def get_faceted_L_shape(x, y, z):
    pnt_A = gp_Pnt(x + 0, y + 0, z + 0)
    pnt_B = gp_Pnt(x +20, y + 0, z + 0)
    pnt_C = gp_Pnt(x +20, y +10, z + 0)
    pnt_D = gp_Pnt(x + 0, y +10, z + 0)
    pnt_E = gp_Pnt(x + 0, y + 0, z +20)
    pnt_F = gp_Pnt(x +10, y + 0, z +20)
    pnt_G = gp_Pnt(x +10, y +10, z +20)
    pnt_H = gp_Pnt(x +0, y +10, z +20)
    pnt_I = gp_Pnt(x +10, y + 0, z +10)
    pnt_J = gp_Pnt(x +10, y +10, z +10)
    pnt_K = gp_Pnt(x +20, y + 0, z +10)
    pnt_L = gp_Pnt(x +20, y +10, z +10)

    face_1 = make_face_from_4_points(pnt_A, pnt_B, pnt_C, pnt_D)
    face_2 = make_face_from_4_points(pnt_B, pnt_C, pnt_L, pnt_K)
    face_3 = make_face_from_4_points(pnt_E, pnt_F, pnt_G, pnt_H)
    face_4 = make_face_from_4_points(pnt_A, pnt_E, pnt_H, pnt_D)
    face_5 = make_face_from_4_points(pnt_G, pnt_F, pnt_I, pnt_J)
    face_6 = make_face_from_4_points(pnt_I, pnt_K, pnt_L, pnt_J)

    polygon_1 = BRepBuilderAPI_MakePolygon()
    polygon_1.Add(pnt_A)
    polygon_1.Add(pnt_B)
    polygon_1.Add(pnt_K)
    polygon_1.Add(pnt_I)
    polygon_1.Add(pnt_F)
    polygon_1.Add(pnt_E)
    polygon_1.Close()

    face_7 = BRepBuilderAPI_MakeFace(polygon_1.Wire()).Face()
    polygon_2 = BRepBuilderAPI_MakePolygon()
    polygon_2.Add(pnt_D)
    polygon_2.Add(pnt_H)
    polygon_2.Add(pnt_G)
    polygon_2.Add(pnt_J)
    polygon_2.Add(pnt_L)
    polygon_2.Add(pnt_C)
    polygon_2.Close()
    face_8 = BRepBuilderAPI_MakeFace(polygon_2.Wire()).Face()

    sew = BRepBuilderAPI_Sewing()
    for face in [face_1, face_2, face_3, face_4, face_5, face_6, face_7, face_8]:
        sew.Add(face)
    sew.Perform()

    return sew.SewedShape()
Exemple #2
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 def __init__(self, pnts, close=False):
     builder = BRepBuilderAPI_MakePolygon()
     for p in pnts:
         p = CheckGeom.to_point(p)
         builder.Add(p)
     if close:
         builder.Close()
     self._w = Wire(builder.Wire())
Exemple #3
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 def create_shape(self):
     shape = BRepBuilderAPI_MakePolygon()
     for m in re.finditer(r'(\-?\d+\.?\d*),(\-?\d+\.?\d*)\s+',
                          self.element.attrib.get('points', '')):
         x, y = map(float, m.groups())
         shape.Add(gp_Pnt(x, y, 0))
     shape.Close()
     return shape.Wire()
Exemple #4
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 def create_shape(self):
     d = self.declaration
     t = self.get_transform()
     shape = BRepBuilderAPI_MakePolygon()
     for p in d.points:
         shape.Add(p.proxy.Transformed(t))
     if d.closed:
         shape.Close()
     curve = self.curve = BRepAdaptor_CompCurve(shape.Wire())
     self.shape = curve.Wire()
def make_closed_polygon(*args):
    poly = BRepBuilderAPI_MakePolygon()
    for pt in args:
        if isinstance(pt, list) or isinstance(pt, tuple):
            for i in pt:
                poly.Add(i)
        else:
            poly.Add(pt)
    poly.Build()
    poly.Close()
    result = poly.Wire()
    return result
Exemple #6
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def make_closed_polygon(*args):
    poly = BRepBuilderAPI_MakePolygon()
    for pt in args:
        if isinstance(pt, list) or isinstance(pt, tuple):
            for i in pt:
                poly.Add(i)
        else:
            poly.Add(pt)
    poly.Build()
    poly.Close()
    with assert_isdone(poly, 'failed to produce wire'):
        result = poly.Wire()
        return result
Exemple #7
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def make_polygon(args, closed=False):
    poly = BRepBuilderAPI_MakePolygon()
    for pt in args:
        # support nested lists
        if isinstance(pt, list) or isinstance(pt, tuple):
            for i in pt:
                poly.Add(i)
        else:
            poly.Add(pt)
    if closed:
        poly.Close()
    poly.Build()

    with assert_isdone(poly, 'failed to produce wire'):
        result = poly.Wire()
        return result
Exemple #8
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    def by_points(pnts, close=False):
        """
        Create polygonal wire by connecting points.

        :param collections.Sequence(point_like) pnts: The ordered points.
        :param bool close: Option to close the wire.

        :return: The new wire.
        :rtype: afem.topology.entities.Wire
        """
        builder = BRepBuilderAPI_MakePolygon()
        for p in pnts:
            p = CheckGeom.to_point(p)
            builder.Add(p)
        if close:
            builder.Close()
        return Wire(builder.Wire())