def __init__(self, pretrain=False):
config = MultiWozConfig()
manager = UserDataManager(config.data_dir, config.data_file)
voc_goal_size, voc_usr_size, voc_sys_size = manager.get_voc_size()
self.user = VHUS(config, voc_goal_size, voc_usr_size, voc_sys_size).to(device=DEVICE)
self.optim = optim.Adam(self.user.parameters(), lr=config.lr_simu)
self.goal_gen = GoalGenerator(config.data_dir+'/goal/goal_model.pkl')
self.cfg = config
self.manager = manager
self.user.eval()
if pretrain:
self.print_per_batch = config.print_per_batch
self.save_dir = config.save_dir
self.save_per_epoch = config.save_per_epoch
seq_goals, seq_usr_dass, seq_sys_dass = manager.data_loader_seg()
train_goals, train_usrdas, train_sysdas, \
test_goals, test_usrdas, test_sysdas, \
val_goals, val_usrdas, val_sysdas = manager.train_test_val_split_seg(
seq_goals, seq_usr_dass, seq_sys_dass)
self.data_train = (train_goals, train_usrdas, train_sysdas, config.batchsz)
self.data_valid = (val_goals, val_usrdas, val_sysdas, config.batchsz)
self.data_test = (test_goals, test_usrdas, test_sysdas, config.batchsz)
self.nll_loss = nn.NLLLoss(ignore_index=0) # PAD=0
self.bce_loss = nn.BCEWithLogitsLoss()
else:
self.load(config.load)
def __init__(self, goal_generator: GoalGenerator, seed=None):
"""
create new Goal by random
Args:
goal_generator (GoalGenerator): Goal Gernerator.
"""
self.domain_goals = goal_generator.get_user_goal(seed)
self.domains = list(self.domain_goals['domain_ordering'])
del self.domain_goals['domain_ordering']
for domain in self.domains:
if 'reqt' in self.domain_goals[domain].keys():
self.domain_goals[domain]['reqt'] = {slot: DEF_VAL_UNK for slot in self.domain_goals[domain]['reqt']}
if 'book' in self.domain_goals[domain].keys():
self.domain_goals[domain]['booked'] = DEF_VAL_UNK
def __init__(self, max_goal_num=1005, seed=2019):
"""
Constructor for User_Policy_Agenda class.
"""
self.max_turn = 40
self.max_initiative = 4
self.goal_generator = GoalGenerator(corpus_path='data/multiwoz/annotated_user_da_with_span_full.json')
self.__turn = 0
self.goal = None
self.agenda = None
random.seed(seed)
self.goal_seeds = [random.randint(1,1e7) for i in range(max_goal_num)]
#UserPolicy.__init__(self, act_types, slots, slot_dict)
UserPolicy.__init__(self)
def __init__(self, opt, agent,
num_extra_trial=2,
max_turn=50,
max_resp_time=120,
model_agent_opt=None,
world_tag='',
agent_timeout_shutdown=120):
self.opt = opt
self.agent = agent
self.turn_idx = 1
self.hit_id = None
self.max_turn = max_turn
self.num_extra_trial = num_extra_trial
self.dialog = []
self.task_type = 'sandbox' if opt['is_sandbox'] else 'live'
self.eval_done = False
self.chat_done = False
self.success = False
self.success_attempts = []
self.fail_attempts = []
self.fail_reason = None
self.understanding_score = -1
self.understanding_reason = None
self.appropriateness_score = -1
self.appropriateness_reason = None
self.world_tag = world_tag
self.ratings = ['1', '2', '3', '4', '5']
super().__init__(opt, agent)
# set up model agent
self.model_agents = {
# "cambridge": CambridgeBot(),
# "sequicity": SequicityBot(),
# "RuleBot": RuleBot(),
"DQNBot": DQNBot()
}
# self.model_agent = RuleBot()
# self.model_agent = DQNBot()
self.model_name = random.choice(list(self.model_agents.keys()))
self.model_agent = self.model_agents[self.model_name]
print("Bot is loaded")
# below are timeout protocols
self.max_resp_time = max_resp_time # in secs
self.agent_timeout_shutdown = agent_timeout_shutdown
# set up personas
self.goal = None
goal_generator = GoalGenerator(boldify=True)
num_goal_trials = 0
while num_goal_trials < 100 and self.goal == None:
try:
self.goal = goal_generator.get_user_goal()
except Exception as e:
print(e)
num_goal_trials += 1
self.goal_message = goal_generator.build_message(self.goal)
self.goal_text = '<ul>'
for m in self.goal_message:
self.goal_text += '<li>' + m + '</li>'
self.goal_text += '</ul>'
print(self.goal_text)
self.state = deepcopy(self.goal)
class UserNeural():
def __init__(self, pretrain=False):
config = MultiWozConfig()
manager = UserDataManager(config.data_dir, config.data_file)
voc_goal_size, voc_usr_size, voc_sys_size = manager.get_voc_size()
self.user = VHUS(config, voc_goal_size, voc_usr_size, voc_sys_size).to(device=DEVICE)
self.optim = optim.Adam(self.user.parameters(), lr=config.lr_simu)
self.goal_gen = GoalGenerator(config.data_dir+'/goal/goal_model.pkl')
self.cfg = config
self.manager = manager
self.user.eval()
if pretrain:
self.print_per_batch = config.print_per_batch
self.save_dir = config.save_dir
self.save_per_epoch = config.save_per_epoch
seq_goals, seq_usr_dass, seq_sys_dass = manager.data_loader_seg()
train_goals, train_usrdas, train_sysdas, \
test_goals, test_usrdas, test_sysdas, \
val_goals, val_usrdas, val_sysdas = manager.train_test_val_split_seg(
seq_goals, seq_usr_dass, seq_sys_dass)
self.data_train = (train_goals, train_usrdas, train_sysdas, config.batchsz)
self.data_valid = (val_goals, val_usrdas, val_sysdas, config.batchsz)
self.data_test = (test_goals, test_usrdas, test_sysdas, config.batchsz)
self.nll_loss = nn.NLLLoss(ignore_index=0) # PAD=0
self.bce_loss = nn.BCEWithLogitsLoss()
else:
self.load(config.load)
def user_loop(self, data):
batch_input = to_device(padding_data(data))
a_weights, t_weights, argu = self.user(batch_input['goals'], batch_input['goals_length'], \
batch_input['posts'], batch_input['posts_length'], batch_input['origin_responses'])
loss_a, targets_a = 0, batch_input['origin_responses'][:, 1:] # remove sos_id
for i, a_weight in enumerate(a_weights):
loss_a += self.nll_loss(a_weight, targets_a[:, i])
loss_a /= i
loss_t = self.bce_loss(t_weights, batch_input['terminal'])
loss_a += self.cfg.alpha * kl_gaussian(argu)
return loss_a, loss_t
def imitating(self, epoch):
"""
train the user simulator by simple imitation learning (behavioral cloning)
"""
self.user.train()
a_loss, t_loss = 0., 0.
data_train_iter = batch_iter(self.data_train[0], self.data_train[1], self.data_train[2], self.data_train[3])
for i, data in enumerate(data_train_iter):
self.optim.zero_grad()
loss_a, loss_t = self.user_loop(data)
a_loss += loss_a.item()
t_loss += loss_t.item()
loss = loss_a + loss_t
loss.backward()
self.optim.step()
if (i+1) % self.print_per_batch == 0:
a_loss /= self.print_per_batch
t_loss /= self.print_per_batch
logging.debug('<<user simulator>> epoch {}, iter {}, loss_a:{}, loss_t:{}'.format(epoch, i, a_loss, t_loss))
a_loss, t_loss = 0., 0.
if (epoch+1) % self.save_per_epoch == 0:
self.save(self.save_dir, epoch)
self.user.eval()
def imit_test(self, epoch, best):
"""
provide an unbiased evaluation of the user simulator fit on the training dataset
"""
a_loss, t_loss = 0., 0.
data_valid_iter = batch_iter(self.data_valid[0], self.data_valid[1], self.data_valid[2], self.data_valid[3])
for i, data in enumerate(data_valid_iter):
loss_a, loss_t = self.user_loop(data)
a_loss += loss_a.item()
t_loss += loss_t.item()
a_loss /= i
t_loss /= i
logging.debug('<<user simulator>> validation, epoch {}, loss_a:{}, loss_t:{}'.format(epoch, a_loss, t_loss))
loss = a_loss + t_loss
if loss < best:
logging.info('<<user simulator>> best model saved')
best = loss
self.save(self.save_dir, 'best')
a_loss, t_loss = 0., 0.
data_test_iter = batch_iter(self.data_test[0], self.data_test[1], self.data_test[2], self.data_test[3])
for i, data in enumerate(data_test_iter):
loss_a, loss_t = self.user_loop(data)
a_loss += loss_a.item()
t_loss += loss_t.item()
a_loss /= i
t_loss /= i
logging.debug('<<user simulator>> test, epoch {}, loss_a:{}, loss_t:{}'.format(epoch, a_loss, t_loss))
return best
def test(self):
def sequential(da_seq):
da = []
cur_act = None
for word in da_seq:
if word in ['<PAD>', '<UNK>', '<SOS>', '<EOS>', '(', ')']:
continue
if '-' in word:
cur_act = word
else:
if cur_act is None:
continue
da.append(cur_act+'-'+word)
return da
def f1(pred, real):
if not real:
return 0, 0, 0
TP, FP, FN = 0, 0, 0
for item in real:
if item in pred:
TP += 1
else:
FN += 1
for item in pred:
if item not in real:
FP += 1
return TP, FP, FN
data_test_iter = batch_iter(self.data_test[0], self.data_test[1], self.data_test[2], self.data_test[3])
a_TP, a_FP, a_FN, t_corr, t_tot = 0, 0, 0, 0, 0
eos_id = self.user.usr_decoder.eos_id
for i, data in enumerate(data_test_iter):
batch_input = to_device(padding_data(data))
a_weights, t_weights, argu = self.user(batch_input['goals'], batch_input['goals_length'], \
batch_input['posts'], batch_input['posts_length'], batch_input['origin_responses'])
usr_a = []
for a_weight in a_weights:
usr_a.append(a_weight.argmax(1).cpu().numpy())
usr_a = np.array(usr_a).T.tolist()
a = []
for ua in usr_a:
if eos_id in ua:
ua = ua[:ua.index(eos_id)]
a.append(sequential(self.manager.id2sentence(ua)))
targets_a = []
for ua_sess in data[1]:
for ua in ua_sess:
targets_a.append(sequential(self.manager.id2sentence(ua[1:-1])))
TP, FP, FN = f1(a, targets_a)
a_TP += TP
a_FP += FP
a_FN += FN
t = t_weights.ge(0).cpu().tolist()
targets_t = batch_input['terminal'].cpu().long().tolist()
judge = np.array(t) == np.array(targets_t)
t_corr += judge.sum()
t_tot += judge.size
prec = a_TP / (a_TP + a_FP)
rec = a_TP / (a_TP + a_FN)
F1 = 2 * prec * rec / (prec + rec)
print(a_TP, a_FP, a_FN, F1)
print(t_corr, t_tot, t_corr/t_tot)
def save(self, directory, epoch):
if not os.path.exists(directory):
os.makedirs(directory)
torch.save(self.user.state_dict(), directory + '/' + str(epoch) + '_simulator.mdl')
logging.info('<<user simulator>> epoch {}: saved network to mdl'.format(epoch))
def load(self, filename):
user_mdl = filename + '_simulator.mdl'
if os.path.exists(user_mdl):
self.user.load_state_dict(torch.load(user_mdl))
logging.info('<<user simulator>> loaded checkpoint from file: {}'.format(user_mdl))
def init_session(self):
self.time_step = -1
self.topic = 'NONE'
self.goal = self.goal_gen.get_user_goal()
self.goal_input = torch.LongTensor(self.manager.get_goal_id(self.manager.usrgoal2seq(self.goal)))
self.goal_len_input = torch.LongTensor([len(self.goal_input)]).squeeze()
self.sys_da_id_stack = [] # to save sys da history
def predict(self, state, sys_action):
"""
Predict an user act based on state and preorder system action.
Args:
state (tuple): Dialog state.
sys_action (tuple): Preorder system action.s
Returns:
usr_action (tuple): User act.
session_over (boolean): True to terminate session, otherwise session continues.
reward (float): Reward given by user.
"""
sys_seq_turn = self.manager.sysda2seq(self.manager.ref_data2stand(sys_action), self.goal)
self.sys_da_id_stack += self.manager.get_sysda_id([sys_seq_turn])
sys_seq_len = torch.LongTensor([max(len(sen), 1) for sen in self.sys_da_id_stack])
max_sen_len = sys_seq_len.max().item()
sys_seq = torch.LongTensor(padding(self.sys_da_id_stack, max_sen_len))
usr_a, terminal = self.user.select_action(self.goal_input, self.goal_len_input, sys_seq, sys_seq_len)
usr_action = self.manager.usrseq2da(self.manager.id2sentence(usr_a), self.goal)
return capital(usr_action), terminal
