class Unionfind: def __init__(self,n): self.uf = [-1]*n def find(self,x): if self.uf[x] < 0: return x else: self.uf[x] = self.find(self.uf[x]) return self.uf[x] def same(self,x,y): return self.find(x) == self.find(y) def union(self,x,y): x = self.find(x) y = self.find(y) if x == y: return False if self.uf[x] > self.uf[y]: x,y = y,x self.uf[x] += self.uf[y] self.uf[y] = x return True def size(self,x): x = self.find(x) return -self.uf[x] n = int(input()) M = 2*10**5+5 count = [0]*M use = [0]*M uf = Unionfind(M) for i in range(n): h,w = map(int,input().split()) count[h] += 1 count[w] -= 1 use[h] = 1 use[w] = 1 uf.union(h,w) p = 0 m = 0 for i in range(M): if use[i]: if uf.size(i) != sum(use): print(0) exit() else: break for i in range(M): if use[i]: if count[i] == 0: continue if abs(count[i]) != 1: print(0) exit() if count[i] == 1: p += 1 else: m += 1 if p == m == 0: print(n) elif p == m == 1: print(1) else: print(0)