IIS_2023_1/arzamaskina_milana_lab_7/main.py

import numpy as np
from keras.layers import LSTM, Dense
from keras.models import Sequential
from keras.preprocessing.sequence import pad_sequences
from keras.preprocessing.text import Tokenizer

# Чтение текста из файла
# with open('russian.txt', 'r', encoding='utf-8') as file:
#     text = file.read()
with open('english.txt', 'r', encoding='utf-8') as file:
    text = file.read()

# Обучение Tokenizer на тексте
tokenizer = Tokenizer(char_level=True)
tokenizer.fit_on_texts([text])
sequences = tokenizer.texts_to_sequences([text])[0]

# Создание x, y последовательностей
X_data, y_data = [], []
seq_length = 10
for i in range(seq_length, len(sequences)):
    sequence = sequences[i - seq_length:i]
    target = sequences[i]
    X_data.append(sequence)
    y_data.append(target)

# Преобразование в массивы
X_mass = pad_sequences(X_data, maxlen=seq_length)
y_mass = np.array(y_data)

# Создание модели
vocab_size = len(tokenizer.word_index) + 1
model = Sequential()
model.add(LSTM(256, input_shape=(seq_length, 1), return_sequences=True))
model.add(LSTM(128, input_shape=(seq_length, 1)))
model.add(Dense(vocab_size, activation='softmax'))

# Компиляция
model.compile(loss='sparse_categorical_crossentropy', optimizer='adam', metrics=['accuracy'])

# Обучение
model.fit(X_mass, y_mass, epochs=100, verbose=1)

# Функция генерации
def generate_text(_text, gen_length):
    generated_text = _text
    for _ in range(gen_length):
        seq = tokenizer.texts_to_sequences([_text])[0]
        seq = pad_sequences([seq], maxlen=seq_length)
        prediction = model.predict(seq)[0]
        predicted_index = np.argmax(prediction)
        predicted_char = tokenizer.index_word[predicted_index]
        generated_text += predicted_char
        _text += predicted_char
        _text = _text[1:]
    return generated_text

# Генерация текста
# _text = "Она сверкала"
_text = "It sparkled and smoked"
generate_text = generate_text(_text, 250)
print(generate_text)
arzamaskina_milana_lab_7 is ready 2023-12-18 00:28:59 +04:00			`import numpy as np`
			`from keras.layers import LSTM, Dense`
			`from keras.models import Sequential`
			`from keras.preprocessing.sequence import pad_sequences`
			`from keras.preprocessing.text import Tokenizer`

			`# Чтение текста из файла`
			`# with open('russian.txt', 'r', encoding='utf-8') as file:`
			`# text = file.read()`
			`with open('english.txt', 'r', encoding='utf-8') as file:`
			`text = file.read()`

			`# Обучение Tokenizer на тексте`
			`tokenizer = Tokenizer(char_level=True)`
			`tokenizer.fit_on_texts([text])`
			`sequences = tokenizer.texts_to_sequences([text])[0]`

			`# Создание x, y последовательностей`
			`X_data, y_data = [], []`
			`seq_length = 10`
			`for i in range(seq_length, len(sequences)):`
			`sequence = sequences[i - seq_length:i]`
			`target = sequences[i]`
			`X_data.append(sequence)`
			`y_data.append(target)`

			`# Преобразование в массивы`
			`X_mass = pad_sequences(X_data, maxlen=seq_length)`
			`y_mass = np.array(y_data)`

			`# Создание модели`
			`vocab_size = len(tokenizer.word_index) + 1`
			`model = Sequential()`
			`model.add(LSTM(256, input_shape=(seq_length, 1), return_sequences=True))`
			`model.add(LSTM(128, input_shape=(seq_length, 1)))`
			`model.add(Dense(vocab_size, activation='softmax'))`

			`# Компиляция`
			`model.compile(loss='sparse_categorical_crossentropy', optimizer='adam', metrics=['accuracy'])`

			`# Обучение`
			`model.fit(X_mass, y_mass, epochs=100, verbose=1)`

			`# Функция генерации`
			`def generate_text(_text, gen_length):`
			`generated_text = _text`
			`for _ in range(gen_length):`
			`seq = tokenizer.texts_to_sequences([_text])[0]`
			`seq = pad_sequences([seq], maxlen=seq_length)`
			`prediction = model.predict(seq)[0]`
			`predicted_index = np.argmax(prediction)`
			`predicted_char = tokenizer.index_word[predicted_index]`
			`generated_text += predicted_char`
			`_text += predicted_char`
			`_text = _text[1:]`
			`return generated_text`

			`# Генерация текста`
			`# _text = "Она сверкала"`
			`_text = "It sparkled and smoked"`
			`generate_text = generate_text(_text, 250)`
			`print(generate_text)`