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?

`deriving (Read)`

and using a separate function(s) for a custom serialized format? – Matt Fenwick Jan 23 '13 at 18:11`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`Char`

acters instead of numbers! – yatima2975 Jan 23 '13 at 21:18