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	---
	title: SacreBLEU
	emoji: 🤗
	colorFrom: blue
	colorTo: red
	sdk: gradio
	sdk_version: 3.0.2
	app_file: app.py
	pinned: false
	tags:
	- evaluate
	- metric
	description: >-
	SacreBLEU provides hassle-free computation of shareable, comparable, and reproducible BLEU scores.
	Inspired by Rico Sennrich's `multi-bleu-detok.perl`, it produces the official WMT scores but works with plain text.
	It also knows all the standard test sets and handles downloading, processing, and tokenization for you.

	See the [README.md] file at https://github.com/mjpost/sacreBLEU for more information.
	---

	# Metric Card for SacreBLEU


	## Metric Description
	SacreBLEU provides hassle-free computation of shareable, comparable, and reproducible BLEU scores. Inspired by Rico Sennrich's `multi-bleu-detok.perl`, it produces the official Workshop on Machine Translation (WMT) scores but works with plain text. It also knows all the standard test sets and handles downloading, processing, and tokenization.

	See the [README.md] file at https://github.com/mjpost/sacreBLEU for more information.

	## How to Use
	This metric takes a set of predictions and a set of references as input, along with various optional parameters.


	```python
	>>> predictions = ["hello there general kenobi", "foo bar foobar"]
	>>> references = [["hello there general kenobi", "hello there !"],
	... ["foo bar foobar", "foo bar foobar"]]
	>>> sacrebleu = evaluate.load("sacrebleu")
	>>> results = sacrebleu.compute(predictions=predictions,
	... references=references)
	>>> print(list(results.keys()))
	['score', 'counts', 'totals', 'precisions', 'bp', 'sys_len', 'ref_len']
	>>> print(round(results["score"], 1))
	100.0
	```

	### Inputs
	- `predictions` (`list` of `str`): list of translations to score. Each translation should be tokenized into a list of tokens.
	- `references` (`list` of `list` of `str`): A list of lists of references. The contents of the first sub-list are the references for the first prediction, the contents of the second sub-list are for the second prediction, etc. Note that there must be the same number of references for each prediction (i.e. all sub-lists must be of the same length).
	- `smooth_method` (`str`): The smoothing method to use, defaults to `'exp'`. Possible values are:
	- `'none'`: no smoothing
	- `'floor'`: increment zero counts
	- `'add-k'`: increment num/denom by k for n>1
	- `'exp'`: exponential decay
	- `smooth_value` (`float`): The smoothing value. Only valid when `smooth_method='floor'` (in which case `smooth_value` defaults to `0.1`) or `smooth_method='add-k'` (in which case `smooth_value` defaults to `1`).
	- `tokenize` (`str`): Tokenization method to use for BLEU. If not provided, defaults to `'zh'` for Chinese, `'ja-mecab'` for Japanese and `'13a'` (mteval) otherwise. Possible values are:
	- `'none'`: No tokenization.
	- `'zh'`: Chinese tokenization.
	- `'13a'`: mimics the `mteval-v13a` script from Moses.
	- `'intl'`: International tokenization, mimics the `mteval-v14` script from Moses
	- `'char'`: Language-agnostic character-level tokenization.
	- `'ja-mecab'`: Japanese tokenization. Uses the [MeCab tokenizer](https://pypi.org/project/mecab-python3).
	- `lowercase` (`bool`): If `True`, lowercases the input, enabling case-insensitivity. Defaults to `False`.
	- `force` (`bool`): If `True`, insists that your tokenized input is actually detokenized. Defaults to `False`.
	- `use_effective_order` (`bool`): If `True`, stops including n-gram orders for which precision is 0. This should be `True`, if sentence-level BLEU will be computed. Defaults to `False`.

	### Output Values
	- `score`: BLEU score
	- `counts`: Counts
	- `totals`: Totals
	- `precisions`: Precisions
	- `bp`: Brevity penalty
	- `sys_len`: predictions length
	- `ref_len`: reference length

	The output is in the following format:
	```python
	{'score': 39.76353643835252, 'counts': [6, 4, 2, 1], 'totals': [10, 8, 6, 4], 'precisions': [60.0, 50.0, 33.333333333333336, 25.0], 'bp': 1.0, 'sys_len': 10, 'ref_len': 7}
	```
	The score can take any value between `0.0` and `100.0`, inclusive.

	#### Values from Popular Papers


	### Examples

	```python
	>>> predictions = ["hello there general kenobi",
	... "on our way to ankh morpork"]
	>>> references = [["hello there general kenobi", "hello there !"],
	... ["goodbye ankh morpork", "ankh morpork"]]
	>>> sacrebleu = evaluate.load("sacrebleu")
	>>> results = sacrebleu.compute(predictions=predictions,
	... references=references)
	>>> print(list(results.keys()))
	['score', 'counts', 'totals', 'precisions', 'bp', 'sys_len', 'ref_len']
	>>> print(round(results["score"], 1))
	39.8
	```

	## Limitations and Bias
	Because what this metric calculates is BLEU scores, it has the same limitations as that metric, except that sacreBLEU is more easily reproducible.

	## Citation
	```bibtex
	@inproceedings{post-2018-call,
	title = "A Call for Clarity in Reporting {BLEU} Scores",
	author = "Post, Matt",
	booktitle = "Proceedings of the Third Conference on Machine Translation: Research Papers",
	month = oct,
	year = "2018",
	address = "Belgium, Brussels",
	publisher = "Association for Computational Linguistics",
	url = "https://www.aclweb.org/anthology/W18-6319",
	pages = "186--191",
	}
	```

	## Further References
	- See the [sacreBLEU README.md file](https://github.com/mjpost/sacreBLEU) for more information.