Mapping over the graph doesn't seem like quite the right kind of traversal. The following works with the extracted context of the edge's source node.

```
edgeLookup :: Node -> [(a,Node)] -> Maybe ((a,Node), [(a,Node)])
edgeLookup n = aux . break ((== n) . snd)
where aux (h, []) = Nothing
aux (h, t:ts) = Just (t, h ++ ts)
incrementEdge :: Edge -> Gr a Int -> Maybe (Gr a Int)
incrementEdge (from,to) g = aux $ match from g
where aux (Nothing, _) = Nothing
aux (Just (i,n,l,o), g') = Just $ (i,n,l,checkEdge o) & g'
checkEdge outEdges =
maybe ((1,to):outEdges) incEdge $ edgeLookup to outEdges
incEdge ((cnt,n), rst) = (cnt+1,n):rst
```

I would probably also use a helper to go from `(Maybe a, b) -> Maybe (a,b)`

then `fmap aux`

over the helper composed with `match`

. That would help to distill things down a bit better.

EDIT

To support node addition based on labels, one needs to track the bijection between labels and Node identifiers (Ints). This can be done by using a `Map`

that is updated in parallel to the graph.

```
import Data.Graph.Inductive
import Data.Map (Map)
import qualified Data.Map as M
import Data.Maybe (fromJust)
-- A graph with uniquely labeled nodes.
type LGraph a b = (Map a Int, Gr a b)
-- Ensure that a node with the given label is present in the given
-- 'LGraph'. Return the Node identifier for the node, and a graph that
-- includes the node.
addNode :: Ord a => a -> LGraph a b -> (Int, LGraph a b)
addNode label (m,g) = aux $ M.lookup label m
where aux (Just nid) = (nid, (m,g))
aux Nothing = (nid', (m', g'))
[nid'] = newNodes 1 g
m' = M.insert label nid' m
g' = insNode (nid', label) g
-- Adding a context to a graph requires updating the label map.
(&^) :: Ord a => Context a b -> LGraph a b -> LGraph a b
c@(_, n, label, _) &^ (m,g) = (m', g')
where m' = M.insert label n m
g' = c & g
-- Look for a particular 'Node' in an edge list.
edgeLookup :: Node -> [(a,Node)] -> Maybe ((a,Node), [(a,Node)])
edgeLookup n = aux . break ((== n) . snd)
where aux (h, []) = Nothing
aux (h, t:ts) = Just (t, h ++ ts)
-- Increment the edge between two nodes; create a new edge if needed.
incrementEdge :: Edge -> Gr a Int -> Maybe (Gr a Int)
incrementEdge (from,to) g = fmap aux $ liftMaybe (match from g)
where aux ((i,n,l,o), g') = (i,n,l,checkEdge o) & g'
checkEdge outEdges =
maybe ((1,to):outEdges) incEdge $ edgeLookup to outEdges
incEdge ((cnt,n), rst) = (cnt+1,n):rst
liftMaybe :: (Maybe a, b) -> Maybe (a, b)
liftMaybe (Nothing, _) = Nothing
liftMaybe (Just x, y) = Just (x, y)
-- Increment an edge in an 'LGraph'. If the nodes are not part of the
-- graph, add them.
incrementLEdge :: Ord a => (a, a) -> LGraph a Int -> LGraph a Int
incrementLEdge (from,to) g = (m', fromJust $ incrementEdge' (from',to') g')
where (from', gTmp) = addNode from g
(to', (m',g')) = addNode to gTmp
-- Example
a' :: LGraph String Int
a' = ([],1,"a",[]) &^ (M.empty, empty)
b' = ([],2,"b",[]) &^ a'
test6 = incrementLEdge ("c","b") $ incrementLEdge ("b","a") b'
{-
*Main> test6
(fromList [("a",1),("b",2),("c",3)],
1:"a"->[]
2:"b"->[(1,1)]
3:"c"->[(1,2)])
-}
```

`incrementEdge`

would have to take the labels as well as the identifiers for the involved nodes. It sounds like you are veering towards conflating node labels and node identifiers. If you want the labels to be unique, you could perform this operation in a supply monad. Alternately, you could set aside the`String`

labels you have now, and just rely on the integer node identifiers themselves. – Anthony Oct 12 '10 at 15:48