I am creating a library to support some standard graph traversals. Some of the graphs are defined explicitly: i.e., all edges are added by providing a data structure, or by repeatedly calling a relevant method. Some graphs are only defined implicitly: i.e., I only can provide a function that, given a node, will return its children (in particular, all the infinite graphs I traverse must be defined implicitly, of course).
The traversal generator needs to be highly customizable. For example, I should be able to specify whether I want DFS post-order/pre-order/in-order, BFS, etc.; in which order the children should be visited (if I provide a
key that sorts them); whether the set of visited nodes should be maintained; whether the back-pointer (pointer to parent) should be yielded along with the node; etc.
I am struggling with the API design for this library (the implementation is not complicated at all, once the API is clear). I want it to be elegant, logical, and concise. Is there any graph library that meets these criteria that I can use as a template (doesn't have to be in Python)?
Of course, if there's a Python library that already does all of this, I'd like to know, so I can avoid coding my own.
(I'm using Python 3.)