--- title: Models & Languages next: usage/facts-figures menu: - ['Quickstart', 'quickstart'] - ['Language Support', 'languages'] - ['Installation & Usage', 'download'] - ['Production Use', 'production'] --- spaCy's trained pipelines can be installed as **Python packages**. This means that they're a component of your application, just like any other module. They're versioned and can be defined as a dependency in your `requirements.txt`. Trained pipelines can be installed from a download URL or a local directory, manually or via [pip](https://pypi.python.org/pypi/pip). Their data can be located anywhere on your file system. > #### Important note > > If you're upgrading to spaCy v3.x, you need to **download the new pipeline > packages**. If you've trained your own pipelines, you need to **retrain** them > after updating spaCy. ## Quickstart {hidden="true"} import QuickstartModels from 'widgets/quickstart-models.js' ### Usage note > If lemmatization rules are available for your language, make sure to install > spaCy with the `lookups` option, or install > [`spacy-lookups-data`](https://github.com/explosion/spacy-lookups-data) > separately in the same environment: > > ```bash > $ pip install -U %%SPACY_PKG_NAME[lookups]%%SPACY_PKG_FLAGS > ``` If a trained pipeline is available for a language, you can download it using the [`spacy download`](/api/cli#download) command as shown above. In order to use languages that don't yet come with a trained pipeline, you have to import them directly, or use [`spacy.blank`](/api/top-level#spacy.blank): ```python from spacy.lang.yo import Yoruba nlp = Yoruba() # use directly nlp = spacy.blank("yo") # blank instance ``` A blank pipeline is typically just a tokenizer. You might want to create a blank pipeline when you only need a tokenizer, when you want to add more components from scratch, or for testing purposes. Initializing the language object directly yields the same result as generating it using `spacy.blank()`. In both cases the default configuration for the chosen language is loaded, and no pretrained components will be available. ## Language support {#languages} spaCy currently provides support for the following languages. You can help by improving the existing [language data](/usage/linguistic-features#language-data) and extending the tokenization patterns. [See here](https://github.com/explosion/spaCy/issues/3056) for details on how to contribute to development. Also see the [training documentation](/usage/training) for how to train your own pipelines on your data. import Languages from 'widgets/languages.js' ### Multi-language support {#multi-language new="2"} > ```python > # Standard import > from spacy.lang.xx import MultiLanguage > nlp = MultiLanguage() > > # With lazy-loading > nlp = spacy.blank("xx") > ``` spaCy also supports pipelines trained on more than one language. This is especially useful for named entity recognition. The language ID used for multi-language or language-neutral pipelines is `xx`. The language class, a generic subclass containing only the base language data, can be found in [`lang/xx`](%%GITHUB_SPACY/spacy/lang/xx). To train a pipeline using the neutral multi-language class, you can set `lang = "xx"` in your [training config](/usage/training#config). You can also import the `MultiLanguage` class directly, or call [`spacy.blank("xx")`](/api/top-level#spacy.blank) for lazy-loading. ### Chinese language support {#chinese new="2.3"} The Chinese language class supports three word segmentation options, `char`, `jieba` and `pkuseg`. > #### Manual setup > > ```python > from spacy.lang.zh import Chinese > > # Character segmentation (default) > nlp = Chinese() > # Jieba > cfg = {"segmenter": "jieba"} > nlp = Chinese.from_config({"nlp": {"tokenizer": cfg}}) > # PKUSeg with "mixed" model provided by pkuseg > cfg = {"segmenter": "pkuseg"} > nlp = Chinese.from_config({"nlp": {"tokenizer": cfg}}) > nlp.tokenizer.initialize(pkuseg_model="mixed") > ``` ```ini ### config.cfg [nlp.tokenizer] @tokenizers = "spacy.zh.ChineseTokenizer" segmenter = "char" ``` | Segmenter | Description | | --------- | ------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------ | | `char` | **Character segmentation:** Character segmentation is the default segmentation option. It's enabled when you create a new `Chinese` language class or call `spacy.blank("zh")`. | | `jieba` | **Jieba:** to use [Jieba](https://github.com/fxsjy/jieba) for word segmentation, you can set the option `segmenter` to `"jieba"`. | | `pkuseg` | **PKUSeg**: As of spaCy v2.3.0, support for [PKUSeg](https://github.com/explosion/spacy-pkuseg) has been added to support better segmentation for Chinese OntoNotes and the provided [Chinese pipelines](/models/zh). Enable PKUSeg by setting tokenizer option `segmenter` to `"pkuseg"`. | In v3.0, the default word segmenter has switched from Jieba to character segmentation. Because the `pkuseg` segmenter depends on a model that can be loaded from a file, the model is loaded on [initialization](/usage/training#config-lifecycle) (typically before training). This ensures that your packaged Chinese model doesn't depend on a local path at runtime. The `initialize` method for the Chinese tokenizer class supports the following config settings for loading `pkuseg` models: | Name | Description | | ------------------ | ---------------------------------------------------------------------------------------------------------------------------------------------------------------------- | | `pkuseg_model` | Name of a model provided by `spacy-pkuseg` or the path to a local model directory. ~~str~~ | | `pkuseg_user_dict` | Optional path to a file with one word per line which overrides the default `pkuseg` user dictionary. Defaults to `"default"`, the default provided dictionary. ~~str~~ | The initialization settings are typically provided in the [training config](/usage/training#config) and the data is loaded in before training and serialized with the model. This allows you to load the data from a local path and save out your pipeline and config, without requiring the same local path at runtime. See the usage guide on the [config lifecycle](/usage/training#config-lifecycle) for more background on this. ```ini ### config.cfg [initialize] [initialize.tokenizer] pkuseg_model = "/path/to/model" pkuseg_user_dict = "default" ``` You can also initialize the tokenizer for a blank language class by calling its `initialize` method: ```python ### Examples # Initialize the pkuseg tokenizer cfg = {"segmenter": "pkuseg"} nlp = Chinese.from_config({"nlp": {"tokenizer": cfg}}) # Load spaCy's OntoNotes model nlp.tokenizer.initialize(pkuseg_model="spacy_ontonotes") # Load pkuseg's "news" model nlp.tokenizer.initialize(pkuseg_model="news") # Load local model nlp.tokenizer.initialize(pkuseg_model="/path/to/pkuseg_model") # Override the user directory nlp.tokenizer.initialize(pkuseg_model="spacy_ontonotes", pkuseg_user_dict="/path/to/user_dict") ``` You can also modify the user dictionary on-the-fly: ```python # Append words to user dict nlp.tokenizer.pkuseg_update_user_dict(["中国", "ABC"]) # Remove all words from user dict and replace with new words nlp.tokenizer.pkuseg_update_user_dict(["中国"], reset=True) # Remove all words from user dict nlp.tokenizer.pkuseg_update_user_dict([], reset=True) ``` The [Chinese pipelines](/models/zh) provided by spaCy include a custom `pkuseg` model trained only on [Chinese OntoNotes 5.0](https://catalog.ldc.upenn.edu/LDC2013T19), since the models provided by `pkuseg` include data restricted to research use. For research use, `pkuseg` provides models for several different domains (`"mixed"` (equivalent to `"default"` from `pkuseg` packages), `"news"` `"web"`, `"medicine"`, `"tourism"`) and for other uses, `pkuseg` provides a simple [training API](https://github.com/explosion/spacy-pkuseg/blob/master/readme/readme_english.md#usage): ```python import spacy_pkuseg as pkuseg from spacy.lang.zh import Chinese # Train pkuseg model pkuseg.train("train.utf8", "test.utf8", "/path/to/pkuseg_model") # Load pkuseg model in spaCy Chinese tokenizer cfg = {"segmenter": "pkuseg"} nlp = Chinese.from_config({"nlp": {"tokenizer": cfg}}) nlp.tokenizer.initialize(pkuseg_model="/path/to/pkuseg_model") ``` ### Japanese language support {#japanese new=2.3} > #### Manual setup > > ```python > from spacy.lang.ja import Japanese > > # Load SudachiPy with split mode A (default) > nlp = Japanese() > # Load SudachiPy with split mode B > cfg = {"split_mode": "B"} > nlp = Japanese.from_config({"nlp": {"tokenizer": cfg}}) > ``` The Japanese language class uses [SudachiPy](https://github.com/WorksApplications/SudachiPy) for word segmentation and part-of-speech tagging. The default Japanese language class and the provided Japanese pipelines use SudachiPy split mode `A`. The tokenizer config can be used to configure the split mode to `A`, `B` or `C`. ```ini ### config.cfg [nlp.tokenizer] @tokenizers = "spacy.ja.JapaneseTokenizer" split_mode = "A" ``` Extra information, such as reading, inflection form, and the SudachiPy normalized form, is available in `Token.morph`. For `B` or `C` split modes, subtokens are stored in `Doc.user_data["sub_tokens"]`. If you run into errors related to `sudachipy`, which is currently under active development, we suggest downgrading to `sudachipy==0.4.9`, which is the version used for training the current [Japanese pipelines](/models/ja). ### Korean language support {#korean} There are currently three built-in options for Korean tokenization, two based on [mecab-ko](https://bitbucket.org/eunjeon/mecab-ko/src/master/README.md) and one using the rule-based tokenizer. > #### Default mecab-ko tokenizer > > ```python > # uses mecab-ko-dic > nlp = spacy.blank("ko") > > # with custom mecab args > mecab_args = "-d /path/to/dicdir -u /path/to/userdic" > config = {"nlp": {"tokenizer": {"mecab_args": mecab_args}}} > nlp = spacy.blank("ko", config=config) > ``` The default MeCab-based Korean tokenizer requires the python package [`mecab-ko`](https://pypi.org/project/mecab-ko/) and no further system requirements. The `natto-py` MeCab-based tokenizer (the previous default for spaCy v3.4 and earlier) is available as `spacy.KoreanNattoTokenizer.v1`. It requires: - [mecab-ko](https://bitbucket.org/eunjeon/mecab-ko/src/master/README.md) - [mecab-ko-dic](https://bitbucket.org/eunjeon/mecab-ko-dic) - [natto-py](https://github.com/buruzaemon/natto-py) To use this tokenizer, edit `[nlp.tokenizer]` in your config: > #### natto-py MeCab-ko tokenizer > > ```python > config = {"nlp": {"tokenizer": {"@tokenizers": "spacy.KoreanNattoTokenizer.v1"}}} > nlp = spacy.blank("ko", config=config) > ``` ```ini ### config.cfg [nlp] lang = "ko" tokenizer = {"@tokenizers" = "spacy.KoreanNattoTokenizer.v1"} ``` For some Korean datasets and tasks, the [rule-based tokenizer](/usage/linguistic-features#tokenization) is better-suited than MeCab. To configure a Korean pipeline with the rule-based tokenizer: > #### Rule-based tokenizer > > ```python > config = {"nlp": {"tokenizer": {"@tokenizers": "spacy.Tokenizer.v1"}}} > nlp = spacy.blank("ko", config=config) > ``` ```ini ### config.cfg [nlp] lang = "ko" tokenizer = {"@tokenizers" = "spacy.Tokenizer.v1"} ``` The [Korean trained pipelines](/models/ko) use the rule-based tokenizer, so no additional dependencies are required. ## Installing and using trained pipelines {#download} The easiest way to download a trained pipeline is via spaCy's [`download`](/api/cli#download) command. It takes care of finding the best-matching package compatible with your spaCy installation. > #### Important note for v3.0 > > Note that as of spaCy v3.0, shortcut links like `en` that create (potentially > brittle) symlinks in your spaCy installation are **deprecated**. To download > and load an installed pipeline package, use its full name: > > ```diff > - python -m spacy download en > + python -m spacy download en_core_web_sm > ``` > > ```diff > - nlp = spacy.load("en") > + nlp = spacy.load("en_core_web_sm") > ``` ```cli # Download best-matching version of a package for your spaCy installation $ python -m spacy download en_core_web_sm # Download exact package version $ python -m spacy download en_core_web_sm-3.0.0 --direct ``` The download command will [install the package](/usage/models#download-pip) via pip and place the package in your `site-packages` directory. ```cli $ pip install -U %%SPACY_PKG_NAME%%SPACY_PKG_FLAGS $ python -m spacy download en_core_web_sm ``` ```python import spacy nlp = spacy.load("en_core_web_sm") doc = nlp("This is a sentence.") ``` If you're in a **Jupyter notebook** or similar environment, you can use the `!` prefix to [execute commands](https://ipython.org/ipython-doc/3/interactive/tutorial.html#system-shell-commands). Make sure to **restart your kernel** or runtime after installation (just like you would when installing other Python packages) to make sure that the installed pipeline package can be found. ```cli !python -m spacy download en_core_web_sm ``` ### Installation via pip {#download-pip} To download a trained pipeline directly using [pip](https://pypi.python.org/pypi/pip), point `pip install` to the URL or local path of the wheel file or archive. Installing the wheel is usually more efficient. > #### Pipeline Package URLs {#pipeline-urls} > > Pretrained pipeline distributions are hosted on > [Github Releases](https://github.com/explosion/spacy-models/releases), and you > can find download links there, as well as on the model page. You can also get > URLs directly from the command line by using `spacy info` with the `--url` > flag, which may be useful for automation. > > ```bash > spacy info en_core_web_sm --url > ``` > > This command will print the URL for the latest version of a pipeline > compatible with the version of spaCy you're using. Note that in order to look > up the compatibility information an internet connection is required. ```bash # With external URL $ pip install https://github.com/explosion/spacy-models/releases/download/en_core_web_sm-3.0.0/en_core_web_sm-3.0.0-py3-none-any.whl $ pip install https://github.com/explosion/spacy-models/releases/download/en_core_web_sm-3.0.0/en_core_web_sm-3.0.0.tar.gz # Using spacy info to get the external URL $ pip install $(spacy info en_core_web_sm --url) # With local file $ pip install /Users/you/en_core_web_sm-3.0.0-py3-none-any.whl $ pip install /Users/you/en_core_web_sm-3.0.0.tar.gz ``` By default, this will install the pipeline package into your `site-packages` directory. You can then use `spacy.load` to load it via its package name or [import it](#usage-import) explicitly as a module. If you need to download pipeline packages as part of an automated process, we recommend using pip with a direct link, instead of relying on spaCy's [`download`](/api/cli#download) command. You can also add the direct download link to your application's `requirements.txt`. For more details, see the section on [working with pipeline packages in production](#production). ### Manual download and installation {#download-manual} In some cases, you might prefer downloading the data manually, for example to place it into a custom directory. You can download the package via your browser from the [latest releases](https://github.com/explosion/spacy-models/releases), or configure your own download script using the URL of the archive file. The archive consists of a package directory that contains another directory with the pipeline data. ```yaml ### Directory structure {highlight="6"} └── en_core_web_md-3.0.0.tar.gz # downloaded archive ├── setup.py # setup file for pip installation ├── meta.json # copy of pipeline meta └── en_core_web_md # 📦 pipeline package ├── __init__.py # init for pip installation └── en_core_web_md-3.0.0 # pipeline data ├── config.cfg # pipeline config ├── meta.json # pipeline meta └── ... # directories with component data ``` You can place the **pipeline package directory** anywhere on your local file system. ### Installation from Python {#download-python} Since the [`spacy download`](/api/cli#download) command installs the pipeline as a **Python package**, we always recommend running it from the command line, just like you install other Python packages with `pip install`. However, if you need to, or if you want to integrate the download process into another CLI command, you can also import and call the `download` function used by the CLI via Python. Keep in mind that the `download` command installs a Python package into your environment. In order for it to be found after installation, you will need to **restart or reload** your Python process so that new packages are recognized. ```python import spacy spacy.cli.download("en_core_web_sm") ``` ### Using trained pipelines with spaCy {#usage} To load a pipeline package, use [`spacy.load`](/api/top-level#spacy.load) with the package name or a path to the data directory: > #### Important note for v3.0 > > Note that as of spaCy v3.0, shortcut links like `en` that create (potentially > brittle) symlinks in your spaCy installation are **deprecated**. To download > and load an installed pipeline package, use its full name: > > ```diff > - python -m spacy download en > + python -m spacy download en_core_web_sm > ``` ```python import spacy nlp = spacy.load("en_core_web_sm") # load package "en_core_web_sm" nlp = spacy.load("/path/to/en_core_web_sm") # load package from a directory doc = nlp("This is a sentence.") ``` You can use the [`info`](/api/cli#info) command or [`spacy.info()`](/api/top-level#spacy.info) method to print a pipeline package's meta data before loading it. Each `Language` object with a loaded pipeline also exposes the pipeline's meta data as the attribute `meta`. For example, `nlp.meta['version']` will return the package version. ### Importing pipeline packages as modules {#usage-import} If you've installed a trained pipeline via [`spacy download`](/api/cli#download) or directly via pip, you can also `import` it and then call its `load()` method with no arguments: ```python ### {executable="true"} import en_core_web_sm nlp = en_core_web_sm.load() doc = nlp("This is a sentence.") ``` How you choose to load your trained pipelines ultimately depends on personal preference. However, **for larger code bases**, we usually recommend native imports, as this will make it easier to integrate pipeline packages with your existing build process, continuous integration workflow and testing framework. It'll also prevent you from ever trying to load a package that is not installed, as your code will raise an `ImportError` immediately, instead of failing somewhere down the line when calling `spacy.load()`. For more details, see the section on [working with pipeline packages in production](#production). ## Using trained pipelines in production {#production} If your application depends on one or more trained pipeline packages, you'll usually want to integrate them into your continuous integration workflow and build process. While spaCy provides a range of useful helpers for downloading and loading pipeline packages, the underlying functionality is entirely based on native Python packaging. This allows your application to handle a spaCy pipeline like any other package dependency. ### Downloading and requiring package dependencies {#models-download} spaCy's built-in [`download`](/api/cli#download) command is mostly intended as a convenient, interactive wrapper. It performs compatibility checks and prints detailed error messages and warnings. However, if you're downloading pipeline packages as part of an automated build process, this only adds an unnecessary layer of complexity. If you know which packages your application needs, you should be specifying them directly. Because pipeline packages are valid Python packages, you can add them to your application's `requirements.txt`. If you're running your own internal PyPi installation, you can upload the pipeline packages there. pip's [requirements file format](https://pip.pypa.io/en/latest/reference/requirements-file-format/) supports both package names to download via a PyPi server, as well as [direct URLs](#pipeline-urls). ```text ### requirements.txt spacy>=3.0.0,<4.0.0 en_core_web_sm @ https://github.com/explosion/spacy-models/releases/download/en_core_web_sm-3.4.0/en_core_web_sm-3.4.0-py3-none-any.whl ``` All pipeline packages are versioned and specify their spaCy dependency. This ensures cross-compatibility and lets you specify exact version requirements for each pipeline. If you've [trained](/usage/training) your own pipeline, you can use the [`spacy package`](/api/cli#package) command to generate the required meta data and turn it into a loadable package. ### Loading and testing pipeline packages {#models-loading} Pipeline packages are regular Python packages, so you can also import them as a package using Python's native `import` syntax, and then call the `load` method to load the data and return an `nlp` object: ```python import en_core_web_sm nlp = en_core_web_sm.load() ``` In general, this approach is recommended for larger code bases, as it's more "native", and doesn't rely on spaCy's loader to resolve string names to packages. If a package can't be imported, Python will raise an `ImportError` immediately. And if a package is imported but not used, any linter will catch that. Similarly, it'll give you more flexibility when writing tests that require loading pipelines. For example, instead of writing your own `try` and `except` logic around spaCy's loader, you can use [pytest](http://pytest.readthedocs.io/en/latest/)'s [`importorskip()`](https://docs.pytest.org/en/latest/builtin.html#_pytest.outcomes.importorskip) method to only run a test if a specific pipeline package or version is installed. Each pipeline package exposes a `__version__` attribute which you can also use to perform your own version compatibility checks before loading it.