# Neighbors of second order

### Given a directed graph with a few million edges, I am trying to find, for each node:

1. A list of neighbors of neighbors (let's call them `two_nei`).

2. The number of common neighbors with each of the `two_nei` (called `cn`).

### The way I am approaching this problem is:

1. Creating a `dict` with each node as the key and a `list` containing all the neighbors as the value (`neighbor_dictionary`).

2. Creating a `dict` with each node as the key and a `list` containing all the neighbors of neighbors (`two_nei` for this node) as the value (`second_dictionary`).

3. Now I want to create a `list` (for the lack of knowing what to do), with a `dict` for every node in the graph. Each of these dictionaries will contain each `two_nei` of the node as the key and the value will be the number of common neighbors they have.

As you can see, this gets easily complicated. I am sure there is a simpler and more elegant way to do this in python. I am a math guy and I haven't had classes in neither data structures nor algorithms, but I am sure we could use queues to work this out.

Any help will be highly appreciated.

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Networkx is easy going and well-documented. `scipy.sparse.csgraph` is designed for large graphs (up to 2**31 vertices, I believe), terse, new and exciting. Networkx has a function for exporting to SciPy, search its documentation. –  larsmans Jun 24 '12 at 1:00

I thinks you can use NetworkX for this the best. Mostly some expert can explain which function in specific to use.

But I think that u can take a subgraph around a node with neighbourhood of length 2.

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Here is a function which returns the number of shared second neighbors of two nodes in a graph. It uses networkx for the graph. Depending how much data is in each node and how densely connected your graph is, this may not work since it creates potentially large sets in memory.

``````def num_shared_second_neighbors(graph, node1, node2):
"""number of second neighbors shared by node1 and node2 in graph"""
return len(set(second_neighbors(graph, node1)).intersection(set(second_neighbors(graph, node2))))

def second_neighbors(graph, node):
"""
a generator that yeilds second neighbors of node in graph
neighbors are not not unique!
"""
for neighbor_list in [graph.neighbors(n) for n in graph.neighbors(node)]:
for n in neighbor_list:
yield n
``````

The function `second_neighbors` is a generator that yields non-unique second neighbors of a node by doing a simple graph traversal. The function `num_shared_second_neighbors` simply returns the number of nodes in the intersection of the sets of seconds neighbors of two nodes.

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