I am trying to solve this problem:

A intersection I is critical if there are two other intersections J and K such that any route from J to K must necessarily pass through I. Notice that if I is critical, then stopping all the traffic through it disconnects at least one pair of intersections from each other.

You may assume that the roads of Siruseri are such that if all the intersections are usable then one can get from any intersection to any other intersection. All the roads in Siruseri permit traffic in both directions (there are no one way streets). Politicians in Siruseri love to see their names on roads and so every road segment connecting a pair of intersections has a different name. Thus a road merely connects two intersections and never pass through any other intersections.

Road 1 connects I1 and I2

Road 2 connects I2 and I3

Road 3 connects I1 and I3

Road 4 connects I2 and I4

Road 5 connects I2 and I5

Road 6 connects I5 and I4

Then, I2 is a critical intersection because if all the traffic through I2 is blocked then there is no route from I4 to I1 (or I3). Similarly I5 is also cut off from I1 and I3. You can check that no other intersections is critical.

Given the description of the intersections and roads in Siruseri, your task is to determine the number of critical intersections in Siruseri and list them out.

Input format

The first line of the input contains two integers N and M. N is the number of intersections in Siruseri and M is the number of roads. You may assume that the intersections are numbered 1,2,...,N. The next M lines (lines 2,..., M+1) describe the roads in Siruseri. Line i+1 contains two integers in the range 1,...,N indicating the pair of intersections connected by road i.

Output format

The first line of the output must contain a single integer C indicating the number of critical intersections. The next C lines must list out the C critical intersections, one per line.

Test Data:

You may assume that N ≤ 300 and M ≤ 50000.

The only method I could think of is, to take each intersection, and test that every road is possible without it. If not, increment the counter of critical intersections.

This is very slow, so I need another algorithm to solve this problem. I only want an algorithm with explanation -- no code.