예제 #1
0
int multiscalePartition::assembleAllPartitions(std::vector<MElement*> & elements)
{
  int iPart =  1;

  elements.clear();
  for (unsigned i = 0; i< levels.size(); i++){
    partitionLevel *iLevel = levels[i];
    if(iLevel->elements.size() > 0){
      for (unsigned j = 0; j < iLevel->elements.size(); j++){
        MElement *e = iLevel->elements[j];
	elements.push_back(e);
        e->setPartition(iPart);
      }
      iPart++;
    }
  }

  return iPart - 1;
}
예제 #2
0
void GMSH_SimplePartitionPlugin::run()
{
#if defined(HAVE_MESH)
  int numSlicesX = (int)SimplePartitionOptions_Number[0].def;
  int numSlicesY = (int)SimplePartitionOptions_Number[1].def;
  int numSlicesZ = (int)SimplePartitionOptions_Number[2].def;
  int createTopology = (int)SimplePartitionOptions_Number[3].def;
  std::vector<std::string> exprX(1), exprY(1), exprZ(1);
  exprX[0] = SimplePartitionOptions_String[0].def;
  exprY[0] = SimplePartitionOptions_String[1].def;
  exprZ[0] = SimplePartitionOptions_String[2].def;

  GModel *m = GModel::current();

  if(!m->getNumMeshElements()){
    Msg::Error("Plugin(SimplePartition) requires a mesh");
    return;
  }

  if(numSlicesX < 1 || numSlicesY < 1 || numSlicesZ < 1){
    Msg::Error("Number of slices should be strictly positive");
    return;
  }
  m->unpartitionMesh();

  SBoundingBox3d bbox = m->bounds();
  double pminX = bbox.min()[0], pmaxX = bbox.max()[0];
  double pminY = bbox.min()[1], pmaxY = bbox.max()[1];
  double pminZ = bbox.min()[2], pmaxZ = bbox.max()[2];
  std::vector<double> ppX(numSlicesX + 1);
  std::vector<double> ppY(numSlicesY + 1);
  std::vector<double> ppZ(numSlicesZ + 1);
  std::vector<std::string> variables(1, "t");
  std::vector<double> values(1), res(1);

  {
    mathEvaluator f(exprX, variables);
    for(int p = 0; p <= numSlicesX; p++) {
      double t = values[0] = (double)p / (double)numSlicesX;
      if(f.eval(values, res)) t = res[0];
      ppX[p] = pminX + t * (pmaxX - pminX);
    }
  }
  bool emptyX = (ppX[0] == ppX[numSlicesX]);
  {
    mathEvaluator f(exprY, variables);
    for(int p = 0; p <= numSlicesY; p++) {
      double t = values[0] = (double)p / (double)numSlicesY;
      if(f.eval(values, res)) t = res[0];
      ppY[p] = pminY + t * (pmaxY - pminY);
    }
  }
  bool emptyY = (ppY[0] == ppY[numSlicesY]);
  {
    mathEvaluator f(exprZ, variables);
    for(int p = 0; p <= numSlicesZ; p++) {
      double t = values[0] = (double)p / (double)numSlicesZ;
      if(f.eval(values, res)) t = res[0];
      ppZ[p] = pminZ + t * (pmaxZ - pminZ);
    }
  }
  bool emptyZ = (ppZ[0] == ppZ[numSlicesZ]);

  std::vector<GEntity *> entities;
  m->getEntities(entities);
  hashmap<MElement *, unsigned int> elmToPartition;
  for(std::size_t i = 0; i < entities.size(); i++) {
    GEntity *ge = entities[i];
    for(std::size_t j = 0; j < ge->getNumMeshElements(); j++) {
      MElement *e = ge->getMeshElement(j);
      SPoint3 point = e->barycenter();
      int part = 0;
      for(int kx = 0; kx < numSlicesX; kx++) {
        if(part) break;
        for(int ky = 0; ky < numSlicesY; ky++) {
          if(part) break;
          for(int kz = 0; kz < numSlicesZ; kz++) {
            if(part) break;
            if((emptyX || (kx == 0 && ppX[0] == point[0]) ||
                (ppX[kx] < point[0] && point[0] <= ppX[kx + 1])) &&
               (emptyY || (ky == 0 && ppY[0] == point[1]) ||
                (ppY[ky] < point[1] && point[1] <= ppY[ky + 1])) &&
               (emptyZ || (kz == 0 && ppZ[0] == point[2]) ||
                (ppZ[kz] < point[2] && point[2] <= ppZ[kz + 1]))){
              part = kx * numSlicesY * numSlicesZ + ky * numSlicesZ + kz + 1;
              elmToPartition.insert(std::pair<MElement *, unsigned int>(e, part));
              e->setPartition(part); // this will be removed
            }
          }
        }
      }
    }
  }

  opt_mesh_partition_create_topology(0, GMSH_SET | GMSH_GUI, createTopology);

  int ier = PartitionUsingThisSplit(m, numSlicesX * numSlicesY * numSlicesZ,
                                    elmToPartition);
  if(!ier) {
    opt_mesh_color_carousel(0, GMSH_SET | GMSH_GUI, 3.);
    CTX::instance()->mesh.changed = ENT_ALL;
  }

#else
  Msg::Error("Gmsh must be compiled with Mesh support to partition meshes");
#endif
}