def evolved_shape(): P = BRepBuilderAPI_MakePolygon() P.Add(gp_Pnt(0., 0., 0.)) P.Add(gp_Pnt(200., 0., 0.)) P.Add(gp_Pnt(200., 200., 0.)) P.Add(gp_Pnt(0., 200., 0.)) P.Add(gp_Pnt(0., 0., 0.)) wprof = BRepBuilderAPI_MakePolygon(gp_Pnt(0., 0., 0.), gp_Pnt(-60., -60., -200.)) S = BRepOffsetAPI_MakeEvolved(P.Wire(), wprof.Wire(), GeomAbs_Arc, True, False, True, 0.0001) S.Build() display.DisplayShape(S.Shape(), update=True)
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()
def ngon_to_face(points: NGon) -> TopoDS_Face: """Convert a Ngon to a BRep face with an underlying best-fit surface. Parameters ---------- points : sequence[point] Points defining a polygon. Returns ------- TopoDS_Face """ points = [gp_Pnt(*point) for point in points] poly = BRepBuilderAPI_MakePolygon() for point in points: poly.Add(point) poly.Build() poly.Close() edges = TopologyExplorer(poly.Wire()).edges() nsided = BRepFill_Filling() for edge in edges: nsided.Add(edge, GeomAbs_C0) nsided.Build() return nsided.Face()
def triangle_to_face(points: Triangle) -> TopoDS_Face: """Convert a triangle to a BRep face. Parameters ---------- points : [point, point, point] Three points defining a triangle. Returns ------- TopoDS_Face Raises ------ AssertionError If the number of points is not 3. """ assert len(points) == 3, "The number of input points should be three." polygon = BRepBuilderAPI_MakePolygon() for point in points: polygon.Add(gp_Pnt(*point)) polygon.Close() wire = polygon.Wire() return BRepBuilderAPI_MakeFace(wire).Face()
def getTestFace(): P1 = gp_Pnt(0., 0., 0.) P12 = gp_Pnt(0., 2., 2.) P2 = gp_Pnt(0., 10., 0.) P3 = gp_Pnt(0., 10., 10.) P4 = gp_Pnt(0., 0., 10.) P5 = gp_Pnt(5., 5., 5.) SceneDrawPoint('p1', P1) SceneDrawPoint('p12', P12) SceneDrawPoint('p2', P2) SceneDrawPoint('p3', P3) SceneDrawPoint('p4', P4) SceneDrawPoint('p5', P5) W = BRepBuilderAPI_MakePolygon() W.Add(P1) W.Add(P12) W.Add(P2) W.Add(P3) W.Add(P4) W.Add(P1) SceneDrawShape('w', W.Shape()) # Initialize a BuildPlateSurface BPSurf = GeomPlate_BuildPlateSurface(3, 15, 2) # Create the curve constraints anExp = BRepTools_WireExplorer() anExp.Init(W.Wire()) while anExp.More(): E = anExp.Current() C = BRepAdaptor_HCurve() C.ChangeCurve().Initialize(E) Cont = BRepFill_CurveConstraint(C, 0) BPSurf.Add(Cont) anExp.Next() # Point constraint PCont = GeomPlate_PointConstraint(P5, 0) BPSurf.Add(PCont) # Compute the Plate surface BPSurf.Perform() # Approximation of the Plate surface MaxSeg = 9 MaxDegree = 8 CritOrder = 0 PSurf = BPSurf.Surface() dmax = max(0.0001, 10 * BPSurf.G0Error()) Tol = 0.0001 Mapp = GeomPlate_MakeApprox(PSurf, Tol, MaxSeg, MaxDegree, dmax, CritOrder) Surf = Mapp.Surface() # create a face corresponding to the approximated Plate Surface Umin, Umax, Vmin, Vmax = PSurf.Bounds() #MF = BRepBuilderAPI_MakeFace (Surf, Umin, Umax, Vmin, Vmax, Tol) MF = BRepBuilderAPI_MakeFace(Surf, Tol) return MF
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())
def makeFace(pntList) : from OCC.Core.BRepBuilderAPI import BRepBuilderAPI_MakePolygon from OCC.Core.BRepBuilderAPI import BRepBuilderAPI_MakeFace wire = BRepBuilderAPI_MakePolygon() for i in pntList : wire.Add(i) wire.Close() face = BRepBuilderAPI_MakeFace(wire.Wire()).Face() return face
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
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
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() result = poly.Wire() return result
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
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())
# BRep Polygon # ============================================================================== points = [gp_Pnt(*point) for point in polygon] poly = BRepBuilderAPI_MakePolygon() for point in points: poly.Add(point) poly.Build() poly.Close() # ============================================================================== # BRep Filling # ============================================================================== edges = list(TopologyExplorer(poly.Wire()).edges()) nsided = BRepFill_Filling() for edge in edges: nsided.Add(edge, GeomAbs_C0) nsided.Add(gp_Pnt(*(polygon.centroid + normal_polygon(polygon)))) nsided.Build() # ============================================================================== # Surface from BRep Filling Face # ============================================================================== face = nsided.Face() surface = OCCNurbsSurface.from_face(face) # ==============================================================================
shell = TopoDS_Shell() builder = BRep_Builder() builder.MakeShell(shell) pointdict = [ gp_Pnt(*tubemesh.vertex_attributes(vertex, 'xyz')) for vertex in tubemesh.vertices() ] for face in tubemesh.faces(): polygon = BRepBuilderAPI_MakePolygon() for vertex in tubemesh.face_vertices(face): polygon.Add(pointdict[vertex]) polygon.Close() wire = polygon.Wire() face = BRepBuilderAPI_MakeFace(wire).Face() builder.Add(shell, face) # ============================================================================== # Explore # ============================================================================== polygons = [] tool = BRep_Tool() wires = TopExp_Explorer(shell, TopAbs_WIRE) while wires.More(): wire = topods_Wire(wires.Current()) vertices = TopExp_Explorer(wire, TopAbs_VERTEX)