The "oneToEach" function adds 1 to each element of a List[Int]
. The first function is not tail recursive, whereas the latter is.
If I had a one million length List[Int] that I passed in to these 2 functions, which one would perform better? Better = faster or less resource usage.
// Add one to each element of a list
def oneToEach(l: List[Int]) : List[Int] =
l match {
case Nil => l
case x :: xs => (x + 1) :: oneToEach(xs)
}
...
def oneToEachTR(l: List[Int]) : List[Int] = {
def go(l: List[Int], acc: List[Int]) : List[Int] =
l match {
case Nil => acc
case x :: xs => go(xs, acc :+ (x + 1))
}
go(l, List[Int]())
}
If I understand, the first function has algorithmic complexity of O(n) since it's necessary to recurse through each item of the list and add 1.
For oneToEachTR
, it uses the :+
operator, which, I've read, is O(n) complexity. As a result of using this operator per recursion/item in the list, does the worst-case algorithm complexity become O(2*n)?
Lastly, for the million-element List, will the latter function perform better with respect to resources since it's tail-recursive?