from typing import List class UnionFind: """0-indexed""" def __init__(self, n): self.n = n self.parent = [-1] * n self.__group_count = n def unite(self, x, y) -> bool: """xとyをマージ""" x = self.root(x) y = self.root(y) if x == y: return False self.__group_count -= 1 if self.parent[x] > self.parent[y]: x, y = y, x self.parent[x] += self.parent[y] self.parent[y] = x return True def is_same(self, x, y) -> bool: """xとyが同じ連結成分か判定""" return self.root(x) == self.root(y) def root(self, x) -> int: """xの根を取得""" if self.parent[x] < 0: return x else: # 経路圧縮あり # self.parent[x] = self.root(self.parent[x]) # return self.parent[x] # 経路圧縮なし return self.root(self.parent[x]) def size(self, x) -> int: """xが属する連結成分のサイズを取得""" return -self.parent[self.root(x)] def all_sizes(self) -> List[int]: """全連結成分のサイズのリストを取得 O(N)""" sizes = [] for i in range(self.n): size = self.parent[i] if size < 0: sizes.append(-size) return sizes def members(self, x) -> List[int]: """xが属するグループのリストを返す O(N)""" mem = [] r = self.root(x) for i in range(self.n): if self.root(i) == r: mem.append(i) return mem def groups(self) -> List[List[int]]: """全連結成分の内容のリストを取得 O(N・α(N))""" groups = dict() for i in range(self.n): p = self.root(i) if not groups.get(p): groups[p] = [] groups[p].append(i) return list(groups.values()) @property def group_count(self) -> int: """連結成分の数を取得 O(1)""" return self.__group_count import sys input = sys.stdin.readline N = int(input()) d = [[0,0] for _ in range(2*10**5)] uf = UnionFind(2*10**5) a = set() for i in range(N): h,w = map(int, input().split()) h-=1;w-=1 uf.unite(h,w) d[h][0]+=1 d[w][1]+=1 a.add(h) a.add(w) if i==0:f = h r = uf.root(f) for i in a: if uf.root(i)!=r: print(0) exit() c = [0,0,0] for i in range(N): nn = d[i][0]-d[i][1] if nn<-1 or nn>1: print(0) exit() c[nn+1] += 1 if c[1]==N: print(N) elif c[0]==1 and c[2]==1: print(1) else: print(0)