# Find next higher element in an array for each element [closed]

From a given input array, for each element, find next higher element present in each array. For example {40,50,11,32,55,68,75} output should be {50,55,32,55,68,75,-1}. For element if no higher element is present, print -1. Complexity should be less than O(n^2). You can use data structures and no constraint on space complexity.

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if you sort this array merge sort O(nlogn) will this not work ? –  dekdev Nov 1 '13 at 3:38
@dekdev- You should post that as an answer. :-) –  templatetypedef Nov 1 '13 at 3:39
@templatetypedef :) –  dekdev Nov 1 '13 at 3:40
do you mean geeksforgeeks.org/next-greater-element your example doesn't distinguish between next higher and next higher in right side –  Deepak Nov 1 '13 at 4:56
@Deepak i think AKS got question wrong. i am deleting my answer –  dekdev Nov 1 '13 at 5:11

## closed as off-topic by Dukeling, S.L. Barth, Servy, LittleBobbyTables, MarioNov 1 '13 at 14:31

This question appears to be off-topic. The users who voted to close gave this specific reason:

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If this question can be reworded to fit the rules in the help center, please edit the question.

you can use a stack and the time complexity is `O(N)`.

`algo:` Start from the left side and move towards right. When you pick an element form the array (lets say x) pop the stack till the elements from stack (lets say y ) has element greater than the array element i.e. x> y. Than push the element i.e. x to stack.

e.g. `{40,50,11,32,55,68,75}` . here `s` is stack.

40, as s is empty push it. `s: 40`

50, as s.peek() < 50 so pop 40 (40's greater element is 50) than push 50. `s: 50`

Next higher element of 40 - 50.

11, s.peek() > 11 so push 11. `s: 50, 11`

32, s.peek() < 32, so pop the element and now it's 50 which is greater than 32 hence push 32. `s: 50 ,32`

Next higher element of 11 - 32.

55, s.peek() < 55, so pop the element i.e. 32 than pop next as well as 50 < 55, than push 55. `s: 55`.

Next higher element of 32 - 55.

Next higher element of 50 - 55.

68, s.peek() < 68 so pop it and push 68. `s: 68`

75, s.peek() < 75 so pop it and push 75 `s:75`.

Next higher element of 68 - 75.

As the array does not have any element no just pop the stack say that for all the elements inside the array does not have greater element i.e. -1.

Next higher element of 75 - -1.

The same algo in code:

``````public static void getNGE(int[] a) {
Stack<Integer> s = new Stack<Integer>();
s.push(a[0]);

for (int i = 1; i < a.length; i++) {
if (s.peek() != null) {
while (true) {
if (s.peek() == null || s.peek() > a[i]) {
break;
}
System.out.println(s.pop() + ":" + a[i]);
}
}
s.push(a[i]);
}
while (s.peek() != null) {
System.out.println(s.pop() + ":" + -1);
}
}
``````
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Why `while (true)` and `break` rather than just `while (s.peek() != null && s.peek() <= a[i])`? –  Dukeling Nov 1 '13 at 8:42
You should probably insert the elements into a hash-map and iterate through the input at the end, creating an array with the elements in the correct order (except that it will need to be a little more complicated to work for duplicates). Also, I suggest you replace `s.peek() == null` with `s.isEmpty()`, which would make this work with the standard Java API `Stack`. –  Dukeling Nov 1 '13 at 8:52
@Dukeling `while (true) and break rather than just while (s.peek() != null && s.peek() <= a[i])` ya i accept it. just may be i need to do it soon. –  Trying Nov 1 '13 at 9:08
Nice idea. Version with proper order at ideone.com/g14lov –  MvG Nov 1 '13 at 21:41

A key property of your question, seen in the output 55 for input 32, is that you apparently only want those larger elements which come after a given input element in the input sequence. Otherwise the output at that point would have been 40.

I suggest you process the array from the right, and maintain a tree (e.g. a red-black tree) of seen elements. For every element you process, you first seach the tree in O(log n) for the next larger element. You store that in O(1) for the result you want to print at the end, then insert the currently processed element into the tree in O(log n). Processing all elements in this fashion in O(n log n), then reverse the list of things you have to output in O(n) and you are done.

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Downvoter, care to comment? –  MvG Nov 1 '13 at 21:24

This is easy:
1. Sort the array. O(n log n)
2. Find each element (index i) in the sorted array and pick element to the right or -1. Using binary search is O(log n), for each element it is O(n log n)

This could work (in C#):

``````    IEnumerable<int> NextNumber (int[] numbers)
{
var sorted = numbers.OrderBy(n => n).ToList();
int cnt = numbers.Count()-1;
return numbers.Select(sorted.BinarySearch).Select(i => i == cnt ? -1 : sorted[i + 1]);
}
``````

Edit: This solution works if the requested result strictly requires the next higher element regardless of the relative ordering.

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I think the relative ordering of the elements in the original array is significant. Look at the original question and what happens to 32. –  templatetypedef Nov 1 '13 at 7:58
I considered this to be a mistake, but you are right. I will edit my proposal. –  alzaimar Nov 1 '13 at 10:03