import sys from copy import deepcopy readline = sys.stdin.readline class Fenwick_Tree: def __init__(self,N:int): self.N = N self.dat = [0]*(N+1) def inc(self,p:int): p += 1 while p <= self.N: self.dat[p] += 1 p += p&-p def dec(self,p:int): p += 1 while p <= self.N: self.dat[p] -= 1 p += p&-p def _sum(self,r:int): s = 0 while r: s += self.dat[r] r -= r&-r return s class EulerTour: def __init__(self,G): self.N = len(G) self.begin = [0]*self.N self.end = [0]*self.N self.B_v = Fenwick_Tree(self.N*2) cnt = 0 f = 0 itr = [0]*self.N par = [0]*self.N par[f] = -1 while f != -1: if itr[f] == 0: self.begin[f] = cnt;cnt+=1 if itr[f] == len(G[f]): self.end[f] = cnt;cnt+=1 f = par[f] continue par[G[f][itr[f]]] = f itr[f]+=1 f = G[f][itr[f]-1] def add(self,p:int): self.B_v.inc(self.begin[p]) self.B_v.dec(self.end[p]) query = lambda self,p:self.B_v._sum(self.begin[p]+1) def main(): N = int(readline()) S = tuple(list(map(lambda c:ord(c)-97,readline().rstrip())) for _ in range(N)) Q = int(readline()) T = [0]*Q X = [0]*Q C = [0]*Q for i in range(Q): I = readline().split() T[i] = int(I[0]);X[i] = int(I[1])-1 if T[i]==1:C[i] = ord(I[2][0])-97 len_node = 1 nex = [[-1]*26 for i in range(400000)] S2 = deepcopy(S) for i in range(Q): if T[i] == 1: S2[X[i]].append(C[i]) for i in range(N): now_node = 0 for z in S2[i]: if nex[now_node][z] == -1: nex[now_node][z] = len_node len_node += 1 now_node = nex[now_node][z] V = len_node Eul = EulerTour(tuple(tuple(elem for elem in nex[i] if elem != -1) for i in range(V))) now_nodes = [0]*N for i in range(N): for z in S[i]: now_nodes[i] = nex[now_nodes[i]][z] Eul.add(now_nodes[i]) for t,x,c in zip(T,X,C): if t == 1: now_nodes[x] = nex[now_nodes[x]][c] Eul.add(now_nodes[x]) else: print(Eul.query(now_nodes[x])) if __name__ == "__main__": main()