spaCy/examples/pipeline/wiki_entity_linking/train_descriptions.py

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# coding: utf-8
from random import shuffle
from examples.pipeline.wiki_entity_linking import kb_creator
import numpy as np
from spacy._ml import zero_init, create_default_optimizer
from spacy.cli.pretrain import get_cossim_loss
from thinc.v2v import Model
from thinc.api import chain
from thinc.neural._classes.affine import Affine
class EntityEncoder:
DROP = 0
EPOCHS = 5
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STOP_THRESHOLD = 0.1
BATCH_SIZE = 1000
def __init__(self, nlp, input_dim, desc_width):
self.nlp = nlp
self.input_dim = input_dim
self.desc_width = desc_width
def apply_encoder(self, description_list):
if self.encoder is None:
raise ValueError("Can not apply encoder before training it")
print("Encoding", len(description_list), "entities")
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batch_size = 100000
start = 0
stop = min(batch_size, len(description_list))
encodings = []
while start < len(description_list):
docs = list(self.nlp.pipe(description_list[start:stop]))
doc_embeddings = [self._get_doc_embedding(doc) for doc in docs]
enc = self.encoder(np.asarray(doc_embeddings))
encodings.extend(enc.tolist())
start = start + batch_size
stop = min(stop + batch_size, len(description_list))
print("encoded :", len(encodings))
return encodings
def train(self, description_list, to_print=False):
processed, loss = self._train_model(description_list)
if to_print:
print("Trained on", processed, "entities across", self.EPOCHS, "epochs")
print("Final loss:", loss)
# self._test_encoder()
def _train_model(self, description_list):
# TODO: when loss gets too low, a 'mean of empty slice' warning is thrown by numpy
self._build_network(self.input_dim, self.desc_width)
processed = 0
loss = 1
descriptions = description_list.copy() # copy this list so that shuffling does not affect other functions
for i in range(self.EPOCHS):
shuffle(descriptions)
batch_nr = 0
start = 0
stop = min(self.BATCH_SIZE, len(descriptions))
while loss > self.STOP_THRESHOLD and start < len(descriptions):
batch = []
for descr in descriptions[start:stop]:
doc = self.nlp(descr)
doc_vector = self._get_doc_embedding(doc)
batch.append(doc_vector)
loss = self._update(batch)
print(i, batch_nr, loss)
processed += len(batch)
batch_nr += 1
start = start + self.BATCH_SIZE
stop = min(stop + self.BATCH_SIZE, len(descriptions))
return processed, loss
@staticmethod
def _get_doc_embedding(doc):
indices = np.zeros((len(doc),), dtype="i")
for i, word in enumerate(doc):
if word.orth in doc.vocab.vectors.key2row:
indices[i] = doc.vocab.vectors.key2row[word.orth]
else:
indices[i] = 0
word_vectors = doc.vocab.vectors.data[indices]
doc_vector = np.mean(word_vectors, axis=0) # TODO: min? max?
return doc_vector
def _build_network(self, orig_width, hidden_with):
with Model.define_operators({">>": chain}):
self.encoder = (
Affine(hidden_with, orig_width)
)
self.model = self.encoder >> zero_init(Affine(orig_width, hidden_with, drop_factor=0.0))
self.sgd = create_default_optimizer(self.model.ops)
def _update(self, vectors):
predictions, bp_model = self.model.begin_update(np.asarray(vectors), drop=self.DROP)
loss, d_scores = self._get_loss(scores=predictions, golds=np.asarray(vectors))
bp_model(d_scores, sgd=self.sgd)
return loss / len(vectors)
@staticmethod
def _get_loss(golds, scores):
loss, gradients = get_cossim_loss(scores, golds)
return loss, gradients
def _test_encoder(self):
""" Test encoder on some dummy examples """
desc_A1 = "Fictional character in The Simpsons"
desc_A2 = "Simpsons - fictional human"
desc_A3 = "Fictional character in The Flintstones"
desc_A4 = "Politician from the US"
A1_doc_vector = np.asarray([self._get_doc_embedding(self.nlp(desc_A1))])
A2_doc_vector = np.asarray([self._get_doc_embedding(self.nlp(desc_A2))])
A3_doc_vector = np.asarray([self._get_doc_embedding(self.nlp(desc_A3))])
A4_doc_vector = np.asarray([self._get_doc_embedding(self.nlp(desc_A4))])
loss_a1_a1, _ = get_cossim_loss(A1_doc_vector, A1_doc_vector)
loss_a1_a2, _ = get_cossim_loss(A1_doc_vector, A2_doc_vector)
loss_a1_a3, _ = get_cossim_loss(A1_doc_vector, A3_doc_vector)
loss_a1_a4, _ = get_cossim_loss(A1_doc_vector, A4_doc_vector)
print("sim doc A1 A1", loss_a1_a1)
print("sim doc A1 A2", loss_a1_a2)
print("sim doc A1 A3", loss_a1_a3)
print("sim doc A1 A4", loss_a1_a4)
A1_encoded = self.encoder(A1_doc_vector)
A2_encoded = self.encoder(A2_doc_vector)
A3_encoded = self.encoder(A3_doc_vector)
A4_encoded = self.encoder(A4_doc_vector)
loss_a1_a1, _ = get_cossim_loss(A1_encoded, A1_encoded)
loss_a1_a2, _ = get_cossim_loss(A1_encoded, A2_encoded)
loss_a1_a3, _ = get_cossim_loss(A1_encoded, A3_encoded)
loss_a1_a4, _ = get_cossim_loss(A1_encoded, A4_encoded)
print("sim encoded A1 A1", loss_a1_a1)
print("sim encoded A1 A2", loss_a1_a2)
print("sim encoded A1 A3", loss_a1_a3)
print("sim encoded A1 A4", loss_a1_a4)