https://www.nowtoshare.com/en/Article/Index/20483
https://blog.csdn.net/lcharon/article/details/60597972
https://www.godwinls.com/archives/119
public int findLonelyPixel(char[][] picture) {
int m = picture.length, n = picture[0].length;
int[] row = new int[m];
int[] col = new int[n];
int res = 0;
for(int i = 0; i < m; i ++){
for(int j = 0; j < n; j ++){
if(picture[i][j] == 'B'){
col[j]++;
if(row[i] == 0) row[i] = j + 1;// give a offset so we can deal with the j=0 situation
// you can change to j+ any offset.
else row[i] = -1;
}
}
}
for(int r : row){
if(r > 0 && col[r - 1] == 1) res++; // remove the offset
}
return res;
}
X.
https://www.godwinls.com/archives/119
https://discuss.leetcode.com/topic/81680/java-o-nm-time-with-o-n-m-space-and-o-1-space-solutions
first traverse record how many ‘B’ in each col and each row, second traverse when we find a ‘B’ check whether row[i]==1 && col[j]==1.
Time complexity O(mn), Space complexity O(m+n);
O(mn) time, O(m)
we can also use a min(m,n) space just record the col ‘B’s/row ‘B’s, then during the second traverse for each row/col, use two variables: count and pos, when we find a ‘B’, update count and pos, then after we finish this row/col, we check whether count==1 && col[last]/row[last]==1, if so, result++; this reduce our space complexity to min(m,n)+2, which is O(min(m,n));
https://discuss.leetcode.com/topic/81703/java-o-mn-time-o-m-space-28ms
X. https://eugenejw.github.io/2017/07/leetcode-531
https://www.jianshu.com/p/1a55970e2ebc
X. DFS for fun
https://www.cnblogs.com/lightwindy/p/9666798.html
Given a picture consisting of black and white pixels, find the number of black lonely pixels.
The picture is represented by a 2D char array consisting of 'B' and 'W', which means black and white pixels respectively.
A black lonely pixel is character 'B' that located at a specific position where the same row and same column don't have any other black pixels.
Example:
Input: [['W', 'W', 'B'], ['W', 'B', 'W'], ['B', 'W', 'W']] Output: 3 Explanation: All the three 'B's are black lonely pixels.
Note:
- The range of width and height of the input 2D array is [1,500].
O(nm) Time, O(1) Space Solution:
The hack here is to mutate the first row and first column of the given matrix to store the counts of items in the row/column.
W + 1 = X --> one item in the row/columnB + 1 = C --> one item in the row/column, and the first row is the black pixelW + 2 = Y --> two items in the row/columnW - 1 = V --> this prevents wrap-around past W if there are more than 255 black pixels in a row/columnpublic int findLonelyPixel(char[][] picture) {
int n = picture.length, m = picture[0].length;
int firstRowCount = 0;
for (int i=0;i<n;i++)
for (int j=0;j<m;j++)
if (picture[i][j] == 'B') {
if (picture[0][j] < 'Y' && picture[0][j] != 'V') picture[0][j]++;
if (i == 0) firstRowCount++;
else if (picture[i][0] < 'Y' && picture[i][0] != 'V') picture[i][0]++;
}
int count = 0;
for (int i=0;i<n;i++)
for (int j=0;j<m;j++)
if (picture[i][j] < 'W' && (picture[0][j] == 'C' || picture[0][j] == 'X')) {
if (i == 0) count += firstRowCount == 1 ? 1 : 0;
else if (picture[i][0] == 'C' || picture[i][0] == 'X') count++;
}
return count;
}https://blog.csdn.net/lcharon/article/details/60597972
扫描,对于B的点,行计数+1,列计数如果为0,就记录行数,如果大于0,就取负。
结果对列计数为正的进行统计,计算其中行计数为1的点即可(来自某个不愿透露姓名的展的教学)
结果对列计数为正的进行统计,计算其中行计数为1的点即可(来自某个不愿透露姓名的展的教学)
int findLonelyPixel(vector<vector<char>>& picture) {
vector<int> row(picture.size(), 0), col(picture[0].size(), 0);
int result = 0;
for (int i = 0; i < picture.size(); ++i){
for (int j = 0; j < picture[0].size(); ++j){
if (picture[i][j] == 'B'){
++row[i];
if (col[j] == 0){
col[j] = i + 1;
}
else{
col[j] = -1;
}
}
}
}
for (int i = 0; i < col.size(); ++i){
if (col[i] > 0){
if (row[col[i] - 1] == 1){
++result;
}
}
}
return result;
}
public int findLonelyPixel(char[][] picture) {
int m = picture.length, n = picture[0].length;
int[] row = new int[m];
int[] col = new int[n];
int res = 0;
for(int i = 0; i < m; i ++){
for(int j = 0; j < n; j ++){
if(picture[i][j] == 'B'){
col[j]++;
if(row[i] == 0) row[i] = j + 1;// give a offset so we can deal with the j=0 situation
// you can change to j+ any offset.
else row[i] = -1;
}
}
}
for(int r : row){
if(r > 0 && col[r - 1] == 1) res++; // remove the offset
}
return res;
}
X.
https://www.godwinls.com/archives/119
https://discuss.leetcode.com/topic/81680/java-o-nm-time-with-o-n-m-space-and-o-1-space-solutions
first traverse record how many ‘B’ in each col and each row, second traverse when we find a ‘B’ check whether row[i]==1 && col[j]==1.
Time complexity O(mn), Space complexity O(m+n);
O(nm) Time, O(n+m) Space Solution:
public int findLonelyPixel(char[][] picture) {
int n = picture.length, m = picture[0].length;
int[] rowCount = new int[n], colCount = new int[m];
for (int i=0;i<n;i++)
for (int j=0;j<m;j++)
if (picture[i][j] == 'B') { rowCount[i]++; colCount[j]++; }
int count = 0;
for (int i=0;i<n;i++)
for (int j=0;j<m;j++)
if (picture[i][j] == 'B' && rowCount[i] == 1 && colCount[j] == 1) count++;
return count;
}O(mn) time, O(m)
we can also use a min(m,n) space just record the col ‘B’s/row ‘B’s, then during the second traverse for each row/col, use two variables: count and pos, when we find a ‘B’, update count and pos, then after we finish this row/col, we check whether count==1 && col[last]/row[last]==1, if so, result++; this reduce our space complexity to min(m,n)+2, which is O(min(m,n));
https://discuss.leetcode.com/topic/81703/java-o-mn-time-o-m-space-28ms
thought is very simple, we can easily count how many times B occurs in each row. But how can we know if this col has existing B?
for example, input is
W B B B
B W W W
W W W B
W W W B
we can maintain an array calls colArray[], which is used to record how many times the B occurs in each column. Then solution is simple
for example, input is
W B B B
B W W W
W W W B
W W W B
we can maintain an array calls colArray[], which is used to record how many times the B occurs in each column. Then solution is simple
public int findLonelyPixel(char[][] picture) {
if (picture == null || picture.length == 0 || picture[0].length == 0) return 0;
int[] colArray = new int[picture[0].length];
for (int i = 0; i < picture.length; i++) {
for (int j = 0; j < picture[0].length; j++) {
if (picture[i][j] == 'B') colArray[j]++;
}
}
int ret = 0;
for (int i = 0; i < picture.length; i++) {
int count = 0, pos = 0;
for (int j = 0; j < picture[0].length; j++) {
if (picture[i][j] == 'B') {
count++;
pos = j;
}
}
if (count == 1 && colArray[pos] == 1) ret++;
}
return ret;
}X. https://eugenejw.github.io/2017/07/leetcode-531
def findLonelyPixel(self, picture):
"""
:type picture: List[List[str]]
:rtype: int
"""
ret = 0
row = [0] * len(picture[0])
col = [0] * len(picture)
for i in xrange(len(picture)):
for j in xrange(len(picture[0])):
if picture[i][j] == 'B':
row[j] += 1
col[i] += 1
for i in xrange(len(picture)):
if col[i] == 1:
for j in xrange(len(picture[0])):
if picture[i][j] == 'B':
if row[j] == 1:
ret += 1
return ret public int findLonelyPixel(char[][] picture) {
int n = picture.length, m = picture[0].length;
int[] rowCount = new int[n], colCount = new int[m];
for (int i=0;i<n;i++) {
for (int j=0;j<m;j++) {
if (picture[i][j] == 'B') {
rowCount[i]++; colCount[j]++;
}
}
}
int count = 0;
for (int i=0;i<n;i++) {
for (int j=0;j<m;j++) {
if (picture[i][j] == 'B' && rowCount[i] == 1 && colCount[j] == 1) count++;
}
}
return count;
}- public int findLonelyPixel(char[][] picture) {
- int count=0;
- HashMap<Integer,Integer> row =new HashMap<>();
- HashMap<Integer,Integer> column =new HashMap<>();
- for(int i=0;i<picture.length;i++){
- for(int j=0;j<picture[0].length;j++){
- if(picture[i][j]=='B'){
- if(row.containsKey(i)){
- row.put(i,row.get(i)+1);
- }else{
- row.put(i,1);
- }
- if(column.containsKey(j)){
- column.put(j,column.get(j)+1);
- }else{
- column.put(j,1);
- }
- }
- }
- }
- for(int i=0;i<picture.length;i++){
- for(int j=0;j<picture[0].length;j++){
- if(picture[i][j]=='B'&&row.containsKey(i)&&row.get(i)==1&&column.containsKey(j)&&column.get(j)==1){
- count++;
- }
- }
- }
- return count;
- }
X. DFS for fun
https://www.cnblogs.com/lightwindy/p/9666798.html
public int findLonelyPixel(char[][] picture) {
int numLone = 0;
for (int row = 0; row < picture.length; row++) {
for (int col = 0; col < picture[row].length; col++) {
if (picture[row][col] == 'W') {
continue;
}
if (dfs(picture, row - 1, col, new int[] {-1, 0}) && dfs(picture, row + 1, col, new int[] {1, 0})
&& dfs(picture, row, col - 1, new int[] {0, -1}) && dfs(picture, row, col + 1, new int[] {0, 1})) {
numLone++;
}
}
}
return numLone;
}
// use dfs to find if current pixel is lonely
private boolean dfs(char[][] picture, int row, int col, int[] increase) {
// base case
if (row < 0 || row >= picture.length || col < 0 || col >= picture[0].length) {
return true;
} else if (picture[row][col] == 'B') {
return false;
}
// recursion
return dfs(picture, row + increase[0], col + increase[1], increase);
}