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Consider an array element X is one of leaders of the array if the all the elements following that array element is lesser than or equal to the array element X ...then what is the best algorithm to find all the leaders of the array?

Array may have more leaders.. consider the following array [10 9 8 6 ] then 10,9,8 are leaders of the array

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Can you explain this in a bit more detail? From what I can derive from your question only one "leader" is possible in an array but your questions suggests otherwise!? –  Anders Hansson Apr 6 '09 at 9:33
No, consider this list: 8 4 7 3 5. Both 8 and 7 are leaders by this definition - no number after them is greater than them. –  David M Apr 6 '09 at 9:36
@David M: You are sooo correct! Thanks for enlightening me! –  Anders Hansson Apr 6 '09 at 9:39
According to the qustion 8,4,7,3,5 only have one leader and it's the 8 ("...if ALL THE ELEMENTS following that array element is lesser than the array element X..."), so I think what he want's is from the List (8,4,7,8, 5) the indexes 0 and 3 –  João Augusto Apr 6 '09 at 9:49
@João Augusto: It doesn't say that a leader can't be included in another leaders sequence... –  Anders Hansson Apr 6 '09 at 9:56

4 Answers 4

up vote 12 down vote accepted

Work from the right hand end of the array, keeping track of the maximum value you have encountered. Every time that maximum increases or is equalled, that element is a leader by your definition. What is more, it stays a leader regardless of what happens further to the left - in other words, every leader you add to your list is a genuine leader, not just a candidate, as you'd have working left to right.

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but he wants to find all leaders. –  Daren Thomas Apr 6 '09 at 9:40
Yes, and this method does exactly that! –  David M Apr 6 '09 at 9:42
so true. sorry. upvoted! –  Daren Thomas Apr 6 '09 at 9:47
@Daren - no worries, and thanks. –  David M Apr 6 '09 at 9:48
thank u very much.. actually this is a computer science GATE exam question... the options were 1.from left to right pass in linear time 2.from right to left pass in linear time 3.0(n2) 4.divide and conquere method then the answer is option 2 –  suresh Apr 6 '09 at 9:53

In Haskell it would look like

 leaders [] = [];

leaders (a:as)
          | all (a>) as = a : leaders as
          | otherwise   = leaders as

giving the list of leaders of a list.

  • The list of leaders of an empty list is empty
  • If the first element of a list is a leader, then this is also the first element of the list of leaders.

It should be easy to adapt to arrays.

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This algorithm is O(n^2) if I understand it correctly. See David M's answer for a simple O(n) algorithm. –  j_random_hacker Apr 6 '09 at 9:49
Yes sure, David's answer is optimal for data structures you can traverse backwards. My algo could be enhanced by dropping all elements (<a) from the fron of the list when a is NOT a leader. Then O^n would be worst case beaviour on descending list only. –  Ingo Apr 6 '09 at 11:33

Maintain a list of possible leaders as you work through the array/list. This list is naturally sorted descending. Each new element is a possible new leader. If its bigger than the last found possible leader, then you have to eliminate all leaders smaller than this new possible leader and append it to the now truncated list. Otherwise, just append it to the list of possible leaders.


def findleaders(array):
    leaders = []
    for element in array:
        if element < leaders[-1]:
            # new possible leader
            # remove false possible leaders
            while leaders[-1] < element:
                if not leaders: break #stop when list is empty
    return leaders
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Deriving from David M's algorithm

int max = a[LAST_INDEX]
for( int i = a[LAST_INDEX-1] ; i >=0 ; i-- ) {
 if( a[i] > max ) 
   max = a[i];
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