Example #1
0
void ProfileBased::generatePrism(TopoDS_Shape& prism,
                                const TopoDS_Shape& sketchshape,
                                const std::string& method,
                                const gp_Dir& dir,
                                const double L,
                                const double L2,
                                const bool midplane,
                                const bool reversed)
{
    if (method == "Length" || method == "TwoLengths" || method == "ThroughAll") {
        double Ltotal = L;
        double Loffset = 0.;
        if (method == "ThroughAll")
            // "ThroughAll" is modelled as a very long, but finite prism to avoid problems with pockets
            // Note: 1E6 created problems once...
            Ltotal = 1E4;


        if (method == "TwoLengths") {
            // midplane makes no sense here
            Loffset = -L2;
            Ltotal += L2;
        } else if (midplane)
            Loffset = -Ltotal/2;

        TopoDS_Shape from = sketchshape;
        if (method == "TwoLengths" || midplane) {
            gp_Trsf mov;
            mov.SetTranslation(Loffset * gp_Vec(dir));
            TopLoc_Location loc(mov);
            from = sketchshape.Moved(loc);
        } else if (reversed)
            Ltotal *= -1.0;

        // Its better not to use BRepFeat_MakePrism here even if we have a support because the
        // resulting shape creates problems with Pocket
        BRepPrimAPI_MakePrism PrismMaker(from, Ltotal*gp_Vec(dir), 0,1); // finite prism
        if (!PrismMaker.IsDone())
            throw Base::RuntimeError("SketchBased: Length: Could not extrude the sketch!");
        prism = PrismMaker.Shape();
    } else {
        throw Base::RuntimeError("SketchBased: Internal error: Unknown method for generatePrism()");
    }

}
Example #2
0
App::DocumentObjectExecReturn *Revolution::execute(void)
{
    App::DocumentObject* link = Sketch.getValue();
    if (!link)
        return new App::DocumentObjectExecReturn("No sketch linked");
    if (!link->getTypeId().isDerivedFrom(Part::Part2DObject::getClassTypeId()))
        return new App::DocumentObjectExecReturn("Linked object is not a Sketch or Part2DObject");

    Part::Part2DObject* pcSketch=static_cast<Part::Part2DObject*>(link);

    TopoDS_Shape shape = pcSketch->Shape.getShape()._Shape;
    if (shape.IsNull())
        return new App::DocumentObjectExecReturn("Linked shape object is empty");

    // this is a workaround for an obscure OCC bug which leads to empty tessellations
    // for some faces. Making an explicit copy of the linked shape seems to fix it.
    // The error only happens when re-computing the shape.
    if (!this->Shape.getValue().IsNull()) {
        BRepBuilderAPI_Copy copy(shape);
        shape = copy.Shape();
        if (shape.IsNull())
            return new App::DocumentObjectExecReturn("Linked shape object is empty");
    }

    TopExp_Explorer ex;
    std::vector<TopoDS_Wire> wires;
    for (ex.Init(shape, TopAbs_WIRE); ex.More(); ex.Next()) {
        wires.push_back(TopoDS::Wire(ex.Current()));
    }
    if (wires.empty()) // there can be several wires
        return new App::DocumentObjectExecReturn("Linked shape object is not a wire");

    // get the Sketch plane
    Base::Placement SketchPlm = pcSketch->Placement.getValue();

    // get reference axis
    App::DocumentObject *pcReferenceAxis = ReferenceAxis.getValue();
    const std::vector<std::string> &subReferenceAxis = ReferenceAxis.getSubValues();
    if (pcReferenceAxis && pcReferenceAxis == pcSketch) {
        bool hasValidAxis=false;
        Base::Axis axis;
        if (subReferenceAxis[0] == "V_Axis") {
            hasValidAxis = true;
            axis = pcSketch->getAxis(Part::Part2DObject::V_Axis);
        }
        else if (subReferenceAxis[0] == "H_Axis") {
            hasValidAxis = true;
            axis = pcSketch->getAxis(Part::Part2DObject::H_Axis);
        }
        else if (subReferenceAxis[0].size() > 4 && subReferenceAxis[0].substr(0,4) == "Axis") {
            int AxId = std::atoi(subReferenceAxis[0].substr(4,4000).c_str());
            if (AxId >= 0 && AxId < pcSketch->getAxisCount()) {
                hasValidAxis = true;
                axis = pcSketch->getAxis(AxId);
            }
        }
        if (hasValidAxis) {
            axis *= SketchPlm;
            Base::Vector3d base=axis.getBase();
            Base::Vector3d dir=axis.getDirection();
            Base.setValue(base.x,base.y,base.z);
            Axis.setValue(dir.x,dir.y,dir.z);
        }
    }

    // get revolve axis
    Base::Vector3f b = Base.getValue();
    gp_Pnt pnt(b.x,b.y,b.z);
    Base::Vector3f v = Axis.getValue();
    gp_Dir dir(v.x,v.y,v.z);

    // get the support of the Sketch if any
    App::DocumentObject* pcSupport = pcSketch->Support.getValue();
    Part::Feature *SupportObject = 0;
    if (pcSupport && pcSupport->getTypeId().isDerivedFrom(Part::Feature::getClassTypeId()))
        SupportObject = static_cast<Part::Feature*>(pcSupport);

    TopoDS_Shape aFace = makeFace(wires);
    if (aFace.IsNull())
        return new App::DocumentObjectExecReturn("Creating a face from sketch failed");

    // Rotate the face by half the angle to get revolution symmetric to sketch plane
    if (Midplane.getValue()) {
        gp_Trsf mov;
        mov.SetRotation(gp_Ax1(pnt, dir), Base::toRadians<double>(Angle.getValue()) * (-1.0) / 2.0);
        TopLoc_Location loc(mov);
        aFace.Move(loc);
    }

    this->positionBySketch();
    TopLoc_Location invObjLoc = this->getLocation().Inverted();
    pnt.Transform(invObjLoc.Transformation());
    dir.Transform(invObjLoc.Transformation());

    // Reverse angle if selected
    double angle = Base::toRadians<double>(Angle.getValue());
    if (Reversed.getValue() && !Midplane.getValue())
        angle *= (-1.0);

    try {
        // revolve the face to a solid
        BRepPrimAPI_MakeRevol RevolMaker(aFace.Moved(invObjLoc), gp_Ax1(pnt, dir), angle);

        if (RevolMaker.IsDone()) {
            TopoDS_Shape result = RevolMaker.Shape();
            // if the sketch has a support fuse them to get one result object (PAD!)
            if (SupportObject) {
                const TopoDS_Shape& support = SupportObject->Shape.getValue();
                if (!support.IsNull() && support.ShapeType() == TopAbs_SOLID) {
                    // set the additive shape property for later usage in e.g. pattern
                    this->AddShape.setValue(result);
                    // Let's call algorithm computing a fuse operation:
                    BRepAlgoAPI_Fuse mkFuse(support.Moved(invObjLoc), result);
                    // Let's check if the fusion has been successful
                    if (!mkFuse.IsDone())
                        throw Base::Exception("Fusion with support failed");
                    result = mkFuse.Shape();
                }
            }

            this->Shape.setValue(result);
        }
        else
            return new App::DocumentObjectExecReturn("Could not revolve the sketch!");

        return App::DocumentObject::StdReturn;
    }
    catch (Standard_Failure) {
        Handle_Standard_Failure e = Standard_Failure::Caught();
        return new App::DocumentObjectExecReturn(e->GetMessageString());
    }
}