8

Consider, the case of Merge Sort on an int Array containing n elements, we need an additional array of size n in order to perform merges.We discard the additional array in the end though.So the space complexity of Merge Sort comes out to be O(n). But if you look at the recursive mergeSort procedure, on every recursive call mergeSort(something) one stack frame is added to the stack.And it does take some space, right?

public static void mergeSort(int[] a,int low,int high)
{
    if(low<high)
    {
        int mid=(low+high)/2;
        mergeSort(a,low,mid);
        mergeSort(a,mid+1,high);
        merge(a,mid,low,high);
    }
}

My Questions is :

  1. Why don't we take the size of stack frames into consideration while calculating Merge Sort complexity ?
  2. Is it because the stack contains only a few integer variables and one reference, which don't take much memory?
  3. What if my recursive function creates a new local array(lets say int a[]=new int [n];).Then will it be considered in calculating Space complexity?
8
  • 1
    2. is the correct answer to 1. As for 3, yes. Dec 24, 2013 at 11:27
  • Note that the array will not on be on the stack in Java. Only the reference to the array will be.
    – Ingo
    Dec 24, 2013 at 11:49
  • True ! There will just be a reference on stack in JAVA. Does the size of that reference should be considered in space complexity?
    – Aman Arora
    Dec 24, 2013 at 11:50
  • the size of reference is O(1); the number of stack frames = recursion depth, is logarithmic, O(log n), for mergesort. This will only be important if you manage to make merge to be O(1) in space (i.e. merge in-place). Then yes, instead of O(1) algorithm you'll have O(log n) algorithm, space-wise.
    – Will Ness
    Dec 24, 2013 at 14:10
  • @WillNess You are right, but as specified in the answer, all the stack frames don't live on stack at the same time. They keep decreasing and increasing during the execution of program.
    – Aman Arora
    Dec 24, 2013 at 17:26

2 Answers 2

4

The space consumed by the stack should absolutely be taken into consideration, but some may disagree here (I believe some algorithms even make complexity claims ignoring this - there's an unanswered related question about radix sort floating around here somewhere).

Since we split the array in half at each recursive call, the size of the stack will be O(log n).

So, if we take it into consideration, the total space will be O(n + log n), which is just O(n) (because, in big-O notation, we can discard asymptotically smaller terms), so it doesn't change the complexity.

And for creating a local array, a similar argument applies. If you create a local array at each step, you end up with O(n + n/2 + n/4 + n/8 + ...) = O(2n) = O(n) (because, in big-O notation, we can discard constant factors), so that doesn't change the complexity either.

4
  • There will be n recursive calls to mergeSort() and the size of each stack frame will be same, isn't it?
    – Aman Arora
    Dec 24, 2013 at 11:48
  • 2
    @AmanArora The size of each stack frame will be the same, and there will be O(n) recursive calls, but they won't all be on the stack at once - picture a binary tree where the root is size n, and each child is half the size of the parent - while the entire tree may have O(n) nodes, if you iterate through this tree, you'll only go as deep as the maximum depth of the tree, which is O(log n) - once you return from any node, it's no longer on the stack. Dec 24, 2013 at 11:54
  • So what i have concluded is "We should take stack frame sizes into consideration ?"
    – Aman Arora
    Dec 24, 2013 at 12:02
  • @AmanArora That's perfect. But, if for the purposes of a class, you should perhaps just ask your lecturer what he/she thinks, and go with that, to prevent possible disagreements / lose of marks in future. Dec 24, 2013 at 12:07
1

Because you are not calculating the space-complexity when you are doing that. That is called determining: you are doing tests and try to conclude what the space complexity is by looking at the results. This is not a mathematical approach.

And yes, you are right with statement 2.

2
  • Right! But why aren't we considering the sizes of stack in those tests?
    – Aman Arora
    Dec 24, 2013 at 11:33
  • If you want to determine the space complexity instead of calculate it, you could take the stack size into account. Dec 24, 2013 at 11:51

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