Maximum Sum possible by selecting X elements from a Matrix based on given conditions

Given a matrix G[][] of dimensions N × M, consists of positive integers, the task is to select X elements from the matrix having maximum sum considering the condition that G[i][j] can only be selected from the matrix unless all the elements G[i][k] are selected, where 0 ? k < j i.e., the j^th element in the current i^th row can be selected all its the preceding elements of the current i^th row has already been selected.

Examples:

Input: N = 4, M = 4, X = 6, G[][] = {{3, 2, 6, 1}, {1, 9, 2, 4}, {4, 1, 3, 9}, {3, 8, 2, 1}} 
Output: 28 
Explanation: 
Selecting the first element from the 1st row = 3 
Selecting the first two elements from the 2nd row = 1 + 9 = 10 
Selecting the first element from the 3rd row = 4 
Selecting the first two elements from the 4th row = 3 + 8 = 11 
Hence, the selected elements are {G[0][0], G[1][0], G[1][1], G[2][0], G[3][0], G[3][1]} 
Hence, the sum of the selected elements is = 3 + 10 + 4 + 11 = 28

Input: N = 2, M = 4, X = 4, G[][] = {{10, 10, 100, 30}, {80, 50, 10, 50}} 
Output: 200

Naive Approach: The simplest approach to solve this problem is to calculate the sum for all possible M selections and find the maximum sum among them.

Time Complexity: O(N^M)
Auxiliary Space: O(1)

Efficient Approach: The above approach can be optimized using Dynamic Programming. The considerable states are: 

1. Number of rows selected: i.
2. Number of elements selected: j.

Initialize a matrix dp[][] such that dp[i][j] stores the maximum possible sum that can be obtained by selecting j elements from the first i rows.

The transition for the dp[][] is as follows:

dp[i][j] = max_{x=(0, min(j, m))}(dp[i – 1][j – x] + prefsum[i][x]) 
where prefsum[i][x] is the sum of the first x elements in the i^th row of the matrix.

Below is the implementation of above approach:

28

Time Complexity: O(N*M*X)
Auxiliary Space: O(N*M)