# Given an array arr[], find the maximum j – i such that arr[j] > arr[i]

Given an array arr[], find the maximum j – i such that arr[j] > arr[i].
Examples :

```  Input: {34, 8, 10, 3, 2, 80, 30, 33, 1}
Output: 6  (j = 7, i = 1)

Input: {9, 2, 3, 4, 5, 6, 7, 8, 18, 0}
Output: 8 ( j = 8, i = 0)

Input:  {1, 2, 3, 4, 5, 6}
Output: 5  (j = 5, i = 0)

Input:  {6, 5, 4, 3, 2, 1}
Output: -1
```

Method 1 (Simple but Inefficient)
Run two loops. In the outer loop, pick elements one by one from left. In the inner loop, compare the picked element with the elements starting from the right side. Stop the inner loop when you see an element greater than the picked element and keep updating the maximum j-i so far.

 `#include `   `using` `namespace` `std;` `/* For a given array arr[], returns the maximum j – i such that` `    ``arr[j] > arr[i] */` `int` `maxIndexDiff(``int` `arr[], ``int` `n)` `{` `    ``int` `maxDiff = -1;` `    ``int` `i, j;`   `    ``for` `(i = 0; i < n; ++i) {` `        ``for` `(j = n - 1; j > i; --j) {` `            ``if` `(arr[j] > arr[i] && maxDiff < (j - i))` `                ``maxDiff = j - i;` `        ``}` `    ``}`   `    ``return` `maxDiff;` `}`   `int` `main()` `{` `    ``int` `arr[] = { 9, 2, 3, 4, 5, 6, 7, 8, 18, 0 };` `    ``int` `n = ``sizeof``(arr) / ``sizeof``(arr[0]);` `    ``int` `maxDiff = maxIndexDiff(arr, n);` `    ``cout << ``"\n"` `         ``<< maxDiff;` `    ``return` `0;` `}`   `// This code is contributed` `// by Akanksha Rai(Abby_akku)`

 `#include ` `/* For a given array arr[], returns the maximum j – i such that` `    ``arr[j] > arr[i] */` `int` `maxIndexDiff(``int` `arr[], ``int` `n)` `{` `    ``int` `maxDiff = -1;` `    ``int` `i, j;`   `    ``for` `(i = 0; i < n; ++i) {` `        ``for` `(j = n - 1; j > i; --j) {` `            ``if` `(arr[j] > arr[i] && maxDiff < (j - i))` `                ``maxDiff = j - i;` `        ``}` `    ``}`   `    ``return` `maxDiff;` `}`   `int` `main()` `{` `    ``int` `arr[] = { 9, 2, 3, 4, 5, 6, 7, 8, 18, 0 };` `    ``int` `n = ``sizeof``(arr) / ``sizeof``(arr[0]);` `    ``int` `maxDiff = maxIndexDiff(arr, n);` `    ``printf``(``"\n %d"``, maxDiff);` `    ``getchar``();` `    ``return` `0;` `}`

 `class` `FindMaximum {` `    ``/* For a given array arr[], returns the maximum j-i such that` `       ``arr[j] > arr[i] */` `    ``int` `maxIndexDiff(``int` `arr[], ``int` `n)` `    ``{` `        ``int` `maxDiff = -``1``;` `        ``int` `i, j;`   `        ``for` `(i = ``0``; i < n; ++i) {` `            ``for` `(j = n - ``1``; j > i; --j) {` `                ``if` `(arr[j] > arr[i] && maxDiff < (j - i))` `                    ``maxDiff = j - i;` `            ``}` `        ``}`   `        ``return` `maxDiff;` `    ``}`   `    ``/* Driver program to test above functions */` `    ``public` `static` `void` `main(String[] args)` `    ``{` `        ``FindMaximum max = ``new` `FindMaximum();` `        ``int` `arr[] = { ``9``, ``2``, ``3``, ``4``, ``5``, ``6``, ``7``, ``8``, ``18``, ``0` `};` `        ``int` `n = arr.length;` `        ``int` `maxDiff = max.maxIndexDiff(arr, n);` `        ``System.out.println(maxDiff);` `    ``}` `}`

 `# Python3 program to find the maximum` `# j – i such that arr[j] > arr[i]` ` `  `# For a given array arr[], returns` `# the maximum j – i such that` `# arr[j] > arr[i] ` `def` `maxIndexDiff(arr, n):` `    ``maxDiff ``=` `-``1` `    ``for` `i ``in` `range``(``0``, n):` `        ``j ``=` `n ``-` `1` `        ``while``(j > i):` `            ``if` `arr[j] > arr[i] ``and` `maxDiff < (j ``-` `i):` `                ``maxDiff ``=` `j ``-` `i;` `            ``j ``-``=` `1` `    `  `    ``return` `maxDiff`   `# driver code` `arr ``=` `[``9``, ``2``, ``3``, ``4``, ``5``, ``6``, ``7``, ``8``, ``18``, ``0``]` `n ``=` `len``(arr)` `maxDiff ``=` `maxIndexDiff(arr, n)` `print``(maxDiff)`   `# This article is contributed by Smitha Dinesh Semwal`

 `// C# program to find the maximum` `// j – i such that arr[j] > arr[i]` `using` `System;` `class` `GFG {` `    ``// For a given array arr[], returns` `    ``// the maximum j-i such that arr[j] > arr[i]` `    ``static` `int` `maxIndexDiff(``int``[] arr, ``int` `n)` `    ``{` `        ``int` `maxDiff = -1;` `        ``int` `i, j;`   `        ``for` `(i = 0; i < n; ++i) {` `            ``for` `(j = n - 1; j > i; --j) {` `                ``if` `(arr[j] > arr[i] && maxDiff < (j - i))` `                    ``maxDiff = j - i;` `            ``}` `        ``}`   `        ``return` `maxDiff;` `    ``}`   `    ``// Driver program` `    ``public` `static` `void` `Main()` `    ``{`   `        ``int``[] arr = { 9, 2, 3, 4, 5, 6, 7, 8, 18, 0 };` `        ``int` `n = arr.Length;` `        ``int` `maxDiff = maxIndexDiff(arr, n);` `        ``Console.Write(maxDiff);` `    ``}` `}` `// This Code is Contributed by Sam007`

 ` arr[i]`   `// For a given array arr[], returns ` `// the maximum j – i such that ` `// arr[j] > arr[i] ` `function` `maxIndexDiff(``\$arr``, ``\$n``)` `{` `    ``\$maxDiff` `= -1;` `    `  `    ``for` `(``\$i` `= 0; ``\$i` `< ``\$n``; ++``\$i``)` `    ``{` `        ``for` `(``\$j` `= ``\$n` `- 1; ``\$j` `> ``\$i``; --``\$j``)` `        ``{` `            ``if``(``\$arr``[``\$j``] > ``\$arr``[``\$i``] && ` `               ``\$maxDiff` `< (``\$j` `- ``\$i``))` `                ``\$maxDiff` `= ``\$j` `- ``\$i``;` `        ``}` `    ``}`   `    ``return` `\$maxDiff``;` `}`   `// Driver Code` `\$arr` `= ``array``(9, 2, 3, 4, 5, ` `             ``6, 7, 8, 18, 0);` `\$n` `= ``count``(``\$arr``);` `\$maxDiff` `= maxIndexDiff(``\$arr``, ``\$n``);` `echo` `\$maxDiff` `;`   `// This code is contributed by Sam007` `?>`

Output:
```8

```

Time Complexity: O(n^2)
Method 2 –
Improvising the Brute Force Algorithm and looking for BUD, i.e Bottlenecks, unnecessary and duplicated works. A quick observation actually shows that we have been looking to find the first greatest element traversing from the end of the array to the current index. We can see that we are trying to find the first greatest element again and again for each element in the array. Let’s say we have an array with us for example [1, 5, 12, 4, 9] now we know that 9 is the element which is greater than 1, 5, and 4 but why do we need to find that again and again. We can actually keep a track of the maximum number moving from the end to the start of the array. The approach will help us understand better and also this improvisation is great to come up within an interview.
Approach :

1. Traverse the array from the end and keep a track of the maximum number to the right of the current index including self
2. Now we have a monotonous decreasing array, and we know we can use binary search to find the index of the rightmost greater element
3. Now we will just use binary search for each of the elements in the array and store the maximum difference of the indices and that’s it we are done.
 `/* For a given array arr[], calculates the maximum j – i such that` `    ``arr[j] > arr[i] */` `#include ` `using` `namespace` `std;`   `int` `main()` `{` `    ``vector<``long` `long` `int``> v{ 34, 8, 10, 3, 2, 80, 30, 33, 1 };` `    ``int` `n = v.size();` `    ``vector<``long` `long` `int``> maxFromEnd(n + 1, INT_MIN);`   `    ``// create an array maxfromEnd` `    ``for` `(``int` `i = v.size() - 1; i >= 0; i--) {` `        ``maxFromEnd[i] = max(maxFromEnd[i + 1], v[i]);` `    ``}`   `    ``int` `result = 0;`   `    ``for` `(``int` `i = 0; i < v.size(); i++) {` `        ``int` `low = i + 1, high = v.size() - 1, ans = i;`   `        ``while` `(low <= high) {` `            ``int` `mid = (low + high) / 2;`   `            ``if` `(v[i] <= maxFromEnd[mid]) {` `                ``// we store this as current answer and look` `                ``// for further larger number to the right side` `                ``ans = max(ans, mid);` `                ``low = mid + 1;` `            ``}` `            ``else` `{` `                ``high = mid - 1;` `            ``}` `        ``}` `        ``// keeping a track of the` `        ``// maximum difference in indices` `        ``result = max(result, ans - i);` `    ``}` `    ``cout << result << endl;` `}`

 `// Java program to implement` `// the above approach`   `// For a given array arr[], ` `// calculates the maximum j – i ` `// such that arr[j] > arr[i] ` `import` `java.util.*;` `class` `GFG{`   `public` `static` `void` `main(String[] args)` `{` `  ``int` `[]v = {``34``, ``8``, ``10``, ``3``, ``2``, ` `             ``80``, ``30``, ``33``, ``1``};` `  ``int` `n = v.length;` `  ``int` `[]maxFromEnd = ``new` `int``[n + ``1``];` `  ``Arrays.fill(maxFromEnd, Integer.MIN_VALUE);`   `  ``// Create an array maxfromEnd` `  ``for` `(``int` `i = v.length - ``1``; i >= ``0``; i--) ` `  ``{` `    ``maxFromEnd[i] = Math.max(maxFromEnd[i + ``1``], ` `                             ``v[i]);` `  ``}`   `  ``int` `result = ``0``;`   `  ``for` `(``int` `i = ``0``; i < v.length; i++) ` `  ``{` `    ``int` `low = i + ``1``, high = v.length - ``1``, ` `        ``ans = i;`   `    ``while` `(low <= high) ` `    ``{` `      ``int` `mid = (low + high) / ``2``;`   `      ``if` `(v[i] <= maxFromEnd[mid]) ` `      ``{` `        ``// We store this as current ` `        ``// answer and look for further ` `        ``// larger number to the right side` `        ``ans = Math.max(ans, mid);` `        ``low = mid + ``1``;` `      ``}` `      ``else` `      ``{` `        ``high = mid - ``1``;` `      ``}` `    ``}` `    `  `    ``// Keeping a track of the` `    ``// maximum difference in indices` `    ``result = Math.max(result, ans - i);` `  ``}` `  ``System.out.print(result + ``"\n"``);` `}` `}`   `// This code is contributed by shikhasingrajput`

 `# Python3 program to implement` `# the above approach`   `# For a given array arr, ` `# calculates the maximum j – i ` `# such that arr[j] > arr[i] `   `# Driver code` `if` `__name__ ``=``=` `'__main__'``:` `  `  `    ``v ``=` `[``34``, ``8``, ``10``, ``3``, ` `         ``2``, ``80``, ``30``, ``33``, ``1``];` `    ``n ``=` `len``(v);` `    ``maxFromEnd ``=` `[``-``38749432``] ``*` `(n ``+` `1``);`   `    ``# Create an array maxfromEnd` `    ``for` `i ``in` `range``(n ``-` `1``, ``0``, ``-``1``):` `        ``maxFromEnd[i] ``=` `max``(maxFromEnd[i ``+` `1``], ` `                            ``v[i]);`   `    ``result ``=` `0``;`   `    ``for` `i ``in` `range``(``0``, n):` `        ``low ``=` `i ``+` `1``; high ``=` `n ``-` `1``; ans ``=` `i;`   `        ``while` `(low <``=` `high):` `            ``mid ``=` `int``((low ``+` `high) ``/` `2``);`   `            ``if` `(v[i] <``=` `maxFromEnd[mid]):` `              `  `                ``# We store this as current` `                ``# answer and look for further` `                ``# larger number to the right side` `                ``ans ``=` `max``(ans, mid);` `                ``low ``=` `mid ``+` `1``;` `            ``else``:` `                ``high ``=` `mid ``-` `1``;        `   `        ``# Keeping a track of the` `        ``# maximum difference in indices` `        ``result ``=` `max``(result, ans ``-` `i);` `    `  `    ``print``(result, end ``=` `"");` `    `  `# This code is contributed by Rajput-Ji`

 `// C# program to implement` `// the above approach`   `// For a given array []arr, ` `// calculates the maximum j – i ` `// such that arr[j] > arr[i] ` `using` `System;` `class` `GFG{`   `public` `static` `void` `Main(String[] args)` `{` `  ``int` `[]v = {34, 8, 10, 3, 2, ` `             ``80, 30, 33, 1};` `  ``int` `n = v.Length;` `  ``int` `[]maxFromEnd = ``new` `int``[n + 1];` `  `  `  ``for` `(``int` `i = 0; ` `           ``i < maxFromEnd.Length; i++) ` `    ``maxFromEnd[i] = ``int``.MinValue;`   `  ``// Create an array maxfromEnd` `  ``for` `(``int` `i = v.Length - 1; ` `           ``i >= 0; i--) ` `  ``{` `    ``maxFromEnd[i] = Math.Max(maxFromEnd[i + 1], ` `                             ``v[i]);` `  ``}`   `  ``int` `result = 0;`   `  ``for` `(``int` `i = 0; i < v.Length; i++) ` `  ``{` `    ``int` `low = i + 1, ` `        ``high = v.Length - 1, ` `    ``ans = i;`   `    ``while` `(low <= high) ` `    ``{` `      ``int` `mid = (low + high) / 2;`   `      ``if` `(v[i] <= maxFromEnd[mid]) ` `      ``{` `        ``// We store this as current ` `        ``// answer and look for further ` `        ``// larger number to the right side` `        ``ans = Math.Max(ans, mid);` `        ``low = mid + 1;` `      ``}` `      ``else` `      ``{` `        ``high = mid - 1;` `      ``}` `    ``}`   `    ``// Keeping a track of the` `    ``// maximum difference in indices` `    ``result = Math.Max(result, ans - i);` `  ``}` `  ``Console.Write(result + ``"\n"``);` `}` `}`   `// This code is contributed by shikhasingrajput`

Output:

```6

```

Time complexity : O(N*log(N))
Space complexity : O(N)
Method 3 O(nLgn)
Use hashing and sorting to solve this problem in less than quadratic complexity after taking special care of the duplicates.
Approach :

1. Traverse the array and store the index of each element in a list (to handle duplicates).
2. Sort the array.
3. Now traverse the array and keep track of the maximum difference of i and j.
4. For j consider the last index from the list of possible index of the element and for i consider the first index from the list. (As the index were appended in ascending order).
5. Keep updating the max difference till the end of the array.
 `# Python3 implementation of the above approach` `n ``=` `9` `a ``=` `[``34``, ``8``, ``10``, ``3``, ``2``, ``80``, ``30``, ``33``, ``1``]`   `# To store the index of an element.` `index ``=` `dict``() ` `for` `i ``in` `range``(n):` `    ``if` `a[i] ``in` `index:`   `        ``# append to list (for duplicates)` `        ``index[a[i]].append(i)  ` `    ``else``:`   `        ``# if first occurrence` `        ``index[a[i]] ``=` `[i]   `   `# sort the input array` `a.sort()     ` `maxDiff ``=` `0`   `# Temporary variable to keep track of minimum i` `temp ``=` `n     ` `for` `i ``in` `range``(n):` `    ``if` `temp > index[a[i]][``0``]:` `        ``temp ``=` `index[a[i]][``0``]` `    ``maxDiff ``=` `max``(maxDiff, index[a[i]][``-``1``]``-``temp)`   `print``(maxDiff)`

Output:
```6

```

Time complexity : O(N*log(N))
Method 4 (Efficient)
To solve this problem, we need to get two optimum indexes of arr[]: left index i and right index j. For an element arr[i], we do not need to consider arr[i] for left index if there is an element smaller than arr[i] on left side of arr[i]. Similarly, if there is a greater element on right side of arr[j] then we do not need to consider this j for right index. So we construct two auxiliary arrays LMin[] and RMax[] such that LMin[i] holds the smallest element on left side of arr[i] including arr[i], and RMax[j] holds the greatest element on right side of arr[j] including arr[j]. After constructing these two auxiliary arrays, we traverse both of these arrays from left to right. While traversing LMin[] and RMa[] if we see that LMin[i] is greater than RMax[j], then we must move ahead in LMin[] (or do i++) because all elements on left of LMin[i] are greater than or equal to LMin[i]. Otherwise we must move ahead in RMax[j] to look for a greater j – i value.
Thanks to celicom for suggesting the algorithm for this method.

 `#include ` `using` `namespace` `std;`   `/* For a given array arr[],  ` `   ``returns the maximum j – i such that` `   ``arr[j] > arr[i] */` `int` `maxIndexDiff(``int` `arr[], ``int` `n)` `{` `    ``int` `maxDiff;` `    ``int` `i, j;`   `    ``int``* LMin = ``new` `int``[(``sizeof``(``int``) * n)];` `    ``int``* RMax = ``new` `int``[(``sizeof``(``int``) * n)];`   `    ``/* Construct LMin[] such that ` `    ``LMin[i] stores the minimum value ` `    ``from (arr[0], arr[1], ... arr[i]) */` `    ``LMin[0] = arr[0];` `    ``for` `(i = 1; i < n; ++i)` `        ``LMin[i] = min(arr[i], LMin[i - 1]);`   `    ``/* Construct RMax[] such that ` `    ``RMax[j] stores the maximum value from ` `    ``(arr[j], arr[j+1], ..arr[n-1]) */` `    ``RMax[n - 1] = arr[n - 1];` `    ``for` `(j = n - 2; j >= 0; --j)` `        ``RMax[j] = max(arr[j], RMax[j + 1]);`   `    ``/* Traverse both arrays from left to right` `    ``to find optimum j - i. This process is similar to ` `    ``merge() of MergeSort */` `    ``i = 0, j = 0, maxDiff = -1;` `    ``while` `(j < n && i < n) {` `        ``if` `(LMin[i] < RMax[j]) {` `            ``maxDiff = max(maxDiff, j - i);` `            ``j = j + 1;` `        ``}` `        ``else` `            ``i = i + 1;` `    ``}`   `    ``return` `maxDiff;` `}`   `// Driver Code` `int` `main()` `{` `    ``int` `arr[] = { 9, 2, 3, 4, 5,` `                  ``6, 7, 8, 18, 0 };` `    ``int` `n = ``sizeof``(arr) / ``sizeof``(arr[0]);` `    ``int` `maxDiff = maxIndexDiff(arr, n);` `    ``cout << maxDiff;` `    ``return` `0;` `}`   `// This code is contributed by rathbhupendra`

 `#include `   `/* Utility Functions to get max and minimum of two integers */` `int` `max(``int` `x, ``int` `y)` `{` `    ``return` `x > y ? x : y;` `}`   `int` `min(``int` `x, ``int` `y)` `{` `    ``return` `x < y ? x : y;` `}`   `/* For a given array arr[], returns the maximum j – i such that` `    ``arr[j] > arr[i] */` `int` `maxIndexDiff(``int` `arr[], ``int` `n)` `{` `    ``int` `maxDiff;` `    ``int` `i, j;`   `    ``int``* LMin = (``int``*)``malloc``(``sizeof``(``int``) * n);` `    ``int``* RMax = (``int``*)``malloc``(``sizeof``(``int``) * n);`   `    ``/* Construct LMin[] such that LMin[i] stores the minimum value` `       ``from (arr[0], arr[1], ... arr[i]) */` `    ``LMin[0] = arr[0];` `    ``for` `(i = 1; i < n; ++i)` `        ``LMin[i] = min(arr[i], LMin[i - 1]);`   `    ``/* Construct RMax[] such that RMax[j] stores the maximum value` `       ``from (arr[j], arr[j+1], ..arr[n-1]) */` `    ``RMax[n - 1] = arr[n - 1];` `    ``for` `(j = n - 2; j >= 0; --j)` `        ``RMax[j] = max(arr[j], RMax[j + 1]);`   `    ``/* Traverse both arrays from left to right to find optimum j - i` `        ``This process is similar to merge() of MergeSort */` `    ``i = 0, j = 0, maxDiff = -1;` `    ``while` `(j < n && i < n) {` `        ``if` `(LMin[i] < RMax[j]) {` `            ``maxDiff = max(maxDiff, j - i);` `            ``j = j + 1;` `        ``}` `        ``else` `            ``i = i + 1;` `    ``}`   `    ``return` `maxDiff;` `}`   `/* Driver program to test above functions */` `int` `main()` `{` `    ``int` `arr[] = { 9, 2, 3, 4, 5, 6, 7, 8, 18, 0 };` `    ``int` `n = ``sizeof``(arr) / ``sizeof``(arr[0]);` `    ``int` `maxDiff = maxIndexDiff(arr, n);` `    ``printf``(``"\n %d"``, maxDiff);` `    ``getchar``();` `    ``return` `0;` `}`

 `class` `FindMaximum {` `    ``/* Utility Functions to get max and minimum of two integers */` `    ``int` `max(``int` `x, ``int` `y)` `    ``{` `        ``return` `x > y ? x : y;` `    ``}`   `    ``int` `min(``int` `x, ``int` `y)` `    ``{` `        ``return` `x < y ? x : y;` `    ``}`   `    ``/* For a given array arr[], returns the maximum j-i such that` `       ``arr[j] > arr[i] */` `    ``int` `maxIndexDiff(``int` `arr[], ``int` `n)` `    ``{` `        ``int` `maxDiff;` `        ``int` `i, j;`   `        ``int` `RMax[] = ``new` `int``[n];` `        ``int` `LMin[] = ``new` `int``[n];`   `        ``/* Construct LMin[] such that LMin[i] stores the minimum value` `           ``from (arr[0], arr[1], ... arr[i]) */` `        ``LMin[``0``] = arr[``0``];` `        ``for` `(i = ``1``; i < n; ++i)` `            ``LMin[i] = min(arr[i], LMin[i - ``1``]);`   `        ``/* Construct RMax[] such that RMax[j] stores the maximum value` `           ``from (arr[j], arr[j+1], ..arr[n-1]) */` `        ``RMax[n - ``1``] = arr[n - ``1``];` `        ``for` `(j = n - ``2``; j >= ``0``; --j)` `            ``RMax[j] = max(arr[j], RMax[j + ``1``]);`   `        ``/* Traverse both arrays from left to right to find optimum j - i` `           ``This process is similar to merge() of MergeSort */` `        ``i = ``0``;` `        ``j = ``0``;` `        ``maxDiff = -``1``;` `        ``while` `(j < n && i < n) {` `            ``if` `(LMin[i] < RMax[j]) {` `                ``maxDiff = max(maxDiff, j - i);` `                ``j = j + ``1``;` `            ``}` `            ``else` `                ``i = i + ``1``;` `        ``}`   `        ``return` `maxDiff;` `    ``}`   `    ``/* Driver program to test the above functions */` `    ``public` `static` `void` `main(String[] args)` `    ``{` `        ``FindMaximum max = ``new` `FindMaximum();` `        ``int` `arr[] = { ``9``, ``2``, ``3``, ``4``, ``5``, ``6``, ``7``, ``8``, ``18``, ``0` `};` `        ``int` `n = arr.length;` `        ``int` `maxDiff = max.maxIndexDiff(arr, n);` `        ``System.out.println(maxDiff);` `    ``}` `}`

 `# Utility Functions to get max` `# and minimum of two integers ` `def` `max``(a, b):` `    ``if``(a > b):` `        ``return` `a` `    ``else``:` `        ``return` `b`   `def` `min``(a, b):` `    ``if``(a < b):` `        ``return` `a` `    ``else``:` `        ``return` `b`   `# For a given array arr[], ` `# returns the maximum j - i` `# such that arr[j] > arr[i]` `def` `maxIndexDiff(arr, n):` `    ``maxDiff ``=` `0``;` `    ``LMin ``=` `[``0``] ``*` `n` `    ``RMax ``=` `[``0``] ``*` `n`   `    ``# Construct LMin[] such that ` `    ``# LMin[i] stores the minimum ` `    ``# value from (arr[0], arr[1], ` `    ``# ... arr[i]) ` `    ``LMin[``0``] ``=` `arr[``0``]` `    ``for` `i ``in` `range``(``1``, n):` `        ``LMin[i] ``=` `min``(arr[i], LMin[i ``-` `1``])`   `    ``# Construct RMax[] such that ` `    ``# RMax[j] stores the maximum ` `    ``# value from (arr[j], arr[j + 1],` `    ``# ..arr[n-1]) ` `    ``RMax[n ``-` `1``] ``=` `arr[n ``-` `1``]` `    ``for` `j ``in` `range``(n ``-` `2``, ``-``1``, ``-``1``):` `        ``RMax[j] ``=` `max``(arr[j], RMax[j ``+` `1``]);`   `    ``# Traverse both arrays from left` `    ``# to right to find optimum j - i` `    ``# This process is similar to` `    ``# merge() of MergeSort` `    ``i, j ``=` `0``, ``0` `    ``maxDiff ``=` `-``1` `    ``while` `(j < n ``and` `i < n):` `        ``if` `(LMin[i] < RMax[j]):` `            ``maxDiff ``=` `max``(maxDiff, j ``-` `i)` `            ``j ``=` `j ``+` `1` `        ``else``:` `            ``i ``=` `i ``+` `1`   `    ``return` `maxDiff`   `# Driver Code` `if``(__name__ ``=``=` `'__main__'``):` `    ``arr ``=` `[``9``, ``2``, ``3``, ``4``, ``5``, ` `           ``6``, ``7``, ``8``, ``18``, ``0``]` `    ``n ``=` `len``(arr)` `    ``maxDiff ``=` `maxIndexDiff(arr, n)` `    ``print` `(maxDiff)`   `# This code is contributed ` `# by gautam karakoti`

 `// C# program to find the maximum` `// j – i such that arr[j] > arr[i]` `using` `System;`   `class` `GFG {` `    ``// Utility Functions to get max` `    ``// and minimum of two integers` `    ``static` `int` `max(``int` `x, ``int` `y)` `    ``{` `        ``return` `x > y ? x : y;` `    ``}`   `    ``static` `int` `min(``int` `x, ``int` `y)` `    ``{` `        ``return` `x < y ? x : y;` `    ``}`   `    ``// For a given array arr[], returns` `    ``// the maximum j-i such thatarr[j] > arr[i]` `    ``static` `int` `maxIndexDiff(``int``[] arr, ``int` `n)` `    ``{` `        ``int` `maxDiff;` `        ``int` `i, j;`   `        ``int``[] RMax = ``new` `int``[n];` `        ``int``[] LMin = ``new` `int``[n];`   `        ``// Construct LMin[] such that LMin[i]` `        ``// stores the minimum value` `        ``// from (arr[0], arr[1], ... arr[i])` `        ``LMin[0] = arr[0];` `        ``for` `(i = 1; i < n; ++i)` `            ``LMin[i] = min(arr[i], LMin[i - 1]);`   `        ``// Construct RMax[] such that` `        ``// RMax[j] stores the maximum value` `        ``// from (arr[j], arr[j+1], ..arr[n-1])` `        ``RMax[n - 1] = arr[n - 1];` `        ``for` `(j = n - 2; j >= 0; --j)` `            ``RMax[j] = max(arr[j], RMax[j + 1]);`   `        ``// Traverse both arrays from left` `        ``// to right to find optimum j - i` `        ``// This process is similar to merge()` `        ``// of MergeSort` `        ``i = 0;` `        ``j = 0;` `        ``maxDiff = -1;` `        ``while` `(j < n && i < n) {` `            ``if` `(LMin[i] < RMax[j]) {` `                ``maxDiff = max(maxDiff, j - i);` `                ``j = j + 1;` `            ``}` `            ``else` `                ``i = i + 1;` `        ``}`   `        ``return` `maxDiff;` `    ``}`   `    ``// Driver program` `    ``public` `static` `void` `Main()` `    ``{`   `        ``int``[] arr = { 9, 2, 3, 4, 5, 6, 7, 8, 18, 0 };` `        ``int` `n = arr.Length;` `        ``int` `maxDiff = maxIndexDiff(arr, n);` `        ``Console.Write(maxDiff);` `    ``}` `}` `// This Code is Contributed by Sam007`

 ` arr[i]`   `// For a given array arr[], ` `// returns the maximum j - i` `// such that arr[j] > arr[i]` `function` `maxIndexDiff(``\$arr``, ``\$n``)` `{` `    ``\$maxDiff` `= 0;` `    ``\$LMin` `= ``array_fill``(0, ``\$n``, NULL);` `    ``\$RMax` `= ``array_fill``(0, ``\$n``, NULL);`   `    ``// Construct LMin[] such that ` `    ``// LMin[i] stores the minimum ` `    ``// value from (arr[0], arr[1], ` `    ``// ... arr[i]) ` `    ``\$LMin``[0] = ``\$arr``[0];` `    ``for``(``\$i` `= 1; ``\$i` `< ``\$n``; ``\$i``++)` `        ``\$LMin``[``\$i``] = min(``\$arr``[``\$i``], ` `                        ``\$LMin``[``\$i` `- 1]);`   `    ``// Construct RMax[] such that ` `    ``// RMax[j] stores the maximum ` `    ``// value from (arr[j], arr[j+1],` `    ``// ..arr[n-1]) ` `    ``\$RMax``[``\$n` `- 1] = ``\$arr``[``\$n` `- 1];` `    ``for``(``\$j` `= ``\$n` `- 2; ``\$j` `>= 0; ``\$j``--)` `        ``\$RMax``[``\$j``] = max(``\$arr``[``\$j``], ` `                        ``\$RMax``[``\$j` `+ 1]);`   `    ``// Traverse both arrays from left` `    ``// to right to find optimum j - i` `    ``// This process is similar to` `    ``// merge() of MergeSort` `    ``\$i` `= 0;` `    ``\$j` `= 0;` `    ``\$maxDiff` `= -1;` `    ``while` `(``\$j` `< ``\$n` `&& ``\$i` `< ``\$n``)` `        ``if` `(``\$LMin``[``\$i``] < ``\$RMax``[``\$j``])` `        ``{` `            ``\$maxDiff` `= max(``\$maxDiff``, ``\$j` `- ``\$i``);` `            ``\$j` `= ``\$j` `+ 1;` `        ``}` `        ``else` `            ``\$i` `= ``\$i` `+ 1;`   `    ``return` `\$maxDiff``;` `} `   `// Driver Code` `\$arr` `= ``array``(9, 2, 3, 4, 5, ` `             ``6, 7, 8, 18, 0);` `\$n` `= sizeof(``\$arr``);` `\$maxDiff` `= maxIndexDiff(``\$arr``, ``\$n``);` `echo` `\$maxDiff``;`   `// This code is contributed ` `// by ChitraNayal` `?>`

Output:
```8

```

Time Complexity: O(n)
Auxiliary Space: O(n)