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website/docs/usage/_spacy-101/_architecture.jade
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website/docs/usage/_spacy-101/_architecture.jade
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//- 💫 DOCS > USAGE > SPACY 101 > ARCHITECTURE
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p
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| The central data structures in spaCy are the #[code Doc] and the
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| #[code Vocab]. The #[code Doc] object owns the
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| #[strong sequence of tokens] and all their annotations. The #[code Vocab]
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| object owns a set of #[strong look-up tables] that make common
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| information available across documents. By centralising strings, word
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| vectors and lexical attributes, we avoid storing multiple copies of this
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| data. This saves memory, and ensures there's a
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| #[strong single source of truth].
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p
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| Text annotations are also designed to allow a single source of truth: the
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| #[code Doc] object owns the data, and #[code Span] and #[code Token] are
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| #[strong views that point into it]. The #[code Doc] object is constructed
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| by the #[code Tokenizer], and then #[strong modified in place] by the
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| components of the pipeline. The #[code Language] object coordinates these
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| components. It takes raw text and sends it through the pipeline,
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| returning an #[strong annotated document]. It also orchestrates training
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| and serialization.
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+image
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include ../../../assets/img/docs/architecture.svg
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.u-text-right
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+button("/assets/img/docs/architecture.svg", false, "secondary").u-text-tag View large graphic
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+table(["Name", "Description"])
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+row
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+cell #[+api("language") #[code Language]]
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+cell
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| A text-processing pipeline. Usually you'll load this once per
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| process as #[code nlp] and pass the instance around your application.
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+row
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+cell #[+api("doc") #[code Doc]]
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+cell A container for accessing linguistic annotations.
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+row
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+cell #[+api("span") #[code Span]]
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+cell A slice from a #[code Doc] object.
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+row
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+cell #[+api("token") #[code Token]]
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+cell
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| An individual token — i.e. a word, punctuation symbol, whitespace,
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| etc.
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+row
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+cell #[+api("lexeme") #[code Lexeme]]
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+cell
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| An entry in the vocabulary. It's a word type with no context, as
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| opposed to a word token. It therefore has no part-of-speech tag,
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| dependency parse etc.
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+row
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+cell #[+api("vocab") #[code Vocab]]
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+cell
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| A lookup table for the vocabulary that allows you to access
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| #[code Lexeme] objects.
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+row
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+cell #[code Morphology]
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+cell
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| Assign linguistic features like lemmas, noun case, verb tense etc.
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| based on the word and its part-of-speech tag.
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+row
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+cell #[+api("stringstore") #[code StringStore]]
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+cell Map strings to and from hash values.
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+row
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+row
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+cell #[+api("tokenizer") #[code Tokenizer]]
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+cell
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| Segment text, and create #[code Doc] objects with the discovered
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| segment boundaries.
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+row
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+cell #[+api("matcher") #[code Matcher]]
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+cell
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| Match sequences of tokens, based on pattern rules, similar to
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| regular expressions.
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@ -21,13 +21,8 @@ p
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+qs({config: 'venv', os: 'linux'}) source .env/bin/activate
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+qs({config: 'venv', os: 'linux'}) source .env/bin/activate
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+qs({config: 'venv', os: 'windows'}) .env\Scripts\activate
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+qs({config: 'venv', os: 'windows'}) .env\Scripts\activate
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+qs({config: 'gpu', os: 'mac'}) export CUDA_HOME=/usr/local/cuda-8.0
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+qs({config: 'gpu', os: 'mac'}) export PATH=$PATH:/usr/local/cuda-8.0/bin
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+qs({config: 'gpu', os: 'mac'}) export PATH=$PATH:$CUDA_HOME/bin
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+qs({config: 'gpu', os: 'linux'}) export PATH=$PATH:/usr/local/cuda-8.0/bin
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+qs({config: 'gpu', os: 'linux'}) export CUDA_HOME=/usr/local/cuda-8.0
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+qs({config: 'gpu', os: 'linux'}) export PATH=$PATH:$CUDA_HOME/bin
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+qs({config: 'gpu', package: 'pip'}) pip install -U chainer
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+qs({config: 'gpu', package: 'source'}) pip install -U chainer
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+qs({config: 'gpu', package: 'conda'}) conda install -c anaconda chainer
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+qs({package: 'pip'}) pip install -U spacy
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+qs({package: 'pip'}) pip install -U spacy
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+qs({package: 'conda'}) conda install -c conda-forge spacy
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+qs({package: 'conda'}) conda install -c conda-forge spacy
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@ -96,27 +91,15 @@ p
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| #[+a("http://chainer.org") Chainer]'s CuPy module, which provides
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| #[+a("http://chainer.org") Chainer]'s CuPy module, which provides
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| a NumPy-compatible interface for GPU arrays.
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| a NumPy-compatible interface for GPU arrays.
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+aside("Why is this so complicated?")
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| Installing Chainer when no GPU is available currently causes an
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| error. We therefore do not specify Chainer as a dependency. However,
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| CuPy will be split out into
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| #[+a("https://www.slideshare.net/beam2d/chainer-v2-alpha/7") its own package]
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| in Chainer v2.0. We'll have a smoother installation process for this
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| in an upcoming version.
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p
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p
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| First, install follows the normal CUDA installation procedure. Next, set
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| First, install follows the normal CUDA installation procedure. Next, set
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| your environment variables so that the installation will be able to find
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| your environment variables so that the installation will be able to find
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| CUDA. Next, install Chainer, and check that CuPy can be imported
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| CUDA. Finally, install spaCy.
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| correctly. Finally, install spaCy.
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+code(false, "bash").
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+code(false, "bash").
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export CUDA_HOME=/usr/local/cuda-8.0 # Or wherever your CUDA is
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export CUDA_HOME=/usr/local/cuda-8.0 # Or wherever your CUDA is
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export PATH=$PATH:$CUDA_HOME/bin
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export PATH=$PATH:$CUDA_HOME/bin
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pip install chainer
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python -c "import cupy; assert cupy" # Check it installed
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pip install spacy
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pip install spacy
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python -c "import thinc.neural.gpu_ops" # Check the GPU ops were built
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python -c "import thinc.neural.gpu_ops" # Check the GPU ops were built
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@ -65,13 +65,15 @@ p
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| not designed specifically for chat bots, and only provides the
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| not designed specifically for chat bots, and only provides the
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| underlying text processing capabilities.
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| underlying text processing capabilities.
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+item #[strong spaCy is not research software].
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+item #[strong spaCy is not research software].
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| It's is built on the latest research, but unlike
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| It's is built on the latest research, but it's designed to get
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| #[+a("https://github./nltk/nltk") NLTK], which is intended for
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| things done. This leads to fairly different design decisions than
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| teaching and research, spaCy follows a more opinionated approach and
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| #[+a("https://github./nltk/nltk") NLTK]
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| focuses on production usage. Its aim is to provide you with the best
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| or #[+a("https://stanfordnlp.github.io/CoreNLP/") CoreNLP], which were
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| possible general-purpose solution for text processing and machine learning
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| created as platforms for teaching and research. The main difference
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| with text input – but this also means that there's only one implementation
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| is that spaCy is integrated and opinionated. spaCy tries to avoid asking
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| of each component.
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| the user to choose between multiple algorithms that deliver equivalent
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| functionality. Keeping the menu small lets spaCy deliver generally better
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| performance and developer experience.
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+item #[strong spaCy is not a company].
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+item #[strong spaCy is not a company].
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| It's an open-source library. Our company publishing spaCy and other
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| It's an open-source library. Our company publishing spaCy and other
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| software is called #[+a(COMPANY_URL, true) Explosion AI].
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| software is called #[+a(COMPANY_URL, true) Explosion AI].
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@ -79,7 +81,7 @@ p
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+h(2, "features") Features
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+h(2, "features") Features
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p
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p
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| Across the documentations, you'll come across mentions of spaCy's
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| Across the documentation, you'll come across mentions of spaCy's
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| features and capabilities. Some of them refer to linguistic concepts,
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| features and capabilities. Some of them refer to linguistic concepts,
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| while others are related to more general machine learning functionality.
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| while others are related to more general machine learning functionality.
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@ -171,7 +173,9 @@ p
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p
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p
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| Even though a #[code Doc] is processed – e.g. split into individual words
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| Even though a #[code Doc] is processed – e.g. split into individual words
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| and annotated – it still holds #[strong all information of the original text],
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| and annotated – it still holds #[strong all information of the original text],
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| like whitespace characters. This way, you'll never lose any information
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| like whitespace characters. You can always get the offset of a token into the
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| original string, or reconstruct the original by joining the tokens and their
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| trailing whitespace. This way, you'll never lose any information
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| when processing text with spaCy.
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| when processing text with spaCy.
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+h(3, "annotations-token") Tokenization
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+h(3, "annotations-token") Tokenization
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@ -268,69 +272,7 @@ include _spacy-101/_language-data
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+h(2, "architecture") Architecture
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+h(2, "architecture") Architecture
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+under-construction
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include _spacy-101/_architecture.jade
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+image
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include ../../assets/img/docs/architecture.svg
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.u-text-right
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+button("/assets/img/docs/architecture.svg", false, "secondary").u-text-tag View large graphic
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+table(["Name", "Description"])
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+row
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+cell #[+api("language") #[code Language]]
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+cell
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| A text-processing pipeline. Usually you'll load this once per
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| process as #[code nlp] and pass the instance around your application.
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+row
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+cell #[+api("doc") #[code Doc]]
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+cell A container for accessing linguistic annotations.
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+row
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+cell #[+api("span") #[code Span]]
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+cell A slice from a #[code Doc] object.
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+row
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+cell #[+api("token") #[code Token]]
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+cell
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| An individual token — i.e. a word, punctuation symbol, whitespace,
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| etc.
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+row
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+cell #[+api("lexeme") #[code Lexeme]]
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+cell
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| An entry in the vocabulary. It's a word type with no context, as
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| opposed to a word token. It therefore has no part-of-speech tag,
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| dependency parse etc.
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+row
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+cell #[+api("vocab") #[code Vocab]]
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+cell
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| A lookup table for the vocabulary that allows you to access
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| #[code Lexeme] objects.
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+row
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+cell #[code Morphology]
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+cell
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| Assign linguistic features like lemmas, noun case, verb tense etc.
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| based on the word and its part-of-speech tag.
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+row
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+cell #[+api("stringstore") #[code StringStore]]
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+cell Map strings to and from hash values.
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+row
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+row
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+cell #[+api("tokenizer") #[code Tokenizer]]
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+cell
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| Segment text, and create #[code Doc] objects with the discovered
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| segment boundaries.
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+row
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+cell #[+api("matcher") #[code Matcher]]
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+cell
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| Match sequences of tokens, based on pattern rules, similar to
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| regular expressions.
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+h(3, "architecture-pipeline") Pipeline components
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+h(3, "architecture-pipeline") Pipeline components
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