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A group of two or more people wants to meet and minimize the total travel distance. You are given a 2D grid of values 0 or 1, where each 1 marks the home of someone in the group. The distance is calculated using Manhattan Distance, where distance(p1, p2) = |p2.x - p1.x| + |p2.y - p1.y|.
Example:
Input:
1 - 0 - 0 - 0 - 1
| | | | |
0 - 0 - 0 - 0 - 0
| | | | |
0 - 0 - 1 - 0 - 0
Output: 6
Explanation: Given three people living at (0,0), (0,4), and (2,2):
The point (0,2) is an ideal meeting point, as the total travel distance
of 2+2+2=6 is minimal. So return 6.
Hint:
Try to solve it in one dimension first. How can this solution apply to the two dimension case?
通过分析可以得出,P点的最佳位置就是在 [A, B] 区间内,这样和四个点的距离之和为AB距离加上 CD 距离,在其他任意一点的距离都会大于这个距离,那么分析出来了上��规律,这题就变得很容易了,只要给位置排好序,然后用最后一个坐标减去第一个坐标,即 CD 距离,倒数第二个坐标减去第二个坐标,即 AB 距离,以此类推,直到最中间停止,那么一维的情况分析出来了,二维的情况就是两个一维相加即可,参见代码如下:
解法一:
class Solution {
public:
int minTotalDistance(vector<vector<int>>& grid) {
vector<int> rows, cols;
for (int i = 0; i < grid.size(); ++i) {
for (int j = 0; j < grid[i].size(); ++j) {
if (grid[i][j] == 1) {
rows.push_back(i);
cols.push_back(j);
}
}
}
return minTotalDistance(rows) + minTotalDistance(cols);
}
int minTotalDistance(vector<int> v) {
int res = 0;
sort(v.begin(), v.end());
int i = 0, j = v.size() - 1;
while (i < j) res += v[j--] - v[i++];
return res;
}
};
我们也可以不用多写一个函数,直接对 rows 和 cols 同时处理,稍稍能简化些代码:
解法二:
class Solution {
public:
int minTotalDistance(vector<vector<int>>& grid) {
vector<int> rows, cols;
for (int i = 0; i < grid.size(); ++i) {
for (int j = 0; j < grid[i].size(); ++j) {
if (grid[i][j] == 1) {
rows.push_back(i);
cols.push_back(j);
}
}
}
sort(cols.begin(), cols.end());
int res = 0, i = 0, j = rows.size() - 1;
while (i < j) res += rows[j] - rows[i] + cols[j--] - cols[i++];
return res;
}
};
A group of two or more people wants to meet and minimize the total travel distance. You are given a 2D grid of values 0 or 1, where each 1 marks the home of someone in the group. The distance is calculated using Manhattan Distance, where distance(p1, p2) =
|p2.x - p1.x| + |p2.y - p1.y|.Example:
Hint:
这道题让我们求最佳的开会地点,该地点需要到每个为1的点的曼哈顿距离之和最小,题目中给了提示,让从一维的情况来分析,先看一维时有两个点A和B的情况,
A_____P_______B_
可以发现,只要开会为位置P在 [A, B] 区间内,不管在哪,距离之和都是A和B之间的距离,如果P不在 [A, B] 之间,那么距离之和就会大于A和B之间的距离,现在再加两个点C和D:
C_____A_____P_______B______D
通过分析可以得出,P点的最佳位置就是在 [A, B] 区间内,这样和四个点的距离之和为AB距离加上 CD 距离,在其他任意一点的距离都会大于这个距离,那么分析出来了上��规律,这题就变得很容易了,只要给位置排好序,然后用最后一个坐标减去第一个坐标,即 CD 距离,倒数第二个坐标减去第二个坐标,即 AB 距离,以此类推,直到最中间停止,那么一维的情况分析出来了,二维的情况就是两个一维相加即可,参见代码如下:
解法一:
我们也可以不用多写一个函数,直接对 rows 和 cols 同时处理,稍稍能简化些代码:
解法二:
Github 同步地址:
#296
类似题目:
Minimum Moves to Equal Array Elements II
Shortest Distance from All Buildings
参考资料:
https://leetcode.com/problems/best-meeting-point/
https://leetcode.com/problems/best-meeting-point/discuss/74186/14ms-java-solution
https://leetcode.com/problems/best-meeting-point/discuss/74244/Simple-Java-code-without-sorting.
https://leetcode.com/problems/best-meeting-point/discuss/74193/Java-2msPython-40ms-two-pointers-solution-no-median-no-sort-with-explanation
LeetCode All in One 题目讲解汇总(持续更新中...)
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