I'm currently working on a Haskell API. The latter provides some functions that currently take a list of lists as input, i.e.
For visualization purposes, here's a sample of the list of lists mentioned above:
[ ("A", [ ("I1", 1), ("I2", 2), ] ), ("B", [ ("I1", 3), ] ) ]
I've defined some private helper functions. One helper function will search for specific entries in this list (
O(n)); another one will perform intersections; and another function will transform the list presented above to the following one:
[ ("I1", [ ("A", 1), ("B", 3), ] ), ("I2", [ ("A", 2), ] ) ]
The function that performs the transformation uses
Data.Map, since it offers some functions that simplify that process a lot, like
Data.Map.insertWith. Well, since the transformation function had to call
Data.Map.toList, I thought it would be nice to have a map of maps instead of a list of lists from the beginning. And so I changed my sample input to match the map of maps requirement.
Again, for visualization purposes, here's the list from above as a map of maps:
Map.fromList [ ("A", Map.fromList [ ("I1", 1), ("I2", 2), ] ), ("B", Map.fromList [ ("I1", 3), ] ) ]
Thanks to this step my code lost a few lines, and thanks to
Data.Map.lookup, finding a desired now only takes
O(log n) time.
Nonetheless, I'm currently asking myself if this really is a good solution? Is a map of maps the way to go? Or should the transformation function work with
Data.Map.toList, and let the rest work with list of lists? Or better yet, is there a data structure that is more suitable for this kind of work?
I'm really looking forward to your replies.