here, in the following code, I get the colors assigned to the vertices, but there is no significance for the length of the box 'l'

I want the colors to be assigned w.r.t. the length of the boxes and the function should output the number of different colors in the network, so that I can use it to determine the fractal dimension of a real-world network, according the law,

N_{B} ~ l_{B}^{-dB}

please, help me in achieving this.

the file dolphin contains two columns each representing the two ends of an edge.

```
import networkx as nx
import matplotlib.pyplot as plt
G=nx.Graph()
colors = ['c1', 'c2', 'c3', 'c4', 'c5', 'c6', 'c7', 'c8', 'c9', 'c10', 'c11', 'c12']
f = open("real_network/dolphin")
a = [int(n) for n in f.read().split()]
G.add_nodes_from(a)
i = 0
b = []
while i<len(a):
b.append((a[i],a[i+1]))
i = i+2
#print b
G.add_edges_from(b)
colors_of_nodes={}
def coloring(node, color):
for neighbor in G.neighbors(node):
color_of_neighbor = colors_of_nodes.get(neighbor, None)
if color_of_neighbor == color:
return False
return True
def get_color_for_node(node):
for color in colors:
if coloring(node, color):
return color
def main():
for node in G.nodes():
colors_of_nodes[node] = get_color_for_node(node)
print colors_of_nodes
main()
```