# Does Haskell have List Slices (i.e. Python)?

Does Haskell have similar syntactic sugar to Python List Slices?

For instance in Python:

``````x = ['a','b','c','d']
x[1:3]
``````

gives the characters from index 1 to index 2 included (or to index 3 excluded):

``````['b','c']
``````

I know Haskell has the `(!!)` function for specific indices, but is there an equivalent "slicing" or list range function?

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There's no built-in function to slice a list, but you can easily write one yourself using `drop` and `take`:

``````slice from to xs = take (to - from + 1) (drop from xs)
``````

It should be pointed out that since Haskell lists are singly linked lists (while python lists are arrays), creating sublists like that will be `O(to)`, not `O(1)` like in python (assuming of course that the whole list actually gets evaluated - otherwise Haskell's laziness takes effect).

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If `slice 1 2 ['a','b','c','d']` is too wordy for you, you can also add your own sugar `xs !@ (from,to) = slice f t xs`, so you can do `['a','b','c','d'] !@ (1,2)` – rampion Jan 4 '11 at 20:18
@rampion: Here's another fun abuse of infix operators: `(!>) = drop`, `(<!) = flip take`, ensure the latter has higher fixity. Now you can slice lists like this: `2 !> ['a'..'z'] <! 5` = `"cde"`. That's getting pretty silly though. – C. A. McCann Jan 5 '11 at 22:20
I like `map ("abcd" !!) [1 .. 2]` (to get "bc"), even though it's dreadfully inefficient (quadratic) time. ("Like" in the "cute" sense; because of the quadratic, I'd never use it in practice.) – jon Jan 6 '11 at 1:56

If you are trying to match Python "lists" (which isn't a list, as others note) then you might want to use the Haskell vector package which does have a built in slice. Also, `Vector` can be evaluated in parallel, which I think is really cool.

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That is really cool. Thanks for pointing me to it. – Jon W Jan 4 '11 at 21:19

No syntactic sugar. In cases where it's needed, you can just `take` and `drop`.

``````take 2 \$ drop 1 \$ "abcd" -- gives "bc"
``````
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I don't think one is included, but you could write one fairly simply:

``````slice start end = take (end - start + 1) . drop start
``````

Of course, with the precondition that `start` and `end` are in-bounds, and `end >= start`.

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Another way to do this is with the function `splitAt` from `Data.List` -- I find it makes it a little easier to read and understand than using `take` and `drop` -- but that's just personal preference:

``````import Data.List
slice :: Int -> Int -> [a] -> [a]
slice start stop xs = fst \$ splitAt (stop - start) (snd \$ splitAt start xs)
``````

For example:

``````Prelude Data.List> slice 0 2 [1, 2, 3, 4, 5, 6]
[1,2]
Prelude Data.List> slice 0 0 [1, 2, 3, 4, 5, 6]
[]
Prelude Data.List> slice 5 2 [1, 2, 3, 4, 5, 6]
[]
Prelude Data.List> slice 1 4 [1, 2, 3, 4, 5, 6]
[2,3,4]
Prelude Data.List> slice 5 7 [1, 2, 3, 4, 5, 6]
[6]
Prelude Data.List> slice 6 10 [1, 2, 3, 4, 5, 6]
[]
``````

This should be equivalent to

``````let slice' start stop xs = take (stop - start) \$ drop start xs
``````

which will certainly be more efficient, but which I find a little more confusing than thinking about the indices where the list is split into front and back halves.

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Python slices also support step:

``````>>> range(10)[::2]
[0, 2, 4, 6, 8]
>>> range(10)[2:8:2]
[2, 4, 6]
``````

So inspired by Dan Burton's dropping every Nth element I implemented a slice with step. It works on infinite lists!

``````takeStep :: Int -> [a] -> [a]
takeStep _ [] = []
takeStep n (x:xs) = x : takeStep n (drop (n-1) xs)

slice :: Int -> Int -> Int -> [a] -> [a]
slice start stop step = takeStep step . take (stop - start) . drop start
``````

However, Python also supports negative start and stop (it counts from end of list) and negative step (it reverses the list, stop becomes start and vice versa, and steps thru the list).

``````from pprint import pprint # enter all of this into Python interpreter
pprint([range(10)[ 2: 6],     # [2, 3, 4, 5]
range(10)[ 6: 2:-1],  # [6, 5, 4, 3]
range(10)[ 6: 2:-2],  # [6, 4]
range(10)[-8: 6],     # [2, 3, 4, 5]
range(10)[ 2:-4],     # [2, 3, 4, 5]
range(10)[-8:-4],     # [2, 3, 4, 5]
range(10)[ 6:-8:-1],  # [6, 5, 4, 3]
range(10)[-4: 2:-1],  # [6, 5, 4, 3]
range(10)[-4:-8:-1]]) # [6, 5, 4, 3]]
``````

How do I implement that in Haskell? I need to reverse the list if the step is negative, start counting start and stop from the end of the list if these are negative, and keep in mind that the resulting list should contain elements with indexes start <= k < stop (with positive step) or start >= k > stop (with negative step).

``````takeStep :: Int -> [a] -> [a]
takeStep _ [] = []
takeStep n (x:xs)
| n >= 0 = x : takeStep n (drop (n-1) xs)
| otherwise = takeStep (-n) (reverse xs)

slice :: Int -> Int -> Int -> [a] -> [a]
slice a e d xs = z . y . x \$ xs -- a:start, e:stop, d:step
where a' = if a >= 0 then a else (length xs + a)
e' = if e >= 0 then e else (length xs + e)
x = if d >= 0 then drop a' else drop e'
y = if d >= 0 then take (e'-a') else take (a'-e'+1)
z = takeStep d

test :: IO () -- slice works exactly in both languages
test = forM_ t (putStrLn . show)
where xs = [0..9]
t = [slice   2   6   1  xs, -- [2, 3, 4, 5]
slice   6   2 (-1) xs, -- [6, 5, 4, 3]
slice   6   2 (-2) xs, -- [6, 4]
slice (-8)  6   1  xs, -- [2, 3, 4, 5]
slice   2 (-4)  1  xs, -- [2, 3, 4, 5]
slice (-8)(-4)  1  xs, -- [2, 3, 4, 5]
slice   6 (-8)(-1) xs, -- [6, 5, 4, 3]
slice (-4)  2 (-1) xs, -- [6, 5, 4, 3]
slice (-4)(-8)(-1) xs] -- [6, 5, 4, 3]
``````

The algorithm still works with infinite lists given positive arguments, but with negative step it returns an empty list (theoretically, it still could return a reversed sublist) and with negative start or stop it enters an infinite loop. So be careful with negative arguments.

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What about also incorporating multidimensional slicing? `array[:,:,0]` gets for all rows, for all columns, get the 0th element and get back an array containing rows containing the 0th element... – CMCDragonkai Aug 17 '15 at 14:22

Obviously my foldl version loses against the take-drop approach, but maybe someone sees a way to improve it?

``````slice from to = reverse.snd.foldl build ((from, to + 1), []) where
build res@((_, 0), _) _ = res
build ((0, to), xs) x = ((0, to - 1), x:xs)
build ((from, to), xs) _ = ((from - 1, to - 1), xs)
``````
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``````sublist start length = take length . snd . splitAt start

slice start end = snd .splitAt start . take end
``````
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