# fastText [![CircleCI](https://circleci.com/gh/facebookresearch/fastText/tree/master.svg?style=svg)](https://circleci.com/gh/facebookresearch/fastText/tree/master)

[fastText](https://fasttext.cc/) is a library for efficient learning of word representations and sentence classification.

In this document we present how to use fastText in python.

## Table of contents

* [Requirements](#requirements)
* [Installation](#installation)
* [Usage overview](#usage-overview)
   * [Word representation model](#word-representation-model)
   * [Text classification model](#text-classification-model)
   * [IMPORTANT: Preprocessing data / encoding conventions](#important-preprocessing-data-encoding-conventions)
   * [More examples](#more-examples)
* [API](#api)
   * [`train_unsupervised` parameters](#train_unsupervised-parameters)
   * [`train_supervised` parameters](#train_supervised-parameters)
   * [`model` object](#model-object)


# Requirements

[fastText](https://fasttext.cc/) builds on modern Mac OS and Linux distributions.
Since it uses C\++11 features, it requires a compiler with good C++11 support. You will need [Python](https://www.python.org/) (version 2.7 or ≥ 3.4), [NumPy](http://www.numpy.org/) & [SciPy](https://www.scipy.org/) and [pybind11](https://github.com/pybind/pybind11).


# Installation

To install the latest release, you can do :
```bash
$ pip install fasttext
```

or, to get the latest development version of fasttext, you can install from our github repository :
```bash
$ git clone https://github.com/facebookresearch/fastText.git
$ cd fastText
$ sudo pip install .
$ # or :
$ sudo python setup.py install
```

# Usage overview


## Word representation model

In order to learn word vectors, as [described here](https://fasttext.cc/docs/en/references.html#enriching-word-vectors-with-subword-information), we can use `fasttext.train_unsupervised` function like this:


```py
import fasttext

# Skipgram model :
model = fasttext.train_unsupervised('data.txt', model='skipgram')

# or, cbow model :
model = fasttext.train_unsupervised('data.txt', model='cbow')

```

where `data.txt` is a training file containing utf-8 encoded text.


The returned `model` object represents your learned model, and you can use it to retrieve information.

```py
print(model.words)   # list of words in dictionary
print(model['king']) # get the vector of the word 'king'
```


### Saving and loading a model object

You can save your trained model object by calling the function `save_model`.
```py
model.save_model("model_filename.bin")
```

and retrieve it later thanks to the function `load_model` :
```py
model = fasttext.load_model("model_filename.bin")
```

For more information about word representation usage of fasttext, you can refer to our [word representations tutorial](https://fasttext.cc/docs/en/unsupervised-tutorial.html).


## Text classification model

In order to train a text classifier using the method [described here](https://fasttext.cc/docs/en/references.html#bag-of-tricks-for-efficient-text-classification), we can use `fasttext.train_supervised` function like this:


```py
import fasttext

model = fasttext.train_supervised('data.train.txt')
```

where `data.train.txt` is a text file containing a training sentence per line along with the labels. By default, we assume that labels are words that are prefixed by the string `__label__`

Once the model is trained, we can retrieve the list of words and labels:

```py
print(model.words)
print(model.labels)
```

To evaluate our model by computing the precision at 1 (P@1) and the recall on a test set, we use the `test` function:

```py
def print_results(N, p, r):
    print("N\t" + str(N))
    print("P@{}\t{:.3f}".format(1, p))
    print("R@{}\t{:.3f}".format(1, r))

print_results(*model.test('test.txt'))
```

We can also predict labels for a specific text :

```py
model.predict("Which baking dish is best to bake a banana bread ?")
```

By default, `predict` returns only one label : the one with the highest probability. You can also predict more than one label by specifying the parameter `k`:
```py
model.predict("Which baking dish is best to bake a banana bread ?", k=3)
```

If you want to predict more than one sentence you can pass an array of strings :

```py
model.predict(["Which baking dish is best to bake a banana bread ?", "Why not put knives in the dishwasher?"], k=3)
```


Of course, you can also save and load a model to/from a file as [in the word representation usage](#saving-and-loading-a-model-object).

For more information about text classification usage of fasttext, you can refer to our [text classification tutorial](https://fasttext.cc/docs/en/supervised-tutorial.html).




### Compress model files with quantization

When you want to save a supervised model file, fastText can compress it in order to have a much smaller model file by sacrificing only a little bit performance.

```py
# with the previously trained `model` object, call :
model.quantize(input='data.train.txt', retrain=True)

# then display results and save the new model :
print_results(*model.test(valid_data))
model.save_model("model_filename.ftz")
```

`model_filename.ftz` will have a much smaller size than `model_filename.bin`.

For further reading on quantization, you can refer to [this paragraph from our blog post](https://fasttext.cc/blog/2017/10/02/blog-post.html#model-compression).


## IMPORTANT: Preprocessing data / encoding conventions

In general it is important to properly preprocess your data. In particular our example scripts in the [root folder](https://github.com/facebookresearch/fastText) do this.

fastText assumes UTF-8 encoded text. All text must be [unicode for Python2](https://docs.python.org/2/library/functions.html#unicode) and [str for Python3](https://docs.python.org/3.5/library/stdtypes.html#textseq). The passed text will be [encoded as UTF-8 by pybind11](https://pybind11.readthedocs.io/en/master/advanced/cast/strings.html?highlight=utf-8#strings-bytes-and-unicode-conversions) before passed to the fastText C++ library. This means it is important to use UTF-8 encoded text when building a model. On Unix-like systems you can convert text using [iconv](https://en.wikipedia.org/wiki/Iconv).

fastText will tokenize (split text into pieces) based on the following ASCII characters (bytes). In particular, it is not aware of UTF-8 whitespace. We advice the user to convert UTF-8 whitespace / word boundaries into one of the following symbols as appropiate.

* space
* tab
* vertical tab
* carriage return
* formfeed
* the null character

The newline character is used to delimit lines of text. In particular, the EOS token is appended to a line of text if a newline character is encountered. The only exception is if the number of tokens exceeds the MAX\_LINE\_SIZE constant as defined in the [Dictionary header](https://github.com/facebookresearch/fastText/blob/master/src/dictionary.h). This means if you have text that is not separate by newlines, such as the [fil9 dataset](http://mattmahoney.net/dc/textdata), it will be broken into chunks with MAX\_LINE\_SIZE of tokens and the EOS token is not appended.

The length of a token is the number of UTF-8 characters by considering the [leading two bits of a byte](https://en.wikipedia.org/wiki/UTF-8#Description) to identify [subsequent bytes of a multi-byte sequence](https://github.com/facebookresearch/fastText/blob/master/src/dictionary.cc). Knowing this is especially important when choosing the minimum and maximum length of subwords. Further, the EOS token (as specified in the [Dictionary header](https://github.com/facebookresearch/fastText/blob/master/src/dictionary.h)) is considered a character and will not be broken into subwords.

## More examples

In order to have a better knowledge of fastText models, please consider the main [README](https://github.com/facebookresearch/fastText/blob/master/README.md) and in particular [the tutorials on our website](https://fasttext.cc/docs/en/supervised-tutorial.html).

You can find further python examples in [the doc folder](https://github.com/facebookresearch/fastText/tree/master/python/doc/examples).

As with any package you can get help on any Python function using the help function.

For example

```
+>>> import fasttext
+>>> help(fasttext.FastText)

Help on module fasttext.FastText in fasttext:

NAME
    fasttext.FastText

DESCRIPTION
    # Copyright (c) 2017-present, Facebook, Inc.
    # All rights reserved.
    #
    # This source code is licensed under the MIT license found in the
    # LICENSE file in the root directory of this source tree.

FUNCTIONS
    load_model(path)
        Load a model given a filepath and return a model object.

    tokenize(text)
        Given a string of text, tokenize it and return a list of tokens
[...]
```


# API


## `train_unsupervised` parameters

```python
    input             # training file path (required)
    model             # unsupervised fasttext model {cbow, skipgram} [skipgram]
    lr                # learning rate [0.05]
    dim               # size of word vectors [100]
    ws                # size of the context window [5]
    epoch             # number of epochs [5]
    minCount          # minimal number of word occurences [5]
    minn              # min length of char ngram [3]
    maxn              # max length of char ngram [6]
    neg               # number of negatives sampled [5]
    wordNgrams        # max length of word ngram [1]
    loss              # loss function {ns, hs, softmax, ova} [ns]
    bucket            # number of buckets [2000000]
    thread            # number of threads [number of cpus]
    lrUpdateRate      # change the rate of updates for the learning rate [100]
    t                 # sampling threshold [0.0001]
    verbose           # verbose [2]
```

## `train_supervised` parameters

```python
    input             # training file path (required)
    lr                # learning rate [0.1]
    dim               # size of word vectors [100]
    ws                # size of the context window [5]
    epoch             # number of epochs [5]
    minCount          # minimal number of word occurences [1]
    minCountLabel     # minimal number of label occurences [1]
    minn              # min length of char ngram [0]
    maxn              # max length of char ngram [0]
    neg               # number of negatives sampled [5]
    wordNgrams        # max length of word ngram [1]
    loss              # loss function {ns, hs, softmax, ova} [softmax]
    bucket            # number of buckets [2000000]
    thread            # number of threads [number of cpus]
    lrUpdateRate      # change the rate of updates for the learning rate [100]
    t                 # sampling threshold [0.0001]
    label             # label prefix ['__label__']
    verbose           # verbose [2]
    pretrainedVectors # pretrained word vectors (.vec file) for supervised learning []
```

## `model` object

`train_supervised`, `train_unsupervised` and `load_model` functions return an instance of `_FastText` class, that we generaly name `model` object.

This object exposes those training arguments as properties : `lr`, `dim`, `ws`, `epoch`, `minCount`, `minCountLabel`, `minn`, `maxn`, `neg`, `wordNgrams`, `loss`, `bucket`, `thread`, `lrUpdateRate`, `t`, `label`, `verbose`, `pretrainedVectors`. So `model.wordNgrams` will give you the max length of word ngram used for training this model.

In addition, the object exposes several functions :

```python
    get_dimension           # Get the dimension (size) of a lookup vector (hidden layer).
                            # This is equivalent to `dim` property.
    get_input_vector        # Given an index, get the corresponding vector of the Input Matrix.
    get_input_matrix        # Get a copy of the full input matrix of a Model.
    get_labels              # Get the entire list of labels of the dictionary
                            # This is equivalent to `labels` property.
    get_line                # Split a line of text into words and labels.
    get_output_matrix       # Get a copy of the full output matrix of a Model.
    get_sentence_vector     # Given a string, get a single vector represenation. This function
                            # assumes to be given a single line of text. We split words on
                            # whitespace (space, newline, tab, vertical tab) and the control
                            # characters carriage return, formfeed and the null character.
    get_subword_id          # Given a subword, return the index (within input matrix) it hashes to.
    get_subwords            # Given a word, get the subwords and their indicies.
    get_word_id             # Given a word, get the word id within the dictionary.
    get_word_vector         # Get the vector representation of word.
    get_words               # Get the entire list of words of the dictionary
                            # This is equivalent to `words` property.
    is_quantized            # whether the model has been quantized
    predict                 # Given a string, get a list of labels and a list of corresponding probabilities.
    quantize                # Quantize the model reducing the size of the model and it's memory footprint.
    save_model              # Save the model to the given path
    test                    # Evaluate supervised model using file given by path
    test_label              # Return the precision and recall score for each label.    
```

The properties `words`, `labels` return the words and labels from the dictionary :
```py
model.words         # equivalent to model.get_words()
model.labels        # equivalent to model.get_labels()
```

The object overrides `__getitem__` and `__contains__` functions in order to return the representation of a word and to check if a word is in the vocabulary.

```py
model['king']       # equivalent to model.get_word_vector('king')
'king' in model     # equivalent to `'king' in model.get_words()`
```


Join the fastText community
---------------------------

- [Facebook page](https://www.facebook.com/groups/1174547215919768)
- [Stack overflow](https://stackoverflow.com/questions/tagged/fasttext)
- [Google group](https://groups.google.com/forum/#!forum/fasttext-library)
- [GitHub](https://github.com/facebookresearch/fastText)