Ejemplo n.º 1
0
    // Set the face traits
    void SetFaceTraits (PNamedShape loft) 
    { 
        // designated names of the faces
        std::vector<std::string> names(5);
        names[0]="Bottom";
        names[1]="Top";
        names[2]="TrailingEdge";
        names[3]="Inside";
        names[4]="Outside";

        // map of faces
        TopTools_IndexedMapOfShape map;
        TopExp::MapShapes(loft->Shape(),   TopAbs_FACE, map);

        // check if number of faces is correct (only valid for ruled surfaces lofts)
        if (map.Extent() != 5 && map.Extent() != 4) {
            LOG(ERROR) << "CCPACSWingSegment: Unable to determine face names in ruled surface loft";
            return;
        }
        // remove trailing edge name if there is no trailing edge
        if (map.Extent() == 4) {
            names.erase(names.begin()+2);
        }
        // set face trait names
        for (int i = 0; i < map.Extent(); i++) {
            CFaceTraits traits = loft->GetFaceTraits(i);
            traits.SetName(names[i].c_str());
            loft->SetFaceTraits(i, traits);
        }
    }
Ejemplo n.º 2
0
PNamedShape CCPACSControlSurfaceDevice::getTransformedFlapShape()
{
    PNamedShape deviceShape = getFlapShape()->DeepCopy();
    gp_Trsf T = GetFlapTransform();
    BRepBuilderAPI_Transform form(deviceShape->Shape(), T);
    deviceShape->SetShape(form.Shape());
    
    // store the transformation property. Required e.g. for VTK metadata
    gp_GTrsf gT(T);
    CTiglTransformation tiglTrafo(gT);
    unsigned int nFaces = deviceShape->GetFaceCount();
    for (unsigned int iFace = 0; iFace < nFaces; ++iFace) {
        CFaceTraits ft = deviceShape->GetFaceTraits(iFace);
        ft.SetTransformation(tiglTrafo);
        deviceShape->SetFaceTraits(iFace, ft);
    }
    
    return deviceShape;
}
Ejemplo n.º 3
0
ListPNamedShape GroupFaces(const PNamedShape shape, tigl::ShapeGroupMode groupType)
{
    ListPNamedShape shapeList;
    if (!shape) {
        return shapeList;
    }

    if (groupType == tigl::NAMED_COMPOUNDS) {
        BRep_Builder b;
        TopTools_IndexedMapOfShape faceMap;
        std::map<PNamedShape, TopoDS_Shape> map;
        TopExp::MapShapes(shape->Shape(),   TopAbs_FACE, faceMap);
        if (faceMap.Extent() == 0) {
            // return the shape as is
            shapeList.push_back(shape);
            return shapeList;
        }
        
        for (int iface = 1; iface <= faceMap.Extent(); ++iface) {
            TopoDS_Face face = TopoDS::Face(faceMap(iface));
            PNamedShape origin = shape->GetFaceTraits(iface-1).Origin();

            std::map<PNamedShape, TopoDS_Shape>::iterator it = map.find(origin);
            if (it == map.end()) {
                TopoDS_Compound c;
                b.MakeCompound(c);
                b.Add(c, face);
                map[origin] = c;
            }
            else {
                TopoDS_Shape& c = it->second;
                b.Add(c, face);
            }
        }

        // create Named Shapes
        std::map<PNamedShape, TopoDS_Shape>::iterator it;
        for (it = map.begin(); it != map.end(); ++it) {
            PNamedShape  origin     = it->first;
            TopoDS_Shape toposhape  = it->second;
            PNamedShape curshape;
            if (origin) {
                curshape = PNamedShape(new CNamedShape(toposhape, origin->Name()));
                curshape->SetShortName(origin->ShortName());
            }
            else {
                curshape = PNamedShape(new CNamedShape(toposhape, shape->Name()));
                curshape->SetShortName(shape->ShortName());
            }
            // set the original face traits
            CBooleanOperTools::AppendNamesToShape(shape, curshape);

            // make shells
            curshape = CBooleanOperTools::Shellify(curshape);
            shapeList.push_back(curshape);
        }
    }
    else if (groupType == tigl::WHOLE_SHAPE) {
        shapeList.push_back(shape);
    }
    else if (groupType == tigl::FACES) {
        // store each face as an own shape
        TopTools_IndexedMapOfShape faceMap;
        TopExp::MapShapes(shape->Shape(), TopAbs_FACE, faceMap);
        if (faceMap.Extent() == 0) {
            // return the shape as is
            shapeList.push_back(shape);
            return shapeList;
        }
        
        for (int iface = 1; iface <= faceMap.Extent(); ++iface) {
            TopoDS_Face face = TopoDS::Face(faceMap(iface));
            const CFaceTraits& traits = shape->GetFaceTraits(iface-1);

            PNamedShape faceShape;
            if (traits.Origin()) {
                faceShape = PNamedShape(new CNamedShape(face, traits.Origin()->Name()));
                faceShape->SetShortName(traits.Origin()->ShortName());
            }
            else {
                faceShape = PNamedShape(new CNamedShape(face, shape->Name()));
                faceShape->SetShortName(shape->ShortName());
            }
            faceShape->SetFaceTraits(0, shape->GetFaceTraits(iface-1));
            shapeList.push_back(faceShape);
        }
        
    }
    return shapeList;
}