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I was implementing quicksort and I wished to set the pivot to be the median or three numbers. The three numbers being the first element, the middle element, and the last element.

Could I possibly find the median in less no. of comparisons?

median(int a[], int p, int r)
    int m = (p+r)/2;
    if(a[p] < a[m])
        if(a[p] >= a[r])
            return a[p];
        else if(a[m] < a[r])
            return a[m];
        if(a[p] < a[r])
            return a[p];
        else if(a[m] >= a[r])
            return a[m];
    return a[r];
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Do you only care about number of comparisons? Is other arithmetic operation number not bounded? –  Elist Jun 18 '13 at 0:14
I just want an efficient code to calculate the median. –  Karan Kalra Jun 18 '13 at 0:49
Then you have it. Best case is 2 comparisons, worst case is 3. –  Elist Jun 18 '13 at 0:57

7 Answers 7

up vote 1 down vote accepted

You can't do it in one, and you're only using two or three, so I'd say you've got the minimum number of comparisons already.

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he does 3 (worst case). –  Karoly Horvath Jun 17 '13 at 23:57
Boneheaded. Updated –  Joel Jun 18 '13 at 18:20

Rather than just computing the median, you might as well put them in place. Then you can get away with just 3 comparisons all the time, and you've got your pivot closer to being in place.

T median(T a[], int low, int high)
    int middle = ( low + high ) / 2;
    if( a[ middle ].compareTo( a[ low ] ) < 0 )
        swap( a, low, middle );
    if( a[ high ].compareTo( a[ low ] ) < 0 )
        swap( a, low, high );
    if( a[ high ].compareTo( a[ middle ] ) < 0 )
        swap( a, middle, high );

    return a[middle];
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There is actually a clever way to isolate the median element from three using a careful analysis of the 6 possible permutations (of low, median, high). In python:

def med(a, start, mid, last):
    # put the median of a[start], a[mid], a[last] in the a[start] position
    SM = a[start] < a[mid]
    SL = a[start] < a[last]
    if SM != SL:
    ML = a[mid] < a[last]
    m = mid if SM == ML else last
    a[start], a[m] = a[m], a[start]

Half the time you have two comparisons otherwise you have 3 (avg 2.5). And you only swap the median element once when needed (2/3 of the time).

Full python quicksort using this at:


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int32_t FindMedian(const int n1, const int n2, const int n3) {
    auto _min = min(n1, min(n2, n3));
    auto _max = max(n1, max(n2, n3));
    return (n1 + n2 + n3) - _min - _max;
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If you're not afraid to get your hands a little dirty with compiler intrinsics you can do it with exactly 0 branches.

The same question was discussed before on:
Fastest way of finding the middle value of a triple?

Though, I have to add that in the context of naive implementation of quicksort, with a lot of elements, reducing the amount of branches when finding the median is not so important because the branch predictor will choke either way when you'll start tossing elements around the the pivot. More sophisticated implementations (which don't branch on the partition operation, and avoid WAW hazards) will benefit from this greatly.

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You can write up all the permutations:

    1 0 2
    1 2 0
    0 1 2
    2 1 0
    0 2 1
    2 0 1

Then we want to find the position of the 1. We could do this with two comparisons, if our first comparison could split out a group of equal positions, such as the first two lines.

The issue seems to be that the first two lines are different on any comparison we have available: a<b, a<c, b<c. Hence we have to fully identify the permutation, which requires 3 comparisons in the worst case.

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If the concern is only comparisons, then this should be used.

int getMedian(int a, int b , int c) {
    int x = a-b;
    int y = b-c;
    int z = a-c;
    if(x*y > 0) return b;
    if(x*z > 0) return c;
    return a;
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