If I create a bipartite graph G using random geomtric graph where nodes are connected within a radius. I then want to make sure all nodes have a particular degree (i.e. only one or two edges). My main aim is to take one of the node sets (i.e node type a) and for each node make sure it has a maximum degree set by me. So for instance if a take node i that has a degree of 4, delete random edges of node i until its degree is 1.

I wrote the following code to run in the graph generator after generating edges. It deletes edges but not until all nodes have the degree of 1.

```
for n in G:
mu = du['G.degree(n)']
while mu > 1:
G.remove_edge(u,v)
if mu <=1:
break
return G
```

full function below:

```
import networkx as nx
import random
def my_bipartite_geom_graph(a, b, radius, dim):
G=nx.Graph()
G.add_nodes_from(range(a+b))
for n in range(a):
G.node[n]['pos']=[random.random() for i in range(0,dim)]
G.node[n]['type'] = 'A'
for n in range(a, a+b):
G.node[n]['pos']=[random.random() for i in range(0,dim)]
G.node[n]['type'] = 'B'
nodesa = [(node, data) for node, data in G.nodes(data=True) if data['type'] == 'A']
nodesb = [(node, data) for node, data in G.nodes(data=True) if data['type'] == 'B']
while nodesa:
u,du = nodesa.pop()
pu = du['pos']
for v,dv in nodesb:
pv = dv['pos']
d = sum(((a-b)**2 for a,b in zip(pu,pv)))
if d <= radius**2:
G.add_edge(u,v)
for n in nodesa:
mu = du['G.degree(n)']
while mu > 1:
G.remove_edge(u,v)
if mu <=1:
break
return G
```

Reply to words like jared. I tried using you code plus a couple changes I had to make:

```
def hamiltPath(graph):
maxDegree = 2
remaining = graph.nodes()
newGraph = nx.Graph()
while len(remaining) > 0:
node = remaining.pop()
neighbors = [n for n in graph.neighbors(node) if n in remaining]
if len(neighbors) > 0:
neighbor = neighbors[0]
newGraph.add_edge(node, neighbor)
if len(newGraph.neighbors(neighbor)) >= maxDegree:
remaining.remove(neighbor)
return newGraph
```

This ends up removing nodes from the final graph which I had hoped it would not.