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- import networkx as nx
- from matplotlib import pyplot as plt
- from vops import *
-
- class Graph(object):
-
- def __init__(self, n):
- self.vertices = [set() for i in xrange(n)]
- self.vops = ["hadamard" for i in xrange(n)]
-
- def add_edge(self, v1, v2):
- self.vertices[v1].add(v2)
- self.vertices[v2].add(v1)
-
- def del_edge(self, v1, v2):
- self.vertices[v1].remove(v2)
- self.vertices[v2].remove(v1)
-
- def edgelist(self):
- edges = frozenset(frozenset((i, n))
- for i, v in enumerate(self.vertices)
- for n in v)
- return [tuple(e) for e in edges]
-
- def draw(self, filename="out.pdf"):
- g = nx.from_edgelist(self.edgelist())
- pos = nx.spring_layout(g)
- nx.draw_networkx_nodes(g, pos, node_color="white", node_size=1000)
- nx.draw_networkx_labels(g, pos)
- nx.draw_networkx_edges(g, pos)
- for i, vop in enumerate(self.vops):
- if not i in pos: continue
- x, y = pos[i]
- plt.text(x, y+0.1, "hadamard", ha="center")
-
- plt.axis('off')
- plt.savefig(filename)
-
- if __name__ == '__main__':
- g = Graph(10)
- g.add_edge(0, 1)
- g.add_edge(1, 3)
- g.add_edge(3, 2)
- g.add_edge(3, 0)
- g.add_edge(2, 0)
- print g.edgelist()
-
- g.draw()
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