- Difficulty: Hard
- Tags: LeetCode, Hard, Breadth-First Search, Graph, Array, Matrix, Shortest Path, Heap (Priority Queue), leetcode-2577, O(m * n * log\(m * n\)), O(m * n), Dijkstra's Algorithm
Problem
You are given a m x n
matrix grid
consisting of non-negative integers where grid[row][col]
represents the minimum time required to be able to visit the cell (row, col)
, which means you can visit the cell (row, col)
only when the time you visit it is greater than or equal to grid[row][col]
.
You are standing in the top-left cell of the matrix in the 0th
second, and you must move to any adjacent cell in the four directions: up, down, left, and right. Each move you make takes 1 second.
Return the minimum time required in which you can visit the bottom-right cell of the matrix. If you cannot visit the bottom-right cell, then return -1
.
Example 1:
Input: grid = [[0,1,3,2],[5,1,2,5],[4,3,8,6]] Output: 7 Explanation: One of the paths that we can take is the following: - at t = 0, we are on the cell (0,0). - at t = 1, we move to the cell (0,1). It is possible because grid[0][1] <= 1. - at t = 2, we move to the cell (1,1). It is possible because grid[1][1] <= 2. - at t = 3, we move to the cell (1,2). It is possible because grid[1][2] <= 3. - at t = 4, we move to the cell (1,1). It is possible because grid[1][1] <= 4. - at t = 5, we move to the cell (1,2). It is possible because grid[1][2] <= 5. - at t = 6, we move to the cell (1,3). It is possible because grid[1][3] <= 6. - at t = 7, we move to the cell (2,3). It is possible because grid[2][3] <= 7. The final time is 7. It can be shown that it is the minimum time possible.
Example 2:
Input: grid = [[0,2,4],[3,2,1],[1,0,4]] Output: -1 Explanation: There is no path from the top left to the bottom-right cell.
Constraints:
m == grid.length
n == grid[i].length
2 <= m, n <= 1000
4 <= m * n <= 105
0 <= grid[i][j] <= 105
grid[0][0] == 0