def main(): network = Network.get_instance() nodes = ['Alice', 'Bob', 'Eve'] network.delay = 0.2 network.start(nodes) host_alice = Host('Alice') host_bob = Host('Bob') host_eve = Host('Eve') host_alice.add_connection('Bob') host_bob.add_connection('Alice') host_bob.add_connection('Eve') host_eve.add_connection('Bob') host_alice.start() host_bob.start() host_eve.start() network.add_host(host_alice) network.add_host(host_bob) network.add_host(host_eve) q = Qubit(host_alice) q.X() host_alice.send_teleport('Eve', q, await_ack=True) q_eve = host_eve.get_data_qubit(host_alice.host_id, q.id, wait=5) assert q_eve is not None print('Eve measures: %d' % q_eve.measure())
def main(): network = Network.get_instance() nodes = ["Alice", "Bob", "Eve", "Dean"] network.start(nodes) network.delay = 0.1 host_alice = Host('Alice') host_alice.add_connection('Bob') host_alice.start() host_bob = Host('Bob') host_bob.add_connection('Alice') host_bob.add_connection('Eve') host_bob.start() host_eve = Host('Eve') host_eve.add_connection('Bob') host_eve.add_connection('Dean') host_eve.start() host_dean = Host('Dean') host_dean.add_connection('Eve') host_dean.start() network.add_host(host_alice) network.add_host(host_bob) network.add_host(host_eve) network.add_host(host_dean) # Create a qubit owned by Alice q = Qubit(host_alice) # Put the qubit in the excited state q.X() # Send the qubit and await an ACK from Dean q_id, _ = host_alice.send_qubit('Dean', q, await_ack=True) # Get the qubit on Dean's side from Alice q_rec = host_dean.get_data_qubit('Alice', q_id) # Ensure the qubit arrived and then measure and print the results. if q_rec is not None: m = q_rec.measure() print("Results of the measurements for q_id are ", str(m)) else: print('q_rec is none') network.stop(True) exit()