ElInfo1d.cc 10.3 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
 *
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 * Authors:
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 * 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.
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 *
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 ******************************************************************************/
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#include "ElInfo1d.h"
#include "BasisFunction.h"
#include "Element.h"
#include "Line.h"
#include "Triangle.h"
#include "Tetrahedron.h"
#include "FiniteElemSpace.h"
#include "Flag.h"
#include "MacroElement.h"
#include "Mesh.h"
#include "Global.h"
#include "FixVec.h"
#include "DOFVector.h"

namespace AMDiS {
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  double ElInfo1d::mat_d1_val[2][2] = {{1.0, 0.0},
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				       {0.0, 1.0}};
  mtl::dense2D<double> ElInfo1d::mat_d1(mat_d1_val);

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  double ElInfo1d::mat_d1_left_val[2][2] = {{1.0, 0.5},
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					    {0.0, 0.5}};
  mtl::dense2D<double> ElInfo1d::mat_d1_left(mat_d1_left_val);

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  double ElInfo1d::mat_d1_right_val[2][2] = {{0.5, 0.0},
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					     {0.5, 1.0}};
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  mtl::dense2D<double> ElInfo1d::mat_d1_right(mat_d1_right_val);
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  double ElInfo1d::mat_d2_val[3][3] = {{1.0, 0.0, 0.0},
				       {0.0, 1.0, 0.0},
				       {0.0, 0.0, 1.0}};
  mtl::dense2D<double> ElInfo1d::mat_d2(mat_d2_val);

  double ElInfo1d::mat_d2_left_val[3][3] = {{1.0, 0.375, 0.0},
					    {0.0, 0.75, 1.0},
					    {0.0, -0.125, 0.0}};
  mtl::dense2D<double> ElInfo1d::mat_d2_left(mat_d2_left_val);
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  double ElInfo1d::mat_d2_right_val[3][3] = {{0.0, -0.125, 0.0},
					     {1.0, 0.75, 0.0},
					     {0.0, 0.375, 1.0}};
  mtl::dense2D<double> ElInfo1d::mat_d2_right(mat_d2_right_val);
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  void ElInfo1d::fillMacroInfo(const MacroElement * mel)
  {
    Element *nb;
    MacroElement *mnb;

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    macroElement = const_cast<MacroElement*>(mel);
    element = const_cast<Element*>(mel->getElement());
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    parent = NULL;
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    level = 0;
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    int vertices = mesh->getGeo(VERTEX);
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    if (fillFlag.isSet(Mesh::FILL_COORDS) || fillFlag.isSet(Mesh::FILL_DET) ||
	fillFlag.isSet(Mesh::FILL_GRD_LAMBDA)) {
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      for (int i = 0; i < vertices; i++)
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	coord[i] = mel->coord[i];
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    }
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    if (fillFlag.isSet(Mesh::FILL_NEIGH) || fillFlag.isSet(Mesh::FILL_OPP_COORDS)) {
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      WorldVector<double> oppC;
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      int neighbours =  mesh->getGeo(NEIGH);
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      for (int i = 0; i < neighbours; i++) {
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	nb = NULL;
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	if ((mnb = const_cast<MacroElement*>(mel->getNeighbour(i)))) {
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	  if (fillFlag.isSet(Mesh::FILL_OPP_COORDS)) {
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	    oppC = mnb->coord[i];
	  }

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	  nb = const_cast<Element*>(mnb->getElement());
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	  while (!(nb->isLeaf())) { // make nb nearest element
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	    if (fillFlag.isSet(Mesh::FILL_OPP_COORDS)) {
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	      if (nb->isNewCoordSet()) {
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		oppC = *(nb->getNewCoord());
	      } else {
		oppC = (mel->coord[i] + oppC) * 0.5;
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	      }
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	    }
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	    nb = const_cast<Element*>(nb->getChild(1-i));
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	  }

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	  if (fillFlag.isSet(Mesh::FILL_OPP_COORDS)) {
	    oppCoord[i] = oppC;
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	  }
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	}
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	neighbour[i] = nb;
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	oppVertex[i] = nb ? i : -1;
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      }
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    }
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    if (fillFlag.isSet(Mesh::FILL_BOUND) ) {
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      for (int i = 0; i < vertices; i++)
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	boundary[i] = mel->getBoundary(i);
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      for (int i = 0; i < element->getGeo(PROJECTION); i++)
	projection[i] = mel->getProjection(i);
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    }
  }

  /****************************************************************************/
  /*  compute gradients of basis functions on element; return the absulute    */
  /*  value of the determinante from the transformation to the reference      */
  /*  element                                                                 */
  /****************************************************************************/
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  double ElInfo1d::calcGrdLambda(DimVec<WorldVector<double> >& grd_lam)
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  {
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    FUNCNAME("ElInfo1d::calcGrdLambda()");
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    testFlag(Mesh::FILL_COORDS);

    WorldVector<double> e;
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    e = coord[1];
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    e -= coord[0];
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    double adet2 = e * e;
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    if (adet2 < 1.0E-15) {
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      MSG("det*det = %g\n", adet2);
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      grd_lam[0] = grd_lam[1] = 0.0;
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    } else {
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      grd_lam[1] = e * (1.0 / adet2);
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      grd_lam[0] = grd_lam[1] * -1.0;
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    }

    return sqrt(adet2);
  }

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  int ElInfo1d::worldToCoord(const WorldVector<double>& x,
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				   DimVec<double>* lambda) const
  {
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    FUNCNAME("ElInfo1d::worldToCoord()");

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    double lmin;
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    double a = coord[0][0];
    double length = (coord[1][0] - a);
    int dim = mesh->getDim();
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    TEST_EXIT_DBG(lambda)("lambda must not be NULL\n");
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    TEST_EXIT_DBG(dim == 1)("dim!=1\n");
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    TEST_EXIT_DBG(dimOfWorld == dim)("not yet for DIM != DIM_OF_WORLD\n");
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    if (abs(length) < DBL_TOL) {
      ERROR_EXIT("length = %le; abort\n", length);
      return 0;
    }

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    (*lambda)[1] = (x[0] - a) / length;
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    (*lambda)[0] = 1.0 - (*lambda)[1];

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    int k = -1;
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    lmin = 0.0;
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    for (int i = 0; i <= dim; i++) {
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      if ((*lambda)[i] < -1.E-5) {
	if ((*lambda)[i] < lmin) {
	  k = i;
	  lmin = (*lambda)[i];
	}
      }
    }

    return k;
  }

  /****************************************************************************/
  /*  calculate a facenormal of edge side of a triangle with coordinates      */
  /*  coord; return the absulute value of the determinant from the           */
  /*  transformation to the reference element                                 */
  /****************************************************************************/
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  double ElInfo1d::getNormal(int side, WorldVector<double> &normal) const
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  {
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    FUNCNAME_DBG("ElInfo::getNormal()");
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    normal = coord[side] - coord[(side + 1) % 2];
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    double det = norm(&normal);
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    TEST_EXIT_DBG(det > 1.e-30)("det = 0 on side %d\n", side);
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    normal *= 1.0 / det;

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    return det;
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  }


  /****************************************************************************/
  /*  calculate the normal of the element for dim of world = 2                */
  /*  return the absulute value of the determinant from the                   */
  /*  transformation to the reference element                                 */
  /****************************************************************************/
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  double ElInfo1d::getElementNormal(WorldVector<double> &elementNormal) const
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  {
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    FUNCNAME_DBG("ElInfo::getElementNormal()");
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    TEST_EXIT_DBG(dimOfWorld == 2)
      (" element normal only well defined for  DIM_OF_WORLD = DIM + 1 !!");
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    elementNormal[0] = coord[1][1] - coord[0][1];
    elementNormal[1] = coord[0][0] - coord[1][0];
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    double det = norm(&elementNormal);
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    TEST_EXIT_DBG(det > 1.e-30)("det = 0");
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    elementNormal *= 1.0 / det;
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    return det;
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  }


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  void ElInfo1d::fillElInfo(int ichild, const ElInfo *elInfoOld)
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  {
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    FUNCNAME_DBG("ElInfo1d::fillElInfo()");
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    Element *nb;
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    Element *elem = elInfoOld->element;
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    TEST_EXIT_DBG(elem->getChild(0))("no children?\n");
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    element = const_cast<Element*>(elem->getChild(ichild));
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    TEST_EXIT_DBG(element)("missing child %d?\n", ichild);
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    macroElement = elInfoOld->macroElement;
    fillFlag = elInfoOld->fillFlag;
    parent = elem;
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    level = elInfoOld->level + 1;
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    iChild = ichild;
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    int neighbours = mesh->getGeo(NEIGH);
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    if (fillFlag.isSet(Mesh::FILL_COORDS) || fillFlag.isSet(Mesh::FILL_DET) ||
	fillFlag.isSet(Mesh::FILL_GRD_LAMBDA)) {
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      const FixVec<WorldVector<double>, VERTEX> *old_coord = &(elInfoOld->coord);
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      coord[ichild] = (*old_coord)[ichild];
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      if (elem->isNewCoordSet())
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	coord[1 - ichild] = *(elem->getNewCoord());
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      else
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	coord[1 - ichild] = ((*old_coord)[0] + (*old_coord)[1]) * 0.5;
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    }
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    if (fillFlag.isSet(Mesh::FILL_NEIGH) || fillFlag.isSet(Mesh::FILL_OPP_COORDS)) {
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      WorldVector<double> oppC;
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      TEST_EXIT_DBG(fillFlag.isSet(Mesh::FILL_COORDS))
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	("FILL_OPP_COORDS only with FILL_COORDS\n");
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      for (int i = 0; i < neighbours; i++) {
	if (i != ichild) {
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	  nb = const_cast<Element*>(elem->getChild(1-ichild));
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	  if (fillFlag.isSet(Mesh::FILL_OPP_COORDS))
	    oppC = elInfoOld->coord[i];
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	} else {
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	  nb = const_cast<Element*>(elInfoOld->getNeighbour(i));
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	  if (nb && fillFlag.isSet(Mesh::FILL_OPP_COORDS))
	    oppC = elInfoOld->oppCoord[i];
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	}
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	if (nb) {
	  while (nb->getChild(0)) {  // make nb nearest element
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	    if (fillFlag.isSet(Mesh::FILL_OPP_COORDS)) {
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	      if (nb->isNewCoordSet())
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		oppC = *(nb->getNewCoord());
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	      else
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		oppC = (coord[i] + oppC) * 0.5;
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	    }
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	    nb = const_cast<Element*>(nb->getChild(1-i));
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	  }
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	  if (fillFlag.isSet(Mesh::FILL_OPP_COORDS))
	    oppCoord[i] = oppC;
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	}
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	neighbour[i] = nb;
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	oppVertex[i] = nb ? i : -1;
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      }
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    }
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    if (fillFlag.isSet(Mesh::FILL_BOUND)) {
      boundary[ichild] = elInfoOld->getBoundary(ichild);
      boundary[1 - ichild] = INTERIOR;
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      if (elInfoOld->getProjection(0) &&
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	  elInfoOld->getProjection(0)->getType() == VOLUME_PROJECTION)
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	projection[0] = elInfoOld->getProjection(0);
    }
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  }

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  mtl::dense2D<double>& ElInfo1d::getSubElemCoordsMat(int degree) const
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  {
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    FUNCNAME("ElInfo1d::getSubElemCoordsMat()");

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    using namespace mtl;

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    if (subElemMatrices[degree].count(std::make_pair(refinementPathLength, refinementPath)) == 0) {
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      switch (degree) {
      case 1:
	{
	  dense2D<double> mat(mat_d1);
	  dense2D<double> tmpMat(num_rows(mat), num_rows(mat));
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	  for (int i = 0; i < refinementPathLength; i++) {
	    if (refinementPath & (1 << i)) {
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	      tmpMat = mat * mat_d1_right;
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	      mat = tmpMat;
	    } else  {
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	      tmpMat = mat * mat_d1_left;
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	      mat = tmpMat;
	    }
	  }
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	  subElemMatrices[1][std::make_pair(refinementPathLength, refinementPath)] = mat;
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	}
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	break;
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      case 2:
	{
	  dense2D<double> mat(mat_d2);
	  dense2D<double> tmpMat(num_rows(mat), num_rows(mat));
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	  for (int i = 0; i < refinementPathLength; i++) {
	    if (refinementPath & (1 << i)) {
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	      tmpMat = mat * mat_d2_right;
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	      mat = tmpMat;
	    } else  {
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	      tmpMat = mat * mat_d2_left;
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	      mat = tmpMat;
	    }
	  }
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	  subElemMatrices[2][std::make_pair(refinementPathLength, refinementPath)] = mat;
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	}
	break;
      default:
	ERROR_EXIT("Not supported for basis function degree: %d\n", degree);
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      }
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    }
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    return subElemMatrices[degree][std::make_pair(refinementPathLength, refinementPath)];
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  }

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  mtl::dense2D<double>& ElInfo1d::getSubElemGradCoordsMat(int degree) const
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  {
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    return getSubElemCoordsMat(degree);
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  }

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}