# Append an element to the beginning of every sublist in a a list

``````concatr ::Integer -> [[Integer]] -> [[Integer]]
concatr x (y)    = [x] : y
concatr x (y:ys) = concatr x y:  concatr x ys
``````

I have tried so many combinations of this that my head is starting to hurt. What exactly am i doing wrong? I just want an integer to be put in every sublist of a list passed in.

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Notice that for the posted "solution" the first pattern always matches (`concatr x (y) == concatr x y`), so this is always equal to `[ [x] , rest or original list ]`. You must deconstruct the original list, as you tried to do in the second case (but failed to use `(x:y)` instead of `concatr x y`) and terminate with a null case `concatr x []`. –  Thomas M. DuBuisson May 13 '12 at 3:03
Sorry, I said "the posted solution" when referring to the proposed code in the question. That is probably confusing. –  Thomas M. DuBuisson May 13 '12 at 4:02

You can use the `map` function.

``````concatr :: Integer -> [[Integer]] -> [[Integer]]
concatr x ys = map (x:) ys
``````

Eta reduce for a terse solution:

``````concatr x = map (x:)
``````
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I made the answer a little bit more liberal. –  pmr May 13 '12 at 1:13
Thanks. Didn't mean for it to sound like there was a unique solution! –  rotskoff May 13 '12 at 1:49
You can go right down to `concatr = map . (:)` for a fully point-free (point-less?) styled function! –  ScottWest May 13 '12 at 8:43

If you want to avoid `map`:

``````concatr :: Integer -> [[Integer]] -> [[Integer]]
concatr x []     = []
concatr x (y:ys) = (x:y):concatr x ys
``````

Two cases:

• If the list is empty, we return an empty list.
• If the list is `y:ys`, the new head is `x:y`, and we call recursively `concatr` on remaining part.

Example: `concatr 1 [[0],[2]]` is `[[1,0],[1,2]`.

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