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At least 20 epochs are required before the generated textstarts sounding coherent.
It is recommended to run this script on GPU, as recurrentnetworks are quite computationally intensive.
If you try this script on new data, make sure your corpushas at least ~100k characters. ~1M is better.
from __future__ import print_functionfrom keras.callbacks import LambdaCallbackfrom keras.models import Sequentialfrom keras.layers import Densefrom keras.layers import LSTMfrom keras.optimizers import RMSpropfrom keras.utils.data_utils import get_fileimport numpy as npimport randomimport sysimport iopath = get_file('nietzsche.txt',origin='https://s3.amazonaws.com/text-datasets/nietzsche.txt')with io.open(path, encoding='utf-8') as f:text = f.read().lower()print('corpus length:', len(text))chars = sorted(list(set(text)))print('total chars:', len(chars))char_indices = dict((c, i) for i, c in enumerate(chars))indices_char = dict((i, c) for i, c in enumerate(chars))# cut the text in semi-redundant sequences of maxlen charactersmaxlen = 40step = 3sentences = []next_chars = []for i in range(0, len(text) - maxlen, step):sentences.append(text[i: i + maxlen])next_chars.append(text[i + maxlen])print('nb sequences:', len(sentences))print('Vectorization...')x = np.zeros((len(sentences), maxlen, len(chars)), dtype=np.bool)y = np.zeros((len(sentences), len(chars)), dtype=np.bool)for i, sentence in enumerate(sentences):for t, char in enumerate(sentence):x[i, t, char_indices[char]] = 1y[i, char_indices[next_chars[i]]] = 1# build the model: a single LSTMprint('Build model...')model = Sequential()model.add(LSTM(128, input_shape=(maxlen, len(chars))))model.add(Dense(len(chars), activation='softmax'))optimizer = RMSprop(learning_rate=0.01)model.compile(loss='categorical_crossentropy', optimizer=optimizer)def sample(preds, temperature=1.0):# helper function to sample an index from a probability arraypreds = np.asarray(preds).astype('float64')preds = np.log(preds) / temperatureexp_preds = np.exp(preds)preds = exp_preds / np.sum(exp_preds)probas = np.random.multinomial(1, preds, 1)return np.argmax(probas)def on_epoch_end(epoch, _):# Function invoked at end of each epoch. Prints generated text.print()print('----- Generating text after Epoch: %d' % epoch)start_index = random.randint(0, len(text) - maxlen - 1)for diversity in [0.2, 0.5, 1.0, 1.2]:print('----- diversity:', diversity)generated = ''sentence = text[start_index: start_index + maxlen]generated += sentenceprint('----- Generating with seed: "' + sentence + '"')sys.stdout.write(generated)for i in range(400):x_pred = np.zeros((1, maxlen, len(chars)))for t, char in enumerate(sentence):x_pred[0, t, char_indices[char]] = 1.preds = model.predict(x_pred, verbose=0)[0]next_index = sample(preds, diversity)next_char = indices_char[next_index]sentence = sentence[1:] + next_charsys.stdout.write(next_char)sys.stdout.flush()print()print_callback = LambdaCallback(on_epoch_end=on_epoch_end)model.fit(x, y,batch_size=128,epochs=60,callbacks=[print_callback])
