I have a data type Graph which looks like this:

```
data Graph w = Graph {vertices :: [(Char, w)],
edges :: [(Char, Char, w)]} deriving Show
```

This is representing a directed acyclic graph. Where vertices have a char identifier ('a' for the first vertice added, 'b' for the second and so on) and a weight. Edges are two vertice identifiers and a weight.

I'm thinking about making the vertices a bit more complex, maybe they should contain a list of all neighbours?

The topological ordering looks like this so far:

```
topological_ordering :: Graph w -> [Char]
topological_ordering (Graph v w) =
let startingNodes = getStartNodes (Graph v w)
emptyList = []
sorted = sortAlgorithm startingNodes emptyList (Graph v w)
in sorted
sortAlgorithm :: [Char] -> [Char] -> Graph w -> [Char]
sortAlgorithm startingNodes sorted (Graph v w) =
| [] _ _ = []
| (x:startingNodes) sorted (Graph v w) =
let sorted = sorted ++ [x]
neigbours = findNeighbours (Graph v w) x
getStartNodes :: Graph w -> [Char]
getStartNodes (Graph v w) =
let set1 = Set.fromList $ firstNodes w
set2 = Set.fromList $ secondNodes w
startNodes = Set.toList $ Set.difference set1 set2
in startNodes
firstNodes :: [(Char, Char, w)] -> [Char]
firstNodes [] = []
firstNodes (x:xs) = selectFirst x:firstNodes xs
secondNodes :: [(Char, Char, w)] -> [Char]
secondNodes [] = []
secondNodes (x:xs) = selectSecond x:secondNodes xs
```

From there I'm a little lost. I don't really know how to complete the sortAlgorithm, because I want it to be recursive (or use foldl/foldr?). Should implement the data type for Graph in another way or should I continue with this?

I just started haskell a few weeks ago and still feel a bit lost on functional programming.

Thanks

isa tree. An acyclic directed graph can be a topological cycle even if it has no path cycle. Suppose we have vertices 1,2,3,4,5 and edges (1,2) (2,4) (1,3) (3,4) (4,5). If you try to represent it as an ADT without tying a knot, you'll have two vertices labelled 4. – enough rep to comment Feb 10 '14 at 12:14