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cgma
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#include <OCCBody.hpp>
Definition at line 48 of file OCCBody.hpp.
| OCCBody::OCCBody | ( | TopoDS_Compound * | theShape, |
| OCCSurface * | surface = NULL, |
||
| OCCShell * | shell = NULL, |
||
| Lump * | lump = NULL |
||
| ) |
Definition at line 66 of file OCCBody.cpp.
{
myTopoDSShape = theShape;
if (surface != NULL)
mySheetSurfaces.append(surface);
if( shell != NULL)
myShells.append(shell);
if (lump != NULL)
myLumps.append(lump);
update_bounding_box();
if (myTopoDSShape && !myTopoDSShape->IsNull())
assert(myTopoDSShape->ShapeType() == TopAbs_COMPOUND);
}
| OCCBody::OCCBody | ( | DLIList< Lump * > & | my_lumps, |
| DLIList< OCCShell * > & | shells, | ||
| DLIList< OCCSurface * > & | surfaces | ||
| ) |
Definition at line 167 of file OCCBody.cpp.
{
myLumps = my_lumps;
mySheetSurfaces = surfaces;
myShells = shells;
TopoDS_Compound* new_top = make_Compound(my_lumps, shells, surfaces);
myTopoDSShape = new_top;
assert (myTopoDSShape->ShapeType() == TopAbs_COMPOUND);
update_bounding_box();
}
| OCCBody::~OCCBody | ( | ) | [virtual] |
Definition at line 214 of file OCCBody.cpp.
{
if (myTopoDSShape)
{
myTopoDSShape->Nullify();
delete (TopoDS_Compound*)myTopoDSShape;
myTopoDSShape = NULL;
}
}
| void OCCBody::append_simple_attribute_virt | ( | const CubitSimpleAttrib & | csa | ) | [virtual] |
Implements TopologyBridge.
Definition at line 229 of file OCCBody.cpp.
{
if (myTopoDSShape != NULL)
{
OCCAttribSet::append_attribute(csa, *myTopoDSShape);
return;
}
csa_list.append_unique(csa);
}
| BodySM * OCCBody::copy | ( | ) | [virtual] |
Definition at line 330 of file OCCBody.cpp.
{
return (BodySM*)NULL;
}
| void OCCBody::get_all_curves | ( | DLIList< OCCCurve * > & | curves | ) |
Definition at line 874 of file OCCBody.cpp.
{
TopoDS_Shape *shape;
get_TopoDS_Shape(shape);
TopTools_IndexedMapOfShape M;
TopExp::MapShapes(*shape, TopAbs_EDGE, M);
int ii;
for (ii=1; ii<=M.Extent(); ii++) {
TopologyBridge *curve = OCCQueryEngine::instance()->occ_to_cgm(M(ii));
OCCCurve* occ_curve = CAST_TO(curve, OCCCurve);
if (occ_curve)
curves.append_unique(occ_curve);
}
}
| void OCCBody::get_all_points | ( | DLIList< OCCPoint * > & | points | ) |
Definition at line 900 of file OCCBody.cpp.
{
TopoDS_Shape *shape;
get_TopoDS_Shape(shape);
TopTools_IndexedMapOfShape M;
TopExp::MapShapes(*shape, TopAbs_VERTEX, M);
int ii;
for (ii=1; ii<=M.Extent(); ii++) {
TopologyBridge *vertex = OCCQueryEngine::instance()->occ_to_cgm(M(ii));
OCCPoint* occ_point = CAST_TO(vertex, OCCPoint);
if (occ_point)
points.append_unique(occ_point);
}
DLIList<OCCSurface*> surfaces;
this->get_all_surfaces(surfaces);
for(int i = 0; i < surfaces.size(); i++)
{
OCCSurface* occ_surf = surfaces.get_and_step();
points += occ_surf->get_hardpoints();
}
}
| void OCCBody::get_all_surfaces | ( | DLIList< OCCSurface * > & | surfaces | ) |
Definition at line 848 of file OCCBody.cpp.
{
TopoDS_Shape *shape;
get_TopoDS_Shape(shape);
TopTools_IndexedMapOfShape M;
TopExp::MapShapes(*shape, TopAbs_FACE, M);
int ii;
for (ii=1; ii<=M.Extent(); ii++) {
TopologyBridge *face = OCCQueryEngine::instance()->occ_to_cgm(M(ii));
OCCSurface* occ_face = CAST_TO(face, OCCSurface);
if (occ_face)
surfaces.append_unique(occ_face);
}
}
Definition at line 726 of file OCCBody.cpp.
{
return boundingbox ;
}
| void OCCBody::get_children_virt | ( | DLIList< TopologyBridge * > & | children | ) | [virtual] |
Implements TopologyBridge.
Definition at line 734 of file OCCBody.cpp.
{
for(int i = 0; i < mySheetSurfaces.size(); i++)
{
OCCSurface* surface = mySheetSurfaces.get_and_step();
lumps.append(surface->my_lump());
}
for(int i = 0; i <myShells.size() ; i++)
{
OCCShell* occ_shell = myShells.get_and_step();
lumps.append(occ_shell->my_lump());
}
for(int i = 0; i <myLumps.size(); i++)
lumps.append( myLumps.get_and_step());
return;
}
| GeometryQueryEngine * OCCBody::get_geometry_query_engine | ( | ) | const [virtual] |
Implements TopologyBridge.
Definition at line 224 of file OCCBody.cpp.
{
return OCCQueryEngine::instance();
}
| void OCCBody::get_parents_virt | ( | DLIList< TopologyBridge * > & | parents | ) | [virtual] |
| CubitStatus OCCBody::get_simple_attribute | ( | DLIList< CubitSimpleAttrib > & | csas | ) | [virtual] |
Implements TopologyBridge.
Definition at line 293 of file OCCBody.cpp.
{
if (myTopoDSShape != NULL)
return OCCAttribSet::get_attributes(*myTopoDSShape,csas);
else
csas = csa_list;
return CUBIT_SUCCESS;
}
| CubitStatus OCCBody::get_simple_attribute | ( | const CubitString & | name, |
| DLIList< CubitSimpleAttrib > & | csas | ||
| ) | [virtual] |
Implements TopologyBridge.
Definition at line 303 of file OCCBody.cpp.
{
if (myTopoDSShape != NULL)
return OCCAttribSet::get_attributes( name, *myTopoDSShape, csa_list );
for(int i = 0 ; i < csa_list.size(); i ++)
{
const CubitSimpleAttrib& csa = csa_list.get_and_step();
if(csa.string_data_list().size() > 0)
if (csa.string_data_list()[0] == name)
csas.append(csa);
}
return CUBIT_SUCCESS;
}
| TopoDS_Compound * OCCBody::get_TopoDS_Shape | ( | ) |
Definition at line 81 of file OCCBody.cpp.
{
if (myTopoDSShape && !myTopoDSShape->IsNull())
{
assert(myTopoDSShape->ShapeType() == TopAbs_COMPOUND);
return myTopoDSShape;
}
return (TopoDS_Compound*)NULL;
}
| void OCCBody::get_TopoDS_Shape | ( | TopoDS_Shape *& | shape | ) |
Definition at line 91 of file OCCBody.cpp.
{
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;
}
}
| CubitStatus OCCBody::get_transforms | ( | CubitTransformMatrix & | tfm | ) | [virtual] |
| CubitBoolean OCCBody::is_sheet_body | ( | ) | [virtual] |
Definition at line 131 of file OCCBody.cpp.
{
if(myLumps.size() == 0 && myShells.size() == 0 && mySheetSurfaces.size() == 1)
return CUBIT_TRUE;
return CUBIT_FALSE;
}
| void OCCBody::lumps | ( | DLIList< Lump * > & | my_lumps | ) |
Definition at line 126 of file OCCBody.cpp.
{
myLumps = my_lumps;
}
| DLIList<Lump*> OCCBody::lumps | ( | ) | [inline] |
Definition at line 58 of file OCCBody.hpp.
{return myLumps;}
| TopoDS_Compound * OCCBody::make_Compound | ( | DLIList< Lump * > & | my_lumps, |
| DLIList< OCCShell * > & | shells, | ||
| DLIList< OCCSurface * > & | surfaces | ||
| ) | [static] |
Definition at line 180 of file OCCBody.cpp.
{
BRep_Builder B;
TopoDS_Compound Co;
B.MakeCompound(Co);
for(int i = 0; i < my_lumps.size(); i ++)
{
OCCLump* lump = CAST_TO(my_lumps.get_and_step(), OCCLump);
if(!lump)
{
PRINT_ERROR("Cannot create an OCC BodySM from the given lumps.\n"
"Possible incompatible geometry engines.\n");
return (TopoDS_Compound *)NULL;
}
TopoDS_Solid * solid = CAST_TO(lump, OCCLump)->get_TopoDS_Solid();
B.Add(Co, *solid);
}
for(int i = 0; i < shells.size(); i ++)
{
TopoDS_Shell * shell = shells.get_and_step()->get_TopoDS_Shell();
B.Add(Co, *shell);
}
for(int i = 0; i < surfaces.size(); i ++)
{
TopoDS_Face * face = surfaces.get_and_step()->get_TopoDS_Face();
B.Add(Co, *face);
}
TopoDS_Compound* new_top = new TopoDS_Compound(Co);
return new_top;
}
| CubitStatus OCCBody::mass_properties | ( | CubitVector & | result, |
| double & | volume | ||
| ) | [virtual] |
Implements BodySM.
Definition at line 762 of file OCCBody.cpp.
{
if( myShells.size() == 0 && myLumps.size() == 0)
return CUBIT_FAILURE;
GProp_GProps myProps;
TopoDS_Shape* pshape = myTopoDSShape;
if(!pshape || pshape->IsNull())//single lump or shell or surface
{
DLIList<Lump*> lumps = this->lumps();
if (lumps.size() > 0)
pshape = CAST_TO(lumps.get(), OCCLump)->get_TopoDS_Solid();
}
if(!pshape || pshape->IsNull())
return CUBIT_FAILURE;
BRepGProp::VolumeProperties(*pshape, myProps);
volume = myProps.Mass();
gp_Pnt pt = myProps.CentreOfMass();
centroid.set(pt.X(), pt.Y(), pt.Z());
return CUBIT_SUCCESS;
}
| CubitStatus OCCBody::move | ( | double | dx, |
| double | dy, | ||
| double | dz | ||
| ) | [virtual] |
Definition at line 341 of file OCCBody.cpp.
{
double tol = OCCQueryEngine::instance()->get_sme_resabs_tolerance();
if(fabs(dx) < tol && fabs(dy) < tol && fabs(dz) < tol)
return CUBIT_SUCCESS;
gp_Vec aVec(dx, dy, dz);
gp_Trsf aTrsf;
aTrsf.SetTranslation(aVec);
BRepBuilderAPI_Transform aBRepTrsf(aTrsf);
return transform(aBRepTrsf);
}
| DLIList<OCCSurface*> OCCBody::my_sheet_surfaces | ( | ) | [inline] |
Definition at line 187 of file OCCBody.hpp.
{return mySheetSurfaces;}
| CubitPointContainment OCCBody::point_containment | ( | const CubitVector & | pos, |
| double | tolerance | ||
| ) | [virtual] |
Implements BodySM.
Definition at line 794 of file OCCBody.cpp.
{
CubitPointContainment pc_value;
OCCLump *lump;
int i;
for( i=myLumps.size(); i--;)
{
lump = dynamic_cast<OCCLump*>(myLumps.get_and_step());
pc_value = lump->point_containment( point );
if( pc_value == CUBIT_PNT_INSIDE )
return CUBIT_PNT_INSIDE;
else if( pc_value == CUBIT_PNT_BOUNDARY )
return CUBIT_PNT_BOUNDARY;
}
for(int i = 0; i < mySheetSurfaces.size(); i++)
{
OCCSurface* surface = mySheetSurfaces.get_and_step();
pc_value = surface->point_containment( point );
if( pc_value == CUBIT_PNT_INSIDE )
return CUBIT_PNT_INSIDE;
else if( pc_value == CUBIT_PNT_BOUNDARY )
return CUBIT_PNT_BOUNDARY;
}
for(int i = 0; i <myShells.size() ; i++)
{
OCCShell* occ_shell = myShells.get_and_step();
DLIList<TopologyBridge*> children;
occ_shell->get_children_virt(children);
for(int j = 0; j < children.size(); j++)
{
OCCSurface* surface = CAST_TO(children.get_and_step(), OCCSurface);
pc_value = surface->point_containment( point );
if( pc_value == CUBIT_PNT_INSIDE )
return CUBIT_PNT_INSIDE;
else if( pc_value == CUBIT_PNT_BOUNDARY )
return CUBIT_PNT_BOUNDARY;
}
}
return CUBIT_PNT_OUTSIDE;
}
| CubitStatus OCCBody::reflect | ( | double | reflect_axis_x, |
| double | reflect_axis_y, | ||
| double | reflect_axis_z | ||
| ) |
Definition at line 450 of file OCCBody.cpp.
{
gp_Pnt aOrigin(0,0,0);
gp_Dir aDir(reflect_axis_x, reflect_axis_y,reflect_axis_z);
gp_Ax2 anAx2(aOrigin, aDir);
gp_Trsf aTrsf;
aTrsf.SetMirror(anAx2);
BRepBuilderAPI_Transform aBRepTrsf(aTrsf);
return transform(aBRepTrsf);
}
| void OCCBody::remove_all_simple_attribute_virt | ( | ) | [virtual] |
Implements TopologyBridge.
Definition at line 288 of file OCCBody.cpp.
| void OCCBody::remove_simple_attribute_virt | ( | const CubitSimpleAttrib & | csa | ) | [virtual] |
Implements TopologyBridge.
Definition at line 239 of file OCCBody.cpp.
{
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;
}
}
| CubitStatus OCCBody::rotate | ( | double | x, |
| double | y, | ||
| double | z, | ||
| double | angle | ||
| ) | [virtual] |
Definition at line 363 of file OCCBody.cpp.
{
gp_Pnt aOrigin(0,0,0);
gp_Dir aDir(x, y, z);
gp_Ax1 anAxis(aOrigin, aDir);
//a is angular value of rotation in radians
gp_Trsf aTrsf;
aTrsf.SetRotation(anAxis, angle);
BRepBuilderAPI_Transform aBRepTrsf(aTrsf);
return transform(aBRepTrsf);
}
| CubitStatus OCCBody::scale | ( | double | scale_factor_x, |
| double | scale_factor_y, | ||
| double | scale_factor_z | ||
| ) | [virtual] |
Definition at line 421 of file OCCBody.cpp.
{
gp_GTrsf gTrsf;
gTrsf.SetValue(1,1, scale_factor_x);
gTrsf.SetValue(2,2, scale_factor_y);
gTrsf.SetValue(3,3, scale_factor_z);
BRepBuilderAPI_GTransform gBRepTrsf(gTrsf);
TopoDS_Shape * shape;
get_TopoDS_Shape(shape);
gBRepTrsf.Perform(*shape);
update_OCC_entity(&gBRepTrsf);
// calculate for bounding box
update_bounding_box();
return CUBIT_SUCCESS;
}
| CubitStatus OCCBody::scale | ( | double | scale_factor | ) | [virtual] |
Definition at line 406 of file OCCBody.cpp.
{
gp_Trsf aTrsf;
aTrsf.SetScaleFactor(scale_factor);
BRepBuilderAPI_Transform aBRepTrsf(aTrsf);
CubitStatus stat = transform(aBRepTrsf);
return stat;
}
| void OCCBody::set_sheet_surfaces | ( | DLIList< OCCSurface * > | surfaces | ) |
Definition at line 121 of file OCCBody.cpp.
{
mySheetSurfaces = surfaces;
}
| void OCCBody::set_sheet_surfaces | ( | OCCSurface * | surf | ) | [inline] |
Definition at line 191 of file OCCBody.hpp.
{mySheetSurfaces.append(surf);}
| void OCCBody::set_TopoDS_Shape | ( | TopoDS_Compound & | theshape | ) |
Definition at line 138 of file OCCBody.cpp.
{
if(!theshape.IsNull())
assert(theshape.ShapeType() == TopAbs_COMPOUND);
else
{
if(myTopoDSShape && !myTopoDSShape->IsNull())
myTopoDSShape->Nullify();
return;
}
if(myTopoDSShape && !myTopoDSShape->IsNull() && theshape.IsEqual(*myTopoDSShape))
return;
if (myTopoDSShape && !myTopoDSShape->IsNull() && theshape.IsPartner(*myTopoDSShape))
{
myTopoDSShape->Location(theshape.Location());
myTopoDSShape->Orientation(theshape.Orientation());
}
else
{
if(myTopoDSShape)
myTopoDSShape->Nullify();
*myTopoDSShape = theshape;
}
}
| void OCCBody::shells | ( | DLIList< OCCShell * > | shells | ) | [inline] |
Definition at line 60 of file OCCBody.hpp.
| void OCCBody::shells | ( | OCCShell * | shell | ) | [inline] |
Definition at line 61 of file OCCBody.hpp.
| DLIList<OCCShell*> OCCBody::shells | ( | ) | [inline] |
Definition at line 62 of file OCCBody.hpp.
{return myShells;}
| CubitStatus OCCBody::transform | ( | BRepBuilderAPI_Transform & | aBRepTrsf | ) |
Definition at line 386 of file OCCBody.cpp.
{
TopoDS_Shape * shape;
get_TopoDS_Shape(shape);
aBRepTrsf.Perform(*shape);
update_OCC_entity(&aBRepTrsf);
// calculate for bounding box
update_bounding_box();
return CUBIT_SUCCESS;
}
| void OCCBody::update_bounding_box | ( | ) |
Definition at line 676 of file OCCBody.cpp.
{
Bnd_Box box;
TopoDS_Shape shape;
for (int i = 0; i < myLumps.size(); i++)
{
OCCLump *lump = CAST_TO(myLumps.get_and_step(), OCCLump);
shape = *lump->get_TopoDS_Solid();
BRepBndLib::Add(shape, box);
}
for(int i = 0; i < mySheetSurfaces.size(); i++)
{
OCCSurface* surface = mySheetSurfaces.get_and_step();
shape = *surface->get_TopoDS_Face();
BRepBndLib::Add(shape, box);
}
for(int i = 0; i <myShells.size() ; i++)
{
OCCShell* occ_shell = myShells.get_and_step();
shape = *occ_shell->get_TopoDS_Shell();
BRepBndLib::Add(shape, box);
}
//calculate the bounding box
if(myLumps.size() + mySheetSurfaces.size() + myShells.size() == 0)
{
if(!myTopoDSShape)
return;
TopoDS_Shape shape = *myTopoDSShape;
BRepBndLib::Add(shape, box);
}
double min[3], max[3];
//get values
box.Get(min[0], min[1], min[2], max[0], max[1], max[2]);
//update boundingbox.
boundingbox.reset(min, max);
}
| CubitStatus OCCBody::update_OCC_entity | ( | BRepBuilderAPI_ModifyShape * | aBRepTrsf, |
| BRepAlgoAPI_BooleanOperation * | op = NULL |
||
| ) |
Definition at line 472 of file OCCBody.cpp.
{
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;
}
| CubitStatus OCCBody::update_OCC_entity | ( | TopoDS_Shape & | old_shape, |
| TopoDS_Shape & | new_shape, | ||
| BRepBuilderAPI_MakeShape * | op, | ||
| LocOpe_SplitShape * | sp = NULL |
||
| ) | [static] |
Definition at line 535 of file OCCBody.cpp.
{
//set the Shells
TopTools_IndexedMapOfShape M;
TopExp::MapShapes(old_shape, TopAbs_SOLID, M);
TopTools_IndexedMapOfShape M_new;
TopExp::MapShapes(new_shape, TopAbs_SOLID, M_new);
TopTools_ListOfShape shapes;
TopoDS_Shape shape;
CubitBoolean updated = CUBIT_FALSE;
if(!old_shape.IsNull() && old_shape.ShapeType() == TopAbs_COMPOUND &&
!new_shape.IsNull() && new_shape.ShapeType() == TopAbs_COMPOUND &&
!old_shape.IsSame(new_shape))
{
//By updating underling solids, shells etc., the old_shape will get changed.
//trying to make sure the the number of each entity in the old and new
//shapes are the same, which means that nothing is delete, that we can
//update the map here. Otherwise, when deleting solids, it'll delete the
//the old body and create new body. This is Ok for general boolean operation //except imprint when booleans are called, usually the original body are
// supposed to be kept.
updated = CUBIT_TRUE;
OCCQueryEngine::instance()->update_OCC_map(old_shape, new_shape);
}
DLIList<int> new_solid_nums;
DLIList<int> unfound_nums;
for(int ii=1; ii<=M.Extent(); ii++)
{
TopoDS_Solid solid = TopoDS::Solid(M(ii));
TopTools_ListOfShape shapes;
if(op)
{
shapes.Assign(op->Modified(solid));
if(shapes.Extent() == 0)
shapes.Assign(op->Generated(solid));
}
else if(sp)
shapes.Assign(sp->DescendantShapes(solid));
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(solid, shape);
}
shape = shapes.First();
}
else if(op->IsDeleted(solid))
{
if (M_new.Extent()== 1 && ii == 1)
shape = M_new(1);
else if(M_new.Extent()== 1 && ii > 1)
shape.Nullify();
else if(M_new.Extent() > 1)
{
GProp_GProps myProps;
BRepGProp::VolumeProperties(solid, myProps);
double bf_mass = myProps.Mass();
gp_Pnt old_center = myProps.CentreOfMass();
CubitBoolean found = CUBIT_FALSE;
for(int l = 1; l <= M_new.Extent(); l++)
{
BRepGProp::VolumeProperties(M_new(l), myProps);
double af_mass = myProps.Mass();
double dTol = OCCQueryEngine::instance()->get_sme_resabs_tolerance();
if(fabs(bf_mass-af_mass) < dTol) //unchanged
{
gp_Pnt new_center = myProps.CentreOfMass();
if(new_center.IsEqual(old_center, dTol))
{
found = CUBIT_TRUE;
shape = M_new(l);
new_solid_nums.append(l);
break;
}
}
}
if(!found)
{
unfound_nums.append(ii);
continue;
}
}
else
shape.Nullify();
}
else
{
shape = solid;
continue;
}
if(shapes.Extent() > 0 || (op && op->IsDeleted(solid)))
OCCLump::update_OCC_entity(solid, shape, op, sp);
}
if( unfound_nums.size() == 1 )
{
TopoDS_Solid solid = TopoDS::Solid(M(unfound_nums.get()));
for(int kk = 1; kk <= M_new.Extent(); kk++)
{
if(!new_solid_nums.move_to(kk))
{
shape = M_new(kk);
break;
}
}
OCCLump::update_OCC_entity(solid, shape, op, sp);
}
else if(unfound_nums.size() > 1)
{
shape.Nullify();
for(int kk = 1; kk <=unfound_nums.size(); kk++)
{
TopoDS_Solid solid = TopoDS::Solid(M(unfound_nums.get_and_step()));
OCCLump::update_OCC_entity(solid, shape, op, sp);
}
}
if(!old_shape.IsSame(new_shape) && !updated)
OCCQueryEngine::instance()->update_OCC_map(old_shape, new_shape);
return CUBIT_SUCCESS;
}
CubitBox OCCBody::boundingbox [private] |
Definition at line 208 of file OCCBody.hpp.
DLIList<CubitSimpleAttrib> OCCBody::csa_list [private] |
Definition at line 204 of file OCCBody.hpp.
DLIList<Lump*> OCCBody::myLumps [private] |
Definition at line 202 of file OCCBody.hpp.
DLIList<OCCSurface*> OCCBody::mySheetSurfaces [private] |
Definition at line 210 of file OCCBody.hpp.
DLIList<OCCShell*> OCCBody::myShells [private] |
Definition at line 212 of file OCCBody.hpp.
TopoDS_Compound* OCCBody::myTopoDSShape [private] |
Definition at line 206 of file OCCBody.hpp.
1.7.6.1