Metadata-Version: 2.1
Name: bert-score
Version: 0.3.7
Summary: PyTorch implementation of BERT score
Home-page: https://github.com/Tiiiger/bert_score
Author: Tianyi Zhang*, Varsha Kishore*, Felix Wu*, Kilian Q. Weinberger, and Yoav Artzi
Author-email: tzhang@asapp.com
License: MIT
Description: # BERTScore
        [![made-with-python](https://img.shields.io/badge/Made%20with-Python-red.svg)](#python) [![PyPI version bert-score](https://badge.fury.io/py/bert-score.svg)](https://pypi.python.org/pypi/bert-score/) [![Downloads](https://pepy.tech/badge/bert-score)](https://pepy.tech/project/bert-score) [![Downloads](https://pepy.tech/badge/bert-score/month)](https://pepy.tech/project/bert-score/month) [![License: MIT](https://img.shields.io/badge/License-MIT-yellow.svg)](https://opensource.org/licenses/MIT) [![Code style: black](https://img.shields.io/badge/code%20style-black-000000.svg)](https://github.com/psf/black) 
        
        Automatic Evaluation Metric described in the paper [BERTScore: Evaluating Text Generation with BERT](https://arxiv.org/abs/1904.09675) (ICLR 2020).
        #### News:
        - Updated to version 0.3.7
          - Being compatible with Huggingface's transformers version >=4.0.0. Thanks to public contributers ([#84](https://github.com/Tiiiger/bert_score/pull/84), [#85](https://github.com/Tiiiger/bert_score/issues/85), [#86](https://github.com/Tiiiger/bert_score/pull/86)).
        - See [#22](https://github.com/Tiiiger/bert_score/issues/22) if you want to replicate our experiments on the COCO Captioning dataset.
        - Updated to version 0.3.6
          - Support custom baseline files [#74](https://github.com/Tiiiger/bert_score/pull/74)
          - The option `--rescale-with-baseline` is changed to `--rescale_with_baseline` so that it is consistent with other options.
        - Updated to version 0.3.5
          - Being compatible with Huggingface's transformers >=v3.0.0 and minor fixes ([#58](https://github.com/Tiiiger/bert_score/pull/58), [#66](https://github.com/Tiiiger/bert_score/pull/66), [#68](https://github.com/Tiiiger/bert_score/pull/68))
          - Several improvements related to efficency ([#67](https://github.com/Tiiiger/bert_score/pull/67), [#69](https://github.com/Tiiiger/bert_score/pull/69))
        - Updated to version 0.3.4
          - Compatible with transformers v2.11.0 now (#58)
        - For people in China, downloading pre-trained weights can be very slow. We provide copies of a few models on Baidu Pan.
          - [roberta-large](https://pan.baidu.com/s/1MTmGHsZ3ubn7Vr_W-wyEdQ) password: dhe5
          - [bert-base-chinese](https://pan.baidu.com/s/1THfiCXjWtdGGsCMskQ5svA) password: jvk7
          - [bert-base-multilingual-cased](https://pan.baidu.com/s/100SBjkLmI7U4pgo_e0q7CQ) password: yx3q
        - [Huggingface's nlp](https://github.com/huggingface/nlp) library includes BERTScore in their metric collection.
        - Updated to version 0.3.3
          - Fixing the bug with empty strings [issue #47](https://github.com/Tiiiger/bert_score/issues/47).
          - Supporting 6 [ELECTRA](https://github.com/google-research/electra) models and 24 smaller [BERT](https://github.com/google-research/bert) models.
          - A new [Google sheet](https://docs.google.com/spreadsheets/d/1RKOVpselB98Nnh_EOC4A2BYn8_201tmPODpNWu4w7xI/edit?usp=sharing) for keeping the performance (i.e., pearson correlation with human judgment) of different models on WMT16 to-English.
          - Including the script for tuning the best number of layers of an English pre-trained model on WMT16 to-English data (See the [details](tune_layers)).
        - Updated to version 0.3.2
          - **Bug fixed**: fixing the bug in v0.3.1 when having multiple reference sentences.
          - Supporting multiple reference sentences with our command line tool.
        - Updated to version 0.3.1
          - A new `BERTScorer` object that caches the model to avoid re-loading it multiple times. Please see our [jupyter notebook example](./example/Demo.ipynb) for the usage.
          - Supporting multiple reference sentences for each example. The `score` function now can take a list of lists of strings as the references and return the score between the candidate sentence and its closest reference sentence.
        
        Please see [release logs](https://github.com/Tiiiger/bert_score/releases) for older updates.
        
        #### Authors:
        * [Tianyi Zhang](https://scholar.google.com/citations?user=OI0HSa0AAAAJ&hl=en)*
        * [Varsha Kishore](https://scholar.google.com/citations?user=B8UeYcEAAAAJ&authuser=2)*
        * [Felix Wu](https://sites.google.com/view/felixwu/home)*
        * [Kilian Q. Weinberger](http://kilian.cs.cornell.edu/index.html)
        * [Yoav Artzi](https://yoavartzi.com/)
        
        *: Equal Contribution
        
        ### Overview
        BERTScore leverages the pre-trained contextual embeddings from BERT and matches
        words in candidate and reference sentences by cosine similarity.
        It has been shown to correlate with human judgment on sentence-level and
        system-level evaluation.
        Moreover, BERTScore computes precision, recall, and F1 measure, which can be
        useful for evaluating different language generation tasks.
        
        For an illustration, BERTScore recall can be computed as
        ![](./bert_score.png "BERTScore")
        
        If you find this repo useful, please cite:
        ```
        @inproceedings{bert-score,
          title={BERTScore: Evaluating Text Generation with BERT},
          author={Tianyi Zhang* and Varsha Kishore* and Felix Wu* and Kilian Q. Weinberger and Yoav Artzi},
          booktitle={International Conference on Learning Representations},
          year={2020},
          url={https://openreview.net/forum?id=SkeHuCVFDr}
        }
        ```
        
        ### Installation
        * Python version >= 3.6
        * PyTorch version >= 1.0.0
        
        Install from pypi with pip by 
        
        ```sh
        pip install bert-score
        ```
        Install latest unstable version from the master branch on Github by:
        ```
        pip install git+https://github.com/Tiiiger/bert_score
        ```
        
        Install it from the source by:
        ```sh
        git clone https://github.com/Tiiiger/bert_score
        cd bert_score
        pip install .
        ```
        and you may test your installation by:
        ```
        python -m unittest discover
        ```
        
        ### Usage
        
        
        #### Python Function
        
        On a high level, we provide a python function `bert_score.score` and a python object `bert_score.BERTScorer`.
        The function provides all the supported features while the scorer object caches the BERT model to faciliate multiple evaluations.
        Check our [demo](./example/Demo.ipynb) to see how to use these two interfaces. 
        Please refer to [`bert_score/score.py`](./bert_score/score.py) for implementation details.
        
        Running BERTScore can be computationally intensive (because it uses BERT :p).
        Therefore, a GPU is usually necessary. If you don't have access to a GPU, you
        can try our [demo on Google Colab](https://colab.research.google.com/drive/1kpL8Y_AnUUiCxFjhxSrxCsc6-sDMNb_Q)
        
        #### Command Line Interface (CLI)
        We provide a command line interface (CLI) of BERTScore as well as a python module. 
        For the CLI, you can use it as follows:
        1. To evaluate English text files:
        
        We provide example inputs under `./example`.
        
        ```sh
        bert-score -r example/refs.txt -c example/hyps.txt --lang en
        ```
        You will get the following output at the end:
        
        roberta-large_L17_no-idf_version=0.3.0(hug_trans=2.3.0) P: 0.957378 R: 0.961325 F1: 0.959333
        
        where "roberta-large_L17_no-idf_version=0.3.0(hug_trans=2.3.0)" is the hash code.
        
        Starting from version 0.3.0, we support rescaling the scores with baseline scores
        
        ```sh
        bert-score -r example/refs.txt -c example/hyps.txt --lang en --rescale_with_baseline
        ```
        You will get:
        
        roberta-large_L17_no-idf_version=0.3.0(hug_trans=2.3.0)-rescaled P: 0.747044 R: 0.770484 F1: 0.759045 
        
        This makes the range of the scores larger and more human-readable. Please see this [post](./journal/rescale_baseline.md) for details.
        
        When having multiple reference sentences, please use
        ```sh
        bert-score -r example/refs.txt example/refs2.txt -c example/hyps.txt --lang en
        ```
        where the `-r` argument supports an arbitrary number of reference files. Each reference file should have the same number of lines as your candidate/hypothesis file. The i-th line in each reference file corresponds to the i-th line in the candidate file.
        
        
        2. To evaluate text files in other languages:
        
        We currently support the 104 languages in multilingual BERT ([full list](https://github.com/google-research/bert/blob/master/multilingual.md#list-of-languages)).
        
        Please specify the two-letter abbreviation of the language. For instance, using `--lang zh` for Chinese text. 
        
        See more options by `bert-score -h`.
        
        
        3. To load your own custom model:
        Please specify the path to the model and the number of layers to use by `--model` and `--num_layers`.
        ```sh
        bert-score -r example/refs.txt -c example/hyps.txt --model path_to_my_bert --num_layers 9
        ```
        
        
        4. To visualize matching scores:
        ```sh
        bert-score-show --lang en -r "There are two bananas on the table." -c "On the table are two apples." -f out.png
        ```
        The figure will be saved to out.png.
        
        
        #### Practical Tips
        
        * Report the hash code (e.g., `roberta-large_L17_no-idf_version=0.3.0(hug_trans=2.3.0)-rescaled`) in your paper so that people know what setting you use. This is inspired by [sacreBLEU](https://github.com/mjpost/sacreBLEU). Changes in huggingface's transformers version may also affect the score (See [issue #46](https://github.com/Tiiiger/bert_score/issues/46)).
        * Unlike BERT, RoBERTa uses GPT2-style tokenizer which creates addition " " tokens when there are multiple spaces appearing together. It is recommended to remove addition spaces by `sent = re.sub(r' +', ' ', sent)` or `sent = re.sub(r'\s+', ' ', sent)`.
        * Using inverse document frequency (idf) on the reference
          sentences to weigh word importance  may correlate better with human judgment.
          However, when the set of reference sentences become too small, the idf score 
          would become inaccurate/invalid.
          We now make it optional. To use idf,
          please set `--idf` when using the CLI tool or
          `idf=True` when calling `bert_score.score` function.
        * When you are low on GPU memory, consider setting `batch_size` when calling
          `bert_score.score` function.
        * To use a particular model please set `-m MODEL_TYPE` when using the CLI tool
          or `model_type=MODEL_TYPE` when calling `bert_score.score` function. 
        * We tune layer to use based on WMT16 metric evaluation dataset. You may use a
          different layer by setting `-l LAYER` or `num_layers=LAYER`. To tune the best layer for your custom model, please follow the instructions in [tune_layers](tune_layers) folder.
        * __Limitation__: Because BERT, RoBERTa, and XLM with learned positional embeddings are pre-trained on sentences with max length 512, BERTScore is undefined between sentences longer than 510 (512 after adding \[CLS\] and \[SEP\] tokens). The sentences longer than this will be truncated. Please consider using XLNet which can support much longer inputs.
        
        ### Default Behavior
        
        #### Default Model
        | Language  | Model                        |
        |:---------:|:----------------------------:|
        | en        | roberta-large                |
        | en-sci    | scibert-scivocab-uncased     |
        | zh        | bert-base-chinese            |
        | others    | bert-base-multilingual-cased |
        
        #### Default Layers
        Please see this [Google sheet](https://docs.google.com/spreadsheets/d/1RKOVpselB98Nnh_EOC4A2BYn8_201tmPODpNWu4w7xI/edit?usp=sharing) for the supported models and their performance.
        
        ### Acknowledgement
        This repo wouldn't be possible without the awesome
        [bert](https://github.com/google-research/bert), [fairseq](https://github.com/pytorch/fairseq), and [transformers](https://github.com/huggingface/transformers).
        
Keywords: BERT NLP deep learning google metric
Platform: UNKNOWN
Classifier: Intended Audience :: Science/Research
Classifier: License :: OSI Approved :: MIT License
Classifier: Programming Language :: Python :: 3
Classifier: Topic :: Scientific/Engineering :: Artificial Intelligence
Requires-Python: >=3.6
Description-Content-Type: text/markdown
