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randomPointInNonOverlappingRectangles.cpp
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randomPointInNonOverlappingRectangles.cpp
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// Source : https://leetcode.com/problems/random-point-in-non-overlapping-rectangles/submissions/
// Author : rqj
// Date : 2020-10-10
/**********************************************************************************
*
* Given a list of non-overlapping axis-aligned rectangles rects, write a function
* pick which randomly and uniformily picks an integer point in the space covered
* by the rectangles.
*
* Note:
* 1. An integer point is a point that has integer coordinates.
* 2. A point on the perimeter of a rectangle is included in the space covered by
* the rectangles.
* 3. ith rectangle = rects[i] = [x1,y1,x2,y2], where [x1, y1] are the integer
* coordinates of the bottom-left corner, and [x2, y2] are the integer coordinates
* of the top-right corner.
* 4. length and width of each rectangle does not exceed 2000.
* 5. 1 <= rects.length <= 100
* 6. pick return a point as an array of integer coordinates [p_x, p_y]
* 7. pick is called at most 10000 times.
*
* Example 1:
* Input:
* ["Solution","pick","pick","pick"]
* [[[[1,1,5,5]]],[],[],[]]
* Output: [null,[4,1],[4,1],[3,3]]
*
* Example 2:
* Input:
* ["Solution","pick","pick","pick","pick","pick"]
* [[[[-2,-2,-1,-1],[1,0,3,0]]],[],[],[],[],[]]
* Output: [null,[-1,-2],[2,0],[-2,-1],[3,0],[-2,-2]]
*
* Explanation of Input Syntax:
* The input is two lists: the subroutines called and their arguments.
* Solution's constructor has one argument, the array of rectangles rects. pick
* has no arguments. Arguments are always wrapped with a list, even if there aren't
* any.
*
**********************************************************************************/
class Solution {
public:
//attributes
vector<vector<int>> rects_b; //copy of the given 'rects' vector
vector<int> points_until; //value of element 'e' = num of points in all rects before 'e', including it
Solution(vector<vector<int>>& rects) {
for (auto &e : rects) {
int before = (points_until.size() == 0) ? 0 : points_until.back(); //points before 'e'
points_until.push_back((e[2] - e[0] + 1) * (e[3] - e[1] + 1) + before);
rects_b = rects;
}
}
vector<int> pick() {
int ind = rand() % points_until.back(); //randomly choose one of the points counted
int rect = upper_bound(points_until.begin(), points_until.end(), ind) - points_until.begin();
ind -= (rect == 0) ? 0 : points_until[rect - 1];
int row = rects_b[rect][3] - rects_b[rect][1] + 1;
return {ind/row + rects_b[rect][0], ind%row + rects_b[rect][1]};
}
};