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Commit 4c0ae86b authored by Hongkun Yu's avatar Hongkun Yu Committed by A. Unique TensorFlower
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official/nlp/projects/example/README.md 0 → 100644
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# NLP example project
This is a tutorial for setting up your project using TF-NLP library. Here we
focus on the scaffolding of project and pay little attention to any modeling
aspects.
Below we use classification as an example.
## Setup your codebase
First you need to define the
[Task](https://github.com/tensorflow/models/blob/master/official/core/base_task.py)
by inheirting it. Task is an abstraction of any machine learning task, here we
focus on two things inputs and optimization target.
NOTE: We use BertClassifier as base model. You can shop other models
[here](https://github.com/tensorflow/models/blob/master/official/nlp/modeling/models).
#### Step 1: build\_inputs
Here we use [CoLA](https://nyu-mll.github.io/CoLA/), a binary classification
task as an example.
TODO(saberkun): Add demo data instructions.
There are 4 fields we care about in the tf.Example, input_ids, input_mask,
segment_ids and label_ids. Then we start with a simple data loader by inheriting
the
[DataLoader](https://github.com/tensorflow/models/blob/master/official/nlp/data/data_loader.py)
interface.
```python
class ClassificationDataLoader(data_loader.DataLoader):
...
def _parse(self, record: Mapping[str, tf.Tensor]):
"""Parses raw tensors into a dict of tensors to be consumed by the model."""
x = {
'input_word_ids': record['input_ids'],
'input_mask': record['input_mask'],
'input_type_ids': record['segment_ids']
}
y = record['label_ids']
return (x, y)
...
```
Overall, loader will translate the tf.Example to approiate format for model to
consume. Then in Task.build_inputs, link the dataset like
```python
def build_inputs(self):
...
loader = classification_data_loader.ClassificationDataLoader(params)
return loader.load(input_context)
```
#### Step 2: build\_losses
We use standard cross entropy loss and make sure the `build_losses()` returns a
float scalar Tensor.
```python
def build_losses(self, labels, model_outputs, aux_losses=None):
loss = tf.keras.losses.sparse_categorical_crossentropy(
labels, tf.cast(model_outputs, tf.float32), from_logits=True)
...
```
#### Try the workflow locally.
We use a small BERT model for local trial and error. Below is the command:
```shell
# Assume you are under official/nlp/projects.
python3 example/train.py \
--experiment=example_bert_classification_example \
--config_file=example/local_example.yaml \
--mode=train \
--model_dir=/tmp/example_project_test/
```
The train binary translates the config file for the experiments. Usually you may
just change the task import logics:
```python
task_config = classification_example.ClassificationExampleConfig()
task = classification_example.ClassificationExampleTask(task_config)
```
TIPs: You can also check the [unittest](https://github.com/tensorflow/models/blob/master/official/nlp/projects/example/classification_example_test.py)
for better understanding.
### Finetune
TF-NLP make it easy to start from a [pretrained checkpoint](https://github.com/tensorflow/models/blob/master/official/nlp/docs/pretrained_models.md),
try below. This is done through configuring task.init_checkpoint in the YAML
config below, see the [base_task.initialize](https://github.com/tensorflow/models/blob/master/official/core/base_task.py)
method for more details.
We use GCP TPU to demonstrate this.
```shell
EXP_NAME=bert_base_cola
EXP_TYPE=example_bert_classification_example
CONFIG_FILE=example/experiments/classification_ft_cola.yaml
TPU_NAME=experiment01
MODEL_DIR=your GCS bucket folder
python3 example/train.py \
--experiment=$EXP_TYPE \
--mode=train_and_eval \
--tpu=$TPU_NAME \
--model_dir=${MODEL_DIR}
--config_file=${CONFIG_FILE}
```
official/nlp/projects/example/classification_data_loader.py 0 → 100644
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# Copyright 2021 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.
"""Loads dataset for classification tasks."""
from typing import Dict, Mapping, Optional, Tuple
import dataclasses
import tensorflow as tf
from official.core import config_definitions as cfg
from official.core import input_reader
from official.nlp.data import data_loader
@dataclasses.dataclass
class ClassificationExampleDataConfig(cfg.DataConfig):
"""Data config for token classification task."""
seq_length: int = 128
class ClassificationDataLoader(data_loader.DataLoader):
"""A class to load dataset for sentence prediction (classification) task."""
def __init__(self, params):
self._params = params
self._seq_length = params.seq_length
def _decode(self, record: tf.Tensor) -> Dict[str, tf.Tensor]:
"""Decodes a serialized tf.Example."""
name_to_features = {
'input_ids': tf.io.FixedLenFeature([self._seq_length], tf.int64),
'input_mask': tf.io.FixedLenFeature([self._seq_length], tf.int64),
'segment_ids': tf.io.FixedLenFeature([self._seq_length], tf.int64),
'label_ids': tf.io.FixedLenFeature([], tf.int64),
}
example = tf.io.parse_single_example(record, name_to_features)
# tf.Example only supports tf.int64, but the TPU only supports tf.int32.
# So cast all int64 to int32.
for name in example:
t = example[name]
if t.dtype == tf.int64:
t = tf.cast(t, tf.int32)
example[name] = t
return example
def _parse(
self,
record: Mapping[str,
tf.Tensor]) -> Tuple[Dict[str, tf.Tensor], tf.Tensor]:
"""Parses raw tensors into a dict of tensors to be consumed by the model."""
x = {
'input_word_ids': record['input_ids'],
'input_mask': record['input_mask'],
'input_type_ids': record['segment_ids']
}
y = record['label_ids']
return (x, y)
def load(
self,
input_context: Optional[tf.distribute.InputContext] = None
) -> tf.data.Dataset:
"""Returns a tf.dataset.Dataset."""
reader = input_reader.InputReader(
params=self._params, decoder_fn=self._decode, parser_fn=self._parse)
return reader.read(input_context)
official/nlp/projects/example/classification_example.py 0 → 100644
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# Copyright 2021 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.
"""Classifcation Task Showcase."""
import dataclasses
from typing import List, Mapping, Text
from seqeval import metrics as seqeval_metrics
import tensorflow as tf
from official.core import base_task
from official.core import config_definitions as cfg
from official.core import exp_factory
from official.modeling import optimization
from official.modeling import tf_utils
from official.modeling.hyperparams import base_config
from official.nlp.configs import encoders
from official.nlp.modeling import models
from official.nlp.projects.example import classification_data_loader
from official.nlp.tasks import utils
@dataclasses.dataclass
class ModelConfig(base_config.Config):
"""A base span labeler configuration."""
encoder: encoders.EncoderConfig = encoders.EncoderConfig()
head_dropout: float = 0.1
head_initializer_range: float = 0.02
@dataclasses.dataclass
class ClassificationExampleConfig(cfg.TaskConfig):
"""The model config."""
# At most one of `init_checkpoint` and `hub_module_url` can be specified.
init_checkpoint: str = ''
hub_module_url: str = ''
model: ModelConfig = ModelConfig()
num_classes = 2
class_names = ['A', 'B']
train_data: cfg.DataConfig = classification_data_loader.ClassificationExampleDataConfig(
)
validation_data: cfg.DataConfig = classification_data_loader.ClassificationExampleDataConfig(
)
class ClassificationExampleTask(base_task.Task):
"""Task object for classification."""
def build_model(self) -> tf.keras.Model:
if self.task_config.hub_module_url and self.task_config.init_checkpoint:
raise ValueError('At most one of `hub_module_url` and '
'`init_checkpoint` can be specified.')
if self.task_config.hub_module_url:
encoder_network = utils.get_encoder_from_hub(
self.task_config.hub_module_url)
else:
encoder_network = encoders.build_encoder(self.task_config.model.encoder)
return models.BertClassifier(
network=encoder_network,
num_classes=len(self.task_config.class_names),
initializer=tf.keras.initializers.TruncatedNormal(
stddev=self.task_config.model.head_initializer_range),
dropout_rate=self.task_config.model.head_dropout)
def build_losses(self, labels, model_outputs, aux_losses=None) -> tf.Tensor:
loss = tf.keras.losses.sparse_categorical_crossentropy(
labels, tf.cast(model_outputs, tf.float32), from_logits=True)
return tf_utils.safe_mean(loss)
def build_inputs(self,
params: cfg.DataConfig,
input_context=None) -> tf.data.Dataset:
"""Returns tf.data.Dataset for sentence_prediction task."""
loader = classification_data_loader.ClassificationDataLoader(params)
return loader.load(input_context)
def inference_step(self, inputs,
model: tf.keras.Model) -> Mapping[str, tf.Tensor]:
"""Performs the forward step."""
logits = model(inputs, training=False)
return {
'logits': logits,
'predict_ids': tf.argmax(logits, axis=-1, output_type=tf.int32)
}
def validation_step(self,
inputs,
model: tf.keras.Model,
metrics=None) -> Mapping[str, tf.Tensor]:
"""Validatation step.
Args:
inputs: a dictionary of input tensors.
model: the keras.Model.
metrics: a nested structure of metrics objects.
Returns:
A dictionary of logs.
"""
features, labels = inputs
outputs = self.inference_step(features, model)
loss = self.build_losses(labels=labels, model_outputs=outputs['logits'])
# Negative label ids are padding labels which should be ignored.
real_label_index = tf.where(tf.greater_equal(labels, 0))
predict_ids = tf.gather_nd(outputs['predict_ids'], real_label_index)
label_ids = tf.gather_nd(labels, real_label_index)
return {
self.loss: loss,
'predict_ids': predict_ids,
'label_ids': label_ids,
}
def aggregate_logs(self,
state=None,
step_outputs=None) -> Mapping[Text, List[List[Text]]]:
"""Aggregates over logs returned from a validation step."""
if state is None:
state = {'predict_class': [], 'label_class': []}
def id_to_class_name(batched_ids):
class_names = []
for per_example_ids in batched_ids:
class_names.append([])
for per_token_id in per_example_ids.numpy().tolist():
class_names[-1].append(self.task_config.class_names[per_token_id])
return class_names
# Convert id to class names, because `seqeval_metrics` relies on the class
# name to decide IOB tags.
state['predict_class'].extend(id_to_class_name(step_outputs['predict_ids']))
state['label_class'].extend(id_to_class_name(step_outputs['label_ids']))
return state
def reduce_aggregated_logs(self,
aggregated_logs,
global_step=None) -> Mapping[Text, float]:
"""Reduces aggregated logs over validation steps."""
label_class = aggregated_logs['label_class']
predict_class = aggregated_logs['predict_class']
return {
'f1':
seqeval_metrics.f1_score(label_class, predict_class),
'precision':
seqeval_metrics.precision_score(label_class, predict_class),
'recall':
seqeval_metrics.recall_score(label_class, predict_class),
'accuracy':
seqeval_metrics.accuracy_score(label_class, predict_class),
}
@exp_factory.register_config_factory('example_bert_classification_example')
def bert_classification_example() -> cfg.ExperimentConfig:
"""Return a minimum experiment config for Bert token classification."""
return cfg.ExperimentConfig(
task=ClassificationExampleConfig(),
trainer=cfg.TrainerConfig(
optimizer_config=optimization.OptimizationConfig({
'optimizer': {
'type': 'adamw',
},
'learning_rate': {
'type': 'polynomial',
},
'warmup': {
'type': 'polynomial'
}
})),
restrictions=[
'task.train_data.is_training != None',
'task.validation_data.is_training != None'
])
official/nlp/projects/example/classification_example_test.py 0 → 100644
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# Copyright 2021 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 nlp.projects.example.classification_example."""
import tensorflow as tf
from official.core import config_definitions as cfg
from official.nlp.configs import encoders
from official.nlp.projects.example import classification_data_loader
from official.nlp.projects.example import classification_example
class ClassificationExampleTest(tf.test.TestCase):
def get_model_config(self):
return classification_example.ModelConfig(
encoder=encoders.EncoderConfig(
bert=encoders.BertEncoderConfig(vocab_size=30522, num_layers=2)))
def get_dummy_dataset(self, params: cfg.DataConfig):
def dummy_data(_):
dummy_ids = tf.zeros((1, params.seq_length), dtype=tf.int32)
x = dict(
input_word_ids=dummy_ids,
input_mask=dummy_ids,
input_type_ids=dummy_ids)
y = tf.zeros((1, 1), dtype=tf.int32)
return (x, y)
dataset = tf.data.Dataset.range(1)
dataset = dataset.repeat()
dataset = dataset.map(
dummy_data, num_parallel_calls=tf.data.experimental.AUTOTUNE)
return dataset
def test_task_with_dummy_data(self):
train_data_config = (
classification_data_loader.ClassificationExampleDataConfig(
input_path='dummy', seq_length=128, global_batch_size=1))
task_config = classification_example.ClassificationExampleConfig(
model=self.get_model_config(),)
task = classification_example.ClassificationExampleTask(task_config)
task.build_inputs = self.get_dummy_dataset
model = task.build_model()
metrics = task.build_metrics()
dataset = task.build_inputs(train_data_config)
iterator = iter(dataset)
optimizer = tf.keras.optimizers.SGD(lr=0.1)
task.initialize(model)
task.train_step(next(iterator), model, optimizer, metrics=metrics)
if __name__ == '__main__':
tf.test.main()
official/nlp/projects/example/experiments/classification_ft_cola.yaml 0 → 100644
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task:
model:
encoder:
type: bert
bert:
attention_dropout_rate: 0.1
dropout_rate: 0.1
hidden_activation: gelu
hidden_size: 768
initializer_range: 0.02
intermediate_size: 3072
max_position_embeddings: 512
num_attention_heads: 12
num_layers: 12
type_vocab_size: 2
vocab_size: 30522
init_checkpoint: 'BERT checkpoint'
train_data:
input_path: 'YourData/COLA_train.tf_record'
is_training: true
global_batch_size: 32
validation_data:
input_path: 'YourData/COLA_eval.tf_record'
is_training: false
global_batch_size: 32
trainer:
checkpoint_interval: 5000
max_to_keep: 5
steps_per_loop: 100
summary_interval: 100
train_steps: 10000
validation_interval: 100
validation_steps: -1
optimizer_config:
learning_rate:
polynomial:
initial_learning_rate: 0.00002
decay_steps: 10000
warmup:
polynomial:
warmup_steps: 100
official/nlp/projects/example/experiments/local_example.yaml 0 → 100644
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task:
model:
encoder:
type: bert
bert:
attention_dropout_rate: 0.1
dropout_rate: 0.1
hidden_activation: gelu
hidden_size: 288
initializer_range: 0.02
intermediate_size: 256
max_position_embeddings: 512
num_attention_heads: 6
num_layers: 2
type_vocab_size: 4
vocab_size: 114507
train_data:
input_path: 'YourData/COLA_train.tf_record'
is_training: true
global_batch_size: 32
validation_data:
input_path: 'YourData/COLA_eval.tf_record'
is_training: false
global_batch_size: 32
trainer:
checkpoint_interval: 500
max_to_keep: 5
steps_per_loop: 100
summary_interval: 100
train_steps: 500
validation_interval: 100
validation_steps: -1
optimizer_config:
learning_rate:
polynomial:
initial_learning_rate: 0.001
decay_steps: 740000
warmup:
polynomial:
warmup_steps: 100
official/nlp/projects/example/train.py 0 → 100644
View file @ 4c0ae86b
# Copyright 2021 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.
"""A customized training library for the specific task."""
from absl import app
from absl import flags
import gin
from official.common import distribute_utils
from official.common import flags as tfm_flags
from official.core import train_lib
from official.core import train_utils
from official.modeling import performance
from official.nlp.projects.example import classification_example
FLAGS = flags.FLAGS
def main(_):
gin.parse_config_files_and_bindings(FLAGS.gin_file, FLAGS.gin_params)
params = train_utils.parse_configuration(FLAGS)
model_dir = FLAGS.model_dir
if 'train' in FLAGS.mode:
# Pure eval modes do not output yaml files. Otherwise continuous eval job
# may race against the train job for writing the same file.
train_utils.serialize_config(params, model_dir)
# Sets mixed_precision policy. Using 'mixed_float16' or 'mixed_bfloat16'
# can have significant impact on model speeds by utilizing float16 in case of
# GPUs, and bfloat16 in the case of TPUs. loss_scale takes effect only when
# dtype is float16
if params.runtime.mixed_precision_dtype:
performance.set_mixed_precision_policy(params.runtime.mixed_precision_dtype)
distribution_strategy = distribute_utils.get_distribution_strategy(
distribution_strategy=params.runtime.distribution_strategy,
all_reduce_alg=params.runtime.all_reduce_alg,
num_gpus=params.runtime.num_gpus,
tpu_address=params.runtime.tpu,
**params.runtime.model_parallelism())
with distribution_strategy.scope():
task = classification_example.ClassificationExampleTask(params.task)
train_lib.run_experiment(
distribution_strategy=distribution_strategy,
task=task,
mode=FLAGS.mode,
params=params,
model_dir=model_dir)
train_utils.save_gin_config(FLAGS.mode, model_dir)
if __name__ == '__main__':
tfm_flags.define_flags()
app.run(main)
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