# How can we find second maximum from array efficiently?

Is it possible to find the second maximum number from an array of integers by traversing the array only once?

As an example, I have a array of five integers from which I want to find second maximum number. Here is an attempt I gave in the interview:

``````#define MIN -1
int main()
{
int max=MIN,second_max=MIN;
int arr[6]={0,1,2,3,4,5};
for(int i=0;i<5;i++){
cout<<"::"<<arr[i];
}
for(int i=0;i<5;i++){
if(arr[i]>max){
second_max=max;
max=arr[i];
}
}
cout<<endl<<"Second Max:"<<second_max;
int i;
cin>>i;
return 0;
}
``````

The interviewer, however, came up with the test case `int arr[6]={5,4,3,2,1,0};`, which prevents it from going to the `if` condition the second time. I said to the interviewer that the only way would be to parse the array two times (two `for` loops). Does anybody have a better solution?

-
Does it matter is the array is reordered in the process of finding the second maximum? – Martin Mar 6 '10 at 21:39
use `Heap` structure instead `array` or use `sorted array` structure – gaussblurinc Aug 28 '13 at 9:40

Your initialization of `max` and `second_max` to `-1` is flawed. What if the array has values like `{-2,-3,-4}`?

What you can do instead is to take the first 2 elements of the array (assuming the array has at least 2 elements), compare them, assign the smaller one to `second_max` and the larger one to `max`:

``````if(arr[0] > arr[1]) {
second_max = arr[1];
max = arr[0];
} else {
second_max = arr[0];
max = arr[1];
}
``````

Then start comparing from the 3rd element and update `max` and/or `second_max` as needed:

``````for(int i = 2; i < arr_len; i++){
// use >= n not just > as max and second_max can hav same value. Ex:{1,2,3,3}
if(arr[i] >= max){
second_max=max;
max=arr[i];
}
else if(arr[i] > second_max){
second_max=arr[i];
}
}
``````
-
You're right about the negative numbers. However your code will give second_max == max if there are two occurences of the max number. Whether that is correct or not is not clearly stated in the question. – Anders Abel Mar 6 '10 at 14:28
I like the test for the first two elements prior to the for loop. There could even be a guard for the degenerate case of a two element array...and avoid the loop entirely. – Stan Graves Mar 6 '10 at 14:31
@Anders: Exactly. For input like {1,2,3,3}. The def of second_max can vary. It can be just second_max or a second_max different from max. I've gone with the 1st one, as it makes sense (at least to me) and that is what even the library std::nth_element would do. – codaddict Mar 6 '10 at 14:33
A small optimization, you can compare the current array element in the loop with second_max first and then if that passes, then compare with max. So it would be like : if (arr[i] > second_max) { if (arr[i] > max) { second_max = max; max = arr[i]; } else if (arr[i] != max) { second_max = arr[i]; } } This will always give different values for max and second_max, if the array does not contain a single number throughout. – abhinav Mar 6 '10 at 15:14

The easiest solution would be to use `std::nth_element`.

-
OK, explain how std::nth_element is implemented. – Svante Mar 6 '10 at 15:13
– avakar Mar 6 '10 at 15:26
+1 Easiest, bug-free, optimized. – Jon-Eric Mar 6 '10 at 16:32
Deleted my answer since it was pretty much a dupe. – Robert Davis Mar 6 '10 at 16:53
Depending on how pivot is selected, it may be `O(N^2)` in the worst-case. The `O(N)`-guaranteed one pass algorithm, while not extensible, is better for this specific problem. – polygenelubricants Mar 6 '10 at 18:57

You need a second test:

`````` for(int i=0;i<5;i++){
if(arr[i]>max){
second_max=max;
max=arr[i];
}
else if (arr[i] > second_max && arr[i] != max){
second_max = arr[i];
}
}
``````
-
In the second test, make sure arr[i] != max; otherwise your max and second_max could wind up the same, which could be a problem depending on how you'd like things to work. – ty. Mar 6 '10 at 14:12
Thanks for the comment, I've updated the code. – Anders Abel Mar 6 '10 at 14:19
Fails for input {1,2,2} – TopCoder Mar 6 '10 at 14:27
@TopCoder: What is the correct behaviour in case of two occurences of the max value? I don't think it is clearly stated in the question. – Anders Abel Mar 6 '10 at 14:34
You could change the first test to "arr[i]>=max" and remove the "arr[i] != max" from the second test. That would allow max and second_max to equal the same value, but only if that value is duplicated in the array. Depending on the particulars of the question, that may be a valid answer. – Stan Graves Mar 6 '10 at 14:37

Your original code is okay, you just have to initialize the max and second_max variables. Use the first two elements in the array.

-

Here you are:

``````std::pair<int, int> GetTwoBiggestNumbers(const std::vector<int>& array)
{
std::pair<int, int> biggest;
biggest.first = std::max(array[0], array[1]);  // Biggest of the first two.
biggest.second = std::min(array[0], array[1]); // Smallest of the first two.

// Continue with the third.
for(std::vector<int>::const_iterator it = array.begin() + 2;
it != array.end();
++it)
{
if(*it > biggest.first)
{
biggest.second = biggest.first;
biggest.first = *it;
}
else if(*it > biggest.second)
{
biggest.second = *it;
}
}

return biggest;
}
``````
-
This never pushes the first down to second place. Consider {5, 1, 7}. – John Marshall Mar 6 '10 at 14:41
Strange use of std::for_each. – pmr Mar 6 '10 at 14:46
@John: Thanks - fixed! – Johann Gerell Mar 6 '10 at 15:09
@pmr: "Strange use" - in what way? – Johann Gerell Mar 6 '10 at 15:10
@Johann: `std::for_each()` can't be used as a loop-statement - its a function. Try to compile your code and watch all those errors fly by. You probably meant to write `for` instead. (side-note: even if there was a `for_each` statement, `++it` would contradict the intention) – Georg Fritzsche Mar 6 '10 at 15:15

Quickselect is the way to go with this one. Pseudo code is available at that link so I shall just explain the overall algorithm:

``````QuickSelect for kth largest number:
Select a pivot element
Split array around pivot
If (k < new pivot index)
perform quickselect on left hand sub array
else if (k > new pivot index)
perform quickselect on right hand sub array (make sure to offset k by size of lefthand array + 1)
else
return pivot
``````

This is quite obviously based on the good old quicksort algorithm.

Following this algorithm through, always selecting element zero as the pivot every time:

``````select 4th largest number:
1) array = {1, 3, 2, 7, 11, 0, -4}
partition with 1 as pivot
{0, -4, _1_, 3, 2, 7, 11}
4 > 2 (new pivot index) so...

2) Select 1st (4 - 3) largest number from right sub array
array = {3, 2, 7, 11}
partition with 3 as pivot
{2, _3_, 7, 11}
1 < 2 (new pivot index) so...

3) select 1st largest number from left sub array
array = {2}

4) Done, 4th largest number is 2
``````

This will leave your array in an undefined order afterwards, it's up to you if that's a problem.

-

Step 1. Decide on first two numbers.
Step 2. Loop through remaining numbers.
Step 3. Maintain latest maximum and second maximum.
Step 4. When updating second maximum, be aware that you are not making maximum and second maximum equal.

Tested for sorted input (ascending and descending), random input, input having duplicates, works fine.

``````#include <iostream>
#define MAX 50
int GetSecondMaximum(int* data, unsigned int size)
{
int max, secmax;
// Decide on first two numbers
if (data[0] > data[1])
{
max = data[0];
secmax = data[1];
}
else
{
secmax = data[0];
max = data[1];
}
// Loop through remaining numbers
for (unsigned int i = 2; i < size; ++i)
{
if (data[i] > max)
{
secmax = max;
max = data[i];
}
else if (data[i] > secmax && data[i] != max/*removes duplicate problem*/)
secmax = data[i];
}
return secmax;
}
int main()
{
int data[MAX];
// Fill with random integers
for (unsigned int i = 0; i < MAX; ++i)
{
data[i] = rand() % MAX;
std::cout << "[" << data[i] << "] "; // Display input
}
std::cout << std::endl << std::endl;
// Find second maximum
int nSecondMax = GetSecondMaximum(data, MAX);
// Display output
std::cout << "Second Maximum = " << nSecondMax << std::endl;
// Wait for user input
std::cin.get();
return 0;
}
``````
-

Other way to solve this problem, is to use comparisons among the elements. Like for example,

``````a[10] = {1,2,3,4,5,6,7,8,9,10}
``````

Compare 1,2 and say max = 2 and second max = 1

Now compare 3 and 4 and compare the greatest of them with max.

``````if element > max
second max = max
element = max
else if element > second max
second max = element
``````

The advantage with this is, you are eliminating two numbers in just two comparisons.

Let me know, if you have any problem understanding this.

-
typo.. you need max = element. – Karoly Horvath Nov 5 '11 at 0:17

Check this solution.

``````max1 = a[0];
max2 = a[1];

for (i = 1; i < n; i++)
{
if (max1 < a[i])
{
max2 = max1;
max1 = a[i];
}

if (max2 == max1) max2 = a[i + 1];

if (max2 == a[n])
{
printf("All numbers are the same no second max.\n");
return 0;
}

if (max2 < a[i] && max1 != a[i]) max2 = a[i];
}
``````
-
What happens if a[0]=a[1] = max? I think there's a problem then – Origin Nov 9 '12 at 8:29

Here is something which may work ,

``````public static int secondLargest(int[] a){
int max=0;
int secondMax=0;

for(int i=0;i<a.length;i++){
if(a[i]<max){
if(a[i]>secondMax){
secondMax=a[i];
}
continue;
}

if(a[i]>max){
secondMax=max;
max=a[i];
}

}
return secondMax;
}
``````
-

The upper bound should have be n+log2⁡n−2, but it bigger than O(n) in case of random selection algorithm, but in worst case it much smaller. The solution might be

1. build a tree like to find the MAX element with n - 1 comparisons

max(N) / \ max(N/2) max(N/2)

2. remove the MAX and find the MAX again log2n - 1 comparison

PS. It uses additional memory, but it faster than random selection algorithm in worst case.

-

Can't we just sort this in decreasing order and take the 2nd element from the sorted array?

-

How about the following below. make_heap is O(n) so this is efficient and this is 1-pass We find the second max by taking advantage that it must be one of the heap children of the parent, which had the maximum.

``````#include <algorithm>
#include <iostream>

int main()
{
int arr[6]={0,1,2,3,4,5};

std::make_heap(arr, arr+6);
std::cout << "First Max: " << arr[0] << '\n';
std::cout << "Second Max: " << std::max(arr[1], arr[2]) << '\n';
return 0;
}
``````
-
``````int max,secondMax;
max=secondMax=array[0];
for(int i=0;i<array.length;i++)
{                                                   if(array[i]>max)                                                    {                                           max=array[i];                                                   }
if(array[i]>secondMax && array[i]<max)                                                  {
secondMax=array[i];                                                 }
}
``````
-
``````// Set the first two different numbers as the maximum and second maximum numbers

int max = array[0];
int i = 1;
//n is the amount of numbers

while (array[i] == max && i < n) i++;
int sec_max = array[i];
if( max < sec_max ) {
tmp = sec_max;
sec_max = max;
max = tmp;
}

//find the second maximum number

for( ; i < n; ++i ) {
if( array[i] > max ) {
sec_max = max;
max = array[i];
} else if( array[i] > sec_max && array[i] != max ) {
sec_max = array[i];
}
}
printf("The second maximum number is %d\n", sec_max);
``````
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Welcome on SO, here, it is a good practice to explain why to use your solution and not just how. That will make your answer more valuable and help further reader to have a better understanding of how you do it. I also suggest that you have a look on our FAQ : stackoverflow.com/faq. – ForceMagic Nov 11 '12 at 5:04