leetcode/0864.Shortest-Path-to-Get-All-Keys/README.md
We are given a 2-dimensional grid. "." is an empty cell, "#" is a wall, "@" is the starting point, ("a", "b", ...) are keys, and ("A", "B", ...) are locks.
We start at the starting point, and one move consists of walking one space in one of the 4 cardinal directions. We cannot walk outside the grid, or walk into a wall. If we walk over a key, we pick it up. We can't walk over a lock unless we have the corresponding key.
For some 1 <= K <= 6, there is exactly one lowercase and one uppercase letter of the first K letters of the English alphabet in the grid. This means that there is exactly one key for each lock, and one lock for each key; and also that the letters used to represent the keys and locks were chosen in the same order as the English alphabet.
Return the lowest number of moves to acquire all keys. If it's impossible, return -1.
Example 1:
Input: ["@.a.#","###.#","b.A.B"]
Output: 8
Example 2:
Input: ["@..aA","..B#.","....b"]
Output: 6
Note:
1 <= grid.length <= 301 <= grid[0].length <= 30grid[i][j] contains only '.', '#', '@', 'a'-'f' and 'A'-'F'[1, 6]. Each key has a different letter and opens exactly one lock.给定一个二维网格 grid。 "." 代表一个空房间, "#" 代表一堵墙, "@" 是起点,("a", "b", ...)代表钥匙,("A", "B", ...)代表锁。
我们从起点开始出发,一次移动是指向四个基本方向之一行走一个单位空间。我们不能在网格外面行走,也无法穿过一堵墙。如果途经一个钥匙,我们就把它捡起来。除非我们手里有对应的钥匙,否则无法通过锁。
假设 K 为钥匙/锁的个数,且满足 1 <= K <= 6,字母表中的前 K 个字母在网格中都有自己对应的一个小写和一个大写字母。换言之,每个锁有唯一对应的钥匙,每个钥匙也有唯一对应的锁。另外,代表钥匙和锁的字母互为大小写并按字母顺序排列。
返回获取所有钥匙所需要的移动的最少次数。如果无法获取所有钥匙,返回 -1 。
提示: