def offsetext():
def RepresentsInt(s):
try:
int(s)
return True
except ValueError:
return False
viste = rs.ViewNames()
for viewport in viste:
rs.ViewDisplayMode(viewport,"Shaded")
diametro = rs.StringBox("dimensione della punta","10","scontornatura")
if RepresentsInt(diametro):
diametro = int(diametro)
else:
diametro = 10
brep = rs.GetObjects("dammi un solido",16)
brepexp = rs.ExplodePolysurfaces(brep)
get_val = rs.GetEdgeCurves("dammi le curve")
surf_edge = []
for i in get_val:
surf_edge.append(i[0])
surf_edge = rs.coerceguidlist(surf_edge)
if len(surf_edge)>1:
surf_edge = rs.JoinCurves(surf_edge,True)
surface = rs.GetObjects("conferma la selezione",8,False,True,1,1)
print surf_edge
uv= []
temp_edge = rs.ExplodeCurves(surf_edge,False)
new_surface = rs.CopyObject(surface,(0,0,0))
list_evpt =[]
for i in temp_edge:
evpt =rs.CurveMidPoint(i)
print evpt
list_evpt.append(evpt)
for i in list_evpt:
bord= rs.SurfaceClosestPoint(new_surface,i)
uv.append(bord)
for i in uv:
rs.ExtendSurface(new_surface,i,diametro*10)
edge = rs.OffsetCurveOnSurface(surf_edge,new_surface,-diametro)
print edge
if rs.CurveLength(edge)<rs.CurveLength(surf_edge):
rs.DeleteObject(edge)
edge = rs.OffsetCurveOnSurface(surf_edge,new_surface,diametro)
surf_edge = rs.ExplodeCurves(surf_edge,True)
print edge
rs.ObjectColor(edge,(0,0,255))
for i in brepexp:
rs.DeleteObject(i)
for i in temp_edge:
rs.DeleteObject(i)
for i in surf_edge:
rs.DeleteObject(i)
rs.DeleteObjects([new_surface,surface])
def innerPanel():
objs = rs.GetObjects("Select objects to add frame to", filter = 24, group = True,preselect = True)
if objs is None:
return
dist = rs.GetReal("Offset Distance")
if dist is None:
return
rs.EnableRedraw(False)
srfs = []
for obj in objs:
if rs.IsPolysurface(obj):
srfs = srfs + rs.ExplodePolysurfaces(obj)
else:
srfs.append(rs.CopyObject(obj))
for srf in srfs:
if rs.IsSurfacePlanar(srf):
edgeCrvs = rs.DuplicateEdgeCurves(srf)
border = rs.JoinCurves(edgeCrvs, True)
innerEdge = rs.OffsetCurveOnSurface(border, srf, dist)
#rs.SplitBrep(srf, innerEdge)
rs.AddPlanarSrf(innerEdge)
rs.DeleteObject(innerEdge)
rs.DeleteObject(border)
else:
print "A surface was not planar"
rs.DeleteObjects(srfs)
rs.EnableRedraw(True)
def TestOffset():
curve = rs.GetEdgeCurves("dammi le curve")
if curve is None: return False
crvs = [curve[n][0] for n in range(len(curve))]
newCurve = rs.JoinCurves(crvs, True)[0]
reference = SubObjectSelect()
surface = reference[0]
point = reference[1]
if surface is None: return False
point = reference[1]
if point is None: return False
distance = 4
offset = rs.OffsetCurveOnSurface(newCurve, surface, distance)
if not offset: rs.OffsetCurveOnSurface(newCurve, surface, -1 * distance)
return offset
new_surface = rs.CopyObject(surface, (0, 0, 0))
uv = []
temp_edge = rs.ExplodeCurves(surf_edge, False)
list_evpt = []
for i in temp_edge:
evpt = rs.CurveMidPoint(i)
print evpt
list_evpt.append(evpt)
for i in list_evpt:
bord = rs.SurfaceClosestPoint(new_surface, i)
uv.append(bord)
for i in uv:
rs.ExtendSurface(new_surface, i, diametro * 10)
edge = rs.OffsetCurveOnSurface(surf_edge, new_surface, -diametro)
print edge
if rs.CurveLength(edge) < rs.CurveLength(surf_edge):
rs.DeleteObject(edge)
edge = rs.OffsetCurveOnSurface(surf_edge, new_surface, diametro)
surf_edge = rs.ExplodeCurves(surf_edge, True)
print edge
rs.ObjectColor(edge, (0, 0, 255))
for i in brepexp:
rs.DeleteObject(i)
for i in temp_edge:
rs.DeleteObject(i)
for i in surf_edge:
rs.DeleteObject(i)
def create_bone(point, curve, length, width, radius, extend):
if not extend: extend = 0.001
curve_surface = rs.AddPlanarSrf(curve)
if not curve_surface:
exp_curves = rs.ExplodeCurves(curve)
curve_surface = rs.AddEdgeSrf(exp_curves)
rs.DeleteObjects(exp_curves)
print("Surface problem")
# circle = rs.AddCircle(rs.CurveAreaCentroid(curve)[0],10000)
# planar_surface = rs.AddPlanarSrf(circle)
# projected_curve = rs.ProjectCurveToSurface(curve,planar_surface,(0,0,-1))
# if not projected_curve: rs.ProjectCurveToSurface(curve,planar_surface,(0,0,1))
# if not projected_curve: print "noooooo"
# curve_surface = rs.AddPlanarSrf(projected_curve)
# rs.DeleteObjects([circle,planar_surface,curve])
# curve = rs.JoinCurves(rs.DuplicateEdgeCurves(curve_surface, select=False))
# if not curve_surface: print "WARNING"
main_point_param = rs.CurveClosestPoint(curve, point)
curve_normal = rs.CurveNormal(curve)
curve_plane = rs.CurvePlane(curve)
tangent = rs.CurveTangent(curve, main_point_param)
center_curve = rs.AddLine((0, 0, 0), rs.VectorScale(tangent, length))
rs.RotateObject(center_curve, (0, 0, 0), 90, curve_normal)
rs.MoveObject(center_curve, rs.VectorCreate(point, (0, 0, 0)))
if not rs.IsPointOnSurface(curve_surface, rs.CurveEndPoint(center_curve)):
rs.RotateObject(center_curve, point, 180, curve_normal)
normal = rs.VectorScale(tangent, 10000)
normal_inverted = rs.VectorReverse(normal)
side_curve = rs.OffsetCurveOnSurface(center_curve, curve_surface,
width / 2)
if not side_curve:
side_curve = rs.OffsetCurveOnSurface(center_curve, curve_surface,
-width / 2)
side_curves = [
side_curve,
rs.RotateObject(
side_curve, rs.CurveMidPoint(center_curve), 180,
rs.VectorCreate(rs.CurveStartPoint(center_curve),
rs.CurveEndPoint(center_curve)), True)
]
#side_curves = [side_curve,rs.MirrorObject(side_curve,rs.CurveStartPoint(center_curve),rs.CurveEndPoint(center_curve), True)]
#side_curves = [rs.OffsetCurveOnSurface(center_curve,curve_surface, width/2),rs.OffsetCurveOnSurface(center_curve,curve_surface, -width/2)]
for side_curve in side_curves:
rs.ExtendCurveLength(side_curve, 0, 0, 2)
rs.ObjectColor(side_curve, (255, 0, 0))
perimeter_curve = rs.AddCurve([
rs.CurveStartPoint(side_curves[0]),
rs.CurveEndPoint(side_curves[0]),
rs.CurveEndPoint(side_curves[1]),
rs.CurveStartPoint(side_curves[1]),
rs.CurveStartPoint(side_curves[0])
], 1)
inside_curve = rs.OffsetCurve(perimeter_curve,
rs.CurveAreaCentroid(perimeter_curve)[0],
radius * .7)
external_curve = rs.OffsetCurve(perimeter_curve,
rs.CurveAreaCentroid(perimeter_curve)[0],
-extend)
e_points = [
rs.CurvePoints(external_curve)[0],
rs.CurvePoints(external_curve)[3]
]
e_perimeter_curve = rs.AddCurve([
rs.CurveEndPoint(side_curves[1]),
rs.CurveEndPoint(side_curves[0]), e_points[0], e_points[1],
rs.CurveEndPoint(side_curves[1])
], 1)
center_plane_a = rs.PlaneFromPoints(
rs.CurvePoints(inside_curve)[2],
rs.CurvePoints(inside_curve)[1],
rs.CurvePoints(inside_curve)[3])
center_plane_b = rs.PlaneFromPoints(
rs.CurvePoints(inside_curve)[1],
rs.CurvePoints(inside_curve)[0],
rs.CurvePoints(inside_curve)[2])
circles = [
rs.AddCircle(center_plane_a, radius + RADIUS_TOLERANCE),
rs.AddCircle(center_plane_b, radius + RADIUS_TOLERANCE)
]
bone_curve = rs.CurveBooleanUnion(
[e_perimeter_curve] +
circles) if extend else rs.CurveBooleanUnion([perimeter_curve] +
circles)
rs.DeleteObjects([
inside_curve, center_curve, perimeter_curve, curve_surface,
e_perimeter_curve, external_curve
] + side_curves + circles)
return bone_curve