Попробуйте начать с этого варианта:
import networkx as nx
import matplotlib.pyplot as plt
from matplotlib.patches import FancyArrowPatch, Circle
import numpy as np
def draw_network(G,pos,ax,sg=None):
for n in G:
c=Circle(pos[n],radius=0.02,alpha=0.5)
ax.add_patch(c)
G.node[n]['patch']=c
x,y=pos[n]
seen={}
for (u,v,d) in G.edges(data=True):
n1=G.node[u]['patch']
n2=G.node[v]['patch']
rad=0.1
if (u,v) in seen:
rad=seen.get((u,v))
rad=(rad+np.sign(rad)*0.1)*-1
alpha=0.5
color='k'
e = FancyArrowPatch(n1.center,n2.center,patchA=n1,patchB=n2,
arrowstyle='-|>',
connectionstyle='arc3,rad=%s'%rad,
mutation_scale=10.0,
lw=2,
alpha=alpha,
color=color)
seen[(u,v)]=rad
ax.add_patch(e)
return e
G = nx.MultiDiGraph()
G.add_edges_from([
('t1', 'c1'),
('t1', 'c2'),
('c1', 'c2'),
('c2', 'c1'),
('p2', 'c1'),
('c2', 'p2')
])
attrs = {'c1':{'key':100},
'c2':{'key':50},
't1':{'key':15},
'p2':{'key':30}}
nx.set_node_attributes(G, attrs)
node_sizes = [a['key']*30 for n, a in G.nodes(data=True)]
# drawing ...
pos = {key: [i*3, 0] for key, i in zip(attrs, range(len(attrs)))}
ax=plt.gca()
draw_network(G,pos,ax)
ax.autoscale()
plt.axis('equal')
plt.axis('off')
nx.draw_networkx_nodes(G, pos, with_labels=True,
cmap=plt.get_cmap('jet'),
node_size=node_sizes)
nx.draw_networkx_labels(G, pos)
plt.savefig("d:/temp/graph.pdf")
