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I have written my own implementation of a graph based on adjacency matrices and made instance of the Read class.

My graph takes a type as input which will be the type of the edges.

If I try expression like

read " - - 8 \n - 9 - \n 1 2 3" :: GraphADJ Int

it works just fine (it's a graph with 3 nodes, and the edge from first node to the third, from the second to the second and from the third to all the nodes).

What I wanted to do is to be able to not tell the type inference the type of the edges, but to put them into a context (like in read"4"+3).

I have the function insertEdge which takes a graph, a couple of nodes and the new edge.

insertEdge :: Graph g n e => g -> (n, n) -> e -> g

(Graph is the general class for the graph which GraphADJ is made instance of)

So when I try to do

 insertEdge (read " - - 8 \n - 9 - \n 1 2 3" :: GraphADJ Int) (1,2) 3

it works just fine, but if I don't make the type explicit, I get the error Ambiguous type variables .

Did I forget something in the Read or a I missing something?

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Just curious, but why aren't you simply deriving (Read) and using a separate function(s) for a custom serialized format? –  Matt Fenwick Jan 23 '13 at 18:11
I'm not so sure what you mean by "custom serialized format", anyway I made my graph instance of read because was part of my assignment (which is concluded now). –  user1544128 Jan 23 '13 at 18:14
Does your GraphADJ type also make sense with an Integer parameter, i.e. would read " - - 8 \n - 9 - \n 1 2 3" :: GraphADJ Integer also work? I'm guessing it does, and you're running into problems because numeric literals in Haskell are polymorphic. Give it a try with Characters instead of numbers! –  yatima2975 Jan 23 '13 at 21:18

1 Answer 1

up vote 3 down vote accepted

The problem is compiler does not have enough info to infer type for read.

Even if you provide type info for n to Int and e to Int compiler still does not have information of g. All it knows that g is a type with an instance for Graph g Int Int. It still can not infer g even if there is single type which inhabit such an instance.

Compiler can not automatically see that in the current scope there is only on such type which has such a instance as allowing such behavior might result in breaking of code by importing modules.

So the solution would be either to provide explicit signature or to make a specialized version of insertEdge providing explicit concrete types to provide enough information for read. The latter would be useful if you are using it for the same type at more than one place.

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I tought about that and I have tried also insertEdge (read " - - 8 \n - 9 - \n 1 2 3" ) (1,2) (3 :: Int) but I still got an error (I should have posted in the main post, sorry) –  user1544128 Jan 23 '13 at 18:12
insertEdge (read " - - 8 \n - 9 - \n 1 2 3" ) (1 :: Int,2 ) (3 :: Int) and insertEdge (read " - - 8 \n - 9 - \n 1 2 3" ) ((1,2) :: (Int,Int)) (3 :: Int) still result me in No instance for (Graph g0 Int Int) I feel like there's some theoretical background I miss. –  user1544128 Jan 23 '13 at 18:18
@user1544128 See the updated answer –  Satvik Jan 23 '13 at 18:26
@user1544128 Simply put, even if you give an explicit type to the Ints, the compiler cannot possibly guess that you want to use the specific implementation GraphADJ, since the call to insertEdge works with any instance of Graph. Therefore the g in Graph g Int Int remains ambiguous. –  shang Jan 23 '13 at 19:19

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