# How to find the frequency of characters in a string in Haskell?

How can I count the frequency of characters in a string and then output them in sort of a table?

For example, if I input the word "happy" the result would be

h 1
a 1
p 2
y 1

If this could be ordered in ASCII order too that would be brilliant.

I know I need to use the count function, any other hints would be appreciated.

EDIT: All the answers are brilliant, only I'm such a beginner at Haskell that I don't actually understand what they are doing.

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The simplest solution is to use a Data.Map to store the intermediate mapping from character to frequency. You can then construct the counts easily using fromListWith. Since Data.Map is sorted, you get them in ASCII order for free.

λ> :m + Data.Map
λ> let input = "happy"
λ> toList \$ fromListWith (+) [(c, 1) | c <- input]
[('a',1),('h',1),('p',2),('y',1)]

So what's happening here?

The idea is to build a Data.Map (a tree map) using the characters as keys and the frequencies as values.

First, we take the input string and make tuples of each character with a 1 to indicate one occurrence.

λ> [(c, 1) | c <- input]
[('h',1),('a',1),('p',1),('p',1),('y',1)]

Next, we use fromListWith to build a sorted map from these key-value pairs by repeatedly inserting each key-value pair into a map. We also give it a function which will be used when a key was already in the map. In our case, we use (+) so that when a character is seen multiple times, we add the count to the existing sum.

Finally we covert the map back into a list of key-value tuples using toList.

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I think im being stupid, but is this a programme? Im such a noob at haskell so sorry if its a stupid question. –  Hagrid123 Aug 18 '11 at 15:20
@Hagrid123: The examples are taken from a GHCi (interpreter) session, which is slightly different from what you'd find in a Haskell source file. For example let is used for top-level bindings and :m can be used to import a module. –  hammar Aug 18 '11 at 15:30
For the record, the hallmark of a GHCi prompt is the > character. When you first launch ghci you will likely see Prelude>; note the modules in scope are listed in the prompt. hammar's ghci prompt seems to be pimped out. –  John L Aug 18 '11 at 19:34

There's probably something shorter, but this works:

Prelude> import Data.List
Prelude Data.List> map (\x -> (head x, length x)) \$ group \$ sort "happy"
[('h',1),('a',1),('p',2),('y',1)]
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You'll have to sort the input first to cover cases like "pappy" where the occurrences of p are not contiguous. –  hammar Aug 18 '11 at 14:04
Thanks, fixed. :-) –  Michael Kohl Aug 18 '11 at 14:06
and note that (\x -> (head x, length x)) == head &&& length, where (&&&) is from Control.Arrow. –  Conal Aug 21 '11 at 1:25
@Conal: I know Control.Arrow, but given this rather simplistic approach it seemed like overkill. Thanks for pointing it out though. –  Michael Kohl Aug 21 '11 at 9:53

func xs = map (\a -> (head a, length a)) \$ group \$ sort xs

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groupBy (\x y -> x == y) is the same as group –  newacct Aug 18 '11 at 15:24
Yes, I realised that the moment I posted it. :) –  cldy Aug 18 '11 at 15:26

I'll scetch a solution step by step. A shorter solution is possible using standard functions.

You want a sorted result, therefore

result = sort cs
where

cs would be a list of tuples, where the first element is the character and the second element is the number of times it appears.

cs = counts "happy"
counts [] = []
counts (c:cs) = (c, length otherc + 1) : counts nonc where
(otherc, nonc) = partition (c==) cs

That's all.

Interestingly, counts works on any list of items that support the == operator.

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import Data.Array (Ix, accumArray, assocs)

eltDist :: (Bounded a, Ix a, Eq b, Num b) => [a] -> [(a, b)]
eltDist str = filter ((/=0) . snd ) \$
assocs (accumArray (+) 0 (minBound, maxBound) [(i, 1) | i <- str])

"minBound" and "maxBound" are going to depend on the range of the type inferred for i. For Char it will be 0 - 1,114,111, which is extravagant but not impossible. It would be especially convenient if you were counting Unicode chars. If you are only interested in ASCII strings, then (0, 255) would do. A nice thing about arrays is that they can be indexed by any type that can be mapped to an integer. See Ix.

assocs pulls the indices and counts out of the array into a list of pairs and filter disposes of the unused ones.

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Use list comprehension, no need for any imports or sorting.

[ (x,c) | x<-['A'..'z'], let c = (length.filter (==x)) "happy", c>0 ]

Result:

[('a',1),('h',1),('p',2),('y',1)]

Above is the filtered and rewritten (only character with count > 0) from:

[(x,(length.filter (==x)) "happy" ) | x<-['A'..'z']]

Explanation:

• Make a list of all characters that match a given character (A..z).
• For each character, count this list (==length)
• Put this count in a tuple with the character
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