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Word2Vec-Skipgram(Softmax).py
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Word2Vec-Skipgram(Softmax).py
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# %%
# code by Tae Hwan Jung @graykode
import numpy as np
import torch
import torch.nn as nn
import torch.optim as optim
import matplotlib.pyplot as plt
def random_batch():
random_inputs = []
random_labels = []
random_index = np.random.choice(range(len(skip_grams)), batch_size, replace=False)
for i in random_index:
random_inputs.append(np.eye(voc_size)[skip_grams[i][0]]) # target
random_labels.append(skip_grams[i][1]) # context word
return random_inputs, random_labels
# Model
class Word2Vec(nn.Module):
def __init__(self):
super(Word2Vec, self).__init__()
# W and WT is not Traspose relationship
self.W = nn.Linear(voc_size, embedding_size, bias=False) # voc_size > embedding_size Weight
self.WT = nn.Linear(embedding_size, voc_size, bias=False) # embedding_size > voc_size Weight
def forward(self, X):
# X : [batch_size, voc_size]
hidden_layer = self.W(X) # hidden_layer : [batch_size, embedding_size]
output_layer = self.WT(hidden_layer) # output_layer : [batch_size, voc_size]
return output_layer
if __name__ == '__main__':
batch_size = 2 # mini-batch size
embedding_size = 2 # embedding size
sentences = ["apple banana fruit", "banana orange fruit", "orange banana fruit",
"dog cat animal", "cat monkey animal", "monkey dog animal"]
word_sequence = " ".join(sentences).split()
word_list = " ".join(sentences).split()
word_list = list(set(word_list))
word_dict = {w: i for i, w in enumerate(word_list)}
voc_size = len(word_list)
# Make skip gram of one size window
skip_grams = []
for i in range(1, len(word_sequence) - 1):
target = word_dict[word_sequence[i]]
context = [word_dict[word_sequence[i - 1]], word_dict[word_sequence[i + 1]]]
for w in context:
skip_grams.append([target, w])
model = Word2Vec()
criterion = nn.CrossEntropyLoss()
optimizer = optim.Adam(model.parameters(), lr=0.001)
# Training
for epoch in range(5000):
input_batch, target_batch = random_batch()
input_batch = torch.Tensor(input_batch)
target_batch = torch.LongTensor(target_batch)
optimizer.zero_grad()
output = model(input_batch)
# output : [batch_size, voc_size], target_batch : [batch_size] (LongTensor, not one-hot)
loss = criterion(output, target_batch)
if (epoch + 1) % 1000 == 0:
print('Epoch:', '%04d' % (epoch + 1), 'cost =', '{:.6f}'.format(loss))
loss.backward()
optimizer.step()
for i, label in enumerate(word_list):
W, WT = model.parameters()
x, y = W[0][i].item(), W[1][i].item()
plt.scatter(x, y)
plt.annotate(label, xy=(x, y), xytext=(5, 2), textcoords='offset points', ha='right', va='bottom')
plt.show()