Beispiel #1
0
void PST_Edge::points( DLIList<PST_Edge*>& edges, DLIList<PST_Point*>& points )
{
  int e;
  for( e = edges.size(); e--; )
  {
    PST_Edge* edge_ptr = edges.get_and_step();
    edge_ptr->start_point()->private_mark_ = 1;
    edge_ptr->end_point()->private_mark_ = 1;
  }
  for( e = edges.size(); e--; )
  {
    PST_Edge* edge_ptr = edges.get_and_step();
    PST_Point* sp = edge_ptr->start_point();
    PST_Point* ep = edge_ptr->end_point();
    if( sp->private_mark_ )
    {
      sp->private_mark_ = 0;
      points.append( sp );
    }
    if( ep->private_mark_ )
    {
      ep->private_mark_ = 0;
      points.append( ep );
    }
  }
}
Beispiel #2
0
void OCCBody::get_TopoDS_Shape(TopoDS_Shape *& shape)
{
  if (myTopoDSShape && !myTopoDSShape->IsNull())
  {
    assert(myTopoDSShape->ShapeType() == TopAbs_COMPOUND);
    shape =  myTopoDSShape;
  }
  else
  {
    DLIList<Lump*> lumps = this->lumps();
    DLIList<OCCShell*> shells = this->shells();
    DLIList<OCCSurface*> surfaces = this->my_sheet_surfaces();
    if(lumps.size() + shells.size() + surfaces.size() == 1)
    {
      if(lumps.size() == 1)
      {
        OCCLump* lump = CAST_TO(lumps.get(), OCCLump);
        assert(lump != NULL);
        shape = CAST_TO(lump, OCCLump)->get_TopoDS_Solid();
      }
      else if(shells.size() == 1)
        shape = shells.get()->get_TopoDS_Shell(); 
      else
        shape = surfaces.get()->get_TopoDS_Face();
    }
    else
      shape = NULL;
  }
}
Beispiel #3
0
  /*! This function is like merge_unique(), except that the type of object
  stored by \a merge_list is not the same as this list's type.  The type of 
  object stored in the other list must be able to be static_cast<> to this 
  list's type.  
  \param merge_list The list whose elements will be incorporated into this list.
  \param merge_list_unique A flag indicating whether to skip a check for 
  uniqueness between elements of \a merge_list.
  \sa merge_unique()
  */
  template<typename Y> inline void casting_merge_unique(const DLIList<Y>& merge_list,
                                                        bool merge_list_unique = false)
    {
        // Save the current index of the merge_list
      int old_size = size();   
      int i, j, check_index;
      
      X new_item;

      // The resulting list will be at least as large as the larger of the two lists.
      // Reserve space so we don't have to reallocate so often.  Note that if
      // this list is already bigger than merge_list, the reserve won't
      // make the list shorter.
      reserve(merge_list.size());

      for ( i = 0; i < merge_list.size(); i++)
      {
          // Get the item from the merge_list and insert it into "this"
          // list if it doesn't already exist there.
        new_item = static_cast<X>(merge_list[i]);
        check_index = merge_list_unique ? old_size : size();

        // Append the new item and then remove it if necessary.
        append(new_item);
        for ( j = 0; j < check_index; j++ )
        {
          if ( listArray[j] == new_item )
          {
            listArray.resize(listArray.size()-1);
            break;
          }
        }
      }
    }
Beispiel #4
0
void PST_Edge::edges( DLIList<PST_Point*>& pts, DLIList<PST_Edge*>& edges )
{
  int p;
  for( p = pts.size(); p--; )
  {
    PST_Point* pt = pts.get_and_step();
    PST_Edge* edge = pt->edge();
    if( edge ) do
    {
      edge->private_mark_ = 1;
      edge = edge->next( pt );
    } while( edge != pt->edge() );
  }
  
  for( p = pts.size(); p--; )
  {
    PST_Point* pt = pts.get_and_step();
    PST_Edge* edge = pt->edge();
    if( edge ) do
    {
      if( edge->private_mark_ )
      {
        edge->private_mark_ = 0;
        edges.append( edge );
      }
      edge = edge->next( pt );
    } while( edge != pt->edge() );
  }
}
Beispiel #5
0
void PST_Edge::edges( DLIList<PST_Face*>& faces, DLIList<PST_Edge*>& edges )
{
  int f;
  for( f = faces.size(); f--; )
  {
    PST_CoEdge* first = faces.get_and_step()->first_coedge();
    PST_CoEdge* coedge = first;
    do
    {
      coedge->edge()->private_mark_ = 1;
      coedge = coedge->next();
    } while( coedge != first );
  }
  
  for( f = faces.size(); f--; )
  {
    PST_CoEdge* first = faces.get_and_step()->first_coedge();
    PST_CoEdge* coedge = first;
    do
    {
      if( coedge->edge()->private_mark_ )
      {
        coedge->edge()->private_mark_ = 0;
        edges.append( coedge->edge() );
      }
      coedge = coedge->next();
    } while( coedge != first );
  }
}  
Beispiel #6
0
void PST_Edge::faces( DLIList<PST_Edge*>& edges, DLIList<PST_Face*>& faces )
{
  int e;
  for( e = edges.size(); e--; )
  {
    PST_Edge* edge_ptr = edges.get_and_step();
    if( edge_ptr->forward()->face() )
      edge_ptr->forward()->face()->private_mark_ = 1;
    if( edge_ptr->reverse()->face() )
      edge_ptr->reverse()->face()->private_mark_ = 1;
  }
  for( e = edges.size(); e--; )
  {
    PST_Edge* edge_ptr = edges.get_and_step();
    PST_Face* fface_ptr = edge_ptr->forward()->face();
    PST_Face* rface_ptr = edge_ptr->reverse()->face();
    if( fface_ptr && fface_ptr->private_mark_ )
    {
      fface_ptr->private_mark_ = 0;
      faces.append( fface_ptr );
    }
    if( rface_ptr && rface_ptr->private_mark_ )
    {
      rface_ptr->private_mark_ = 0;
      faces.append( rface_ptr );
    }
  }
}
Beispiel #7
0
//----------------------------------------------------------------
// Function: private function to update the core compound and      
//           for any movement of the body.
// Note:     input shape must have the same number of Compound
//           as the body's lumps number.
// Author: Jane Hu
//----------------------------------------------------------------
CubitStatus OCCBody::update_OCC_entity( BRepBuilderAPI_ModifyShape *aBRepTrsf,
                                       BRepAlgoAPI_BooleanOperation *op) 
{
  assert(aBRepTrsf != NULL || op != NULL);

  TopoDS_Compound compsolid;
  TopoDS_Shape shape;
  shape = aBRepTrsf->Shape();
  if(aBRepTrsf && myTopoDSShape)
  {
    compsolid = TopoDS::Compound(shape);
  
    if(OCCQueryEngine::instance()->OCCMap->IsBound(*myTopoDSShape) )
       OCCQueryEngine::instance()->update_OCC_map(*myTopoDSShape, shape);
    else if (!shape.IsEqual(*myTopoDSShape))
       set_TopoDS_Shape(compsolid);
  }

  //Boolean operation works only on one lump body
  //set the lumps
  DLIList<Lump *> lumps;
  lumps = this->lumps();
  for (int i = 1; i <= lumps.size(); i++)
  {
     OCCLump *lump = CAST_TO(lumps.get_and_step(), OCCLump);
     lump->update_OCC_entity(aBRepTrsf, op);
  }

  for(int i = 0; i < mySheetSurfaces.size(); i++)
  {
    OCCSurface* surface = mySheetSurfaces.get_and_step();
    surface->update_OCC_entity(aBRepTrsf, op);
  }
  for(int i = 0; i <myShells.size() ; i++)
  {
    OCCShell* occ_shell = myShells.get_and_step();
    occ_shell->update_OCC_entity(aBRepTrsf,op);
  }

  if (aBRepTrsf && !compsolid.IsNull())
    set_TopoDS_Shape(compsolid);

  update_bounding_box(); 

  //unset marks.
  DLIList<OCCCurve*> curves;
  DLIList<OCCPoint*> points;
  get_all_curves(curves);
  get_all_points(points);

  for(int i = 0; i < curves.size(); i++)
    curves.get_and_step()->set_myMarked(CUBIT_FALSE);

  for(int i = 0; i < points.size(); i++)
    points.get_and_step()->set_myMarked(CUBIT_FALSE);
  return CUBIT_SUCCESS;
}
Beispiel #8
0
//-------------------------------------------------------------------------
// Purpose       : Returns the volume of the Lump
//
// Special Notes :
//
// Creator       : 
//
// Creation Date : 
//-------------------------------------------------------------------------
double FacetLump::measure()
{
  DLIList<CubitFacet*> bounding_facets;
  DLIList<CubitPoint*> bounding_points;
  DLIList<FacetSurface*> surfaces;
  Surface *curr_surface;
  FacetSurface *facet_surface;
    //if this is a sheet body... return 0.0
  
    //Body *tmp_body = CAST_TO(myBodyPtr->topology_entity(), Body);
  if( is_sheet() ) 
    return 0.0;
  
  int ii;
  get_surfaces(surfaces);
  if (surfaces.size() > 0)
  { 
    for ( ii = surfaces.size(); ii > 0; ii-- )
    {
      curr_surface = surfaces.get_and_step();
      facet_surface = CAST_TO(curr_surface, FacetSurface);
      if ( facet_surface == NULL )
      {
        PRINT_ERROR("Facet lump has surfaces that aren't facets?");
        return 1;
      }
      facet_surface->get_my_facets(bounding_facets, bounding_points);
    }
  }
  double volume, curr_facet_area, summation = 0.0;
  CubitFacet *curr_facet;
  CubitVector normal_of_curr_facet, vector_of_point;
  CubitPoint *point_1, *point_2, *point_3;

  for( int jj = bounding_facets.size(); jj > 0; jj-- )
  {
    curr_facet = bounding_facets.get_and_step();
    curr_facet_area = curr_facet->area();  // Current facet's area
    
    normal_of_curr_facet = curr_facet->normal(); // Current facet's normal

    curr_facet->points(point_1, point_2, point_3); // Current facet's points

    vector_of_point = point_1->coordinates(); // One point's vector

    summation += ( double(vector_of_point % normal_of_curr_facet) * curr_facet_area);
  }

  volume = summation / 3;
  
  return volume;
}
Beispiel #9
0
void SimplifyTool::process_rounds(RefVolume* ref_volume,
                                  double min_radius, 
                                  double max_radius)
{
    DLIList<RefEdge*> edges;
    ref_volume->ref_edges(edges);

    DLIList<RefFace*> rounds;

    // a edge must have curvature within the tolerance
    for(int j = edges.size();j--;)
    {
        RefEdge* edge = edges.get_and_step();
        CubitVector loc,tan,curv;
        edge->closest_point(edge->curve_center(),loc,&tan,&curv);

        double curv_mag = curv.length();

        if(curv_mag > GEOMETRY_RESABS &&
            1.0/curv_mag >= min_radius &&
            1.0/curv_mag <= max_radius)
        {
            DLIList<RefFace*> new_rounds;
            edge->ref_faces(new_rounds);
            rounds+=new_rounds;
        }

    }

    rounds.uniquify_unordered();
    for(int i = rounds.size();i--;)
    {
        // cull any flat surfaces
        RefFace* curr_face = rounds.get_and_step();

        double curve_0,curve_1;
        curr_face->get_principal_curvatures(curr_face->center_point(),curve_0,curve_1);
        curve_0 = fabs(curve_0);
        curve_1 = fabs(curve_1);

        if((curve_0 > GEOMETRY_RESABS &&
            1.0/curve_0 >= min_radius &&
            1.0/curve_0 <= max_radius) ||
            (curve_1 > GEOMETRY_RESABS &&
            1.0/curve_1 >= min_radius &&
            1.0/curve_1 <= max_radius))     
        {
            GfxDebug::highlight_ref_face(curr_face);
        }
    }
}
Beispiel #10
0
void CubitUtil::list_entity_ids( const char *pre_string, 
                                 const DLIList<CubitEntity*> &entity_list, 
                                 int width, const char *post_string,
                                 int sort, int unique,
                                 int tab, const char *sep_string,
                                 const char *post_string_none )
{
  DLIList <int> id_list( entity_list.size() );
  for ( int i=0; i<entity_list.size(); i++ ) 
    id_list.append( entity_list.next(i)->id() );

  list_entity_ids( pre_string, id_list, width, post_string, sort,
                   unique, tab, sep_string, post_string_none );
}
Beispiel #11
0
CubitStatus SimplifyTool::simplify_volumes(DLIList<RefVolume*> ref_volume_list,
                                           double surf_angle_in,
                                           DLIList<RefFace*> respect_face_list,
                                           DLIList<RefEdge*> respect_edge_list,
                                           CubitBoolean respect_rounds,
                                           CubitBoolean respect_imprints,
                                           CubitBoolean local_normals,
                                           CubitBoolean preview)
{
    ref_volume_list.uniquify_unordered();
    for(int i = ref_volume_list.size();i--;)
        simplify_volume(
        ref_volume_list.get_and_step(),
        surf_angle_in,
        respect_face_list,
        respect_edge_list,
        respect_rounds,
        respect_imprints,
        local_normals,
        preview);

    if(preview)
        GfxDebug::flush();

    return CUBIT_SUCCESS;
}
//-----------------------------------------------------------------------------
// Purpose       : Determines if entities are from the same engine.
//
// Creator       : Tyronne Lim (CAT)
//
// Creation Date : 08/01/03
//-----------------------------------------------------------------------------
CubitBoolean GeometryHealerTool::same_healer_engine( DLIList<RefEntity*> &ref_entity_list,
						                                   CubitBoolean check_children ) const
{
   DLIList<RefEntity*> complete_entity_list;

   //Check the check_children option and check all the children if necessary
   if (check_children)
   {
      //Make a complete list of all the RefEntities and their children
      DLIList<RefEntity*> temp = ref_entity_list;
      RefEntity* ref_entity_ptr;

      for (int i = 0; i < ref_entity_list.size(); i++)
      {
         ref_entity_ptr = ref_entity_list.get_and_step();
         complete_entity_list.clean_out();
         ref_entity_ptr->get_all_child_ref_entities(complete_entity_list);
         temp += complete_entity_list;
      }

      complete_entity_list.clean_out();
      complete_entity_list.merge_unique(temp);
   }

   //Now make sure all the RefEntities are from the same geometry engine
   DLIList<TopologyEntity*> te_list;
   CAST_LIST(complete_entity_list, te_list, TopologyEntity);
   return same_healer_engine(te_list);
}
CubitBoolean AutoMidsurfaceTool::check_surf_pairs(double min_thick, double max_thick,
                                                 DLIList<RefFace*> check_list, Body* body_in )
{
    double total_area = 0.0;
    DLIList<RefVolume*> vol_list;
    body_in->ref_volumes(vol_list);
    double total_vol = 0;
    for(int vol_cnt = 0; vol_cnt < vol_list.size(); vol_cnt++)
    {
        CubitVector cg;
        double temp_volume;
        vol_list[vol_cnt]->mass_properties(cg,temp_volume);
        total_vol += temp_volume;
    }

    for(int i = 0;i<check_list.size();i++)
        total_area += check_list[i]->area();

    total_area/=2.0;

    if(min_thick*total_area < total_vol && max_thick*total_area > total_vol)
        return CUBIT_TRUE;

    return CUBIT_FALSE;
}
Beispiel #14
0
//==================================================================================
//Function:  skin_1d  (PUBLIC)
//Description:  creates a skin of the given facet entities.
//==================================================================================
CubitStatus ChollaSkinTool::skin_1d(DLIList<FacetEntity*> &facet_list,
                                   ChollaCurve *&facet_curve_mesh_ptr)
{
  CubitStatus rv = CUBIT_SUCCESS;
  
  // create a ChollaCurve if we have to (only if this is a 1D facet)
  
  if (!facet_curve_mesh_ptr)
  {
    FacetEntity *edge_ptr = facet_list.get();
    TDGeomFacet *td_gm = TDGeomFacet::get_geom_facet( edge_ptr );
    facet_curve_mesh_ptr = new ChollaCurve( td_gm->get_block_id() );
    
    // associate all of the tooldata on the faces of this surf with the 
    // new ChollaCurve
    
    int ii;
    for (ii=0; ii<facet_list.size(); ii++)
    {
      edge_ptr = facet_list.get_and_step();
      facet_curve_mesh_ptr->add_facet( edge_ptr );
      td_gm = TDGeomFacet::get_geom_facet( edge_ptr );
      td_gm->add_cholla_curve( facet_curve_mesh_ptr );
    }
  }
  
  // Note: the start and end points of this curve will be defined in 
  // ChollaCurve::split_curve.  The BlockPointMesh objects at these points
  // will be defined in MeshGeometryCreator::classify_node
  
  return rv;
}
Beispiel #15
0
void DagDrawingTool::printDag(DLIList<ModelEntity*> &entity_list, int depth) 
{
  int i;
  for (i = entity_list.size(); i > 0; i--) {
    printDag(entity_list.get_and_step(), depth);
  }
}
Beispiel #16
0
void OCCSurface::get_parents_virt( DLIList<TopologyBridge*>& parents )
{ 
  if(myShell) //shell or sheet body
  {
    parents.append(myShell);
    return;
  }

  OCCQueryEngine* oqe = (OCCQueryEngine*) get_geometry_query_engine();
  OCCBody * body = NULL;
  DLIList <OCCBody* > *bodies = oqe->BodyList;
  TopTools_IndexedDataMapOfShapeListOfShape M;
  for(int i = 0; i <  bodies->size(); i++)
  {
     body = bodies->get_and_step();
     TopExp::MapShapesAndAncestors(*(body->get_TopoDS_Shape()),
                                   TopAbs_FACE, TopAbs_SHELL, M);
     if(!M.Contains(*(get_TopoDS_Face())))
	continue;

     const TopTools_ListOfShape& ListOfShapes =
                                M.FindFromKey(*(get_TopoDS_Face()));
     if (!ListOfShapes.IsEmpty())
     {
         TopTools_ListIteratorOfListOfShape it(ListOfShapes) ;
         for (;it.More(); it.Next())
         {
           TopoDS_Shell Shell = TopoDS::Shell(it.Value());
           int k = oqe->OCCMap->Find(Shell);
           parents.append((OCCShell*)(oqe->OccToCGM->find(k))->second);
         }
     }
  }
}
Beispiel #17
0
CubitStatus point_project()
{
  GeometryQueryTool *gti = GeometryQueryTool::instance();

  const char *argv = "box-w-hole.brep";
  CubitStatus status = read_geometry(1, &argv);
  if (status == CUBIT_FAILURE) exit(1);
  
  DLIList<Body*> test_bodies;
  gti->bodies(test_bodies);
  DLIList<Surface*> surfaces;
  BodySM* body = test_bodies.get()->get_body_sm_ptr();
  body->surfaces(surfaces);
  Surface* surf;
  for (int i = 0 ; i <  surfaces.size(); i++)
  {
    surf = surfaces.get_and_step();
    double d = surf->measure();
    if (d < 82.1 && d > 81.9)
      break;
  } 
  CubitVector point(1,1,-5); 
  CubitVector on_surf;
  surf->closest_point_trimmed(point, on_surf); 
  assert (fabs(on_surf.z() + 5) < 0.0001);
  assert (on_surf.y() < 1.001 && on_surf.y() > 0.999);
  assert (on_surf.x() < 2.122 && on_surf.x() > 2.121 );

  CubitVector p1(0, 1.5, -6 );
  surf->closest_point_trimmed(p1, on_surf);
  assert (fabs(on_surf.z() + 5) < 0.0001);
  assert (on_surf.y() < 2.122 && on_surf.y() > 2.121);
  assert (on_surf.x() < 0.0001 && on_surf.x() > -0.0001 );
  return CUBIT_SUCCESS;
}
Beispiel #18
0
//-------------------------------------------------------------------------
// Purpose       : Get named attributes
//
// Special Notes : 
//
// Creator       : Jason Kraftcheck
//
// Creation Date : 03/03/03
//-------------------------------------------------------------------------
void CompositeGeom::get_attributes( const char* name,
                                    DLIList<CubitSimpleAttrib>& list )
{
  if (entityList.size() == 1)
  {
      // handle 8.1 attribs on single-entity 'composites'
    list.clean_out();
    entityList[0].entity->get_simple_attribute(COMPOSITE_DATA_ATTRIB_NAME,list);
    while (list.size())
    {
      CubitSimpleAttrib attrib = list.pop();
      if (attrib.int_data_list()[0] == 1)
      {
        entityList[0].entity->remove_simple_attribute_virt(attrib);
        std::vector<CubitString> s(attrib.string_data_list().begin()+1, attrib.string_data_list().end());
        std::vector<int> i(attrib.int_data_list().begin()+1, attrib.int_data_list().end());
        CubitSimpleAttrib new_attrib(&s, &attrib.double_data_list(), &i);
        entityList[0].entity->append_simple_attribute_virt(new_attrib);
      }
    }
    
    entityList[0].entity->get_simple_attribute(name, list);
  }
    
  for (CompositeAttrib* ptr = listHead; ptr; ptr = ptr->next)
    if (ptr->name() == name)
      list.append(ptr->csa());
}
Beispiel #19
0
//-------------------------------------------------------------------------
// Purpose       : Insert an entry
//
// Special Notes : 
//
// Creator       : Jason Kraftcheck
//
// Creation Date : 12/19/01
//-------------------------------------------------------------------------
CubitStatus CompositeGeom::insert( int index, GeometryEntity* geom_ptr, 
                                   CubitSense sense )
{
  if( index < 0 )
  {
    assert( index >= 0 );
    index = 0;
  }
  else if( index > entityList.size() )
  {
    assert( index <= entityList.size() );
    index = entityList.size();
  }
  
  CompositeEntry ent;
  ent.entity  = geom_ptr;
  ent.sense   = sense;
  ent.dist_sqr = ent.measure = 0.;

  //force 0th surface to be one that has the composite attrib on it.
  DLIList<CubitSimpleAttrib> list;
  geom_ptr->get_simple_attribute(COMPOSITE_DATA_ATTRIB_NAME,list);
  if( list.size() )
    index = 0;

  entityList.insert( ent, index );

  update_cached_data();
   
  return CUBIT_SUCCESS;
}
Beispiel #20
0
//-------------------------------------------------------------------------
// Purpose       : Get all attributes
//
// Special Notes : 
//
// Creator       : Jason Kraftcheck
//
// Creation Date : 06/18/02
//-------------------------------------------------------------------------
void CompositeGeom::get_attributes( DLIList<CubitSimpleAttrib>& list )
{
    // special case: single-entity 'composite'
  if (entityList.size() == 1)
  {
    TopologyBridge* entity = entityList[0].entity;
    entity->get_simple_attribute(list);
    
      // handle 8.1 attribs on single-entity 'composites'
    for (int i = list.size(); i--; )
    {
      const CubitSimpleAttrib& attrib = list.step_and_get();
      if (attrib.character_type() == COMPOSITE_DATA_ATTRIB_NAME &&
          attrib.int_data_list()[0] == 1)
      {
        entity->remove_simple_attribute_virt(attrib);
        CubitSimpleAttrib newattrib = attrib;
        newattrib.string_data_list().erase(newattrib.string_data_list().begin());
        newattrib.int_data_list().erase(newattrib.int_data_list().begin());
        entity->append_simple_attribute_virt(newattrib);
      }
    }
  }
      
    
  for (CompositeAttrib* ptr = listHead; ptr; ptr = ptr->next)
    list.append(ptr->csa());
}
Beispiel #21
0
void OCCBody::remove_simple_attribute_virt(const CubitSimpleAttrib &csa)
{ 
  DLIList<Lump*> my_lumps;
  my_lumps = lumps();
  DLIList<OCCShell*> shells = this->shells();
  DLIList<OCCSurface*> surfaces = this->my_sheet_surfaces();

  if (myTopoDSShape != NULL)
  {
    OCCAttribSet::remove_attribute(csa, *myTopoDSShape);
    return;
  }
 
  else if (my_lumps.size() == 1)
  {
    OCCLump* lump = CAST_TO(my_lumps.get(), OCCLump);
    TopoDS_Solid* solid = lump->get_TopoDS_Solid();
    OCCAttribSet::remove_attribute(csa, *solid);
    if(!csa.isEmpty())
      csa_list.remove(csa);
    else
      csa_list.clean_out();
    return;
  }

  else if(shells.size() == 1)
  {
    TopoDS_Shell * shell = shells.get()->get_TopoDS_Shell();
    OCCAttribSet::remove_attribute(csa, *shell);
    if(!csa.isEmpty())
      csa_list.remove(csa);
    else
      csa_list.clean_out();
    return;
  }

  else if(surfaces.size() == 1)
  {
    TopoDS_Face* surf = surfaces.get()->get_TopoDS_Face();
    OCCAttribSet::remove_attribute(csa, *surf);
    if(!csa.isEmpty())
      csa_list.remove(csa);
    else
      csa_list.clean_out();
    return;
  } 
}
Beispiel #22
0
void PointGridSearch::bounding_range(DLIList<CubitPoint*>& point_list)
{

  if ( !point_list.size() )
    return;
  
    // initialize min and max range values to the first point coordinates
  boundingRangeMinimum = point_list.get()->coordinates();
  boundingRangeMaximum = point_list.get_and_step()->coordinates();
  
    // find the min and max coordinates that completely encloses the
    // point list
  
  for (int i = 1; i < point_list.size(); i++)
    bounding_range(point_list.get_and_step());

}
Beispiel #23
0
void CAMergePartner::merge_prepare(DLIList<RefEntity*> &merge_list)
{
  DLIList<CubitAttrib*> my_ca_list;
  CAMergePartner *my_camp_ptr;
  RefEntity* re_ptr;

    // get all the merge partner attributes that are on my owner
  attribOwnerEntity->find_cubit_attrib_type(CA_MERGE_PARTNER, my_ca_list);
  merge_list.clean_out();
  DLIList<ToolDataUser*> td_list, temp_td_list;
  int i;
  for (i = my_ca_list.size(); i > 0; i--)
  {
    my_camp_ptr = CAST_TO(my_ca_list.get(),CAMergePartner);
    my_ca_list.step();
    td_list.clean_out();
      // get all the objects with this unique id (which is also the merge id)
    TDUniqueId::find_td_unique_id(my_camp_ptr->merge_id(), temp_td_list);
    td_list += temp_td_list;
  }
  
    // now put those entities into the merge_list
  for (i = td_list.size(); i > 0; i--) 
  {
    re_ptr = CAST_TO(td_list.get(), RefEntity);
    if (re_ptr) 
    {
      CubitAttrib *tmp_attrib = re_ptr->get_cubit_attrib( CA_MERGE_PARTNER, CUBIT_FALSE );
      if( tmp_attrib )
        merge_list.append(re_ptr);
    }
    td_list.step();
  }
  
    // Now get bridge sense for each entity in list.
    // Add this entity to list, too.
  merge_list.append( attribOwnerEntity );
  for( i = merge_list.size(); i--; )
  {
    RefEntity* ent = merge_list.get_and_step();
    TopologyEntity* te = dynamic_cast<TopologyEntity*>(ent);
    if( te->bridge_manager()->number_of_bridges() != 1 )
      continue;
    
    my_ca_list.clean_out();
    ent->find_cubit_attrib_type(CA_MERGE_PARTNER, my_ca_list);
    assert( my_ca_list.size() < 2);
    if( !my_ca_list.size() )
      continue;
    
    my_camp_ptr = dynamic_cast<CAMergePartner*>(my_ca_list.get());
    if( my_camp_ptr->bridge_sense() == CUBIT_UNKNOWN )
      continue;
  }  
  merge_list.pop(); // take attribOwnerEntity back off list
    
  return;
}
Beispiel #24
0
CubitStatus SimplifyTool::simplify_surfaces(DLIList<RefFace*> ref_face_list, 
                                            double angle_in,
                                            DLIList<RefFace*> respect_face_list,
                                            DLIList<RefEdge*> respect_edge_list,
                                            CubitBoolean respect_rounds,
                                            CubitBoolean respect_imprints,
                                            CubitBoolean local_normals,
                                            CubitBoolean preview)
{
    CubitStatus status = CUBIT_FAILURE;
    ref_face_list.uniquify_unordered();
    while(ref_face_list.size())
    {
        DLIList<RefFace*> ref_faces_in_volume;
        ref_face_list.reset();
        RefFace* cur_face = ref_face_list.get_and_step();
        RefVolume* cur_vol = cur_face->ref_volume();
        ref_faces_in_volume.append(cur_face);
        for(int i =1;i<ref_face_list.size();i++)
        {
            RefFace* face = ref_face_list.get_and_step();
            if(face->ref_volume() == cur_vol)
                ref_faces_in_volume.append(face);
        }

        if(ref_faces_in_volume.size()>1)
        {
            status = simplify_surfaces_in_volume(
                ref_faces_in_volume,
                angle_in,
                respect_face_list,
                respect_edge_list,
                respect_rounds,
                respect_imprints,
                local_normals,
                preview);
        }
        ref_face_list -= ref_faces_in_volume;
    }

    if(preview)
        GfxDebug::flush();

    return CUBIT_SUCCESS;
}
Beispiel #25
0
//-------------------------------------------------------------------------
// Purpose       : Check if shell is a sheet.
//
// Special Notes : 
//
// Creator       : Jason Kraftcheck
//
// Creation Date : 01/15/04
//-------------------------------------------------------------------------
CubitBoolean Shell::is_sheet()
{
  DLIList<RefFace*> faces;
  ref_faces(faces);
  while (faces.size())
    if ( ! faces.pop()->is_nonmanifold(this) )
      return CUBIT_FALSE;
  return CUBIT_TRUE;
}  
Beispiel #26
0
//----------------------------------------------------------------
// Function: to update the core Surface
//           for any movement  or Boolean operation of the body.
// Author: Jane Hu
//----------------------------------------------------------------
CubitStatus OCCSurface::update_OCC_entity( BRepBuilderAPI_Transform *aBRepTrsf,
                                         BRepAlgoAPI_BooleanOperation *op)
{
  assert(aBRepTrsf != NULL || op != NULL);

  TopoDS_Shape shape;
  if (aBRepTrsf)
    shape = aBRepTrsf->ModifiedShape(*get_TopoDS_Face());
  else
  {
    TopTools_ListOfShape shapes;
    shapes.Assign(op->Modified(*get_TopoDS_Face()));
    if(shapes.Extent() == 0)
         shapes.Assign(op->Generated(*get_TopoDS_Face()));
    if (shapes.Extent() == 1)
      shape = shapes.First();
    else if(shapes.Extent() > 1)
    {
      //update all attributes first.
      TopTools_ListIteratorOfListOfShape it;
      it.Initialize(shapes);
      for(; it.More(); it.Next())
      {
        shape = it.Value();
        OCCQueryEngine::instance()->copy_attributes(*get_TopoDS_Face(), shape);
      }
      shape = shapes.First();
    }
    else if(op->IsDeleted(*get_TopoDS_Face()))
      ;
    else
      return CUBIT_SUCCESS;
  }
 
  TopoDS_Face surface; 
  if(!shape.IsNull())
    surface = TopoDS::Face(shape);

  if (aBRepTrsf) 
  {
    //set the loops
    DLIList<OCCLoop *> loops;
    this->get_loops(loops);
    for (int i = 1; i <= loops.size(); i++)
    {
       OCCLoop *loop = loops.get_and_step();
       loop->update_OCC_entity(aBRepTrsf, op);
    }
    OCCQueryEngine::instance()->update_OCC_map(*myTopoDSFace, surface);
  }

  else if(op)
    update_OCC_entity(*myTopoDSFace, surface, op);

  return CUBIT_SUCCESS;
}
Beispiel #27
0
//-------------------------------------------------------------------------
// Purpose       : Clean out composite attributes.
//
// Special Notes : 
//
// Creator       : Jason Kraftcheck
//
// Creation Date : 07/01/03
//-------------------------------------------------------------------------
void CompositeGeom::clean_up_attribs( GeometryEntity* ent )
{
  DLIList<CubitSimpleAttrib> list;
  ent->get_simple_attribute(COMPOSITE_DATA_ATTRIB_NAME,list);
  while (list.size())
  {
    CubitSimpleAttrib csa = list.pop();
    ent->remove_simple_attribute_virt(csa);
  }
}
Beispiel #28
0
int PST_Edge::validate( DLIList<PST_Edge*>& edges, CubitBoolean print )
{
  DLIList<PST_Face*> faces;
  PST_Edge::faces( edges, faces );
  
  int result = 0;
  for( int f = faces.size(); f--; )
    result += faces.get_and_step()->validate(print);
  return result;
}
Beispiel #29
0
//-------------------------------------------------------------------------
// Purpose	 : Find the parents of a list of nodes at a specified level
//		   in the DAG, relative to the node.
//
// Special Notes :
//
// Creator	 : Jason Kraftcheck
//
// Creation Date : 09/16/97
//-------------------------------------------------------------------------
CubitStatus DAG::get_parents_at_level( DLIList<ModelEntity*>& child_list, 
                                       int level,
                                       DLIList<ModelEntity*>& result_set )
{
  assert( level > 0 );
  if( child_list.size( ) < 1 ) return CUBIT_FAILURE;
	
  DLIList<ModelEntity*> parent_list;   // children of all parents
  DLIList<ModelEntity*> current_node_parents;
	
    //Get a list of all the parents one level up from 
    //the nodes in child_list.
  for( int i = 0; i < child_list.size( ); i++ )
  {
    ModelEntity* current = child_list.get_and_step( );
		
    current_node_parents.clean_out( );
    current->get_parents( &current_node_parents );
		
    for( int j = 0; j < current_node_parents.size( ); j++ )
    {
      parent_list.append_unique(
        current_node_parents.get_and_step( ) );
    }
  }
	
    //If we found no parents, return failure.
  if( parent_list.size( ) < 1 ) return CUBIT_FAILURE;
	
    //If level 1, then return the list of parents.
  if( level == 1 )
  {
    result_set = parent_list;
    return CUBIT_SUCCESS;
  }
    //Otherwise get next level down by recursion.
  else
  {
    return get_parents_at_level( parent_list, level - 1, 
                                 result_set );
  }	
}
Beispiel #30
0
//-------------------------------------------------------------------------
// Purpose       : Get the bounding box of the object.
//
// Special Notes :
//
//-------------------------------------------------------------------------
CubitBox FacetLump::bounding_box() const 
{
  CubitBox my_box, temp_box;
  DLIList<FacetSurface*> surfaces;
  int ii;
  const_cast<FacetLump*>(this)->get_surfaces(surfaces);
  if (surfaces.size() > 0)
  {
    Surface* surface = surfaces.get_and_step();
    my_box = surface->bounding_box();
    for ( ii = surfaces.size(); ii > 1; ii-- )
    {
      surface = surfaces.get_and_step();
      temp_box = surface->bounding_box();
        //unite the boxes..
      my_box |= temp_box;
    }
  }
  return my_box;
}