示例#1
0
    Py::Object projectEx(const Py::Tuple& args)
    {
        PyObject *pcObjShape;
        PyObject *pcObjDir=0;

        if (!PyArg_ParseTuple(args.ptr(), "O!|O!",
            &(TopoShapePy::Type), &pcObjShape,
            &(Base::VectorPy::Type), &pcObjDir))
            throw Py::Exception();

        TopoShapePy* pShape = static_cast<TopoShapePy*>(pcObjShape);
        Base::Vector3d Vector(0,0,1);
        if (pcObjDir)
            Vector = *static_cast<Base::VectorPy*>(pcObjDir)->getVectorPtr();

        ProjectionAlgos Alg(pShape->getTopoShapePtr()->getShape(),Vector);

        Py::List list;
        list.append(Py::Object(new TopoShapePy(new TopoShape(Alg.V)) , true));
        list.append(Py::Object(new TopoShapePy(new TopoShape(Alg.V1)), true));
        list.append(Py::Object(new TopoShapePy(new TopoShape(Alg.VN)), true));
        list.append(Py::Object(new TopoShapePy(new TopoShape(Alg.VO)), true));
        list.append(Py::Object(new TopoShapePy(new TopoShape(Alg.VI)), true));
        list.append(Py::Object(new TopoShapePy(new TopoShape(Alg.H)) , true));
        list.append(Py::Object(new TopoShapePy(new TopoShape(Alg.H1)), true));
        list.append(Py::Object(new TopoShapePy(new TopoShape(Alg.HN)), true));
        list.append(Py::Object(new TopoShapePy(new TopoShape(Alg.HO)), true));
        list.append(Py::Object(new TopoShapePy(new TopoShape(Alg.HI)), true));

        return list;
    }
PyObject* FemMeshPy::getFacesByFace(PyObject *args)
{
    PyObject *pW;
    if (!PyArg_ParseTuple(args, "O!", &(Part::TopoShapeFacePy::Type), &pW))
         return 0;

    try {
        const TopoDS_Shape& sh = static_cast<Part::TopoShapeFacePy*>(pW)->getTopoShapePtr()->getShape();
        if (sh.IsNull()) {
            PyErr_SetString(Base::BaseExceptionFreeCADError, "Face is empty");
            return 0;
        }

        const TopoDS_Face& fc = TopoDS::Face(sh);

        Py::List ret;
        std::list<int> resultSet = getFemMeshPtr()->getFacesByFace(fc);
        for (std::list<int>::const_iterator it = resultSet.begin();it!=resultSet.end();++it) {
#if PY_MAJOR_VERSION >= 3
            ret.append(Py::Long(*it));
#else
            ret.append(Py::Int(*it));
#endif
        }

        return Py::new_reference_to(ret);
    }
    catch (Standard_Failure& e) {
        PyErr_SetString(Base::BaseExceptionFreeCADError, e.GetMessageString());
        return 0;
    }
}
PyObject* BezierSurfacePy::getPoles(PyObject *args)
{
    if (!PyArg_ParseTuple(args, ""))
        return 0;
    try {
        Handle_Geom_BezierSurface surf = Handle_Geom_BezierSurface::DownCast
            (getGeometryPtr()->handle());
        TColgp_Array2OfPnt p(1,surf->NbUPoles(),1,surf->NbVPoles());
        surf->Poles(p);
        Py::List poles;
        for (Standard_Integer i=p.LowerRow(); i<=p.UpperRow(); i++) {
            Py::List row;
            for (Standard_Integer j=p.LowerCol(); j<=p.UpperCol(); j++) {
                const gp_Pnt& pole = p(i,j);
                row.append(Py::Object(new Base::VectorPy(
                    Base::Vector3d(pole.X(),pole.Y(),pole.Z()))));
            }
            poles.append(row);
        }
        return Py::new_reference_to(poles);
    }
    catch (Standard_Failure) {
        Handle_Standard_Failure e = Standard_Failure::Caught();
        PyErr_SetString(PartExceptionOCCError, e->GetMessageString());
        return 0;
    }
}
PyObject*  PropertyContainerPy::getTypeOfProperty(PyObject *args)
{
    Py::List ret;
    char *pstr;
    if (!PyArg_ParseTuple(args, "s", &pstr))     // convert args: Python->C
        return NULL;                             // NULL triggers exception

    Property* prop =  getPropertyContainerPtr()->getPropertyByName(pstr);
    if (!prop) {
        PyErr_Format(PyExc_AttributeError, "Property container has no property '%s'", pstr);
        return 0;
    }

    short Type =  prop->getType();
    if (Type & Prop_Hidden)
        ret.append(Py::String("Hidden"));
    if (Type & Prop_ReadOnly)
        ret.append(Py::String("ReadOnly"));
    if (Type & Prop_Output)
        ret.append(Py::String("Output"));
    if (Type & Prop_Transient)
        ret.append(Py::String("Transient"));

    return Py::new_reference_to(ret);
}
PyObject* BezierSurfacePy::getWeights(PyObject *args)
{
    if (!PyArg_ParseTuple(args, ""))
        return 0;
    try {
        Handle_Geom_BezierSurface surf = Handle_Geom_BezierSurface::DownCast
            (getGeometryPtr()->handle());
        TColStd_Array2OfReal w(1,surf->NbUPoles(),1,surf->NbVPoles());
        surf->Weights(w);
        Py::List weights;
        for (Standard_Integer i=w.LowerRow(); i<=w.UpperRow(); i++) {
            Py::List row;
            for (Standard_Integer j=w.LowerCol(); j<=w.UpperCol(); j++) {
                row.append(Py::Float(w(i,j)));
            }
            weights.append(row);
        }
        return Py::new_reference_to(weights);
    }
    catch (Standard_Failure) {
        Handle_Standard_Failure e = Standard_Failure::Caught();
        PyErr_SetString(PartExceptionOCCError, e->GetMessageString());
        return 0;
    }
}
示例#6
0
static PyObject * 
projectEx(PyObject *self, PyObject *args)
{
    PyObject *pcObjShape;
    PyObject *pcObjDir=0;

    if (!PyArg_ParseTuple(args, "O!|O!", &(TopoShapePy::Type), &pcObjShape,&(Base::VectorPy::Type), &pcObjDir))     // convert args: Python->C
        return NULL;                             // NULL triggers exception

    PY_TRY {
        TopoShapePy* pShape = static_cast<TopoShapePy*>(pcObjShape);
        Base::Vector3d Vector(0,0,1);
        if (pcObjDir)
            Vector = *static_cast<Base::VectorPy*>(pcObjDir)->getVectorPtr();

        ProjectionAlgos Alg(pShape->getTopoShapePtr()->_Shape,Base::Vector3f((float)Vector.x,(float)Vector.y,(float)Vector.z));

        Py::List list;
        list.append(Py::Object(new TopoShapePy(new TopoShape(Alg.V)) , true));
        list.append(Py::Object(new TopoShapePy(new TopoShape(Alg.V1)), true));
        list.append(Py::Object(new TopoShapePy(new TopoShape(Alg.VN)), true));
        list.append(Py::Object(new TopoShapePy(new TopoShape(Alg.VO)), true));
        list.append(Py::Object(new TopoShapePy(new TopoShape(Alg.VI)), true));
        list.append(Py::Object(new TopoShapePy(new TopoShape(Alg.H)) , true));
        list.append(Py::Object(new TopoShapePy(new TopoShape(Alg.H1)), true));
        list.append(Py::Object(new TopoShapePy(new TopoShape(Alg.HN)), true));
        list.append(Py::Object(new TopoShapePy(new TopoShape(Alg.HO)), true));
        list.append(Py::Object(new TopoShapePy(new TopoShape(Alg.HI)), true));

        return Py::new_reference_to(list);

    } PY_CATCH;
}
PyObject* TopoShapeEdgePy::parameters(PyObject *args)
{
    PyObject* pyface = 0;
    if (!PyArg_ParseTuple(args, "|O!", &(TopoShapeFacePy::Type), &pyface))
        return 0;

    const TopoDS_Edge& e = TopoDS::Edge(getTopoShapePtr()->getShape());
    TopLoc_Location aLoc;
    Handle(Poly_Polygon3D) aPoly = BRep_Tool::Polygon3D(e, aLoc);
    if (!aPoly.IsNull()) {
        Py::List list;
        if (!aPoly->HasParameters()) {
            return Py::new_reference_to(list);
        }

        const TColStd_Array1OfReal& aNodes = aPoly->Parameters();
        for (int i=aNodes.Lower(); i<=aNodes.Upper(); i++) {
            list.append(Py::Float(aNodes(i)));
        }

        return Py::new_reference_to(list);
    }
    else if (pyface) {
        // build up map edge->face
        const TopoDS_Shape& face = static_cast<TopoShapeFacePy*>(pyface)->getTopoShapePtr()->getShape();
        TopTools_IndexedDataMapOfShapeListOfShape edge2Face;
        TopExp::MapShapesAndAncestors(TopoDS::Face(face), TopAbs_EDGE, TopAbs_FACE, edge2Face);
        if (edge2Face.Contains(e)) {
            Handle(Poly_Triangulation) aPolyTria = BRep_Tool::Triangulation(TopoDS::Face(face),aLoc);
            if (!aPolyTria.IsNull()) {
                Handle(Poly_PolygonOnTriangulation) aPoly = BRep_Tool::PolygonOnTriangulation(e, aPolyTria, aLoc);
                if (!aPoly.IsNull()) {
                    if (!aPoly->HasParameters()) {
                        Py::List list;
                        return Py::new_reference_to(list);
                    }

                    Handle(TColStd_HArray1OfReal) aNodes = aPoly->Parameters();
                    if (!aNodes.IsNull()) {
                        Py::List list;
                        for (int i=aNodes->Lower(); i<=aNodes->Upper(); i++) {
                            list.append(Py::Float(aNodes->Value(i)));
                        }

                        return Py::new_reference_to(list);
                    }
                }
            }
        }
        else {
            PyErr_SetString(PyExc_ValueError, "Edge is not part of the face");
            return 0;
        }
    }

    PyErr_SetString(PyExc_RuntimeError, "Edge has no polygon");
    return 0;
}
示例#8
0
Py::Object CyPy_Element::listAsPyObject(const ListType& list, bool useNativePythonType)
{
    Py::List pyList;
    for (auto& entry : list) {
        if (useNativePythonType) {
            pyList.append(CyPy_Element::asPyObject(entry, useNativePythonType));
        } else {
            pyList.append(CyPy_Element::wrap(entry));
        }
    }
    return pyList;
}
PyObject* GeometrySurfacePy::intersectSS(PyObject *args)
{
    Handle_Geom_Surface surf1 = Handle_Geom_Surface::DownCast(getGeometryPtr()->handle());
    try {
        if (!surf1.IsNull()) {
            PyObject *p;
            double prec = Precision::Confusion();
            if (!PyArg_ParseTuple(args, "O!|d", &(Part::GeometrySurfacePy::Type), &p, &prec))
                return 0;
            Handle_Geom_Surface surf2 = Handle_Geom_Surface::DownCast(static_cast<GeometryPy*>(p)->getGeometryPtr()->handle());
            GeomAPI_IntSS intersector(surf1, surf2, prec);
            if (!intersector.IsDone()) {
                PyErr_SetString(PyExc_Exception, "Intersection of surfaces failed");
                return 0;
            }

            Py::List result;
            for (int i = 1; i <= intersector.NbLines(); i++) {
                Handle_Geom_Curve line = intersector.Line(i);
                result.append(makeGeometryCurvePy(line));
            }

            return Py::new_reference_to(result);
        }
    }
    catch (Standard_Failure) {
        Handle_Standard_Failure e = Standard_Failure::Caught();
        PyErr_SetString(PyExc_Exception, e->GetMessageString());
        return 0;
    }

    PyErr_SetString(PyExc_Exception, "intersectSS(): Geometry is not a surface");
    return 0;
}
示例#10
0
PyObject *SelectionSingleton::sGetSelection(PyObject * /*self*/, PyObject *args)
{
    char *documentName=0;
    if (!PyArg_ParseTuple(args, "|s", &documentName))
        return NULL;

    std::vector<SelectionSingleton::SelObj> sel;
    sel = Selection().getSelection(documentName);

    try {
        std::set<App::DocumentObject*> noduplicates;
        std::vector<App::DocumentObject*> selectedObjects; // keep the order of selection
        Py::List list;
        for (std::vector<SelectionSingleton::SelObj>::iterator it = sel.begin(); it != sel.end(); ++it) {
            if (noduplicates.insert(it->pObject).second) {
                selectedObjects.push_back(it->pObject);
            }
        }
        for (std::vector<App::DocumentObject*>::iterator it = selectedObjects.begin(); it != selectedObjects.end(); ++it) {
            list.append(Py::asObject((*it)->getPyObject()));
        }
        return Py::new_reference_to(list);
    }
    catch (Py::Exception&) {
        return 0;
    }
}
示例#11
0
    Py::Object wireFromSegment(const Py::Tuple& args)
    {
        PyObject *o, *m;
        if (!PyArg_ParseTuple(args.ptr(), "O!O!", &(Mesh::MeshPy::Type), &m,&PyList_Type,&o))
            throw Py::Exception();

        Py::List list(o);
        Mesh::MeshObject* mesh = static_cast<Mesh::MeshPy*>(m)->getMeshObjectPtr();
        std::vector<unsigned long> segm;
        segm.reserve(list.size());
        for (unsigned int i=0; i<list.size(); i++) {
            segm.push_back((int)Py::Int(list[i]));
        }

        std::list<std::vector<Base::Vector3f> > bounds;
        MeshCore::MeshAlgorithm algo(mesh->getKernel());
        algo.GetFacetBorders(segm, bounds);

        Py::List wires;
        std::list<std::vector<Base::Vector3f> >::iterator bt;

        for (bt = bounds.begin(); bt != bounds.end(); ++bt) {
            BRepBuilderAPI_MakePolygon mkPoly;
            for (std::vector<Base::Vector3f>::reverse_iterator it = bt->rbegin(); it != bt->rend(); ++it) {
                mkPoly.Add(gp_Pnt(it->x,it->y,it->z));
            }
            if (mkPoly.IsDone()) {
                PyObject* wire = new Part::TopoShapeWirePy(new Part::TopoShape(mkPoly.Wire()));
                wires.append(Py::Object(wire, true));
            }
        }

        return wires;
    }
示例#12
0
PyObject* FemMeshPy::getccxVolumesByFace(PyObject *args)
{
    PyObject *pW;
    if (!PyArg_ParseTuple(args, "O!", &(Part::TopoShapeFacePy::Type), &pW))
         return 0;

    try {
        const TopoDS_Shape& sh = static_cast<Part::TopoShapeFacePy*>(pW)->getTopoShapePtr()->getShape();
        if (sh.IsNull()) {
            PyErr_SetString(Base::BaseExceptionFreeCADError, "Face is empty");
            return 0;
        }

        const TopoDS_Face& fc = TopoDS::Face(sh);

        Py::List ret;
        std::map<int, int> resultSet = getFemMeshPtr()->getccxVolumesByFace(fc);
        for (std::map<int, int>::const_iterator it = resultSet.begin();it!=resultSet.end();++it) {
            Py::Tuple vol_face(2);
            vol_face.setItem(0, Py::Long(it->first));
            vol_face.setItem(1, Py::Long(it->second));
            ret.append(vol_face);
        }

        return Py::new_reference_to(ret);
    }
    catch (Standard_Failure& e) {
        PyErr_SetString(Base::BaseExceptionFreeCADError, e.GetMessageString());
        return 0;
    }
}
示例#13
0
PyObject* FemMeshPy::getNodesByVertex(PyObject *args)
{
    PyObject *pW;
    if (!PyArg_ParseTuple(args, "O!", &(Part::TopoShapeVertexPy::Type), &pW))
         return 0;

    try {
        const TopoDS_Shape& sh = static_cast<Part::TopoShapeVertexPy*>(pW)->getTopoShapePtr()->getShape();
        const TopoDS_Vertex& fc = TopoDS::Vertex(sh);
        if (sh.IsNull()) {
            PyErr_SetString(Base::BaseExceptionFreeCADError, "Vertex is empty");
            return 0;
        }
        Py::List ret;
        std::set<int> resultSet = getFemMeshPtr()->getNodesByVertex(fc);
        for (std::set<int>::const_iterator it = resultSet.begin();it!=resultSet.end();++it)
            ret.append(Py::Long(*it));

        return Py::new_reference_to(ret);

    }
    catch (Standard_Failure& e) {
        PyErr_SetString(Base::BaseExceptionFreeCADError, e.GetMessageString());
        return 0;
    }
}
示例#14
0
Py::List PathPy::getCommands(void) const
{
    Py::List list;
    for(unsigned int i = 0; i < getToolpathPtr()->getSize(); i++)
        list.append(Py::Object(new Path::CommandPy(new Path::Command(getToolpathPtr()->getCommand(i)))));
    return list;
}
PyObject* BSplineCurve2dPy::getPolesAndWeights(PyObject * args)
{
    if (!PyArg_ParseTuple(args, ""))
        return 0;
    try {
        Handle_Geom2d_BSplineCurve curve = Handle_Geom2d_BSplineCurve::DownCast
            (getGeometry2dPtr()->handle());
        TColgp_Array1OfPnt2d p(1,curve->NbPoles());
        curve->Poles(p);
        TColStd_Array1OfReal w(1,curve->NbPoles());
        curve->Weights(w);

        Py::List poles;
        for (Standard_Integer i=p.Lower(); i<=p.Upper(); i++) {
            gp_Pnt2d pnt = p(i);
            double weight = w(i);
            Py::Tuple t(3);
            t.setItem(0, Py::Float(pnt.X()));
            t.setItem(1, Py::Float(pnt.Y()));
            t.setItem(2, Py::Float(weight));
            poles.append(t);
        }
        return Py::new_reference_to(poles);
    }
    catch (Standard_Failure) {
        Handle_Standard_Failure e = Standard_Failure::Caught();
        PyErr_SetString(PartExceptionOCCError, e->GetMessageString());
        return 0;
    }
}
示例#16
0
PyObject* GeometryCurvePy::intersect2d(PyObject *args)
{
    PyObject *c,*p;
    if (!PyArg_ParseTuple(args, "O!O!", &(Part::GeometryCurvePy::Type), &c,
                                        &(Part::PlanePy::Type), &p))
        return 0;

    try {
        Handle_Geom_Curve self = Handle_Geom_Curve::DownCast(getGeometryPtr()->handle());
        Handle_Geom_Curve curv = Handle_Geom_Curve::DownCast(static_cast<GeometryPy*>(c)->
            getGeometryPtr()->handle());
        Handle_Geom_Plane plane = Handle_Geom_Plane::DownCast(static_cast<GeometryPy*>(p)->
            getGeometryPtr()->handle());

        Handle_Geom2d_Curve curv1 = GeomAPI::To2d(self, plane->Pln());
        Handle_Geom2d_Curve curv2 = GeomAPI::To2d(curv, plane->Pln());
        Geom2dAPI_InterCurveCurve intCC(curv1, curv2);
        int nbPoints = intCC.NbPoints();
        Py::List list;
        for (int i=1; i<= nbPoints; i++) {
            gp_Pnt2d pt = intCC.Point(i);
            Py::Tuple tuple(2);
            tuple.setItem(0, Py::Float(pt.X()));
            tuple.setItem(1, Py::Float(pt.Y()));
            list.append(tuple);
        }
        return Py::new_reference_to(list);
    }
    catch (Standard_Failure) {
        Handle_Standard_Failure e = Standard_Failure::Caught();
        PyErr_SetString(PartExceptionOCCError, e->GetMessageString());
        return 0;
    }
}
示例#17
0
PyObject* TopoShapeFacePy::getUVNodes(PyObject *args)
{
    if (!PyArg_ParseTuple(args, ""))
        return 0;

    const TopoDS_Face& f = TopoDS::Face(getTopoShapePtr()->getShape());
    TopLoc_Location aLoc;
    Handle (Poly_Triangulation) mesh = BRep_Tool::Triangulation(f,aLoc);
    if (mesh.IsNull()) {
        PyErr_SetString(PyExc_RuntimeError, "Face has no triangulation");
        return 0;
    }

    Py::List list;
    if (!mesh->HasUVNodes()) {
        return Py::new_reference_to(list);
    }

    const TColgp_Array1OfPnt2d& aNodesUV = mesh->UVNodes();
    for (int i=aNodesUV.Lower(); i<=aNodesUV.Upper(); i++) {
        gp_Pnt2d pt2d = aNodesUV(i);
        Py::Tuple uv(2);
        uv.setItem(0, Py::Float(pt2d.X()));
        uv.setItem(1, Py::Float(pt2d.Y()));
        list.append(uv);
    }

    return Py::new_reference_to(list);
}
PyObject* BSplineCurve2dPy::getPoles(PyObject * args)
{
    if (!PyArg_ParseTuple(args, ""))
        return 0;
    try {
        Handle_Geom2d_BSplineCurve curve = Handle_Geom2d_BSplineCurve::DownCast
            (getGeometry2dPtr()->handle());
        TColgp_Array1OfPnt2d p(1,curve->NbPoles());
        curve->Poles(p);

        Py::List poles;
        Py::Module module("__FreeCADBase__");
        Py::Callable method(module.getAttr("Vector2d"));
        Py::Tuple arg(2);
        for (Standard_Integer i=p.Lower(); i<=p.Upper(); i++) {
            gp_Pnt2d pnt = p(i);

            arg.setItem(0, Py::Float(pnt.X()));
            arg.setItem(1, Py::Float(pnt.Y()));
            poles.append(method.apply(arg));
        }
        return Py::new_reference_to(poles);
    }
    catch (Standard_Failure) {
        Handle_Standard_Failure e = Standard_Failure::Caught();
        PyErr_SetString(PartExceptionOCCError, e->GetMessageString());
        return 0;
    }
}
PyObject* FemMeshPy::getNodesByEdge(PyObject *args)
{
    PyObject *pW;
    if (!PyArg_ParseTuple(args, "O!", &(Part::TopoShapeEdgePy::Type), &pW))
         return 0;

    try {
        const TopoDS_Shape& sh = static_cast<Part::TopoShapeEdgePy*>(pW)->getTopoShapePtr()->_Shape;
        const TopoDS_Edge& fc = TopoDS::Edge(sh);
        if (sh.IsNull()) {
            PyErr_SetString(Base::BaseExceptionFreeCADError, "Edge is empty");
            return 0;
        }
        Py::List ret;
        std::set<long> resultSet = getFemMeshPtr()->getNodesByEdge(fc);
        for (std::set<long>::const_iterator it = resultSet.begin();it!=resultSet.end();++it)
            ret.append(Py::Int(*it));

        return Py::new_reference_to(ret);

    }
    catch (Standard_Failure) {
        Handle_Standard_Failure e = Standard_Failure::Caught();
        PyErr_SetString(Base::BaseExceptionFreeCADError, e->GetMessageString());
        return 0;
    }
}
示例#20
0
Py::List TrajectoryPy::getWaypoints(void) const
{
    Py::List list;
    for(unsigned int i = 0; i < getTrajectoryPtr()->getSize(); i++)
        list.append(Py::Object(new Robot::WaypointPy(new Robot::Waypoint(getTrajectoryPtr()->getWaypoint(i)))));

    return list;
}
Py::List SelectionObjectPy::getSubObjects(void) const
{
    Py::List temp;
    std::vector<PyObject *> objs = getSelectionObjectPtr()->getObject()->getPySubObjects(getSelectionObjectPtr()->getSubNames());
    for(std::vector<PyObject *>::const_iterator it= objs.begin();it!=objs.end();++it)
        temp.append(Py::Object(*it,true));
    return temp;
}
PyObject*  PropertyContainerPy::getEditorMode(PyObject *args)
{
    char* name;
    if (!PyArg_ParseTuple(args, "s", &name))     // convert args: Python->C
        return NULL;                             // NULL triggers exception

    App::Property* prop = getPropertyContainerPtr()->getPropertyByName(name);
    Py::List ret;
    if (prop) {
        short Type =  prop->getType();
        if ((prop->testStatus(Property::ReadOnly)) || (Type & Prop_ReadOnly))
            ret.append(Py::String("ReadOnly"));
        if ((prop->testStatus(Property::Hidden)) || (Type & Prop_Hidden))
            ret.append(Py::String("Hidden"));
    }
    return Py::new_reference_to(ret);
}
示例#23
0
PyObject* Application::sGetVersion(PyObject * /*self*/, PyObject *args,PyObject * /*kwd*/)
{
    if (!PyArg_ParseTuple(args, ""))     // convert args: Python->C
        return NULL; // NULL triggers exception

    Py::List list;
    const std::map<std::string, std::string>& cfg = Application::Config();
    std::map<std::string, std::string>::const_iterator it;

    it = cfg.find("BuildVersionMajor");
    list.append(Py::String(it != cfg.end() ? it->second : ""));

    it = cfg.find("BuildVersionMinor");
    list.append(Py::String(it != cfg.end() ? it->second : ""));

    it = cfg.find("BuildRevision");
    list.append(Py::String(it != cfg.end() ? it->second : ""));

    it = cfg.find("BuildRepositoryURL");
    list.append(Py::String(it != cfg.end() ? it->second : ""));

    it = cfg.find("BuildRevisionDate");
    list.append(Py::String(it != cfg.end() ? it->second : ""));

    it = cfg.find("BuildRevisionBranch");
    if (it != cfg.end())
        list.append(Py::String(it->second));

    it = cfg.find("BuildRevisionHash");
    if (it != cfg.end())
        list.append(Py::String(it->second));

    return Py::new_reference_to(list);
}
Py::List DocumentObjectPy::getState(void) const
{
    DocumentObject* object = this->getDocumentObjectPtr();
    Py::List list;
    bool uptodate = true;
    if (object->isTouched()) {
        uptodate = false;
        list.append(Py::String("Touched"));
    }
    if (object->isError()) {
        uptodate = false;
        list.append(Py::String("Invalid"));
    }
    if (uptodate) {
        list.append(Py::String("Up-to-date"));
    }
    return list;
}
示例#25
0
Py::List MeshPy::getFacets(void) const
{
    Py::List FacetList;
    MeshObject* mesh = getMeshObjectPtr();
    for (MeshObject::const_facet_iterator it = mesh->facets_begin(); it != mesh->facets_end(); ++it) {
        FacetList.append(Py::Object(new FacetPy(new Facet(*it)), true));
    }
    return FacetList;
}
TaskDialogPython::TaskDialogPython(const Py::Object& o) : dlg(o)
{
    if (dlg.hasAttr(std::string("ui"))) {
        UiLoader loader;
#if QT_VERSION >= 0x040500
        loader.setLanguageChangeEnabled(true);
#endif
        QString fn, icon;
        Py::String ui(dlg.getAttr(std::string("ui")));
        std::string path = (std::string)ui;
        fn = QString::fromUtf8(path.c_str());

        QFile file(fn);
        QWidget* form = 0;
        if (file.open(QFile::ReadOnly))
            form = loader.load(&file, 0);
        file.close();
        if (form) {
            Gui::TaskView::TaskBox* taskbox = new Gui::TaskView::TaskBox(
                QPixmap(icon), form->windowTitle(), true, 0);
            taskbox->groupLayout()->addWidget(form);
            Content.push_back(taskbox);
        }
        else {
            Base::Console().Error("Failed to load UI file from '%s'\n",
                (const char*)fn.toUtf8());
        }
    }
    else if (dlg.hasAttr(std::string("form"))) {
        Py::Object f(dlg.getAttr(std::string("form"))); 
        Py::List widgets;
        if (f.isList()) {
            widgets = f;
        }
        else {
            widgets.append(f);
        }
        for (Py::List::iterator it = widgets.begin(); it != widgets.end(); ++it) {
            Py::Module mainmod(PyImport_AddModule((char*)"sip"));
            Py::Callable func = mainmod.getDict().getItem("unwrapinstance");
            Py::Tuple arguments(1);
            arguments[0] = *it; //PyQt pointer
            Py::Object result = func.apply(arguments);
            void* ptr = PyLong_AsVoidPtr(result.ptr());
            QObject* object = reinterpret_cast<QObject*>(ptr);
            if (object) {
                QWidget* form = qobject_cast<QWidget*>(object);
                if (form) {
                    Gui::TaskView::TaskBox* taskbox = new Gui::TaskView::TaskBox(
                        form->windowIcon().pixmap(32), form->windowTitle(), true, 0);
                    taskbox->groupLayout()->addWidget(form);
                    Content.push_back(taskbox);
                }
            }
        }
    }
}
示例#27
0
Py::List PointsPy::getPoints(void) const
{
    Py::List PointList;
    const PointKernel* points = getPointKernelPtr();
    for (PointKernel::const_point_iterator it = points->begin(); it != points->end(); ++it) {
        PointList.append(Py::Object(new Base::VectorPy(*it)));
    }
    return PointList;
}
示例#28
0
PyObject* AttachEnginePy::getModeInfo(PyObject* args)
{
    char* modeName;
    if (!PyArg_ParseTuple(args, "s", &modeName))
        return 0;

    try {
        AttachEngine &attacher = *(this->getAttachEnginePtr());
        eMapMode mmode = attacher.getModeByName(modeName);
        Py::List pyListOfCombinations;
        Py::List pyCombination;
        refTypeStringList &listOfCombinations = attacher.modeRefTypes.at(mmode);
        for(const refTypeString &combination: listOfCombinations){
            pyCombination = Py::List(combination.size());
            for(int iref = 0   ;   iref < combination.size()   ;   iref++){
                pyCombination[iref] = Py::String(AttachEngine::getRefTypeName(combination[iref]));
            }
            pyListOfCombinations.append(pyCombination);
        }
        Py::Dict ret;
        ret["ReferenceCombinations"] = pyListOfCombinations;
        ret["ModeIndex"] = Py::Int(mmode);

        try {
            Py::Module module(PyImport_ImportModule("PartGui"),true);
            if (!module.hasAttr("AttachEngineResources")) {
                // in v0.14+, the GUI module can be loaded in console mode (but doesn't have all its document methods)
                throw Py::RuntimeError("Gui is not up");//DeepSOIC: wanted to throw ImportError here, but it's not defined, so I don't know...
            }
            Py::Object submod(module.getAttr("AttachEngineResources"));
            Py::Callable method(submod.getAttr("getModeStrings"));
            Py::Tuple arg(2);
            arg.setItem(0, Py::String(this->getAttachEnginePtr()->getTypeId().getName()));
            arg.setItem(1, Py::Int(mmode));
            Py::List strs = method.apply(arg);
            assert(strs.size() == 2);
            ret["UserFriendlyName"] = strs[0];
            ret["BriefDocu"] = strs[1];
        } catch (Py::Exception& e) {
            if (PyErr_ExceptionMatches(PyExc_ImportError)) {
                // the GUI is not up.
                Base::Console().Warning("AttachEngine: Gui not up, so no gui-related entries in getModeInfo.\n");
                e.clear();
            } else {
                Base::Console().Warning("AttachEngine.getModeInfo: error obtaining GUI strings\n");
                e.clear();
            }
        } catch (Base::Exception &e){
            Base::Console().Warning("AttachEngine.getModeInfo: error obtaining GUI strings:");
            Base::Console().Warning(e.what());
            Base::Console().Warning("\n");
        }

        return Py::new_reference_to(ret);
    } ATTACHERPY_STDCATCH_METH;
}
示例#29
0
Py::List MeshPy::getPoints(void) const
{
    Py::List PointList;
    unsigned int Index=0;
    MeshObject* mesh = getMeshObjectPtr();
    for (MeshObject::const_point_iterator it = mesh->points_begin(); it != mesh->points_end(); ++it) {
        PointList.append(Py::Object(new MeshPointPy(new MeshPoint(*it,getMeshObjectPtr(),Index++)), true));
    }
    return PointList;
}
Py::List DocumentPy::getRedoNames(void) const
{
    std::vector<std::string> vList = getDocumentPtr()->getAvailableRedoNames();
    Py::List res;

    for (std::vector<std::string>::const_iterator It = vList.begin();It!=vList.end();++It)
        res.append(Py::String(*It));

    return res;
}