def main(_): bert_config = modeling.BertConfig.from_json_file(FLAGS.bert_config_file) input_files = [] for input_pattern in FLAGS.input_file.split(","): input_files.extend(tf.io.gfile.glob(input_pattern)) train_config = TrainConfigEx.from_flags(FLAGS) model_config = JsonConfig.from_json_file(FLAGS.model_config_file) show_input_files(input_files) model_fn = loss_diff_prediction_model( bert_config=bert_config, train_config=train_config, model_class=BertModel, model_config=model_config, ) if FLAGS.do_train: input_fn = input_fn_builder_masked( input_files=input_files, flags=FLAGS, is_training=True) elif FLAGS.do_eval or FLAGS.do_predict: input_fn = input_fn_builder_masked( input_files=input_files, flags=FLAGS, is_training=False) else: raise Exception() run_estimator(model_fn, input_fn)
def main(_): config = JsonConfig.from_json_file(FLAGS.model_config_file) train_config = TrainConfigEx.from_flags(FLAGS) input_files = flags_wrapper.get_input_files() input_fn = input_fn_builder_unmasked(input_files, FLAGS, False, True) model_fn = model_fn_share_fetch_grad(config, train_config, SharingFetchGradModel) run_estimator(model_fn, input_fn)
def main(_): is_training = FLAGS.do_train input_files = [] for input_pattern in FLAGS.input_file.split(","): input_files.extend(tf.io.gfile.glob(input_pattern)) input_fn = input_fn_builder_unmasked(input_files, FLAGS, is_training) model_fn = model_fn_builder() run_estimator(model_fn, input_fn)
def main(_): tf_logging.info("Train nli_lm_shared") config = JsonConfig.from_json_file(FLAGS.model_config_file) train_config = TrainConfigEx.from_flags(FLAGS) is_training = FLAGS.do_train input_files = flags_wrapper.get_input_files() input_fn = input_fn_builder(input_files, FLAGS, is_training, True) model_fn = model_fn_nli_lm(config, train_config, SimpleSharingModel) run_estimator(model_fn, input_fn)
def main(_): tf_logging.info("Train MLM") config = JsonConfig.from_json_file(FLAGS.model_config_file) train_config = TrainConfigEx.from_flags(FLAGS) is_training = FLAGS.do_train input_files = [] for input_pattern in FLAGS.input_file.split(","): input_files.extend(tf.io.gfile.glob(input_pattern)) input_fn = input_fn_builder_masked2(input_files, FLAGS, is_training) model_fn = model_fn_lm(config, train_config, BertModel) run_estimator(model_fn, input_fn)
def main(_): tf_logging.info("Run NLI with BERT but with file that contain alt_emb_ids") config = JsonConfig.from_json_file(FLAGS.model_config_file) is_training = FLAGS.do_train input_files = get_input_files_from_flags(FLAGS) train_config = TrainConfigEx.from_flags(FLAGS) input_fn = input_fn_builder_alt_emb2_classification( input_files, FLAGS, is_training) model_fn = model_fn_classification(config, train_config, BertModel) run_estimator(model_fn, input_fn)
def main(_): tf_logging.setLevel(logging.INFO) if FLAGS.log_debug: tf_logging.setLevel(logging.DEBUG) config = JsonConfig.from_json_file(FLAGS.model_config_file) train_config = TrainConfigEx.from_flags(FLAGS) is_training = FLAGS.do_train input_fn = input_fn_builder(get_input_files_from_flags(FLAGS), FLAGS, is_training) model_fn = mask_lm_as_seq2seq(config, train_config) run_estimator(model_fn, input_fn)
def main(_): tf_logging.info("Train MLM with BERT like") config = JsonConfig.from_json_file(FLAGS.model_config_file) train_config = TrainConfigEx.from_flags(FLAGS) is_training = FLAGS.do_train input_files = get_input_files_from_flags(FLAGS) input_fn = input_fn_builder_unmasked_alt_emb2(input_files, FLAGS, is_training) model_fn = model_fn_lm(config, train_config, BertModel, get_masked_lm_output) run_estimator(model_fn, input_fn)
def main(_): tf_logging.info("text pair ranking") config = JsonConfig.from_json_file(FLAGS.model_config_file) train_config = TrainConfigEx.from_flags(FLAGS) input_fn = input_fn_perspective_passage(FLAGS) model_fn = text_pair_ranking_pairwise_model(config, train_config, BertModel, "") return run_estimator(model_fn, input_fn)
def main(_): input_files = get_input_files_from_flags(FLAGS) config = JsonConfig.from_json_file(FLAGS.model_config_file) train_config = TrainConfigEx.from_flags(FLAGS) show_input_files(input_files) special_flags = FLAGS.special_flags.split(",") special_flags.append("feed_features") is_training = FLAGS.do_train if FLAGS.do_train or FLAGS.do_eval: model_fn = model_fn_with_loss( config, train_config, MES_hinge, ) input_fn = input_fn_builder_pairwise(FLAGS.max_d_seq_length, FLAGS) else: model_fn = model_fn_with_loss( config, train_config, MES_pred, ) input_fn = input_fn_builder_classification_w_data_id2( input_files, FLAGS.max_seq_length, FLAGS, is_training, num_cpu_threads=4) if FLAGS.do_predict: tf_logging.addFilter(MuteEnqueueFilter()) result = run_estimator(model_fn, input_fn) return result
def main(_): tf_logging.info("Train albert") config = JsonConfig.from_json_file(FLAGS.model_config_file) train_config = TrainConfigEx.from_flags(FLAGS) input_fn = input_fn_from_flags(input_fn_builder_classification, FLAGS) model_fn = model_fn_classification(config, train_config, Albert.factory) return run_estimator(model_fn, input_fn)
def main(_): bert_config = modeling.BertConfig.from_json_file(FLAGS.bert_config_file) input_files = [] for input_pattern in FLAGS.input_file.split(","): input_files.extend(tf.io.gfile.glob(input_pattern)) train_config = TrainConfigEx.from_flags(FLAGS) show_input_files(input_files) ssdr_config = JsonConfig.from_json_file(FLAGS.model_config_file) model_fn = model_fn_apr_classification( bert_config=bert_config, ssdr_config=ssdr_config, train_config=train_config, dict_run_config=DictRunConfig.from_flags(FLAGS), ) if FLAGS.do_train: input_fn = input_fn_builder(input_files=input_files, max_seq_length=FLAGS.max_seq_length, is_training=True) elif FLAGS.do_eval or FLAGS.do_predict: input_fn = input_fn_builder(input_files=input_files, max_seq_length=FLAGS.max_seq_length, is_training=False) else: raise Exception() return run_estimator(model_fn, input_fn)
def main(_): tf_logging.info("Run generative predictor") config = JsonConfig.from_json_file(FLAGS.model_config_file) train_config = TrainConfigEx.from_flags(FLAGS) input_fn = input_fn_from_flags(input_fn_builder_classification, FLAGS) model_fn = model_fn_generative_predictor(config, train_config) return run_estimator(model_fn, input_fn)
def main(_): input_files = get_input_files_from_flags(FLAGS) config = JsonConfig.from_json_file(FLAGS.model_config_file) train_config = TrainConfigEx.from_flags(FLAGS) show_input_files(input_files) special_flags = FLAGS.special_flags.split(",") model_fn = model_fn_classification( config, train_config, BertModel, special_flags ) if FLAGS.do_predict: tf_logging.addFilter(MuteEnqueueFilter()) is_training = FLAGS.do_train if FLAGS.do_train or FLAGS.do_eval: input_fn = input_fn_builder_classification(input_files, FLAGS.max_seq_length, is_training, FLAGS, num_cpu_threads=4, repeat_for_eval=False) else: input_fn = input_fn_builder_classification_w_data_id2( input_files, FLAGS.max_seq_length, FLAGS, is_training, num_cpu_threads=4) result = run_estimator(model_fn, input_fn) return result
def main(_): bert_config = BertConfig.from_json_file(FLAGS.bert_config_file) train_config = TrainConfigEx.from_flags(FLAGS) input_files = get_input_files_from_flags(FLAGS) input_fn = input_fn_builder(input_files, FLAGS, False) model_fn = model_fn_lm(bert_config, train_config, BertModel) return run_estimator(model_fn, input_fn)
def main(_): tf_logging.info("TripleBertMasking") config = JsonConfig.from_json_file(FLAGS.model_config_file) train_config = TrainConfigEx.from_flags(FLAGS) input_fn = input_fn_builder_cppnc_triple(FLAGS) special_flags = FLAGS.special_flags.split(",") special_flags.append("feed_features") def override_prediction_fn(predictions, model): for key, value in model.get_predictions().items(): predictions[key] = value return predictions if FLAGS.modeling == "TripleBertMasking": model_class = TripleBertMasking elif FLAGS.modeling == "TripleBertWeighted": model_class = TripleBertWeighted else: assert False model_fn = model_fn_classification(config, train_config, model_class, special_flags, override_prediction_fn) if FLAGS.do_predict: tf_logging.addFilter(MuteEnqueueFilter()) return run_estimator(model_fn, input_fn)
def main_inner(): train_config = TrainConfigEx.from_flags(FLAGS) model_fn = model_fn_classification( train_config=train_config, ) input_fn = input_fn_from_flags(input_fn_builder, FLAGS) r = run_estimator(model_fn, input_fn) return r
def main(_): tf_logging.info("Train horizon classification") config = JsonConfig.from_json_file(FLAGS.model_config_file) train_config = TrainConfigEx.from_flags(FLAGS) input_fn = input_fn_from_flags(input_fn_builder_classification, FLAGS) model_fn = model_fn_classification(config, train_config, BertologyFactory(HorizontalAlpha)) return run_estimator(model_fn, input_fn)
def main(_): tf_logging.info("Run MSMarco") config = JsonConfig.from_json_file(FLAGS.model_config_file) train_config = TrainConfigEx.from_flags(FLAGS) is_training = FLAGS.do_train input_files = get_input_files_from_flags(FLAGS) input_fn = input_fn_builder(input_files, FLAGS.max_seq_length, is_training) model_fn = model_fn_classification(config, train_config, BertModel) return run_estimator(model_fn, input_fn)
def main(_): tf_logging.info("label_as_token") config = JsonConfig.from_json_file(FLAGS.model_config_file) train_config = TrainConfigEx.from_flags(FLAGS) is_training = FLAGS.do_train input_files = get_input_files_from_flags(FLAGS) input_fn = input_fn_builder_unmasked(input_files, FLAGS, is_training) model_fn = model_fn_lm(config, train_config, BertModel) return run_estimator(model_fn, input_fn)
def main(_): config = JsonConfig.from_json_file(FLAGS.bert_config_file) sero_config = JsonConfig.from_json_file(FLAGS.model_config_file) train_config = TrainConfigEx.from_flags(FLAGS) input_fn = input_fn_from_flags(input_fn_builder_classification, FLAGS) model_fn = model_fn_classification(config, train_config, partial(DualSeroBertModel, sero_config), FLAGS.special_flags.split(",")) return run_estimator(model_fn, input_fn)
def main(_): config = JsonConfig.from_json_file(FLAGS.model_config_file) train_config = TrainConfigEx.from_flags(FLAGS) input_fn = input_fn_from_flags(input_fn_builder_classification, FLAGS) model_fn = model_fn_classification(config, train_config, BertModel) r = run_estimator(model_fn, input_fn) return r
def main(_): tf_logging.info("Train topic_vector") config = JsonConfig.from_json_file(FLAGS.model_config_file) train_config = TrainConfigEx.from_flags(FLAGS) is_training = FLAGS.do_train input_files = get_input_files_from_flags(FLAGS) input_fn = input_fn_topic_fn(input_files, FLAGS, is_training) model_fn = model_fn_lm(config, train_config, TopicVectorBert.factory, get_masked_lm_output, True) return run_estimator(model_fn, input_fn)
def main(_): config = JsonConfig.from_json_file(FLAGS.model_config_file) train_config = TrainConfigEx.from_flags(FLAGS) input_file = get_input_files_from_flags(FLAGS) input_fn = input_fn_builder_classification_w_data_id(input_file, FLAGS, FLAGS.do_train) model_fn = model_fn_pooling_long_things(config, train_config, BertModel) return run_estimator(model_fn, input_fn)
def main(_): tf_logging.info("Train albert") config = JsonConfig.from_json_file(FLAGS.model_config_file) train_config = TrainConfigEx.from_flags(FLAGS) is_training = FLAGS.do_train input_files = get_input_files_from_flags(FLAGS) input_fn = input_fn_builder_unmasked(input_files, FLAGS, is_training) model_fn = model_fn_lm(config, train_config, Albert.factory, get_masked_lm_output_albert) return run_estimator(model_fn, input_fn)
def main(_): set_level_debug() tf_logging.info("Train horizon") config = JsonConfig.from_json_file(FLAGS.model_config_file) train_config = TrainConfigEx.from_flags(FLAGS) is_training = FLAGS.do_train input_files = get_input_files_from_flags(FLAGS) input_fn = input_fn_builder_unmasked(input_files, FLAGS, is_training) model_fn = model_fn_lm(config, train_config, BertologyFactory(HorizontalAlpha), get_masked_lm_output_albert) return run_estimator(model_fn, input_fn)
def main(_): set_level_debug() tf_logging.info("Train reshape bert") config = JsonConfig.from_json_file(FLAGS.model_config_file) train_config = TrainConfigEx.from_flags(FLAGS) is_training = FLAGS.do_train input_files = get_input_files_from_flags(FLAGS) input_fn = input_fn_builder_unmasked(input_files, FLAGS, is_training) model_fn = model_fn_lm(config, train_config, ReshapeBertModel) return run_estimator(model_fn, input_fn)
def main(_): tf_logging.info("Classification with alt loss") config = JsonConfig.from_json_file(FLAGS.model_config_file) train_config = TrainConfigEx.from_flags(FLAGS) input_fn = input_fn_from_flags(input_fn_builder_classification, FLAGS) model_fn = model_fn_classification_with_alt_loss(config, train_config, BertModel) if FLAGS.do_predict: tf_logging.addFilter(MuteEnqueueFilter()) return run_estimator(model_fn, input_fn)
def main(_): tf_logging.info("Train MLM with alternative embedding") config = JsonConfig.from_json_file(FLAGS.model_config_file) train_config = TrainConfigEx.from_flags(FLAGS) is_training = FLAGS.do_train input_files = get_input_files_from_flags(FLAGS) input_fn = input_fn_builder_unmasked_alt_emb(input_files, FLAGS, is_training) def model_constructor(config, is_training, input_ids, input_mask, token_type_ids, use_one_hot_embeddings, features): return EmbeddingReplacer(config, is_training, input_ids, input_mask, token_type_ids, use_one_hot_embeddings, features) model_fn = model_fn_lm(config, train_config, model_constructor, get_masked_lm_output, True) run_estimator(model_fn, input_fn)
def main(_): tf_logging.info("Classification with confidence") config = JsonConfig.from_json_file(FLAGS.model_config_file) train_config = TrainConfigEx.from_flags(FLAGS) input_fn = input_fn_builder_two_inputs_w_data_id(FLAGS) model_fn = model_fn_classification_with_confidence(config, train_config) if FLAGS.do_predict: tf_logging.addFilter(MuteEnqueueFilter()) return run_estimator(model_fn, input_fn)