def superWireReverse(debuglist,closed=False):
'''superWireReverse(debuglist,[closed]): forces a wire between edges
that don't necessarily have coincident endpoints. If closed=True, wire
will always be closed. debuglist has a tuple for every edge.The first
entry is the edge, the second is the flag 'does not nedd to be inverted'
'''
#taken from draftlibs
def median(v1,v2):
vd = v2.sub(v1)
vd.scale(.5,.5,.5)
return v1.add(vd)
try:
from DraftGeomUtils import findMidpoint
except ImportError: #workaround for Version 0.12
from draftlibs.fcgeo import findMidpoint #workaround for Version 0.12
import Part
#edges = sortEdges(edgeslist)
print debuglist
newedges = []
for i in range(len(debuglist)):
curr = debuglist[i]
if i == 0:
if closed:
prev = debuglist[-1]
else:
prev = None
else:
prev = debuglist[i-1]
if i == (len(debuglist)-1):
if closed:
nexte = debuglist[0]
else:
nexte = None
else:
nexte = debuglist[i+1]
print i,prev,curr,nexte
if prev:
if curr[0].Vertexes[-1*(not curr[1])].Point == \
prev[0].Vertexes[-1*prev[1]].Point:
p1 = curr[0].Vertexes[-1*(not curr[1])].Point
else:
p1 = median(curr[0].Vertexes[-1*(not curr[1])].Point,\
prev[0].Vertexes[-1*prev[1]].Point)
else:
p1 = curr[0].Vertexes[-1*(not curr[1])].Point
if nexte:
if curr[0].Vertexes[-1*curr[1]].Point == \
nexte[0].Vertexes[-1*(not nexte[1])].Point:
p2 = nexte[0].Vertexes[-1*(not nexte[1])].Point
else:
p2 = median(curr[0].Vertexes[-1*(curr[1])].Point,\
nexte[0].Vertexes[-1*(not nexte[1])].Point)
else:
p2 = curr[0].Vertexes[-1*(curr[1])].Point
if isinstance(curr[0].Curve,Part.Line):
print "line",p1,p2
newedges.append(Part.Line(p1,p2).toShape())
elif isinstance(curr[0].Curve,Part.Circle):
p3 = findMidpoint(curr[0])
print "arc",p1,p3,p2
newedges.append(Part.Arc(p1,p3,p2).toShape())
else:
print "Cannot superWire edges that are not lines or arcs"
return None
print newedges
return Part.Wire(newedges)
def superWireReverse(debuglist,closed=False):
'''superWireReverse(debuglist,[closed]): forces a wire between edges
that don't necessarily have coincident endpoints. If closed=True, wire
will always be closed. debuglist has a tuple for every edge.The first
entry is the edge, the second is the flag 'does not nedd to be inverted'
'''
#taken from draftlibs
def median(v1,v2):
vd = v2.sub(v1)
vd.scale(.5,.5,.5)
return v1.add(vd)
try:
from DraftGeomUtils import findMidpoint
except ImportError: #workaround for Version 0.12
from draftlibs.fcgeo import findMidpoint #workaround for Version 0.12
import Part
#edges = sortEdges(edgeslist)
print debuglist
newedges = []
for i in range(len(debuglist)):
curr = debuglist[i]
if i == 0:
if closed:
prev = debuglist[-1]
else:
prev = None
else:
prev = debuglist[i-1]
if i == (len(debuglist)-1):
if closed:
nexte = debuglist[0]
else:
nexte = None
else:
nexte = debuglist[i+1]
print i,prev,curr,nexte
if prev:
if curr[0].Vertexes[-1*(not curr[1])].Point == \
prev[0].Vertexes[-1*prev[1]].Point:
p1 = curr[0].Vertexes[-1*(not curr[1])].Point
else:
p1 = median(curr[0].Vertexes[-1*(not curr[1])].Point,\
prev[0].Vertexes[-1*prev[1]].Point)
else:
p1 = curr[0].Vertexes[-1*(not curr[1])].Point
if nexte:
if curr[0].Vertexes[-1*curr[1]].Point == \
nexte[0].Vertexes[-1*(not nexte[1])].Point:
p2 = nexte[0].Vertexes[-1*(not nexte[1])].Point
else:
p2 = median(curr[0].Vertexes[-1*(curr[1])].Point,\
nexte[0].Vertexes[-1*(not nexte[1])].Point)
else:
p2 = curr[0].Vertexes[-1*(curr[1])].Point
if isinstance(curr[0].Curve,Part.Line):
print "line",p1,p2
newedges.append(Part.Line(p1,p2).toShape())
elif isinstance(curr[0].Curve,Part.Circle):
p3 = findMidpoint(curr[0])
print "arc",p1,p3,p2
newedges.append(Part.Arc(p1,p3,p2).toShape())
else:
print "Cannot superWire edges that are not lines or arcs"
return None
print newedges
return Part.Wire(newedges)
def make_curves(self):
item = ""
edges=[]
s=Gui.Selection.getSelectionEx()
for i in s:
for e in i.SubElementNames:
edges.append(getattr(i.Object.Shape,e))
sorted_edges = []
sorted_edges = sortEdges(edges)
#item += '#another test after sorted_edges \n'
def isSameVertex(V1, V2):#borrowed from yorik's fcgeo.py- thanks yorik!
''' Test if vertexes have same coordinates with precision 10E(-precision)'''
if round(V1.X-V2.X,1)==0 and round(V1.Y-V2.Y,1)==0 and round(V1.Z-V2.Z,1)==0 :
return True
else :
return False
start=sorted_edges[0]
end=sorted_edges[-1]
startingZ = start.Vertexes[0].Z
#set starting depth to same Z as starting curve element
self.form.lineEditStartDepth.setText(str(start.Vertexes[0].Z))
item += "curve = area.Curve()\n"
if isSameVertex(start.Vertexes[0],end.Vertexes[1]) :
item += '#closed path\n'
path = 'closedpath'
else:
item += '#open path\n'
path = 'openpath'
if path == 'openpath' :
item += "curve.append(area.Point(" + str(start.Vertexes[0].X) + "," + str(start.Vertexes[0].Y)+ "))\n"
for s in sorted_edges:
#edges.append(s)
if (isinstance(s.Curve,Part.Circle)):
mp = findMidpoint(s)
ce = s.Curve.Center
tang1 = s.Curve.tangent(s.ParameterRange[0]) ; tang2 = s.Curve.tangent(s.ParameterRange[1])
cross1 = Vector.cross(Base.Vector(tang1[0][0],tang1[0][1],tang1[0][2]),Base.Vector(tang2[0][0],tang2[0][1],tang2[0][2]))
if cross1[2] > 0:
direct = '1 ' #we seem to be working in a rh system in FreeCAD
else:
direct = '-1 '
item += "curve.append(area.Vertex("+str(direct)+ ", area.Point( "+ str(s.Vertexes[-1].Point[0])+", "+str(s.Vertexes[-1].Point[1])+ "), area.Point("+str(s.Curve.Center [0])+ ", " + str(s.Curve.Center[1])+ ")))\n"
elif (isinstance(s.Curve,Part.Line)):
item += "curve.append(area.Point( "+str(s.Vertexes[-1].Point[0])+", " +str(s.Vertexes[-1].Point[1])+ "))\n"
else:
pass
#export curve elements to heekscnc
#to reverse the curve:
#item += "curve.append(area.Point(" + str(end.Vertexes[0].X) + "," + str(end.Vertexes[0].Y) + "))"
if path == 'closedpath':
item += "curve.append(area.Point(" + str(start.Vertexes[1].X) + "," + str(start.Vertexes[1].Y)+ "))\n"
item += "curve.Reverse()\n"
self.form.textEditCurve.append(item)
def getGeom(g):
geom = g.Group
name = g.Label
objs = []
item = "# ***** "+name+" *****\n"
edges=[]
points = []
for s in geom:
if s.Shape.ShapeType =='Vertex':
points.append(s)
elif s.Shape.ShapeType =='Wire':
edges.extend(s.Shape.Edges)
elif s.Shape.ShapeType =='Face':
edges.extend(s.Shape.OuterWire.Edges)
else:
#objs.append(s.Object)
edges.append(s.Shape)
sorted_edges = []
sorted_edges = sortEdges(edges)
wire1 = findWires(sorted_edges)
start=sorted_edges[0]
end=sorted_edges[-1]
startingZ = start.Vertexes[0].Z
#set starting depth to same Z as starting curve element
#self.form.lineEditStartDepth.setText(str(start.Vertexes[0].Z))
item += name+" = area.Curve()\n"
if isReallyClosed(wire1[0]):
item += '#closed path\n'
path = 'closedpath'
else:
item += '#open path\n'
path = 'openpath'
# if isSameVertex(start.Vertexes[0],end.Vertexes[1]) :
# item += '#closed path\n'
# path = 'closedpath'
# else:
# item += '#open path\n'
# path = 'openpath'
#if path == 'openpath' :
item += name+".append(area.Point(" + str(start.Vertexes[0].X) + "," + str(start.Vertexes[0].Y)+ "))\n"
for s in sorted_edges:
#edges.append(s)
if (isinstance(s.Curve,Part.Circle)):
mp = findMidpoint(s)
ce = s.Curve.Center
# tang1 = s.Curve.tangent(s.ParameterRange[0]) ; tang2 = s.Curve.tangent(s.ParameterRange[1])
# cross1 = Vector.cross(Base.Vector(tang1[0][0],tang1[0][1],tang1[0][2]),Base.Vector(tang2[0][0],tang2[0][1],tang2[0][2]))
#look at isClockwise in DraftGeomUtils.py
# if cross1[2] > 0:
if isClockwise(s):
direct = '1 ' #we seem to be working in a rh system in FreeCAD
else:
direct = '-1 '
item += name+".append(area.Vertex("+str(direct)+ ", area.Point( "+ str(s.Vertexes[-1].Point[0])+", "+str(s.Vertexes[-1].Point[1])+ "), area.Point("+str(s.Curve.Center [0])+ ", " + str(s.Curve.Center[1])+ ")))\n"
elif (isinstance(s.Curve,Part.Line)):
item += name+".append(area.Point( "+str(s.Vertexes[-1].Point[0])+", " +str(s.Vertexes[-1].Point[1])+ "))\n"
else:
pass
# if path == 'closedpath':
# item += name+".append(area.Point(" + str(start.Vertexes[1].X) + "," + str(start.Vertexes[1].Y)+ "))\n"
#item+= name+".Reverse()\n"
#return item
if points:
item+= name+"_startparams = {'key':'value'}\n"
item+= name+"_startparams['startpt'] = True\n"
item+= name+"_startparams['startptX'] = "+str(points[0].X)+"\n"
item+= name+"_startparams['startptY'] = "+str(points[0].Y)+"\n"
#item+= "kurve_funcs.make_smaller( "+ name+ ", start = area.Point(" + str(points[0].X)+","+str(points[0].Y)+"))\n"
else:
item+= name+"_startparams = {'key':'value'}\n"
item+= name+"_startparams['startpt'] = False\n"
# item+="profileparams['side'] = 'left'\n"
# item+="profile("+name+", profileparams,"+ name+"_startparams)\n"
return item
def make_curves(self):
item = ""
edges = []
s = Gui.Selection.getSelectionEx()
for i in s:
for e in i.SubElementNames:
edges.append(getattr(i.Object.Shape, e))
sorted_edges = []
sorted_edges = sortEdges(edges)
#item += '#another test after sorted_edges \n'
def isSameVertex(V1,
V2): #borrowed from yorik's fcgeo.py- thanks yorik!
''' Test if vertexes have same coordinates with precision 10E(-precision)'''
if round(V1.X - V2.X, 1) == 0 and round(
V1.Y - V2.Y, 1) == 0 and round(V1.Z - V2.Z, 1) == 0:
return True
else:
return False
start = sorted_edges[0]
end = sorted_edges[-1]
startingZ = start.Vertexes[0].Z
#set starting depth to same Z as starting curve element
self.form.lineEditStartDepth.setText(str(start.Vertexes[0].Z))
item += "curve = area.Curve()\n"
if isSameVertex(start.Vertexes[0], end.Vertexes[1]):
item += '#closed path\n'
path = 'closedpath'
else:
item += '#open path\n'
path = 'openpath'
if path == 'openpath':
item += "curve.append(area.Point(" + str(
start.Vertexes[0].X) + "," + str(start.Vertexes[0].Y) + "))\n"
for s in sorted_edges:
#edges.append(s)
if (isinstance(s.Curve, Part.Circle)):
mp = findMidpoint(s)
ce = s.Curve.Center
tang1 = s.Curve.tangent(s.ParameterRange[0])
tang2 = s.Curve.tangent(s.ParameterRange[1])
cross1 = Vector.cross(
Base.Vector(tang1[0][0], tang1[0][1], tang1[0][2]),
Base.Vector(tang2[0][0], tang2[0][1], tang2[0][2]))
if cross1[2] > 0:
direct = '1 ' #we seem to be working in a rh system in FreeCAD
else:
direct = '-1 '
item += "curve.append(area.Vertex(" + str(
direct) + ", area.Point( " + str(
s.Vertexes[-1].Point[0]) + ", " + str(
s.Vertexes[-1].Point[1]) + "), area.Point(" + str(
s.Curve.Center[0]) + ", " + str(
s.Curve.Center[1]) + ")))\n"
elif (isinstance(s.Curve, Part.Line)):
item += "curve.append(area.Point( " + str(
s.Vertexes[-1].Point[0]) + ", " + str(
s.Vertexes[-1].Point[1]) + "))\n"
else:
pass
#export curve elements to heekscnc
#to reverse the curve:
#item += "curve.append(area.Point(" + str(end.Vertexes[0].X) + "," + str(end.Vertexes[0].Y) + "))"
if path == 'closedpath':
item += "curve.append(area.Point(" + str(
start.Vertexes[1].X) + "," + str(start.Vertexes[1].Y) + "))\n"
item += "curve.Reverse()\n"
self.form.textEditCurve.append(item)
