First, you have the railway network: this is very naturally expressed as stations being the nodes in a graph and railway links being the edges, which connect the nodes.

Second, you have the trains, or, put it another way, the lines. This is most naturally expressed as a set of paths through the above graph, each path corresponding to a different train.

I assume that you need all the possible routes in the form of

Take train T1 at station S0, travel to station S1, switch to train T2, travel to S2, etc... arrive at destination.

In such a case, I'd model both the railway network and the trains in a single multi- graph structure, with multiple edges leading from station `Sn`

to station `Sm`

, each edge corresponding to different train which passes from `Sn`

to `Sm`

. The structure for this would be a set of nodes, each node having a list of outgoing edges.

Then perform a simple depth first search, with marking individual edges to make sure you don't traverse an edge twice, like in the following generator pseudocode:

```
// path is a list of edges
// src,dst are nodes
procedure generate_route (path, src, dst)
if src == dst
yield path
else
for e in all outgoing edges of src
if e is not visited
mark e as visited
generate_route (path + e, e.dst, dst)
```