#!/usr/bin/env python
# -*- coding: utf-8 -*-

#(to, cap, rev)
class ford_fulkerson:
    def __init__(self,V):
        self.V = V
        self.size = [0 for i in range(V)]
        self.G = [[] for i in range(V)]

    def add_edge(self, _from, to, cap):
        self.size[_from]
        self.G[_from].append((to, cap, self.size[to]))
        self.G[to].append((_from, 0, self.size[_from]))
        self.size[_from] += 1
        self.size[to] += 1

    def dfs(self, v, t, f):
        if v == t: return f
        self.used[v] = True
        for i in range(len(self.G[v])):
            to, cap, rev = self.G[v][i]
            if self.used[to] is False and cap > 0:
                d = self.dfs(to, t, f if f < cap else cap)
                if d > 0:
                    self.G[v][i] = (to, cap - d, rev)
                    self.G[to][rev] = (self.G[to][rev][0], self.G[to][rev][1] + d, self.G[to][rev][2])
                    return d
        return 0

    def max_flow(self, s, t):
        flow = 0
        while True:
            self.used = [False for _ in range(self.V)]
            f = self.dfs(s, t, float('inf'))
            if f == 0:
                return flow
            flow += f

W = int(input())
N = int(input())
J = list(map(int,input().split()))
M = int(input())
C = list(map(int,input().split()))

ff = ford_fulkerson(N+M+2)
for i in range(1,N+1):
    ff.add_edge(0,i,J[i-1])

for i in range(N+1,N+M+1):
    ff.add_edge(i,N+M+1,C[i-(N+1)])
    Q = list(map(int,input().split()))
    counter = 1
    for j in range(1,N+1):
        if Q[0] == 0 or Q[counter]  != j:
            ff.add_edge(j, i, 10**8) 
        elif Q[0] != 0 and Q[counter]  == j:
            ff.add_edge(j, i, 0)
            counter += 1 if counter < Q[0] else 0


if ff.max_flow(0,N+M+1) >= W:
    print('SHIROBAKO')
else:
    print('BANSAKUTSUKITA')