Exemplo n.º 1
0
def fix_tolerance(shape, tolerance=TOLERANCE):
    from OCC.ShapeFix import ShapeFix_ShapeTolerance
    ShapeFix_ShapeTolerance().SetTolerance(shape, tolerance)
Exemplo n.º 2
0
    def write(self, mesh_points, filename, tolerance=None):
        """
		Writes a output file, called filename, copying all the structures from self.filename but
		the coordinates. mesh_points is a matrix that contains the new coordinates to
		write in the output file.

		:param numpy.ndarray mesh_points: it is a `n_points`-by-3 matrix containing
			the coordinates of the points of the mesh
		:param string filename: name of the output file.
		:param float tolerance: tolerance for the construction of the faces and wires
			in the write function. If not given it uses `self.tolerance`.
		"""
        self._check_filename_type(filename)
        self._check_extension(filename)
        self._check_infile_instantiation()

        self.outfile = filename

        if tolerance is not None:
            self.tolerance = tolerance

        # cycle on the faces to update the control points position
        # init some quantities
        faces_explorer = TopExp_Explorer(self.shape, TopAbs_FACE)
        n_faces = 0
        control_point_position = self._control_point_position

        compound_builder = BRep_Builder()
        compound = OCC.TopoDS.TopoDS_Compound()
        compound_builder.MakeCompound(compound)

        while faces_explorer.More():
            # similar to the parser method
            face = OCC.TopoDS.topods_Face(faces_explorer.Current())
            nurbs_converter = BRepBuilderAPI_NurbsConvert(face)
            nurbs_converter.Perform(face)
            nurbs_face = nurbs_converter.Shape()
            face_aux = OCC.TopoDS.topods_Face(nurbs_face)
            brep_face = BRep_Tool.Surface(OCC.TopoDS.topods_Face(nurbs_face))
            bspline_face = geomconvert_SurfaceToBSplineSurface(brep_face)
            occ_face = bspline_face.GetObject()

            n_poles_u = occ_face.NbUPoles()
            n_poles_v = occ_face.NbVPoles()

            i = 0
            for pole_u_direction in range(n_poles_u):
                for pole_v_direction in range(n_poles_v):
                    control_point_coordinates = mesh_points[
                        i + control_point_position[n_faces], :]
                    point_xyz = gp_XYZ(*control_point_coordinates)

                    gp_point = gp_Pnt(point_xyz)
                    occ_face.SetPole(pole_u_direction + 1,
                                     pole_v_direction + 1, gp_point)
                    i += 1

            # construct the deformed wire for the trimmed surfaces
            wire_maker = BRepBuilderAPI_MakeWire()
            tol = ShapeFix_ShapeTolerance()
            brep = BRepBuilderAPI_MakeFace(occ_face.GetHandle(),
                                           self.tolerance).Face()
            brep_face = BRep_Tool.Surface(brep)

            # cycle on the edges
            edge_explorer = TopExp_Explorer(nurbs_face, TopAbs_EDGE)
            while edge_explorer.More():
                edge = OCC.TopoDS.topods_Edge(edge_explorer.Current())
                # edge in the (u,v) coordinates
                edge_uv_coordinates = BRep_Tool.CurveOnSurface(edge, face_aux)
                # evaluating the new edge: same (u,v) coordinates, but different (x,y,x) ones
                edge_phis_coordinates_aux = BRepBuilderAPI_MakeEdge(\
                 edge_uv_coordinates[0], brep_face)
                edge_phis_coordinates = edge_phis_coordinates_aux.Edge()
                tol.SetTolerance(edge_phis_coordinates, self.tolerance)
                wire_maker.Add(edge_phis_coordinates)
                edge_explorer.Next()

            # grouping the edges in a wire
            wire = wire_maker.Wire()

            # trimming the surfaces
            brep_surf = BRepBuilderAPI_MakeFace(occ_face.GetHandle(),
                                                wire).Shape()
            compound_builder.Add(compound, brep_surf)
            n_faces += 1
            faces_explorer.Next()
        self.write_shape_to_file(compound, self.outfile)
Exemplo n.º 3
0
    def write(cls, filename, data, tolerance=1e-6):

        # cycle on the faces to update the control points position
        # init some quantities
        shape = data.shape
        control_point_position = data.control_point_position
        mesh_points = data.points

        faces_explorer = TopExp_Explorer(shape, TopAbs_FACE)
        n_faces = 0
        compound_builder = BRep_Builder()
        compound = TopoDS_Compound()
        compound_builder.MakeCompound(compound)

        while faces_explorer.More():
            # similar to the parser method
            face = topods_Face(faces_explorer.Current())
            nurbs_converter = BRepBuilderAPI_NurbsConvert(face)
            nurbs_converter.Perform(face)
            nurbs_face = nurbs_converter.Shape()
            face_aux = topods_Face(nurbs_face)
            brep_face = BRep_Tool.Surface(topods_Face(nurbs_face))
            bspline_face = geomconvert_SurfaceToBSplineSurface(brep_face)
            occ_face = bspline_face.GetObject()

            n_poles_u = occ_face.NbUPoles()
            n_poles_v = occ_face.NbVPoles()

            i = 0
            for pole_u_direction in range(n_poles_u):
                for pole_v_direction in range(n_poles_v):
                    control_point_coordinates = mesh_points[
                        +control_point_position[n_faces], :]
                    point_xyz = gp_XYZ(*control_point_coordinates)

                    gp_point = gp_Pnt(point_xyz)
                    occ_face.SetPole(pole_u_direction + 1,
                                     pole_v_direction + 1, gp_point)
                    i += 1

            # construct the deformed wire for the trimmed surfaces
            wire_maker = BRepBuilderAPI_MakeWire()
            tol = ShapeFix_ShapeTolerance()
            brep = BRepBuilderAPI_MakeFace(occ_face.GetHandle(),
                                           tolerance).Face()
            brep_face = BRep_Tool.Surface(brep)

            # cycle on the edges
            edge_explorer = TopExp_Explorer(nurbs_face, TopAbs_EDGE)
            while edge_explorer.More():
                edge = topods_Edge(edge_explorer.Current())
                # edge in the (u,v) coordinates
                edge_uv_coordinates = BRep_Tool.CurveOnSurface(edge, face_aux)
                # evaluating the new edge: same (u,v) coordinates, but
                # different (x,y,x) ones
                edge_phis_coordinates_aux = BRepBuilderAPI_MakeEdge(
                    edge_uv_coordinates[0], brep_face)
                edge_phis_coordinates = edge_phis_coordinates_aux.Edge()
                tol.SetTolerance(edge_phis_coordinates, tolerance)
                wire_maker.Add(edge_phis_coordinates)
                edge_explorer.Next()

            # grouping the edges in a wire
            wire = wire_maker.Wire()

            # trimming the surfaces
            brep_surf = BRepBuilderAPI_MakeFace(occ_face.GetHandle(),
                                                wire).Shape()
            compound_builder.Add(compound, brep_surf)
            n_faces += 1
            faces_explorer.Next()

        IGESControl_Controller_Init()
        writer = IGESControl_Writer()
        writer.AddShape(compound)
        writer.Write(filename)
Exemplo n.º 4
0
    def write_face(self, points_face, list_points_edge, topo_face, toledge):
        """
        Method to recreate a Face associated to a geometric surface
        after the modification of Face points. It returns a TopoDS_Face.

        :param points_face: the new face points array.
        :param list_points_edge: new edge points
        :param topo_face: the face to be modified
        :param toledge: tolerance on the surface creation after modification
        :return: TopoDS_Face (Shape)

        :rtype: TopoDS_Shape

        """

        # convert Face to Geom B-spline Surface
        nurbs_converter = BRepBuilderAPI_NurbsConvert(topo_face)
        nurbs_converter.Perform(topo_face)
        nurbs_face = nurbs_converter.Shape()
        topo_nurbsface = topods.Face(nurbs_face)
        h_geomsurface = BRep_Tool.Surface(topo_nurbsface)
        h_bsurface = geomconvert_SurfaceToBSplineSurface(h_geomsurface)
        bsurface = h_bsurface.GetObject()

        nb_u = bsurface.NbUPoles()
        nb_v = bsurface.NbVPoles()
        # check consistency
        if points_face.shape[0] != nb_u * nb_v:
            raise ValueError("Input control points do not have not have the "
                             "same number as the geometric face!")

        # cycle on the face points
        indice_cpt = 0
        for iu in range(1, nb_u + 1):
            for iv in range(1, nb_v + 1):
                cpt = points_face[indice_cpt]
                bsurface.SetPole(iu, iv, gp_Pnt(cpt[0], cpt[1], cpt[2]))
                indice_cpt += 1

        # create modified new face
        new_bspline_tface = BRepBuilderAPI_MakeFace()
        toler = precision_Confusion()
        new_bspline_tface.Init(bsurface.GetHandle(), False, toler)

        # cycle on the wires
        face_wires_explorer = TopExp_Explorer(
            topo_nurbsface.Oriented(TopAbs_FORWARD), TopAbs_WIRE)
        ind_edge_total = 0

        while face_wires_explorer.More():
            # get old wire
            twire = topods_Wire(face_wires_explorer.Current())

            # cycle on the edges
            ind_edge = 0
            wire_explorer_edge = TopExp_Explorer(
                twire.Oriented(TopAbs_FORWARD), TopAbs_EDGE)
            # check edges order on the wire
            mode3d = True
            tolerance_edges = toledge

            wire_order = ShapeAnalysis_WireOrder(mode3d, tolerance_edges)
            # an edge list
            deformed_edges = []
            # cycle on the edges
            while wire_explorer_edge.More():
                tedge = topods_Edge(wire_explorer_edge.Current())
                new_bspline_tedge = self.write_edge(
                    list_points_edge[ind_edge_total], tedge)

                deformed_edges.append(new_bspline_tedge)
                analyzer = topexp()
                vfirst = analyzer.FirstVertex(new_bspline_tedge)
                vlast = analyzer.LastVertex(new_bspline_tedge)
                pt1 = BRep_Tool.Pnt(vfirst)
                pt2 = BRep_Tool.Pnt(vlast)

                wire_order.Add(pt1.XYZ(), pt2.XYZ())

                ind_edge += 1
                ind_edge_total += 1
                wire_explorer_edge.Next()

            # grouping the edges in a wire, then in the face
            # check edges order and connectivity within the wire
            wire_order.Perform()
            # new wire to be created
            stol = ShapeFix_ShapeTolerance()
            new_bspline_twire = BRepBuilderAPI_MakeWire()
            for order_i in range(1, wire_order.NbEdges() + 1):
                deformed_edge_i = wire_order.Ordered(order_i)
                if deformed_edge_i > 0:
                    # insert the deformed edge to the new wire
                    new_edge_toadd = deformed_edges[deformed_edge_i - 1]
                    stol.SetTolerance(new_edge_toadd, toledge)
                    new_bspline_twire.Add(new_edge_toadd)
                    if new_bspline_twire.Error() != 0:
                        stol.SetTolerance(new_edge_toadd, toledge * 10.0)
                        new_bspline_twire.Add(new_edge_toadd)
                else:
                    deformed_edge_revers = deformed_edges[
                        np.abs(deformed_edge_i) - 1]
                    stol.SetTolerance(deformed_edge_revers, toledge)
                    new_bspline_twire.Add(deformed_edge_revers)
                    if new_bspline_twire.Error() != 0:
                        stol.SetTolerance(deformed_edge_revers, toledge * 10.0)
                        new_bspline_twire.Add(deformed_edge_revers)
            # add new wire to the Face
            new_bspline_tface.Add(new_bspline_twire.Wire())
            face_wires_explorer.Next()

        return topods.Face(new_bspline_tface.Face())
Exemplo n.º 5
0
def fix_tolerance(shape, tolerance=TOLERANCE):
    ShapeFix_ShapeTolerance().SetTolerance(shape, tolerance)