spaCy/spacy/vocab.pyx

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from __future__ import unicode_literals
from libc.stdio cimport fopen, fclose, fread, fwrite, FILE
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from libc.string cimport memset
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from libc.stdint cimport int32_t
from libc.stdint cimport uint64_t
import bz2
from os import path
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import io
import math
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import ujson as json
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import tempfile
from .lexeme cimport EMPTY_LEXEME
from .lexeme cimport Lexeme
from .strings cimport hash_string
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from .orth cimport word_shape
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from .typedefs cimport attr_t
from .cfile cimport CFile
from .lemmatizer import Lemmatizer
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from . import attrs
from . import symbols
from cymem.cymem cimport Address
from .serialize.packer cimport Packer
from .attrs cimport PROB, LANG
from . import deprecated
from . import util
try:
import copy_reg
except ImportError:
import copyreg as copy_reg
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DEF MAX_VEC_SIZE = 100000
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cdef float[MAX_VEC_SIZE] EMPTY_VEC
memset(EMPTY_VEC, 0, sizeof(EMPTY_VEC))
memset(&EMPTY_LEXEME, 0, sizeof(LexemeC))
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EMPTY_LEXEME.vector = EMPTY_VEC
cdef class Vocab:
'''A map container for a language's LexemeC structs.
'''
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@classmethod
def load(cls, path, lex_attr_getters=None, lemmatizer=True,
tag_map=True, serializer_freqs=True, oov_prob=True, **deprecated_kwargs):
util.check_renamed_kwargs({'get_lex_attr': 'lex_attr_getters'}, deprecated_kwargs)
if 'vectors' in deprecated_kwargs:
raise AttributeError(
"vectors argument to Vocab.load() deprecated. "
"Install vectors after loading.")
if tag_map is True and (path / 'vocab' / 'tag_map.json').exists():
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with (path / 'vocab' / 'tag_map.json').open('r', encoding='utf8') as file_:
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tag_map = json.load(file_)
if lex_attr_getters is not None \
and oov_prob is True \
and (path / 'vocab' / 'oov_prob').exists():
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with (path / 'vocab' / 'oov_prob').open('r', encoding='utf8') as file_:
oov_prob = float(file_.read())
lex_attr_getters[PROB] = lambda text: oov_prob
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if lemmatizer is True:
lemmatizer = Lemmatizer.load(path)
if serializer_freqs is True and (path / 'vocab' / 'serializer.json').exists():
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with (path / 'vocab' / 'serializer.json').open('r', encoding='utf8') as file_:
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serializer_freqs = json.load(file_)
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cdef Vocab self = cls(lex_attr_getters=lex_attr_getters, tag_map=tag_map,
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lemmatizer=lemmatizer, serializer_freqs=serializer_freqs)
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with (path / 'vocab' / 'strings.json').open('r', encoding='utf8') as file_:
self.strings.load(file_)
self.load_lexemes(path / 'vocab' / 'lexemes.bin')
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return self
def __init__(self, lex_attr_getters=None, tag_map=None, lemmatizer=None,
serializer_freqs=None, **deprecated_kwargs):
util.check_renamed_kwargs({'get_lex_attr': 'lex_attr_getters'}, deprecated_kwargs)
lex_attr_getters = lex_attr_getters if lex_attr_getters is not None else {}
tag_map = tag_map if tag_map is not None else {}
if lemmatizer in (None, True, False):
lemmatizer = Lemmatizer({}, {}, {})
serializer_freqs = serializer_freqs if serializer_freqs is not None else {}
self.mem = Pool()
self._by_hash = PreshMap()
self._by_orth = PreshMap()
self.strings = StringStore()
# Load strings in a special order, so that we have an onset number for
# the vocabulary. This way, when words are added in order, the orth ID
# is the frequency rank of the word, plus a certain offset. The structural
# strings are loaded first, because the vocab is open-class, and these
# symbols are closed class.
# TODO: Actually this has turned out to be a pain in the ass...
# It means the data is invalidated when we add a symbol :(
# Need to rethink this.
for name in symbols.NAMES + list(sorted(tag_map.keys())):
if name:
_ = self.strings[name]
self.lex_attr_getters = lex_attr_getters
self.morphology = Morphology(self.strings, tag_map, lemmatizer)
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self.serializer_freqs = serializer_freqs
self.length = 1
self._serializer = None
property serializer:
def __get__(self):
if self._serializer is None:
freqs = []
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self._serializer = Packer(self, self.serializer_freqs)
return self._serializer
property lang:
def __get__(self):
langfunc = None
if self.lex_attr_getters:
langfunc = self.lex_attr_getters.get(LANG, None)
return langfunc('_') if langfunc else ''
def __len__(self):
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"""The current number of lexemes stored."""
return self.length
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def resize_vectors(self, int new_size):
'''
Set vectors_length to a new size, and allocate more memory for the Lexeme
vectors if necessary. The memory will be zeroed.
'''
cdef hash_t key
cdef size_t addr
if new_size > self.vectors_length:
for key, addr in self._by_hash.items():
lex = <LexemeC*>addr
lex.vector = <float*>self.mem.realloc(lex.vector,
new_size * sizeof(lex.vector[0]))
self.vectors_length = new_size
def add_flag(self, flag_getter, int flag_id=-1):
'''Set a new boolean flag to words in the vocabulary. The flag_setter
function will be called over the words currently in the vocab, and then
applied to new words as they occur. You'll then be able to access the
flag value on each token, using token.check_flag(flag_id). See also:
Lexeme.set_flag, Lexeme.check_flag, Token.set_flag, Token.check_flag.
Arguments:
flag_getter:
A function f(unicode) -> bool, to get the flag value.
flag_id (int):
An integer between 1 and 63 (inclusive), specifying the bit at which the
flag will be stored. If -1, the lowest available bit will be
chosen.
Returns:
flag_id (int): The integer ID by which the flag value can be checked.
'''
if flag_id == -1:
for bit in range(1, 64):
if bit not in self.lex_attr_getters:
flag_id = bit
break
else:
raise ValueError(
"Cannot find empty bit for new lexical flag. All bits between "
"0 and 63 are occupied. You can replace one by specifying the "
"flag_id explicitly, e.g. nlp.vocab.add_flag(your_func, flag_id=IS_ALPHA")
elif flag_id >= 64 or flag_id < 1:
raise ValueError(
"Invalid value for flag_id: %d. Flag IDs must be between "
"1 and 63 (inclusive)" % flag_id)
for lex in self:
lex.set_flag(flag_id, flag_getter(lex.orth_))
self.lex_attr_getters[flag_id] = flag_getter
return flag_id
cdef const LexemeC* get(self, Pool mem, unicode string) except NULL:
'''Get a pointer to a LexemeC from the lexicon, creating a new Lexeme
if necessary, using memory acquired from the given pool. If the pool
is the lexicon's own memory, the lexeme is saved in the lexicon.'''
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if string == u'':
return &EMPTY_LEXEME
cdef LexemeC* lex
cdef hash_t key = hash_string(string)
lex = <LexemeC*>self._by_hash.get(key)
cdef size_t addr
if lex != NULL:
if lex.orth != self.strings[string]:
raise LookupError.mismatched_strings(
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lex.orth, self.strings[string], self.strings[lex.orth], string)
return lex
else:
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return self._new_lexeme(mem, string)
cdef const LexemeC* get_by_orth(self, Pool mem, attr_t orth) except NULL:
'''Get a pointer to a LexemeC from the lexicon, creating a new Lexeme
if necessary, using memory acquired from the given pool. If the pool
is the lexicon's own memory, the lexeme is saved in the lexicon.'''
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if orth == 0:
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return &EMPTY_LEXEME
cdef LexemeC* lex
lex = <LexemeC*>self._by_orth.get(orth)
if lex != NULL:
return lex
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else:
return self._new_lexeme(mem, self.strings[orth])
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cdef const LexemeC* _new_lexeme(self, Pool mem, unicode string) except NULL:
cdef hash_t key
cdef bint is_oov = mem is not self.mem
if len(string) < 3:
mem = self.mem
lex = <LexemeC*>mem.alloc(sizeof(LexemeC), 1)
lex.orth = self.strings[string]
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lex.length = len(string)
lex.id = self.length
lex.vector = <float*>mem.alloc(self.vectors_length, sizeof(float))
if self.lex_attr_getters is not None:
for attr, func in self.lex_attr_getters.items():
value = func(string)
if isinstance(value, unicode):
value = self.strings[value]
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if attr == PROB:
lex.prob = value
elif value is not None:
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Lexeme.set_struct_attr(lex, attr, value)
if is_oov:
lex.id = 0
else:
key = hash_string(string)
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self._add_lex_to_vocab(key, lex)
assert lex != NULL, string
return lex
cdef int _add_lex_to_vocab(self, hash_t key, const LexemeC* lex) except -1:
self._by_hash.set(key, <void*>lex)
self._by_orth.set(lex.orth, <void*>lex)
self.length += 1
def __contains__(self, unicode string):
key = hash_string(string)
lex = self._by_hash.get(key)
return True if lex is not NULL else False
def __iter__(self):
cdef attr_t orth
cdef size_t addr
for orth, addr in self._by_orth.items():
yield Lexeme(self, orth)
def __getitem__(self, id_or_string):
'''Retrieve a lexeme, given an int ID or a unicode string. If a previously
unseen unicode string is given, a new lexeme is created and stored.
Args:
id_or_string (int or unicode):
The integer ID of a word, or its unicode string. If an int >= Lexicon.size,
IndexError is raised. If id_or_string is neither an int nor a unicode string,
ValueError is raised.
Returns:
lexeme (Lexeme):
An instance of the Lexeme Python class, with data copied on
instantiation.
'''
cdef attr_t orth
if type(id_or_string) == unicode:
orth = self.strings[id_or_string]
else:
orth = id_or_string
return Lexeme(self, orth)
cdef const TokenC* make_fused_token(self, substrings) except NULL:
cdef int i
tokens = <TokenC*>self.mem.alloc(len(substrings) + 1, sizeof(TokenC))
for i, props in enumerate(substrings):
token = &tokens[i]
# Set the special tokens up to have morphology and lemmas if
# specified, otherwise use the part-of-speech tag (if specified)
token.lex = <LexemeC*>self.get(self.mem, props['F'])
if 'pos' in props:
self.morphology.assign_tag(token, props['pos'])
if 'L' in props:
tokens[i].lemma = self.strings[props['L']]
for feature, value in props.get('morph', {}).items():
self.morphology.assign_feature(&token.morph, feature, value)
return tokens
def dump(self, loc):
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if hasattr(loc, 'as_posix'):
loc = loc.as_posix()
cdef bytes bytes_loc = loc.encode('utf8') if type(loc) == unicode else loc
cdef CFile fp = CFile(bytes_loc, 'wb')
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cdef size_t st
cdef size_t addr
cdef hash_t key
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for key, addr in self._by_hash.items():
lexeme = <LexemeC*>addr
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fp.write_from(&lexeme.orth, sizeof(lexeme.orth), 1)
fp.write_from(&lexeme.flags, sizeof(lexeme.flags), 1)
fp.write_from(&lexeme.id, sizeof(lexeme.id), 1)
fp.write_from(&lexeme.length, sizeof(lexeme.length), 1)
fp.write_from(&lexeme.orth, sizeof(lexeme.orth), 1)
fp.write_from(&lexeme.lower, sizeof(lexeme.lower), 1)
fp.write_from(&lexeme.norm, sizeof(lexeme.norm), 1)
fp.write_from(&lexeme.shape, sizeof(lexeme.shape), 1)
fp.write_from(&lexeme.prefix, sizeof(lexeme.prefix), 1)
fp.write_from(&lexeme.suffix, sizeof(lexeme.suffix), 1)
fp.write_from(&lexeme.cluster, sizeof(lexeme.cluster), 1)
fp.write_from(&lexeme.prob, sizeof(lexeme.prob), 1)
fp.write_from(&lexeme.sentiment, sizeof(lexeme.sentiment), 1)
fp.write_from(&lexeme.l2_norm, sizeof(lexeme.l2_norm), 1)
fp.write_from(&lexeme.lang, sizeof(lexeme.lang), 1)
fp.close()
def load_lexemes(self, loc):
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fp = CFile(loc, 'rb',
on_open_error=lambda: IOError('LexemeCs file not found at %s' % loc))
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cdef LexemeC* lexeme
cdef hash_t key
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cdef unicode py_str
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cdef attr_t orth
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assert sizeof(orth) == sizeof(lexeme.orth)
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i = 0
while True:
try:
fp.read_into(&orth, 1, sizeof(orth))
except IOError:
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break
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lexeme = <LexemeC*>self.mem.alloc(sizeof(LexemeC), 1)
# Copy data from the file into the lexeme
fp.read_into(&lexeme.flags, 1, sizeof(lexeme.flags))
fp.read_into(&lexeme.id, 1, sizeof(lexeme.id))
fp.read_into(&lexeme.length, 1, sizeof(lexeme.length))
fp.read_into(&lexeme.orth, 1, sizeof(lexeme.orth))
fp.read_into(&lexeme.lower, 1, sizeof(lexeme.lower))
fp.read_into(&lexeme.norm, 1, sizeof(lexeme.norm))
fp.read_into(&lexeme.shape, 1, sizeof(lexeme.shape))
fp.read_into(&lexeme.prefix, 1, sizeof(lexeme.prefix))
fp.read_into(&lexeme.suffix, 1, sizeof(lexeme.suffix))
fp.read_into(&lexeme.cluster, 1, sizeof(lexeme.cluster))
fp.read_into(&lexeme.prob, 1, sizeof(lexeme.prob))
fp.read_into(&lexeme.sentiment, 1, sizeof(lexeme.sentiment))
fp.read_into(&lexeme.l2_norm, 1, sizeof(lexeme.l2_norm))
fp.read_into(&lexeme.lang, 1, sizeof(lexeme.lang))
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lexeme.vector = EMPTY_VEC
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py_str = self.strings[lexeme.orth]
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key = hash_string(py_str)
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self._by_hash.set(key, lexeme)
self._by_orth.set(lexeme.orth, lexeme)
self.length += 1
i += 1
fp.close()
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def dump_vectors(self, out_loc):
cdef int32_t vec_len = self.vectors_length
cdef int32_t word_len
cdef bytes word_str
cdef char* chars
cdef Lexeme lexeme
cdef CFile out_file = CFile(out_loc, 'wb')
for lexeme in self:
word_str = lexeme.orth_.encode('utf8')
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vec = lexeme.c.vector
word_len = len(word_str)
out_file.write_from(&word_len, 1, sizeof(word_len))
out_file.write_from(&vec_len, 1, sizeof(vec_len))
chars = <char*>word_str
out_file.write_from(chars, word_len, sizeof(char))
out_file.write_from(vec, vec_len, sizeof(float))
out_file.close()
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def load_vectors(self, file_):
cdef LexemeC* lexeme
cdef attr_t orth
cdef int32_t vec_len = -1
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for line_num, line in enumerate(file_):
pieces = line.split()
word_str = pieces.pop(0)
if vec_len == -1:
vec_len = len(pieces)
elif vec_len != len(pieces):
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raise VectorReadError.mismatched_sizes(file_, line_num,
vec_len, len(pieces))
orth = self.strings[word_str]
lexeme = <LexemeC*><void*>self.get_by_orth(self.mem, orth)
lexeme.vector = <float*>self.mem.alloc(vec_len, sizeof(float))
for i, val_str in enumerate(pieces):
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lexeme.vector[i] = float(val_str)
self.vectors_length = vec_len
return vec_len
def load_vectors_from_bin_loc(self, loc):
cdef CFile file_ = CFile(loc, b'rb')
cdef int32_t word_len
cdef int32_t vec_len = 0
cdef int32_t prev_vec_len = 0
cdef float* vec
cdef Address mem
cdef attr_t string_id
cdef bytes py_word
cdef vector[float*] vectors
cdef int line_num = 0
cdef Pool tmp_mem = Pool()
while True:
try:
file_.read_into(&word_len, sizeof(word_len), 1)
except IOError:
break
file_.read_into(&vec_len, sizeof(vec_len), 1)
if prev_vec_len != 0 and vec_len != prev_vec_len:
raise VectorReadError.mismatched_sizes(loc, line_num,
vec_len, prev_vec_len)
if 0 >= vec_len >= MAX_VEC_SIZE:
raise VectorReadError.bad_size(loc, vec_len)
chars = <char*>file_.alloc_read(tmp_mem, word_len, sizeof(char))
vec = <float*>file_.alloc_read(self.mem, vec_len, sizeof(float))
string_id = self.strings[chars[:word_len]]
while string_id >= vectors.size():
vectors.push_back(EMPTY_VEC)
assert vec != NULL
vectors[string_id] = vec
line_num += 1
cdef LexemeC* lex
cdef size_t lex_addr
cdef int i
for orth, lex_addr in self._by_orth.items():
lex = <LexemeC*>lex_addr
if lex.lower < vectors.size():
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lex.vector = vectors[lex.lower]
for i in range(vec_len):
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lex.l2_norm += (lex.vector[i] * lex.vector[i])
lex.l2_norm = math.sqrt(lex.l2_norm)
else:
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lex.vector = EMPTY_VEC
self.vectors_length = vec_len
return vec_len
def write_binary_vectors(in_loc, out_loc):
cdef CFile out_file = CFile(out_loc, 'wb')
cdef Address mem
cdef int32_t word_len
cdef int32_t vec_len
cdef char* chars
with bz2.BZ2File(in_loc, 'r') as file_:
for line in file_:
pieces = line.split()
word = pieces.pop(0)
mem = Address(len(pieces), sizeof(float))
vec = <float*>mem.ptr
for i, val_str in enumerate(pieces):
vec[i] = float(val_str)
word_len = len(word)
vec_len = len(pieces)
out_file.write_from(&word_len, 1, sizeof(word_len))
out_file.write_from(&vec_len, 1, sizeof(vec_len))
chars = <char*>word
out_file.write_from(chars, len(word), sizeof(char))
out_file.write_from(vec, vec_len, sizeof(float))
class LookupError(Exception):
@classmethod
def mismatched_strings(cls, id_, id_string, original_string):
return cls(
"Error fetching a Lexeme from the Vocab. When looking up a string, "
"the lexeme returned had an orth ID that did not match the query string. "
"This means that the cached lexeme structs are mismatched to the "
"string encoding table. The mismatched:\n"
"Query string: {query}\n"
"Orth cached: {orth_str}\n"
"ID of orth: {orth_id}".format(
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query=repr(original_string), orth_str=repr(id_string), orth_id=id_)
)
class VectorReadError(Exception):
@classmethod
def mismatched_sizes(cls, loc, line_num, prev_size, curr_size):
return cls(
"Error reading word vectors from %s on line %d.\n"
"All vectors must be the same size.\n"
"Prev size: %d\n"
"Curr size: %d" % (loc, line_num, prev_size, curr_size))
@classmethod
def bad_size(cls, loc, size):
return cls(
"Error reading word vectors from %s.\n"
"Vector size: %d\n"
"Max size: %d\n"
"Min size: 1\n" % (loc, size, MAX_VEC_SIZE))