示例#1
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def main(_):
    model_path = os.path.join('./model/', FLAGS.name)
    if os.path.exists(model_path) is False:
        os.makedirs(model_path)
    if os.path.isdir(model_path):
        checkpoint_path =\
            tf.train.latest_checkpoint(model_path)

    dataset = load_dataset()
    batch_gen = dataset.batches(FLAGS.num_seqs, FLAGS.num_steps, 10)
    print(EventSeq.dim())
    model = CharRNN(EventSeq.dim(),
                    ControlSeq.dim(),
                    num_seqs=FLAGS.num_seqs,
                    num_steps=FLAGS.num_steps,
                    lstm_size=FLAGS.lstm_size,
                    num_layers=FLAGS.num_layers,
                    learning_rate=FLAGS.learning_rate,
                    train_keep_prob=FLAGS.train_keep_prob,
                    use_embedding=FLAGS.use_embedding,
                    embedding_size=FLAGS.embedding_size)
    model.sess.run(tf.global_variables_initializer())
    model.load(checkpoint_path)

    model.train(
        batch_gen,
        FLAGS.max_steps,
        model_path,
        FLAGS.save_every_n,
        FLAGS.log_every_n,
    )
示例#2
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def transposition(events, controls, offset=0):
    # events [steps, batch_size, event_dim]
    # return events, controls

    events = np.array(events, dtype=np.int64)
    controls = np.array(controls, dtype=np.float32)
    event_feat_ranges = EventSeq.feat_ranges()

    on = event_feat_ranges['note_on']
    off = event_feat_ranges['note_off']

    if offset > 0:
        indeces0 = (((on.start <= events) & (events < on.stop - offset)) |
                    ((off.start <= events) & (events < off.stop - offset)))
        indeces1 = (((on.stop - offset <= events) & (events < on.stop)) |
                    ((off.stop - offset <= events) & (events < off.stop)))
        events[indeces0] += offset
        events[indeces1] += offset - 12
    elif offset < 0:
        indeces0 = (((on.start - offset <= events) & (events < on.stop)) |
                    ((off.start - offset <= events) & (events < off.stop)))
        indeces1 = (((on.start <= events) & (events < on.start - offset)) |
                    ((off.start <= events) & (events < off.start - offset)))
        events[indeces0] += offset
        events[indeces1] += offset + 12

    assert ((0 <= events) & (events < EventSeq.dim())).all()
    histr = ControlSeq.feat_ranges()['pitch_histogram']
    controls[:, :, histr.start:histr.stop] = np.roll(
        controls[:, :, histr.start:histr.stop], offset, -1)

    return events, controls
示例#3
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def main(_):
    if os.path.isfile(FLAGS.control) or os.path.isdir(FLAGS.control):
        if os.path.isdir(FLAGS.control):
            files = list(utils.find_files_by_extensions(FLAGS.control))
            assert len(files) > 0, 'no file in "{control}"'.format(
                control=FLAGS.control)
            control = np.random.choice(files)
        events, compressed_controls = torch.load(FLAGS.control)
        controls = ControlSeq.recover_compressed_array(compressed_controls)
        max_len = FLAGS.max_length
        if FLAGS.max_length == 0:
            max_len = controls.shape[0]

        control = np.expand_dims(controls, 1).repeat(1, 1)
        control = 'control sequence from "{control}"'.format(control=control)

    assert max_len > 0, 'either max length or control sequence length should be given'

    #FLAGS.start_string = FLAGS.start_string.decode('utf-8')

    if os.path.isdir(FLAGS.checkpoint_path):
        FLAGS.checkpoint_path =\
            tf.train.latest_checkpoint(FLAGS.checkpoint_path)

    model = CharRNN(EventSeq.dim(),
                    ControlSeq.dim(),
                    sampling=True,
                    lstm_size=FLAGS.lstm_size,
                    num_layers=FLAGS.num_layers,
                    use_embedding=FLAGS.use_embedding,
                    embedding_size=FLAGS.embedding_size)
    model.sess.run(tf.global_variables_initializer())
    model.load(FLAGS.checkpoint_path)

    outputs = model.sample(1000,
                           prime=events[0:100],
                           vocab_size=EventSeq.dim())

    outputs = outputs.reshape([-1, 1])
    print(outputs)
    name = 'output-{i:03d}.mid'.format(i=0)
    path = os.path.join("output/", name)
    n_notes = utils.event_indeces_to_midi_file(outputs[:, 0], path)
    print('===> {path} ({n_notes} notes)'.format(path=path, n_notes=n_notes))
示例#4
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 def __init__(self,
              event_dim=EventSeq.dim(),
              hidden_dim=512,
              gru_layers=3,
              gru_dropout=0.3):
     super().__init__()
     self.event_embedding = nn.Embedding(event_dim, hidden_dim)
     self.gru = nn.GRU(hidden_dim,
                       hidden_dim,
                       num_layers=gru_layers,
                       dropout=gru_dropout)
     self.attn = nn.Parameter(torch.randn(hidden_dim), requires_grad=True)
     self.output_fc = nn.Linear(hidden_dim, 1)
     self.output_fc_activation = nn.Sigmoid()
示例#5
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sess_path = options.sess_path
data_path = options.data_path
saving_interval = options.saving_interval

learning_rate = options.learning_rate
batch_size = options.batch_size
window_size = options.window_size
stride_size = options.stride_size
use_transposition = options.use_transposition
control_ratio = options.control_ratio
teacher_forcing_ratio = options.teacher_forcing_ratio
reset_optimizer = options.reset_optimizer
enable_logging = options.enable_logging

event_dim = EventSeq.dim()
control_dim = ControlSeq.dim()
model_config = config.model
model_params = utils.params2dict(options.model_params)
model_config.update(model_params)
device = config.device

print('-' * 70)

print('Session path:', sess_path)
print('Dataset path:', data_path)
print('Saving interval:', saving_interval)
print('-' * 70)

print('Hyperparameters:', utils.dict2params(model_config))
print('Learning rate:', learning_rate)
示例#6
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import torch
# import sys, os
# print(os.path.dirname(os.path.abspath('__file__')))
#
# sys.path.append('/data2/qt/MusicGeneration/mg/model')
# print(os.path.dirname(os.path.abspath('__file__')))

from sequence import EventSeq
device = torch.device('cuda:0' if torch.cuda.is_available() else 'cpu')

event_dim = EventSeq.dim()
pad_token = EventSeq.dim()
# token_sos = event_dim + 1
# token_eos = event_dim + 2
# vocab_size = event_dim + 3
vocab_size = EventSeq.dim() + 1

save_path = '/data2/qt/MusicGeneration/mg/model/MusicTransformer/output/'
condition_file = None#'/data2/qt/MusicGeneration/egs/dataset/maestro/train/MIDI-Unprocessed_Recital1-3_MID--AUDIO_03_R1_2018_wav--1.midi'
length = 2000
threshold_len = 500

pickle_dir = '/data2/qt/MusicGeneration/egs/dataset/maestro/'

load_path = None
dropout = 0.2
debug = False

num_layers = 6
max_seq = 2048
embedding_dim = 256
示例#7
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from progress.bar import Bar

import config, utils
from config import device
from data import Dataset
from model import PerformanceRNN
from sequence import EventSeq, ControlSeq

# pylint: disable=E1101

#========================================================================
# Discriminator
#========================================================================

discriminator_config = {
    'event_dim': EventSeq.dim(),
    'hidden_dim': 512,
    'gru_layers': 3,
    'gru_dropout': 0.3
}


class EventSequenceEncoder(nn.Module):
    def __init__(self,
                 event_dim=EventSeq.dim(),
                 hidden_dim=512,
                 gru_layers=3,
                 gru_dropout=0.3):
        super().__init__()
        self.event_embedding = nn.Embedding(event_dim, hidden_dim)
        self.gru = nn.GRU(hidden_dim,