# Is there a better function for finding edges on a list of common nodes?

I have a list of nodes and each node has measured the wifi field strength from other points. The list will be in the form:

`````` RSSI_list = [[node4, node3, RSSI], [node7, node5, RSSI]] #etc (it will be more populated)
``````

The RSSI can be considered equivalent to an estimated distance as it will be replaced with a value interpolated/extrapolated from some empirical data I have recorded.

I want to find and "map" where all the points are in relation to each other so I can calculate angles between them.

To do this I have looked at using `networkx` which provides the following functions:

``````aGraph.add_nodes_from(aListOfNodes)   # Add all the nodes from the list, aListOfNodes
aGraph.add_edge(aNode1, aNode2) # creates an edge from aNode1 to aNode2

edgeData = {"weight": 42}      # a dictionary with only one entry
g.add_edge(nodeA, nodeB, edgeData)   #create the edge with the given data dictionary
``````

Which would allow me to use what I have in my list. I want something that will allow me to add pairs of nodes and will automatically link pairs where an end is common.

Before I go any further down the networkx line of enquiry is there a better function in another python module that would do this better?

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I don't fully understand what you are after... How do you plan on calculating angles from a graph? What exactly is you want to calculate? –  Jaime Apr 25 '13 at 20:12
I'm hoping to find the edges that are linked between the points, then I could figure out which of these edges make triangles ie which 3 edges have common points, then find the angles of the triangles. –  mark mcmurray Apr 25 '13 at 20:56
Oh, now I see! Your `'weight'`s are proxies for the distance between the nodes. You are still going to have to deal with finding cycles of length 3, not sure if `networkx` will help with that... –  Jaime Apr 25 '13 at 21:12

`networkx` will do exactly what you want:
``````g = nx.Graph()