Problem D
Hoppers
You are part of an elite hacking group who has just invented a new type of malware, called the hoppers. Hoppers can operate in any high-security computer networks; however, they can only propagate themselves in a very limited way.
A computer network is a set of hosts $V$ ($|V| = N$) and direct links $E$ ($|E| = M$). Each direct link connects two different hosts, allowing them to communicate in both directions. If a host $u$ is infected with a hopper, then it will propagate itself to all hosts $W$ where $W$ is the set of hosts which are connected to any neighbor of $u$. Formally, $W = \{ w \mid \{ (u,v),(v,w)\} \subseteq E \} $. The newly-infected host $w$ can now proceed to infect other hosts in the same manner.
You are trying to infect all hosts in a particular high-security network by compromising a single host. Of course, a compromised host will be infected with a hopper. Though it may be an impossible mission, you realize that you can trick the administrator into installing new direct links between hosts by submitting IT requests.
Too many requests may arouse suspicion. Find the minimum number of IT requests you have to submit to ensure that there exists a single host such that if it is infected with a hopper, then it will propagate to the entire network.
Input
The first line contains two integers $N$ and $M$, where $3 \le N \le 5 \cdot 10^5$ and $2 \le M \le 5 \cdot 10^5$. The next $M$ lines contain two integers $u$ and $v$ ($1 \le u, v \le N$), representing a direct link between hosts $u$ and $v$. There is at most one direct link between any pair of hosts, and no host is directly linked to itself.
Output
The output contains an integer in a line representing the minimum number of IT requests you must send.
Explanation
In the first example, there are $N = 3$ hosts and $M = 2$ direct links $\{ (1,2),(2,3)\} $. In this network, there is no way to spread the hopper to all hosts by compromising only a single host, e.g., if we compromise host $1$, then only hosts $1$ and $3$ are infected, etc. We need to submit one IT request to connect $(1,3)$ to achieve our goal. By doing so, if we compromise host $1$, all hosts $1$, $2$, and $3$ are infected. $1 \rightarrow 3 \rightarrow 2$ (thus, host $2$ is infected). $1 \rightarrow 2 \rightarrow 3$ (thus, host $3$ is infected).
Sample Input 1 | Sample Output 1 |
---|---|
3 2 1 2 2 3 |
1 |
Sample Input 2 | Sample Output 2 |
---|---|
5 10 1 2 2 3 3 4 4 5 5 1 1 3 2 4 3 5 4 1 5 2 |
0 |
Sample Input 3 | Sample Output 3 |
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12 13 2 3 3 4 4 5 5 2 6 7 7 8 8 9 9 10 10 7 9 12 12 11 11 6 12 7 |
3 |