def _update(self):
"""
"""
# TODO: perhaps should take an argument until which topological level
# topological entities bound to the vertex should be updated too...
reshape = ShapeBuild_ReShape()
reshape.Replace(self._vertex, make_vertex(self._pnt))
def _update(self):
"""
"""
# TODO: perhaps should take an argument until which topological level
# topological entities bound to the vertex should be updated too...
reshape = ShapeBuild_ReShape()
reshape.Replace(self._vertex, make_vertex(self._pnt))
def __init__(self, x,y,z):
"""Constructor for KbeVertex"""
KbeObject.__init__(self, name='Vertex #{0}'.format(self._n))
self._n += 1 # should be a property of KbeObject
self._pnt = gp_Pnt(x,y,z)
self._vertex = make_vertex(self._pnt)
TopoDS_Vertex.__init__(self,self._vertex)
def __init__(self, x, y, z):
"""Constructor for KbeVertex"""
KbeObject.__init__(self, name='Vertex #{0}'.format(self._n))
self._n += 1 # should be a property of KbeObject
self._pnt = gp_Pnt(x, y, z)
self._vertex = make_vertex(self._pnt)
TopoDS_Vertex.__init__(self, self._vertex)
def build_surface(self):
'''
builds and renders the plate
'''
self.plate = build_plate([self.poly], [self.pnt])
self.display.EraseAll()
self.display.DisplayShape(self.plate)
vert = make_vertex(self.pnt)
self.display.DisplayShape(vert, update=True)
def geom_plate(event=None):
display.EraseAll()
p1,p2,p3,p4,p5 = gp_Pnt(0,0,0),gp_Pnt(0,10,0),gp_Pnt(0,10,10),gp_Pnt(0,0,10),gp_Pnt(5,5,5)
poly = make_closed_polygon([p1,p2,p3,p4])
edges = [i for i in Topo(poly).edges()]
face = make_n_sided(edges, [p5])
display.DisplayShape(edges)
display.DisplayShape(make_vertex(p5))
display.DisplayShape(face, update=True)
def build_surface(self):
'''
builds and renders the plate
'''
self.plate = build_plate([self.poly], [self.pnt])
self.display.EraseAll()
self.display.DisplayShape(self.plate)
vert = make_vertex(self.pnt)
self.display.DisplayShape(vert, update=True)
def geom_plate(event=None):
display.EraseAll()
p1,p2,p3,p4,p5 = gp_Pnt(0,0,0),gp_Pnt(0,10,0),gp_Pnt(0,10,10),gp_Pnt(0,0,10),gp_Pnt(5,5,5)
poly = make_closed_polygon([p1,p2,p3,p4])
edges = [i for i in Topo(poly).edges()]
face = make_n_sided(edges, [p5])
display.DisplayShape(edges)
display.DisplayShape(make_vertex(p5))
display.DisplayShape(face, update=True)
def as_topods(self):
'''returns a gp_Vec version of self'''
return make_vertex(self)
display, start_display, add_menu, add_function_to_menu = init_display()
print sys.argv[1]
scaleFactor = 15
xReduceFactor = 35
yReduceFactor = 0
zReduceFactor = 50
dom = xml.dom.minidom.parse(sys.argv[1])
vertices = dom.getElementsByTagName('vertex')
for vertex in vertices:
x = int(vertex.attributes['x'].value)
y = int(vertex.attributes['y'].value)
z = int(vertex.attributes['z'].value)
point = gp_Pnt((x-xReduceFactor)*scaleFactor,(y-yReduceFactor)*scaleFactor,(z-zReduceFactor)*scaleFactor)
display.DisplayShape(make_vertex(point))
edges = dom.getElementsByTagName('edge')
for edge in edges:
x1 = int(edge.attributes['x1'].value)
y1 = int(edge.attributes['y1'].value)
z1 = int(edge.attributes['z1'].value)
x2 = int(edge.attributes['x2'].value)
y2 = int(edge.attributes['y2'].value)
z2 = int(edge.attributes['z2'].value)
segment = GC_MakeSegment(gp_Pnt((x1-xReduceFactor)*scaleFactor,(y1-yReduceFactor)*scaleFactor,(z1-zReduceFactor)*scaleFactor),gp_Pnt((x2-xReduceFactor)*scaleFactor,(y2-yReduceFactor)*scaleFactor,(z2-zReduceFactor)*scaleFactor)).Value()
display.DisplayShape(make_edge(segment))
cylinders = dom.getElementsByTagName('cylinder')
for cylinder in cylinders:
x1 = int(cylinder.attributes['x1'].value)
y1 = int(cylinder.attributes['y1'].value)
z1 = int(cylinder.attributes['z1'].value)
