Package g2401_2500.s2402_meeting_rooms_iii

Class Solution

  • All Implemented Interfaces:
    
public final class Solution

    2402 - Meeting Rooms III.

    Hard

    You are given an integer n. There are n rooms numbered from 0 to n - 1.

    You are given a 2D integer array meetings where <code>meetingsi = start<sub>i</sub>, end<sub>i</sub></code> means that a meeting will be held during the half-closed time interval <code>[start<sub>i</sub>, end<sub>i</sub>)</code>. All the values of <code>start<sub>i</sub></code> are unique.

    Meetings are allocated to rooms in the following manner:

    • Each meeting will take place in the unused room with the lowest number.

    • If there are no available rooms, the meeting will be delayed until a room becomes free. The delayed meeting should have the same duration as the original meeting.

    • When a room becomes unused, meetings that have an earlier original start time should be given the room.

    Return the number of the room that held the most meetings. If there are multiple rooms, return the room with the lowest number.

    A half-closed interval [a, b) is the interval between a and b including a and not including b.

    Example 1:

    Input: n = 2, meetings = [0,10,1,5,2,7,3,4]

    Output: 0

    Explanation:

    • At time 0, both rooms are not being used. The first meeting starts in room 0.

    • At time 1, only room 1 is not being used. The second meeting starts in room 1.

    • At time 2, both rooms are being used. The third meeting is delayed.

    • At time 3, both rooms are being used. The fourth meeting is delayed.

    • At time 5, the meeting in room 1 finishes. The third meeting starts in room 1 for the time period [5,10).

    • At time 10, the meetings in both rooms finish. The fourth meeting starts in room 0 for the time period [10,11).

    Both rooms 0 and 1 held 2 meetings, so we return 0.

    Example 2:

    Input: n = 3, meetings = [1,20,2,10,3,5,4,9,6,8]

    Output: 1

    Explanation:

    • At time 1, all three rooms are not being used. The first meeting starts in room 0.

    • At time 2, rooms 1 and 2 are not being used. The second meeting starts in room 1.

    • At time 3, only room 2 is not being used. The third meeting starts in room 2.

    • At time 4, all three rooms are being used. The fourth meeting is delayed.

    • At time 5, the meeting in room 2 finishes. The fourth meeting starts in room 2 for the time period [5,10).

    • At time 6, all three rooms are being used. The fifth meeting is delayed.

    • At time 10, the meetings in rooms 1 and 2 finish. The fifth meeting starts in room 1 for the time period [10,12).

    Room 0 held 1 meeting while rooms 1 and 2 each held 2 meetings, so we return 1.

    Constraints:

    • 1 &lt;= n &lt;= 100

    • <code>1 <= meetings.length <= 10<sup>5</sup></code>

    • meetings[i].length == 2

    • <code>0 <= start<sub>i</sub>< end<sub>i</sub><= 5 * 10<sup>5</sup></code>

    • All the values of <code>start<sub>i</sub></code> are unique.

    • Nested Class Summary

      Nested Classes 
      Modifier and Type Class Description

    • Field Summary

      Fields 
      Modifier and Type Field Description

    • Constructor Summary

      Constructors 
      Constructor Description
      Solution()

    • Enum Constant Summary

      Enum Constants 
      Enum Constant Description

    • Method Summary

      Modifier and Type Method Description
      final Integer mostBooked(Integer n, Array<IntArray> meetings)

      • Methods inherited from class java.lang.Object

        clone, equals, finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait