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[Python] Implemented Hugging Face Model Handler #26632

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73 changes: 73 additions & 0 deletions sdks/python/apache_beam/examples/inference/README.md
Original file line number Diff line number Diff line change
Expand Up @@ -42,6 +42,7 @@ The RunInference API supports the Tensorflow framework. To use Tensorflow locall
pip install tensorflow==2.12.0
```


### PyTorch dependencies

The following installation requirements are for the files used in these examples.
Expand All @@ -65,6 +66,21 @@ For installation of the `torch` dependency on a distributed runner such as Dataf
[PyPI dependency instructions](https://beam.apache.org/documentation/sdks/python-pipeline-dependencies/#pypi-dependencies).


### Transformers dependencies

The following installation requirement is for the Hugging Face model handler examples.

The RunInference API supports loading models from the Hugging Face Hub. To use it, first install `transformers`.
```
pip install transformers==4.30.0
```
Additional dependicies for PyTorch and TensorFlow may need to be installed separately:
```
pip install tensorflow==2.12.0
pip install torch==1.10.0
```


### TensorRT dependencies

The RunInference API supports TensorRT SDK for high-performance deep learning inference with NVIDIA GPUs.
Expand Down Expand Up @@ -687,3 +703,60 @@ MilkQualityAggregation(bad_quality_measurements=6, medium_quality_measurements=4
MilkQualityAggregation(bad_quality_measurements=3, medium_quality_measurements=3, high_quality_measurements=3)
MilkQualityAggregation(bad_quality_measurements=1, medium_quality_measurements=2, high_quality_measurements=1)
```

---
## Language modeling with Hugging Face Hub

[`huggingface_language_modeling.py`](./huggingface_language_modeling.py) contains an implementation for a RunInference pipeline that performs masked language modeling (that is, decoding a masked token in a sentence) using the `AutoModelForMaskedLM` architecture from Hugging Face.

The pipeline reads sentences, performs basic preprocessing to convert the last word into a `<mask>` token, passes the masked sentence to the Hugging Face implementation of RunInference, and then writes the predictions to a text file.

### Dataset and model for language modeling

To use this transform, you need a dataset and model for language modeling.

1. Choose a checkpoint to load from Hugging Face Hub, eg:[MaskedLanguageModel](https://huggingface.co/stevhliu/my_awesome_eli5_mlm_model).
2. (Optional) Create a file named `SENTENCES.txt` that contains sentences to feed into the model. The content of the file should be similar to the following example:
```
The capital of France is Paris .
He looked up and saw the sun and stars .
...
```

### Running `huggingface_language_modeling.py`

To run the language modeling pipeline locally, use the following command:
```sh
python -m apache_beam.examples.inference.huggingface_language_modeling \
--input SENTENCES \
--output OUTPUT \
--model_name REPOSITORY_ID
```
The `input` argument is optional. If none is provided, it will run the pipeline with some
example sentences.

For example, if you've followed the naming conventions recommended above:
```sh
python -m apache_beam.examples.inference.huggingface_language_modeling \
--input SENTENCES.txt \
--output predictions.csv \
--model_name "stevhliu/my_awesome_eli5_mlm_model"
```
Or, using the default example sentences:
```sh
python -m apache_beam.examples.inference.huggingface_language_modeling \
--output predictions.csv \
--model_name "stevhliu/my_awesome_eli5_mlm_model"
```

This writes the output to the `predictions.csv` with contents like:
```
The capital of France is Paris .;paris
He looked up and saw the sun and stars .;moon
...
```
Each line has data separated by a semicolon ";".
The first item is the input sentence. The model masks the last word and tries to predict it;
the second item is the word that the model predicts for the mask.

---
Original file line number Diff line number Diff line change
@@ -0,0 +1,180 @@
#
# Licensed to the Apache Software Foundation (ASF) under one or more
# contributor license agreements. See the NOTICE file distributed with
# this work for additional information regarding copyright ownership.
# The ASF licenses this file to You 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 pipeline that uses RunInference to perform Language Modeling with
model from Hugging Face.

This pipeline takes sentences from a custom text file, converts the last word
of the sentence into a <mask> token, and then uses the AutoModelForMaskedLM from
Hugging Face to predict the best word for the masked token given all the words
already in the sentence. The pipeline then writes the prediction to an output
file in which users can then compare against the original sentence.
"""

import argparse
import logging
from typing import Dict
from typing import Iterable
from typing import Iterator
from typing import Tuple

import apache_beam as beam
import torch
from apache_beam.ml.inference.base import KeyedModelHandler
from apache_beam.ml.inference.base import PredictionResult
from apache_beam.ml.inference.base import RunInference
from apache_beam.ml.inference.huggingface_inference import HuggingFaceModelHandlerKeyedTensor
from apache_beam.options.pipeline_options import PipelineOptions
from apache_beam.options.pipeline_options import SetupOptions
from apache_beam.runners.runner import PipelineResult
from transformers import AutoModelForMaskedLM
from transformers import AutoTokenizer


def add_mask_to_last_word(text: str) -> Tuple[str, str]:
text_list = text.split()
return text, ' '.join(text_list[:-2] + ['<mask>', text_list[-1]])


def tokenize_sentence(
text_and_mask: Tuple[str, str],
tokenizer: AutoTokenizer) -> Tuple[str, Dict[str, torch.Tensor]]:
text, masked_text = text_and_mask
tokenized_sentence = tokenizer.encode_plus(masked_text, return_tensors="pt")

# Workaround to manually remove batch dim until we have the feature to
# add optional batching flag.
# TODO(https://github.com/apache/beam/issues/21863): Remove once optional
# batching flag added
return text, {
k: torch.squeeze(v)
for k, v in dict(tokenized_sentence).items()
}


def filter_empty_lines(text: str) -> Iterator[str]:
if len(text.strip()) > 0:
yield text


class PostProcessor(beam.DoFn):
"""Processes the PredictionResult to get the predicted word.

The logits are the output of the Model. After applying a softmax
activation function to the logits, we get probabilistic distributions for each
of the words in the model's vocabulary. We can get the word with the highest
probability of being a candidate replacement word by taking the argmax.
"""
def __init__(self, tokenizer: AutoTokenizer):
super().__init__()
self.tokenizer = tokenizer

def process(self, element: Tuple[str, PredictionResult]) -> Iterable[str]:
text, prediction_result = element
inputs = prediction_result.example
logits = prediction_result.inference['logits']
mask_token_index = torch.where(
inputs["input_ids"] == self.tokenizer.mask_token_id)[0]
predicted_token_id = logits[mask_token_index].argmax(axis=-1)
decoded_word = self.tokenizer.decode(predicted_token_id)
yield text + ';' + decoded_word


def parse_known_args(argv):
"""Parses args for the workflow."""
parser = argparse.ArgumentParser()
parser.add_argument(
'--input',
dest='input',
help='Path to the text file containing sentences.')
parser.add_argument(
'--output',
dest='output',
required=True,
help='Path of file in which to save the output predictions.')
parser.add_argument(
'--model_name',
dest='model_name',
required=True,
help='bert uncased model. This can be base model or large model')
parser.add_argument(
'--model_class',
dest='model_class',
default=AutoModelForMaskedLM,
help="Name of the model from Hugging Face")
return parser.parse_known_args(argv)


def run(
argv=None, save_main_session=True, test_pipeline=None) -> PipelineResult:
"""
Args:
argv: Command line arguments defined for this example.
model_class: Reference to the class definition of the model.
model_name: Name of the pretrained model to be loaded.
save_main_session: Used for internal testing.
test_pipeline: Used for internal testing.
"""
known_args, pipeline_args = parse_known_args(argv)
pipeline_options = PipelineOptions(pipeline_args)
pipeline_options.view_as(SetupOptions).save_main_session = save_main_session

pipeline = test_pipeline
if not test_pipeline:
pipeline = beam.Pipeline(options=pipeline_options)

tokenizer = AutoTokenizer.from_pretrained(known_args.model_name)

model_handler = HuggingFaceModelHandlerKeyedTensor(
model_uri=known_args.model_name,
model_class=known_args.model_class,
max_batch_size=1)
if not known_args.input:
text = (
pipeline | 'CreateSentences' >> beam.Create([
'The capital of France is Paris .',
'It is raining cats and dogs .',
'Today is Monday and tomorrow is Tuesday .',
'There are 5 coconuts on this palm tree .',
'The strongest person in the world is not famous .',
'The secret ingredient to his wonderful life was gratitude .',
'The biggest animal in the world is the whale .',
]))
else:
text = (
pipeline | 'ReadSentences' >> beam.io.ReadFromText(known_args.input))
text_and_tokenized_text_tuple = (
text
| 'FilterEmptyLines' >> beam.ParDo(filter_empty_lines)
| 'AddMask' >> beam.Map(add_mask_to_last_word)
|
'TokenizeSentence' >> beam.Map(lambda x: tokenize_sentence(x, tokenizer)))
output = (
text_and_tokenized_text_tuple
| 'RunInference' >> RunInference(KeyedModelHandler(model_handler))
| 'ProcessOutput' >> beam.ParDo(PostProcessor(tokenizer=tokenizer)))
_ = output | "WriteOutput" >> beam.io.WriteToText(
known_args.output, shard_name_template='', append_trailing_newlines=True)

result = pipeline.run()
result.wait_until_finish()
return result


if __name__ == '__main__':
logging.getLogger().setLevel(logging.INFO)
run()
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