def brep_feat_local_revolution(event=None):
S = BRepPrimAPI_MakeBox(400., 250., 300.).Shape()
faces = list(Topo(S).faces())
F1 = faces[2]
surf = BRep_Tool_Surface(F1)
D = gp_OX()
MW1 = BRepBuilderAPI_MakeWire()
p1 = gp_Pnt2d(100., 100.)
p2 = gp_Pnt2d(200., 100.)
aline = GCE2d_MakeLine(p1, p2).Value()
MW1.Add(BRepBuilderAPI_MakeEdge(aline, surf, 0., p1.Distance(p2)).Edge())
p1 = gp_Pnt2d(200., 100.)
p2 = gp_Pnt2d(150., 200.)
aline = GCE2d_MakeLine(p1, p2).Value()
MW1.Add(BRepBuilderAPI_MakeEdge(aline, surf, 0., p1.Distance(p2)).Edge())
p1 = gp_Pnt2d(150., 200.)
p2 = gp_Pnt2d(100., 100.)
aline = GCE2d_MakeLine(p1, p2).Value()
MW1.Add(BRepBuilderAPI_MakeEdge(aline, surf, 0., p1.Distance(p2)).Edge())
MKF1 = BRepBuilderAPI_MakeFace()
MKF1.Init(surf, False, 1e-6)
MKF1.Add(MW1.Wire())
FP = MKF1.Face()
breplib_BuildCurves3d(FP)
MKrev = BRepFeat_MakeRevol(S, FP, F1, D, 1, True)
F2 = faces[4]
MKrev.Perform(F2)
display.EraseAll()
display.DisplayShape(MKrev.Shape())
display.FitAll()
def extrusion(event=None):
# Make a box
Box = BRepPrimAPI_MakeBox(400., 250., 300.)
S = Box.Shape()
# Choose the first Face of the box
F = next(Topo(S).faces())
surf = BRep_Tool_Surface(F)
# Make a plane from this face
Pl = Handle_Geom_Plane_DownCast(surf)
Pln = Pl.GetObject()
# Get the normal of this plane. This will be the direction of extrusion.
D = Pln.Axis().Direction()
# Inverse normal
#D.Reverse()
# Create the 2D planar sketch
MW = BRepBuilderAPI_MakeWire()
p1 = gp_Pnt2d(200., -100.)
p2 = gp_Pnt2d(100., -100.)
aline = GCE2d_MakeLine(p1, p2).Value()
Edge1 = BRepBuilderAPI_MakeEdge(aline, surf, 0., p1.Distance(p2))
MW.Add(Edge1.Edge())
p1 = p2
p2 = gp_Pnt2d(100., -200.)
aline = GCE2d_MakeLine(p1, p2).Value()
Edge2 = BRepBuilderAPI_MakeEdge(aline, surf, 0., p1.Distance(p2))
MW.Add(Edge2.Edge())
p1 = p2
p2 = gp_Pnt2d(200., -200.)
aline = GCE2d_MakeLine(p1, p2).Value()
Edge3 = BRepBuilderAPI_MakeEdge(aline, surf, 0., p1.Distance(p2))
MW.Add(Edge3.Edge())
p1 = p2
p2 = gp_Pnt2d(200., -100.)
aline = GCE2d_MakeLine(p1, p2).Value()
Edge4 = BRepBuilderAPI_MakeEdge(aline, surf, 0., p1.Distance(p2))
MW.Add(Edge4.Edge())
# Build Face from Wire. NB: a face is required to generate a solid.
MKF = BRepBuilderAPI_MakeFace()
MKF.Init(surf, False, 1e-6)
MKF.Add(MW.Wire())
FP = MKF.Face()
breplib_BuildCurves3d(FP)
MKP = BRepFeat_MakePrism(S, FP, F, D, False, True)
MKP.Perform(200.)
# TODO MKP completes, seeing a split operation but no extrusion
assert MKP.IsDone()
res1 = MKP.Shape()
display.EraseAll()
display.DisplayColoredShape(res1, 'BLUE')
display.DisplayColoredShape(FP, 'YELLOW')
display.FitAll()
def bisect_crvcrv(event=None):
display.EraseAll()
ax = gp_Ax22d(gp_Pnt2d(), gp_Dir2d(1, 0), gp_Dir2d(0, -1))
circ = gp_Circ2d(ax, 5)
crv1 = GCE2d_MakeCircle(circ).Value()
edg1 = make_edge2d(crv1, -1.0, 1.0)
display.DisplayColoredShape(edg1, 'BLUE')
p1 = gp_Pnt2d(-10, 0)
p2 = gp_Pnt2d(-10, 10)
crv2 = GCE2d_MakeLine(p1, p2).Value()
edg2 = make_edge2d(crv2, -10.0, 10.0)
display.DisplayColoredShape(edg2, 'GREEN')
bi = Bisector_BisecCC(crv1, crv2, 50, -5, gp_Pnt2d(0, 0))
crv_bi = bi.Curve(1)
edg3 = make_edge2d(crv_bi, -1.0, 1.0)
display.DisplayColoredShape(edg3, 'RED')
display.FitAll()
def cut_out(base):
outer = gp_Circ2d(gp_OX2d(), top_radius - 1.75 * roller_diameter)
inner = gp_Circ2d(gp_OX2d(), center_radius + 0.75 * roller_diameter)
geom_outer = GCE2d_MakeCircle(outer).Value()
geom_inner = GCE2d_MakeCircle(inner).Value()
Proxy(geom_inner).Reverse()
base_angle = (2. * M_PI) / mounting_hole_count
hole_angle = atan(hole_radius / mounting_radius)
correction_angle = 3 * hole_angle
left = gp_Lin2d(gp_Origin2d(), gp_DX2d())
right = gp_Lin2d(gp_Origin2d(), gp_DX2d())
left.Rotate(gp_Origin2d(), correction_angle)
right.Rotate(gp_Origin2d(), base_angle - correction_angle)
geom_left = GCE2d_MakeLine(left).Value()
geom_right = GCE2d_MakeLine(right).Value()
inter_1 = Geom2dAPI_InterCurveCurve(geom_outer, geom_left)
inter_2 = Geom2dAPI_InterCurveCurve(geom_outer, geom_right)
inter_3 = Geom2dAPI_InterCurveCurve(geom_inner, geom_right)
inter_4 = Geom2dAPI_InterCurveCurve(geom_inner, geom_left)
if inter_1.Point(1).X() > 0:
p1 = inter_1.Point(1)
else:
p1 = inter_1.Point(2)
if inter_2.Point(1).X() > 0:
p2 = inter_2.Point(1)
else:
p2 = inter_2.Point(2)
if inter_3.Point(1).X() > 0:
p3 = inter_3.Point(1)
else:
p3 = inter_3.Point(2)
if inter_4.Point(1).X() > 0:
p4 = inter_4.Point(1)
else:
p4 = inter_4.Point(2)
trimmed_outer = GCE2d_MakeArcOfCircle(outer, p1, p2).Value()
trimmed_inner = GCE2d_MakeArcOfCircle(inner, p4, p3).Value()
plane = gp_Pln(gp_Origin(), gp_DZ())
arc1 = BRepBuilderAPI_MakeEdge(geomapi_To3d(trimmed_outer, plane)).Edge()
lin1 = BRepBuilderAPI_MakeEdge(gp_Pnt(p2.X(), p2.Y(), 0),
gp_Pnt(p3.X(), p3.Y(), 0)).Edge()
arc2 = BRepBuilderAPI_MakeEdge(geomapi_To3d(trimmed_inner, plane)).Edge()
lin2 = BRepBuilderAPI_MakeEdge(gp_Pnt(p4.X(), p4.Y(), 0),
gp_Pnt(p1.X(), p1.Y(), 0)).Edge()
cutout_wire = BRepBuilderAPI_MakeWire(arc1)
cutout_wire.Add(lin1)
cutout_wire.Add(arc2)
cutout_wire.Add(lin2)
# Turn the wire into a face
cutout_face = BRepBuilderAPI_MakeFace(cutout_wire.Wire())
filleted_face = BRepFilletAPI_MakeFillet2d(cutout_face.Face())
explorer = BRepTools_WireExplorer(cutout_wire.Wire())
while explorer.More():
vertex = explorer.CurrentVertex()
filleted_face.AddFillet(vertex, roller_radius)
explorer.Next()
cutout = BRepPrimAPI_MakePrism(filleted_face.Shape(),
gp_Vec(0.0, 0.0, thickness)).Shape()
result = base
rotate = gp_Trsf()
for i in range(0, mounting_hole_count):
rotate.SetRotation(gp_OZ(), i * 2. * M_PI / mounting_hole_count)
rotated_cutout = BRepBuilderAPI_Transform(cutout, rotate, True)
result = BRepAlgoAPI_Cut(result, rotated_cutout.Shape()).Shape()
return result
def brep_feat_extrusion_protrusion(event=None):
# Extrusion
S = BRepPrimAPI_MakeBox(400., 250., 300.).Shape()
faces = Topo(S).faces()
F = next(faces)
surf1 = BRep_Tool_Surface(F)
Pl1 = Handle_Geom_Plane_DownCast(surf1).GetObject()
D1 = Pl1.Pln().Axis().Direction().Reversed()
MW = BRepBuilderAPI_MakeWire()
p1, p2 = gp_Pnt2d(200., -100.), gp_Pnt2d(100., -100.)
aline = GCE2d_MakeLine(p1, p2).Value()
MW.Add(BRepBuilderAPI_MakeEdge(aline, surf1, 0., p1.Distance(p2)).Edge())
p1, p2 = gp_Pnt2d(100., -100.), gp_Pnt2d(100., -200.)
aline = GCE2d_MakeLine(p1, p2).Value()
MW.Add(BRepBuilderAPI_MakeEdge(aline, surf1, 0., p1.Distance(p2)).Edge())
p1, p2 = gp_Pnt2d(100., -200.), gp_Pnt2d(200., -200.)
aline = GCE2d_MakeLine(p1, p2).Value()
MW.Add(BRepBuilderAPI_MakeEdge(aline, surf1, 0., p1.Distance(p2)).Edge())
p1, p2 = gp_Pnt2d(200., -200.), gp_Pnt2d(200., -100.)
aline = GCE2d_MakeLine(p1, p2).Value()
MW.Add(BRepBuilderAPI_MakeEdge(aline, surf1, 0., p1.Distance(p2)).Edge())
MKF = BRepBuilderAPI_MakeFace()
MKF.Init(surf1, False, 1e-6)
MKF.Add(MW.Wire())
FP = MKF.Face()
breplib_BuildCurves3d(FP)
display.EraseAll()
MKP = BRepFeat_MakePrism(S, FP, F, D1, 0, True)
MKP.PerformThruAll()
res1 = MKP.Shape()
display.DisplayShape(res1)
# Protrusion
next(faces)
F2 = next(faces)
surf2 = BRep_Tool_Surface(F2)
Pl2 = Handle_Geom_Plane_DownCast(surf2).GetObject()
D2 = Pl2.Pln().Axis().Direction().Reversed()
MW2 = BRepBuilderAPI_MakeWire()
p1, p2 = gp_Pnt2d(100., 100.), gp_Pnt2d(200., 100.)
aline = GCE2d_MakeLine(p1, p2).Value()
MW2.Add(BRepBuilderAPI_MakeEdge(aline, surf2, 0., p1.Distance(p2)).Edge())
p1, p2 = gp_Pnt2d(200., 100.), gp_Pnt2d(150., 200.)
aline = GCE2d_MakeLine(p1, p2).Value()
MW2.Add(BRepBuilderAPI_MakeEdge(aline, surf2, 0., p1.Distance(p2)).Edge())
p1, p2 = gp_Pnt2d(150., 200.), gp_Pnt2d(100., 100.)
aline = GCE2d_MakeLine(p1, p2).Value()
MW2.Add(BRepBuilderAPI_MakeEdge(aline, surf2, 0., p1.Distance(p2)).Edge())
MKF2 = BRepBuilderAPI_MakeFace()
MKF2.Init(surf2, False, 1e-6)
MKF2.Add(MW2.Wire())
MKF2.Build()
FP = MKF2.Face()
breplib_BuildCurves3d(FP)
MKP2 = BRepFeat_MakePrism(res1, FP, F2, D2, 0, True)
MKP2.PerformThruAll()
display.EraseAll()
trf = gp_Trsf()
trf.SetTranslation(gp_Vec(0, 0, 300))
gtrf = gp_GTrsf()
gtrf.SetTrsf(trf)
tr = BRepBuilderAPI_GTransform(MKP2.Shape(), gtrf, True)
fused = BRepAlgoAPI_Fuse(tr.Shape(), MKP2.Shape())
fused.RefineEdges()
fused.Build()
print('Boolean operation error status:', fused.ErrorStatus())
display.DisplayShape(fused.Shape())
display.FitAll()