731. My Calendar II
Medium
Implement a
MyCalendarTwo class to store your events. A new event can be added if adding the event will not cause a triple booking.
Your class will have one method,
book(int start, int end). Formally, this represents a booking on the half open interval [start, end), the range of real numbers x such that start <= x < end.
A triple booking happens when threeevents have some non-empty intersection (ie., there is some time that is common to all 3 events.)
For each call to the method
Your class will be called like this: MyCalendar.book, return true if the event can be added to the calendar successfully without causing a triplebooking. Otherwise, return false and do not add the event to the calendar.MyCalendar cal = new MyCalendar();MyCalendar.book(start, end)
Example 1:
MyCalendar();
MyCalendar.book(10, 20); // returns true
MyCalendar.book(50, 60); // returns true
MyCalendar.book(10, 40); // returns true
MyCalendar.book(5, 15); // returns false
MyCalendar.book(5, 10); // returns true
MyCalendar.book(25, 55); // returns true
Explanation:
The first two events can be booked. The third event can be double booked.
The fourth event (5, 15) can't be booked, because it would result in a triple booking.
The fifth event (5, 10) can be booked, as it does not use time 10 which is already double booked.
The sixth event (25, 55) can be booked, as the time in [25, 40) will be double booked with the third event;
the time [40, 50) will be single booked, and the time [50, 55) will be double booked with the second event.
Note:
- The number of calls to
MyCalendar.bookper test case will be at most1000. - In calls to
MyCalendar.book(start, end),startandendare integers in the range[0, 10^9].
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 | class MyCalendarTwo { map<int, int> overlaps;//end, start vector<pair<int, int>> events; public: MyCalendarTwo() { } bool updateOverlaps(int start, int end, bool bookit = false) { auto nxt = overlaps.upper_bound(start); if(nxt!=overlaps.end() && nxt->second<end) return false; if(bookit) overlaps[end] = start; return true; } bool book(int start, int end) { if(!updateOverlaps(start, end)) return false; for(auto& p:events){ int l = max(start, p.first); int r = min(end, p.second); if(l<r) updateOverlaps(l, r, true); } events.emplace_back(start, end); return true; } }; /** * Your MyCalendarTwo object will be instantiated and called as such: * MyCalendarTwo* obj = new MyCalendarTwo(); * bool param_1 = obj->book(start,end); */ |
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 | class MyCalendarTwo { List<int[]> meetings; public MyCalendarTwo() { meetings = new ArrayList<>(); } public boolean book(int start, int end) { MyCalendar overlaps = new MyCalendar(); for(int[] m : meetings){ int a = Math.max(m[0], start); int b = Math.min(m[1], end); if(a<b){ if(!overlaps.book(a, b)) return false; } } meetings.add(new int[] {start, end}); return true; } private class MyCalendar { List<int[]> meetings = new ArrayList<>(); boolean book(int s, int e) { for(int[] m : meetings){ int a = Math.max(m[0], s); int b = Math.min(m[1], e); if(a<b) return false; } meetings.add(new int[] {s, e}); return true; } } } /** * Your MyCalendarTwo object will be instantiated and called as such: * MyCalendarTwo obj = new MyCalendarTwo(); * boolean param_1 = obj.book(start,end); */ |
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