Given there are N elements in an array. The task is to remove elements from the array from left to right. However, some time is required to remove an element from the array(let us call it removal time). The time to remove an element is equal to the value of that element in seconds.
An element can only be removed when the time required to remove it(removal time) is greater than or equal to the time it waits in the array.
Note: It is allowed to change the order of elements in the array before starting to remove elements. Your task is to find the maximum number of elements which can be removed from the array.
Examples:
Input : arr[] = {6, 5, 11, 3}
Output : 3
Explanation : Let us reorder the elements in the following way:
3, 5, 6, 11
-The first element takes 3 seconds to get removed. Since it is the first element, it can be removed in 3 seconds.
-The second element waits 3 seconds in the array. This element takes 5 seconds to get removed, which is more than it’s waiting time, hence it can be removed.
-The third element waits 8 seconds in the array. This element takes 6 seconds to get removed, which is less than it’s waiting time, hence it cannot be removed and it is skipped.
-The fourth element also waits 8 seconds in the array. This element takes 11 seconds to get removed, which is more than it’s waiting time, hence it can be removed.
-Hence, a maximum of 3 elements can be removed.Input : arr[] = {5, 4, 1, 10}
Output : 4
Explanation: Let us reorder the elements in the following way:
1, 4, 5, 10
It can be observed that all of them can be removed since each element’s removal time is greater or equal to their waiting time.
The idea is to arrange all the elements in ascending order of their removal time. Start iterating from left side and maintain a cumulative sum of the removal time (which will serve as the waiting time for next element). Check at each element, if it’s removal time is greater than or equal to the cumulative time(it’s waiting time). If it is less, than it cannot be removed. If it is equal or greater, than it can be removed and add it’s removal time in cumulative sum. Proceed till the end of the array.
Below is the implementation of the above approach:
C++
// C++ code to find the maximum number of // elements that can be removed #include <bits/stdc++.h> using namespace std; // Function to find maximum number of // elements that can be removed int maxRemoval( int arr[], int n) { // it will contain frequency of // elements that can be removed int count = 0; // maintain cumulative sum of removal time int cumulative_sum = 0; // arrange elements in ascending order // of their removal time sort(arr, arr + n); for ( int i = 0; i < n; i++) { if (arr[i] >= cumulative_sum) { count++; cumulative_sum += arr[i]; } } return count; } // Driver code int main() { int arr[] = { 10, 5, 3, 7, 2 }; int n = sizeof (arr) / sizeof (arr[0]); cout << maxRemoval(arr, n); return 0; } |
Java
// Java code to find the maximum number of // elements that can be removed import java.io.*; import java.util.*; class GFG { // Function to find maximum number of // elements that can be removed static int maxRemoval( int arr[], int n) { // it will contain frequency of // elements that can be removed int count = 0 ; // maintain cumulative sum of removal time int cumulative_sum = 0 ; // arrange elements in ascending order // of their removal time Arrays.sort(arr); for ( int i = 0 ; i < n; i++) { if (arr[i] >= cumulative_sum) { count++; cumulative_sum += arr[i]; } } return count; } // Driver code public static void main (String[] args) { int arr[] = { 10 , 5 , 3 , 7 , 2 }; int n = arr.length; System.out.println(maxRemoval(arr, n)); } } // This code is contributed // by inder_verma.. |
Python3
# Python3 code to find the maximum number # of elements that can be removed # Function to find maximum number of # elements that can be removed def maxRemoval(arr, n): # It will contain frequency of # elements that can be removed count = 0 # maintain cumulative sum of # removal time cumulative_sum = 0 # arrange elements in ascending # order of their removal time arr.sort() for i in range (n): if arr[i] > = cumulative_sum: count + = 1 cumulative_sum + = arr[i] return count # Driver code if __name__ = = "__main__" : arr = [ 10 , 5 , 3 , 7 , 2 ] n = len (arr) print (maxRemoval(arr, n)) # This code is contributed by # Rituraj Jain |
C#
// C# code to find the maximum number // of elements that can be removed using System; class GFG { // Function to find maximum number // of elements that can be removed static int maxRemoval( int [] arr, int n) { // it will contain frequency of // elements that can be removed int count = 0; // maintain cumulative sum // of removal time int cumulative_sum = 0; // arrange elements in ascending // order of their removal time Array.Sort(arr); for ( int i = 0; i < n; i++) { if (arr[i] >= cumulative_sum) { count++; cumulative_sum += arr[i]; } } return count; } // Driver code public static void Main () { int [] arr = { 10, 5, 3, 7, 2 }; int n = arr.Length; Console.Write(maxRemoval(arr, n)); } } // This code is contributed // by ChitraNayal |
PHP
<?php // PHP code to find the maximum // number of elements that can // be removed // Function to find maximum number // of elements that can be removed function maxRemoval(& $arr , $n ) { // it will contain frequency of // elements that can be removed $count = 0; // maintain cumulative // sum of removal time $cumulative_sum = 0; // arrange elements in ascending // order of their removal time sort( $arr ); for ( $i = 0; $i < $n ; $i ++) { if ( $arr [ $i ] >= $cumulative_sum ) { $count ++; $cumulative_sum += $arr [ $i ]; } } return $count ; } // Driver code $arr = array (10, 5, 3, 7, 2 ); $n = sizeof( $arr ); echo (maxRemoval( $arr , $n )); // This code is contributed // by Shivi_Aggarwal ?> |
Javascript
<script> // Javascript code to find the maximum number of // elements that can be removed // Function to find maximum number of // elements that can be removed function maxRemoval(arr, n) { // it will contain frequency of // elements that can be removed var count = 0; // maintain cumulative sum of removal time var cumulative_sum = 0; // arrange elements in ascending order // of their removal time arr.sort((a,b)=> a-b); for ( var i = 0; i < n; i++) { if (arr[i] >= cumulative_sum) { count++; cumulative_sum += arr[i]; } } return count; } // Driver code var arr = [ 10, 5, 3, 7, 2 ]; var n = arr.length; document.write( maxRemoval(arr, n)); </script> |
4
Time Complexity: O(nlogn)
Auxiliary Space: O(1)
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