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

```
import networkx as nx
a = nx.MultiDiGraph()
a.add_edge("a", "b", 0)
a.add_edge("a", "b", 1)
a.add_edge("b", "c", 0)
a.add_edge("b", "c", 1)
# 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]`

.