simple plotting to see if it works.
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c6434469fb
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205
geometry.py
205
geometry.py
@ -246,13 +246,11 @@ class Polygon(object):
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it needs to average vertices with all adjoinging faces
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'''
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def __init__(self, vertices, edges, faces):
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self.vertices = vertices
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self.edges = edges
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self.faces = faces
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def __init__(self):
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self.vertices = []
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self.edges = []
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self.faces = []
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def __repr__(self):
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return str([edge for edge in self.edges])
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def catmullClarkRefine(self):
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'''
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For each face, add a face vertex
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@ -264,123 +262,132 @@ class Polygon(object):
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'''
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# each face knows how to subdivide and create a set of subfaces, including interior edges and setup their references correctly... <- not completely finished...
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p = Polygon()
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edges = []
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vertices = []
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faces = []
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for face in self.faces:
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for subFace in face.subFaces:
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faces.append(subFace)
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for edge in subFace.edges:
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edges.append(edge)
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for vertex in edge.vertices:
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print vertex
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vertices.append(vertex)
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p.faces = faces
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p.vertices = vertices
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p.edges = edges
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# plotting these in excel seems to show the correct values (at first glace...)
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# so now what.........
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# (F + 2R + (n-3) P) / n
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#
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# F = average of all face vertices touching P
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# R = average of all edge vertices touching P
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# P original point
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# n = face vertices or edge vertices (should be the same number)
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return p
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def createPolygon():
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v = []
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v.append(Vertex(0.0, 1.0, 0.0))
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v.append(Vertex(1.0, 1.0, 0.0))
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v.append(Vertex(1.0, 0.0, 0.0))
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v.append(Vertex(0.0, 0.0, 0.0))
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v.append(Vertex(0.0, 1.0, 1.0))
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v.append(Vertex(1.0, 1.0, 1.0))
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v.append(Vertex(1.0, 0.0, 1.0))
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v.append(Vertex(0.0, 0.0, 1.0))
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v = []
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v.append(Vertex(0.0, 1.0, 0.0))
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v.append(Vertex(1.0, 1.0, 0.0))
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v.append(Vertex(1.0, 0.0, 0.0))
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v.append(Vertex(0.0, 0.0, 0.0))
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v.append(Vertex(0.0, 1.0, 1.0))
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v.append(Vertex(1.0, 1.0, 1.0))
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v.append(Vertex(1.0, 0.0, 1.0))
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v.append(Vertex(0.0, 0.0, 1.0))
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e = []
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e.append(Edge())
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e.append(Edge())
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e.append(Edge())
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e.append(Edge())
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e.append(Edge())
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e.append(Edge())
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e.append(Edge())
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e.append(Edge())
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e.append(Edge())
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e.append(Edge())
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e.append(Edge())
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e.append(Edge())
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e = []
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e.append(Edge())
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e.append(Edge())
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e.append(Edge())
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e.append(Edge())
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e.append(Edge())
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e.append(Edge())
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e.append(Edge())
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e.append(Edge())
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e.append(Edge())
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e.append(Edge())
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e.append(Edge())
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e.append(Edge())
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f = []
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f.append(Face())
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f.append(Face())
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f.append(Face())
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f.append(Face())
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f.append(Face())
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f.append(Face())
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f = []
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f.append(Face())
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f.append(Face())
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f.append(Face())
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f.append(Face())
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f.append(Face())
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f.append(Face())
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# vertex list
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v[0].edges = [e[0], e[3], e[4]]
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v[1].edges = [e[0], e[5], e[1]]
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v[2].edges = [e[1], e[6], e[2]]
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v[3].edges = [e[2], e[7], e[3]]
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v[4].edges = [e[4], e[11], e[8]]
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v[5].edges = [e[5], e[9], e[8]]
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v[6].edges = [e[2], e[9], e[10]]
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v[7].edges = [e[7], e[10], e[11]]
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# vertex list
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v[0].edges = [e[0], e[3], e[4]]
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v[1].edges = [e[0], e[5], e[1]]
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v[2].edges = [e[1], e[6], e[2]]
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v[3].edges = [e[2], e[7], e[3]]
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v[4].edges = [e[4], e[11], e[8]]
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v[5].edges = [e[5], e[9], e[8]]
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v[6].edges = [e[2], e[9], e[10]]
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v[7].edges = [e[7], e[10], e[11]]
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# face list
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f[0].edges = [e[0], e[1], e[2], e[3]]
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f[1].edges = [e[1], e[5], e[9], e[6]]
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f[2].edges = [e[2], e[6], e[10], e[7]]
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f[3].edges = [e[4], e[3], e[7], e[11]]
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f[4].edges = [e[8], e[5], e[0], e[4]]
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f[5].edges = [e[10], e[9], e[8], e[11]]
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# face list
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f[0].edges = [e[0], e[1], e[2], e[3]]
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f[1].edges = [e[1], e[5], e[9], e[6]]
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f[2].edges = [e[2], e[6], e[10], e[7]]
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f[3].edges = [e[4], e[3], e[7], e[11]]
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f[4].edges = [e[8], e[5], e[0], e[4]]
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f[5].edges = [e[10], e[9], e[8], e[11]]
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#winged edges ordered by face, then by vertex reference
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e[0].vertices, e[0].faces, e[0].edges = [v[0], v[1]], [f[0], f[4]], [e[3], e[1], e[4], e[5]]
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e[1].vertices, e[1].faces, e[1].edges = [v[1], v[2]], [f[0], f[1]], [e[0], e[2], e[5], e[6]]
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e[2].vertices, e[2].faces, e[2].edges = [v[2], v[3]], [f[0], f[2]], [e[3], e[7], e[1], e[6]]
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e[3].vertices, e[3].faces, e[3].edges = [v[3], v[0]], [f[3], f[0]], [e[4], e[7], e[0], e[2]]
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e[4].vertices, e[4].faces, e[4].edges = [v[0], v[4]], [f[3], f[4]], [e[11], e[3], e[0], e[8]]
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e[5].vertices, e[5].faces, e[5].edges = [v[5], v[1]], [f[4], f[1]], [e[8], e[0], e[9], e[1]]
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e[6].vertices, e[6].faces, e[6].edges = [v[2], v[6]], [f[1], f[2]], [e[1], e[9], e[2], e[10]]
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e[7].vertices, e[7].faces, e[7].edges = [v[7], v[3]], [f[3], f[2]], [e[11], e[3], e[10], e[2]]
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e[8].vertices, e[8].faces, e[8].edges = [v[4], v[5]], [f[4], f[5]], [e[4], e[5], e[11], e[9]]
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e[9].vertices, e[9].faces, e[9].edges = [v[5], v[6]], [f[1], f[5]], [e[5], e[6], e[8], e[10]]
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e[10].vertices, e[10].faces, e[10].edges = [v[7], v[6]], [f[2], f[5]], [e[7], e[6], e[11], e[9]]
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e[11].vertices, e[11].faces, e[11].edges = [v[4], v[7]], [f[3], f[5]], [e[4], e[7], e[8], e[10]]
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#winged edges ordered by face, then by vertex reference
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e[0].vertices, e[0].faces, e[0].edges = [v[0], v[1]], [f[0], f[4]], [e[3], e[1], e[4], e[5]]
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e[1].vertices, e[1].faces, e[1].edges = [v[1], v[2]], [f[0], f[1]], [e[0], e[2], e[5], e[6]]
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e[2].vertices, e[2].faces, e[2].edges = [v[2], v[3]], [f[0], f[2]], [e[3], e[7], e[1], e[6]]
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e[3].vertices, e[3].faces, e[3].edges = [v[3], v[0]], [f[3], f[0]], [e[4], e[7], e[0], e[2]]
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e[4].vertices, e[4].faces, e[4].edges = [v[0], v[4]], [f[3], f[4]], [e[11], e[3], e[0], e[8]]
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e[5].vertices, e[5].faces, e[5].edges = [v[5], v[1]], [f[4], f[1]], [e[8], e[0], e[9], e[1]]
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e[6].vertices, e[6].faces, e[6].edges = [v[2], v[6]], [f[1], f[2]], [e[1], e[9], e[2], e[10]]
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e[7].vertices, e[7].faces, e[7].edges = [v[7], v[3]], [f[3], f[2]], [e[11], e[3], e[10], e[2]]
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e[8].vertices, e[8].faces, e[8].edges = [v[4], v[5]], [f[4], f[5]], [e[4], e[5], e[11], e[9]]
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e[9].vertices, e[9].faces, e[9].edges = [v[5], v[6]], [f[1], f[5]], [e[5], e[6], e[8], e[10]]
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e[10].vertices, e[10].faces, e[10].edges = [v[7], v[6]], [f[2], f[5]], [e[7], e[6], e[11], e[9]]
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e[11].vertices, e[11].faces, e[11].edges = [v[4], v[7]], [f[3], f[5]], [e[4], e[7], e[8], e[10]]
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# just to prove to myself that the objects are the same, this is what years of pass by value have done to me...
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# just to prove to myself that the objects are the same, this is what years of pass by value have done to me...
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# print id(v[0].x)
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# print id(e[0].vertices[0].x)
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# print id(f[0].edges[0].vertices[0].x)
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# print id(v[0].x)
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# print id(e[0].vertices[0].x)
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# print id(f[0].edges[0].vertices[0].x)
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# v[0].x = 9
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# v[0].x = 9
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# print id(v[0].x)
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# print id(e[0].vertices[0].x)
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# print id(f[0].edges[0].vertices[0].x)
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# print id(v[0].x)
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# print id(e[0].vertices[0].x)
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# print id(f[0].edges[0].vertices[0].x)
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# print v[0].x
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# print e[0].vertices[0].x
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# print f[0].edges[0].vertices[0].x
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p = Polygon()
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p.vertices = v
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p.edges = e
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p.faces = f
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return p
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# print v[0].x
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# print e[0].vertices[0].x
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# print f[0].edges[0].vertices[0].x
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polygon = createPolygon()
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newPolygon = polygon.catmullClarkRefine()
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polygon = Polygon(v, e, f)
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polygon.catmullClarkRefine()
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from numpy import *
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import pylab
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import mpl_toolkits.mplot3d.axes3d as p3
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# from numpy import *
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# import pylab
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# import mpl_toolkits.mplot3d.axes3d as p3
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# fig = pylab.figure()
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# ax = p3.Axes3D(fig)
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# ax.plot_wireframe(xs, ys, zs)
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# ax.set_xlabel('X')
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# ax.set_ylabel('Y')
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# ax.set_zlabel('Z')
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# pylab.show()
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# v4 = Vertex(4, 0, 0, 1)
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# v5 = Vertex(5, 1, 0, 1)
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# v6 = Vertex(6, 0, 1, 1)
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# v7 = Vertex(7, 1, 1, 1)
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fig = pylab.figure()
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ax = p3.Axes3D(fig)
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for edge in newPolygon.edges:
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xs = [vertex.x for vertex in edge.vertices]
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ys = [vertex.y for vertex in edge.vertices]
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zs = [vertex.z for vertex in edge.vertices]
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ax.plot_wireframe(xs, ys, zs)
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ax.set_xlabel('X')
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ax.set_ylabel('Y')
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ax.set_zlabel('Z')
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pylab.show()
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