I am writing a Haskell function that operates on a list of ByteString values. I need to do a different operation on the first and last items (which may be the same if the list has only one item).

Specifically, I want to write out the following:


where item-1 starts with a double quote and ends with a backslash and item-n starts with a backslash and ends with a double quote. All items between item-1 and item-n start and end with backslashes. I am emitting a base64 encoded value as a Haskell String for some code generation. I have already broken the original (long) base64-encoded ByteString into chunks that are 64 characters long each.


I just realized that my question is a dumb one.

I can just use intercalate to inject the "\\\n\\" between the items and then prepend and append a double quote:

import qualified Data.ByteString.Lazy.Char8 as L
(L.pack "\"") `L.append` (L.intercalate "\\\n\\" items) `L.append` (L.pack "\"")

Sample output:


You can also consider splitting your list using:

  • "head" to get the first element of the list
  • "tail" to get all but the first element of the list
  • "init" to get all but the last element of the list
  • "last" to get the last element of the list

So [head a] ++ init (tail a) ++ [last a] == a.

That way, you can change the first and last elements of the list individually and map a function over the "init" part.

  • 2
    That's inefficient, though. Both init and last need to traverse the entire list, quite unnecessarily. Jan 2 '13 at 2:10
  • I know there are more efficient ways to do that thing, but this is a very simple way. I start making things like that and then finding out how I can improve them. Jan 2 '13 at 9:11

I've been in this situation several times and I've never found a good idiomatic solution. Sometimes intercalate isn't enough. Here's one simple solution.

-- | Annotate elements of a list with Bools, the first of which is True if
-- the element is the head of the list, the second of which is True if the
-- element is the last of the list. Both are True for singleton.
markbounds :: [a] -> [(a, Bool, Bool)]
markbounds [] = []
markbounds [x] = [(x, True, True)]
markbounds (x:xs) = (x, True, False) : tailbound xs
    tailbound [y] = [(y, False, True)]
    tailbound (y:ys) = (y, False, False): tailbound ys

For example:

λ> markbounds [1,2,3]

λ> forM_ (markbounds [1,2,3]) $ \(x, isFirst, isLast) -> when isLast $ print x

I have build (my first!) library that has a reasonably-generic solution to the "different first and last functions" question. It's on GitHub (https://github.com/davjam/MapWith) and Hackage (http://hackage.haskell.org/package/MapWith).

Initially inspired by James's markbounds function, but can:

  • work on more general structures than just lists (all Traversable types)
  • add parameters directly to a function (not just create tuples)
  • add different types of parameters (first / last / next element / previous element / index from start or end, etc)
  • allows creation of additional types of parameter.
  • add any number of parameters

For example:

> andFirstLast [1,2,3]

> mapWithM_ ((\x isL -> when isL $ print x) & isLast) [1,2,3]

> mapWith ((,,,) & isLast & prevElt <-^ eltIx) [1,7,4]
[(1,False,Nothing,2),(7,False,Just 1,1),(4,True,Just 7,0)]

More examples at https://github.com/davjam/MapWith/blob/master/doc/examples.hs.

Any feedback would be gratefully received. Thanks!

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