My scala list contains following elements :
val A = List(12,1,34,34,45,56,7)
now I want to subtract list as below :
List((12-1),(1-34),(34-34),(34-45),(45-56),(56-7))
so final result will be :
val result = List(11,-33,0,-11,-11,49)
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6 Answers
I think you need sliding (groups elements in fixed size blocks by passing a "sliding window" over them):
A.sliding(2,1).toList.map(x => x(0) - x(1))
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1You have a problem with singleton lists. You need either to add a
.filter(_.size > 1)before themap, or replace themapby.collect{case List(x,y) => x - y}. Aug 6, 2015 at 15:37 -
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@HelderPereira true, also for empty lists (where all other answers also fail) :) In any case, I find Chris Martin answer the most correct one (assuming empty list is a special case which should be handled separately).– jarandafAug 7, 2015 at 6:06
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@jarandaf Definitively, empty list is a special, as the general rule seems to be
final_size = initial_size - 1, it raises the question what to do with empty lists. In most cases, returning empty list will be OK (that's what your solution does), or maybe changing the return type toOption[List[Int]]and returnNonewould make more sense, or if getting an empty list here is the diagnosis of a bigger problem that happened before, maybe we should throw anExceptioninstead of letting it silently returning an empty list. But that depends on specification and it was not specified by the OP. Aug 7, 2015 at 6:55
And let's don't forget zipped:
val A = List(12,1,34,34,45,56,7)
(A,A.drop(1)).zipped.map(_-_)
Just to throw one more option into the mix:
(A zip A.drop(1)).map({ case (a, b) => a - b })
This gives you a little bit more type safety than sliding because Tuple2 codifies the fact that the intermediate collection's elements are pairs.
answered Aug 6, 2015 at 6:57
You could do:
val list = List(12, 1, 34, 45)
list.sliding(2).map {
case a :: b :: Nil => a - b
}.toList
It should return what you need.
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Wow, you're correct. I'd expected
List(12).sliding(2)to return an empty iterator.– ntnAug 6, 2015 at 8:01
I'm not impressed by the performance of the zip/map solutions. This could be done with a simple iterator, overriding the next() method. But I prefer streams
def subNeighbours(xs: List[Int]): Stream[Int] = xs match {
case x :: y :: rest => (x - y) #:: subNeighbours(y :: rest)
case _ => Stream.Empty
}
(subNeighbours(A)).toList
Inputs and outputs:
List(12, 1, 34, 34, 45, 56, 7)=>List(11, -33, 0, -11, -11, 49)List(1, 3, 2, 9, 0, 5)=>List(-2, 1, -7, 9, -5)List(1)=>List()List()=>List()
Stream solution only traverses the list once.
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1Actually, this solution is slower than the
zip/zippedsolutions. Aug 6, 2015 at 16:09
Well, The thinking behind this would be:
for(int i=0; i<list.length-1; i++){
list[i]= list[i]-list[i+1];
}
Now just add in the small litter details like setting result to the final values and you are golden.