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I tried to find an algorithm for the following problem, but not able to get the complete solution.

In a matrix of size (100,100), each value can be -- 0 - Open, 1 - Blocked, 2 - Open with a gold coin,

No. of gold coins can be between 0 to 10 in the matrix.

A is at start position (0,0) and B is at position (m,n) in the matrix.

The task is to find the shortest path A can follow to collect all gold coins and deliver them to B. A can move Noth, South, East or West.

Below is the code which I tried (maze is the matrix, B is the position of B)--

def democode(maze, B):
 #with some initialization over here 
  while len(queue) != 0:
    i,j=queue.pop(0)
    result+=1 
    for m,n in getneighbors(i,j):
        if (0<=m<rows) and (0<=n<cols):
            if m == B[0] and n == B[1]:
                break
            if maze[m][n] != 1 and visited[m][n] == 0:
                queue.append((m,n))
                visited[m][n] = 1

return result

This solution does not consider the issue of ensuring that A collect all the gold coins before reaching B. Need some suggestions on improving this code to cover all the scenarios.

  • Please provide a smaller example of your matrix! – Devesh Kumar Singh May 6 at 10:37
  • 1
    Hope you are not looking for an efficient solution, since your problem is an instance of the Traveling Salesman – SaiBot May 6 at 10:38
  • Please specify how many gold coins can be there in the matrix? – BishalG May 6 at 10:39
  • @DeveshKumarSingh , Example :- democode([[0,2,1],[1,2,0],[1,0,0]], (2,2)) , result = 4 – STforever May 6 at 12:25
  • @BishalGautam , no. of gold coins can be between 0 and 10 – STforever May 6 at 12:26

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