def sample(self, input_variable, input_lengths=None, target_variable=None,
n_sample=16):
assert input_variable.size(0) == 1, 'sampling時僅能一次輸入一個seq,batch_size=1'
encoder_outputs, encoder_hidden = self.encoder(input_variable, input_lengths)
encoder_outputs = helper.stack(encoder_outputs, n_sample)
encoder_hidden = (helper.stack(encoder_hidden[0], n_sample, dim=1),
helper.stack(encoder_hidden[0], n_sample, dim=1))
decoder_outputs, decoder_hiddens, ret_dict = self.decoder.sample(
inputs=target_variable, encoder_hidden=encoder_hidden, encoder_outputs=encoder_outputs)
return encoder_outputs, decoder_outputs, decoder_hiddens, ret_dict
def StepPGLoss(G, D, src_seq):
''' Policy gradient training on G '''
src_pos = G.get_position(src_seq.data)
enc_output, *_ = G.encoder(src_seq, src_pos)
dec_seq = autograd.Variable(torch.LongTensor(1, 1).fill_(Constants.BOS))
if torch.cuda.is_available():
dec_seq = dec_seq.cuda()
rewards = None
probs = None
# decode
for i in range(G.max_len):
rollout_tokens, prob = G.step_rollout(src_seq,
enc_output,
dec_seq,
n_rollout=6)
rollout_tokens = rollout_tokens.transpose(1, 0) # (n_rollout, 1)
partial_seq = helper.stack(dec_seq.data, 6) # (n_rollout, cur_len)
partial_seq = torch.cat([partial_seq, rollout_tokens],
dim=1) # (n_rollout, cur_len+1)
if partial_seq.size(1) < D.min_len:
partial_seq = helper.pad_seq(partial_seq, D.min_len, Constants.PAD)
partial_seq = autograd.Variable(partial_seq)
reward = D(partial_seq)
top_i = reward.max(dim=0)[1].data
next_token = rollout_tokens.squeeze(1)[top_i] # 選reward最高的為下個token
next_token = autograd.Variable(
next_token.unsqueeze(1)) # 需轉為variable,torch.cat()才不會出錯
dec_seq = torch.cat([dec_seq, next_token], dim=1)
rewards = torch.cat([rewards, reward
]) if rewards is not None else reward
probs = torch.cat([probs, prob]) if probs is not None else reward
# probs += list(prob.split(1))
if next_token[0] == Constants.EOS:
break
# print(rewards)
loss = -torch.mean(rewards * probs)
return loss
def main():
parser = argparse.ArgumentParser()
opt = options.train_options(parser)
opt = parser.parse_args()
opt.cuda = torch.cuda.is_available()
opt.device = None if opt.cuda else -1
# 快速變更設定
opt.exp_dir = './experiment/transformer-reinforce/use_billion'
opt.load_vocab_from = './experiment/transformer/lang8-cor2err/vocab.pt'
opt.build_vocab_from = './data/billion/billion.30m.model.vocab'
opt.load_D_from = opt.exp_dir
# opt.load_D_from = None
# dataset params
opt.max_len = 20
# G params
# opt.load_G_a_from = './experiment/transformer/lang8-err2cor/'
# opt.load_G_b_from = './experiment/transformer/lang8-cor2err/'
opt.d_word_vec = 300
opt.d_model = 300
opt.d_inner_hid = 600
opt.n_head = 6
opt.n_layers = 3
opt.embs_share_weight = False
opt.beam_size = 1
opt.max_token_seq_len = opt.max_len + 2 # 包含<BOS>, <EOS>
opt.n_warmup_steps = 4000
# D params
opt.embed_dim = opt.d_model
opt.num_kernel = 100
opt.kernel_sizes = [3, 4, 5, 6, 7]
opt.dropout_p = 0.25
# train params
opt.batch_size = 1
opt.n_epoch = 10
if not os.path.exists(opt.exp_dir):
os.makedirs(opt.exp_dir)
logging.basicConfig(filename=opt.exp_dir + '/.log',
format=LOG_FORMAT,
level=logging.DEBUG)
logging.getLogger().addHandler(logging.StreamHandler())
logging.info('Use CUDA? ' + str(opt.cuda))
logging.info(opt)
# ---------- prepare dataset ----------
def len_filter(example):
return len(example.src) <= opt.max_len and len(
example.tgt) <= opt.max_len
EN = SentencePieceField(init_token=Constants.BOS_WORD,
eos_token=Constants.EOS_WORD,
batch_first=True,
include_lengths=True)
train = datasets.TranslationDataset(path='./data/dualgan/train',
exts=('.billion.sp', '.use.sp'),
fields=[('src', EN), ('tgt', EN)],
filter_pred=len_filter)
val = datasets.TranslationDataset(path='./data/dualgan/val',
exts=('.billion.sp', '.use.sp'),
fields=[('src', EN), ('tgt', EN)],
filter_pred=len_filter)
train_lang8, val_lang8 = Lang8.splits(exts=('.err.sp', '.cor.sp'),
fields=[('src', EN), ('tgt', EN)],
train='test',
validation='test',
test=None,
filter_pred=len_filter)
# 讀取 vocabulary(確保一致)
try:
logging.info('Load voab from %s' % opt.load_vocab_from)
EN.load_vocab(opt.load_vocab_from)
except FileNotFoundError:
EN.build_vocab_from(opt.build_vocab_from)
EN.save_vocab(opt.load_vocab_from)
logging.info('Vocab len: %d' % len(EN.vocab))
# 檢查Constants是否有誤
assert EN.vocab.stoi[Constants.BOS_WORD] == Constants.BOS
assert EN.vocab.stoi[Constants.EOS_WORD] == Constants.EOS
assert EN.vocab.stoi[Constants.PAD_WORD] == Constants.PAD
assert EN.vocab.stoi[Constants.UNK_WORD] == Constants.UNK
# ---------- init model ----------
# G = build_G(opt, EN, EN)
hidden_size = 512
bidirectional = True
encoder = EncoderRNN(len(EN.vocab),
opt.max_len,
hidden_size,
n_layers=1,
bidirectional=bidirectional)
decoder = DecoderRNN(len(EN.vocab),
opt.max_len,
hidden_size * 2 if bidirectional else 1,
n_layers=1,
dropout_p=0.2,
use_attention=True,
bidirectional=bidirectional,
eos_id=Constants.EOS,
sos_id=Constants.BOS)
G = Seq2seq(encoder, decoder)
for param in G.parameters():
param.data.uniform_(-0.08, 0.08)
# optim_G = ScheduledOptim(optim.Adam(
# G.get_trainable_parameters(),
# betas=(0.9, 0.98), eps=1e-09),
# opt.d_model, opt.n_warmup_steps)
optim_G = optim.Adam(G.parameters(), lr=1e-4, betas=(0.9, 0.98), eps=1e-09)
loss_G = NLLLoss(size_average=False)
if torch.cuda.is_available():
loss_G.cuda()
# # 預先訓練D
if opt.load_D_from:
D = load_model(opt.load_D_from)
else:
D = build_D(opt, EN)
optim_D = torch.optim.Adam(D.parameters(), lr=1e-4)
def get_criterion(vocab_size):
''' With PAD token zero weight '''
weight = torch.ones(vocab_size)
weight[Constants.PAD] = 0
return nn.CrossEntropyLoss(weight, size_average=False)
crit_G = get_criterion(len(EN.vocab))
crit_D = nn.BCELoss()
if opt.cuda:
G.cuda()
D.cuda()
crit_G.cuda()
crit_D.cuda()
# ---------- train ----------
trainer_D = trainers.DiscriminatorTrainer()
if not opt.load_D_from:
for epoch in range(1):
logging.info('[Pretrain D Epoch %d]' % epoch)
pool = helper.DiscriminatorDataPool(opt.max_len, D.min_len,
Constants.PAD)
# 將資料塞進pool中
train_iter = data.BucketIterator(dataset=train,
batch_size=opt.batch_size,
device=opt.device,
sort_key=lambda x: len(x.src),
repeat=False)
pool.fill(train_iter)
# train D
trainer_D.train(D,
train_iter=pool.batch_gen(),
crit=crit_D,
optimizer=optim_D)
pool.reset()
Checkpoint(model=D,
optimizer=optim_D,
epoch=0,
step=0,
input_vocab=EN.vocab,
output_vocab=EN.vocab).save(opt.exp_dir)
def eval_D():
pool = helper.DiscriminatorDataPool(opt.max_len, D.min_len,
Constants.PAD)
val_iter = data.BucketIterator(dataset=val,
batch_size=opt.batch_size,
device=opt.device,
sort_key=lambda x: len(x.src),
repeat=False)
pool.fill(val_iter)
trainer_D.evaluate(D, val_iter=pool.batch_gen(), crit=crit_D)
# eval_D()
# Train G
ALPHA = 0
for epoch in range(100):
logging.info('[Epoch %d]' % epoch)
train_iter = data.BucketIterator(dataset=train,
batch_size=1,
device=opt.device,
sort_within_batch=True,
sort_key=lambda x: len(x.src),
repeat=False)
for step, batch in enumerate(train_iter):
src_seq = batch.src[0]
src_length = batch.src[1]
tgt_seq = src_seq[0].clone()
# gold = tgt_seq[:, 1:]
optim_G.zero_grad()
loss_G.reset()
decoder_outputs, decoder_hidden, other = G.rollout(src_seq,
None,
None,
n_rollout=1)
for i, step_output in enumerate(decoder_outputs):
batch_size = tgt_seq.size(0)
# print(step_output)
# loss_G.eval_batch(step_output.contiguous().view(batch_size, -1), tgt_seq[:, i + 1])
softmax_output = torch.exp(
torch.cat([x for x in decoder_outputs], dim=0)).unsqueeze(0)
softmax_output = helper.stack(softmax_output, 8)
print(softmax_output)
rollout = softmax_output.multinomial(1)
print(rollout)
tgt_seq = helper.pad_seq(tgt_seq.data,
max_len=len(decoder_outputs) + 1,
pad_value=Constants.PAD)
tgt_seq = autograd.Variable(tgt_seq)
for i, step_output in enumerate(decoder_outputs):
batch_size = tgt_seq.size(0)
loss_G.eval_batch(
step_output.contiguous().view(batch_size, -1),
tgt_seq[:, i + 1])
G.zero_grad()
loss_G.backward()
optim_G.step()
if step % 100 == 0:
pred = torch.cat([x for x in other['sequence']], dim=1)
print('[step %d] loss_rest %.4f' %
(epoch * len(train_iter) + step, loss_G.get_loss()))
print('%s -> %s' %
(EN.reverse(tgt_seq.data)[0], EN.reverse(pred.data)[0]))
# Reinforce Train G
for p in D.parameters():
p.requires_grad = False