explosion/spaCy
1
1
Fork 0
mirror of https://github.com/explosion/spaCy.git synced 2024-11-11 20:28:20 +03:00
Code Issues Packages Projects Releases Wiki Activity
df149455f9
spaCy/website/api/annotation.jade

105 lines
4.1 KiB
Plaintext
Raw Normal View History

Update API documentation
2017-10-03 15:27:22 +03:00
//- 💫 DOCS > API > ANNOTATION SPECS
include ../_includes/_mixins
p This document describes the target annotations spaCy is trained to predict.
+section("tokenization")
+h(2, "tokenization") Tokenization
p
| Tokenization standards are based on the
| #[+a("https://catalog.ldc.upenn.edu/LDC2013T19") OntoNotes 5] corpus.
| The tokenizer differs from most by including tokens for significant
| whitespace. Any sequence of whitespace characters beyond a single space
| (#[code ' ']) is included as a token.
+aside-code("Example").
from spacy.lang.en import English
nlp = English()
tokens = nlp('Some\nspaces and\ttab characters')
tokens_text = [t.text for t in tokens]
assert tokens_text == ['Some', '\n', 'spaces', ' ', 'and',
'\t', 'tab', 'characters']
p
| The whitespace tokens are useful for much the same reason punctuation is
| it's often an important delimiter in the text. By preserving it in the
| token output, we are able to maintain a simple alignment between the
| tokens and the original string, and we ensure that no information is
| lost during processing.
+section("sbd")
+h(2, "sentence-boundary") Sentence boundary detection
p
| Sentence boundaries are calculated from the syntactic parse tree, so
| features such as punctuation and capitalisation play an important but
| non-decisive role in determining the sentence boundaries. Usually this
| means that the sentence boundaries will at least coincide with clause
| boundaries, even given poorly punctuated text.
+section("pos-tagging")
+h(2, "pos-tagging") Part-of-speech Tagging
+aside("Tip: Understanding tags")
| You can also use #[code spacy.explain()] to get the description for the
| string representation of a tag. For example,
| #[code spacy.explain("RB")] will return "adverb".
include _annotation/_pos-tags
+section("lemmatization")
+h(2, "lemmatization") Lemmatization
p A "lemma" is the uninflected form of a word. In English, this means:
+list
+item #[strong Adjectives]: The form like "happy", not "happier" or "happiest"
+item #[strong Adverbs]: The form like "badly", not "worse" or "worst"
+item #[strong Nouns]: The form like "dog", not "dogs"; like "child", not "children"
+item #[strong Verbs]: The form like "write", not "writes", "writing", "wrote" or "written"
p
| The lemmatization data is taken from
| #[+a("https://wordnet.princeton.edu") WordNet]. However, we also add a
| special case for pronouns: all pronouns are lemmatized to the special
| token #[code -PRON-].
+infobox("About spaCy's custom pronoun lemma")
| Unlike verbs and common nouns, there's no clear base form of a personal
| pronoun. Should the lemma of "me" be "I", or should we normalize person
| as well, giving "it" — or maybe "he"? spaCy's solution is to introduce a
| novel symbol, #[code -PRON-], which is used as the lemma for
| all personal pronouns.
+section("dependency-parsing")
+h(2, "dependency-parsing") Syntactic Dependency Parsing
+aside("Tip: Understanding labels")
| You can also use #[code spacy.explain()] to get the description for the
| string representation of a label. For example,
| #[code spacy.explain("prt")] will return "particle".
include _annotation/_dep-labels
+section("named-entities")
+h(2, "named-entities") Named Entity Recognition
+aside("Tip: Understanding entity types")
| You can also use #[code spacy.explain()] to get the description for the
| string representation of an entity label. For example,
| #[code spacy.explain("LANGUAGE")] will return "any named language".
include _annotation/_named-entities
+h(3, "biluo") BILUO Scheme
include _annotation/_biluo
+section("training")
+h(2, "json-input") JSON input format for training
Document current JSON format for training
2017-10-24 16:50:41 +03:00
include _annotation/_training
Reference in New Issue Copy Permalink