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""" | |
Custom tokenizer model. | |
Author: https://www.github.com/gitmylo/ | |
License: MIT | |
""" | |
import json | |
import os.path | |
from zipfile import ZipFile | |
from typing import Union | |
import numpy | |
import torch | |
from torch import nn, optim | |
from torch.serialization import MAP_LOCATION | |
class CustomTokenizer(nn.Module): | |
def __init__(self, hidden_size=1024, input_size=768, output_size=10000, version=0): | |
super(CustomTokenizer, self).__init__() | |
next_size = input_size | |
if version == 0: | |
self.lstm = nn.LSTM(input_size, hidden_size, 2, batch_first=True) | |
next_size = hidden_size | |
if version == 1: | |
self.lstm = nn.LSTM(input_size, hidden_size, 2, batch_first=True) | |
self.intermediate = nn.Linear(hidden_size, 4096) | |
next_size = 4096 | |
self.fc = nn.Linear(next_size, output_size) | |
self.softmax = nn.LogSoftmax(dim=1) | |
self.optimizer: optim.Optimizer = None | |
self.lossfunc = nn.CrossEntropyLoss() | |
self.input_size = input_size | |
self.hidden_size = hidden_size | |
self.output_size = output_size | |
self.version = version | |
def forward(self, x): | |
x, _ = self.lstm(x) | |
if self.version == 1: | |
x = self.intermediate(x) | |
x = self.fc(x) | |
x = self.softmax(x) | |
return x | |
def get_token(self, x): | |
""" | |
Used to get the token for the first | |
:param x: An array with shape (N, input_size) where N is a whole number greater or equal to 1, and input_size is the input size used when creating the model. | |
:return: An array with shape (N,) where N is the same as N from the input. Every number in the array is a whole number in range 0...output_size - 1 where output_size is the output size used when creating the model. | |
""" | |
return torch.argmax(self(x), dim=1) | |
def prepare_training(self): | |
self.optimizer = optim.Adam(self.parameters(), 0.001) | |
def train_step(self, x_train, y_train, log_loss=False): | |
# y_train = y_train[:-1] | |
# y_train = y_train[1:] | |
optimizer = self.optimizer | |
lossfunc = self.lossfunc | |
# Zero the gradients | |
self.zero_grad() | |
# Forward pass | |
y_pred = self(x_train) | |
y_train_len = len(y_train) | |
y_pred_len = y_pred.shape[0] | |
if y_train_len > y_pred_len: | |
diff = y_train_len - y_pred_len | |
y_train = y_train[diff:] | |
elif y_train_len < y_pred_len: | |
diff = y_pred_len - y_train_len | |
y_pred = y_pred[:-diff, :] | |
y_train_hot = torch.zeros(len(y_train), self.output_size) | |
y_train_hot[range(len(y_train)), y_train] = 1 | |
y_train_hot = y_train_hot.to('cuda') | |
# Calculate the loss | |
loss = lossfunc(y_pred, y_train_hot) | |
# Print loss | |
if log_loss: | |
print('Loss', loss.item()) | |
# Backward pass | |
loss.backward() | |
# Update the weights | |
optimizer.step() | |
def save(self, path): | |
info_path = '.'.join(os.path.basename(path).split('.')[:-1]) + '/.info' | |
torch.save(self.state_dict(), path) | |
data_from_model = Data(self.input_size, self.hidden_size, self.output_size, self.version) | |
with ZipFile(path, 'a') as model_zip: | |
model_zip.writestr(info_path, data_from_model.save()) | |
model_zip.close() | |
def load_from_checkpoint(path, map_location: MAP_LOCATION = None): | |
old = True | |
with ZipFile(path) as model_zip: | |
filesMatch = [file for file in model_zip.namelist() if file.endswith('/.info')] | |
file = filesMatch[0] if filesMatch else None | |
if file: | |
old = False | |
data_from_model = Data.load(model_zip.read(file).decode('utf-8')) | |
model_zip.close() | |
if old: | |
model = CustomTokenizer() | |
else: | |
model = CustomTokenizer(data_from_model.hidden_size, data_from_model.input_size, data_from_model.output_size, data_from_model.version) | |
model.load_state_dict(torch.load(path, map_location=map_location)) | |
if map_location: | |
model = model.to(map_location) | |
return model | |
class Data: | |
input_size: int | |
hidden_size: int | |
output_size: int | |
version: int | |
def __init__(self, input_size=768, hidden_size=1024, output_size=10000, version=0): | |
self.input_size = input_size | |
self.hidden_size = hidden_size | |
self.output_size = output_size | |
self.version = version | |
def load(string): | |
data = json.loads(string) | |
return Data(data['input_size'], data['hidden_size'], data['output_size'], data['version']) | |
def save(self): | |
data = { | |
'input_size': self.input_size, | |
'hidden_size': self.hidden_size, | |
'output_size': self.output_size, | |
'version': self.version, | |
} | |
return json.dumps(data) | |
def auto_train(data_path, save_path='model.pth', lload_model: Union[str, None] = None, save_epochs=1): | |
data_x, data_y = {}, {} | |
if load_model and os.path.isfile(load_model): | |
print('Loading model from', load_model) | |
model_training = CustomTokenizer.load_from_checkpoint(load_model, 'cuda') | |
else: | |
print('Creating new model.') | |
model_training = CustomTokenizer(version=1).to('cuda') | |
save_path = os.path.join(data_path, save_path) | |
base_save_path = '.'.join(save_path.split('.')[:-1]) | |
sem_string = '_semantic.npy' | |
feat_string = '_semantic_features.npy' | |
ready = os.path.join(data_path, 'ready') | |
for input_file in os.listdir(ready): | |
full_path = os.path.join(ready, input_file) | |
try: | |
prefix = input_file.split("_")[0] | |
number = int(prefix) | |
except ValueError as e: | |
raise e | |
if input_file.endswith(sem_string): | |
data_y[number] = numpy.load(full_path) | |
elif input_file.endswith(feat_string): | |
data_x[number] = numpy.load(full_path) | |
model_training.prepare_training() | |
epoch = 1 | |
while 1: | |
for i in range(save_epochs): | |
j = 0 | |
for i in range(max(len(data_x), len(data_y))): | |
x = data_x.get(i) | |
y = data_y.get(i) | |
if x is None or y is None: | |
print(f'The training data does not match. key={i}') | |
continue | |
model_training.train_step(torch.tensor(x).to('cuda'), torch.tensor(y).to('cuda'), j % 50 == 0) # Print loss every 50 steps | |
j += 1 | |
save_p = save_path | |
save_p_2 = f'{base_save_path}_epoch_{epoch}.pth' | |
model_training.save(save_p) | |
model_training.save(save_p_2) | |
print(f'Epoch {epoch} completed') | |
epoch += 1 |