2022-09-30 Daily-Challenge
Today I have done leetcode's September LeetCoding Challenge with cpp
.
September LeetCoding Challenge 30
Description
The Skyline Problem
A city's skyline is the outer contour of the silhouette formed by all the buildings in that city when viewed from a distance. Given the locations and heights of all the buildings, return the skyline formed by these buildings collectively.
The geometric information of each building is given in the array buildings
where buildings[i] = [lefti, righti, heighti]
:
lefti
is the x coordinate of the left edge of theith
building.righti
is the x coordinate of the right edge of theith
building.heighti
is the height of theith
building.
You may assume all buildings are perfect rectangles grounded on an absolutely flat surface at height 0
.
The skyline should be represented as a list of "key points" sorted by their x-coordinate in the form [[x1,y1],[x2,y2],...]
. Each key point is the left endpoint of some horizontal segment in the skyline except the last point in the list, which always has a y-coordinate 0
and is used to mark the skyline's termination where the rightmost building ends. Any ground between the leftmost and rightmost buildings should be part of the skyline's contour.
Note: There must be no consecutive horizontal lines of equal height in the output skyline. For instance, [...,[2 3],[4 5],[7 5],[11 5],[12 7],...]
is not acceptable; the three lines of height 5 should be merged into one in the final output as such: [...,[2 3],[4 5],[12 7],...]
Example 1:
Input: buildings = [[2,9,10],[3,7,15],[5,12,12],[15,20,10],[19,24,8]]
Output: [[2,10],[3,15],[7,12],[12,0],[15,10],[20,8],[24,0]]
Explanation:
Figure A shows the buildings of the input.
Figure B shows the skyline formed by those buildings. The red points in figure B represent the key points in the output list.
Example 2:
Input: buildings = [[0,2,3],[2,5,3]]
Output: [[0,3],[5,0]]
Constraints:
1 <= buildings.length <= 104
0 <= lefti < righti <= 231 - 1
1 <= heighti <= 231 - 1
buildings
is sorted bylefti
in non-decreasing order.
Solution
class Solution {
public:
vector<vector<int>> getSkyline(vector<vector<int>>& buildings) {
vector<tuple<int, int, int>> points;
for(auto &b : buildings) {
points.push_back(make_tuple(b[0], b[1], b[2]));
points.push_back(make_tuple(b[1], -1, b[2]));
}
sort(points.begin(), points.end(), [](tuple<int, int, int> &a, tuple<int, int, int> &b){
auto [al, ar, ah] = a;
auto [bl, br, bh] = b;
return al < bl || (al == bl && ((ar != -1 && br == -1) || (ar != -1 && br != -1 && ah > bh)));
});
int curHeight = 0;
priority_queue<pair<int, int>> q;
vector<vector<int>> answer;
for(auto [curPos, rightPos, height] : points) {
cout << curPos << ' ' << rightPos << ' ' << height << endl;
if(rightPos == -1) {
while(q.size() && q.top().second >= -curPos) cout << '#' << q.top().first << ' ' << q.top().second << endl, q.pop();
int newHeight = q.size() ? q.top().first : 0;
if(newHeight != curHeight) answer.push_back({curPos, newHeight});
curHeight = newHeight;
} else {
q.push(make_pair(height, -rightPos));
if(height > curHeight) {
curHeight = height;
answer.push_back({curPos, curHeight});
}
}
}
return answer;
}
};
// Accepted
// 40/40 cases passed (157 ms)
// Your runtime beats 7.99 % of cpp submissions
// Your memory usage beats 82.66 % of cpp submissions (14.4 MB)