LeetCode数独问题中Bitset的巧妙用处
36. 有效的数独
判断一个 9x9 的数独是否有效。只需要根据以下规则,验证已经填入的数字是否有效即可。
- 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。
上图是一个部分填充的有效的数独。
数独部分空格内已填入了数字,空白格用 '.' 表示。
示例 1:
输入:
[
["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: true
示例 2:
输入:
[
["8","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: false
解释: 除了第一行的第一个数字从 5 改为 8 以外,空格内其他数字均与 示例1 相同。
但由于位于左上角的 3x3 宫内有两个 8 存在, 因此这个数独是无效的。
题解:
用bitset代表每一行每一列中对应的数字是否出现过
- r o w s [ i ] rows [i] rows[i] 代表第 i i i行的状态,例如第 i i i行出现了 5 5 5,那么 r o w [ i ] [ 5 ] = 1 row[i][5] = 1 row[i][5]=1
- c o w s [ i ] cows[i] cows[i] 代表第 i i i列的转状态
- c e l l s [ i ] [ j ] cells[i][j] cells[i][j] 代表 i i i行 j j j列所在的块的状态
solution:
class Solution {
public:
bool isValidSudoku(vector<vector<char>>& board) {
vector<bitset<9> > rows = vector<bitset<9> > (9, bitset<9>());
vector<bitset<9> > cols = vector<bitset<9> > (9, bitset<9>());
vector<vector<bitset<9> > > cells = vector<vector<bitset<9> > > (3, vector<bitset<9> >(3, bitset<9>()));
for(int i=0; i<9; i++){
for(int j=0; j<9; j++){
if(board[i][j] == '.') continue;
int x = board[i][j]-'1';
if(rows[i][x] || cols[j][x] || cells[i/3][j/3][x]) return false;
rows[i][x] = 1;
cols[j][x] = 1;
cells[i/3][j/3][x] = 1;
}
}
return true;
}
};
37. 解数独
难度困难579
编写一个程序,通过已填充的空格来解决数独问题。
一个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。
空白格用 '.' 表示。
一个数独。
答案被标成红色。
题解:
bitset作用同上。- 每一个格子就可以计算出所有不能填的数字,然后得到所有能填的数字
getPossibleStatus() - 填入数字和回溯时,只需要更新存储信息
- 每个格子在使用时,会根据存储信息重新计算能填的数字
getNext()选择能填的数字最少的格子开始填,这样填错的概率最小,回溯次数也会变少fillNum()在填入和回溯时负责更新存储信息
Solution:
class Solution {
public:
vector<bitset<9> > rows, cols;
vector<vector<bitset<9> > > cells;
bitset<9> getPosibleStatus(int x, int y){
return ~(rows[x] | cols[y] | cells[x/3][y/3]);
}
vector<int> getNext(vector<vector<char> > &board){
vector<int> ans;
int minCnt = 0x3f;
for(int i=0; i<board.size(); i++){
for(int j=0; j<board[i].size(); j++){
if(board[i][j] != '.') continue;
auto cur = getPosibleStatus(i, j);
int c = cur.count();
if(c < minCnt){
minCnt = c;
ans = {
i, j};
}
}
}
return ans;
}
void fillNum(int x, int y, int n, bool flag){
rows[x][n] = flag ? 1 : 0;
cols[y][n] = flag ? 1 : 0;
cells[x/3][y/3][n] = flag ? 1 : 0;
}
bool helper(vector<vector<char> > &board, int cnt){
if(cnt == 0) return true;
auto next = getNext(board);
auto bits = getPosibleStatus(next[0], next[1]);
for(int i=0; i<bits.size(); i++){
if(!bits.test(i)) continue;
int x = next[0], y = next[1];
fillNum(x, y, i, true);
board[x][y] = i+'1';
if(helper(board, cnt-1)) return true;
board[x][y] = '.';
fillNum(x, y, i, false);
}
return false;
}
void solveSudoku(vector<vector<char>>& board) {
rows = vector<bitset<9> > (9, bitset<9>());
cols = vector<bitset<9> > (9, bitset<9>());
cells = vector<vector<bitset<9> > > (3, vector<bitset<9> >(3, bitset<9>()));
int cnt = 0;
for(int i=0; i<board.size(); i++){
for(int j=0; j<board[i].size(); j++){
cnt += (board[i][j] == '.');
if(board[i][j] == '.') continue;
int n=board[i][j] - '1';
rows[i] |= (1<<n);
cols[j] |= (1<<n);
cells[i/3][j/3] |= (1<<n);
}
}
helper(board, cnt);
}
};
京公网安备 11010502036488号