Description
https://leetcode.com/problems/number-of-recent-calls/
You have a RecentCounter class which counts the number of recent requests within a certain time frame.
Implement the RecentCounter class:
RecentCounter()Initializes the counter with zero recent requests.int ping(int t)Adds a new request at timet, wheretrepresents some time in milliseconds, and returns the number of requests that has happened in the past3000milliseconds (including the new request). Specifically, return the number of requests that have happened in the inclusive range[t - 3000, t].
It is guaranteed that every call to ping uses a strictly larger value of t than the previous call.
Example 1:
Input ["RecentCounter", "ping", "ping", "ping", "ping"] [[], [1], [100], [3001], [3002]] Output
[null, 1, 2, 3, 3]
Explanation RecentCounter recentCounter = new RecentCounter(); recentCounter.ping(1); // requests = [1], range is [-2999,1], return 1 recentCounter.ping(100); // requests = [1, 100], range is [-2900,100], return 2 recentCounter.ping(3001); // requests = [1, 100, 3001], range is [1,3001], return 3 recentCounter.ping(3002); // requests = [1, 100, 3001, 3002], range is [2,3002], return 3
Constraints:
1 <= t <= 109- Each test case will call
pingwith strictly increasing values oft. - At most
104calls will be made toping.
Explanation
use double side queue
Python Solution
class RecentCounter:
def __init__(self):
self.slide_window = deque()
def ping(self, t: int) -> int:
# step 1). append the current call
self.slide_window.append(t)
# step 2). invalidate the outdated pings
while self.slide_window[0] < t - 3000:
self.slide_window.popleft()
return len(self.slide_window)
# Your RecentCounter object will be instantiated and called as such:
# obj = RecentCounter()
# param_1 = obj.ping(t)- Time Complexity: ~1
- Space Complexity: ~1