# 99 questions/Solutions/18

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< 99 questions | Solutions(Difference between revisions)

(another solution using splitAt) |
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Or, an iterative solution: |
Or, an iterative solution: |
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+ | |||

<haskell> |
<haskell> |
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slice :: [a]->Int->Int->[a] |
slice :: [a]->Int->Int->[a] |
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| k < 1 = [] |
| k < 1 = [] |
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| otherwise = x:slice xs (i - 1) (k - 1) |
| otherwise = x:slice xs (i - 1) (k - 1) |
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+ | </haskell> |
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+ | |||

+ | Another way using <hask>splitAt</hask>, though not nearly as elegant as the <hask>take</hask> and <hask>drop</hask> version: |
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+ | |||

+ | <haskell> |
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+ | slice :: [a] -> Int -> Int -> [a] |
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+ | slice xs i k = chunk |
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+ | where chop = snd $ splitAt i' xs -- Get the piece starting at i |
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+ | chunk = fst $ splitAt (k - i') chop -- Remove the part after k |
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+ | i' = i - 1 |
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</haskell> |
</haskell> |

## Revision as of 01:38, 16 July 2010

(**) Extract a slice from a list.

Given two indices, i and k, the slice is the list containing the elements between the i'th and k'th element of the original list (both limits included). Start counting the elements with 1.

slice xs (i+1) k = take (k-i) $ drop i xs

Or, an iterative solution:

slice :: [a]->Int->Int->[a] slice lst 1 m = slice' lst m [] where slice' :: [a]->Int->[a]->[a] slice' _ 0 acc = reverse acc slice' (x:xs) n acc = slice' xs (n - 1) (x:acc) slice (x:xs) n m = slice xs (n - 1) (m - 1)

Or:

slice :: [a] -> Int -> Int -> [a] slice (x:xs) i k | i > 1 = slice xs (i - 1) (k - 1) | k < 1 = [] | otherwise = x:slice xs (i - 1) (k - 1)

splitAt

take

drop

slice :: [a] -> Int -> Int -> [a] slice xs i k = chunk where chop = snd $ splitAt i' xs -- Get the piece starting at i chunk = fst $ splitAt (k - i') chop -- Remove the part after k i' = i - 1