LeetCode【0037】解数独
本文目录
- 1 中文题目
- 2 求解方法:递归+回溯法
- 2.1 方法思路
- 2.2 Python代码
- 2.3 复杂度分析
- 3 题目总结
1 中文题目
编写一个程序,通过填充空格来解决数独问题。数独的解法需 遵循如下规则:
- 数字 1-9 在每一行只能出现一次。
- 数字 1-9 在每一列只能出现一次。
- 数字 1-9 在每一个以粗实线分隔的 3x3 宫内只能出现一次。(请参考示例图)
- 数独部分空格内已填入了数字,空白格用 ‘.’ 表示。
示例:
输入:board = [["5","3",".",".","7",".",".",".","."],["6",".",".","1","9","5",".",".","."],[".","9","8",".",".",".",".","6","."],["8",".",".",".","6",".",".",".","3"],["4",".",".","8",".","3",".",".","1"],["7",".",".",".","2",".",".",".","6"],[".","6",".",".",".",".","2","8","."],[".",".",".","4","1","9",".",".","5"],[".",".",".",".","8",".",".","7","9"]]
输出:[["5","3","4","6","7","8","9","1","2"],["6","7","2","1","9","5","3","4","8"],["1","9","8","3","4","2","5","6","7"],["8","5","9","7","6","1","4","2","3"],["4","2","6","8","5","3","7","9","1"],["7","1","3","9","2","4","8","5","6"],["9","6","1","5","3","7","2","8","4"],["2","8","7","4","1","9","6","3","5"],["3","4","5","2","8","6","1","7","9"]]
解释:输入的数独如上图所示,唯一有效的解决方案如下所示:
提示:
board.length == 9board[i].length == 9board[i][j]是一位数字或者 ‘.’- 题目数据
保证输入数独仅有一个解
2 求解方法:递归+回溯法
2.1 方法思路
方法核心
使用回溯算法解决数独问题,使用三个二维数组记录数字使用情况,采用逐个位置填写的策略,通过位置编号简化行列索引计算。
实现步骤
(1)初始化阶段:
- 创建三个二维数组记录每行、每列和每个3x3方块中数字的使用情况
- 遍历数独板,标记已有数字的使用情况
- 将问题转化为填写空位的问题
(2)回溯过程:
- 使用位置编号(0-80)表示当前填写位置
- 通过整除和取余计算行列索引
- 如果当前位置已有数字,继续下一个位置。否则尝试填入1-9的数字
(3)验证过程:
- 检查当前数字是否可以在行中使用,检查当前数字是否可以在列中使用,检查当前数字是否可以在3x3方块中使用
- 所有检查都通过才能填入数字
方法示例
输入数独板示例:
[["5","3",".",".","7",".",".",".","."],["6",".",".","1","9","5",".",".","."],[".","9","8",".",".",".",".","6","."],["8",".",".",".","6",".",".",".","3"],["4",".",".","8",".","3",".",".","1"],["7",".",".",".","2",".",".",".","6"],[".","6",".",".",".",".","2","8","."],[".",".",".","4","1","9",".",".","5"],[".",".",".",".","8",".",".","7","9"]
]执行过程示例(以填写第一个空位为例):1. 定位第一个空位:- 位置 (0,2)- box_index = (0 // 3) * 3 + 2 // 3 = 02. 尝试填入数字:- 检查数字1:已在同行/列/方块使用- 检查数字2:已在同行/列/方块使用- 检查数字4:可以使用- 填入数字4并继续递归3. 如果后续填写失败:- 回溯到当前位置- 清除数字4- 尝试下一个可能的数字4. 递归和回溯过程继续,直到找到完整解答
2.2 Python代码
class Solution:def solveSudoku(self, board: List[List[str]]) -> None:"""Do not return anything, modify board in-place instead."""# 初始化三个二维数组,分别记录行、列和3x3方块中数字的使用情况rows = [[False] * 9 for _ in range(9)]cols = [[False] * 9 for _ in range(9)]boxes = [[False] * 9 for _ in range(9)]# 遍历整个数独板,记录已有数字的使用情况for i in range(9):for j in range(9):if board[i][j] != '.':num = int(board[i][j]) - 1 # 转换为0-8的索引box_index = (i // 3) * 3 + j // 3rows[i][num] = Truecols[j][num] = Trueboxes[box_index][num] = Truedef backtrack(pos: int) -> bool:# 如果已经填完所有位置,返回Trueif pos == 81:return True# 计算当前位置的行列索引row, col = pos // 9, pos % 9# 如果当前位置已有数字,尝试填写下一个位置if board[row][col] != '.':return backtrack(pos + 1)# 计算当前位置所在的3x3方块索引box_index = (row // 3) * 3 + col // 3# 尝试填入1-9的数字for num in range(9):# 检查当前数字是否可以填入if not (rows[row][num] or cols[col][num] or boxes[box_index][num]):# 标记数字使用情况rows[row][num] = cols[col][num] = boxes[box_index][num] = Trueboard[row][col] = str(num + 1)# 递归尝试填写下一个位置if backtrack(pos + 1):return True# 回溯:恢复标记和数独板rows[row][num] = cols[col][num] = boxes[box_index][num] = Falseboard[row][col] = '.'# 当前位置无法填入任何数字return False# 从第一个位置开始解数独backtrack(0)
2.3 复杂度分析
- 时间复杂度:O(9^m),m是空格的数量
- 每个空格最多尝试9个数字
- 实际运行时间因剪枝而大大减少
- 空间复杂度:O(m),m是空格的数量(递归栈深度)
- 三个固定大小的二维数组(81个布尔值)
3 题目总结
题目难度:困难
数据结构:矩阵
应用算法:回溯、递归