# Seq with maximal elements

I have a Seq and function Int => Int. What I need to achieve is to take from original Seq only thoose elements that would be equal to the maximum of the resulting sequence (the one, I'll have after applying given function):

``````def mapper:Int=>Int= x=>x*x
val s= Seq( -2,-2,2,2 )
val themax= s.map(mapper).max
s.filter( mapper(_)==themax)
``````

But this seems wasteful, since it has to map twice (once for the filter, other for the maximum). Is there a better way to do this? (without using a cycle, hopefully)

EDIT The code has since been edited; in the original this was the filter line: `s.filter( mapper(_)==s.map(mapper).max)`. As om-nom-nom has pointed out, this evaluates `s.map(mapper).max each (filter) iteration, leading to quadratic complexity.

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It is unclear of what exactly you are trying to do above. –  Jatin Nov 24 '12 at 19:04
There is a thing that is much more wasteful that double traversing: you're calling max over the s.map(mapper) and max is a O(n). So you'll end up with quadratic complexity. –  om-nom-nom Nov 24 '12 at 19:06
@om-nom-nom Yes, I was wondering about that, so I edited a while back. I'll put the max in a val –  scala_newbie Nov 24 '12 at 19:10
@Jatin This is highly simplified code, since I'm dealing with complex structures on the original; I'm not sure how I can further simplify it. If it makes this clearer, in the original this is not a Seq of Int, but of objects. All I want do is get the maximal elements (after applying that function). –  scala_newbie Nov 24 '12 at 19:15
@scala_newbie it is now clear :). I was asking about the previous code, where you had max inside the filter. –  Jatin Nov 24 '12 at 19:16

Here is a solution that does the mapping only once and using the `foldLeft' function:

The principle is to go through the seq and for each mapped element if it is greater than all mapped before then begin a new sequence with it, otherwise if it is equal return the list of all maximums and the new mapped max. Finally if it is less then return the previously computed Seq of maximums.

``````def getMaxElems1(s:Seq[Int])(mapper:Int=>Int):Seq[Int] = s.foldLeft(Seq[(Int,Int)]())((res, elem) => {
val e2 = mapper(elem)
Seq((elem,e2))
res++Seq((elem,e2))
else res
}).map(_._1) // keep only original elements

scala> getMaxElems1(s)(mapper)
res14: Seq[Int] = List(-2, -2, 2, 2)

//test with a list containing also non maximal elements
scala> getMaxElems1(Seq(-1, 2,0, -2, 1,-2))(mapper)
res15: Seq[Int] = List(2, -2, -2)
``````

The algorithm I present above has a complexity of O(N) for a list with N elements. However:

• the operation of mapping all elements is of complexity O(N)
• the operation of computing the max is of complexity O(N)
• the operation of zipping is of complexity O(N)
• the operation of filtering the list according to the max is also of complexity O(N)
• the operation of mapping all elements is of complexity O(M), with M the number of final elements

So, finally the algorithm you presented in your question has the same complexity (quality) than my answer's one, moreover the solution you present is more clear than mine. So, even if the 'foldLeft' is more powerful, for this operation I would recommend your idea, but with zipping original list and computing the map only once (especially if your map is more complicated than a simple square). Here is the solution computed with the help of *scala_newbie* in question/chat/comments.

``````def getMaxElems2(s:Seq[Int])(mapper:Int=>Int):Seq[Int] = {
val mappedS = s.map(mapper) //map done only once
val m = mappedS.max         // find the max
s.zip(mappedS).filter(_._2==themax).unzip._1
}

In functional programming the `zip` is usually preferred to the indices. –  Christopher Chiche Nov 24 '12 at 19:46
I don't know enough about scala to be able to make that second solution return the original elements instead of the mapped ones. About `zip`, indeed, I guess zipping the original elements with the mapped ones would work even better! –  scala_newbie Nov 24 '12 at 19:46