HL_SignedDist.cc 9.81 KB
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#include "HL_SignedDist.h"

const Flag HL_SignedDist::VEL_EXT                = 0X01L;
const Flag HL_SignedDist::VEL_EXT_FROM_VEL_FIELD = 0X02L;

void 
HL_SignedDist::calcSignedDistFct(AdaptInfo *adaptInfo_,
				 const DOFVector<double> *lS_DOF_, 
				 DOFVector<double> *sD_DOF_,
				 ElementFunction<double> *elFct) 
{
  adaptInfo = adaptInfo_;

  if (elFct == NULL) {
    TEST_EXIT(lS_DOF_)("illegal level set function !\n");
    TEST_EXIT(lS_DOF_->getFESpace() == sD_DOF_->getFESpace())("DOF vectors do not have the same FE space!\n");
  }
  TEST_EXIT(sD_DOF_)("illegal DOF vector for signed distance function !\n");
  TEST_EXIT(sD_DOF_->getFESpace()->getBasisFcts()->getDegree() == 1)("does it work for non-linear finite elements ?\n");
  
  lS_DOF = lS_DOF_;
  sD_DOF = sD_DOF_;
  feSpace = sD_DOF->getFESpace();

  // ===== Initialization. =====
  initialize(elFct);
  
  // ===== Print level set function. =====
  if (lS_DOF) 
    printLevelSetFct();
  
  // ===== Create DOF vector to mark boundary vertices. =====
  if (bound_DOF) 
    DELETE bound_DOF;
  bound_DOF = NEW DOFVector<double>(feSpace, "bound_DOF");
  bound_DOF->set(0.0);
  
  // ===== Boundary vertex and boundary value initialization. =====
  initializeBoundary();
  
  // ===== Print boundary initialization. =====
  printBoundInitFct();
  
    // ===== Calculate distance function. =====
  HL_updateIteration();
  
  // ===== Transformation to signed distance function. =====
  if (elFct == NULL)
    setSign();
  
  // ===== Print calculated signed distance function. =====
  printSignedDistFct();
}

void 
HL_SignedDist::calcSignedDistFct(AdaptInfo *adaptInfo_,
				 DOFVector<double> *lS_DOF_)
{
  TEST_EXIT(lS_DOF_)("illegal level set function lS_DOF_ !\n");

  sD_DOF = NEW DOFVector<double>(lS_DOF_->getFESpace(), "sD_DOF");

  calcSignedDistFct(adaptInfo_, lS_DOF_, sD_DOF, NULL);

  //  lS_DOF_->copy(*sD_DOF);
  *lS_DOF_ = *sD_DOF;

  DELETE sD_DOF;
}

void 
HL_SignedDist::calcVelocityExt(AdaptInfo *adaptInfo_,
			       DOFVector<double> *origVel_DOF_, 
			       DOFVector<double> *vel_DOF_,
			       const DOFVector<double> *lS_DOF_,
			       DOFVector<double> *sD_DOF_,
			       bool calcSDFct,
			       ElementFunction<double> *elFct)
{
  TEST_EXIT(velExtType.isSet(VEL_EXT))("illegal velocity extension type !\n");
  TEST_EXIT(velExt)("velExt not defined !\n");

  velExt->setVelocity(origVel_DOF_, vel_DOF_);

  velExt->printOrigVelDOF(adaptInfo_);

  if (calcSDFct || sD_DOF_ != NULL) {
    calcSignedDistFct(adaptInfo_, lS_DOF_, sD_DOF_, elFct);
  }
  else {

    TEST_EXIT(vel_DOF_)("illegal level set function lS_DOF_ !\n");

    sD_DOF = NEW DOFVector<double>(vel_DOF_->getFESpace(), "sD_DOF");

    calcSignedDistFct(adaptInfo_, lS_DOF_, sD_DOF, elFct);

    DELETE sD_DOF;
  }

  velExt->printVelDOF(adaptInfo_);
}

void 
HL_SignedDist::calcVelocityExt(AdaptInfo *adaptInfo_,
			       DOFVector<double> *vel_DOF_,
			       DOFVector<double> *lS_DOF_,
			       bool calcSDFct,
			       ElementFunction<double> *elFct)
{
  TEST_EXIT(velExtType.isSet(VEL_EXT))("illegal velocity extension type !\n");
  TEST_EXIT(velExt)("velExt not defined !\n");
  TEST_EXIT(vel_DOF_)("velocity vector vel_DOF_ not defined !\n");

  if (calcSDFct)
    TEST_EXIT(lS_DOF_)("illegal level set function lS_DOF_ !\n");

  DOFVector<double> *newVel_DOF_ = 
    NEW DOFVector<double>(vel_DOF_->getFESpace(), "vel_DOF_");

  velExt->setVelocity(vel_DOF_, newVel_DOF_);

  velExt->printOrigVelDOF(adaptInfo_);

  if (calcSDFct && elFct == NULL) 
    calcSignedDistFct(adaptInfo_, lS_DOF_);
  else {

    sD_DOF = NEW DOFVector<double>(vel_DOF_->getFESpace(), "sD_DOF");

    calcSignedDistFct(adaptInfo_, lS_DOF_, sD_DOF, elFct);

    if (calcSDFct) 
      lS_DOF_->copy(*sD_DOF);

    DELETE sD_DOF;
  }

  vel_DOF_->copy(*newVel_DOF_);

  velExt->printVelDOF(adaptInfo_);

  DELETE newVel_DOF_;
}

void 
HL_SignedDist::calcVelocityExt(
		   AdaptInfo *adaptInfo_,
		   std::vector<DOFVector<double> *> origVel_DOF_, 
		   std::vector<DOFVector<double> *> vel_DOF_,
		   const DOFVector<double> *lS_DOF_,
		   DOFVector<double> *sD_DOF_,
		   bool calcSDFct,
		   ElementFunction<double> *elFct)
{
  TEST_EXIT(velExtType.isSet(VEL_EXT))("illegal velocity extension type !\n");
  TEST_EXIT(velExt)("velExt not defined !\n");

  velExt->setVelocity(origVel_DOF_, vel_DOF_);

  velExt->printOrigVelDOF(adaptInfo_);

  if (calcSDFct || sD_DOF_ != NULL) {
    calcSignedDistFct(adaptInfo_, lS_DOF_, sD_DOF_, elFct);
  }
  else {

    TEST_EXIT(vel_DOF_[0])("illegal level set function lS_DOF_ !\n");

    sD_DOF = NEW DOFVector<double>(vel_DOF_[0]->getFESpace(), "sD_DOF");

    calcSignedDistFct(adaptInfo_, lS_DOF_, sD_DOF, elFct);

    DELETE sD_DOF;
  }

  velExt->printVelDOF(adaptInfo_);
}

void 
HL_SignedDist::calcVelocityExt(AdaptInfo *adaptInfo_,
			       std::vector<DOFVector<double> *> vel_DOF_,
			       DOFVector<double> *lS_DOF_,
			       bool calcSDFct,
			       ElementFunction<double> *elFct)
{
  TEST_EXIT(velExtType.isSet(VEL_EXT))("illegal velocity extension type !\n");
  TEST_EXIT(velExt)("velExt not defined !\n");

  int nVelDOFs = vel_DOF_.size();

  if (calcSDFct)
    TEST_EXIT(lS_DOF_)("illegal level set function lS_DOF_ !\n");

  std::vector<DOFVector<double> *> newVel_DOF_(nVelDOFs);
  for (int nV=0; nV<nVelDOFs; ++nV) {

  TEST_EXIT(vel_DOF_[nV])("velocity vector vel_DOF_ not defined !\n");

    newVel_DOF_[nV] = 
      NEW DOFVector<double>((vel_DOF_[nV])->getFESpace(), "vel_DOF_");
  }

  velExt->setVelocity(vel_DOF_, newVel_DOF_);

  velExt->printOrigVelDOF(adaptInfo_);

  if (calcSDFct && elFct == NULL) 
    calcSignedDistFct(adaptInfo_, lS_DOF_);
  else {

    sD_DOF = NEW DOFVector<double>(vel_DOF_[0]->getFESpace(), "sD_DOF");

    calcSignedDistFct(adaptInfo_, lS_DOF_, sD_DOF, elFct);

    if (calcSDFct) 
      lS_DOF_->copy(*sD_DOF);

    DELETE sD_DOF;
  }

  for (int nV=0; nV<nVelDOFs; ++nV)
    (vel_DOF_[nV])->copy(*(newVel_DOF_[nV]));

  velExt->printVelDOF(adaptInfo_);

  for (int nV=0; nV<nVelDOFs; ++nV)
    DELETE newVel_DOF_[nV];
}

void 
HL_SignedDist::calcVelocityExtFromVelocityField(
		       AdaptInfo *adaptInfo_,
		       std::vector<DOFVector<double> *> &velField_, 
		       DOFVector<double> *vel_DOF_,
		       const DOFVector<double> *lS_DOF_,
		       DOFVector<double> *sD_DOF_,
		       bool calcSDFct,
		       ElementFunction<double> *elFct)
{
  TEST_EXIT(velExtType.isSet(VEL_EXT_FROM_VEL_FIELD))
    ("illegal velocity extension type !\n");
  TEST_EXIT(velExt)("velExt not defined !\n");
  TEST_EXIT(elFct == NULL)("not implemented yet for elFct != NULL !\n");

  ((VelocityExtFromVelocityField *)(velExt))->setVelocityField(velField_, lS_DOF_, vel_DOF_);

  if (calcSDFct) {
    calcSignedDistFct(adaptInfo_, lS_DOF_, sD_DOF_, elFct);
  }
  else {

    TEST_EXIT(vel_DOF_)("illegal velocity vector vel_DOF_ !\n");

    sD_DOF = NEW DOFVector<double>(vel_DOF_->getFESpace(), "sD_DOF");

    calcSignedDistFct(adaptInfo_, lS_DOF_, sD_DOF, elFct);

    DELETE sD_DOF;
  }

  velExt->printVelDOF(adaptInfo_);
}

void 
HL_SignedDist::calcVelocityExtFromVelocityField(
		       AdaptInfo *adaptInfo_,
		       std::vector<DOFVector<double> *> &velField_, 
		       DOFVector<double> *vel_DOF_,
		       DOFVector<double> *lS_DOF_,
		       bool calcSDFct,
		       ElementFunction<double> *elFct)
{
  TEST_EXIT(velExtType.isSet(VEL_EXT_FROM_VEL_FIELD))
    ("illegal velocity extension type !\n");
  TEST_EXIT(velExt)("velExt not defined !\n");
  TEST_EXIT(elFct == NULL)("not implemented yet for elFct != NULL !\n");

  if (calcSDFct)
    TEST_EXIT(lS_DOF_)("illegal level set function lS_DOF_ !\n");

  ((VelocityExtFromVelocityField *)(velExt))->setVelocityField(velField_, lS_DOF_, vel_DOF_);

  if (calcSDFct && elFct == NULL) {
    calcSignedDistFct(adaptInfo_, lS_DOF_);
  }
  else {

    TEST_EXIT(vel_DOF_)("illegal velocity vector vel_DOF_ !\n");

    sD_DOF = NEW DOFVector<double>(vel_DOF_->getFESpace(), "sD_DOF");

    calcSignedDistFct(adaptInfo_, lS_DOF_, sD_DOF, elFct);

    if (calcSDFct)
      lS_DOF_->copy(*sD_DOF);

    DELETE sD_DOF;
  }

  velExt->printVelDOF(adaptInfo_);
}

void 
HL_SignedDist::initialize(ElementFunction<double> *elFct)
{
  if (elUpdate)
    DELETE elUpdate;
  if (bndElDist)
    DELETE bndElDist;
  
  if (elLS)
    DELETE elLS;
  if (phi)
    DELETE phi;
  
  // ===== Create ElementLevelSet. =====
  if (elFct == NULL) {
    phi = NEW ElementFunctionDOFVec<double>(lS_DOF);
    elLS = NEW ElementLevelSet("ElementLevelSet", phi, feSpace->getMesh());
  }
  else {
    elLS = NEW ElementLevelSet("ElementLevelSet", elFct, feSpace->getMesh());
  }

  
  // ===== Define boundary initialization strategy. =====
  int boundInitFlag;
  GET_PARAMETER(0, name + "->boundary initialization", "%d", 
		&boundInitFlag);
  switch(boundInitFlag) {
  case 0: bndElDist = NEW BoundaryElementLevelSetDist(elLS, dim);
    break;
  case 1: bndElDist = NEW BoundaryElementTopDist(elLS, dim, velExt);
    break;
  case 2: bndElDist = NEW BoundaryElementEdgeDist(elLS, dim);
    break;
  case 3: bndElDist = NEW BoundaryElementNormalDist(elLS, dim);
    break;
  default: ERROR_EXIT("illegal boundary initialization !\n");
    break;
  }
  
  // ===== Create elUpdate. =====
  TEST_EXIT(velExt == NULL || boundInitFlag == 1)
    ("velocity extension only works with topological boundary element initialization method !\n");

  switch(dim) {
  case 2: elUpdate = NEW ElementUpdate_2d(velExt);
    break;
  case 3: elUpdate = NEW ElementUpdate_3d(velExt);
    break;
  default: ERROR_EXIT("illegal dimension !\n");
    break;
  }
}

void 
HL_SignedDist::setSign() 
{
  DOFVector<double>::Iterator it_sD(const_cast<DOFVector<double> *>(sD_DOF),
				    USED_DOFS);
  DOFVector<double>::Iterator it_lS(const_cast<DOFVector<double> *>(lS_DOF), 
				    USED_DOFS);
  
  for(it_sD.reset(), it_lS.reset(); 
      !it_sD.end(); 
      ++it_sD, ++it_lS) {
    
    // Vertex lies inside the zero level set ?
    if ((*it_lS) < 0) {
      (*it_sD) *= -1;
    }
  }
}