# Copyright 2023 The TensorFlow Authors. All Rights Reserved. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. """Tests for official.nlp.tasks.sentence_prediction.""" import functools import os from absl.testing import parameterized import numpy as np import tensorflow as tf, tf_keras from official.nlp.configs import bert from official.nlp.configs import encoders from official.nlp.data import sentence_prediction_dataloader from official.nlp.tasks import masked_lm from official.nlp.tasks import sentence_prediction def _create_fake_dataset(output_path, seq_length, num_classes, num_examples): """Creates a fake dataset.""" writer = tf.io.TFRecordWriter(output_path) def create_int_feature(values): return tf.train.Feature( int64_list=tf.train.Int64List(value=np.ravel(values))) def create_float_feature(values): return tf.train.Feature( float_list=tf.train.FloatList(value=np.ravel(values))) for i in range(num_examples): features = {} input_ids = np.random.randint(100, size=(seq_length)) features["input_ids"] = create_int_feature(input_ids) features["input_mask"] = create_int_feature(np.ones_like(input_ids)) features["segment_ids"] = create_int_feature(np.ones_like(input_ids)) features["segment_ids"] = create_int_feature(np.ones_like(input_ids)) features["example_id"] = create_int_feature([i]) if num_classes == 1: features["label_ids"] = create_float_feature([np.random.random()]) else: features["label_ids"] = create_int_feature( [np.random.random_integers(0, num_classes - 1, size=())]) tf_example = tf.train.Example(features=tf.train.Features(feature=features)) writer.write(tf_example.SerializeToString()) writer.close() class SentencePredictionTaskTest(tf.test.TestCase, parameterized.TestCase): def setUp(self): super(SentencePredictionTaskTest, self).setUp() self._train_data_config = ( sentence_prediction_dataloader.SentencePredictionDataConfig( input_path="dummy", seq_length=128, global_batch_size=1)) def get_model_config(self, num_classes): return sentence_prediction.ModelConfig( encoder=encoders.EncoderConfig( bert=encoders.BertEncoderConfig(vocab_size=30522, num_layers=1)), num_classes=num_classes) def _run_task(self, config): task = sentence_prediction.SentencePredictionTask(config) model = task.build_model() metrics = task.build_metrics() strategy = tf.distribute.get_strategy() dataset = strategy.distribute_datasets_from_function( functools.partial(task.build_inputs, config.train_data)) iterator = iter(dataset) optimizer = tf_keras.optimizers.SGD(learning_rate=0.1) task.train_step(next(iterator), model, optimizer, metrics=metrics) model.save(os.path.join(self.get_temp_dir(), "saved_model")) return task.validation_step(next(iterator), model, metrics=metrics) @parameterized.named_parameters( ("init_cls_pooler", True), ("init_encoder", False), ) def test_task(self, init_cls_pooler): # Saves a checkpoint. pretrain_cfg = bert.PretrainerConfig( encoder=encoders.EncoderConfig( bert=encoders.BertEncoderConfig(vocab_size=30522, num_layers=1)), cls_heads=[ bert.ClsHeadConfig( inner_dim=768, num_classes=2, name="next_sentence") ]) pretrain_model = masked_lm.MaskedLMTask(None).build_model(pretrain_cfg) # The model variables will be created after the forward call. _ = pretrain_model(pretrain_model.inputs) ckpt = tf.train.Checkpoint( model=pretrain_model, **pretrain_model.checkpoint_items) init_path = ckpt.save(self.get_temp_dir()) # Creates the task. config = sentence_prediction.SentencePredictionConfig( init_checkpoint=init_path, model=self.get_model_config(num_classes=2), train_data=self._train_data_config, init_cls_pooler=init_cls_pooler) task = sentence_prediction.SentencePredictionTask(config) model = task.build_model() metrics = task.build_metrics() dataset = task.build_inputs(config.train_data) iterator = iter(dataset) optimizer = tf_keras.optimizers.SGD(learning_rate=0.1) task.initialize(model) task.train_step(next(iterator), model, optimizer, metrics=metrics) task.validation_step(next(iterator), model, metrics=metrics) @parameterized.named_parameters( { "testcase_name": "regression", "num_classes": 1, }, { "testcase_name": "classification", "num_classes": 2, }, ) def test_metrics_and_losses(self, num_classes): config = sentence_prediction.SentencePredictionConfig( init_checkpoint=self.get_temp_dir(), model=self.get_model_config(num_classes), train_data=self._train_data_config) task = sentence_prediction.SentencePredictionTask(config) model = task.build_model() metrics = task.build_metrics() if num_classes == 1: self.assertIsInstance(metrics[0], tf_keras.metrics.MeanSquaredError) else: self.assertIsInstance(metrics[0], tf_keras.metrics.SparseCategoricalAccuracy) dataset = task.build_inputs(config.train_data) iterator = iter(dataset) optimizer = tf_keras.optimizers.SGD(learning_rate=0.1) task.train_step(next(iterator), model, optimizer, metrics=metrics) logs = task.validation_step(next(iterator), model, metrics=metrics) loss = logs["loss"].numpy() if num_classes == 1: self.assertGreater(loss, 1.0) else: self.assertLess(loss, 1.0) @parameterized.parameters(("matthews_corrcoef", 2), ("pearson_spearman_corr", 1), ("f1", 2)) def test_np_metrics(self, metric_type, num_classes): config = sentence_prediction.SentencePredictionConfig( metric_type=metric_type, init_checkpoint=self.get_temp_dir(), model=self.get_model_config(num_classes), train_data=self._train_data_config) task = sentence_prediction.SentencePredictionTask(config) model = task.build_model() dataset = task.build_inputs(config.train_data) iterator = iter(dataset) strategy = tf.distribute.get_strategy() distributed_outputs = strategy.run( functools.partial(task.validation_step, model=model), args=(next(iterator),)) outputs = tf.nest.map_structure(strategy.experimental_local_results, distributed_outputs) aggregated = task.aggregate_logs(step_outputs=outputs) aggregated = task.aggregate_logs(state=aggregated, step_outputs=outputs) self.assertIn(metric_type, task.reduce_aggregated_logs(aggregated)) def test_np_metrics_cola_partial_batch(self): train_data_path = os.path.join(self.get_temp_dir(), "train.tf_record") num_examples = 5 global_batch_size = 8 seq_length = 16 _create_fake_dataset( train_data_path, seq_length=seq_length, num_classes=2, num_examples=num_examples) train_data_config = ( sentence_prediction_dataloader.SentencePredictionDataConfig( input_path=train_data_path, seq_length=seq_length, is_training=True, label_type="int", global_batch_size=global_batch_size, drop_remainder=False, include_example_id=True)) config = sentence_prediction.SentencePredictionConfig( metric_type="matthews_corrcoef", model=self.get_model_config(2), train_data=train_data_config) outputs = self._run_task(config) self.assertEqual(outputs["sentence_prediction"].shape.as_list(), [8, 1]) def _export_bert_tfhub(self): encoder = encoders.build_encoder( encoders.EncoderConfig( bert=encoders.BertEncoderConfig(vocab_size=30522, num_layers=1))) encoder_inputs_dict = {x.name: x for x in encoder.inputs} encoder_output_dict = encoder(encoder_inputs_dict) core_model = tf_keras.Model( inputs=encoder_inputs_dict, outputs=encoder_output_dict) hub_destination = os.path.join(self.get_temp_dir(), "hub") core_model.save(hub_destination, include_optimizer=False, save_format="tf") return hub_destination def test_task_with_hub(self): hub_module_url = self._export_bert_tfhub() config = sentence_prediction.SentencePredictionConfig( hub_module_url=hub_module_url, model=self.get_model_config(2), train_data=self._train_data_config) self._run_task(config) @parameterized.named_parameters(("classification", 5), ("regression", 1)) def test_prediction(self, num_classes): task_config = sentence_prediction.SentencePredictionConfig( model=self.get_model_config(num_classes=num_classes), train_data=self._train_data_config) task = sentence_prediction.SentencePredictionTask(task_config) model = task.build_model() test_data_path = os.path.join(self.get_temp_dir(), "test.tf_record") seq_length = 16 num_examples = 100 _create_fake_dataset( test_data_path, seq_length=seq_length, num_classes=num_classes, num_examples=num_examples) test_data_config = ( sentence_prediction_dataloader.SentencePredictionDataConfig( input_path=test_data_path, seq_length=seq_length, is_training=False, label_type="int" if num_classes > 1 else "float", global_batch_size=16, drop_remainder=False, include_example_id=True)) predictions = sentence_prediction.predict(task, test_data_config, model) self.assertLen(predictions, num_examples) for prediction in predictions: self.assertEqual(prediction.dtype, tf.int64 if num_classes > 1 else tf.float32) if __name__ == "__main__": tf.test.main()