# Get all edges linked to a given node in a networkx graph

Just wondering if there is convenient `networkx` function that returns a list of edges connected to a given node (or nodes) (e.g. `my_node_name`) in a graph (e.g. `G`).

I can do it this way:

``````edlist=[]
for ed in G.edges():
if 'my_node_name' in ed:
edlist.append(ed)
``````

but expect there might be a better way?

If the graph is undirected, you can use

``````G.edges(node)
``````

In networkx 2.x this is an `EdgeDataView` object. In networkx 1.x this is a list - if you want a generator in 1.x rather than getting the whole list, `G.edges_iter(node)` works (this no longer exists in 2.x).

If the graph is directed the command above will not give the in-edges. Use

``````G.in_edges(node)
G.out_edges(node)
``````

These are views in 2.x. In 1.x these are lists and there are generator options: `G.in_edges_iter(node)` and `G.out_edges_iter(node)`

You can use the method `edges` on a node for an un-directed graph:

``````G.edges(['my_node_name'])
``````

or the function `edges`

``````networkx.edges(G, ['my_node_name'])
``````

But for directed graphs the above method will only give the out-edges; there you need to call and combine both `in_edges()` and `out_edges()`.

• Warning - if the graph is directed, this will only give the out-edges.
– Joel
Commented Oct 21, 2015 at 5:48

For directed multi-graphs, I found the following workaround for out-edges:

``````import networkx as nx

a = nx.MultiDiGraph()

# This is too much:
print(a.edges)
# OutMultiEdgeView([('a', 'b', 0), ('a', 'b', 1), ('b', 'c', 0), ('b', 'c', 1)])

# This is insufficient:
print(a.in_edges("b"))
# InMultiEdgeDataView([('a', 'b'), ('a', 'b')])

# This is just right
print(a["a"])
# AdjacencyView({'b': {0: {}, 1: {}}})
print(a["a"]["b"])
# AtlasView({0: {}, 1: {}})
``````

For in-edges, you should probably first use `a.in_edges(node)` and then `a[source][node]` to get the edge types.

Once you get all the triplets `t = (source, sink, type)`, you can access the edge by calling `a.edges[t]`.