BoundaryManager.cc 5.61 KB
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#include "FiniteElemSpace.h"
#include "BoundaryManager.h"
#include "DOFIndexed.h"
#include "DOFVector.h"
#include "Traverse.h"
#include "BasisFunction.h"
#include "ElInfo.h"
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#include "OpenMP.h"
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namespace AMDiS {

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  std::map<BoundaryType, std::vector<BoundaryCondition*> > 
  BoundaryManager::globalBoundaryMap;

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  BoundaryManager::BoundaryManager(const FiniteElemSpace *feSpace)
  {
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    localBounds.resize(omp_get_overall_max_threads());
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    dofIndices.resize(omp_get_overall_max_threads());
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    allocatedMemoryLocalBounds = feSpace->getBasisFcts()->getNumber();
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    for (int i = 0; i < static_cast<int>(localBounds.size()); i++)
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      localBounds[i] = new BoundaryType[allocatedMemoryLocalBounds];
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  }

  BoundaryManager::BoundaryManager(BoundaryManager &bm)
  {
    localBCs = bm.localBCs;
    allocatedMemoryLocalBounds = bm.allocatedMemoryLocalBounds;
    localBounds.resize(bm.localBounds.size());
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    dofIndices.resize(bm.localBounds.size());
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    for (int i = 0; i < static_cast<int>(localBounds.size()); i++)
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      localBounds[i] = new BoundaryType[allocatedMemoryLocalBounds];
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  }

  BoundaryManager::~BoundaryManager()
  {
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    for (int i = 0; i < static_cast<int>(localBounds.size()); i++)
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      delete [] localBounds[i];
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  }

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  double BoundaryManager::boundResidual(ElInfo *elInfo, 
					DOFMatrix *matrix,
					const DOFVectorBase<double> *dv)
  {
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    double result = 0.0;
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    for (BoundaryIndexMap::iterator it = localBCs.begin(); it != localBCs.end(); ++it)
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      if ((*it).second)
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	result += (*it).second->boundResidual(elInfo, matrix, dv);
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    return result;
  }

  void BoundaryManager::fillBoundaryConditions(ElInfo *elInfo, 
					       DOFVectorBase<double> *vec)
  {
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    if (localBCs.size() > 0) {
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      const FiniteElemSpace *feSpace = vec->getFESpace();
      Vector<DegreeOfFreedom> &dofVec = dofIndices[omp_get_thread_num()];
      const BasisFunction *basisFcts = feSpace->getBasisFcts();
      int nBasFcts = basisFcts->getNumber();
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      // get boundaries of all DOFs
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      BoundaryType *localBound = localBounds[omp_get_thread_num()];
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      basisFcts->getBound(elInfo, localBound);
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      // get dof indices
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      basisFcts->getLocalIndicesVec(elInfo->getElement(), feSpace->getAdmin(), &dofVec);
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      // apply non dirichlet boundary conditions
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      for (BoundaryIndexMap::iterator it = localBCs.begin(); it != localBCs.end(); ++it)
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	if ((*it).second && !(*it).second->isDirichlet())
	  (*it).second->fillBoundaryCondition(vec, elInfo, &dofVec[0], 
					      localBound, nBasFcts);
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      // apply dirichlet boundary conditions
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      for (BoundaryIndexMap::iterator it = localBCs.begin(); it != localBCs.end(); ++it)
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	if ((*it).second && (*it).second->isDirichlet())
	  (*it).second->fillBoundaryCondition(vec, elInfo, &dofVec[0], 
					      localBound, nBasFcts);
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    }
  }

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  void BoundaryManager::fillBoundaryConditions(ElInfo *elInfo, DOFMatrix *mat)
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  {
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    if (localBCs.size() <= 0)
      return;
      
    const FiniteElemSpace *feSpace = mat->getRowFESpace();
    Vector<DegreeOfFreedom> &dofVec = dofIndices[omp_get_thread_num()];
    const BasisFunction *basisFcts = feSpace->getBasisFcts();
    int nBasFcts = basisFcts->getNumber();
    
    // get boundaries of all DOFs
    BoundaryType *localBound = localBounds[omp_get_thread_num()];
    basisFcts->getBound(elInfo, localBound);
    
    // get dof indices
    basisFcts->getLocalIndicesVec(elInfo->getElement(), 
				  feSpace->getAdmin(), &dofVec);
    
    // apply non dirichlet boundary conditions
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    for (BoundaryIndexMap::iterator it = localBCs.begin(); it != localBCs.end(); ++it)
      if ((*it).second && !(*it).second->isDirichlet())
	(*it).second->fillBoundaryCondition(mat, elInfo, &dofVec[0], 
					    localBound, nBasFcts);
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    // apply dirichlet boundary conditions
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    for (BoundaryIndexMap::iterator it = localBCs.begin(); it != localBCs.end(); ++it)
      if ((*it).second && (*it).second->isDirichlet())
	(*it).second->fillBoundaryCondition(mat, elInfo, &dofVec[0], 
					    localBound, nBasFcts);
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  }

  void BoundaryManager::initMatrix(DOFMatrix *matrix)
  {
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    for (BoundaryIndexMap::iterator it = localBCs.begin(); it != localBCs.end(); ++it)
      if ((*it).second && !(*it).second->isDirichlet())
	(*it).second->initMatrix(matrix);
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    for (BoundaryIndexMap::iterator it = localBCs.begin(); it != localBCs.end(); ++it)
      if ((*it).second && (*it).second->isDirichlet())
	(*it).second->initMatrix(matrix);
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  }

  void BoundaryManager::exitMatrix(DOFMatrix *matrix)
  {
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    for (BoundaryIndexMap::iterator it = localBCs.begin(); it != localBCs.end(); ++it)
      if ((*it).second && !(*it).second->isDirichlet())
	(*it).second->exitMatrix(matrix);
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    for (BoundaryIndexMap::iterator it = localBCs.begin(); it != localBCs.end(); ++it)
      if ((*it).second && (*it).second->isDirichlet())
	(*it).second->exitMatrix(matrix);
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  }

  void BoundaryManager::initVector(DOFVectorBase<double> *vector)
  {
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    for (BoundaryIndexMap::iterator it = localBCs.begin(); it != localBCs.end(); ++it)
      if ((*it).second && !(*it).second->isDirichlet())
	(*it).second->initVector(vector);
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    for (BoundaryIndexMap::iterator it = localBCs.begin(); it != localBCs.end(); ++it)
      if ((*it).second && (*it).second->isDirichlet())
	(*it).second->initVector(vector);
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  }

  void BoundaryManager::exitVector(DOFVectorBase<double> *vector)
  {
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    for (BoundaryIndexMap::iterator it = localBCs.begin(); it != localBCs.end(); ++it)
      if ((*it).second && !(*it).second->isDirichlet())
	(*it).second->exitVector(vector);
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    for (BoundaryIndexMap::iterator it = localBCs.begin(); it != localBCs.end(); ++it)
      if ((*it).second && (*it).second->isDirichlet())
	(*it).second->exitVector(vector);
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  }

}