Come and Go
In a certain city there are N intersections connected by one-way and two-way streets. It is a modern city, and several of the streets have tunnels or overpasses. Evidently it must be possible to travel between any two intersections. More precisely given two intersections V and W it must be possible to travel from V to W and from W to V.
Your task is to write a program that reads a description of the city street system and determines whether the requirement of connectedness is satisfied or not.
Input
The input contains several test cases. The first line of a test case contains two integers N and M, separated by a space, indicating the number of intersections (2 ≤ N ≤ 2000) and number of streets (2 ≤ M ≤ N(N - 1)/2). The next M lines describe the city street system, with each line describing one street. A street description consists of three integers V, W and P, separated by a blank space, where V and W are distinct identifiers for intersections (1 ≤ V, W ≤ N, V ≠ W) and P can be 1 or 2; if P = 1 the street is one-way, and traffic goes from V to W; if P = 2 then the street is two-way and links V and W. A pair of intersections is connected by at most one street.
The last test case is followed by a line that contains only two zero numbers separated by a blank space.
Output
For each test case your program should print a single line containing an integer G, where G is equal to one if the condition of connectedness is satisfied, and G is zero otherwise.