# Find second largest element in an array using recursion

As the title says, is there any efficient way to find the second largest element in an array using recursion?

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show us your code and we tell you if it is efficient –  Stefan Beike Jan 10 '13 at 15:44
Do you have to use recursion? It's rather easy to do without. –  Henry Jan 10 '13 at 15:45
Efficiency and recursion are two different directions. –  sr01853 Jan 10 '13 at 15:45
Assuming it's unsorted, the simplest way would be to run through the array once, find the largest element, then run through again to find the largest element less than the largest. You could use recursion; it would recurse twice. –  iamnotmaynard Jan 10 '13 at 15:47
@iamnotmaynard why pass twice if you can pass once? –  Luchian Grigore Jan 10 '13 at 15:48

partition based Selection algorithm is recursive by nature, and it lets you select the `k`'th element in the array, so using it - you can actually find the answer for any `k`, including `k = n-1` (your case).

This is done in `O(n)` on average with fairly low constants.

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If nothing is known about the array, you can't do better than `O(n)`, whether it's recursive or iterative.

Just pass throught the array recursively, while passing the two largest elements and replacing them if you find larger values.

``````find_largest(array_begin, largest, secondLargest)
if (array_begin = NULL)
return secondLargest
if (array_begin.value > largest)
secondLargest = largest
largest = array_begin.value
return find_largest(array_begin+1, largest, secondLargest)
``````

`largest` and `secondLargest` can initially be set to the minimum you expect to find in the array.

You're right, sorting (at least full sorting) is overkill.

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How can I set the minimum if nothing about the array is known? Do you mean the first elem? –  Neel Jan 10 '13 at 16:03
@Neel no additional info I mean - i.e. if you know that the array is sorted, you can do it in `O(1)`. –  Luchian Grigore Jan 10 '13 at 17:05

Something in `O(n)` like this:

``````int findSecondLargest(int[] arr, int index, int largest, int secondLargest) {
if(index == arr.length) {
return secondLargest;
}
int element = arr[index];
if(element > secondLargest) {
if(element > largest) {
return findSecondLargest(arr, index + 1, element, largest);
} else {
return findSecondLargest(arr, index + 1, largest, element);
}
}
return findSecondLargest(arr, index + 1, largest, secondLargest);
}
``````
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``````    public void recurs(int[] data, int ind, int max1, int max2){
if(ind<data.length){
if(data[ind]>max1){
int temp = max1;
max1 = data[ind];
max2 = temp;
} else if(data[ind]>max2){
max2 = data[ind];
}
recurs(data, ind+1, max1, max2);
} else {
return max2;
}
return -1;
}
``````

to call it : recurs(dataX, 0, Integer.MIN_VALUE, Integer.MIN_VALUE);

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