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train_paired_mt_RCSLS_submap.py
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train_paired_mt_RCSLS_submap.py
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from __future__ import absolute_import
from __future__ import division
from __future__ import print_function
import pdb
import datetime
import yaml
import io
import torch
import torch.nn as nn
import torch.optim as optim
import numpy as np
import pdb
import time
import os
from six.moves import cPickle
# import opts
import opts_bi
import models
from dataloader_up_mt import *
# import eval_utils_cn_copy_rcsls as eval_utils
import eval_utils_cn_copy as eval_utils
import misc.utils as utils
from misc.rewards_up import init_scorer, get_self_critical_reward
from models.weight_init import Model_init
import gensim
from gensim.models import word2vec
from gensim.models.keyedvectors import KeyedVectors
try:
import tensorflow as tf
except ImportError:
print("Tensorflow not installed; No tensorboard logging.")
tf = None
def add_summary_value(writer, keys, value, iteration):
summary = tf.compat.v1.Summary(value=[tf.compat.v1.Summary.Value(tag=keys, simple_value=value)])
writer.add_summary(summary, iteration)
def train(opt):
if vars(opt).get('start_from', None) is not None:
opt.checkpoint_path = opt.start_from
opt.id = opt.checkpoint_path.split('/')[-1]
print('Point to folder: {}'.format(opt.checkpoint_path))
else:
opt.id = datetime.datetime.now().strftime('%Y%m%d_%H%M%S') + '_' + opt.caption_model
opt.checkpoint_path = os.path.join(opt.checkpoint_path, opt.id)
if not os.path.exists(opt.checkpoint_path): os.makedirs(opt.checkpoint_path)
print('Create folder: {}'.format(opt.checkpoint_path))
# Deal with feature things before anything
opt.use_att = utils.if_use_att(opt.caption_model)
# opt.use_att = False
if opt.use_box: opt.att_feat_size = opt.att_feat_size + 5
loader = DataLoader_UP(opt)
opt.vocab_size = loader.vocab_size
if opt.use_rela == 1:
opt.rela_dict_size = loader.rela_dict_size
opt.seq_length = loader.seq_length
use_rela = getattr(opt, 'use_rela', 0)
try:
tb_summary_writer = tf and tf.compat.v1.summary.FileWriter(opt.checkpoint_path)
except:
print('Set tensorboard error!')
pdb.set_trace()
infos = {}
histories = {}
if opt.start_from is not None:
# open old infos and check if models are compatible
with open(os.path.join(opt.checkpoint_path, 'infos.pkl')) as f:
infos = cPickle.load(f)
saved_model_opt = infos['opt']
need_be_same = ["caption_model", "rnn_type", "rnn_size", "num_layers"]
for checkme in need_be_same:
assert vars(saved_model_opt)[checkme] == vars(opt)[checkme], "Command line argument and saved model disagree on '%s' " % checkme
if os.path.isfile(os.path.join(opt.checkpoint_path, 'histories.pkl')):
with open(os.path.join(opt.checkpoint_path, 'histories.pkl')) as f:
histories = cPickle.load(f)
iteration = infos.get('iter', 0)
epoch = infos.get('epoch', 0)
val_result_history = histories.get('val_result_history', {})
loss_history = histories.get('loss_history', {})
lr_history = histories.get('lr_history', {})
ss_prob_history = histories.get('ss_prob_history', {})
loader.iterators = infos.get('iterators', loader.iterators)
loader.split_ix = infos.get('split_ix', loader.split_ix)
if opt.load_best_score == 1:
best_val_score = infos.get('best_val_score', None)
model = models.setup(opt).cuda()
# dp_model = torch.nn.DataParallel(model)
# dp_model = torch.nn.DataParallel(model, [0,2,3])
dp_model = model
print('### Model summary below###\n {}\n'.format(str(model)))
model_params = sum(p.numel() for p in model.parameters() if p.requires_grad)
print('model parameter:{}'.format(model_params))
update_lr_flag = True
# Assure in training mode
dp_model.train()
parameters = model.named_children()
crit = utils.LanguageModelCriterion()
rl_crit = utils.RewardCriterion()
optimizer = utils.build_optimizer(filter(lambda p: p.requires_grad, model.parameters()), opt)
optimizer.zero_grad()
accumulate_iter = 0
train_loss = 0
reward = np.zeros([1, 1])
while True:
if update_lr_flag:
# Assign the learning rate
if epoch > opt.learning_rate_decay_start and opt.learning_rate_decay_start >= 0:
frac = (epoch - opt.learning_rate_decay_start) // opt.learning_rate_decay_every
decay_factor = opt.learning_rate_decay_rate ** frac
opt.current_lr = opt.learning_rate * decay_factor
else:
opt.current_lr = opt.learning_rate
utils.set_lr(optimizer, opt.current_lr)
# Assign the scheduled sampling prob
if epoch > opt.scheduled_sampling_start and opt.scheduled_sampling_start >= 0:
frac = (epoch - opt.scheduled_sampling_start) // opt.scheduled_sampling_increase_every
opt.ss_prob = min(opt.scheduled_sampling_increase_prob * frac, opt.scheduled_sampling_max_prob)
model.ss_prob = opt.ss_prob
# If start self critical training
if opt.self_critical_after != -1 and epoch >= opt.self_critical_after:
sc_flag = True
init_scorer(opt.cached_tokens)
else:
sc_flag = False
update_lr_flag = False
start = time.time()
# Load data from train split (0)
data = loader.get_batch(opt.train_split)
# print('Read data:', time.time() - start)
torch.cuda.synchronize()
start = time.time()
fc_feats = None
att_feats = None
att_masks = None
ssg_data = None
rela_data = None
if getattr(opt, 'use_ssg', 0) == 1:
if getattr(opt, 'use_isg', 0) == 1:
tmp = [data['fc_feats'], data['labels'], data['masks'], data['att_feats'], data['att_masks'],
data['isg_rela_matrix'], data['isg_rela_masks'], data['isg_obj'], data['isg_obj_masks'], data['isg_attr'], data['isg_attr_masks'],
data['ssg_rela_matrix'], data['ssg_rela_masks'], data['ssg_obj'], data['ssg_obj_masks'], data['ssg_attr'], data['ssg_attr_masks']]
tmp = [_ if _ is None else torch.from_numpy(_).cuda() for _ in tmp]
fc_feats, labels, masks, att_feats, att_masks, \
isg_rela_matrix, isg_rela_masks, isg_obj, isg_obj_masks, isg_attr, isg_attr_masks, \
ssg_rela_matrix, ssg_rela_masks, ssg_obj, ssg_obj_masks, ssg_attr, ssg_attr_masks = tmp
# image graph domain
isg_data = {}
isg_data['att_feats'] = att_feats
isg_data['att_masks'] = att_masks
isg_data['isg_rela_matrix'] = isg_rela_matrix
isg_data['isg_rela_masks'] = isg_rela_masks
isg_data['isg_obj'] = isg_obj
isg_data['isg_obj_masks'] = isg_obj_masks
isg_data['isg_attr'] = isg_attr
isg_data['isg_attr_masks'] = isg_attr_masks
# text graph domain
ssg_data = {}
ssg_data['ssg_rela_matrix'] = ssg_rela_matrix
ssg_data['ssg_rela_masks'] = ssg_rela_masks
ssg_data['ssg_obj'] = ssg_obj
ssg_data['ssg_obj_masks'] = ssg_obj_masks
ssg_data['ssg_attr'] = ssg_attr
ssg_data['ssg_attr_masks'] = ssg_attr_masks
else:
tmp = [data['fc_feats'], data['ssg_rela_matrix'], data['ssg_rela_masks'], data['ssg_obj'], data['ssg_obj_masks'],
data['ssg_attr'], data['ssg_attr_masks'], data['labels'], data['masks']]
tmp = [_ if _ is None else torch.from_numpy(_).cuda() for _ in tmp]
fc_feats, ssg_rela_matrix, ssg_rela_masks, ssg_obj, ssg_obj_masks, ssg_attr, ssg_attr_masks, labels, masks = tmp
ssg_data = {}
ssg_data['ssg_rela_matrix'] = ssg_rela_matrix
ssg_data['ssg_rela_masks'] = ssg_rela_masks
ssg_data['ssg_obj'] = ssg_obj
ssg_data['ssg_obj_masks'] = ssg_obj_masks
ssg_data['ssg_attr'] = ssg_attr
isg_data = None
ssg_data['ssg_attr_masks'] = ssg_attr_masks
else:
tmp = [data['fc_feats'], data['att_feats'], data['labels'], data['masks'], data['att_masks']]
tmp = [_ if _ is None else torch.from_numpy(_).cuda() for _ in tmp]
fc_feats, att_feats, labels, masks, att_masks = tmp
if not sc_flag:
# loss = crit(dp_model(model_zh,model_en,itow_zh,itow, fc_feats, labels, isg_data, ssg_data), labels[:, 1:], masks[:, 1:])
# print('ssg:')
# print(ssg_data['ssg_obj'])
# print('predict:')
# print(dp_model(fc_feats, labels, isg_data, ssg_data))
# print('label:')
# print(labels[:, 1:])
loss = crit(dp_model(fc_feats, labels, isg_data, ssg_data), labels[:, 1:], masks[:, 1:])
else:
gen_result, sample_logprobs = dp_model(fc_feats, isg_data, ssg_data, opt={'sample_max': 0}, mode='sample')
reward = get_self_critical_reward(dp_model, fc_feats, isg_data, ssg_data, data, gen_result, opt)
loss = rl_crit(sample_logprobs, gen_result.data, torch.from_numpy(reward).float().cuda())
accumulate_iter = accumulate_iter + 1
loss = loss / opt.accumulate_number
loss.backward()
if accumulate_iter % opt.accumulate_number == 0:
utils.clip_gradient(optimizer, opt.grad_clip)
optimizer.step()
optimizer.zero_grad()
iteration += 1
accumulate_iter = 0
train_loss = loss.item() * opt.accumulate_number
end = time.time()
if not sc_flag:
print("{}/{}/{}|train_loss={:.3f}|time/batch={:.3f}" \
.format(opt.id, iteration, epoch, train_loss, end - start))
else:
print("{}/{}/{}|avg_reward={:.3f}|time/batch={:.3f}" \
.format(opt.id, iteration, epoch, np.mean(reward[:, 0]), end - start))
torch.cuda.synchronize()
# Update the iteration and epoch
if data['bounds']['wrapped']:
epoch += 1
update_lr_flag = True
# Write the training loss summary
if (iteration % opt.losses_log_every == 0) and (iteration != 0):
add_summary_value(tb_summary_writer, 'train_loss', train_loss, iteration)
add_summary_value(tb_summary_writer, 'learning_rate', opt.current_lr, iteration)
add_summary_value(tb_summary_writer, 'scheduled_sampling_prob', model.ss_prob, iteration)
if sc_flag:
add_summary_value(tb_summary_writer, 'avg_reward', np.mean(reward[:, 0]), iteration)
loss_history[iteration] = train_loss if not sc_flag else np.mean(reward[:, 0])
lr_history[iteration] = opt.current_lr
ss_prob_history[iteration] = model.ss_prob
# make evaluation on validation set, and save model
# if (iteration %2 == 0) and (iteration != 0):
if (iteration % opt.save_checkpoint_every == 0) and (iteration != 0):
# eval model
if use_rela:
eval_kwargs = {'split': 'val',
'dataset': opt.input_json,
'use_real': 1}
else:
eval_kwargs = {'split': 'val',
'dataset': opt.input_json}
eval_kwargs.update(vars(opt))
# val_loss, predictions, lang_stats = eval_utils.eval_split(model_zh,model_en,itow_zh,itow, dp_model, crit, loader, eval_kwargs)
val_loss, predictions, lang_stats = eval_utils.eval_split( dp_model, crit, loader, eval_kwargs)
# Write validation result into summary
add_summary_value(tb_summary_writer, 'validation loss', val_loss, iteration)
if lang_stats is not None:
for k, v in lang_stats.items():
add_summary_value(tb_summary_writer, k, v, iteration)
val_result_history[iteration] = {'loss': val_loss, 'lang_stats': lang_stats, 'predictions': predictions}
# Save model if is improving on validation result
if opt.language_eval == 1:
current_score = lang_stats['CIDEr']
else:
current_score = - val_loss
best_flag = False
if True: # if true
save_id = iteration / opt.save_checkpoint_every
if best_val_score is None or current_score > best_val_score:
best_val_score = current_score
best_flag = True
checkpoint_path = os.path.join(opt.checkpoint_path, 'model.pth')
torch.save(model.state_dict(), checkpoint_path)
print("model saved to {}".format(checkpoint_path))
optimizer_path = os.path.join(opt.checkpoint_path, 'optimizer.pth')
torch.save(optimizer.state_dict(), optimizer_path)
# Dump miscalleous informations
infos['iter'] = iteration
infos['epoch'] = epoch
infos['iterators'] = loader.iterators
infos['split_ix'] = loader.split_ix
infos['best_val_score'] = best_val_score
infos['opt'] = opt
infos['vocab'] = loader.get_vocab()
histories['val_result_history'] = val_result_history
histories['loss_history'] = loss_history
histories['lr_history'] = lr_history
histories['ss_prob_history'] = ss_prob_history
with open(os.path.join(opt.checkpoint_path, 'infos.pkl'), 'wb') as f:
cPickle.dump(infos, f)
with open(os.path.join(opt.checkpoint_path, 'histories.pkl'), 'wb') as f:
cPickle.dump(histories, f)
if best_flag:
checkpoint_path = os.path.join(opt.checkpoint_path, 'model-best.pth')
torch.save(model.state_dict(), checkpoint_path)
print("model saved to {}".format(checkpoint_path))
with open(os.path.join(opt.checkpoint_path, 'infos-best.pkl'), 'wb') as f:
cPickle.dump(infos, f)
# Stop if reaching max epochs
if epoch >= opt.max_epochs and opt.max_epochs != -1:
break
opt = opts.parse_opt()
os.environ["CUDA_VISIBLE_DEVICES"] = str(opt.gpu)
train(opt)