DirichletBC.hh 4.49 KB
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/******************************************************************************
 *
 * AMDiS - Adaptive multidimensional simulations
 *
 * Copyright (C) 2013 Dresden University of Technology. All Rights Reserved.
 * Web: https://fusionforge.zih.tu-dresden.de/projects/amdis
 *
 * Authors: 
 * Simon Vey, Thomas Witkowski, Andreas Naumann, Simon Praetorius, et al.
 *
 * This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE
 * WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
 *
 *
 * This file is part of AMDiS
 *
 * See also license.opensource.txt in the distribution.
 * 
 ******************************************************************************/


#include "ElInfo.h"
#include "BasisFunction.h"
#include "DOFVector.h"
#include "DOFMatrix.h"

namespace AMDiS {

  template <class Tag>
  DirichletBC<Tag>::DirichletBC(BoundaryType type,
			   AbstractFunction<double, WorldVector<double> > *fct,
			   const FiniteElemSpace *rowFeSpace,
			   const FiniteElemSpace *colFeSpace,
			   bool apply)
    : BoundaryCondition(type, rowFeSpace, colFeSpace), 
      container(fct), 
      applyBC(apply)
  {}

#if __cplusplus > 199711L
  template <class Tag>
  DirichletBC<Tag>::DirichletBC(BoundaryType type,
			   std::function<double(WorldVector<double>)> fct,
			   const FiniteElemSpace *rowFeSpace,
			   const FiniteElemSpace *colFeSpace,
			   bool apply)
    : BoundaryCondition(type, rowFeSpace, colFeSpace), 
      container(fct), 
      applyBC(apply)
  {}
#endif

  template <class Tag>
  DirichletBC<Tag>::DirichletBC(BoundaryType type,
			   DOFVectorBase<double> *vec,
			   bool apply)
    : BoundaryCondition(type, vec->getFeSpace(), vec->getFeSpace()), 
      container(vec),
      applyBC(apply)
  {}

  
  template <class Tag>
  void DirichletBC<Tag>::fillBoundaryCondition(DOFMatrix* matrix,
					  ElInfo* elInfo,
					  const DegreeOfFreedom* dofIndices,
					  const BoundaryType* localBound,
					  int nBasFcts)
  {
    FUNCNAME_DBG("DirichletBC::fillBoundaryCondition()");
    TEST_EXIT_DBG(matrix->getRowFeSpace() == rowFeSpace)("invalid row fe space\n");
  }


  template <class Tag>
  void DirichletBC<Tag>::fillBoundaryCondition(DOFVectorBase<double>* vector,
					  ElInfo* elInfo,
					  const DegreeOfFreedom* dofIndices,
					  const BoundaryType* localBound,
					  int nBasFcts)
  {
    FUNCNAME_DBG("DirichletBC::fillBoundaryCondition()");

    TEST_EXIT_DBG(vector->getFeSpace() == rowFeSpace)("invalid row fe space\n");
    fillBC(Tag(), vector, elInfo, dofIndices, localBound, nBasFcts);
  }
  
  
  template <class Tag>
  void DirichletBC<Tag>::fillBC(_value_by_abstractfunction,
			   DOFVectorBase<double>* vector,
			   ElInfo* elInfo,
			   const DegreeOfFreedom* dofIndices,
			   const BoundaryType* localBound,
			   int nBasFcts)
  {
    WorldVector<double> worldCoords;
    const BasisFunction *basFcts = rowFeSpace->getBasisFcts();

    for (int i = 0; i < nBasFcts; i++)
      if (localBound[i] == boundaryType) {
	elInfo->coordToWorld(*(basFcts->getCoords(i)), worldCoords);
	double value = container.value(worldCoords);
	vector->setDirichletDofValue(dofIndices[i], value);
	(*vector)[dofIndices[i]] = value;
      }
  }
  
  
  // c++11 std::function of lambda-functions
  template <class Tag>
  void DirichletBC<Tag>::fillBC(_value_by_function,
			   DOFVectorBase<double>* vector,
			   ElInfo* elInfo,
			   const DegreeOfFreedom* dofIndices,
			   const BoundaryType* localBound,
			   int nBasFcts)
  {
    WorldVector<double> worldCoords;
    const BasisFunction *basFcts = rowFeSpace->getBasisFcts();

    for (int i = 0; i < nBasFcts; i++)
      if (localBound[i] == boundaryType) {
	elInfo->coordToWorld(*(basFcts->getCoords(i)), worldCoords);
	double value = container.value(worldCoords);
	vector->setDirichletDofValue(dofIndices[i], value);
	(*vector)[dofIndices[i]] = value;
      }
  }
  
  
  template <class Tag>
  void DirichletBC<Tag>::fillBC(_value_by_dofvector,
			   DOFVectorBase<double>* vector,
			   ElInfo* elInfo,
			   const DegreeOfFreedom* dofIndices,
			   const BoundaryType* localBound,
			   int nBasFcts)
  {
    for (int i = 0; i < nBasFcts; i++)
      if (localBound[i] == boundaryType) {
	double value = (*container.value)[dofIndices[i]];
	vector->setDirichletDofValue(dofIndices[i], value);
	(*vector)[dofIndices[i]] = value;
      }
  }


  template <class Tag>
  void DirichletBC<Tag>::initVector(DOFVectorBase<double>* vec)
  {
    if (dynamic_cast<DOFVector<double>*>(vec))
      dynamic_cast<DOFVector<double>*>(vec)->getDirichletValues().clear();
  }

}