class Union_Find(): def __init__(self, n): self.n = n self.parents = [-1] * n def find(self, x): if self.parents[x] < 0: return x else: self.parents[x] = self.find(self.parents[x]) return self.parents[x] def union(self, x, y): x = self.find(x) y = self.find(y) if x == y: return if self.parents[x] > self.parents[y]: x, y = y, x self.parents[x] += self.parents[y] self.parents[y] = x def size(self, x): return -self.parents[self.find(x)] def same(self, x, y): return self.find(x) == self.find(y) def members(self, x): root = self.find(x) return [i for i in range(self.n) if self.find(i) == root] def roots(self): return [i for i, x in enumerate(self.parents) if x < 0] def group_count(self): return len(self.roots()) def all_group_members(self): return {r: self.members(r) for r in self.roots()} def __str__(self): return '\n'.join('{}: {}'.format(r, self.members(r)) for r in self.roots()) #----------------------------------------------------------- H,W=map(int,input().split()) I=0 A=[] S=set() D={} L=[] X=0 for i in range(H): F=list(map(int,input().split())) A.append(F) for j in range(W): if F[j]==1: S.add(I) L.append(I) D[I]=X X+=1 I+=1 Z=Union_Find(X) I=0 for y in range(W): for x in range(H): if I in S: if (I+1)%W: if I+1 in S: Q=D[I] Z.union(Q,Q+1) if I+W in S: Z.union(D[I],D[I+W]) I+=1 print(Z.group_count())