The central data structures in spaCy are the [`Language`](/api/language) class, the [`Vocab`](/api/vocab) and the [`Doc`](/api/doc) object. The `Language` class is used to process a text and turn it into a `Doc` object. It's typically stored as a variable called `nlp`. The `Doc` object owns the **sequence of tokens** and all their annotations. By centralizing strings, word vectors and lexical attributes in the `Vocab`, we avoid storing multiple copies of this data. This saves memory, and ensures there's a **single source of truth**. Text annotations are also designed to allow a single source of truth: the `Doc` object owns the data, and [`Span`](/api/span) and [`Token`](/api/token) are **views that point into it**. The `Doc` object is constructed by the [`Tokenizer`](/api/tokenizer), and then **modified in place** by the components of the pipeline. The `Language` object coordinates these components. It takes raw text and sends it through the pipeline, returning an **annotated document**. It also orchestrates training and serialization. ![Library architecture](../../images/architecture.svg) ### Container objects {#architecture-containers} | Name | Description | | --------------------------- | ------------------------------------------------------------------------------------------------------------------------------------------------------- | | [`Doc`](/api/doc) | A container for accessing linguistic annotations. | | [`DocBin`](/api/docbin) | A collection of `Doc` objects for efficient binary serialization. Also used for [training data](/api/data-formats#binary-training). | | [`Example`](/api/example) | A collection of training annotations, containing two `Doc` objects: the reference data and the predictions. | | [`Language`](/api/language) | Processing class that turns text into `Doc` objects. Different languages implement their own subclasses of it. The variable is typically called `nlp`. | | [`Lexeme`](/api/lexeme) | An entry in the vocabulary. It's a word type with no context, as opposed to a word token. It therefore has no part-of-speech tag, dependency parse etc. | | [`Span`](/api/span) | A slice from a `Doc` object. | | [`Token`](/api/token) | An individual token — i.e. a word, punctuation symbol, whitespace, etc. | ### Processing pipeline {#architecture-pipeline} The processing pipeline consists of one or more **pipeline components** that are called on the `Doc` in order. The tokenizer runs before the components. Pipeline components can be added using [`Language.add_pipe`](/api/language#add_pipe). They can contain a statistical model and trained weights, or only make rule-based modifications to the `Doc`. spaCy provides a range of built-in components for different language processing tasks and also allows adding [custom components](/usage/processing-pipelines#custom-components). ![The processing pipeline](../../images/pipeline.svg) | Name | Description | | ----------------------------------------------- | ------------------------------------------------------------------------------------------- | | [`AttributeRuler`](/api/attributeruler) | Set token attributes using matcher rules. | | [`DependencyParser`](/api/dependencyparser) | Predict syntactic dependencies. | | [`EntityLinker`](/api/entitylinker) | Disambiguate named entities to nodes in a knowledge base. | | [`EntityRecognizer`](/api/entityrecognizer) | Predict named entities, e.g. persons or products. | | [`EntityRuler`](/api/entityruler) | Add entity spans to the `Doc` using token-based rules or exact phrase matches. | | [`Lemmatizer`](/api/lemmatizer) | Determine the base forms of words. | | [`Morphologizer`](/api/morphologizer) | Predict morphological features and coarse-grained part-of-speech tags. | | [`SentenceRecognizer`](/api/sentencerecognizer) | Predict sentence boundaries. | | [`Sentencizer`](/api/sentencizer) | Implement rule-based sentence boundary detection that doesn't require the dependency parse. | | [`Tagger`](/api/tagger) | Predict part-of-speech tags. | | [`TextCategorizer`](/api/textcategorizer) | Predict categories or labels over the whole document. | | [`Tok2Vec`](/api/tok2vec) | Apply a "token-to-vector" model and set its outputs. | | [`Tokenizer`](/api/tokenizer) | Segment raw text and create `Doc` objects from the words. | | [`TrainablePipe`](/api/pipe) | Class that all trainable pipeline components inherit from. | | [`Transformer`](/api/transformer) | Use a transformer model and set its outputs. | | [Other functions](/api/pipeline-functions) | Automatically apply something to the `Doc`, e.g. to merge spans of tokens. | ### Matchers {#architecture-matchers} Matchers help you find and extract information from [`Doc`](/api/doc) objects based on match patterns describing the sequences you're looking for. A matcher operates on a `Doc` and gives you access to the matched tokens **in context**. | Name | Description | | --------------------------------------------- | ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- | | [`DependencyMatcher`](/api/dependencymatcher) | Match sequences of tokens based on dependency trees using [Semgrex operators](https://nlp.stanford.edu/nlp/javadoc/javanlp/edu/stanford/nlp/semgraph/semgrex/SemgrexPattern.html). | | [`Matcher`](/api/matcher) | Match sequences of tokens, based on pattern rules, similar to regular expressions. | | [`PhraseMatcher`](/api/phrasematcher) | Match sequences of tokens based on phrases. | ### Other classes {#architecture-other} | Name | Description | | ------------------------------------------------ | -------------------------------------------------------------------------------------------------- | | [`Corpus`](/api/corpus) | Class for managing annotated corpora for training and evaluation data. | | [`KnowledgeBase`](/api/kb) | Storage for entities and aliases of a knowledge base for entity linking. | | [`Lookups`](/api/lookups) | Container for convenient access to large lookup tables and dictionaries. | | [`MorphAnalysis`](/api/morphology#morphanalysis) | A morphological analysis. | | [`Morphology`](/api/morphology) | Store morphological analyses and map them to and from hash values. | | [`Scorer`](/api/scorer) | Compute evaluation scores. | | [`StringStore`](/api/stringstore) | Map strings to and from hash values. | | [`Vectors`](/api/vectors) | Container class for vector data keyed by string. | | [`Vocab`](/api/vocab) | The shared vocabulary that stores strings and gives you access to [`Lexeme`](/api/lexeme) objects. |