def train(config, sess): assert (config.prior_model != None and (tf.train.checkpoint_exists(os.path.abspath(config.prior_model))) or (config.map_decay_c==0.0)), \ "MAP training requires a prior model file: Use command-line option --prior_model" logging.info('Building model...') model = StandardModel(config) if config.optimizer == 'adam': optimizer = tf.train.AdamOptimizer(learning_rate=config.learning_rate) else: logging.error('No valid optimizer defined: {}'.format( config.optimizer)) sys.exit(1) init = tf.zeros_initializer(dtype=tf.int32) global_step = tf.get_variable('time', [], initializer=init, trainable=False) if config.summaryFreq: summary_dir = (config.summary_dir if config.summary_dir is not None else os.path.abspath(os.path.dirname(config.saveto))) writer = tf.summary.FileWriter(summary_dir, sess.graph) else: writer = None updater = ModelUpdater(config, model, optimizer, global_step, writer) saver, progress = init_or_restore_variables(config, sess, train=True) global_step.load(progress.uidx, sess) #save model options config_as_dict = OrderedDict(sorted(vars(config).items())) json.dump(config_as_dict, open('%s.json' % config.saveto, 'wb'), indent=2) text_iterator, valid_text_iterator = load_data(config) _, _, num_to_source, num_to_target = load_dictionaries(config) total_loss = 0. n_sents, n_words = 0, 0 last_time = time.time() logging.info("Initial uidx={}".format(progress.uidx)) for progress.eidx in xrange(progress.eidx, config.max_epochs): logging.info('Starting epoch {0}'.format(progress.eidx)) for source_sents, target_sents in text_iterator: print("") print("") print("") print("########## Source Sents ############") print(source_sents) print("") print("") print("") print("########## Target Sents ############") print(target_sents) if len(source_sents[0][0]) != config.factors: logging.error( 'Mismatch between number of factors in settings ({0}), and number in training corpus ({1})\n' .format(config.factors, len(source_sents[0][0]))) sys.exit(1) x_in, x_mask_in, y_in, y_mask_in = util.prepare_data( source_sents, target_sents, config.factors, maxlen=None) if x_in is None: logging.info( 'Minibatch with zero sample under length {0}'.format( config.maxlen)) continue write_summary_for_this_batch = config.summaryFreq and ( (progress.uidx % config.summaryFreq == 0) or (config.finish_after and progress.uidx % config.finish_after == 0)) (factors, seqLen, batch_size) = x_in.shape loss = updater.update(sess, x_in, x_mask_in, y_in, y_mask_in, write_summary_for_this_batch) total_loss += loss n_sents += batch_size n_words += int(numpy.sum(y_mask_in)) progress.uidx += 1 if config.dispFreq and progress.uidx % config.dispFreq == 0: duration = time.time() - last_time disp_time = datetime.now().strftime('[%Y-%m-%d %H:%M:%S]') logging.info( '{0} Epoch: {1} Update: {2} Loss/word: {3} Words/sec: {4} Sents/sec: {5}' .format(disp_time, progress.eidx, progress.uidx, total_loss / n_words, n_words / duration, n_sents / duration)) last_time = time.time() total_loss = 0. n_sents = 0 n_words = 0 if config.sampleFreq and progress.uidx % config.sampleFreq == 0: x_small, x_mask_small, y_small = x_in[:, :, : 10], x_mask_in[:, : 10], y_in[:, : 10] samples = model.sample(sess, x_small, x_mask_small) assert len(samples) == len(x_small.T) == len( y_small.T), (len(samples), x_small.shape, y_small.shape) for xx, yy, ss in zip(x_small.T, y_small.T, samples): source = util.factoredseq2words(xx, num_to_source) target = util.seq2words(yy, num_to_target) sample = util.seq2words(ss, num_to_target) logging.info('SOURCE: {}'.format(source)) logging.info('TARGET: {}'.format(target)) logging.info('SAMPLE: {}'.format(sample)) if config.beamFreq and progress.uidx % config.beamFreq == 0: x_small, x_mask_small, y_small = x_in[:, :, : 10], x_mask_in[:, : 10], y_in[:, : 10] samples = model.beam_search(sess, x_small, x_mask_small, config.beam_size) # samples is a list with shape batch x beam x len assert len(samples) == len(x_small.T) == len( y_small.T), (len(samples), x_small.shape, y_small.shape) for xx, yy, ss in zip(x_small.T, y_small.T, samples): source = util.factoredseq2words(xx, num_to_source) target = util.seq2words(yy, num_to_target) logging.info('SOURCE: {}'.format(source)) logging.info('TARGET: {}'.format(target)) for i, (sample_seq, cost) in enumerate(ss): sample = util.seq2words(sample_seq, num_to_target) msg = 'SAMPLE {}: {} Cost/Len/Avg {}/{}/{}'.format( i, sample, cost, len(sample), cost / len(sample)) logging.info(msg) if config.validFreq and progress.uidx % config.validFreq == 0: costs = validate(config, sess, valid_text_iterator, model) # validation loss is mean of normalized sentence log probs valid_loss = sum(costs) / len(costs) if (len(progress.history_errs) == 0 or valid_loss < min(progress.history_errs)): progress.history_errs.append(valid_loss) progress.bad_counter = 0 saver.save(sess, save_path=config.saveto) progress_path = '{0}.progress.json'.format(config.saveto) progress.save_to_json(progress_path) else: progress.history_errs.append(valid_loss) progress.bad_counter += 1 if progress.bad_counter > config.patience: logging.info('Early Stop!') progress.estop = True break if config.valid_script is not None: score = validate_with_script(sess, model, config, valid_text_iterator) need_to_save = ( score is not None and (len(progress.valid_script_scores) == 0 or score > max(progress.valid_script_scores))) if score is None: score = 0.0 # ensure a valid value is written progress.valid_script_scores.append(score) if need_to_save: save_path = config.saveto + ".best-valid-script" saver.save(sess, save_path=save_path) progress_path = '{}.progress.json'.format(save_path) progress.save_to_json(progress_path) if config.saveFreq and progress.uidx % config.saveFreq == 0: saver.save(sess, save_path=config.saveto, global_step=progress.uidx) progress_path = '{0}-{1}.progress.json'.format( config.saveto, progress.uidx) progress.save_to_json(progress_path) if config.finish_after and progress.uidx % config.finish_after == 0: logging.info("Maximum number of updates reached") saver.save(sess, save_path=config.saveto, global_step=progress.uidx) progress.estop = True progress_path = '{0}-{1}.progress.json'.format( config.saveto, progress.uidx) progress.save_to_json(progress_path) break if progress.estop: break
def train(config, sess): assert (config.prior_model != None and (tf.train.checkpoint_exists(os.path.abspath(config.prior_model))) or (config.map_decay_c==0.0)), \ "MAP training requires a prior model file: Use command-line option --prior_model" # Construct the graph, with one model replica per GPU num_gpus = len(tf_utils.get_available_gpus()) num_replicas = max(1, num_gpus) if config.loss_function == 'MRT': assert config.gradient_aggregation_steps == 1 assert config.max_sentences_per_device == 0, "MRT mode does not support sentence-based split" if config.max_tokens_per_device != 0: assert (config.samplesN * config.maxlen <= config.max_tokens_per_device), "need to make sure candidates of a sentence could be " \ "feed into the model" else: assert num_replicas == 1, "MRT mode does not support sentence-based split" assert (config.samplesN * config.maxlen <= config.token_batch_size), "need to make sure candidates of a sentence could be " \ "feed into the model" logging.info('Building model...') replicas = [] for i in range(num_replicas): device_type = "GPU" if num_gpus > 0 else "CPU" device_spec = tf.DeviceSpec(device_type=device_type, device_index=i) with tf.device(device_spec): with tf.variable_scope(tf.get_variable_scope(), reuse=(i>0)): if config.model_type == "transformer": model = TransformerModel(config) else: model = rnn_model.RNNModel(config) replicas.append(model) init = tf.zeros_initializer(dtype=tf.int32) global_step = tf.get_variable('time', [], initializer=init, trainable=False) if config.learning_schedule == "constant": schedule = learning_schedule.ConstantSchedule(config.learning_rate) elif config.learning_schedule == "transformer": schedule = learning_schedule.TransformerSchedule( global_step=global_step, dim=config.state_size, warmup_steps=config.warmup_steps) elif config.learning_schedule == "warmup-plateau-decay": schedule = learning_schedule.WarmupPlateauDecaySchedule( global_step=global_step, peak_learning_rate=config.learning_rate, warmup_steps=config.warmup_steps, plateau_steps=config.plateau_steps) else: logging.error('Learning schedule type is not valid: {}'.format( config.learning_schedule)) sys.exit(1) if config.optimizer == 'adam': optimizer = tf.train.AdamOptimizer(learning_rate=schedule.learning_rate, beta1=config.adam_beta1, beta2=config.adam_beta2, epsilon=config.adam_epsilon) else: logging.error('No valid optimizer defined: {}'.format(config.optimizer)) sys.exit(1) if config.summary_freq: summary_dir = (config.summary_dir if config.summary_dir is not None else os.path.abspath(os.path.dirname(config.saveto))) writer = tf.summary.FileWriter(summary_dir, sess.graph) else: writer = None updater = ModelUpdater(config, num_gpus, replicas, optimizer, global_step, writer) if config.exponential_smoothing > 0.0: smoothing = ExponentialSmoothing(config.exponential_smoothing) saver, progress = model_loader.init_or_restore_variables( config, sess, train=True) global_step.load(progress.uidx, sess) if config.sample_freq: random_sampler = RandomSampler( models=[replicas[0]], configs=[config], beam_size=1) if config.beam_freq or config.valid_script is not None: beam_search_sampler = BeamSearchSampler( models=[replicas[0]], configs=[config], beam_size=config.beam_size) #save model options write_config_to_json_file(config, config.saveto) text_iterator, valid_text_iterator = load_data(config) _, _, num_to_source, num_to_target = util.load_dictionaries(config) total_loss = 0. n_sents, n_words = 0, 0 last_time = time.time() logging.info("Initial uidx={}".format(progress.uidx)) # set epoch = 1 if print per-token-probability if config.print_per_token_pro: config.max_epochs = progress.eidx+1 for progress.eidx in range(progress.eidx, config.max_epochs): logging.info('Starting epoch {0}'.format(progress.eidx)) for source_sents, target_sents in text_iterator: if len(source_sents[0][0]) != config.factors: logging.error('Mismatch between number of factors in settings ({0}), and number in training corpus ({1})\n'.format(config.factors, len(source_sents[0][0]))) sys.exit(1) x_in, x_mask_in, y_in, y_mask_in = util.prepare_data( source_sents, target_sents, config.factors, maxlen=None) if x_in is None: logging.info('Minibatch with zero sample under length {0}'.format(config.maxlen)) continue write_summary_for_this_batch = config.summary_freq and ((progress.uidx % config.summary_freq == 0) or (config.finish_after and progress.uidx % config.finish_after == 0)) (factors, seqLen, batch_size) = x_in.shape output = updater.update( sess, x_in, x_mask_in, y_in, y_mask_in, num_to_target, write_summary_for_this_batch) if config.print_per_token_pro == False: total_loss += output else: # write per-token probability into the file f = open(config.print_per_token_pro, 'a') for pro in output: pro = str(pro) + '\n' f.write(pro) f.close() n_sents += batch_size n_words += int(numpy.sum(y_mask_in)) progress.uidx += 1 # Update the smoothed version of the model variables. # To reduce the performance overhead, we only do this once every # N steps (the smoothing factor is adjusted accordingly). if config.exponential_smoothing > 0.0 and progress.uidx % smoothing.update_frequency == 0: sess.run(fetches=smoothing.update_ops) if config.disp_freq and progress.uidx % config.disp_freq == 0: duration = time.time() - last_time disp_time = datetime.now().strftime('[%Y-%m-%d %H:%M:%S]') logging.info('{0} Epoch: {1} Update: {2} Loss/word: {3} Words/sec: {4} Sents/sec: {5}'.format(disp_time, progress.eidx, progress.uidx, total_loss/n_words, n_words/duration, n_sents/duration)) last_time = time.time() total_loss = 0. n_sents = 0 n_words = 0 if config.sample_freq and progress.uidx % config.sample_freq == 0: x_small = x_in[:, :, :10] x_mask_small = x_mask_in[:, :10] y_small = y_in[:, :10] samples = translate_utils.translate_batch( sess, random_sampler, x_small, x_mask_small, config.translation_maxlen, 0.0) assert len(samples) == len(x_small.T) == len(y_small.T), \ (len(samples), x_small.shape, y_small.shape) for xx, yy, ss in zip(x_small.T, y_small.T, samples): source = util.factoredseq2words(xx, num_to_source) target = util.seq2words(yy, num_to_target) sample = util.seq2words(ss[0][0], num_to_target) logging.info('SOURCE: {}'.format(source)) logging.info('TARGET: {}'.format(target)) logging.info('SAMPLE: {}'.format(sample)) if config.beam_freq and progress.uidx % config.beam_freq == 0: x_small = x_in[:, :, :10] x_mask_small = x_mask_in[:, :10] y_small = y_in[:,:10] samples = translate_utils.translate_batch( sess, beam_search_sampler, x_small, x_mask_small, config.translation_maxlen, config.normalization_alpha) assert len(samples) == len(x_small.T) == len(y_small.T), \ (len(samples), x_small.shape, y_small.shape) for xx, yy, ss in zip(x_small.T, y_small.T, samples): source = util.factoredseq2words(xx, num_to_source) target = util.seq2words(yy, num_to_target) logging.info('SOURCE: {}'.format(source)) logging.info('TARGET: {}'.format(target)) for i, (sample_seq, cost) in enumerate(ss): sample = util.seq2words(sample_seq, num_to_target) msg = 'SAMPLE {}: {} Cost/Len/Avg {}/{}/{}'.format( i, sample, cost, len(sample), cost/len(sample)) logging.info(msg) if config.valid_freq and progress.uidx % config.valid_freq == 0: if config.exponential_smoothing > 0.0: sess.run(fetches=smoothing.swap_ops) valid_ce = validate(sess, replicas[0], config, valid_text_iterator) sess.run(fetches=smoothing.swap_ops) else: valid_ce = validate(sess, replicas[0], config, valid_text_iterator) if (len(progress.history_errs) == 0 or valid_ce < min(progress.history_errs)): progress.history_errs.append(valid_ce) progress.bad_counter = 0 save_non_checkpoint(sess, saver, config.saveto) progress_path = '{0}.progress.json'.format(config.saveto) progress.save_to_json(progress_path) else: progress.history_errs.append(valid_ce) progress.bad_counter += 1 if progress.bad_counter > config.patience: logging.info('Early Stop!') progress.estop = True break if config.valid_script is not None: if config.exponential_smoothing > 0.0: sess.run(fetches=smoothing.swap_ops) score = validate_with_script(sess, beam_search_sampler) sess.run(fetches=smoothing.swap_ops) else: score = validate_with_script(sess, beam_search_sampler) need_to_save = (score is not None and (len(progress.valid_script_scores) == 0 or score > max(progress.valid_script_scores))) if score is None: score = 0.0 # ensure a valid value is written progress.valid_script_scores.append(score) if need_to_save: progress.bad_counter = 0 save_path = config.saveto + ".best-valid-script" save_non_checkpoint(sess, saver, save_path) write_config_to_json_file(config, save_path) progress_path = '{}.progress.json'.format(save_path) progress.save_to_json(progress_path) if config.save_freq and progress.uidx % config.save_freq == 0: saver.save(sess, save_path=config.saveto, global_step=progress.uidx) write_config_to_json_file(config, "%s-%s" % (config.saveto, progress.uidx)) progress_path = '{0}-{1}.progress.json'.format(config.saveto, progress.uidx) progress.save_to_json(progress_path) if config.finish_after and progress.uidx % config.finish_after == 0: logging.info("Maximum number of updates reached") saver.save(sess, save_path=config.saveto, global_step=progress.uidx) write_config_to_json_file(config, "%s-%s" % (config.saveto, progress.uidx)) progress.estop=True progress_path = '{0}-{1}.progress.json'.format(config.saveto, progress.uidx) progress.save_to_json(progress_path) break if progress.estop: break
def train(config, sess): #################################################### assert (config.prior_model != None and (tf.train.checkpoint_exists(os.path.abspath(config.prior_model))) or (config.map_decay_c==0.0)), \ "MAP training requires a prior model file: Use command-line option --prior_model" # Construct the graph, with one model replica per GPU num_gpus = len(util.get_available_gpus()) num_replicas = max(1, num_gpus) logging.info('Building model...') replicas = [] for i in range(num_replicas): device_type = "GPU" if num_gpus > 0 else "CPU" device_spec = tf.DeviceSpec(device_type=device_type, device_index=i) with tf.device(device_spec): with tf.variable_scope(tf.get_variable_scope(), reuse=(i > 0)): if config.model_type == "transformer": model = TransformerModel(config) else: model = rnn_model.RNNModel(config) replicas.append(model) init = tf.zeros_initializer(dtype=tf.int32) global_step = tf.get_variable('time', [], initializer=init, trainable=False) if config.learning_schedule == "constant": schedule = ConstantSchedule(config.learning_rate) elif config.learning_schedule == "transformer": schedule = TransformerSchedule(global_step=global_step, dim=config.state_size, warmup_steps=config.warmup_steps) else: logging.error('Learning schedule type is not valid: {}'.format( config.learning_schedule)) sys.exit(1) if config.optimizer == 'adam': optimizer = tf.train.AdamOptimizer( learning_rate=schedule.learning_rate, beta1=config.adam_beta1, beta2=config.adam_beta2, epsilon=config.adam_epsilon) else: logging.error('No valid optimizer defined: {}'.format( config.optimizer)) sys.exit(1) if config.summary_freq: summary_dir = (config.summary_dir if config.summary_dir is not None else os.path.abspath(os.path.dirname(config.saveto))) writer = tf.summary.FileWriter(summary_dir, sess.graph) else: writer = None updater = ModelUpdater(config, num_gpus, replicas, optimizer, global_step, writer) saver, progress = model_loader.init_or_restore_variables(config, sess, train=True) ############################################################ #add: pretrain if config.pretrain: logging.info("Start pre-training") #预训练网络参数 pre_batch_size = 1000 epochs = 20 pre_learning_rate = 0.001 pre_optimizer = tf.train.GradientDescentOptimizer( pre_learning_rate).minimize(replicas[0].loss_pre_train) #加载预训练数据及相关字典 gvocab, gvectors = util.pre_load_data(config.pretrain_vocab, config.pretrain_vectors) pre_vocab_list = list(gvocab.keys()) #过采样 pre_train_list = [] with open('/media/ntfs-3/EXP/MULTI/mix/zh-en/data3/glove/vocab.txt', 'r', encoding='utf-8') as f: for line in f: k, v = line.strip().split() pre_train_list.extend([k] * int(v)) utf8_dict = json.load( open(config.source_dicts[0], 'r', encoding='utf-8')) embedding_list = [] #开始训练 for i in range(epochs): logging.info("epoch:{}".format(i)) if i == epochs - 1: source_x, source_y, _vocab = util.get_data(pre_vocab_list, pre_batch_size, gvocab, gvectors, utf8_dict, shuffle=False) else: source_x, source_y, _vocab = util.get_data(pre_train_list, pre_batch_size, gvocab, gvectors, utf8_dict, shuffle=True) for idx, [s_x, s_y] in enumerate(zip(source_x, source_y)): assert len(s_x) == len(s_y), "{}, {}".format( len(s_x), len(s_y)) sx, sy = util.pre_prepare_data(s_x, s_y) feed_dict = {} feed_dict[replicas[0].pre_inputs.x] = sx feed_dict[replicas[0].pre_inputs.y] = sy _, loss, embedding = sess.run([ pre_optimizer, replicas[0].loss_pre_train, replicas[0].pre_embedding ], feed_dict=feed_dict) if idx % 100 == 0: logging.info("loss:{}".format(loss)) if i == epochs - 1: embedding_list.append(embedding) assert _vocab == pre_vocab_list emb = embedding_list[0] for e in embedding_list[1:]: emb = numpy.concatenate((emb, e)) numpy.save("pre_emb/pre_emb.npy", emb) with open("pre_emb/vocab", "w", encoding="utf-8") as f: f.write("\n".join(pre_vocab_list)) #tsne可视化 tsne = util.get_tsne(emb, "pre_emb/tsne.npy") gtsne = numpy.load(config.pretrain_tsne) #util.plot_tsne(_vocab, tsne, gvocab, gtsne, top=20) #exit(0) ################################################################################## global_step.load(progress.uidx, sess) # Use an InferenceModelSet to abstract over model types for sampling and # beam search. Multi-GPU sampling and beam search are not currently # supported, so we just use the first replica. model_set = inference.InferenceModelSet([replicas[0]], [config]) #save model options write_config_to_json_file(config, config.saveto) text_iterator, valid_text_iterator = load_data(config) _, _, num_to_source, num_to_target = util.load_dictionaries(config) total_loss = 0. n_sents, n_words = 0, 0 last_time = time.time() logging.info("Initial uidx={}".format(progress.uidx)) for progress.eidx in range(progress.eidx, config.max_epochs): logging.info('Starting epoch {0}'.format(progress.eidx)) for pre_source_sents, source_sents, target_sents in text_iterator: #if len(source_sents[0][0]) != config.factors: #logging.error('Mismatch between number of factors in settings ({0}), and number in training corpus ({1})\n'.format(config.factors, len(source_sents[0][0]))) #sys.exit(1) px_in, x_in, x_mask_in, y_in, y_mask_in = util.prepare_data( source_sents, target_sents, config.factors, pre_source_sents, maxlen=None) if x_in is None: logging.info( 'Minibatch with zero sample under length {0}'.format( config.maxlen)) continue write_summary_for_this_batch = config.summary_freq and ( (progress.uidx % config.summary_freq == 0) or (config.finish_after and progress.uidx % config.finish_after == 0)) (factors, seqLen, uLen, batch_size) = x_in.shape loss = updater.update(sess, px_in, x_in, x_mask_in, y_in, y_mask_in, write_summary_for_this_batch) total_loss += loss n_sents += batch_size n_words += int(numpy.sum(y_mask_in)) progress.uidx += 1 if config.disp_freq and progress.uidx % config.disp_freq == 0: duration = time.time() - last_time disp_time = datetime.now().strftime('[%Y-%m-%d %H:%M:%S]') logging.info( '{0} Epoch: {1} Update: {2} Loss/word: {3} Words/sec: {4} Sents/sec: {5}' .format(disp_time, progress.eidx, progress.uidx, total_loss / n_words, n_words / duration, n_sents / duration)) last_time = time.time() total_loss = 0. n_sents = 0 n_words = 0 if config.sample_freq and progress.uidx % config.sample_freq == 0: x_small, x_mask_small, y_small = x_in[:, :, :, : 10], x_mask_in[:, :, : 10], y_in[:, : 10] samples = model_set.sample(sess, x_small, x_mask_small) assert len(samples) == len(x_small.T) == len( y_small.T), (len(samples), x_small.shape, y_small.shape) for xx, yy, ss in zip(x_small.T, y_small.T, samples): #source = util.factoredseq2words(xx, num_to_source) target = util.seq2words(yy, num_to_target) sample = util.seq2words(ss, num_to_target) #logging.info('SOURCE: {}'.format(source)) #logging.info('SOURCE: {}'.format(xx)) logging.info('TARGET: {}'.format(target)) logging.info('SAMPLE: {}'.format(sample)) if config.beam_freq and progress.uidx % config.beam_freq == 0: x_small, x_mask_small, y_small = x_in[:, :, :, : 10], x_mask_in[:, :, : 10], y_in[:, : 10] samples = model_set.beam_search( sess, x_small, x_mask_small, config.beam_size, normalization_alpha=config.normalization_alpha) # samples is a list with shape batch x beam x len assert len(samples) == len(x_small.T) == len( y_small.T), (len(samples), x_small.shape, y_small.shape) for xx, yy, ss in zip(x_small.T, y_small.T, samples): #source = util.factoredseq2words(xx, num_to_source) target = util.seq2words(yy, num_to_target) #logging.info('SOURCE: {}'.format(source)) logging.info('TARGET: {}'.format(target)) for i, (sample_seq, cost) in enumerate(ss): sample = util.seq2words(sample_seq, num_to_target) msg = 'SAMPLE {}: {} Cost/Len/Avg {}/{}/{}'.format( i, sample, cost, len(sample), cost / len(sample)) logging.info(msg) if config.valid_freq and progress.uidx % config.valid_freq == 0: valid_ce = validate(sess, replicas[0], config, valid_text_iterator) if (len(progress.history_errs) == 0 or valid_ce < min(progress.history_errs)): progress.history_errs.append(valid_ce) progress.bad_counter = 0 save_non_checkpoint(sess, saver, config.saveto) progress_path = '{0}.progress.json'.format(config.saveto) progress.save_to_json(progress_path) else: progress.history_errs.append(valid_ce) progress.bad_counter += 1 if progress.bad_counter > config.patience: logging.info('Early Stop!') progress.estop = True break if config.valid_script is not None: score = validate_with_script(sess, replicas[0], config) need_to_save = ( score is not None and (len(progress.valid_script_scores) == 0 or score > max(progress.valid_script_scores))) if score is None: score = 0.0 # ensure a valid value is written progress.valid_script_scores.append(score) if need_to_save: progress.bad_counter = 0 save_path = config.saveto + ".best-valid-script" save_non_checkpoint(sess, saver, save_path) write_config_to_json_file(config, save_path) progress_path = '{}.progress.json'.format(save_path) progress.save_to_json(progress_path) if config.save_freq and progress.uidx % config.save_freq == 0: saver.save(sess, save_path=config.saveto, global_step=progress.uidx) write_config_to_json_file( config, "%s-%s" % (config.saveto, progress.uidx)) progress_path = '{0}-{1}.progress.json'.format( config.saveto, progress.uidx) progress.save_to_json(progress_path) if config.finish_after and progress.uidx % config.finish_after == 0: logging.info("Maximum number of updates reached") saver.save(sess, save_path=config.saveto, global_step=progress.uidx) write_config_to_json_file( config, "%s-%s" % (config.saveto, progress.uidx)) progress.estop = True progress_path = '{0}-{1}.progress.json'.format( config.saveto, progress.uidx) progress.save_to_json(progress_path) break if progress.estop: break
def train(config, sess): assert (config.prior_model != None and (tf.train.checkpoint_exists(os.path.abspath(config.prior_model))) or (config.map_decay_c==0.0)), \ "MAP training requires a prior model file: Use command-line option --prior_model" # Construct the graph, with one model replica per GPU num_gpus = len(util.get_available_gpus()) num_replicas = max(1, num_gpus) logging.info('Building model...') replicas = [] for i in range(num_replicas): device_type = "GPU" if num_gpus > 0 else "CPU" device_spec = tf.DeviceSpec(device_type=device_type, device_index=i) with tf.device(device_spec): with tf.variable_scope(tf.get_variable_scope(), reuse=(i > 0)): if config.model_type == "transformer": model = TransformerModel(config) else: model = rnn_model.RNNModel(config) replicas.append(model) init = tf.zeros_initializer(dtype=tf.int32) global_step = tf.get_variable('time', [], initializer=init, trainable=False) if config.learning_schedule == "constant": schedule = ConstantSchedule(config.learning_rate) elif config.learning_schedule == "transformer": schedule = TransformerSchedule(global_step=global_step, dim=config.state_size, warmup_steps=config.warmup_steps) else: logging.error('Learning schedule type is not valid: {}'.format( config.learning_schedule)) sys.exit(1) if config.optimizer == 'adam': optimizer = tf.train.AdamOptimizer( learning_rate=schedule.learning_rate, beta1=config.adam_beta1, beta2=config.adam_beta2, epsilon=config.adam_epsilon) else: logging.error('No valid optimizer defined: {}'.format( config.optimizer)) sys.exit(1) if config.summary_freq: summary_dir = (config.summary_dir if config.summary_dir is not None else os.path.abspath(os.path.dirname(config.saveto))) writer = tf.summary.FileWriter(summary_dir, sess.graph) else: writer = None updater = ModelUpdater(config, num_gpus, replicas, optimizer, global_step, writer) saver, progress = model_loader.init_or_restore_variables(config, sess, train=True) global_step.load(progress.uidx, sess) # Use an InferenceModelSet to abstract over model types for sampling and # beam search. Multi-GPU sampling and beam search are not currently # supported, so we just use the first replica. model_set = inference.InferenceModelSet([replicas[0]], [config]) #save model options write_config_to_json_file(config, config.saveto) text_iterator, valid_text_iterator = load_data(config) _, _, num_to_source, num_to_target = util.load_dictionaries(config) total_loss = 0. n_sents, n_words = 0, 0 last_time = time.time() logging.info("Initial uidx={}".format(progress.uidx)) for progress.eidx in range(progress.eidx, config.max_epochs): logging.info('Starting epoch {0}'.format(progress.eidx)) for source_sents, target_sents in text_iterator: if len(source_sents[0][0]) != config.factors: logging.error( 'Mismatch between number of factors in settings ({0}), and number in training corpus ({1})\n' .format(config.factors, len(source_sents[0][0]))) sys.exit(1) x_in, x_mask_in, y_in, y_mask_in = util.prepare_data( source_sents, target_sents, config.factors, maxlen=None) if x_in is None: logging.info( 'Minibatch with zero sample under length {0}'.format( config.maxlen)) continue write_summary_for_this_batch = config.summary_freq and ( (progress.uidx % config.summary_freq == 0) or (config.finish_after and progress.uidx % config.finish_after == 0)) (factors, seqLen, batch_size) = x_in.shape loss = updater.update(sess, x_in, x_mask_in, y_in, y_mask_in, write_summary_for_this_batch) total_loss += loss n_sents += batch_size n_words += int(numpy.sum(y_mask_in)) progress.uidx += 1 if config.disp_freq and progress.uidx % config.disp_freq == 0: duration = time.time() - last_time disp_time = datetime.now().strftime('[%Y-%m-%d %H:%M:%S]') logging.info( '{0} Epoch: {1} Update: {2} Loss/word: {3} Words/sec: {4} Sents/sec: {5}' .format(disp_time, progress.eidx, progress.uidx, total_loss / n_words, n_words / duration, n_sents / duration)) last_time = time.time() total_loss = 0. n_sents = 0 n_words = 0 if config.sample_freq and progress.uidx % config.sample_freq == 0: x_small, x_mask_small, y_small = x_in[:, :, : 10], x_mask_in[:, : 10], y_in[:, : 10] samples = model_set.sample(sess, x_small, x_mask_small) assert len(samples) == len(x_small.T) == len( y_small.T), (len(samples), x_small.shape, y_small.shape) for xx, yy, ss in zip(x_small.T, y_small.T, samples): source = util.factoredseq2words(xx, num_to_source) target = util.seq2words(yy, num_to_target) sample = util.seq2words(ss, num_to_target) logging.info('SOURCE: {}'.format(source)) logging.info('TARGET: {}'.format(target)) logging.info('SAMPLE: {}'.format(sample)) if config.beam_freq and progress.uidx % config.beam_freq == 0: x_small, x_mask_small, y_small = x_in[:, :, : 10], x_mask_in[:, : 10], y_in[:, : 10] samples = model_set.beam_search( sess, x_small, x_mask_small, config.beam_size, normalization_alpha=config.normalization_alpha) # samples is a list with shape batch x beam x len assert len(samples) == len(x_small.T) == len( y_small.T), (len(samples), x_small.shape, y_small.shape) for xx, yy, ss in zip(x_small.T, y_small.T, samples): source = util.factoredseq2words(xx, num_to_source) target = util.seq2words(yy, num_to_target) logging.info('SOURCE: {}'.format(source)) logging.info('TARGET: {}'.format(target)) for i, (sample_seq, cost) in enumerate(ss): sample = util.seq2words(sample_seq, num_to_target) msg = 'SAMPLE {}: {} Cost/Len/Avg {}/{}/{}'.format( i, sample, cost, len(sample), cost / len(sample)) logging.info(msg) if config.valid_freq and progress.uidx % config.valid_freq == 0: valid_ce = validate(sess, replicas[0], config, valid_text_iterator) if (len(progress.history_errs) == 0 or valid_ce < min(progress.history_errs)): progress.history_errs.append(valid_ce) progress.bad_counter = 0 save_non_checkpoint(sess, saver, config.saveto) progress_path = '{0}.progress.json'.format(config.saveto) progress.save_to_json(progress_path) else: progress.history_errs.append(valid_ce) progress.bad_counter += 1 if progress.bad_counter > config.patience: logging.info('Early Stop!') progress.estop = True break if config.valid_script is not None: score = validate_with_script(sess, replicas[0], config) need_to_save = ( score is not None and (len(progress.valid_script_scores) == 0 or score > max(progress.valid_script_scores))) if score is None: score = 0.0 # ensure a valid value is written progress.valid_script_scores.append(score) if need_to_save: save_path = config.saveto + ".best-valid-script" save_non_checkpoint(sess, saver, save_path) write_config_to_json_file(config, save_path) progress_path = '{}.progress.json'.format(save_path) progress.save_to_json(progress_path) if config.save_freq and progress.uidx % config.save_freq == 0: saver.save(sess, save_path=config.saveto, global_step=progress.uidx) write_config_to_json_file( config, "%s-%s" % (config.saveto, progress.uidx)) progress_path = '{0}-{1}.progress.json'.format( config.saveto, progress.uidx) progress.save_to_json(progress_path) if config.finish_after and progress.uidx % config.finish_after == 0: logging.info("Maximum number of updates reached") saver.save(sess, save_path=config.saveto, global_step=progress.uidx) write_config_to_json_file( config, "%s-%s" % (config.saveto, progress.uidx)) progress.estop = True progress_path = '{0}-{1}.progress.json'.format( config.saveto, progress.uidx) progress.save_to_json(progress_path) break if progress.estop: break
def train(config, sess): assert (config.prior_model != None and (tf.train.checkpoint_exists(os.path.abspath(config.prior_model))) or (config.map_decay_c==0.0)), \ "MAP training requires a prior model file: Use command-line option --prior_model" # Construct the graph, with one model replica per GPU num_gpus = len(util.get_available_gpus()) num_replicas = max(1, num_gpus) logging.info('Building model...') replicas = [] for i in range(num_replicas): device_type = "GPU" if num_gpus > 0 else "CPU" device_spec = tf.DeviceSpec(device_type=device_type, device_index=i) with tf.device(device_spec): with tf.variable_scope(tf.get_variable_scope(), reuse=(i>0)): if config.model_type == "transformer": model = TransformerModel(config) else: model = rnn_model.RNNModel(config) replicas.append(model) init = tf.zeros_initializer(dtype=tf.int32) global_step = tf.get_variable('time', [], initializer=init, trainable=False) if config.learning_schedule == "constant": schedule = ConstantSchedule(config.learning_rate) elif config.learning_schedule == "transformer": schedule = TransformerSchedule(global_step=global_step, dim=config.state_size, warmup_steps=config.warmup_steps) else: logging.error('Learning schedule type is not valid: {}'.format( config.learning_schedule)) sys.exit(1) if config.optimizer == 'adam': optimizer = tf.train.AdamOptimizer(learning_rate=schedule.learning_rate, beta1=config.adam_beta1, beta2=config.adam_beta2, epsilon=config.adam_epsilon) else: logging.error('No valid optimizer defined: {}'.format(config.optimizer)) sys.exit(1) if config.summary_freq: summary_dir = (config.summary_dir if config.summary_dir is not None else os.path.abspath(os.path.dirname(config.saveto))) writer = tf.summary.FileWriter(summary_dir, sess.graph) else: writer = None updater = ModelUpdater(config, num_gpus, replicas, optimizer, global_step, writer) saver, progress = model_loader.init_or_restore_variables( config, sess, train=True) global_step.load(progress.uidx, sess) # Use an InferenceModelSet to abstract over model types for sampling and # beam search. Multi-GPU sampling and beam search are not currently # supported, so we just use the first replica. model_set = inference.InferenceModelSet([replicas[0]], [config]) #save model options write_config_to_json_file(config, config.saveto) text_iterator, valid_text_iterator = load_data(config) _, _, num_to_source, num_to_target = util.load_dictionaries(config) total_loss = 0. n_sents, n_words = 0, 0 last_time = time.time() logging.info("Initial uidx={}".format(progress.uidx)) for progress.eidx in range(progress.eidx, config.max_epochs): logging.info('Starting epoch {0}'.format(progress.eidx)) for source_sents, target_sents in text_iterator: if len(source_sents[0][0]) != config.factors: logging.error('Mismatch between number of factors in settings ({0}), and number in training corpus ({1})\n'.format(config.factors, len(source_sents[0][0]))) sys.exit(1) x_in, x_mask_in, y_in, y_mask_in = util.prepare_data( source_sents, target_sents, config.factors, maxlen=None) if x_in is None: logging.info('Minibatch with zero sample under length {0}'.format(config.maxlen)) continue write_summary_for_this_batch = config.summary_freq and ((progress.uidx % config.summary_freq == 0) or (config.finish_after and progress.uidx % config.finish_after == 0)) (factors, seqLen, batch_size) = x_in.shape loss = updater.update(sess, x_in, x_mask_in, y_in, y_mask_in, write_summary_for_this_batch) total_loss += loss n_sents += batch_size n_words += int(numpy.sum(y_mask_in)) progress.uidx += 1 if config.disp_freq and progress.uidx % config.disp_freq == 0: duration = time.time() - last_time disp_time = datetime.now().strftime('[%Y-%m-%d %H:%M:%S]') logging.info('{0} Epoch: {1} Update: {2} Loss/word: {3} Words/sec: {4} Sents/sec: {5}'.format(disp_time, progress.eidx, progress.uidx, total_loss/n_words, n_words/duration, n_sents/duration)) last_time = time.time() total_loss = 0. n_sents = 0 n_words = 0 if config.sample_freq and progress.uidx % config.sample_freq == 0: x_small, x_mask_small, y_small = x_in[:, :, :10], x_mask_in[:, :10], y_in[:, :10] samples = model_set.sample(sess, x_small, x_mask_small) assert len(samples) == len(x_small.T) == len(y_small.T), (len(samples), x_small.shape, y_small.shape) for xx, yy, ss in zip(x_small.T, y_small.T, samples): source = util.factoredseq2words(xx, num_to_source) target = util.seq2words(yy, num_to_target) sample = util.seq2words(ss, num_to_target) logging.info('SOURCE: {}'.format(source)) logging.info('TARGET: {}'.format(target)) logging.info('SAMPLE: {}'.format(sample)) if config.beam_freq and progress.uidx % config.beam_freq == 0: x_small, x_mask_small, y_small = x_in[:, :, :10], x_mask_in[:, :10], y_in[:,:10] samples = model_set.beam_search(sess, x_small, x_mask_small, config.beam_size, normalization_alpha=config.normalization_alpha) # samples is a list with shape batch x beam x len assert len(samples) == len(x_small.T) == len(y_small.T), (len(samples), x_small.shape, y_small.shape) for xx, yy, ss in zip(x_small.T, y_small.T, samples): source = util.factoredseq2words(xx, num_to_source) target = util.seq2words(yy, num_to_target) logging.info('SOURCE: {}'.format(source)) logging.info('TARGET: {}'.format(target)) for i, (sample_seq, cost) in enumerate(ss): sample = util.seq2words(sample_seq, num_to_target) msg = 'SAMPLE {}: {} Cost/Len/Avg {}/{}/{}'.format( i, sample, cost, len(sample), cost/len(sample)) logging.info(msg) if config.valid_freq and progress.uidx % config.valid_freq == 0: valid_ce = validate(sess, replicas[0], config, valid_text_iterator) if (len(progress.history_errs) == 0 or valid_ce < min(progress.history_errs)): progress.history_errs.append(valid_ce) progress.bad_counter = 0 save_non_checkpoint(sess, saver, config.saveto) progress_path = '{0}.progress.json'.format(config.saveto) progress.save_to_json(progress_path) else: progress.history_errs.append(valid_ce) progress.bad_counter += 1 if progress.bad_counter > config.patience: logging.info('Early Stop!') progress.estop = True break if config.valid_script is not None: score = validate_with_script(sess, replicas[0], config) need_to_save = (score is not None and (len(progress.valid_script_scores) == 0 or score > max(progress.valid_script_scores))) if score is None: score = 0.0 # ensure a valid value is written progress.valid_script_scores.append(score) if need_to_save: progress.bad_counter = 0 save_path = config.saveto + ".best-valid-script" save_non_checkpoint(sess, saver, save_path) write_config_to_json_file(config, save_path) progress_path = '{}.progress.json'.format(save_path) progress.save_to_json(progress_path) if config.save_freq and progress.uidx % config.save_freq == 0: saver.save(sess, save_path=config.saveto, global_step=progress.uidx) write_config_to_json_file(config, "%s-%s" % (config.saveto, progress.uidx)) progress_path = '{0}-{1}.progress.json'.format(config.saveto, progress.uidx) progress.save_to_json(progress_path) if config.finish_after and progress.uidx % config.finish_after == 0: logging.info("Maximum number of updates reached") saver.save(sess, save_path=config.saveto, global_step=progress.uidx) write_config_to_json_file(config, "%s-%s" % (config.saveto, progress.uidx)) progress.estop=True progress_path = '{0}-{1}.progress.json'.format(config.saveto, progress.uidx) progress.save_to_json(progress_path) break if progress.estop: break