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412 lines
11 KiB
Plaintext
412 lines
11 KiB
Plaintext
//- 💫 DOCS > API > VOCAB
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include ../_includes/_mixins
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p
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| The #[code Vocab] object provides a lookup table that allows you to
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| access #[+api("lexeme") #[code Lexeme]] objects, as well as the
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| #[+api("stringstore") #[code StringStore]]. It also owns underlying
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| C-data that is shared between #[code Doc] objects.
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+h(2, "init") Vocab.__init__
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+tag method
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p Create the vocabulary.
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+aside-code("Example").
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from spacy.vocab import Vocab
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vocab = Vocab(strings=[u'hello', u'world'])
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+table(["Name", "Type", "Description"])
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+row
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+cell #[code lex_attr_getters]
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+cell dict
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+cell
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| A dictionary mapping attribute IDs to functions to compute them.
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| Defaults to #[code None].
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+row
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+cell #[code tag_map]
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+cell dict
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+cell
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| A dictionary mapping fine-grained tags to coarse-grained
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| parts-of-speech, and optionally morphological attributes.
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+row
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+cell #[code lemmatizer]
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+cell object
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+cell A lemmatizer. Defaults to #[code None].
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+row
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+cell #[code strings]
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+cell #[code StringStore] or list
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+cell
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| A #[+api("stringstore") #[code StringStore]] that maps
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| strings to hash values, and vice versa, or a list of strings.
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+row("foot")
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+cell returns
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+cell #[code Vocab]
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+cell The newly constructed object.
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+h(2, "len") Vocab.__len__
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+tag method
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p Get the current number of lexemes in the vocabulary.
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+aside-code("Example").
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doc = nlp(u'This is a sentence.')
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assert len(nlp.vocab) > 0
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+table(["Name", "Type", "Description"])
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+row("foot")
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+cell returns
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+cell int
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+cell The number of lexems in the vocabulary.
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+h(2, "getitem") Vocab.__getitem__
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+tag method
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p
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| Retrieve a lexeme, given an int ID or a unicode string. If a previously
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| unseen unicode string is given, a new lexeme is created and stored.
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+aside-code("Example").
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apple = nlp.vocab.strings['apple']
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assert nlp.vocab[apple] == nlp.vocab[u'apple']
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+table(["Name", "Type", "Description"])
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+row
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+cell #[code id_or_string]
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+cell int / unicode
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+cell The hash value of a word, or its unicode string.
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+row("foot")
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+cell returns
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+cell #[code Lexeme]
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+cell The lexeme indicated by the given ID.
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+h(2, "iter") Vocab.__iter__
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+tag method
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p Iterate over the lexemes in the vocabulary.
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+aside-code("Example").
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stop_words = (lex for lex in nlp.vocab if lex.is_stop)
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+table(["Name", "Type", "Description"])
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+row("foot")
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+cell yields
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+cell #[code Lexeme]
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+cell An entry in the vocabulary.
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+h(2, "contains") Vocab.__contains__
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+tag method
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p
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| Check whether the string has an entry in the vocabulary. To get the ID
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| for a given string, you need to look it up in
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| #[+api("vocab#attributes") #[code vocab.strings]].
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+aside-code("Example").
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apple = nlp.vocab.strings['apple']
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oov = nlp.vocab.strings['dskfodkfos']
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assert apple in nlp.vocab
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assert oov not in nlp.vocab
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+table(["Name", "Type", "Description"])
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+row
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+cell #[code string]
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+cell unicode
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+cell The ID string.
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+row("foot")
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+cell returns
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+cell bool
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+cell Whether the string has an entry in the vocabulary.
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+h(2, "add_flag") Vocab.add_flag
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+tag method
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p
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| Set a new boolean flag to words in the vocabulary. The #[code flag_getter]
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| function will be called over the words currently in the vocab, and then
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| applied to new words as they occur. You'll then be able to access the flag
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| value on each token, using #[code token.check_flag(flag_id)].
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+aside-code("Example").
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def is_my_product(text):
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products = [u'spaCy', u'Thinc', u'displaCy']
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return text in products
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MY_PRODUCT = nlp.vocab.add_flag(is_my_product)
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doc = nlp(u'I like spaCy')
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assert doc[2].check_flag(MY_PRODUCT) == True
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+table(["Name", "Type", "Description"])
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+row
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+cell #[code flag_getter]
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+cell dict
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+cell A function #[code f(unicode) -> bool], to get the flag value.
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+row
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+cell #[code flag_id]
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+cell int
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+cell
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| An integer between 1 and 63 (inclusive), specifying the bit at
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| which the flag will be stored. If #[code -1], the lowest
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| available bit will be chosen.
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+row("foot")
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+cell returns
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+cell int
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+cell The integer ID by which the flag value can be checked.
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+h(2, "reset_vectors") Vocab.reset_vectors
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+tag method
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+tag-new(2)
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p
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| Drop the current vector table. Because all vectors must be the same
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| width, you have to call this to change the size of the vectors. Only
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| one of the #[code width] and #[code shape] keyword arguments can be
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| specified.
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+aside-code("Example").
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nlp.vocab.reset_vectors(width=300)
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+table(["Name", "Type", "Description"])
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+row
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+cell #[code width]
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+cell int
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+cell The new width (keyword argument only).
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+row
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+cell #[code shape]
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+cell int
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+cell The new shape (keyword argument only).
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+h(2, "prune_vectors") Vocab.prune_vectors
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+tag method
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+tag-new(2)
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p
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| Reduce the current vector table to #[code nr_row] unique entries. Words
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| mapped to the discarded vectors will be remapped to the closest vector
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| among those remaining. For example, suppose the original table had
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| vectors for the words:
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| #[code.u-break ['sat', 'cat', 'feline', 'reclined']]. If we prune the
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| vector table to, two rows, we would discard the vectors for "feline"
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| and "reclined". These words would then be remapped to the closest
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| remaining vector – so "feline" would have the same vector as "cat",
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| and "reclined" would have the same vector as "sat". The similarities are
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| judged by cosine. The original vectors may be large, so the cosines are
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| calculated in minibatches, to reduce memory usage.
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+aside-code("Example").
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nlp.vocab.prune_vectors(10000)
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assert len(nlp.vocab.vectors) <= 1000
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+table(["Name", "Type", "Description"])
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+row
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+cell #[code nr_row]
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+cell int
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+cell The number of rows to keep in the vector table.
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+row
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+cell #[code batch_size]
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+cell int
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+cell
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| Batch of vectors for calculating the similarities. Larger batch
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| sizes might be faster, while temporarily requiring more memory.
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+row("foot")
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+cell returns
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+cell dict
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+cell
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| A dictionary keyed by removed words mapped to
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| #[code (string, score)] tuples, where #[code string] is the entry
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| the removed word was mapped to, and #[code score] the similarity
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| score between the two words.
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+h(2, "get_vector") Vocab.get_vector
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+tag method
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+tag-new(2)
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p
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| Retrieve a vector for a word in the vocabulary. Words can be looked up
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| by string or hash value. If no vectors data is loaded, a
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| #[code ValueError] is raised.
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+aside-code("Example").
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nlp.vocab.get_vector(u'apple')
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+table(["Name", "Type", "Description"])
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+row
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+cell #[code orth]
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+cell int / unicode
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+cell The hash value of a word, or its unicode string.
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+row("foot")
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+cell returns
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+cell #[code.u-break numpy.ndarray[ndim=1, dtype='float32']]
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+cell
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| A word vector. Size and shape are determined by the
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| #[code Vocab.vectors] instance.
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+h(2, "set_vector") Vocab.set_vector
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+tag method
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+tag-new(2)
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p
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| Set a vector for a word in the vocabulary. Words can be referenced by
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| by string or hash value.
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+aside-code("Example").
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nlp.vocab.set_vector(u'apple', array([...]))
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+table(["Name", "Type", "Description"])
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+row
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+cell #[code orth]
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+cell int / unicode
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+cell The hash value of a word, or its unicode string.
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+row
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+cell #[code vector]
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+cell #[code.u-break numpy.ndarray[ndim=1, dtype='float32']]
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+cell The vector to set.
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+h(2, "has_vector") Vocab.has_vector
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+tag method
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+tag-new(2)
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p
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| Check whether a word has a vector. Returns #[code False] if no vectors
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| are loaded. Words can be looked up by string or hash value.
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+aside-code("Example").
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if nlp.vocab.has_vector(u'apple'):
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vector = nlp.vocab.get_vector(u'apple')
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+table(["Name", "Type", "Description"])
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+row
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+cell #[code orth]
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+cell int / unicode
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+cell The hash value of a word, or its unicode string.
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+row("foot")
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+cell returns
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+cell bool
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+cell Whether the word has a vector.
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+h(2, "to_disk") Vocab.to_disk
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+tag method
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+tag-new(2)
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p Save the current state to a directory.
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+aside-code("Example").
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nlp.vocab.to_disk('/path/to/vocab')
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+table(["Name", "Type", "Description"])
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+row
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+cell #[code path]
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+cell unicode or #[code Path]
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+cell
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| A path to a directory, which will be created if it doesn't exist.
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| Paths may be either strings or #[code Path]-like objects.
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+h(2, "from_disk") Vocab.from_disk
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+tag method
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+tag-new(2)
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p Loads state from a directory. Modifies the object in place and returns it.
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+aside-code("Example").
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from spacy.vocab import Vocab
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vocab = Vocab().from_disk('/path/to/vocab')
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+table(["Name", "Type", "Description"])
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+row
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+cell #[code path]
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+cell unicode or #[code Path]
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+cell
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| A path to a directory. Paths may be either strings or
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| #[code Path]-like objects.
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+row("foot")
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+cell returns
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+cell #[code Vocab]
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+cell The modified #[code Vocab] object.
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+h(2, "to_bytes") Vocab.to_bytes
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+tag method
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p Serialize the current state to a binary string.
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+aside-code("Example").
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vocab_bytes = nlp.vocab.to_bytes()
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+table(["Name", "Type", "Description"])
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+row
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+cell #[code **exclude]
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+cell -
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+cell Named attributes to prevent from being serialized.
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+row("foot")
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+cell returns
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+cell bytes
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+cell The serialized form of the #[code Vocab] object.
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+h(2, "from_bytes") Vocab.from_bytes
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+tag method
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p Load state from a binary string.
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+aside-code("Example").
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fron spacy.vocab import Vocab
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vocab_bytes = nlp.vocab.to_bytes()
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vocab = Vocab()
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vocab.from_bytes(vocab_bytes)
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+table(["Name", "Type", "Description"])
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+row
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+cell #[code bytes_data]
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+cell bytes
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+cell The data to load from.
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+row
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+cell #[code **exclude]
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+cell -
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+cell Named attributes to prevent from being loaded.
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+row("foot")
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+cell returns
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+cell #[code Vocab]
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+cell The #[code Vocab] object.
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+h(2, "attributes") Attributes
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+aside-code("Example").
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apple_id = nlp.vocab.strings['apple']
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assert type(apple_id) == int
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PERSON = nlp.vocab.strings['PERSON']
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assert type(PERSON) == int
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+table(["Name", "Type", "Description"])
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+row
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+cell #[code strings]
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+cell #[code StringStore]
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+cell A table managing the string-to-int mapping.
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+row
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+cell #[code vectors]
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+tag-new(2)
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+cell #[code Vectors]
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+cell A table associating word IDs to word vectors.
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+row
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+cell #[code vectors_length]
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+cell int
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+cell Number of dimensions for each word vector.
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