- 算法
- 1.广度优先搜素
- 2.队列实现广度优先搜索,visited数组记录已访问坐标
public int[][] allCellsDistOrder(int R, int C, int r0, int c0) {
int[][] result = new int[R*C][2];
int i = 0;
boolean[][] visited = new boolean[R][C];
visited[r0][c0] = true;
Queue<int[]> queue = new LinkedList<>();
queue.offer(new int[]{r0, c0});
while (!queue.isEmpty()) {
int size = queue.size();
while (size-- > 0) {
int[] curr = queue.poll();
result[i++] = curr;
if (curr[0] - 1 >= 0 && !visited[curr[0]-1][curr[1]]) {
queue.offer(new int[]{curr[0]-1, curr[1]});
visited[curr[0]-1][curr[1]] = true;
}
if (curr[0] + 1 < R && !visited[curr[0]+1][curr[1]]) {
queue.offer(new int[]{curr[0]+1, curr[1]});
visited[curr[0]+1][curr[1]] = true;
}
if (curr[1] - 1 >= 0 && !visited[curr[0]][curr[1]-1]) {
queue.offer(new int[]{curr[0], curr[1]-1});
visited[curr[0]][curr[1]-1] = true;
}
if (curr[1] + 1 < C && !visited[curr[0]][curr[1]+1]) {
queue.offer(new int[]{curr[0], curr[1]+1});
visited[curr[0]][curr[1]+1] = true;
}
}
}
return result;
} func allCellsDistOrder(R int, C int, r0 int, c0 int) [][]int {
result := make([][]int, R * C)
i := 0
visited := make([][]bool, R)
for i := range visited {
visited[i] = make([]bool, C)
}
visited[r0][c0] = true
l := list.New()
l.PushBack([]int{r0, c0})
for l.Len() > 0 {
size := l.Len()
for size > 0 {
curr := l.Remove(l.Front())
p := curr.([]int)
result[i] = p
i++
if p[0] - 1 >= 0 && !visited[p[0] - 1][p[1]] {
l.PushBack([]int{p[0] - 1, p[1]})
visited[p[0] - 1][p[1]] = true
}
if p[0] + 1 < R && !visited[p[0] + 1][p[1]] {
l.PushBack([]int{p[0] + 1, p[1]})
visited[p[0] + 1][p[1]] = true
}
if p[1] - 1 >= 0 && !visited[p[0]][p[1] - 1] {
l.PushBack([]int{p[0], p[1] - 1})
visited[p[0]][p[1] - 1] = true
}
if p[1] + 1 < C && !visited[p[0]][p[1] + 1] {
l.PushBack([]int{p[0], p[1] + 1})
visited[p[0]][p[1] + 1] = true
}
size--
}
}
return result
} 
京公网安备 11010502036488号