Difference between revisions of "99 questions/Solutions/11"
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(Added an alternative solution using list comprehensions.) |
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In this case, <hask>ListItem</hask> type can be used from the above solution and <hask>group</hask> can be found in <hask>Data.List</hask> module. |
In this case, <hask>ListItem</hask> type can be used from the above solution and <hask>group</hask> can be found in <hask>Data.List</hask> module. |
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Latest revision as of 19:31, 18 January 2014
(*) Modified run-length encoding.
Modify the result of problem 10 in such a way that if an element has no duplicates it is simply copied into the result list. Only elements with duplicates are transferred as (N E) lists.
data ListItem a = Single a | Multiple Int a
deriving (Show)
encodeModified :: Eq a => [a] -> [ListItem a]
encodeModified = map encodeHelper . encode
where
encodeHelper (1,x) = Single x
encodeHelper (n,x) = Multiple n x
Again, like in problem 7, we need a utility type because lists in haskell are homogeneous. Afterwards we use the encode function from problem 10 and map single instances of a list item to Single and multiple ones to Multiple.
The ListItem definition contains 'deriving (Show)' so that we can get interactive output.
This problem could also be solved using a list comprehension like so:
encodeModified xs = [y | x <- group xs, let y = if (length x) == 1 then Single (head x) else Multiple (length x) (head x)]
In this case, ListItem type can be used from the above solution and group can be found in Data.List module.