I am trying to write a list function that takes a simple list and feeds back a list of lists, all of the latter's elements having the same relationship with the previous one.

In more concrete terms, the function should be doing this:

- take a list;
`let xs = [1,2,3,4,5,6,8,9,10]`

- look at two elements from the head and, if the second one equals to the first one plus one (i.e.,
`xs!!0 = xs!!1 - 1`

), create a list-within-a-list out of them. - The list takes elements while the last of them have the same relationship with the element, newly fed from the main list. When there is a hiatus, the sublist closes but the function should make a new sublist, based on the same condition all the way through.
- So, the final outcome should be,
`[[1,2,3,4,5,6],[8,9,10]]`

The absent 7 divides the main list into two sublists. Both of them are arithmetic progressions with the common difference being 1.

After reading *Learn You a Haskell for Great Good* till chapter 7, I thought I really had a great idea and tried and ingloriously failed. Help is most welcome, please!

```
ghci> filter (\x y -> x + 1 == y) xs
"<"interactive">":1:8:
The lambda expression `\ x y -> x + 1 == y' has two arguments,
but its type `a -> Bool' has only one
In the first argument of `filter', namely `(\ x y -> x + 1 == y)'
In the expression: filter (\ x y -> x + 1 == y) xs
In the definition of `it': it = filter (\ x y -> x + 1 == y) xs
```

`ghci> let xs = [1,2,3,4,8,5,10] ghci> [x | x <- myGroupBy (\x y -> x*2==y) xs, length x > 1] [[1,2],[4,8],[5,10]]`

never mind. – amemus Aug 6 '11 at 13:31