ソースコード

import sys
import heapq

def main():
    input = sys.stdin.read().split()
    idx = 0
    X = int(input[idx]); idx +=1
    Y = int(input[idx]); idx +=1
    N = int(input[idx]); idx +=1

    postmen = []
    for _ in range(N):
        x = int(input[idx]); idx +=1
        y = int(input[idx]); idx +=1
        v = int(input[idx]); idx +=1
        postmen.append( (x, y, v) )

    # Grid points (601 x 601)
    # Initialize the minimal time for each grid point
    INF = float('inf')
    otime = [ [ INF for _ in range(601) ] for _ in range(601) ]

    # Priority queue: (otime, x, y)
    heap = []

    # Postman 1 is at (x1, y1)
    x1, y1, v1 = postmen[0]
    otime[x1][y1] = 0
    heapq.heappush(heap, (0, x1, y1))

    # Directions: up, down, left, right
    dirs = [ (-1,0), (1,0), (0,-1), (0,1) ]

    while heap:
        current_otime, x, y = heapq.heappop(heap)
        if current_otime > otime[x][y]:
            continue
        for dx, dy in dirs:
            nx = x + dx
            ny = y + dy
            if 1 <= nx <= 600 and 1 <= ny <= 600:
                # Find the minimal speed at (x,y)
                # Check if any postman is at (x,y)
                min_speed = 0
                for px, py, pv in postmen:
                    if px == x and py == y and pv > min_speed:
                        min_speed = pv
                if min_speed == 0:
                    # No postman here, cannot move
                    continue
                # Calculate the time to move to (nx, ny)
                distance = 1000  # since it's adjacent
                time = distance / min_speed
                new_otime = current_otime + time
                if new_otime < otime[nx][ny]:
                    otime[nx][ny] = new_otime
                    heapq.heappush(heap, (new_otime, nx, ny))

    # The answer is otime[X][Y]
    print("{0:.10f}".format(otime[X][Y]))

if __name__ == '__main__':
    main()