from alice import Alice
from bob import Bob
from channel import QChannelImpl
from threading import Thread
import typing


def run_qkd(alice, bob, n=1000):
    alice_thread = Thread(target=lambda: alice.generate_key(n))
    bob_thread = Thread(target=lambda: bob.generate_key(n))
    alice_thread.start()
    bob_thread.start()
    while alice_thread.is_alive() or bob_thread.is_alive():
        pass


def get_e_and_r(alice, bob, n=1000) -> typing.Tuple[float, float]:
    return 1 - sum(k1 == k2 for k1, k2 in zip(alice.key, bob.key)) / len(alice.key), len(alice.key) / n


if __name__ == '__main__':
    N = 1000
    channel = QChannelImpl()
    alice, bob = Alice(channel), Bob(channel)
    run_qkd(alice, bob)
    # print(list(map(int, alice.key)))
    # print(list(map(int, bob.key)))
    # print('Alice bits:   ', *list(map(int, alice.sent)))
    # print('Bob bits:     ',
    #       *list(map(lambda t: {(0, 1): 1, (1, 0): 0, (0, 0): 2, (1, 1): 3}[(int(t[0]), int(t[1]))], bob.my_results)))
    # print('Alice basises:', *list(map(int, alice.my_basises)))
    # print('Bob basises:  ', *list(map(int, bob.my_basises)))
    # bob_correctness = [left + right == 1 for left, right in bob.my_results]
    # print('              ', *[
    #     int(k) if c and b1 == b2 else ' '
    #     for c, k, b1, b2 in zip(bob_correctness, alice.sent, bob.my_basises, alice.my_basises)])
    # print('              ', *[
    #     {(0, 1): 1, (1, 0): 0, (0, 0): 2, (1, 1): 3}[(int(k[0]), int(k[1]))] if c and b1 == b2 else ' '
    #     for c, k, b1, b2 in zip(bob_correctness, bob.my_results, bob.my_basises, alice.my_basises)])
    # print(f'{100 * sum(k1 == k2 for k1, k2 in zip(alice.key, bob.key)) / len(alice.key):.2f}%, key length: {len(alice.key)}')
    e, r = get_e_and_r(alice, bob, N)
    print(f'E: {e * 100:.1f}%, R: {r}')