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Can anyone explain to me why this function works. I know how filter works it takes a predicate function and a list. In this def maximaBy valueFcn xs = filter isMaxVal xs filter takes isMaxVal as a predicate and xs is the list. but i am having trouble understanding

where 
            isMaxVal xs = valueFcn xs == maxVal
Here isMaxVal is defined as a function that takes xs as an argument but how is that possible xs is an agrument of filter.
if we change valueFcn  to function length 
we get 
 isMaxVal xs = length xs == maxVal
if xs is ["cs", "efd", "lth", "it"] length of this is 4 but maxVal ==3 
 maxVal = maximum (map length ["cs", "efd", "lth", "it"]) ==3




-- maximaBy length ["cs", "efd", "lth", "it"] == ["efd", "lth"]
    maximaBy :: Ord b => (a -> b) -> [a] -> [a]
    maximaBy valueFcn xs = filter isMaxVal xs
        where 
            isMaxVal xs = valueFcn xs == maxVal
            maxVal = maximum (map valueFcn xs)
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1 Answer 1

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Filter is defined by the notion that filter p (x:xs) = x : (filter p xs) if and only if p x == True. So it filters the input list to contain only the elements which satisfy the predicate p.

In this case, we define the predicate to be True only when its value as computed by the input valueFcn :: Ord b => (a -> b) is equal to maxVal :: b, whatever maxVal is.

On the next line, we have the definition of maxVal to be the maximum of the input list modified componentwise ("mapped") by valueFcn.

So in each case, we're viewing the input's value "through" valueFcn which produces some kind of value Ord b => b that we can compare. We look for the maximum and call that "value" (of type b) maxVal and then we filter the input list to contain only those inputs which match the maxVal with whatever valueFcn computes for them.


To be clearer, here's another way to approach the problem. We want to value each input by its output from valueFcn, so we fold those values in. Given a valueFcn :: Ord b => a -> b we write

let pairs = map (\x -> (x, valueFcn x)) :: Ord b => [a] -> [(a, b)]

And then we pass once over the list looking for the maximal value of the second component of each tuple.

let (maxInput, maxValue) = maximumBy (\a b -> compare (snd a) (snd b)) pairs

This is a maximal input and its respective value, but we're not done yet because we believe that this value may occur repeatedly in the input list, so we search through the list again looking for anything that matches that value

let results :: Ord b => [(a, b)]
    results = filter (\x -> snd x == maxValue) pairs

and then we return just the inputs which have gotten this far, not their valueFcn values.

map fst results

This method is actually a bit clunkier than the one your function uses, but it highlights in a slightly different way how the input values and their valueFcn values are connected.

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  • Yes but why can't i write like this maximaBy :: Ord b => (a -> b) -> [a] -> [a] maximaBy valueFcn xs = filter isMaxVal xs where isMaxVal xs = valueFcn xs == (maximum (map valueFcn xs)) Still don't understand isMaxVal xs = valueFcn xs valueFcn xs =length xs (if valueFcn is length) but that is not same as maxVal. isMaxVal xs Does this mean that list xs is an arugment of isMaxVal? if so what does filter get as argument? Dec 1, 2013 at 16:53
  • " we filter the input list to contain only those inputs which match the maxVal with whatever valueFcn computes for them." But we are calling valueFcn xs? we are not calling valueFcn on the element of xs. Dec 1, 2013 at 17:02
  • I understand it now. problem was xs in the IsMaxVal i thought it was same xs as above Dec 1, 2013 at 17:18

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