# python networkx remove nodes and edges with some condition

In the python library networkx I would like to remove the nodes and edges of a graph which have some property. For example, suppose I wanted to remove all nodes and edges where the degree of a node was < 2. Consider the following psuedocode:

``````vdict = g.degree_dict()         #dictionary of nodes and their degrees
g.remove_from_nodes(v in g s.t. vdict[v] < 2)
``````

I have seen some syntax that uses set theory notation but as I am still new to python I do not know how to use it. How do I convert this into working python code?

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The Graph.remove_nodes_from() method takes a list (container actually) of nodes. So you just need to create a list that satisfies your condition. You can use Python's list comprehension structure to compactly create a list of nodes to delete.

``````In [1]: import networkx as nx

In [2]: G = nx.Graph()

In [8]: G.degree()
Out[8]: {1: 3, 2: 3, 3: 2, 4: 2}

In [9]: remove = [node for node,degree in G.degree().items() if degree > 2]

In [10]: remove
Out[10]: [1, 2]

In [11]: G.nodes()
Out[11]: [1, 2, 3, 4]

In [12]: G.remove_nodes_from(remove)

In [13]: G.nodes()
Out[13]: [3, 4]
``````
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Could you please add a small explanation of the set theory language where you initialize `remove` since I have not used this language construct before? –  CodeKingPlusPlus Aug 17 '13 at 15:33
I added a link to the Python docs for list comprehensions. –  Aric Aug 17 '13 at 17:31
Thanks, I needed to know the proper term. –  CodeKingPlusPlus Aug 17 '13 at 18:14
You can inline lines 9 and 12 like so, with a similar comprehension: `G.remove_nodes_from(node for node, degree in G.degree().items() if degree > 2)` –  Lucretiel Jan 21 at 23:18
But be careful inlining like that if you are modifying the data structure (G) as you are inspecting it (G.degree().items()). –  Aric Jan 22 at 0:16
If we have an initialized graph `g` the following will set `f` to be `g` subject to the constraint that each vertex must have a degree > 0. We could easily generalize 0 with a variable:
``````f = nx.Graph()