# Count frequency of each element in a list

I try to write a program which will count the frequency of each element in a list.

``````    In: "aabbcabb"
Out: [("a",3),("b",4),("c",1)]
``````

You can view my code in the following link: http://codepad.org/nyIECIT2 In this code the output of unique function would be like this

``````     In: "aabbcabb"
Out: "abc"
``````

Using the output of unique we wil count the frequency of the target list. You can see the code here also:

``````    frequencyOfElt xs=ans
where ans=countElt(unique xs) xs
unique []=[]
countElt ref target=ans'
where ans'=zip ref lengths
lengths=map length \$ zipWith(\$)(map[(=='a'),(==',b'),(==',c')](filter.(==))ref)(repeat target)

Error:Syntax error in input (unexpected symbol "unique")
``````

But in ghci 6.13 other type of error are showing also

Few asked me what is the purpose of using [(=='a'),(==',b'),(==',c')]. What I expect: If ref="abc" and target="aabbaacc" then

``````    zipWith(\$) (map filter ref)(repeat target)
``````

will show ["aaaa","bb","cc"] then I can use map length over this to get the frequency Here for filtering list according with the ref i use [(=='a'),(==',b'),(==',c')]

I assume some logical error lies [(=='a'),(==',b'),(==',c')] here..

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put the code and error in your question. – Marcin Nov 22 '12 at 16:54
Your indentation is wrong. Bindings in the same `where` clause must start in the same column. – Daniel Fischer Nov 22 '12 at 17:11
@Daniel: indentation is wrong here only. u can see my code here codepad.org/3WdfZKev. I know i will get help from u – sabu Nov 22 '12 at 17:25
no it's wrong there too. You can see the line number colored in red for you to notice it better. It says there "ERROR line 3 - Syntax error in input (unexpected symbol "unique")". To not make such error, make the keyword "where" the only word on a line. – Will Ness Nov 22 '12 at 17:29
@SaugataBose Repeat after me: "All bindings in the same where clause must start in the same column." Then compare the columns of `ans` and `unique`, which are in the same where clause. – Ingo Nov 22 '12 at 17:34

You didn't say whether you want to write it whole on your own, or whether it's OK to compose it from some standard functions.

``````import Data.List

g s = map (\x->([head x], length x)) . group . sort \$ s
``````

is the standard quick-n-dirty way to code it.

OK, so your original idea was to Code it Point-Free Style (certain tune playing in my head...):

``````frequencyOfElt :: (Eq a) => [a] -> [(a,Int)]
frequencyOfElt xs = countElt (unique xs) xs     -- change the result type
where
unique [] = []
unique (x:xs) = x : unique (filter (/= x) xs)

countElt ref target =   -- Code it Point-Free Style  (your original idea)
zip
ref \$               -- your original type would need (map (:[]) ref) here
map length \$
zipWith (\$)       -- ((filter . (==)) c) === (filter (== c))
(zipWith (\$) (repeat (filter . (==))) ref)
(repeat target)
``````

I've changed the type here to the more reasonable `[a] -> [(a,Int)]` btw. Note, that

``````zipWith (\$) fs (repeat z) === map (\$ z) fs
zipWith (\$) (repeat f) zs === map (f \$) zs === map f zs
``````

hence the code simplifies to

``````    countElt ref target =
zip
ref \$
map length \$
map (\$ target)
(zipWith (\$) (repeat (filter . (==))) ref)
``````

and then

``````    countElt ref target =
zip
ref \$
map length \$
map (\$ target) \$
map (filter . (==)) ref
``````

but `map f \$ map g xs === map (f.g) xs`, so

``````    countElt ref target =
zip
ref \$
map (length . (\$ target) . filter . (==)) ref      -- (1)
``````

which is a bit clearer (for my taste) written with a list comprehension,

``````    countElt ref target =
[ (c, (length . (\$ target) . filter . (==)) c) | c <- ref]
== [ (c,  length ( (\$ target) ( filter (== c))))  | c <- ref]
== [ (c,  length \$ filter (== c) target)          | c <- ref]
``````

Which gives us an idea to re-write (1) further as

``````    countElt ref target =
zip <*> map (length . (`filter` target) . (==)) \$ ref
``````

but this obsession with point-free code becomes pointless here.

So going back to the readable list comprehensions, using a standard `nub` function which is equivalent to your `unique`, your idea becomes

``````import Data.List

frequencyOfElt xs = [ (c, length \$ filter (== c) xs) | c <- nub xs]
``````

This algorithm is actually quadratic (`~ n^2`), so it is worse than the first version above which is dominated by `sort` i.e. is linearithmic (`~ n log(n)`).

This code though can be manipulated further by a principle of equivalent transformations:

``````  = [ (c, length \$ filter (== c) \$ sort xs) | c <- nub xs]
``````

... because searching in a list is the same as searching in a list, sorted. Doing more work here, will it pay off?..

``````  = [ (c, length \$ filter (== c) \$ sort xs) | (c:_) <- group \$ sort xs]
``````

... right? But now, `group` had already grouped them by `(==)`, so there's no need for the `filter` call to repeat the work already done by `group`:

``````  = [ (c, length \$ get c \$ group \$ sort xs) | (c:_) <- group \$ sort xs]
where get c gs = fromJust \$ find ((== c).head) gs

= [ (c, length g) | g@(c:_) <- group \$ sort xs]
``````

isn't it? And here it is, the same linearithmic algorithm again, actually derived from your code by factoring out its the hidden common computations, making them available for reuse and simplification.

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Thanx. Thank u very much. But I want to keep Alive and try to klnw in which area i did ta mstake.thakkkk will – sabu Nov 22 '12 at 17:26
why `[head x]` instead of just `head x`? It is arbitrary to wrap the value in some construct without apparent reason. Hence confusing. – Ingo Nov 22 '12 at 17:29
@Ingo but lists are homogeneous in Haskell, so all is good. :) – Will Ness Nov 22 '12 at 17:41
I will have that certain tune in my head all night now. >_< – MathematicalOrchid Nov 22 '12 at 22:36
@SaugataBose hpaste.org/78070 has most all the variants (including some false steps). Or copy from here; enter the editing history by clicking "edited X hours ago" below the post, and at the top revision, click "source". – Will Ness Nov 23 '12 at 3:08

Using multiset-0.1:

``````import Data.Multiset

freq = toOccurList . fromList
``````
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