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Given an array , in which either the values are only increasing or only decreasing or increasing and then decreasing, How to find the max and min value of such and array?

min value is nothing but the smallest of the end values.

but how to find max value?

One way is the linear approach with running time of O(n), can this be solved in O(logn), using some modification to the binary search?

Any code (in java) is highly appreciated.

Thanks
Nohsib

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5 Answers 5

up vote 3 down vote accepted
if [1] < [2]
  if [end-1] < [end]
    min = [1]
    max = [end]
  else
    min = min([1],[end])
    max = binarysearch()
else
  min = [end]
  max = [1]

binarysearch:
take the middle element [mid]
if [mid-1] < [mid] < [mid+1]
  binary search [mid - end]
else if [mid-1] > [mid] > [mid+1]
  binary search [start - mid]
else
  return max([mid-1],[mid],[mid+1]
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Can this be improved to handle duplicate keys? –  allenylzhou Mar 9 at 3:28
    
@allenylzhou yes it can. Anywhere you see a < or >, instead of comparing with the adjacent element, compare with the next element that is different. If there is no next element that is different the result of the comparison is simply false. –  Jean-Bernard Pellerin Mar 10 at 20:31

In cases where the slope goes from increasing to decreasing at most once, the maximum occurs when the derivative first goes negative. In other words, x[i] is the maximum for the smallest value of i that satisfies (x[i+1] - x[i]) < 0.

You can indeed find this with a binary search in O(log n) time. At every iteration, check whether the derivative is negative. If it is, then move left, otherwise move right.

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Or just x[i+1] < x[i], but that doesn't help to find the correct value of i. –  David Harkness Nov 19 '11 at 21:03
    
@David: My answer is already updated with details on finding it! –  Oliver Charlesworth Nov 19 '11 at 21:04
    
Yes indeed, +1 :) –  David Harkness Nov 19 '11 at 21:09

by binary search, see which case it belongs to. Essentialy try to find the first pivot point where there is bigger element immediately followed by smaller say p1, and first pivot point where there is a smaller element immediately followed by bigger element say p2. You can do these both with binary search (google for binary search in a rotated sorted array)

if p1 exists p2 doesnt, its an increasing sequence (min = a[0] max=a[n])

if p2 exists and p1 doesnt, its a decreasing sequence(min = a[n] max=a[0])

if both exists, its increasing and decreasing

min = min(a[0],a[n]) \\first and last
max = a[p1] \\first point where bigger element is followed by a smaller one
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An order-statistic tree will do what you want. It can find any order statistic, including min and max, in O(lgn). Forming the tree costs costs O(nlgn), which is the same complexity as the best comparison sort. Adding or removing elements also costs O(lgn).

Here is a link (OrderStatisticTree.java) to a java implementation of an order-statistic tree.

However, given the assumptions you've stated, the min can be found in O(1) as you've indicated. The max can be found in O(lgn). Here is the pseduo code:

findMax(array,n,m)
  middle = (n + m) / 2;

  //check for short array (length 1 or 2) to avoid indexing errors
  if middle == n && array(middle) > array(m)
    return(array(middle));
  else
    return(array(m));

  if array(middle) > array(middle - 1) //left side of peak
    if array(middle) < array(middle + 1) //at peak
      return(array(middle));
    else
      return(findMax(array(middle,m)); //peak is to the right
  else //right side of peak
    return(findMax(array,n,middle); //peak is to the left
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According to the logic suggested by Jean-Bernard Pellerin

(only max value is found in this code)

public class max_in_increasing_decreasing_array 
{
    public static int max (int a,int b,int c)
    {

    int maxi=-1;

    if(a>maxi)
        maxi=a;
    if(b>maxi)
        maxi=b;
    if(c>maxi)
        maxi=c;


    return maxi;
}
public static void chkmax(int a[],int low,int high)
{
    int mid=(low+high)/2;
    if(low==high)
    {
        System.out.println(a[low]);
        return;
    }
    if(low+1==high)
    {
        System.out.println(max(a[low],a[high],-1));
        return;
    }

    if((a[mid-1]< a[mid]) && (a[mid] < a[mid+1]))
    {
        chkmax(a, mid+1, high);

    }
    else if((a[mid-1]> a[mid]) && (a[mid] > a[mid+1]))
    {
        chkmax(a, low, mid-1);

    }
    else
        System.out.println(max(a[mid-1],a[mid],a[mid+1]));
}

public static void main(String[] args) 
{
    int a[]={6,7,4,3,2,1};
    chkmax(a, 0,a.length-1);
}

}

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