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Toolkit for Machine Learning and Text Generation, in PyTorch

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(Note: This is the alpha release of Texar-PyTorch.)

Texar-PyTorch is an open-source toolkit based on PyTorch, aiming to support a broad set of machine learning, especially text generation tasks, such as machine translation, dialog, summarization, content manipulation, language modeling, and so on. Texar is designed for both researchers and practitioners for fast prototyping and experimentation.

If you work with TensorFlow, be sure to check out Texar (TensorFlow) which has (mostly) the same functionalities and interfaces.

With the design goals of modularity, versatility, and extensibility in mind, Texar extracts the common patterns underlying the diverse tasks and methodologies, creates a library of highly reusable modules and functionalities, and facilitates arbitrary model architectures and algorithmic paradigms, e.g.,

  • encoder(s) to decoder(s), sequential- and self-attentions, memory, hierarchical models, classifiers, ...
  • maximum likelihood learning, reinforcement learning, adversarial learning, probabilistic modeling, ...

With Texar, cutting-edge complex models can be easily constructed, freely enriched with best modeling/training practices, readily fitted into standard training/evaluation pipelines, and fastly experimented and evolved by, e.g., plugging-in and swapping-out different modules.



Key Features

  • Versatility. Texar contains a wide range of modules and functionalities for composing arbitrary model architectures and implementing various learning algorithms, as well as for data processing, evaluation, prediction, etc.
  • Modularity. Texar decomposes diverse complex machine learning models/algorithms into a set of highly-reusable modules. In particular, model architecture, losses, and learning processes are fully decomposed.
    Users can construct their own models at a high conceptual level just like assembling building blocks. It is convenient to plug-ins or swap-out modules, and configure rich options of each module. For example, switching between maximum likelihood learning and reinforcement learning involves only changing several lines of code.
  • Extensibility. It is straightforward to integrate any user-customized, external modules. Also, Texar is fully compatible with the native PyTorch interfaces and can take advantage of the rich PyTorch features, and resources from the vibrant open-source community.
  • Interfaces with different functionality levels. Users can customize a model through 1) simple Python/YAML configuration files of provided model templates/examples; 2) programming with Python Library APIs for maximal customizability.
  • Easy-to-use APIs; rich configuration options for each module, all with default values.
  • Pretrained Models such as BERT, GPT2, and more!
  • Well-structured high-quality code of uniform design patterns and consistent styles.
  • Clean, detailed documentation and rich examples.

Library API Example

A code portion that builds a (self-)attentional sequence encoder-decoder model:

import texar as tx

class Seq2Seq(tx.ModuleBase):
  def __init__(self, data):
    self.embedder = tx.modules.WordEmbedder(data.target_vocab.size, hparams=hparams_emb)
    self.encoder = tx.modules.TransformerEncoder(hparams=hparams_encoder) # config through `hparams`
    self.decoder = tx.modules.AttentionRNNDecoder(
        input_size=self.embedder.dim
      	encoder_output_size=self.encoder.output_size,
      	vocab_size=data.target_vocab.size,
        hparams=hparams_decoder)

  def forward(self, batch): 
    outputs_enc = self.encoder(
        inputs=self.embedder(batch['source_text_ids']),
        sequence_length=batch['source_length'])
     
    outputs, _, _ = self.decoder(
        memory=output_enc, 
        memory_sequence_length=batch['source_length'],
        helper=self.decoder.get_helper(decoding_strategy='train_greedy'), 
        inputs=self.embedder(batch['target_text_ids']),
        sequence_length=batch['target_length']-1)

    # Loss for maximum likelihood learning
    loss = tx.losses.sequence_sparse_softmax_cross_entropy(
        labels=batch['target_text_ids'][:, 1:],
        logits=outputs.logits,
        sequence_length=batch['target_length']-1) # Automatic masking

    return loss


data = tx.data.PairedTextData(hparams=hparams_data) 
iterator = tx.data.DataIterator(data)

model = Seq2seq(data)
for batch in iterator.get_iterator():
    loss = model(batch)
    # ...

Many more examples are available here

Installation

git clone https://github.com/asyml/texar-pytorch.git 
cd texar-pytorch
pip install -e .

Getting Started

Reference

If you use Texar, please cite the tech report with the following BibTex entry:

Texar: A Modularized, Versatile, and Extensible Toolkit for Text Generation
Zhiting Hu, Haoran Shi, Bowen Tan, Wentao Wang, Zichao Yang, Tiancheng Zhao, Junxian He, Lianhui Qin, Di Wang, Xuezhe Ma, Zhengzhong Liu, Xiaodan Liang, Wanrong Zhu, Devendra Sachan and Eric Xing
2018

@article{hu2018texar,
  title={Texar: A Modularized, Versatile, and Extensible Toolkit for Text Generation},
  author={Hu, Zhiting and Shi, Haoran and Tan, Bowen and Wang, Wentao and Yang, Zichao and Zhao, Tiancheng and He, Junxian and Qin, Lianhui and Wang, Di and others},
  journal={arXiv preprint arXiv:1809.00794},
  year={2018}
}

License

Apache License 2.0

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