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Let's say there is a graph and some set of functions like:

create-node :: Graph -> (Graph, Node)
split-node :: Graph -> Node -> (Graph, Node, Node)

I would like to create versions of those functions that don't expect Graph as an argument, mainly for convenience (preferably without monads so I wouldn't need to wrap every graph manipulating piece of code in a monad block). So what about this:

create-node :: (Graph -> (Graph, Node))
split-node :: (Graph -> Node) -> ((Graph -> Node), (Graph -> Node))

Or more generally:

fun :: (Graph -> Argument) -> ... -> (Graph -> Result)

I would then be able to use the (Graph -> ...) values as if they were normal nodes. In the end, to get a real graph out of a (Graph -> ...) value, just apply it to an empty graph. Is this a reasonable approach?

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how are you storing your graphs? –  rampion Feb 6 '12 at 3:25
    
@rampion: for the moment just a list of nodes and edges. –  Philip K Feb 6 '12 at 3:32
1  
Your create-node function is identical; I'm rather wary of the split-node function, especially if you then call split-node again on each of the results... how do you ensure its the same graph, etc.? –  ivanm Feb 6 '12 at 3:39
    
@ivanm: look carefully - the former create-node returns a value, the latter - a value generating function; same goes for split-node. –  Philip K Feb 6 '12 at 6:53
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@PhilipK the type signatures are identical, the fact that you put parens around it is purely for reading purposes. –  ivanm Feb 6 '12 at 7:18

1 Answer 1

up vote 5 down vote accepted

Ok, so

create-node :: (Graph -> (Graph, Node))

is the state monad, just without the fancy newtype (and a flipped return value). So I don't see the advantage of not using State here. After all that lets me write fairly clean code using the state Monad:

 reverseEdgesM :: State Graph ()
 reverseEdgesM = do --...

Then pop out of it whenever I've got some pure code to run using runState and friends:

 reverseEdges :: Graph -> Graph
 reverseEdges = execState reverseEdgesM

If you do want to push forward with your functions idea, you may want to look into difference lists to see how its done with simple lists.

Also, if you've just got some algorithms to implement, you may want to look into existing functional graph data structure libraries (like fgl), rather than rolling your own. If you want to understand the theory, check out Erwig's paper on inductive graphs.

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Ah, thanks for reminding me about difference lists, will take another look at them; that paper also looks very interesting! –  Philip K Feb 6 '12 at 6:51

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