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I've been thinking about this homework question for a bit now. Given an number array of size n, design an algorithm that will find the high and and low values with at most 1.5n comparisons.

My first try was

int high=0
int low= Number.MaxValue //problem statement is unclear on what type of number to use
Number numList[0 . . n] //number array, assuming unsorted

for (i=0, i < n, i++) {
  if (numList[i] > high)
    high = numList[i]

  else if (numList[i] < low)
    low = numList[i]


My problem is each iteration of the loop has one of three possibilities:

  • low value is found - 1 comparison made
  • high value is found - 2 comparisons made
  • neither is found - 2 comparisons made

So for an entire array traversal, a maximum of 2n comparisons can be made, which is a far cry from the problem maximum requirement of 1.5n comparisons.

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In this kind of problems, the best starting value is the first element. –  wildplasser Jan 25 '12 at 18:22
@wildplasser, do you mean initialize both high and low with the first element value? –  Jason Jan 25 '12 at 18:24
Yes. That avoids choosing an arbitrary {lower,higher}-than-possible sentinel value. The 'empty array' case is always special (it has no lowest, highest) –  wildplasser Jan 25 '12 at 18:26

3 Answers 3

up vote 16 down vote accepted

Start with a pairs of numbers and find local min and max (n/2 comparisons). Next, find global max from n/2 local maxes (n/2 comparisons), and similarly global min from local mins (n/2 comparisons). Total comparisons: 3*n/2 !

For i in 0 to n/2: #n/2 comparisons
    if x[2*i]>x[2*i+1]:

global_min = min( x[0], x[2], ...) # n/2 comparisons
global_max = max( x[1], x[3], ...) # n/2 comparisons

Note that the above solution changes the array. Alternate solution:

Initialize min and max
For i = 0 to n/2:
    if x[2*i]<x[2*i+1]:
        if x[2*i]< min:
            min = x[2*i]
        if x[2*i+1]> max:
            max = x[2*i+1]
        if x[2*i+1]< min:
            min = x[2*i+1]
        if x[2*i]> max:
            max = x[2*i]
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+1 nice solution –  BrokenGlass Jan 25 '12 at 18:35
I basically implemented this with a variation to the loop initializer. if n is even, the loop starts at i=2, if odd i=1. This results in (3(n-2)/2)+1 comparisons if even or 3(n-1)/2 if odd. –  Jason Jan 26 '12 at 12:24

This is the same answer as ElKamina but as I had already started writing the pseudo code I thought I'd finish and post it.

The idea is to compare pairs of values (n/2 comparisons) to get an array of high values and an array of low values. With each of those arrays we again compare pairs of values (2 * n/2 comparisons) to get the highest and lowest values respectively.

n/2 + 2*n/2 = 1.5n comparisons

Here's the pseudocode:

int[] highNumList;
int[] lowNumList;

for (i = 0, i < n, i+=2)
    a = numList[i];
    b = numList[i+1];
    if (a > b)

int high = highNumList[0];
int low = lowNumList[0];

for (i = 0, i < n/2, i+=2)
    if (highNumList[i] < highNumList[i+1])
        high = highNumList[i+1]
    if (lowNumList[i] > lowNumList[i+1])
        low = lowNumList[i+1]

This code doesn't account for n not being even or the initial array being empty.

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This is a question I had during an interview and I found the answer with a small hint from the interviewer which was "How do you compare two numbers?" (it really helped).

Here is the explanation:

Lets say I have 100 numbers (you can easily replace it by n but it work better for the example if n is an even number). What I do is that I split it into 50 lists of 2 numbers. For each couple I make one comparison and I'm done (which makes 50 comparisons by now) then I just have to find the minimum of the minimums (which is 49 comparisons) and the maximum of the maximums (which is 49 comparisons as well) such that we have to make 49+49+50=148 comparisons. We're done !

Remark: to find the minimum we proceed as follow (in pseudo code):

    for (int i(1);i<n-1;i++)
    if (min>myList[i]) min=myList[i];
    return min;

And we find it in (n-1) comparisons. The code is almost the same for maximum.

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