Using Networkx, I am considering a graph that is in reality the union of several subgraphs. I am trying to figure out the best way to deal with this. Currently, I have been using the following strategy, but was wondering if someone had a better suggestions.

First I add the nodes one at a time, they are from a rectangular lattice with m rows and n columns, so it's fairly easy.

```
G=nx.Graph()
PN = set() #first set of nodes
DN = set() #second set of nodes
for i in range(m):
for j in range(n):
if <sorting criterion here>:
G.add_node(j + i *n, pos = <insert function of i and j here>,
node_type = 'type_1', node_color = 'b')
PN.add(j + i *n, pos = <insert function of i and j here> )
else:
G.add_node(j + i *n, pos = <insert function of i and j here>,
node_type = 'type_2', node_color = 'g')
DN.add(j + i *n, pos = <insert function of i and j here> )
pos = nx.get_node_attributes(G, 'pos')
nx.draw_networkx_nodes(G,pos,PN, node_color = 'b', node_size = 35)
nx.draw_networkx_nodes(G,pos,DN, node_color = 'g', node_size = 35)
```

I have tried, but it has failed, to do something similar that I think would be better. That idea is what follows:

```
G=nx.Graph()
V = set()
for i in range(m):
for j in range(n):
if <sorting criterion here>:
V.add(j + i *n, pos = <insert function of i and j here>,
node_type = 'type 1', node_color = 'b')
else:
V.add(j + i *n, pos = <insert function of i and j here>,
node_type = 'type 2', node_color = 'g')
color = nx.get_node_attributes(G,'node_color')
pos = nx.get_node_attributes(G, 'pos')
nx.draw_networkx_nodes(G,pos, color)
```

Unfortunately, "color" doesn't seem to work like "pos" does, and this latter method outputs all red nodes. Any suggestions would be greatly appreciated!