mirror of https://github.com/explosion/spaCy.git
337 lines
14 KiB
Python
337 lines
14 KiB
Python
from typing import Optional, List, Union, cast
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from thinc.types import Floats2d, Ints2d, Ragged
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from thinc.api import chain, clone, concatenate, with_array, with_padded
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from thinc.api import Model, noop, list2ragged, ragged2list, HashEmbed
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from thinc.api import expand_window, residual, Maxout, Mish, PyTorchLSTM
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from ...tokens import Doc
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from ...util import registry
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from ...errors import Errors
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from ...ml import _character_embed
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from ..staticvectors import StaticVectors
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from ..featureextractor import FeatureExtractor
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from ...pipeline.tok2vec import Tok2VecListener
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from ...attrs import intify_attr
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@registry.architectures("spacy.Tok2VecListener.v1")
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def tok2vec_listener_v1(width: int, upstream: str = "*"):
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tok2vec = Tok2VecListener(upstream_name=upstream, width=width)
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return tok2vec
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def get_tok2vec_width(model: Model):
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nO = None
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if model.has_ref("tok2vec"):
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tok2vec = model.get_ref("tok2vec")
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if tok2vec.has_dim("nO"):
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nO = tok2vec.get_dim("nO")
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elif tok2vec.has_ref("listener"):
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nO = tok2vec.get_ref("listener").get_dim("nO")
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return nO
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@registry.architectures("spacy.HashEmbedCNN.v2")
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def build_hash_embed_cnn_tok2vec(
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*,
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width: int,
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depth: int,
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embed_size: int,
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window_size: int,
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maxout_pieces: int,
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subword_features: bool,
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pretrained_vectors: Optional[bool],
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) -> Model[List[Doc], List[Floats2d]]:
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"""Build spaCy's 'standard' tok2vec layer, which uses hash embedding
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with subword features and a CNN with layer-normalized maxout.
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width (int): The width of the input and output. These are required to be the
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same, so that residual connections can be used. Recommended values are
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96, 128 or 300.
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depth (int): The number of convolutional layers to use. Recommended values
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are between 2 and 8.
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window_size (int): The number of tokens on either side to concatenate during
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the convolutions. The receptive field of the CNN will be
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depth * (window_size * 2 + 1), so a 4-layer network with window_size of
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2 will be sensitive to 20 words at a time. Recommended value is 1.
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embed_size (int): The number of rows in the hash embedding tables. This can
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be surprisingly small, due to the use of the hash embeddings. Recommended
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values are between 2000 and 10000.
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maxout_pieces (int): The number of pieces to use in the maxout non-linearity.
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If 1, the Mish non-linearity is used instead. Recommended values are 1-3.
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subword_features (bool): Whether to also embed subword features, specifically
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the prefix, suffix and word shape. This is recommended for alphabetic
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languages like English, but not if single-character tokens are used for
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a language such as Chinese.
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pretrained_vectors (bool): Whether to also use static vectors.
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"""
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if subword_features:
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attrs = ["NORM", "PREFIX", "SUFFIX", "SHAPE"]
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row_sizes = [embed_size, embed_size // 2, embed_size // 2, embed_size // 2]
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else:
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attrs = ["NORM"]
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row_sizes = [embed_size]
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return build_Tok2Vec_model(
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embed=MultiHashEmbed(
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width=width,
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rows=row_sizes,
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attrs=attrs,
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include_static_vectors=bool(pretrained_vectors),
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),
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encode=MaxoutWindowEncoder(
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width=width,
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depth=depth,
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window_size=window_size,
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maxout_pieces=maxout_pieces,
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),
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)
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@registry.architectures("spacy.Tok2Vec.v2")
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def build_Tok2Vec_model(
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embed: Model[List[Doc], List[Floats2d]],
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encode: Model[List[Floats2d], List[Floats2d]],
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) -> Model[List[Doc], List[Floats2d]]:
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"""Construct a tok2vec model out of embedding and encoding subnetworks.
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See https://explosion.ai/blog/deep-learning-formula-nlp
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embed (Model[List[Doc], List[Floats2d]]): Embed tokens into context-independent
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word vector representations.
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encode (Model[List[Floats2d], List[Floats2d]]): Encode context into the
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embeddings, using an architecture such as a CNN, BiLSTM or transformer.
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"""
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tok2vec = chain(embed, encode)
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if encode.has_dim("nO"):
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tok2vec.set_dim("nO", encode.get_dim("nO"))
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tok2vec.set_ref("embed", embed)
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tok2vec.set_ref("encode", encode)
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return tok2vec
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@registry.architectures("spacy.MultiHashEmbed.v2")
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def MultiHashEmbed(
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width: int,
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attrs: List[Union[str, int]],
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rows: List[int],
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include_static_vectors: bool,
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) -> Model[List[Doc], List[Floats2d]]:
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"""Construct an embedding layer that separately embeds a number of lexical
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attributes using hash embedding, concatenates the results, and passes it
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through a feed-forward subnetwork to build a mixed representation.
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The features used can be configured with the 'attrs' argument. The suggested
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attributes are NORM, PREFIX, SUFFIX and SHAPE. This lets the model take into
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account some subword information, without constructing a fully character-based
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representation. If pretrained vectors are available, they can be included in
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the representation as well, with the vectors table kept static
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(i.e. it's not updated).
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The `width` parameter specifies the output width of the layer and the widths
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of all embedding tables. If static vectors are included, a learned linear
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layer is used to map the vectors to the specified width before concatenating
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it with the other embedding outputs. A single Maxout layer is then used to
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reduce the concatenated vectors to the final width.
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The `rows` parameter controls the number of rows used by the `HashEmbed`
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tables. The HashEmbed layer needs surprisingly few rows, due to its use of
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the hashing trick. Generally between 2000 and 10000 rows is sufficient,
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even for very large vocabularies. A number of rows must be specified for each
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table, so the `rows` list must be of the same length as the `attrs` parameter.
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width (int): The output width. Also used as the width of the embedding tables.
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Recommended values are between 64 and 300.
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attrs (list of attr IDs): The token attributes to embed. A separate
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embedding table will be constructed for each attribute.
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rows (List[int]): The number of rows in the embedding tables. Must have the
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same length as attrs.
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include_static_vectors (bool): Whether to also use static word vectors.
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Requires a vectors table to be loaded in the Doc objects' vocab.
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"""
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if len(rows) != len(attrs):
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raise ValueError(f"Mismatched lengths: {len(rows)} vs {len(attrs)}")
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seed = 7
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def make_hash_embed(index):
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nonlocal seed
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seed += 1
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return HashEmbed(width, rows[index], column=index, seed=seed, dropout=0.0)
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embeddings = [make_hash_embed(i) for i in range(len(attrs))]
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concat_size = width * (len(embeddings) + include_static_vectors)
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max_out: Model[Ragged, Ragged] = with_array(
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Maxout(width, concat_size, nP=3, dropout=0.0, normalize=True) # type: ignore
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)
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if include_static_vectors:
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feature_extractor: Model[List[Doc], Ragged] = chain(
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FeatureExtractor(attrs),
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cast(Model[List[Ints2d], Ragged], list2ragged()),
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with_array(concatenate(*embeddings)),
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)
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model = chain(
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concatenate(
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feature_extractor,
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StaticVectors(width, dropout=0.0),
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),
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max_out,
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cast(Model[Ragged, List[Floats2d]], ragged2list()),
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)
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else:
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model = chain(
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FeatureExtractor(list(attrs)),
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cast(Model[List[Ints2d], Ragged], list2ragged()),
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with_array(concatenate(*embeddings)),
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max_out,
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cast(Model[Ragged, List[Floats2d]], ragged2list()),
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)
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return model
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@registry.architectures("spacy.CharacterEmbed.v2")
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def CharacterEmbed(
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width: int,
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rows: int,
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nM: int,
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nC: int,
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include_static_vectors: bool,
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feature: Union[int, str] = "LOWER",
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) -> Model[List[Doc], List[Floats2d]]:
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"""Construct an embedded representation based on character embeddings, using
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a feed-forward network. A fixed number of UTF-8 byte characters are used for
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each word, taken from the beginning and end of the word equally. Padding is
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used in the centre for words that are too short.
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For instance, let's say nC=4, and the word is "jumping". The characters
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used will be jung (two from the start, two from the end). If we had nC=8,
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the characters would be "jumpping": 4 from the start, 4 from the end. This
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ensures that the final character is always in the last position, instead
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of being in an arbitrary position depending on the word length.
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The characters are embedded in a embedding table with a given number of rows,
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and the vectors concatenated. A hash-embedded vector of the LOWER of the word is
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also concatenated on, and the result is then passed through a feed-forward
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network to construct a single vector to represent the information.
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feature (int or str): An attribute to embed, to concatenate with the characters.
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width (int): The width of the output vector and the feature embedding.
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rows (int): The number of rows in the LOWER hash embedding table.
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nM (int): The dimensionality of the character embeddings. Recommended values
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are between 16 and 64.
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nC (int): The number of UTF-8 bytes to embed per word. Recommended values
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are between 3 and 8, although it may depend on the length of words in the
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language.
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include_static_vectors (bool): Whether to also use static word vectors.
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Requires a vectors table to be loaded in the Doc objects' vocab.
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"""
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feature = intify_attr(feature)
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if feature is None:
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raise ValueError(Errors.E911.format(feat=feature))
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char_embed = chain(
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_character_embed.CharacterEmbed(nM=nM, nC=nC),
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cast(Model[List[Floats2d], Ragged], list2ragged()),
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)
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feature_extractor: Model[List[Doc], Ragged] = chain(
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FeatureExtractor([feature]),
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cast(Model[List[Ints2d], Ragged], list2ragged()),
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with_array(HashEmbed(nO=width, nV=rows, column=0, seed=5)), # type: ignore
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)
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max_out: Model[Ragged, Ragged]
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if include_static_vectors:
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max_out = with_array(
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Maxout(width, nM * nC + (2 * width), nP=3, normalize=True, dropout=0.0) # type: ignore
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)
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model = chain(
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concatenate(
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char_embed,
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feature_extractor,
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StaticVectors(width, dropout=0.0),
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),
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max_out,
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cast(Model[Ragged, List[Floats2d]], ragged2list()),
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)
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else:
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max_out = with_array(
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Maxout(width, nM * nC + width, nP=3, normalize=True, dropout=0.0) # type: ignore
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)
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model = chain(
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concatenate(
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char_embed,
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feature_extractor,
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),
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max_out,
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cast(Model[Ragged, List[Floats2d]], ragged2list()),
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)
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return model
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@registry.architectures("spacy.MaxoutWindowEncoder.v2")
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def MaxoutWindowEncoder(
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width: int, window_size: int, maxout_pieces: int, depth: int
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) -> Model[List[Floats2d], List[Floats2d]]:
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"""Encode context using convolutions with maxout activation, layer
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normalization and residual connections.
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width (int): The input and output width. These are required to be the same,
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to allow residual connections. This value will be determined by the
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width of the inputs. Recommended values are between 64 and 300.
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window_size (int): The number of words to concatenate around each token
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to construct the convolution. Recommended value is 1.
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maxout_pieces (int): The number of maxout pieces to use. Recommended
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values are 2 or 3.
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depth (int): The number of convolutional layers. Recommended value is 4.
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"""
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cnn = chain(
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expand_window(window_size=window_size),
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Maxout(
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nO=width,
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nI=width * ((window_size * 2) + 1),
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nP=maxout_pieces,
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dropout=0.0,
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normalize=True,
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),
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)
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model = clone(residual(cnn), depth) # type: ignore[arg-type]
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model.set_dim("nO", width)
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receptive_field = window_size * depth
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return with_array(model, pad=receptive_field) # type: ignore[arg-type]
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@registry.architectures("spacy.MishWindowEncoder.v2")
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def MishWindowEncoder(
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width: int, window_size: int, depth: int
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) -> Model[List[Floats2d], List[Floats2d]]:
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"""Encode context using convolutions with mish activation, layer
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normalization and residual connections.
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width (int): The input and output width. These are required to be the same,
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to allow residual connections. This value will be determined by the
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width of the inputs. Recommended values are between 64 and 300.
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window_size (int): The number of words to concatenate around each token
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to construct the convolution. Recommended value is 1.
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depth (int): The number of convolutional layers. Recommended value is 4.
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"""
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cnn = chain(
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expand_window(window_size=window_size),
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Mish(nO=width, nI=width * ((window_size * 2) + 1), dropout=0.0, normalize=True),
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)
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model = clone(residual(cnn), depth) # type: ignore[arg-type]
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model.set_dim("nO", width)
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return with_array(model) # type: ignore[arg-type]
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@registry.architectures("spacy.TorchBiLSTMEncoder.v1")
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def BiLSTMEncoder(
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width: int, depth: int, dropout: float
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) -> Model[List[Floats2d], List[Floats2d]]:
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"""Encode context using bidirectonal LSTM layers. Requires PyTorch.
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width (int): The input and output width. These are required to be the same,
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to allow residual connections. This value will be determined by the
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width of the inputs. Recommended values are between 64 and 300.
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depth (int): The number of recurrent layers.
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dropout (float): Creates a Dropout layer on the outputs of each LSTM layer
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except the last layer. Set to 0 to disable this functionality.
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"""
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if depth == 0:
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return noop()
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return with_padded(PyTorchLSTM(width, width, bi=True, depth=depth, dropout=dropout))
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