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train.py
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train.py
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"""Training script for the WaveNet network on the VCTK corpus.
This script trains a network with the WaveNet using data from the VCTK corpus,
which can be freely downloaded at the following site (~10 GB):
http://homepages.inf.ed.ac.uk/jyamagis/page3/page58/page58.html
"""
from __future__ import print_function
import argparse
from datetime import datetime
import json
import os
import sys
import time
import tensorflow as tf
from tensorflow.python.client import timeline
from wavenet import WaveNetModel, AudioReader, optimizer_factory
BATCH_SIZE = 1
DATA_DIRECTORY = './VCTK-Corpus'
LOGDIR_ROOT = './logdir'
CHECKPOINT_EVERY = 50
NUM_STEPS = int(1e5)
LEARNING_RATE = 1e-3
WAVENET_PARAMS = './wavenet_params.json'
STARTED_DATESTRING = "{0:%Y-%m-%dT%H-%M-%S}".format(datetime.now())
SAMPLE_SIZE = 100000
L2_REGULARIZATION_STRENGTH = 0
SILENCE_THRESHOLD = 0.3
EPSILON = 0.001
MOMENTUM = 0.9
MAX_TO_KEEP = 5
METADATA = False
def get_arguments():
def _str_to_bool(s):
"""Convert string to bool (in argparse context)."""
if s.lower() not in ['true', 'false']:
raise ValueError('Argument needs to be a '
'boolean, got {}'.format(s))
return {'true': True, 'false': False}[s.lower()]
parser = argparse.ArgumentParser(description='WaveNet example network')
parser.add_argument('--batch_size', type=int, default=BATCH_SIZE,
help='How many wav files to process at once. Default: ' + str(BATCH_SIZE) + '.')
parser.add_argument('--data_dir', type=str, default=DATA_DIRECTORY,
help='The directory containing the VCTK corpus.')
parser.add_argument('--store_metadata', type=bool, default=METADATA,
help='Whether to store advanced debugging information '
'(execution time, memory consumption) for use with '
'TensorBoard. Default: ' + str(METADATA) + '.')
parser.add_argument('--logdir', type=str, default=None,
help='Directory in which to store the logging '
'information for TensorBoard. '
'If the model already exists, it will restore '
'the state and will continue training. '
'Cannot use with --logdir_root and --restore_from.')
parser.add_argument('--logdir_root', type=str, default=None,
help='Root directory to place the logging '
'output and generated model. These are stored '
'under the dated subdirectory of --logdir_root. '
'Cannot use with --logdir.')
parser.add_argument('--restore_from', type=str, default=None,
help='Directory in which to restore the model from. '
'This creates the new model under the dated directory '
'in --logdir_root. '
'Cannot use with --logdir.')
parser.add_argument('--checkpoint_every', type=int,
default=CHECKPOINT_EVERY,
help='How many steps to save each checkpoint after. Default: ' + str(CHECKPOINT_EVERY) + '.')
parser.add_argument('--num_steps', type=int, default=NUM_STEPS,
help='Number of training steps. Default: ' + str(NUM_STEPS) + '.')
parser.add_argument('--learning_rate', type=float, default=LEARNING_RATE,
help='Learning rate for training. Default: ' + str(LEARNING_RATE) + '.')
parser.add_argument('--wavenet_params', type=str, default=WAVENET_PARAMS,
help='JSON file with the network parameters. Default: ' + WAVENET_PARAMS + '.')
parser.add_argument('--sample_size', type=int, default=SAMPLE_SIZE,
help='Concatenate and cut audio samples to this many '
'samples. Default: ' + str(SAMPLE_SIZE) + '.')
parser.add_argument('--l2_regularization_strength', type=float,
default=L2_REGULARIZATION_STRENGTH,
help='Coefficient in the L2 regularization. '
'Default: False')
parser.add_argument('--silence_threshold', type=float,
default=SILENCE_THRESHOLD,
help='Volume threshold below which to trim the start '
'and the end from the training set samples. Default: ' + str(SILENCE_THRESHOLD) + '.')
parser.add_argument('--optimizer', type=str, default='adam',
choices=optimizer_factory.keys(),
help='Select the optimizer specified by this option. Default: adam.')
parser.add_argument('--momentum', type=float,
default=MOMENTUM, help='Specify the momentum to be '
'used by sgd or rmsprop optimizer. Ignored by the '
'adam optimizer. Default: ' + str(MOMENTUM) + '.')
parser.add_argument('--histograms', type=_str_to_bool, default=False,
help='Whether to store histogram summaries. Default: False')
parser.add_argument('--gc_channels', type=int, default=None,
help='Number of global condition channels. Default: None. Expecting: Int')
parser.add_argument('--max_checkpoints', type=int, default=MAX_TO_KEEP,
help='Maximum amount of checkpoints that will be kept alive. Default: '
+ str(MAX_TO_KEEP) + '.')
return parser.parse_args()
def save(saver, sess, logdir, step):
model_name = 'model.ckpt'
checkpoint_path = os.path.join(logdir, model_name)
print('Storing checkpoint to {} ...'.format(logdir), end="")
sys.stdout.flush()
if not os.path.exists(logdir):
os.makedirs(logdir)
saver.save(sess, checkpoint_path, global_step=step)
print(' Done.')
def load(saver, sess, logdir):
print("Trying to restore saved checkpoints from {} ...".format(logdir),
end="")
ckpt = tf.train.get_checkpoint_state(logdir)
if ckpt:
print(" Checkpoint found: {}".format(ckpt.model_checkpoint_path))
global_step = int(ckpt.model_checkpoint_path
.split('/')[-1]
.split('-')[-1])
print(" Global step was: {}".format(global_step))
print(" Restoring...", end="")
saver.restore(sess, ckpt.model_checkpoint_path)
print(" Done.")
return global_step
else:
print(" No checkpoint found.")
return None
def get_default_logdir(logdir_root):
logdir = os.path.join(logdir_root, 'train', STARTED_DATESTRING)
return logdir
def validate_directories(args):
"""Validate and arrange directory related arguments."""
# Validation
if args.logdir and args.logdir_root:
raise ValueError("--logdir and --logdir_root cannot be "
"specified at the same time.")
if args.logdir and args.restore_from:
raise ValueError(
"--logdir and --restore_from cannot be specified at the same "
"time. This is to keep your previous model from unexpected "
"overwrites.\n"
"Use --logdir_root to specify the root of the directory which "
"will be automatically created with current date and time, or use "
"only --logdir to just continue the training from the last "
"checkpoint.")
# Arrangement
logdir_root = args.logdir_root
if logdir_root is None:
logdir_root = LOGDIR_ROOT
logdir = args.logdir
if logdir is None:
logdir = get_default_logdir(logdir_root)
print('Using default logdir: {}'.format(logdir))
restore_from = args.restore_from
if restore_from is None:
# args.logdir and args.restore_from are exclusive,
# so it is guaranteed the logdir here is newly created.
restore_from = logdir
return {
'logdir': logdir,
'logdir_root': args.logdir_root,
'restore_from': restore_from
}
def main():
args = get_arguments()
try:
directories = validate_directories(args)
except ValueError as e:
print("Some arguments are wrong:")
print(str(e))
return
logdir = directories['logdir']
restore_from = directories['restore_from']
# Even if we restored the model, we will treat it as new training
# if the trained model is written into an arbitrary location.
is_overwritten_training = logdir != restore_from
with open(args.wavenet_params, 'r') as f:
wavenet_params = json.load(f)
# Create coordinator.
coord = tf.train.Coordinator()
# Load raw waveform from VCTK corpus.
with tf.name_scope('create_inputs'):
# Allow silence trimming to be skipped by specifying a threshold near
# zero.
silence_threshold = args.silence_threshold if args.silence_threshold > \
EPSILON else None
gc_enabled = args.gc_channels is not None
reader = AudioReader(
args.data_dir,
coord,
sample_rate=wavenet_params['sample_rate'],
gc_enabled=gc_enabled,
receptive_field=WaveNetModel.calculate_receptive_field(wavenet_params["filter_width"],
wavenet_params["dilations"],
wavenet_params["scalar_input"],
wavenet_params["initial_filter_width"]),
sample_size=args.sample_size,
silence_threshold=silence_threshold)
audio_batch = reader.dequeue(args.batch_size)
if gc_enabled:
gc_id_batch = reader.dequeue_gc(args.batch_size)
else:
gc_id_batch = None
# Create network.
net = WaveNetModel(
batch_size=args.batch_size,
dilations=wavenet_params["dilations"],
filter_width=wavenet_params["filter_width"],
residual_channels=wavenet_params["residual_channels"],
dilation_channels=wavenet_params["dilation_channels"],
skip_channels=wavenet_params["skip_channels"],
quantization_channels=wavenet_params["quantization_channels"],
use_biases=wavenet_params["use_biases"],
scalar_input=wavenet_params["scalar_input"],
initial_filter_width=wavenet_params["initial_filter_width"],
histograms=args.histograms,
global_condition_channels=args.gc_channels,
global_condition_cardinality=reader.gc_category_cardinality)
if args.l2_regularization_strength == 0:
args.l2_regularization_strength = None
loss = net.loss(input_batch=audio_batch,
global_condition_batch=gc_id_batch,
l2_regularization_strength=args.l2_regularization_strength)
optimizer = optimizer_factory[args.optimizer](
learning_rate=args.learning_rate,
momentum=args.momentum)
trainable = tf.trainable_variables()
optim = optimizer.minimize(loss, var_list=trainable)
# Set up logging for TensorBoard.
writer = tf.summary.FileWriter(logdir)
writer.add_graph(tf.get_default_graph())
run_metadata = tf.RunMetadata()
summaries = tf.summary.merge_all()
# Set up session
sess = tf.Session(config=tf.ConfigProto(log_device_placement=False))
init = tf.global_variables_initializer()
sess.run(init)
# Saver for storing checkpoints of the model.
saver = tf.train.Saver(var_list=tf.trainable_variables(), max_to_keep=args.max_checkpoints)
try:
saved_global_step = load(saver, sess, restore_from)
if is_overwritten_training or saved_global_step is None:
# The first training step will be saved_global_step + 1,
# therefore we put -1 here for new or overwritten trainings.
saved_global_step = -1
except:
print("Something went wrong while restoring checkpoint. "
"We will terminate training to avoid accidentally overwriting "
"the previous model.")
raise
threads = tf.train.start_queue_runners(sess=sess, coord=coord)
reader.start_threads(sess)
step = None
last_saved_step = saved_global_step
try:
for step in range(saved_global_step + 1, args.num_steps):
start_time = time.time()
if args.store_metadata and step % 50 == 0:
# Slow run that stores extra information for debugging.
print('Storing metadata')
run_options = tf.RunOptions(
trace_level=tf.RunOptions.FULL_TRACE)
summary, loss_value, _ = sess.run(
[summaries, loss, optim],
options=run_options,
run_metadata=run_metadata)
writer.add_summary(summary, step)
writer.add_run_metadata(run_metadata,
'step_{:04d}'.format(step))
tl = timeline.Timeline(run_metadata.step_stats)
timeline_path = os.path.join(logdir, 'timeline.trace')
with open(timeline_path, 'w') as f:
f.write(tl.generate_chrome_trace_format(show_memory=True))
else:
summary, loss_value, _ = sess.run([summaries, loss, optim])
writer.add_summary(summary, step)
duration = time.time() - start_time
print('step {:d} - loss = {:.3f}, ({:.3f} sec/step)'
.format(step, loss_value, duration))
if step % args.checkpoint_every == 0:
save(saver, sess, logdir, step)
last_saved_step = step
except KeyboardInterrupt:
# Introduce a line break after ^C is displayed so save message
# is on its own line.
print()
finally:
if step > last_saved_step:
save(saver, sess, logdir, step)
coord.request_stop()
coord.join(threads)
if __name__ == '__main__':
main()