TensorFlow powraca na Google I/O 14 maja! Zarejestruj się teraz

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Generuj muzykę za pomocą RNN

Zobacz na TensorFlow.org

Uruchom w Google Colab

Wyświetl źródło na GitHub

Pobierz notatnik

Ten samouczek pokazuje, jak generować nuty za pomocą prostego RNN. Będziesz trenować model, używając kolekcji plików MIDI z pianinem z zestawu danych MAESTRO . Biorąc pod uwagę sekwencję nut, Twój model nauczy się przewidywać następną nutę w sekwencji. Możesz generować dłuższe sekwencje notatek, wielokrotnie wywołując model.

Ten samouczek zawiera kompletny kod do analizowania i tworzenia plików MIDI. Możesz dowiedzieć się więcej o działaniu RNN, odwiedzając Generowanie tekstu za pomocą RNN .

Ustawiać

Ten samouczek wykorzystuje bibliotekę pretty_midi do tworzenia i analizowania plików MIDI oraz pyfluidsynth do generowania odtwarzania dźwięku w Colab.

sudo apt install -y fluidsynth

The following packages were automatically installed and are no longer required:
  linux-gcp-5.4-headers-5.4.0-1040 linux-gcp-5.4-headers-5.4.0-1043
  linux-gcp-5.4-headers-5.4.0-1044 linux-gcp-5.4-headers-5.4.0-1049
  linux-headers-5.4.0-1049-gcp linux-image-5.4.0-1049-gcp
  linux-modules-5.4.0-1049-gcp linux-modules-extra-5.4.0-1049-gcp
Use 'sudo apt autoremove' to remove them.
The following additional packages will be installed:
  fluid-soundfont-gm libasyncns0 libdouble-conversion1 libevdev2 libflac8
  libfluidsynth1 libgudev-1.0-0 libinput-bin libinput10 libjack-jackd2-0
  libmtdev1 libogg0 libpulse0 libqt5core5a libqt5dbus5 libqt5gui5
  libqt5network5 libqt5svg5 libqt5widgets5 libqt5x11extras5 libsamplerate0
  libsndfile1 libvorbis0a libvorbisenc2 libwacom-bin libwacom-common libwacom2
  libxcb-icccm4 libxcb-image0 libxcb-keysyms1 libxcb-randr0
  libxcb-render-util0 libxcb-shape0 libxcb-util1 libxcb-xinerama0 libxcb-xkb1
  libxkbcommon-x11-0 qsynth qt5-gtk-platformtheme qttranslations5-l10n
Suggested packages:
  fluid-soundfont-gs timidity jackd2 pulseaudio qt5-image-formats-plugins
  qtwayland5 jackd
The following NEW packages will be installed:
  fluid-soundfont-gm fluidsynth libasyncns0 libdouble-conversion1 libevdev2
  libflac8 libfluidsynth1 libgudev-1.0-0 libinput-bin libinput10
  libjack-jackd2-0 libmtdev1 libogg0 libpulse0 libqt5core5a libqt5dbus5
  libqt5gui5 libqt5network5 libqt5svg5 libqt5widgets5 libqt5x11extras5
  libsamplerate0 libsndfile1 libvorbis0a libvorbisenc2 libwacom-bin
  libwacom-common libwacom2 libxcb-icccm4 libxcb-image0 libxcb-keysyms1
  libxcb-randr0 libxcb-render-util0 libxcb-shape0 libxcb-util1
  libxcb-xinerama0 libxcb-xkb1 libxkbcommon-x11-0 qsynth qt5-gtk-platformtheme
  qttranslations5-l10n
0 upgraded, 41 newly installed, 0 to remove and 120 not upgraded.
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Get:35 http://asia-east1.gce.archive.ubuntu.com/ubuntu bionic/universe amd64 libfluidsynth1 amd64 1.1.9-1 [137 kB]
Get:36 http://asia-east1.gce.archive.ubuntu.com/ubuntu bionic/universe amd64 fluidsynth amd64 1.1.9-1 [20.7 kB]
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7[0;24r8[1A[J

pip install --upgrade pyfluidsynth

pip install pretty_midi

import collections
import datetime
import fluidsynth
import glob
import numpy as np
import pathlib
import pandas as pd
import pretty_midi
import seaborn as sns
import tensorflow as tf

from IPython import display
from matplotlib import pyplot as plt
from typing import Dict, List, Optional, Sequence, Tuple

seed = 42
tf.random.set_seed(seed)
np.random.seed(seed)

# Sampling rate for audio playback
_SAMPLING_RATE = 16000

Pobierz zestaw danych Maestro

data_dir = pathlib.Path('data/maestro-v2.0.0')
if not data_dir.exists():
  tf.keras.utils.get_file(
      'maestro-v2.0.0-midi.zip',
      origin='https://storage.googleapis.com/magentadata/datasets/maestro/v2.0.0/maestro-v2.0.0-midi.zip',
      extract=True,
      cache_dir='.', cache_subdir='data',
  )

Downloading data from https://storage.googleapis.com/magentadata/datasets/maestro/v2.0.0/maestro-v2.0.0-midi.zip
59244544/59243107 [==============================] - 3s 0us/step
59252736/59243107 [==============================] - 3s 0us/step

Zbiór danych zawiera około 1200 plików MIDI.

filenames = glob.glob(str(data_dir/'**/*.mid*'))
print('Number of files:', len(filenames))

Number of files: 1282

Przetwarzaj plik MIDI

Najpierw użyj pretty_midi , aby przeanalizować pojedynczy plik MIDI i sprawdzić format nut. Jeśli chcesz pobrać poniższy plik MIDI do odtwarzania na komputerze, możesz to zrobić w colab, pisząc files.download(sample_file) .

sample_file = filenames[1]
print(sample_file)

data/maestro-v2.0.0/2013/ORIG-MIDI_02_7_6_13_Group__MID--AUDIO_08_R1_2013_wav--3.midi

Wygeneruj obiekt PrettyMIDI dla przykładowego pliku MIDI.

pm = pretty_midi.PrettyMIDI(sample_file)

Odtwórz przykładowy plik. Załadowanie widżetu odtwarzania może potrwać kilka sekund.

def display_audio(pm: pretty_midi.PrettyMIDI, seconds=30):
  waveform = pm.fluidsynth(fs=_SAMPLING_RATE)
  # Take a sample of the generated waveform to mitigate kernel resets
  waveform_short = waveform[:seconds*_SAMPLING_RATE]
  return display.Audio(waveform_short, rate=_SAMPLING_RATE)

display_audio(pm)

Zrób trochę inspekcji pliku MIDI. Jakie instrumenty są używane?

print('Number of instruments:', len(pm.instruments))
instrument = pm.instruments[0]
instrument_name = pretty_midi.program_to_instrument_name(instrument.program)
print('Instrument name:', instrument_name)

Number of instruments: 1
Instrument name: Acoustic Grand Piano

Wyodrębnij notatki

for i, note in enumerate(instrument.notes[:10]):
  note_name = pretty_midi.note_number_to_name(note.pitch)
  duration = note.end - note.start
  print(f'{i}: pitch={note.pitch}, note_name={note_name},'
        f' duration={duration:.4f}')

0: pitch=56, note_name=G#3, duration=0.0352
1: pitch=44, note_name=G#2, duration=0.0417
2: pitch=68, note_name=G#4, duration=0.0651
3: pitch=80, note_name=G#5, duration=0.1693
4: pitch=78, note_name=F#5, duration=0.1523
5: pitch=76, note_name=E5, duration=0.1120
6: pitch=75, note_name=D#5, duration=0.0612
7: pitch=49, note_name=C#3, duration=0.0378
8: pitch=85, note_name=C#6, duration=0.0352
9: pitch=37, note_name=C#2, duration=0.0417

Podczas trenowania modelu użyjesz trzech zmiennych do reprezentowania notatki: pitch , step i duration . Wysokość to percepcyjna jakość dźwięku jako numer nuty MIDI. step to czas, jaki upłynął od poprzedniej nuty lub początku ścieżki. Czas duration to jak długo nuta będzie grana w sekundach i jest różnicą między czasem zakończenia nuty a czasem rozpoczęcia nuty.

Wyodrębnij nuty z przykładowego pliku MIDI.

def midi_to_notes(midi_file: str) -> pd.DataFrame:
  pm = pretty_midi.PrettyMIDI(midi_file)
  instrument = pm.instruments[0]
  notes = collections.defaultdict(list)

  # Sort the notes by start time
  sorted_notes = sorted(instrument.notes, key=lambda note: note.start)
  prev_start = sorted_notes[0].start

  for note in sorted_notes:
    start = note.start
    end = note.end
    notes['pitch'].append(note.pitch)
    notes['start'].append(start)
    notes['end'].append(end)
    notes['step'].append(start - prev_start)
    notes['duration'].append(end - start)
    prev_start = start

  return pd.DataFrame({name: np.array(value) for name, value in notes.items()})

raw_notes = midi_to_notes(sample_file)
raw_notes.head()

Interpretacja nazw nut może być łatwiejsza niż ich wysokości, więc możesz użyć poniższej funkcji, aby przekonwertować wartości numeryczne na nazwy nut. Nazwa nuty pokazuje rodzaj nuty, znak chromatyczny i numer oktawy (np. C#4).

get_note_names = np.vectorize(pretty_midi.note_number_to_name)
sample_note_names = get_note_names(raw_notes['pitch'])
sample_note_names[:10]

array(['G#3', 'G#5', 'G#4', 'G#2', 'F#5', 'E5', 'D#5', 'C#3', 'C#6',
       'C#5'], dtype='<U3')

Aby zwizualizować utwór muzyczny, wykreśl wysokość nuty, początek i koniec na całej długości ścieżki (tj. piano roll). Zacznij od pierwszych 100 nut

def plot_piano_roll(notes: pd.DataFrame, count: Optional[int] = None):
  if count:
    title = f'First {count} notes'
  else:
    title = f'Whole track'
    count = len(notes['pitch'])
  plt.figure(figsize=(20, 4))
  plot_pitch = np.stack([notes['pitch'], notes['pitch']], axis=0)
  plot_start_stop = np.stack([notes['start'], notes['end']], axis=0)
  plt.plot(
      plot_start_stop[:, :count], plot_pitch[:, :count], color="b", marker=".")
  plt.xlabel('Time [s]')
  plt.ylabel('Pitch')
  _ = plt.title(title)

plot_piano_roll(raw_notes, count=100)

png

Wykreśl notatki dla całej ścieżki.

plot_piano_roll(raw_notes)

png

Sprawdź rozkład każdej zmiennej nuty.

def plot_distributions(notes: pd.DataFrame, drop_percentile=2.5):
  plt.figure(figsize=[15, 5])
  plt.subplot(1, 3, 1)
  sns.histplot(notes, x="pitch", bins=20)

  plt.subplot(1, 3, 2)
  max_step = np.percentile(notes['step'], 100 - drop_percentile)
  sns.histplot(notes, x="step", bins=np.linspace(0, max_step, 21))

  plt.subplot(1, 3, 3)
  max_duration = np.percentile(notes['duration'], 100 - drop_percentile)
  sns.histplot(notes, x="duration", bins=np.linspace(0, max_duration, 21))

plot_distributions(raw_notes)

png

Utwórz plik MIDI

Możesz wygenerować własny plik MIDI z listy nut, korzystając z poniższej funkcji.

def notes_to_midi(
  notes: pd.DataFrame,
  out_file: str, 
  instrument_name: str,
  velocity: int = 100,  # note loudness
) -> pretty_midi.PrettyMIDI:

  pm = pretty_midi.PrettyMIDI()
  instrument = pretty_midi.Instrument(
      program=pretty_midi.instrument_name_to_program(
          instrument_name))

  prev_start = 0
  for i, note in notes.iterrows():
    start = float(prev_start + note['step'])
    end = float(start + note['duration'])
    note = pretty_midi.Note(
        velocity=velocity,
        pitch=int(note['pitch']),
        start=start,
        end=end,
    )
    instrument.notes.append(note)
    prev_start = start

  pm.instruments.append(instrument)
  pm.write(out_file)
  return pm

example_file = 'example.midi'
example_pm = notes_to_midi(
    raw_notes, out_file=example_file, instrument_name=instrument_name)

Odtwórz wygenerowany plik MIDI i sprawdź, czy jest jakaś różnica.

display_audio(example_pm)

Tak jak poprzednio, możesz napisać files.download(example_file) , aby pobrać i odtworzyć ten plik.

Utwórz treningowy zbiór danych

Utwórz treningowy zestaw danych, wyodrębniając notatki z plików MIDI. Możesz zacząć od użycia niewielkiej liczby plików, a później poeksperymentować z większą liczbą. Może to potrwać kilka minut.

num_files = 5
all_notes = []
for f in filenames[:num_files]:
  notes = midi_to_notes(f)
  all_notes.append(notes)

all_notes = pd.concat(all_notes)

n_notes = len(all_notes)
print('Number of notes parsed:', n_notes)

Number of notes parsed: 23163

Następnie utwórz zestaw tf.data.Dataset z przeanalizowanych notatek.

key_order = ['pitch', 'step', 'duration']
train_notes = np.stack([all_notes[key] for key in key_order], axis=1)

notes_ds = tf.data.Dataset.from_tensor_slices(train_notes)
notes_ds.element_spec

TensorSpec(shape=(3,), dtype=tf.float64, name=None)

Nauczysz model na partiach sekwencji notatek. Każdy przykład będzie składał się z sekwencji nut jako funkcji wejściowych, a następna nuta jako etykieta. W ten sposób model zostanie wytrenowany do przewidywania następnej nuty w sekwencji. Możesz znaleźć diagram wyjaśniający ten proces (i więcej szczegółów) w klasyfikacji tekstu z RNN .

Możesz użyć przydatnej funkcji okna o rozmiarze seq_length , aby utworzyć cechy i etykiety w tym formacie.

def create_sequences(
    dataset: tf.data.Dataset, 
    seq_length: int,
    vocab_size = 128,
) -> tf.data.Dataset:
  """Returns TF Dataset of sequence and label examples."""
  seq_length = seq_length+1

  # Take 1 extra for the labels
  windows = dataset.window(seq_length, shift=1, stride=1,
                              drop_remainder=True)

  # `flat_map` flattens the" dataset of datasets" into a dataset of tensors
  flatten = lambda x: x.batch(seq_length, drop_remainder=True)
  sequences = windows.flat_map(flatten)

  # Normalize note pitch
  def scale_pitch(x):
    x = x/[vocab_size,1.0,1.0]
    return x

  # Split the labels
  def split_labels(sequences):
    inputs = sequences[:-1]
    labels_dense = sequences[-1]
    labels = {key:labels_dense[i] for i,key in enumerate(key_order)}

    return scale_pitch(inputs), labels

  return sequences.map(split_labels, num_parallel_calls=tf.data.AUTOTUNE)

Ustaw długość sekwencji dla każdego przykładu. Poeksperymentuj z różnymi długościami (np. 50, 100, 150), aby zobaczyć, który z nich najlepiej pasuje do danych, lub użyj dostrajania hiperparametrów . Rozmiar słownika ( vocab_size ) jest ustawiony na 128, co oznacza wszystkie tony obsługiwane przez pretty_midi .

seq_length = 25
vocab_size = 128
seq_ds = create_sequences(notes_ds, seq_length, vocab_size)
seq_ds.element_spec

(TensorSpec(shape=(25, 3), dtype=tf.float64, name=None),
 {'pitch': TensorSpec(shape=(), dtype=tf.float64, name=None),
  'step': TensorSpec(shape=(), dtype=tf.float64, name=None),
  'duration': TensorSpec(shape=(), dtype=tf.float64, name=None)})

Kształt zbioru danych to (100,1) , co oznacza, że model weźmie 100 notatek jako dane wejściowe i nauczy się przewidywać następną notatkę jako dane wyjściowe.

for seq, target in seq_ds.take(1):
  print('sequence shape:', seq.shape)
  print('sequence elements (first 10):', seq[0: 10])
  print()
  print('target:', target)

sequence shape: (25, 3)
sequence elements (first 10): tf.Tensor(
[[0.578125   0.         0.1484375 ]
 [0.390625   0.00130208 0.0390625 ]
 [0.3828125  0.03255208 0.07421875]
 [0.390625   0.08203125 0.14713542]
 [0.5625     0.14973958 0.07421875]
 [0.546875   0.09375    0.07421875]
 [0.5390625  0.12239583 0.04947917]
 [0.296875   0.01692708 0.31119792]
 [0.5234375  0.09895833 0.04036458]
 [0.5078125  0.12369792 0.06380208]], shape=(10, 3), dtype=float64)

target: {'pitch': <tf.Tensor: shape=(), dtype=float64, numpy=67.0>, 'step': <tf.Tensor: shape=(), dtype=float64, numpy=0.1171875>, 'duration': <tf.Tensor: shape=(), dtype=float64, numpy=0.04947916666666652>}

Zgrupuj przykłady i skonfiguruj zestaw danych pod kątem wydajności.

batch_size = 64
buffer_size = n_notes - seq_length  # the number of items in the dataset
train_ds = (seq_ds
            .shuffle(buffer_size)
            .batch(batch_size, drop_remainder=True)
            .cache()
            .prefetch(tf.data.experimental.AUTOTUNE))

train_ds.element_spec

(TensorSpec(shape=(64, 25, 3), dtype=tf.float64, name=None),
 {'pitch': TensorSpec(shape=(64,), dtype=tf.float64, name=None),
  'step': TensorSpec(shape=(64,), dtype=tf.float64, name=None),
  'duration': TensorSpec(shape=(64,), dtype=tf.float64, name=None)})

Twórz i trenuj model

Model będzie miał trzy wyjścia, po jednym dla każdej zmiennej nuty. W przypadku pitch i duration użyjesz niestandardowej funkcji straty opartej na błędzie średniokwadratowym, która zachęca model do generowania wartości nieujemnych.

def mse_with_positive_pressure(y_true: tf.Tensor, y_pred: tf.Tensor):
  mse = (y_true - y_pred) ** 2
  positive_pressure = 10 * tf.maximum(-y_pred, 0.0)
  return tf.reduce_mean(mse + positive_pressure)

input_shape = (seq_length, 3)
learning_rate = 0.005

inputs = tf.keras.Input(input_shape)
x = tf.keras.layers.LSTM(128)(inputs)

outputs = {
  'pitch': tf.keras.layers.Dense(128, name='pitch')(x),
  'step': tf.keras.layers.Dense(1, name='step')(x),
  'duration': tf.keras.layers.Dense(1, name='duration')(x),
}

model = tf.keras.Model(inputs, outputs)

loss = {
      'pitch': tf.keras.losses.SparseCategoricalCrossentropy(
          from_logits=True),
      'step': mse_with_positive_pressure,
      'duration': mse_with_positive_pressure,
}

optimizer = tf.keras.optimizers.Adam(learning_rate=learning_rate)

model.compile(loss=loss, optimizer=optimizer)

model.summary()

Model: "model"
__________________________________________________________________________________________________
 Layer (type)                   Output Shape         Param #     Connected to                     
==================================================================================================
 input_1 (InputLayer)           [(None, 25, 3)]      0           []                               
                                                                                                  
 lstm (LSTM)                    (None, 128)          67584       ['input_1[0][0]']                
                                                                                                  
 duration (Dense)               (None, 1)            129         ['lstm[0][0]']                   
                                                                                                  
 pitch (Dense)                  (None, 128)          16512       ['lstm[0][0]']                   
                                                                                                  
 step (Dense)                   (None, 1)            129         ['lstm[0][0]']                   
                                                                                                  
==================================================================================================
Total params: 84,354
Trainable params: 84,354
Non-trainable params: 0
__________________________________________________________________________________________________

Testując funkcję model.evaluate , można zauważyć, że utrata pitch jest znacznie większa niż utrata step i duration . Zauważ, że loss jest całkowitą stratą obliczoną przez zsumowanie wszystkich innych strat i obecnie jest zdominowana przez stratę pitch .

losses = model.evaluate(train_ds, return_dict=True)
losses

361/361 [==============================] - 6s 4ms/step - loss: 5.0011 - duration_loss: 0.1213 - pitch_loss: 4.8476 - step_loss: 0.0322
{'loss': 5.001128196716309,
 'duration_loss': 0.12134315073490143,
 'pitch_loss': 4.847629547119141,
 'step_loss': 0.03215572610497475}

Jednym ze sposobów zrównoważenia tego jest użycie argumentu loss_weights do kompilacji:

model.compile(
    loss=loss,
    loss_weights={
        'pitch': 0.05,
        'step': 1.0,
        'duration':1.0,
    },
    optimizer=optimizer,
)

loss staje się wówczas sumą ważoną poszczególnych strat.

model.evaluate(train_ds, return_dict=True)

361/361 [==============================] - 2s 4ms/step - loss: 0.3959 - duration_loss: 0.1213 - pitch_loss: 4.8476 - step_loss: 0.0322
{'loss': 0.39588069915771484,
 'duration_loss': 0.12134315073490143,
 'pitch_loss': 4.847629547119141,
 'step_loss': 0.03215572610497475}

Trenuj modelkę.

callbacks = [
    tf.keras.callbacks.ModelCheckpoint(
        filepath='./training_checkpoints/ckpt_{epoch}',
        save_weights_only=True),
    tf.keras.callbacks.EarlyStopping(
        monitor='loss',
        patience=5,
        verbose=1,
        restore_best_weights=True),
]

%%time
epochs = 50

history = model.fit(
    train_ds,
    epochs=epochs,
    callbacks=callbacks,
)

Epoch 1/50
361/361 [==============================] - 4s 5ms/step - loss: 0.3075 - duration_loss: 0.0732 - pitch_loss: 4.0974 - step_loss: 0.0294
Epoch 2/50
361/361 [==============================] - 2s 5ms/step - loss: 0.2950 - duration_loss: 0.0696 - pitch_loss: 3.9526 - step_loss: 0.0278
Epoch 3/50
361/361 [==============================] - 2s 5ms/step - loss: 0.2927 - duration_loss: 0.0682 - pitch_loss: 3.9372 - step_loss: 0.0276
Epoch 4/50
361/361 [==============================] - 2s 5ms/step - loss: 0.2918 - duration_loss: 0.0681 - pitch_loss: 3.9232 - step_loss: 0.0275
Epoch 5/50
361/361 [==============================] - 2s 5ms/step - loss: 0.2874 - duration_loss: 0.0657 - pitch_loss: 3.9079 - step_loss: 0.0264
Epoch 6/50
361/361 [==============================] - 2s 5ms/step - loss: 0.2842 - duration_loss: 0.0653 - pitch_loss: 3.8509 - step_loss: 0.0263
Epoch 7/50
361/361 [==============================] - 2s 5ms/step - loss: 0.2820 - duration_loss: 0.0650 - pitch_loss: 3.8090 - step_loss: 0.0265
Epoch 8/50
361/361 [==============================] - 2s 5ms/step - loss: 0.2806 - duration_loss: 0.0654 - pitch_loss: 3.7903 - step_loss: 0.0257
Epoch 9/50
361/361 [==============================] - 2s 6ms/step - loss: 0.2806 - duration_loss: 0.0651 - pitch_loss: 3.7888 - step_loss: 0.0261
Epoch 10/50
361/361 [==============================] - 2s 5ms/step - loss: 0.2778 - duration_loss: 0.0637 - pitch_loss: 3.7690 - step_loss: 0.0256
Epoch 11/50
361/361 [==============================] - 2s 5ms/step - loss: 0.2762 - duration_loss: 0.0624 - pitch_loss: 3.7704 - step_loss: 0.0253
Epoch 12/50
361/361 [==============================] - 2s 6ms/step - loss: 0.2746 - duration_loss: 0.0616 - pitch_loss: 3.7644 - step_loss: 0.0248
Epoch 13/50
361/361 [==============================] - 2s 6ms/step - loss: 0.2728 - duration_loss: 0.0604 - pitch_loss: 3.7591 - step_loss: 0.0244
Epoch 14/50
361/361 [==============================] - 2s 5ms/step - loss: 0.2710 - duration_loss: 0.0584 - pitch_loss: 3.7573 - step_loss: 0.0247
Epoch 15/50
361/361 [==============================] - 2s 6ms/step - loss: 0.2694 - duration_loss: 0.0574 - pitch_loss: 3.7610 - step_loss: 0.0239
Epoch 16/50
361/361 [==============================] - 2s 5ms/step - loss: 0.2686 - duration_loss: 0.0569 - pitch_loss: 3.7529 - step_loss: 0.0240
Epoch 17/50
361/361 [==============================] - 2s 5ms/step - loss: 0.2695 - duration_loss: 0.0577 - pitch_loss: 3.7486 - step_loss: 0.0243
Epoch 18/50
361/361 [==============================] - 2s 5ms/step - loss: 0.2663 - duration_loss: 0.0560 - pitch_loss: 3.7473 - step_loss: 0.0229
Epoch 19/50
361/361 [==============================] - 2s 5ms/step - loss: 0.2642 - duration_loss: 0.0543 - pitch_loss: 3.7366 - step_loss: 0.0231
Epoch 20/50
361/361 [==============================] - 2s 5ms/step - loss: 0.2691 - duration_loss: 0.0587 - pitch_loss: 3.7421 - step_loss: 0.0233
Epoch 21/50
361/361 [==============================] - 2s 5ms/step - loss: 0.2636 - duration_loss: 0.0547 - pitch_loss: 3.7314 - step_loss: 0.0223
Epoch 22/50
361/361 [==============================] - 2s 5ms/step - loss: 0.2613 - duration_loss: 0.0533 - pitch_loss: 3.7313 - step_loss: 0.0215
Epoch 23/50
361/361 [==============================] - 2s 5ms/step - loss: 0.2595 - duration_loss: 0.0516 - pitch_loss: 3.7219 - step_loss: 0.0218
Epoch 24/50
361/361 [==============================] - 2s 5ms/step - loss: 0.2548 - duration_loss: 0.0493 - pitch_loss: 3.7148 - step_loss: 0.0198
Epoch 25/50
361/361 [==============================] - 2s 5ms/step - loss: 0.2539 - duration_loss: 0.0483 - pitch_loss: 3.7150 - step_loss: 0.0199
Epoch 26/50
361/361 [==============================] - 2s 5ms/step - loss: 0.2526 - duration_loss: 0.0474 - pitch_loss: 3.7138 - step_loss: 0.0196
Epoch 27/50
361/361 [==============================] - 2s 5ms/step - loss: 0.2502 - duration_loss: 0.0460 - pitch_loss: 3.7036 - step_loss: 0.0190
Epoch 28/50
361/361 [==============================] - 2s 5ms/step - loss: 0.2467 - duration_loss: 0.0442 - pitch_loss: 3.6970 - step_loss: 0.0177
Epoch 29/50
361/361 [==============================] - 2s 5ms/step - loss: 0.2458 - duration_loss: 0.0438 - pitch_loss: 3.6938 - step_loss: 0.0172
Epoch 30/50
361/361 [==============================] - 2s 5ms/step - loss: 0.2434 - duration_loss: 0.0418 - pitch_loss: 3.6836 - step_loss: 0.0174
Epoch 31/50
361/361 [==============================] - 2s 5ms/step - loss: 0.2404 - duration_loss: 0.0403 - pitch_loss: 3.6703 - step_loss: 0.0166
Epoch 32/50
361/361 [==============================] - 2s 5ms/step - loss: 0.2421 - duration_loss: 0.0412 - pitch_loss: 3.6833 - step_loss: 0.0168
Epoch 33/50
361/361 [==============================] - 2s 5ms/step - loss: 0.2391 - duration_loss: 0.0399 - pitch_loss: 3.6585 - step_loss: 0.0163
Epoch 34/50
361/361 [==============================] - 2s 5ms/step - loss: 0.2376 - duration_loss: 0.0390 - pitch_loss: 3.6467 - step_loss: 0.0163
Epoch 35/50
361/361 [==============================] - 2s 5ms/step - loss: 0.2403 - duration_loss: 0.0417 - pitch_loss: 3.6448 - step_loss: 0.0164
Epoch 36/50
361/361 [==============================] - 2s 5ms/step - loss: 0.2394 - duration_loss: 0.0417 - pitch_loss: 3.6218 - step_loss: 0.0166
Epoch 37/50
361/361 [==============================] - 2s 5ms/step - loss: 0.2337 - duration_loss: 0.0369 - pitch_loss: 3.6155 - step_loss: 0.0161
Epoch 38/50
361/361 [==============================] - 2s 5ms/step - loss: 0.2320 - duration_loss: 0.0357 - pitch_loss: 3.6080 - step_loss: 0.0158
Epoch 39/50
361/361 [==============================] - 2s 6ms/step - loss: 0.2291 - duration_loss: 0.0353 - pitch_loss: 3.5896 - step_loss: 0.0143
Epoch 40/50
361/361 [==============================] - 2s 6ms/step - loss: 0.2285 - duration_loss: 0.0352 - pitch_loss: 3.5784 - step_loss: 0.0144
Epoch 41/50
361/361 [==============================] - 2s 6ms/step - loss: 0.2276 - duration_loss: 0.0338 - pitch_loss: 3.5928 - step_loss: 0.0142
Epoch 42/50
361/361 [==============================] - 2s 6ms/step - loss: 0.2233 - duration_loss: 0.0316 - pitch_loss: 3.5582 - step_loss: 0.0137
Epoch 43/50
361/361 [==============================] - 2s 6ms/step - loss: 0.2211 - duration_loss: 0.0304 - pitch_loss: 3.5453 - step_loss: 0.0134
Epoch 44/50
361/361 [==============================] - 2s 6ms/step - loss: 0.2206 - duration_loss: 0.0307 - pitch_loss: 3.5396 - step_loss: 0.0129
Epoch 45/50
361/361 [==============================] - 2s 6ms/step - loss: 0.2223 - duration_loss: 0.0322 - pitch_loss: 3.5352 - step_loss: 0.0133
Epoch 46/50
361/361 [==============================] - 2s 6ms/step - loss: 0.2213 - duration_loss: 0.0312 - pitch_loss: 3.5323 - step_loss: 0.0135
Epoch 47/50
361/361 [==============================] - 2s 6ms/step - loss: 0.2240 - duration_loss: 0.0329 - pitch_loss: 3.5405 - step_loss: 0.0142
Epoch 48/50
361/361 [==============================] - 2s 6ms/step - loss: 0.2217 - duration_loss: 0.0322 - pitch_loss: 3.5160 - step_loss: 0.0137
Epoch 49/50
361/361 [==============================] - 2s 5ms/step - loss: 0.2167 - duration_loss: 0.0296 - pitch_loss: 3.4894 - step_loss: 0.0126
Epoch 50/50
361/361 [==============================] - 2s 5ms/step - loss: 0.2142 - duration_loss: 0.0278 - pitch_loss: 3.4757 - step_loss: 0.0126
CPU times: user 2min 16s, sys: 23.9 s, total: 2min 40s
Wall time: 1min 41s

plt.plot(history.epoch, history.history['loss'], label='total loss')
plt.show()

png

Generuj notatki

Aby użyć modelu do generowania notatek, musisz najpierw podać początkową sekwencję notatek. Poniższa funkcja generuje jedną nutę z sekwencji nut.

W przypadku wysokości nuty pobiera próbkę z rozkładu softmax nut wygenerowanych przez model i nie wybiera po prostu nuty z największym prawdopodobieństwem. Zawsze wybieranie nuty z największym prawdopodobieństwem prowadziłoby do generowania powtarzających się sekwencji nut.

Parametr temperature może służyć do kontrolowania losowości generowanych nut. Więcej informacji na temat temperatury można znaleźć w sekcji Generowanie tekstu za pomocą RNN .

def predict_next_note(
    notes: np.ndarray, 
    keras_model: tf.keras.Model, 
    temperature: float = 1.0) -> int:
  """Generates a note IDs using a trained sequence model."""

  assert temperature > 0

  # Add batch dimension
  inputs = tf.expand_dims(notes, 0)

  predictions = model.predict(inputs)
  pitch_logits = predictions['pitch']
  step = predictions['step']
  duration = predictions['duration']

  pitch_logits /= temperature
  pitch = tf.random.categorical(pitch_logits, num_samples=1)
  pitch = tf.squeeze(pitch, axis=-1)
  duration = tf.squeeze(duration, axis=-1)
  step = tf.squeeze(step, axis=-1)

  # `step` and `duration` values should be non-negative
  step = tf.maximum(0, step)
  duration = tf.maximum(0, duration)

  return int(pitch), float(step), float(duration)

Teraz wygeneruj kilka notatek. Możesz pobawić się temperaturą i sekwencją początkową w next_notes i zobaczyć, co się stanie.

temperature = 2.0
num_predictions = 120

sample_notes = np.stack([raw_notes[key] for key in key_order], axis=1)

# The initial sequence of notes; pitch is normalized similar to training
# sequences
input_notes = (
    sample_notes[:seq_length] / np.array([vocab_size, 1, 1]))

generated_notes = []
prev_start = 0
for _ in range(num_predictions):
  pitch, step, duration = predict_next_note(input_notes, model, temperature)
  start = prev_start + step
  end = start + duration
  input_note = (pitch, step, duration)
  generated_notes.append((*input_note, start, end))
  input_notes = np.delete(input_notes, 0, axis=0)
  input_notes = np.append(input_notes, np.expand_dims(input_note, 0), axis=0)
  prev_start = start

generated_notes = pd.DataFrame(
    generated_notes, columns=(*key_order, 'start', 'end'))

generated_notes.head(10)

out_file = 'output.mid'
out_pm = notes_to_midi(
    generated_notes, out_file=out_file, instrument_name=instrument_name)
display_audio(out_pm)

Możesz również pobrać plik audio, dodając dwie linie poniżej:

from google.colab import files
files.download(out_file)

Wizualizuj wygenerowane notatki.

plot_piano_roll(generated_notes)

png

Sprawdź rozkłady pitch , step i duration .

plot_distributions(generated_notes)

png

Na powyższych wykresach zauważysz zmianę w rozkładzie zmiennych nut. Ponieważ istnieje pętla sprzężenia zwrotnego między danymi wyjściowymi i wejściowymi modelu, model ma tendencję do generowania podobnych sekwencji wyników w celu zmniejszenia strat. Jest to szczególnie istotne w przypadku step i duration , który wykorzystuje utratę MSE. Jeśli chodzi pitch , możesz zwiększyć losowość, zwiększając temperature w predict_next_note .

Następne kroki

Ten samouczek zademonstrował mechanikę używania RNN do generowania sekwencji nut z zestawu danych plików MIDI. Aby dowiedzieć się więcej, możesz odwiedzić ściśle powiązane generowanie tekstu z samouczkiem RNN , który zawiera dodatkowe diagramy i objaśnienia.

Alternatywą dla korzystania z RNN do generowania muzyki jest użycie sieci GAN. Zamiast generować dźwięk, podejście oparte na GAN może generować równolegle całą sekwencję. Zespół Magenta wykonał imponującą pracę nad tym podejściem dzięki GANSynth . Możesz również znaleźć wiele wspaniałych projektów muzycznych i artystycznych oraz kod open-source na stronie projektu Magenta .