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410 lines
15 KiB
Cython
410 lines
15 KiB
Cython
# coding: utf8
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from __future__ import unicode_literals
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import numpy
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from collections import OrderedDict
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import msgpack
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import msgpack_numpy
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msgpack_numpy.patch()
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cimport numpy as np
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from thinc.neural.util import get_array_module
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from thinc.neural._classes.model import Model
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from .strings cimport StringStore, hash_string
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from .compat import basestring_, path2str
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from . import util
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def unpickle_vectors(keys_and_rows, data):
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vectors = Vectors(data=data)
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for key, row in keys_and_rows:
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vectors.add(key, row=row)
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return vectors
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cdef class Vectors:
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"""Store, save and load word vectors.
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Vectors data is kept in the vectors.data attribute, which should be an
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instance of numpy.ndarray (for CPU vectors) or cupy.ndarray
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(for GPU vectors). `vectors.key2row` is a dictionary mapping word hashes to
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rows in the vectors.data table.
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Multiple keys can be mapped to the same vector, and not all of the rows in
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the table need to be assigned --- so len(list(vectors.keys())) may be
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greater or smaller than vectors.shape[0].
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"""
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cdef public object data
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cdef public object key2row
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cdef public object _unset
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def __init__(self, *, shape=None, data=None, keys=None):
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"""Create a new vector store.
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shape (tuple): Size of the table, as (# entries, # columns)
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data (numpy.ndarray): The vector data.
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keys (iterable): A sequence of keys, aligned with the data.
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RETURNS (Vectors): The newly created object.
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"""
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if data is None:
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if shape is None:
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shape = (0,0)
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data = numpy.zeros(shape, dtype='f')
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self.data = data
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self.key2row = OrderedDict()
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if self.data is not None:
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self._unset = set(range(self.data.shape[0]))
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else:
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self._unset = set()
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if keys is not None:
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for i, key in enumerate(keys):
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self.add(key, row=i)
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@property
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def shape(self):
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"""Get `(rows, dims)` tuples of number of rows and number of dimensions
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in the vector table.
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RETURNS (tuple): A `(rows, dims)` pair.
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"""
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return self.data.shape
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@property
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def size(self):
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"""RETURNS (int): rows*dims"""
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return self.data.shape[0] * self.data.shape[1]
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@property
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def is_full(self):
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"""RETURNS (bool): `True` if no slots are available for new keys."""
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return len(self._unset) == 0
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@property
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def n_keys(self):
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"""RETURNS (int) The number of keys in the table. Note that this is the
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number of all keys, not just unique vectors."""
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return len(self.key2row)
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def __reduce__(self):
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keys_and_rows = tuple(self.key2row.items())
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return (unpickle_vectors, (keys_and_rows, self.data))
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def __getitem__(self, key):
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"""Get a vector by key. If the key is not found, a KeyError is raised.
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key (int): The key to get the vector for.
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RETURNS (ndarray): The vector for the key.
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"""
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i = self.key2row[key]
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if i is None:
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raise KeyError(key)
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else:
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return self.data[i]
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def __setitem__(self, key, vector):
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"""Set a vector for the given key.
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key (int): The key to set the vector for.
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vector (ndarray): The vector to set.
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"""
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i = self.key2row[key]
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self.data[i] = vector
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if i in self._unset:
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self._unset.remove(i)
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def __iter__(self):
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"""Iterate over the keys in the table.
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YIELDS (int): A key in the table.
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"""
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yield from self.key2row
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def __len__(self):
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"""Return the number of vectors in the table.
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RETURNS (int): The number of vectors in the data.
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"""
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return self.data.shape[0]
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def __contains__(self, key):
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"""Check whether a key has been mapped to a vector entry in the table.
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key (int): The key to check.
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RETURNS (bool): Whether the key has a vector entry.
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"""
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return key in self.key2row
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def resize(self, shape, inplace=False):
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"""Resize the underlying vectors array. If inplace=True, the memory
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is reallocated. This may cause other references to the data to become
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invalid, so only use inplace=True if you're sure that's what you want.
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If the number of vectors is reduced, keys mapped to rows that have been
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deleted are removed. These removed items are returned as a list of
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`(key, row)` tuples.
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"""
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if inplace:
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self.data.resize(shape, refcheck=False)
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else:
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xp = get_array_module(self.data)
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self.data = xp.resize(self.data, shape)
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filled = {row for row in self.key2row.values()}
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self._unset = {row for row in range(shape[0]) if row not in filled}
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removed_items = []
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for key, row in list(self.key2row.items()):
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if row >= shape[0]:
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self.key2row.pop(key)
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removed_items.append((key, row))
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return removed_items
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def keys(self):
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"""A sequence of the keys in the table.
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RETURNS (iterable): The keys.
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"""
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return self.key2row.keys()
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def values(self):
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"""Iterate over vectors that have been assigned to at least one key.
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Note that some vectors may be unassigned, so the number of vectors
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returned may be less than the length of the vectors table.
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YIELDS (ndarray): A vector in the table.
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"""
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for row, vector in enumerate(range(self.data.shape[0])):
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if row not in self._unset:
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yield vector
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def items(self):
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"""Iterate over `(key, vector)` pairs.
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YIELDS (tuple): A key/vector pair.
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"""
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for key, row in self.key2row.items():
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yield key, self.data[row]
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def find(self, *, key=None, keys=None, row=None, rows=None):
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"""Look up one or more keys by row, or vice versa.
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key (unicode / int): Find the row that the given key points to.
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Returns int, -1 if missing.
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keys (iterable): Find rows that the keys point to.
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Returns ndarray.
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row (int): Find the first key that point to the row.
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Returns int.
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rows (iterable): Find the keys that point to the rows.
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Returns ndarray.
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RETURNS: The requested key, keys, row or rows.
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"""
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if sum(arg is None for arg in (key, keys, row, rows)) != 3:
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raise ValueError("One (and only one) keyword arg must be set.")
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xp = get_array_module(self.data)
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if key is not None:
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if isinstance(key, basestring_):
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key = hash_string(key)
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return self.key2row.get(key, -1)
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elif keys is not None:
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keys = [hash_string(key) if isinstance(key, basestring_) else key
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for key in keys]
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rows = [self.key2row.get(key, -1.) for key in keys]
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return xp.asarray(rows, dtype='i')
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else:
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targets = set()
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if row is not None:
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targets.add(row)
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else:
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targets.update(rows)
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results = []
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for key, row in self.key2row.items():
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if row in targets:
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results.append(key)
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targets.remove(row)
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return xp.asarray(results, dtype='uint64')
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def add(self, key, *, vector=None, row=None):
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"""Add a key to the table. Keys can be mapped to an existing vector
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by setting `row`, or a new vector can be added.
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key (int): The key to add.
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vector (ndarray / None): A vector to add for the key.
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row (int / None): The row number of a vector to map the key to.
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RETURNS (int): The row the vector was added to.
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"""
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if isinstance(key, basestring):
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key = hash_string(key)
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if row is None and key in self.key2row:
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row = self.key2row[key]
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elif row is None:
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if self.is_full:
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raise ValueError("Cannot add new key to vectors -- full")
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row = min(self._unset)
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self.key2row[key] = row
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if vector is not None:
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self.data[row] = vector
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if row in self._unset:
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self._unset.remove(row)
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return row
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def most_similar(self, queries, *, batch_size=1024):
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"""For each of the given vectors, find the single entry most similar
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to it, by cosine.
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Queries are by vector. Results are returned as a `(keys, best_rows,
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scores)` tuple. If `queries` is large, the calculations are performed in
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chunks, to avoid consuming too much memory. You can set the `batch_size`
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to control the size/space trade-off during the calculations.
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queries (ndarray): An array with one or more vectors.
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batch_size (int): The batch size to use.
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RETURNS (tuple): The most similar entry as a `(keys, best_rows, scores)`
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tuple.
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"""
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xp = get_array_module(self.data)
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vectors = self.data / xp.linalg.norm(self.data, axis=1, keepdims=True)
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best_rows = xp.zeros((queries.shape[0],), dtype='i')
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scores = xp.zeros((queries.shape[0],), dtype='f')
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# Work in batches, to avoid memory problems.
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for i in range(0, queries.shape[0], batch_size):
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batch = queries[i : i+batch_size]
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batch /= xp.linalg.norm(batch, axis=1, keepdims=True)
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# batch e.g. (1024, 300)
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# vectors e.g. (10000, 300)
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# sims e.g. (1024, 10000)
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sims = xp.dot(batch, vectors.T)
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best_rows[i:i+batch_size] = sims.argmax(axis=1)
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scores[i:i+batch_size] = sims.max(axis=1)
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xp = get_array_module(self.data)
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row2key = {row: key for key, row in self.key2row.items()}
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keys = xp.asarray([row2key[row] for row in best_rows], dtype='uint64')
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return (keys, best_rows, scores)
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def from_glove(self, path):
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"""Load GloVe vectors from a directory. Assumes binary format,
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that the vocab is in a vocab.txt, and that vectors are named
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vectors.{size}.[fd].bin, e.g. vectors.128.f.bin for 128d float32
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vectors, vectors.300.d.bin for 300d float64 (double) vectors, etc.
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By default GloVe outputs 64-bit vectors.
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path (unicode / Path): The path to load the GloVe vectors from.
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RETURNS: A `StringStore` object, holding the key-to-string mapping.
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"""
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path = util.ensure_path(path)
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width = None
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for name in path.iterdir():
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if name.parts[-1].startswith('vectors'):
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_, dims, dtype, _2 = name.parts[-1].split('.')
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width = int(dims)
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break
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else:
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raise IOError("Expected file named e.g. vectors.128.f.bin")
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bin_loc = path / 'vectors.{dims}.{dtype}.bin'.format(dims=dims,
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dtype=dtype)
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xp = get_array_module(self.data)
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self.data = None
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with bin_loc.open('rb') as file_:
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self.data = xp.fromfile(file_, dtype=dtype)
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if dtype != 'float32':
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self.data = xp.ascontiguousarray(self.data, dtype='float32')
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if self.data.ndim == 1:
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self.data = self.data.reshape((self.data.size//width, width))
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n = 0
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strings = StringStore()
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with (path / 'vocab.txt').open('r') as file_:
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for i, line in enumerate(file_):
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key = strings.add(line.strip())
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self.add(key, row=i)
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return strings
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def to_disk(self, path, **exclude):
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"""Save the current state to a directory.
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path (unicode / Path): A path to a directory, which will be created if
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it doesn't exists. Either a string or a Path-like object.
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"""
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xp = get_array_module(self.data)
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if xp is numpy:
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save_array = lambda arr, file_: xp.save(file_, arr,
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allow_pickle=False)
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else:
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save_array = lambda arr, file_: xp.save(file_, arr)
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serializers = OrderedDict((
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('vectors', lambda p: save_array(self.data, p.open('wb'))),
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('key2row', lambda p: msgpack.dump(self.key2row, p.open('wb')))
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))
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return util.to_disk(path, serializers, exclude)
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def from_disk(self, path, **exclude):
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"""Loads state from a directory. Modifies the object in place and
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returns it.
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path (unicode / Path): Directory path, string or Path-like object.
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RETURNS (Vectors): The modified object.
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"""
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def load_key2row(path):
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if path.exists():
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self.key2row = msgpack.load(path.open('rb'))
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for key, row in self.key2row.items():
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if row in self._unset:
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self._unset.remove(row)
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def load_keys(path):
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if path.exists():
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keys = numpy.load(str(path))
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for i, key in enumerate(keys):
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self.add(key, row=i)
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def load_vectors(path):
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xp = Model.ops.xp
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if path.exists():
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self.data = xp.load(str(path))
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serializers = OrderedDict((
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('key2row', load_key2row),
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('keys', load_keys),
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('vectors', load_vectors),
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))
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util.from_disk(path, serializers, exclude)
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return self
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def to_bytes(self, **exclude):
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"""Serialize the current state to a binary string.
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**exclude: Named attributes to prevent from being serialized.
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RETURNS (bytes): The serialized form of the `Vectors` object.
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"""
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def serialize_weights():
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if hasattr(self.data, 'to_bytes'):
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return self.data.to_bytes()
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else:
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return msgpack.dumps(self.data)
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serializers = OrderedDict((
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('key2row', lambda: msgpack.dumps(self.key2row)),
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('vectors', serialize_weights)
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))
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return util.to_bytes(serializers, exclude)
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def from_bytes(self, data, **exclude):
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"""Load state from a binary string.
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data (bytes): The data to load from.
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**exclude: Named attributes to prevent from being loaded.
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RETURNS (Vectors): The `Vectors` object.
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"""
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def deserialize_weights(b):
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if hasattr(self.data, 'from_bytes'):
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self.data.from_bytes()
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else:
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self.data = msgpack.loads(b)
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deserializers = OrderedDict((
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('key2row', lambda b: self.key2row.update(msgpack.loads(b))),
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('vectors', deserialize_weights)
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))
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util.from_bytes(data, deserializers, exclude)
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return self
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