def seq_to_num(seq): num_list = [] for c in seq[::-1]: if c == '.': num_list.append(0) else: num_list.append(1) # print(num_list) num = 0 for i in range(len(num_list)): num += num_list[i] * (2**i) return num def test_seq_to_num(): seq1 = ['.', 'X', 'X'] seq2 = ['.', '.', '.'] seq3 = ['.', '.', 'X'] seq4 = ['X', 'X', 'X'] seqs = [seq1, seq2, seq3, seq4] for seq in seqs: num = seq_to_num(seq) print(f"{seq}: {num}") if __name__ == "__main__": # test_seq_to_num() R, K = [int(c) for c in input().split(" ")] start_state = list(input()) # print(R, K) # print(start_state) # 0. turn R into binary array # print(bin(R)) bin_R = [int(c) for c in list(bin(R)[2:])] # print(bin_R) # 0.1 pad with zeros sequences = [(1,1,1), (1,1,0), (1,0,1), (1,0,0), (0,1,1), (0,1,0), (0,0,1), (0,0,0)] bin_R = [*[0 for _ in range(8-len(bin_R))], *bin_R] # print("bin_array: ", bin_R) seq_2_res = {} for i, seq in enumerate(sequences): seq_2_res[seq] = bin_R[i] # print(seq_2_res) # for k in range(K): curr_state = start_state.copy() for i in range(0, len(start_state)): # 1. create current sequence if i > 0 and i < len(start_state)-1: curr_seq = start_state[i-1:i+2] elif i == 0: curr_seq = ['.', *start_state[0:2]] else: curr_seq = [*start_state[i-1:i+1], '.'] # print("i: ", curr_seq) # 2. assign new value to i-th value int_seq = [0,0,0] for j, c in enumerate(curr_seq): if c == "X": int_seq[j] = 1 else: int_seq[j] = 0 # num = seq_to_num(curr_seq) # print(f"i={i}, seq={curr_seq}, int_seq = {int_seq}, map={seq_2_res[tuple(int_seq)]}") res = '.' if seq_2_res[tuple(int_seq)] == 0 else 'X' # print(f"num={num}, res={res}") curr_state[i] = res print(''.join(curr_state)) start_state = curr_state # break