# F# Wolf Goat Cabbage

So first of all I am sorry for asking this question. But the "Escape from Zurg" article helped me a lot and I could write my own solution to the Wolf Goat Cabbage Problem. I am positing my code below. I want you to tell me

1. If my code is written in true spirit of F# and functional programming
2. It is an optimal and good solution to the problem

``````open System

(*
The type direction determines which direction the human is present.
Left means that Human is present on the left side of the bank.
Right means human is present on the right side of the bank.
*)
type Direction =
| Left
| Right

(*
Master list of animals
*)
let Animals = ["Wolf"; "Goat"; "Cabbage"]

let DeadlyCombinations = [["Wolf"; "Goat"];["Goat"; "Cabbage"];]

List.exists (fun n -> n = list1) list2

let rec MoveRight animals =
match animals with
| [] -> []
else
Console.WriteLine("Going to move " + head)
tail

let ListDiff list1 list2 = List.filter (fun n -> List.forall (fun x -> x <> n) list1) list2

let MoveLeft animals =
let RightList = ListDiff animals Animals
if (ShouldTakeAnimal) then
Console.WriteLine("Going to move " + x + " back")
[x]
else
Console.WriteLine("Farmer goes back alone")
[]

let rec Solve direction animals =
match animals with
| [] -> Console.WriteLine("Solved")
| _ ->
match direction with
| Left -> Solve Right (MoveRight animals)
| Right -> Solve Left (animals @ (MoveLeft animals))

[<EntryPoint>]
let main args =
Solve Left Animals
0
``````
-
Looks pretty functional to me. Probably the same style as I would have written in Scheme. –  leppie Jul 15 '12 at 8:47
Prefer printfn to Console.WriteLine in F#. –  Asik Jul 15 '12 at 20:31
@Dr_Asik : Prefer `stdout.WriteLine` to `printfn` in F# when one has no format specifiers. ;-] –  ildjarn Jul 16 '12 at 7:34

The code looks pretty functional. There are a few changes I'd make. Firstly, I'd use sets to represent moves and there are also a few minor suggestions...

Representation. You're representing deadly combinations using a list, so `["Goat"; "Wolf"]` is not the same thing as `["Wolf"; "Goat"]` and if your algorithm generates move in the other order, it will not detect it as deadly move. You should try to find representations where this cannot happen, so I would change the representation to use sets:

``````let DeadlyCombinations = [set ["Wolf"; "Goat"]; set ["Goat"; "Cabbage"];]
``````

In the `isMoveDeadly` function, you can then convert the move to a set using (but maybe it would be better to change the code to use sets everywhere):

``````let move = set list1
``````

Unnecessary generalization. Aside, the function `isMoveDeadly` always takes `DeadlyMoves` as the second argument, so I would not pass it as an argument (that is unneeded generalization) and I'd write:

``````let isMoveDeadly list =
let move = set list
DeadlyCombinations |> List.exists (fun n -> n = move)
``````

Efficiency tip. In the `MoveRight` function, you're using `list @ [element]` pattern which is very inefficient. It means you need to copy the entire `list` to append the element to the end. It is more efficient to add elements to the front using `element::list` (less copying) and then reverse the list. I suppose you do not even need to reverse the list if you represent deadly moves as a set, so I'd write:

``````let rec MoveRight animals =
match animals with
| [] -> []
Representation (again). You implemented your own `ListDiff` function to find out what animals are not in a given list. This suggests that using sets (instead of lists) would really be a better representation. If you switch to sets, you could use a built-in function `Set.difference` instead.