973. K Closest Points to Origin

Description

Given an array of points where points[i] = [x_i, y_i] represents a point on the X-Y plane and an integer k, return the k closest points to the origin (0, 0).

The distance between two points on the X-Y plane is the Euclidean distance (i.e., √(x₁ - x₂)² + (y₁ - y₂)²).

You may return the answer in any order. The answer is guaranteed to be unique (except for the order that it is in).

Example 1:

Input: points = [[1,3],[-2,2]], k = 1
Output: [[-2,2]]
Explanation:
The distance between (1, 3) and the origin is sqrt(10).
The distance between (-2, 2) and the origin is sqrt(8).
Since sqrt(8) < sqrt(10), (-2, 2) is closer to the origin.
We only want the closest k = 1 points from the origin, so the answer is just [[-2,2]].

Example 2:

Input: points = [[3,3],[5,-1],[-2,4]], k = 2
Output: [[3,3],[-2,4]]
Explanation: The answer [[-2,4],[3,3]] would also be accepted.

Constraints:

1 <= k <= points.length <= 10⁴
-10⁴ < x_i, y_i < 10⁴

Solution

k-closest-points-to-origin.py

class Solution:
    def kClosest(self, points: List[List[int]], k: int) -> List[List[int]]:
        pq = []

        for x, y in points:
            if len(pq) == k:
                heapq.heappushpop(pq, (-(x * x + y * y), x, y))
            else:
                heapq.heappush(pq, (-(x * x + y * y), x, y))

        return [[x, y] for _, x, y in pq]