def evaluate(dataset_name, model_name, load_path, calculate_reward=True): seed = 20190827 random.seed(seed) np.random.seed(seed) torch.manual_seed(seed) if dataset_name == 'MultiWOZ': dst_sys = RuleDST() if model_name == "PPO": from convlab2.policy.ppo import PPO if load_path: policy_sys = PPO(False) policy_sys.load(load_path) else: policy_sys = PPO.from_pretrained() elif model_name == "PG": from convlab2.policy.pg import PG if load_path: policy_sys = PG(False) policy_sys.load(load_path) else: policy_sys = PG.from_pretrained() elif model_name == "MLE": from convlab2.policy.mle.multiwoz import MLE if load_path: policy_sys = MLE() policy_sys.load(load_path) else: policy_sys = MLE.from_pretrained() elif model_name == "GDPL": from convlab2.policy.gdpl import GDPL if load_path: policy_sys = GDPL(False) policy_sys.load(load_path) else: policy_sys = GDPL.from_pretrained() elif model_name == "GAIL": from convlab2.policy.gail import GAIL if load_path: policy_sys = GAIL(False) policy_sys.load(load_path) else: policy_sys = GAIL.from_pretrained() dst_usr = None policy_usr = RulePolicy(character='usr') simulator = PipelineAgent(None, None, policy_usr, None, 'user') env = Environment(None, simulator, None, dst_sys) agent_sys = PipelineAgent(None, dst_sys, policy_sys, None, 'sys') evaluator = MultiWozEvaluator() sess = BiSession(agent_sys, simulator, None, evaluator) task_success = {'All': []} for seed in range(100): random.seed(seed) np.random.seed(seed) torch.manual_seed(seed) sess.init_session() sys_response = [] logging.info('-'*50) logging.info(f'seed {seed}') for i in range(40): sys_response, user_response, session_over, reward = sess.next_turn(sys_response) if session_over is True: task_succ = sess.evaluator.task_success() logging.info(f'task success: {task_succ}') logging.info(f'book rate: {sess.evaluator.book_rate()}') logging.info(f'inform precision/recall/f1: {sess.evaluator.inform_F1()}') logging.info('-'*50) break else: task_succ = 0 for key in sess.evaluator.goal: if key not in task_success: task_success[key] = [] else: task_success[key].append(task_succ) task_success['All'].append(task_succ) for key in task_success: logging.info(f'{key} {len(task_success[key])} {np.average(task_success[key]) if len(task_success[key]) > 0 else 0}') if calculate_reward: reward_tot = [] for seed in range(100): s = env.reset() reward = [] value = [] mask = [] for t in range(40): s_vec = torch.Tensor(policy_sys.vector.state_vectorize(s)) a = policy_sys.predict(s) # interact with env next_s, r, done = env.step(a) logging.info(r) reward.append(r) if done: # one due to counting from 0, the one for the last turn break logging.info(f'{seed} reward: {np.mean(reward)}') reward_tot.append(np.mean(reward)) logging.info(f'total avg reward: {np.mean(reward_tot)}') else: raise Exception("currently supported dataset: MultiWOZ")
def evaluate(dataset_name, model_name, load_path): seed = 20200722 random.seed(seed) np.random.seed(seed) torch.manual_seed(seed) if dataset_name == 'MultiWOZ': dst_sys = RuleDST() if model_name == "PPO": from convlab2.policy.ppo import PPO if load_path: policy_sys = PPO(False) policy_sys.load(load_path) else: policy_sys = PPO.from_pretrained() elif model_name == "DQN": from convlab2.policy.dqn.DQN.DQN import DQN if load_path: policy_sys = DQN(False) policy_sys.load(load_path) else: print('Please add load path.') elif model_name == "DQfD_RE": from convlab2.policy.dqn.RE.DQfD import DQfD if load_path: policy_sys = DQfD(False) policy_sys.load(load_path) else: print('Please add load path.') elif model_name == "DQfD_NLE": from convlab2.policy.dqn.NLE.DQfD import DQfD if load_path: policy_sys = DQfD(False) policy_sys.load(load_path) else: print('Please add load path.') elif model_name == "MLE": from convlab2.policy.mle.multiwoz import MLE if load_path: policy_sys = MLE() policy_sys.load(load_path) else: policy_sys = MLE.from_pretrained() policy_usr = RulePolicy(character='usr') simulator = PipelineAgent(None, None, policy_usr, None, 'user') agent_sys = PipelineAgent(None, dst_sys, policy_sys, None, 'sys') evaluator = MultiWozEvaluator() sess = BiSession(agent_sys, simulator, None, evaluator) task_success = 0 evaluator_success = 0 for seed in range(100): random.seed(seed) np.random.seed(seed) torch.manual_seed(seed) sess.init_session() sys_response = [] cur_success = 0 for i in range(40): sys_response, user_response, session_over, reward = sess.next_turn( sys_response) if reward == 80: cur_success = 1 task_success += 1 if session_over is True: break # logging.debug('Current task success: {}, the evaluator result: {}.'.format(cur_success, sess.evaluator.task_success())) evaluator_success += sess.evaluator.task_success() logging.debug('Task success rate: {} and evaluator result: {}.'.format( task_success / 100, evaluator_success / 100)) return task_success / 100, evaluator_success / 100