <set>
#include "parallel/DofComm.h"
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#include "parallel/MeshLevelData.h"
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#include "parallel/MpiHelper.h"
#include "parallel/ParallelTypes.h"
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#include "parallel/StdMpi.h"
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#ifndef AMDIS_FE_SPACE_MAPPING_H
#define AMDIS_FE_SPACE_MAPPING_H

namespace AMDiS {
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  using namespace std;

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  /** \brief
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   * Is used to store matrix indices to all DOFs in rank's subdomain. Thus, the
   * class defines a mapping from component number and DOF index to a global
   * matrix index. This class does not calculate the indices by itself!
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   */
  class DofToMatIndex
  {
  public:
    DofToMatIndex() {}

    /// Reset the data structure.
    inline void clear()
    {
      data.clear();
    }

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    /** Add a new mapping for a given DOF.
     * 
     * \param[in]   component       Component number for which the mapping 
     *                              is defined.
     * \param[in]   dof             DOF index
     * \param[in]   globalMatIndex  Global matrix index.
     */
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    inline void add(int component, DegreeOfFreedom dof, int globalMatIndex)
    {
      data[component][dof] = globalMatIndex;
    }

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    /// Maps a global DOF index to the global matrix index for a specific 
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    /// system component number.
    inline int get(int component, DegreeOfFreedom dof)
    {
      FUNCNAME("DofToMatIndex::get()");

      TEST_EXIT_DBG(data.count(component))
	("No mapping data for component %d available!\n", component);

      TEST_EXIT_DBG(data[component].count(dof))
	("Mapping for DOF %d in component %d does not exists!\n",
	 dof, component);

      return data[component][dof];
    }

  private:
    /// The mapping data. For each system component there is a specific map that
    /// maps global DOF indices to global matrix indices.
    map<int, map<DegreeOfFreedom, int> > data;
  };


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  /**
   * This class defines the parallel mapping of DOFs for one FE space. It is used
   * by the class \ref ParallelDofMapping to specifiy the mapping for a set of 
   * FE spaces.
   */
  class FeSpaceDofMap
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  {
  public:
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    /// This constructor exists only to create std::map of this class and make
    /// use of the operator [] for read access. Should never be called.
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    FeSpaceDofMap() 
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    {
      ERROR_EXIT("Should not be called!\n");
    }
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    /// This is the only valid constructur to be used. 
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    FeSpaceDofMap(MeshLevelData* ld)
      : levelData(ld),
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	dofComm(NULL),
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	feSpace(NULL),
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	dofMap(1),
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	needGlobalMapping(false),
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	hasNonLocalDofs(false),
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	nRankDofs(1),
	nLocalDofs(1),
	nOverallDofs(1),
	rStartDofs(1)
    {
      clear();
    }
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    /// Clears all data of the mapping.
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    void clear();
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#if 0    
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    /// Maps a DOF index to both, the local and global index of the mapping. The
    /// global index must not be set.
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    MultiIndex& operator[](DegreeOfFreedom d)
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    {
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      TEST_EXIT_DBG(dofMap[0].count(d))("Should not happen!\n");
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      return dofMap[0][d];
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    }
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#else
    DofMap& operator[](int level)
    {
      TEST_EXIT_DBG(level < static_cast<int>(dofMap.size()))("Should not happen!\n");
      
      return dofMap[level];
    }
#endif
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    /// Inserts a new DOF to rank's mapping. The DOF is assumed to be owend by
    /// the rank.
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    void insertRankDof(int level, DegreeOfFreedom dof0, DegreeOfFreedom dof1 = -1)
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    {
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      FUNCNAME("FeSpaceDofMap::insertRankDof()");
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      TEST_EXIT_DBG(dofMap[level].count(dof0) == 0)("Should not happen!\n");
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      dofMap[level][dof0].local = dof1;
      nLocalDofs[level]++;
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      if (dof1 != -1)
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	nRankDofs[level]++;
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    }
    
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    /// Inserts a new DOF to rank's mapping. The DOF exists in rank's subdomain
    /// but is owned by a different rank, thus it is part of an interior boundary.
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    void insertNonRankDof(int level, DegreeOfFreedom dof0, DegreeOfFreedom dof1 = -1)
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    {
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      FUNCNAME("FeSpaceDofMap::insertNonRankDof()");
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      TEST_EXIT_DBG(dofMap[level].count(dof0) == 0)("Should not happen!\n");
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      dofMap[level][dof0].local = dof1;
      nLocalDofs[level]++;
      nonRankDofs[level].insert(dof0);
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    }
    
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    /// Checks if a given DOF is in the DOF mapping.
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    bool isSet(DegreeOfFreedom dof, int level)
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    {
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      return static_cast<bool>(dofMap[level].count(dof));
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    }
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    /// Checks if a given DOF is a rank owned DOF of the DOF mapping. The DOF must
    /// a DOF of the mapping (this is not checked here), otherwise the result is
    /// meaningsless.
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    bool isRankDof(DegreeOfFreedom dof, int level)
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    {
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      return !(static_cast<bool>(nonRankDofs[level].count(dof)));
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    }
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    /// Returns number of DOFs in the mapping.
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    unsigned int size(int level)
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    {
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      return dofMap[level].size();
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    }
    
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    /// Returns the raw data of the mapping.
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    DofMap& getMap(int level)
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    {
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      return dofMap[level];
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    }
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    /// Recomputes the mapping.
    void update();
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    /// Sets the FE space this mapping corresponds to.
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    void setFeSpace(const FiniteElemSpace *fe)
    {
      feSpace = fe;
    }

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    /// Informs the mapping whether the mapping will include DOFs that are not
    /// owned by the rank.
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    void setNonLocalDofs(bool b)
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    {
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      hasNonLocalDofs = b;
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    }

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    /// Informs the mapping whether a global index must be computed.
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    void setNeedGlobalMapping(bool b)
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    {
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      needGlobalMapping = b;
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    }

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    /// Sets the DOF communicators.
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    void setDofComm(DofComm &dc)
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    {
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      dofComm = &dc;
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    }

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  private:
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    /// Computes a global mapping from the local one.
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    void computeGlobalMapping(int level);
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    /// Computes the global indices of all DOFs in the mapping that are not owned
    /// by the rank.
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    void computeNonLocalIndices(int level);
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  private:
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    MeshLevelData *levelData;
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    /// DOF communicator for all DOFs on interior boundaries.
    DofComm *dofComm;
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    /// The FE space this mapping belongs to. This is used only the get the
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    /// correct DOF communicator in \ref dofComm.
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    const FiniteElemSpace *feSpace;

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    /// Mapping data from DOF indices to local and global indices.
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    vector<DofMap> dofMap;
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    /// Set of all DOFs that are in mapping but are not owned by the rank.
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    vector<std::set<DegreeOfFreedom> > nonRankDofs;
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    /// If true, a global index mapping will be computed for all DOFs.
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    bool needGlobalMapping;
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    /// Is true if there are DOFs in at least one subdomain that are not owned
    /// by the rank. If the value is false, each rank contains only DOFs that
    /// are also owned by this rank.
    bool hasNonLocalDofs;
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  public:
    /// 
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    vector<int> nRankDofs, nLocalDofs, nOverallDofs, rStartDofs;
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  };
  
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  /**
   * Implements the mapping from sets of distributed DOF indices to local and
   * global indices. The mapping works for a given set of FE spaces. Furthermore,
   * this class may compute the matrix indices of the set of DOF indices.
   */
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  class ParallelDofMapping
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  {
  public:
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    ParallelDofMapping() 
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      : levelData(NULL),
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	hasNonLocalDofs(false),
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	needMatIndex(false),
	needMatIndexFromGlobal(false),
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	feSpaces(0),
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	nRankDofs(1),
	nLocalDofs(1),
	nOverallDofs(1),
	rStartDofs(1)
    {
      nRankDofs[0] = -1;
      nLocalDofs[0] = -1;
      nOverallDofs[0] = -1;
      rStartDofs[0] = -1;
    } 
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    /** \brief Initialize the parallel DOF mapping.
     *
     * \param[in]  m                  MPI communicator.
     * \param[in]  fe                 The FE spaces of all components of the 
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     *                                PDE to be solved.
     * \param[in]  uniqueFe           Unique list of FE spaces. Thus, two
     *                                arbitrary elements of this list are always
     *                                different.
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     * \param[in]  needGlobalMapping  If true, the mapping computes also a global
     *                                index for the DOFs.
     * \param[in]  bNonLocalDofs      If true, at least one rank's mapping con-
     *                                taines DOFs that are not owend by the rank.
     */
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    void init(MeshLevelData& mld,
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	      vector<const FiniteElemSpace*> &fe,
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	      vector<const FiniteElemSpace*> &uniqueFe,
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	      bool needGlobalMapping,
	      bool bNonLocalDofs);
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    /// Clear all data.
    void clear();
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    /// Set the DOF communicator objects that are required to exchange information
    /// about DOFs that are on interior boundaries.
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    void setDofComm(DofComm &dofComm);
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    void setComputeMatIndex(bool b, bool global = false)
    {
      needMatIndex = b;
      needMatIndexFromGlobal = global;
    }

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    /// Access the DOF mapping for a given FE space.
    inline FeSpaceDofMap& operator[](const FiniteElemSpace* feSpace)
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    {
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      FUNCNAME("ParallelDofMapping::operator[]()");
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      TEST_EXIT_DBG(data.count(feSpace))
	("No data for FE space at address %p!\n", feSpace);
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      return data.find(feSpace)->second;
    }

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    /// Returns \ref nRankDofs, thus the number of DOFs owned by the rank.
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    inline int getRankDofs(int level)
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    {
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      TEST_EXIT_DBG(nRankDofs[level] >= 0)("Should not happen!\n");
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      return nRankDofs[level];
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    }

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    /// Returns \ref nLocalDofs, thus the number of DOFs in ranks subdomain.
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    inline int getLocalDofs(int level)
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    {
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      TEST_EXIT_DBG(nLocalDofs[level] >= 0)("Should not happen!\n");
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      return nLocalDofs[level];
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    }

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    /// Returns \ref nOverallDofs, thus the number of all DOFs in this mapping.
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    inline int getOverallDofs(int level)
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    {
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      TEST_EXIT_DBG(nOverallDofs[level] >= 0)("Should not happen!\n");
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      return nOverallDofs[level];
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    }

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    /// Returns \ref rStartDofs, thus the smallest global index of a DOF that is
    /// owned by the rank.
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    inline int getStartDofs(int level)
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    {
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      TEST_EXIT_DBG(rStartDofs[level] >= 0)("Should not happen!\n");
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      return rStartDofs[level];
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    }

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    /// Update the mapping.
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    void update();
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    /// Update the mapping.
    void update(vector<const FiniteElemSpace*>& feSpaces);

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    /// Returns the global matrix index of a given DOF for a given 
    /// component number.
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    inline int getMatIndex(int level, int ithComponent, DegreeOfFreedom d)
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    {
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      return dofToMatIndex[level].get(ithComponent, d);
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    }

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    /// Returns the local matrix index of a given DOF for a given 
    /// component number.
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    inline int getLocalMatIndex(int level, int ithComponent, DegreeOfFreedom d)
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    {
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      FUNCNAME("ParallelDofMapping::getLocalMatIndex()");
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      TEST_EXIT_DBG(data[feSpaces[ithComponent]].isRankDof(d, level))
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	("Should not happen!\n");

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      return dofToMatIndex[level].get(ithComponent, d) - rStartDofs[level];
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    }

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    // Writes all data of this object to an output stream.
    void serialize(ostream &out)
    {
      ERROR_EXIT("MUST BE IMPLEMENTED!\n");
    }

    // Reads the object data from an input stream.
    void deserialize(istream &in)
    {
      ERROR_EXIT("MUST BE IMPLEMENTED!\n");
    }

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    /// Compute local and global matrix indices.
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    void computeMatIndex(bool globalIndex, int level);
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  protected:
    /// Insert a new FE space DOF mapping for a given FE space.
    void addFeSpace(const FiniteElemSpace* feSpace);

    /// Compute \ref nRankDofs.
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    int computeRankDofs(int level);
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    /// Compute \ref nLocalDofs.
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    int computeLocalDofs(int level);
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    /// Compute \ref nOverallDofs.
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    int computeOverallDofs(int level);
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    /// Compute \ref rStartDofs.
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    int computeStartDofs(int level);
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  private:
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    MeshLevelData *levelData;
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    /// DOF communicator for all DOFs on interior boundaries.
    DofComm *dofComm;
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    /// Is true if there are DOFs in at least one subdomain that are not owned
    /// by the rank. If the value is false, each rank contains only DOFs that
    /// are also owned by this rank.
    bool hasNonLocalDofs;
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    /// If true, matrix indeces for the stored DOFs are computed, see
    /// \ref computeMatIndex.
    bool needMatIndex;

    /// If matrix indices should be computed, this variable defines if the
    /// mapping from DOF indices to matrix row indices is defined on local
    /// or global DOF indices. If true, the mapping is to specify and to use
    /// on global ones, otherwise on local DOF indices.
    bool needMatIndexFromGlobal;

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    /// Maps from FE space pointers to DOF mappings.
    map<const FiniteElemSpace*, FeSpaceDofMap> data;

    /// The FE spaces for all components.
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    vector<const FiniteElemSpace*> feSpaces;

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    /// The set of all FE spaces. It uniquly contains all different FE spaces
    /// from \ref feSpaces.
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    vector<const FiniteElemSpace*> feSpacesUnique;
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    /// Number of DOFs owned by rank.
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    vector<int> nRankDofs;
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    /// Number of DOFs in rank's subdomain.
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    vector<int> nLocalDofs;
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    /// Number of global DOFs (this value is thus the same on all ranks).
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    vector<int> nOverallDofs;
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    /// Smallest global index of a DOF owned by the rank.
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    vector<int> rStartDofs;
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    /// Mapping from global DOF indices to global matrix indices under 
    /// consideration of possibly multiple components.
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    vector<DofToMatIndex> dofToMatIndex;
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  };

}

#endif