LeetCode in Kotlin

1776. Car Fleet II

Hard

There are n cars traveling at different speeds in the same direction along a one-lane road. You are given an array cars of length n, where cars[i] = [position_i, speed_i] represents:

position_i is the distance between the i^th car and the beginning of the road in meters. It is guaranteed that position_i < position_i+1.
speed_i is the initial speed of the i^th car in meters per second.

For simplicity, cars can be considered as points moving along the number line. Two cars collide when they occupy the same position. Once a car collides with another car, they unite and form a single car fleet. The cars in the formed fleet will have the same position and the same speed, which is the initial speed of the slowest car in the fleet.

Return an array answer, where answer[i] is the time, in seconds, at which the i^th car collides with the next car, or -1 if the car does not collide with the next car. Answers within 10^-5 of the actual answers are accepted.

Example 1:

Input: cars = [[1,2],[2,1],[4,3],[7,2]]

Output: [1.00000,-1.00000,3.00000,-1.00000]

Explanation: After exactly one second, the first car will collide with the second car, and form a car fleet with speed 1 m/s. After exactly 3 seconds, the third car will collide with the fourth car, and form a car fleet with speed 2 m/s.

Example 2:

Input: cars = [[3,4],[5,4],[6,3],[9,1]]

Output: [2.00000,1.00000,1.50000,-1.00000]

Constraints:

1 <= cars.length <= 10⁵
1 <= position_i, speed_i <= 10⁶
position_i < position_i+1

Solution

import java.util.Deque
import java.util.LinkedList

class Solution {
    fun getCollisionTimes(cars: Array<IntArray>): DoubleArray {
        val stack: Deque<Int> = LinkedList()
        val n = cars.size
        val ans = DoubleArray(n)
        for (i in n - 1 downTo 0) {
            ans[i] = -1.0
            val presentCar = cars[i]
            val presentCarSpeed = presentCar[1]
            while (stack.isNotEmpty()) {
                val previousCar = stack.peekLast()
                val previousCarSpeed = cars[previousCar][1]
                if (presentCarSpeed > previousCarSpeed &&
                    (
                        ans[previousCar] == -1.0 ||
                            catchTime(cars, i, previousCar) <= ans[previousCar]
                        )
                ) {
                    ans[i] = catchTime(cars, i, previousCar)
                    break
                }
                stack.pollLast()
            }
            stack.offerLast(i)
        }
        return ans
    }

    private fun catchTime(cars: Array<IntArray>, presentCar: Int, previousCar: Int): Double {
        val dist = cars[previousCar][0] - cars[presentCar][0]
        val speed = cars[presentCar][1] - cars[previousCar][1]
        return 1.0 * dist / speed
    }
}

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