We a given a weighted N*N grid W. Two robots r1,r2 start from top left and top right corners respectively. R1 has to reach to the bottom right and R2 the bottom left corners. Here are the valid moves.
- R1 moves one square down, R2 moves one square left.
- R1 moves one square right, R2 moves one square down.
They must move in such a way that the sum of the weights of the squares they visit (including the starting and ending square) is maximized.
For Examples, if the grid is:
6 0 3 1 7 4 2 4 3 3 2 8 13 10 1 4
In this example, if R1 follows the path marked by * and R2 follows the path marked by ^, as shown below, their combined score is 56.
6* 0 3^ -1^ 7* 4*^ 2^ 4 -3 3*^ -2* 8* 13^ 10^ -1 -4*
It can be verifyed that this is the best combined score that can be achieved for this grid.
We cannot solve this by recursion as N <= 2500 and the time limit is 2 seconds.
If the problem had only one robot, we could solve this by using dynamic programming.
I tried using a similar approach for this problem;
We have two extra N*N grids G1,G2,
for i from 1 to N: for j from 1 to N and K from N down to 1: if (G1[i-1][j] + G2[i][k+1]) > (G1[i][j-1] + G2[i-1][k]): G1[i][j] = G1[i-1][j] + W[i][j] G2[i][k] = G2[i][k+1] + W[i][k] else: G1[i][j] = G1[i][j-1] + W[i][j] G2[i][k] = G2[i-1][k] + W[i][k] return G1[N][N] + G2[N]
but this gives a wrong answer. I am not able to understand what is wrong with my algorithm, because for each square it is calculating the max weighted path to rech there.
Can anyone tell me what is wrong with my method and how can i correct it to get the correct answer?