Sum of Areas of Rectangles possible for an array
Given an array, the task is to compute the sum of all possible maximum area rectangles which can be formed from the array elements. Also, you can reduce the elements of the array by at most 1.
Examples:
Input: a = {10, 10, 10, 10, 11,
10, 11, 10}
Output: 210
Explanation:
We can form two rectangles one square (10 * 10)
and one (11 * 10). Hence, total area = 100 + 110 = 210.
Input: a = { 3, 4, 5, 6 }
Output: 15
Explanation:
We can reduce 4 to 3 and 6 to 5 so that we got
rectangle of (3 * 5). Hence area = 15.
Input: a = { 3, 2, 5, 2 }
Output: 0
Naive Approach: Check for all possible four elements of the array and then whichever can form a rectangle. In these rectangles, separate all those rectangles which are of the maximum area formed by these elements. After getting the rectangles and their areas, sum them all to get our desired solution.
Efficient Approach: To get the maximum area rectangle, first sort the elements of the array in the non-increasing array. After sorting, start the procedure to select the elements of the array. Here, selection of two elements of array (as length of rectangle) is possible if elements of array are equal (a[i] == a[i+1]) or if length of smaller element a[i+1] is one less than a[i] (in this case we have our length a[i+1] because a[i] is decreased by 1). One flag variable is maintained to check that whether we get length and breadth both. After getting the length, set the flag variable, now calculate the breadth in the same way as we have done for length, and sum the area of the rectangle. After getting length and breadth both, again set the flag variable false so that we will now search for a new rectangle. This process is repeated and lastly, the final sum of the area is returned.
C++
// CPP code to find sum of all// area rectangle possible#include <bits/stdc++.h>using namespace std;// Function to find // area of rectanglesint MaxTotalRectangleArea(int a[], int n){ // sorting the array in // descending order sort(a, a + n, greater<int>()); // store the final sum of // all the rectangles area // possible int sum = 0; bool flag = false; // temporary variable to store // the length of rectangle int len; for (int i = 0; i < n; i++) { // Selecting the length of // rectangle so that difference // between any two number is 1 // only. Here length is selected // so flag is set if ((a[i] == a[i + 1] || a[i] - a[i + 1] == 1) && (!flag)) { // flag is set means // we have got length of // rectangle flag = true; // length is set to // a[i+1] so that if // a[i] a[i+1] is less // than by 1 then also // we have the correct // choice for length len = a[i + 1]; // incrementing the counter // one time more as we have // considered a[i+1] element // also so. i++; } // Selecting the width of rectangle // so that difference between any // two number is 1 only. Here width // is selected so now flag is again // unset for next rectangle else if ((a[i] == a[i + 1] || a[i] - a[i + 1] == 1) && (flag)) { // area is calculated for // rectangle sum = sum + a[i + 1] * len; // flag is set false // for another rectangle // which we can get from // elements in array flag = false; // incrementing the counter // one time more as we have // considered a[i+1] element // also so. i++; } } return sum;}// Driver codeint main(){ int a[] = { 10, 10, 10, 10, 11, 10, 11, 10, 9, 9, 8, 8 }; int n = sizeof(a) / sizeof(a[0]); cout << MaxTotalRectangleArea(a, n); return 0;} |
Java
// Java code to find sum of // all area rectangle possibleimport java.io.*;import java.util.Arrays;import java.util.*;class GFG { // Function to find // area of rectangles static int MaxTotalRectangleArea(Integer []a, int n) { // sorting the array in // descending order Arrays.sort(a, Collections.reverseOrder()); // store the final sum of // all the rectangles area // possible int sum = 0; boolean flag = false; // temporary variable to // store the length of rectangle int len = 0; for (int i = 0; i < n; i++) { // Selecting the length of // rectangle so that difference // between any two number is 1 // only. Here length is selected // so flag is set if ((a[i] == a[i + 1] || a[i] - a[i+1] == 1) && !flag) { // flag is set means // we have got length of // rectangle flag = true; // length is set to // a[i+1] so that if // a[i] a[i+1] is less // than by 1 then also // we have the correct // choice for length len = a[i+1]; // incrementing the counter // one time more as we have // considered a[i+1] element // also so. i++; } // Selecting the width of rectangle // so that difference between any // two number is 1 only. Here width // is selected so now flag is again // unset for next rectangle else if ((a[i] == a[i + 1] || a[i] - a[i+1] == 1) && (flag)) { // area is calculated for // rectangle sum = sum + a[i+1] * len; // flag is set false // for another rectangle // which we can get from // elements in array flag = false; // incrementing the counter // one time more as we have // considered a[i+1] element // also so. i++; } } return sum; } // Driver code public static void main (String args[]) { Integer []a = { 10, 10, 10, 10, 11, 10, 11, 10, 9, 9, 8, 8 }; int n = a.length; System.out.print(MaxTotalRectangleArea(a, n)); }}// This code is contributed by // Manish Shaw(manishshaw1) |
Python3
# Python3 code to find sum # of all area rectangle# possible# Function to find # area of rectanglesdef MaxTotalRectangleArea(a, n) : # sorting the array in # descending order a.sort(reverse = True) # store the final sum of # all the rectangles area # possible sum = 0 flag = False # temporary variable to store # the length of rectangle len = 0 i = 0 while (i < n-1) : if(i != 0) : i = i + 1 # Selecting the length of # rectangle so that difference # between any two number is 1 # only. Here length is selected # so flag is set if ((a[i] == a[i + 1] or a[i] - a[i + 1] == 1) and flag == False) : # flag is set means # we have got length of # rectangle flag = True # length is set to # a[i+1] so that if # a[i+1] is less than a[i] # by 1 then also we have # the correct choice for length len = a[i + 1] # incrementing the counter # one time more as we have # considered a[i+1] element # also so. i = i + 1 # Selecting the width of rectangle # so that difference between any # two number is 1 only. Here width # is selected so now flag is again # unset for next rectangle elif ((a[i] == a[i + 1] or a[i] - a[i + 1] == 1) and flag == True) : # area is calculated for # rectangle sum = sum + a[i + 1] * len # flag is set false # for another rectangle # which we can get from # elements in array flag = False # incrementing the counter # one time more as we have # considered a[i+1] element # also so. i = i + 1 return sum# Driver codea = [ 10, 10, 10, 10, 11, 10, 11, 10, 9, 9, 8, 8 ]n = len(a)print (MaxTotalRectangleArea(a, n))# This code is contributed by# Manish Shaw (manishshaw1) |
C#
// C# code to find sum of all area rectangle// possibleusing System;class GFG { // Function to find // area of rectangles static int MaxTotalRectangleArea(int []a, int n) { // sorting the array in descending // order Array.Sort(a); Array.Reverse(a); // store the final sum of all the // rectangles area possible int sum = 0; bool flag = false; // temporary variable to store the // length of rectangle int len =0; for (int i = 0; i < n; i++) { // Selecting the length of // rectangle so that difference // between any two number is 1 // only. Here length is selected // so flag is set if ((a[i] == a[i + 1] || a[i] - a[i + 1] == 1) && (!flag)) { // flag is set means // we have got length of // rectangle flag = true; // length is set to // a[i+1] so that if // a[i] a[i+1] is less // than by 1 then also // we have the correct // choice for length len = a[i + 1]; // incrementing the counter // one time more as we have // considered a[i+1] element // also so. i++; } // Selecting the width of rectangle // so that difference between any // two number is 1 only. Here width // is selected so now flag is again // unset for next rectangle else if ((a[i] == a[i + 1] || a[i] - a[i + 1] == 1) && (flag)) { // area is calculated for // rectangle sum = sum + a[i + 1] * len; // flag is set false // for another rectangle // which we can get from // elements in array flag = false; // incrementing the counter // one time more as we have // considered a[i+1] element // also so. i++; } } return sum; } // Driver code static public void Main () { int []a = { 10, 10, 10, 10, 11, 10, 11, 10, 9, 9, 8, 8 }; int n = a.Length; Console.WriteLine( MaxTotalRectangleArea(a, n)); }}// This code is contributed by anuj_67. |
PHP
<?php// PHP code to find sum // of all area rectangle// possible// Function to find // area of rectanglesfunction MaxTotalRectangleArea( $a, $n){ // sorting the array in // descending order rsort($a); // store the final sum of // all the rectangles area // possible $sum = 0; $flag = false; // temporary variable to store // the length of rectangle $len; for ( $i = 0; $i < $n; $i++) { // Selecting the length of // rectangle so that difference // between any two number is 1 // only. Here length is selected // so flag is set if (($a[$i] == $a[$i + 1] or $a[$i] - $a[$i + 1] == 1) and (!$flag)) { // flag is set means // we have got length of // rectangle $flag = true; // length is set to // a[i+1] so that if // a[i+1] is less than a[i] // by 1 then also we have // the correct choice for length $len = $a[$i + 1]; // incrementing the counter // one time more as we have // considered a[i+1] element // also so. $i++; } // Selecting the width of rectangle // so that difference between any // two number is 1 only. Here width // is selected so now flag is again // unset for next rectangle else if (($a[$i] == $a[$i + 1] or $a[$i] - $a[$i + 1] == 1) and ($flag)) { // area is calculated for // rectangle $sum = $sum + $a[$i + 1] * $len; // flag is set false // for another rectangle // which we can get from // elements in array $flag = false; // incrementing the counter // one time more as we have // considered a[i+1] element // also so. $i++; } } return $sum;}// Driver code$a = array( 10, 10, 10, 10, 11, 10, 11, 10, 9, 9, 8, 8 );$n = count($a);echo MaxTotalRectangleArea($a, $n);//This code is contributed by anuj_67.?> |
Javascript
<script>// Javascript code to find sum of all// area rectangle possible// Function to find // area of rectanglesfunction MaxTotalRectangleArea( a, n){ // sorting the array in // descending order a.sort(); a.reverse(); // store the final sum of // all the rectangles area // possible let sum = 0; let flag = false; // temporary variable to store // the length of rectangle let len; for (let i = 0; i < n; i++) { // Selecting the length of // rectangle so that difference // between any two number is 1 // only. Here length is selected // so flag is set if ((a[i] == a[i + 1] || a[i] - a[i + 1] == 1) && (!flag)) { // flag is set means // we have got length of // rectangle flag = true; // length is set to // a[i+1] so that if // a[i] a[i+1] is less // than by 1 then also // we have the correct // choice for length len = a[i + 1]; // incrementing the counter // one time more as we have // considered a[i+1] element // also so. i++; } // Selecting the width of rectangle // so that difference between any // two number is 1 only. Here width // is selected so now flag is again // unset for next rectangle else if ((a[i] == a[i + 1] || a[i] - a[i + 1] == 1) && (flag)) { // area is calculated for // rectangle sum = sum + a[i + 1] * len; // flag is set false // for another rectangle // which we can get from // elements in array flag = false; // incrementing the counter // one time more as we have // considered a[i+1] element // also so. i++; } } return sum;}// Driver Codelet a = [ 10, 10, 10, 10, 11, 10, 11, 10, 9, 9, 8, 8 ];let n = a.length; document.write(MaxTotalRectangleArea(a, n));</script> |
Output
282
Time Complexity: O(nlog(n))
Auxiliary Space: O(1)
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