My advice would be to stay concrete. The type variable a can match Int, [ Int ], [[ Int ]] and so on, which can lead to confusion at the early stages of development. Once the program works for concrete types, it is often not very difficult to generalize over arbitrary types.

Here is the conrete version of your previous (buggy) program:

```
append :: [a] -> [a] -> [a]
append xs ys = foldr (:) ys xs
traverse :: Int -> [Int] -> [[Int]]
traverse x [] = [[x]]
traverse x (y:ys) = append [(x:y:ys)] (map (y:) (traverse x ys))
comb :: [Int] -> [[Int]]
comb [] = [[]]
comb (x:[]) = [[x]]
comb (x:y:[]) = [[x,y],[y,x]]
comb (x:xs) = map (traverse x) (comb xs)
```

ghci would complain about the last line:

```
Couldn't match expected type `Int' with actual type `[Int]'
Expected type: [Int] -> [Int]
Actual type: [Int] -> [[Int]]
In the return type of a call of `traverse'
In the first argument of `map', namely `(traverse x)'
```

which looks more understandable than the one you encountered. Whereas [a] can mean anything from [ Int ], [[ Int ]], etc., [ Int ] can mean .. well, [ Int ].

As you said in your last question, the traverse function is fine:

```
Main> map (traverse 3) [[1,2],[2,1]]
[[[3,1,2],[1,3,2],[1,2,3]],[[3,2,1],[2,3,1],[2,1,3]]]
```

with type:

```
Main> :type map (traverse 3) [[1,2],[2,1]]
map (traverse 3) [[1,2],[2,1]] :: [[[Int]]]
```

Now, recall the type of comb function:

```
comb :: [Int] -> [[Int]]
```

The reason of the type error should be clear enough. All you need to do is to "combine" the results of map in the last line, like so:

```
comb (x:xs) = concat $ map (traverse x) (comb xs)
```

Here is the output of the (fixed) program:

```
Main> comb [1,2,3]
[[1,2,3],[2,1,3],[2,3,1],[1,3,2],[3,1,2],[3,2,1]]
```

Now you can try generalizing to arbitrary types.

`[]`

layer to`traverse`

#s second argument, you should remove one from the result of the last equation for`comb`

. See my comment to your other question. – Daniel Fischer Feb 18 '12 at 0:22`[x]`

can also be used in patterns.`[x]`

matches exactly what`(x:[])`

does. So`comb (x:[]) ≡ comb [x]`

and`comb (x:y:[]) ≡ comb [x,y]`

. – Vitus Feb 18 '12 at 1:13