Number of elements in Haskell in pointfree style

I want to define a function that computes the number of elements in a list that satisfy a given predicate:

``````  number_of_elements :: (a -> Bool) -> [a] -> Int
number_of_elements f xs = length (filter f xs)
``````

For example:

``````  number_of_elements (==2) [2,1,54,1,2]
``````

should return 2.

We can write it shorter:

``````  number_of_elements f = length . filter f
``````

Is it possible to write it without f parameter?

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What your are looking for is called "Pointfree style". There is a wiki about it here: haskell.org/haskellwiki/Pointfree . It teaches you all the tricks like the owl: `((.)\$(.))` and the dot: `((.).(.))`. I wouldn't personally recommend this style though. –  Thomas Ahle Dec 23 '11 at 22:21
I would recommend playing around with it a bit, to see how it works, but using the partially pointfree style `number_of_elements f = length . filter f`. That's the most readable usually. –  Daniel Fischer Dec 23 '11 at 22:33
This is a function I would rarely bother defining, because `length (filter f xs)` is, frankly, easier to read than `number_of_elements f xs`. The latter requires me figure out what your function does by either looking up your function definition, documentation or inferring it from the type; while the former is a straightforward combined use of two functions I understand already—and it's also shorter to write! I would only define this as an auxiliary function in a `where` binding, or as an unexported module function—and even then only if it's going to be the argument to other functions. –  Luis Casillas Dec 23 '11 at 22:40
sacundim is quite correct. If you really want something more than `length (filter f xs)`, I'd suggest defining the `(.:)` combinator in is7s's answer, and using `length .: filter` as needed, but even that is a bit silly. –  C. A. McCann Dec 23 '11 at 23:38

Sure it is:

``````number_of_elements = (length .) . filter
``````
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Yes, that's the proper pointfree, unreadable style :) –  Thomas Ahle Dec 23 '11 at 22:11

I don't think you can get more readable than the what you suggested. However, just for the fun of it you can do this:

``````numberOfElements = (.) (.) (.) length filter
``````

or

``````(.:) = (.) . (.)
numberOfElements = length .: filter
``````
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`(.*)` is usually called `(.:)`; lambdabot calls it that, for instance. –  ehird Dec 23 '11 at 22:56
@ehird changed it, thanks. –  is7s Dec 23 '11 at 23:33
Why not `fmap fmap fmap`? –  C. A. McCann Dec 23 '11 at 23:34
@C.A.McCann maybe because (.) is one-character shorter? :) –  is7s Dec 23 '11 at 23:38
I personally prefer `.*` in fact I uploaded a dumb package to hackage (the "composition" package) that defines it under `Data.Composition` –  Dan Burton Dec 24 '11 at 2:01
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You might like to read about Semantic Editor Combinators. Take the `result` combinator from there:

``````result :: (output -> output') -> (input -> output) -> (input -> output')
result = (.)
``````

The `result` combinator takes a function and applies it to the result of another function. Now, looking at the functions we have:

``````filter :: (a -> Bool) -> [a] -> [a]
length :: [a] -> Int
``````

Now, `length` applies to `[a]`'s; which, it happens, is the result type of functions of the form `foo :: [a] -> [a]`. So,

``````result length :: ([a] -> [a]) -> ([a] -> Int)
``````

But the result of `filter` is exactly an `[a] -> [a]` function, so we want to apply `result length` to the result of `filter`:

``````number_of_elements = result (result length) filter
``````
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I'd rewrite that last line to isolate the composed SEC (semantic editor combinator): `number_of_elements = (result.result) length filter`. Read as: compute the number of elements by applying `length` to the result of the result of `filter`. Here `(result.result)` is the editor combinator and `length` is the (semantic) editor. Definitely read the SEC post. –  Conal Dec 24 '11 at 19:40