Description#
There is an authentication system that works with authentication tokens. For each session, the user will receive a new authentication token that will expire timeToLive
seconds after the currentTime
. If the token is renewed, the expiry time will be extended to expire timeToLive
seconds after the (potentially different) currentTime
.
Implement the AuthenticationManager
class:
AuthenticationManager(int timeToLive)
constructs the AuthenticationManager
and sets the timeToLive
.generate(string tokenId, int currentTime)
generates a new token with the given tokenId
at the given currentTime
in seconds.renew(string tokenId, int currentTime)
renews the unexpired token with the given tokenId
at the given currentTime
in seconds. If there are no unexpired tokens with the given tokenId
, the request is ignored, and nothing happens.countUnexpiredTokens(int currentTime)
returns the number of unexpired tokens at the given currentTime.
Note that if a token expires at time t
, and another action happens on time t
(renew
or countUnexpiredTokens
), the expiration takes place before the other actions.
Example 1:
Input
["AuthenticationManager", "renew
", "generate", "countUnexpiredTokens
", "generate", "renew
", "renew
", "countUnexpiredTokens
"]
[[5], ["aaa", 1], ["aaa", 2], [6], ["bbb", 7], ["aaa", 8], ["bbb", 10], [15]]
Output
[null, null, null, 1, null, null, null, 0]
Explanation
AuthenticationManager authenticationManager = new AuthenticationManager(5); // Constructs the AuthenticationManager with timeToLive
= 5 seconds.
authenticationManager.renew
("aaa", 1); // No token exists with tokenId "aaa" at time 1, so nothing happens.
authenticationManager.generate("aaa", 2); // Generates a new token with tokenId "aaa" at time 2.
authenticationManager.countUnexpiredTokens
(6); // The token with tokenId "aaa" is the only unexpired one at time 6, so return 1.
authenticationManager.generate("bbb", 7); // Generates a new token with tokenId "bbb" at time 7.
authenticationManager.renew
("aaa", 8); // The token with tokenId "aaa" expired at time 7, and 8 >= 7, so at time 8 the renew
request is ignored, and nothing happens.
authenticationManager.renew
("bbb", 10); // The token with tokenId "bbb" is unexpired at time 10, so the renew
request is fulfilled and now the token will expire at time 15.
authenticationManager.countUnexpiredTokens
(15); // The token with tokenId "bbb" expires at time 15, and the token with tokenId "aaa" expired at time 7, so currently no token is unexpired, so return 0.
Constraints:
1 <= timeToLive <= 108
1 <= currentTime <= 108
1 <= tokenId.length <= 5
tokenId
consists only of lowercase letters.- All calls to
generate
will contain unique values of tokenId
. - The values of
currentTime
across all the function calls will be strictly increasing. - At most
2000
calls will be made to all functions combined.
Solutions#
Solution 1: Hash Table#
We can simply maintain a hash table $d$, where the key is tokenId
and the value is the expiration time.
- During the
generate
operation, we store tokenId
as the key and currentTime + timeToLive
as the value in the hash table $d$. - During the
renew
operation, if tokenId
is not in the hash table $d$, or currentTime >= d[tokenId]
, we ignore this operation; otherwise, we update d[tokenId]
to currentTime + timeToLive
. - During the
countUnexpiredTokens
operation, we traverse the hash table $d$ and count the number of unexpired tokenId
.
In terms of time complexity, both generate
and renew
operations have a time complexity of $O(1)$, and the countUnexpiredTokens
operation has a time complexity of $O(n)$, where $n$ is the number of key-value pairs in the hash table $d$.
The space complexity is $O(n)$, where $n$ is the number of key-value pairs in the hash table $d$.
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| class AuthenticationManager:
def __init__(self, timeToLive: int):
self.t = timeToLive
self.d = defaultdict(int)
def generate(self, tokenId: str, currentTime: int) -> None:
self.d[tokenId] = currentTime + self.t
def renew(self, tokenId: str, currentTime: int) -> None:
if self.d[tokenId] <= currentTime:
return
self.d[tokenId] = currentTime + self.t
def countUnexpiredTokens(self, currentTime: int) -> int:
return sum(exp > currentTime for exp in self.d.values())
# Your AuthenticationManager object will be instantiated and called as such:
# obj = AuthenticationManager(timeToLive)
# obj.generate(tokenId,currentTime)
# obj.renew(tokenId,currentTime)
# param_3 = obj.countUnexpiredTokens(currentTime)
|
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| class AuthenticationManager {
private int t;
private Map<String, Integer> d = new HashMap<>();
public AuthenticationManager(int timeToLive) {
t = timeToLive;
}
public void generate(String tokenId, int currentTime) {
d.put(tokenId, currentTime + t);
}
public void renew(String tokenId, int currentTime) {
if (d.getOrDefault(tokenId, 0) <= currentTime) {
return;
}
generate(tokenId, currentTime);
}
public int countUnexpiredTokens(int currentTime) {
int ans = 0;
for (int exp : d.values()) {
if (exp > currentTime) {
++ans;
}
}
return ans;
}
}
/**
* Your AuthenticationManager object will be instantiated and called as such:
* AuthenticationManager obj = new AuthenticationManager(timeToLive);
* obj.generate(tokenId,currentTime);
* obj.renew(tokenId,currentTime);
* int param_3 = obj.countUnexpiredTokens(currentTime);
*/
|
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| class AuthenticationManager {
public:
AuthenticationManager(int timeToLive) {
t = timeToLive;
}
void generate(string tokenId, int currentTime) {
d[tokenId] = currentTime + t;
}
void renew(string tokenId, int currentTime) {
if (d[tokenId] <= currentTime) return;
generate(tokenId, currentTime);
}
int countUnexpiredTokens(int currentTime) {
int ans = 0;
for (auto& [_, v] : d) ans += v > currentTime;
return ans;
}
private:
int t;
unordered_map<string, int> d;
};
/**
* Your AuthenticationManager object will be instantiated and called as such:
* AuthenticationManager* obj = new AuthenticationManager(timeToLive);
* obj->generate(tokenId,currentTime);
* obj->renew(tokenId,currentTime);
* int param_3 = obj->countUnexpiredTokens(currentTime);
*/
|
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| type AuthenticationManager struct {
t int
d map[string]int
}
func Constructor(timeToLive int) AuthenticationManager {
return AuthenticationManager{timeToLive, map[string]int{}}
}
func (this *AuthenticationManager) Generate(tokenId string, currentTime int) {
this.d[tokenId] = currentTime + this.t
}
func (this *AuthenticationManager) Renew(tokenId string, currentTime int) {
if v, ok := this.d[tokenId]; !ok || v <= currentTime {
return
}
this.Generate(tokenId, currentTime)
}
func (this *AuthenticationManager) CountUnexpiredTokens(currentTime int) int {
ans := 0
for _, exp := range this.d {
if exp > currentTime {
ans++
}
}
return ans
}
/**
* Your AuthenticationManager object will be instantiated and called as such:
* obj := Constructor(timeToLive);
* obj.Generate(tokenId,currentTime);
* obj.Renew(tokenId,currentTime);
* param_3 := obj.CountUnexpiredTokens(currentTime);
*/
|
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| class AuthenticationManager {
private timeToLive: number;
private map: Map<string, number>;
constructor(timeToLive: number) {
this.timeToLive = timeToLive;
this.map = new Map<string, number>();
}
generate(tokenId: string, currentTime: number): void {
this.map.set(tokenId, currentTime + this.timeToLive);
}
renew(tokenId: string, currentTime: number): void {
if ((this.map.get(tokenId) ?? 0) <= currentTime) {
return;
}
this.map.set(tokenId, currentTime + this.timeToLive);
}
countUnexpiredTokens(currentTime: number): number {
let res = 0;
for (const time of this.map.values()) {
if (time > currentTime) {
res++;
}
}
return res;
}
}
/**
* Your AuthenticationManager object will be instantiated and called as such:
* var obj = new AuthenticationManager(timeToLive)
* obj.generate(tokenId,currentTime)
* obj.renew(tokenId,currentTime)
* var param_3 = obj.countUnexpiredTokens(currentTime)
*/
|
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| use std::collections::HashMap;
struct AuthenticationManager {
time_to_live: i32,
map: HashMap<String, i32>,
}
/**
* `&self` means the method takes an immutable reference.
* If you need a mutable reference, change it to `&mut self` instead.
*/
impl AuthenticationManager {
fn new(timeToLive: i32) -> Self {
Self {
time_to_live: timeToLive,
map: HashMap::new(),
}
}
fn generate(&mut self, token_id: String, current_time: i32) {
self.map.insert(token_id, current_time + self.time_to_live);
}
fn renew(&mut self, token_id: String, current_time: i32) {
if self.map.get(&token_id).unwrap_or(&0) <= ¤t_time {
return;
}
self.map.insert(token_id, current_time + self.time_to_live);
}
fn count_unexpired_tokens(&self, current_time: i32) -> i32 {
self.map
.values()
.filter(|&time| *time > current_time)
.count() as i32
}
}/**
* Your AuthenticationManager object will be instantiated and called as such:
* let obj = AuthenticationManager::new(timeToLive);
* obj.generate(tokenId, currentTime);
* obj.renew(tokenId, currentTime);
* let ret_3: i32 = obj.count_unexpired_tokens(currentTime);
*/
|