How do you define a directed acyclic graph (DAG) (of strings) (with one root) best in Haskell?
I especially need to apply the following two functions on this data structure as fast as possible:
- Find all (direct and indirect) ancestors of one element (including the parents of the parents etc.).
- Find all (direct) children of one element.
I thought of [(String,[String])]
where each pair is one element of the graph consisting of its name (String
) and a list of strings ([String]
) containing the names of (direct) parents of this element. The problem with this implementation is that it's hard to do the second task.
You could also use [(String,[String])]
again while the list of strings ([String]
) contain the names of the (direct) children. But here again, it's hard to do the first task.
What can I do? What alternatives are there? Which is the most efficient way?
EDIT: One more remark: I'd also like it to be defined easily. I have to define the instance of this data type myself "by hand", so i'd like to avoid unnecessary repetitions.
data Family = Ego { parents, children :: [String] }; type DAG = Map String Family
? If you store parents as well as children, both find operations should be reasonably fast.type Map k v = [(k, v)]
.