The standard trick for this is to
zip the list with it's own
> let xs = [1,2,3,4] in zip xs (tail xs)
To see why this works, line up the list and its tail visually.
xs = 1 : 2 : 3 : 4 : 
tail xs = 2 : 3 : 4 : 
and note that
zip is making a tuple out of each column.
There are two more subtle reasons why this always does the right thing:
zip stops when either list runs out of elements. That makes sense here since we can't have an "incomplete pair" at the end and it also ensures that we get no pairs from a single element list.
xs is empty, one might expect
tail xs to throw an exception. However, because
checks its first argument first, when it sees that it's the empty list, the second argument
is never evaluated.
Everything above also holds true for
zipWith, so you can use the same method whenever you need to apply a function pairwise to adjacent elements.
For a generic solution like Clojure's
partition, there is nothing in the standard libraries. However, you can try something like this:
partition' :: Int -> Int -> [a] -> [[a]]
partition' size offset
| size <= 0 = error "partition': size must be positive"
| offset <= 0 = error "partition': offset must be positive"
| otherwise = loop
loop :: [a] -> [[a]]
loop xs = case splitAt size xs of
-- If the second part is empty, we're at the end. But we might
-- have gotten less than we asked for, hence the check.
(ys, ) -> if length ys == size then [ys] else 
(ys, _ ) -> ys : loop (drop offset xs)