def save_wav_file(filename, wav_data, sample_rate):
"""Saves audio sample data to a .wav audio file.
Args:
filename: Path to save the file to.
wav_data: 2D array of float PCM-encoded audio data.
sample_rate: Samples per second to encode in the file.
"""
with tf.Session(graph=tf.Graph()) as sess:
wav_filename_placeholder = tf.placeholder(tf.string, [])
sample_rate_placeholder = tf.placeholder(tf.int32, [])
wav_data_placeholder = tf.placeholder(tf.float32, [None, 1])
wav_encoder = contrib_audio.encode_wav(wav_data_placeholder,
sample_rate_placeholder)
'''
encode_wav:
Encode audio data using the WAV file format.
This operation will generate a string suitable to be saved out to create a .wav
audio file. It will be encoded in the 16-bit PCM format. It takes in float
values in the range -1.0f to 1.0f, and any outside that value will be clamped to
that range.
'''
wav_saver = io_ops.write_file(wav_filename_placeholder, wav_encoder)
'''
def _save_op(self, iterator_resource):
iterator_state_variant = gen_dataset_ops.serialize_iterator(
iterator_resource)
save_op = io_ops.write_file(
self._iterator_checkpoint_prefix_local(),
parsing_ops.serialize_tensor(iterator_state_variant))
return save_op
def testWriteFileCreateDir(self):
cases = ['', 'Some contents']
for contents in cases:
contents = compat.as_bytes(contents)
subdir = os.path.join(self.get_temp_dir(), 'subdir1')
filepath = os.path.join(subdir, 'subdir2', 'filename')
with self.cached_session() as sess:
w = io_ops.write_file(filepath, contents)
self.evaluate(w)
with open(filepath, 'rb') as f:
file_contents = f.read()
self.assertEqual(file_contents, contents)
shutil.rmtree(subdir)
def testWriteFileCreateDir(self):
cases = ['', 'Some contents']
for contents in cases:
contents = compat.as_bytes(contents)
subdir = os.path.join(self.get_temp_dir(), 'subdir1')
filepath = os.path.join(subdir, 'subdir2', 'filename')
with self.cached_session() as sess:
w = io_ops.write_file(filepath, contents)
self.evaluate(w)
with open(filepath, 'rb') as f:
file_contents = f.read()
self.assertEqual(file_contents, contents)
shutil.rmtree(subdir)
def save_wav_file(filename, wav_data, sample_rate):
with tf.Session(graph=tf.Graph()) as sess:
wav_filename_placeholder = tf.placeholder(tf.string, [])
sample_rate_placeholder = tf.placeholder(tf.int32, [])
wav_data_placeholder = tf.placeholder(tf.float32, [None, 1])
wav_encoder = contrib_audio.encode_wav(wav_data_placeholder,
sample_rate_placeholder)
wav_saver = io_ops.write_file(wav_filename_placeholder, wav_encoder)
sess.run(wav_saver,
feed_dict={
wav_filename_placeholder: filename,
sample_rate_placeholder: sample_rate,
wav_data_placeholder: np.reshape(wav_data, (-1, 1))
})
def testWriteFile(self):
cases = ['', 'Some contents']
for contents in cases:
contents = compat.as_bytes(contents)
with tempfile.NamedTemporaryFile(
prefix='WriteFileTest', dir=self.get_temp_dir(),
delete=False) as temp:
pass
with self.cached_session() as sess:
w = io_ops.write_file(temp.name, contents)
self.evaluate(w)
with open(temp.name, 'rb') as f:
file_contents = f.read()
self.assertEqual(file_contents, contents)
os.remove(temp.name)
def testWriteFile(self):
cases = ['', 'Some contents']
for contents in cases:
contents = compat.as_bytes(contents)
with tempfile.NamedTemporaryFile(
prefix='WriteFileTest', dir=self.get_temp_dir(),
delete=False) as temp:
pass
with self.cached_session() as sess:
w = io_ops.write_file(temp.name, contents)
self.evaluate(w)
with open(temp.name, 'rb') as f:
file_contents = f.read()
self.assertEqual(file_contents, contents)
os.remove(temp.name)
def save_wav_file(filename, wav_data, sample_rate):
"""Saves audio sample data to a .wav audio file."""
with tf.Session(graph=tf.Graph()) as sess:
wav_filename_placeholder = tf.placeholder(tf.string, [])
sample_rate_placeholder = tf.placeholder(tf.int32, [])
wav_data_placeholder = tf.placeholder(tf.float32, [None, 1])
wav_encoder = contrib_audio.encode_wav(wav_data_placeholder,
sample_rate_placeholder)
wav_saver = io_ops.write_file(wav_filename_placeholder, wav_encoder)
sess.run(
wav_saver,
feed_dict={
wav_filename_placeholder: filename,
sample_rate_placeholder: sample_rate,
wav_data_placeholder: np.reshape(wav_data, (-1, 1))
})
def save_my_test_file(self, model_settings):
desired_samples = model_settings['desired_samples']
self.wav_filename_placeholder_ = tf.placeholder(tf.string, [])
wav_loader = io_ops.read_file(self.wav_filename_placeholder_)
wav_decoder = contrib_audio.decode_wav(
# wav_loader, desired_channels=1, desired_samples=desired_samples)
wav_loader, desired_channels=1, desired_samples=16000)
# Allow the audio sample's volume to be adjusted.
self.foreground_volume_placeholder_ = tf.placeholder(tf.float32, [])
scaled_foreground = tf.multiply(wav_decoder.audio,
self.foreground_volume_placeholder_)
# Shift the sample's start position, and pad any gaps with zeros.
self.time_shift_padding_placeholder_ = tf.placeholder(tf.int32, [2, 2])
self.time_shift_offset_placeholder_ = tf.placeholder(tf.int32, [2])
padded_foreground = tf.pad(
scaled_foreground,
self.time_shift_padding_placeholder_,
mode='CONSTANT')
sliced_foreground = tf.slice(padded_foreground,
self.time_shift_offset_placeholder_,
[desired_samples, -1])
# Mix in background noise.
self.background_data_placeholder_ = tf.placeholder(tf.float32,
[desired_samples, 1])
self.background_volume_placeholder_ = tf.placeholder(tf.float32, [])
background_mul = tf.multiply(self.background_data_placeholder_,
self.background_volume_placeholder_)
background_add = tf.add(background_mul, sliced_foreground)
background_clamp = tf.clip_by_value(background_add, -1.0, 1.0)
self.filename_ = tf.placeholder(tf.string)
# save_wav_file(self.filename_, np.array(background_clamp), 16000)
wav_encoder = contrib_audio.encode_wav(background_clamp,
16000)
self.wav_saver = io_ops.write_file(self.filename_, wav_encoder)
# with tf.Session(graph=tf.Graph()) as sess:
# sess.run(wav_saver)
spectrogram = contrib_audio.audio_spectrogram(
background_clamp,
window_size=model_settings['window_size_samples'],
stride=model_settings['window_stride_samples'],
magnitude_squared=True)
self.test_mfcc_ = contrib_audio.mfcc(
spectrogram,
wav_decoder.sample_rate,
dct_coefficient_count=model_settings['dct_coefficient_count'])
def save_wav(filepath, wav_data, sample_rate=16000):
"""Defines a computational graph that saves an array of floats to a .wav file
Parameters
----------
filepath : a tensor of dtype tf.string and shape (1,) representing the path
of the saved wav file.
wav_data : a tensor of dtype tf.float32 and shape (None, 1) representing
the data to be encoded as a .wav file.
sample_rate : a tensor of type tf.int32 and shape (1,) representing the
desired sample rate at which to encode the data.
Returns
-------
wav_saver : a tensorflow operation that writes the encoded data to a file.
"""
wav_encoder = contrib_audio.encode_wav(data, sample_rate)
wav_saver = io_ops.write_file(filename, wav_encoder)
return wav_saver
def testReadWrite(self):
with self.test_session() as sess:
contents = "ASDASDASDASDASDAS"
filename = "iptf://repo/root/foo"
meta_filename = "iptf://meta/repo/root/foo"
wf = io_ops.write_file(filename=constant_op.constant(filename),
contents=constant_op.constant(contents))
reader = io_ops.WholeFileReader("test_reader")
queue = data_flow_ops.FIFOQueue(99, [dtypes.string], shapes=())
queue.enqueue_many([[filename]]).run()
queue.close().run()
with sess.graph.control_dependencies([wf]):
key, value = sess.run(reader.read(queue))
self.assertEqual(key, compat.as_bytes(filename))
self.assertEqual(value, compat.as_bytes(contents))
queue2 = data_flow_ops.FIFOQueue(99, [dtypes.string], shapes=())
queue2.enqueue_many([[meta_filename]]).run()
queue2.close().run()
key, value = sess.run(reader.read(queue2))
d = json.loads(compat.as_str(value))
ipfs_path = d["IpfsPath"]
queue3 = data_flow_ops.FIFOQueue(99, [dtypes.string], shapes=())
queue3.enqueue_many([[ipfs_path]]).run()
queue3.close().run()
with sess.graph.control_dependencies([wf]):
key, value = sess.run(reader.read(queue3))
self.assertEqual(key, compat.as_bytes(ipfs_path))
self.assertEqual(value, compat.as_bytes(contents))
with gfile.Open(meta_filename, "wb") as f:
f.write(compat.as_bytes('{"command": "publish"}'))
ipns_path = d["IpnsPath"]
queue4 = data_flow_ops.FIFOQueue(99, [dtypes.string], shapes=())
queue4.enqueue_many([[ipns_path]]).run()
queue4.close().run()
with sess.graph.control_dependencies([wf]):
key, value = sess.run(reader.read(queue4))
self.assertEqual(key, compat.as_bytes(ipns_path))
self.assertEqual(value, compat.as_bytes(contents))
def save_wav_file(filename, wav_data, sample_rate):
"""Saves audio sample data to a .wav audio file.
Args:
filename: Path to save the file to.
wav_data: 2D array of float PCM-encoded audio data.
sample_rate: Samples per second to encode in the file.
"""
with tf.Session(graph=tf.Graph()) as sess:
wav_filename_placeholder = tf.placeholder(tf.string, [])
sample_rate_placeholder = tf.placeholder(tf.int32, [])
wav_data_placeholder = tf.placeholder(tf.float32, [None, 1])
wav_encoder = contrib_audio.encode_wav(wav_data_placeholder,
sample_rate_placeholder)
wav_saver = io_ops.write_file(wav_filename_placeholder, wav_encoder)
sess.run(wav_saver,
feed_dict={
wav_filename_placeholder: filename,
sample_rate_placeholder: sample_rate,
wav_data_placeholder: np.reshape(wav_data, (-1, 1))
})
def save_wav_file(filename, wav_data, sample_rate):
"""Saves audio sample data to a .wav audio file.
Args:
filename: Path to save the file to.
wav_data: 2D array of float PCM-encoded audio data.
sample_rate: Samples per second to encode in the file.
"""
with tf.Session(graph=tf.Graph()) as sess:
wav_filename_placeholder = tf.placeholder(tf.string, [])
sample_rate_placeholder = tf.placeholder(tf.int32, [])
wav_data_placeholder = tf.placeholder(tf.float32, [None, 1])
wav_encoder = contrib_audio.encode_wav(wav_data_placeholder,
sample_rate_placeholder)
wav_saver = io_ops.write_file(wav_filename_placeholder, wav_encoder)
sess.run(
wav_saver,
feed_dict={
wav_filename_placeholder: filename,
sample_rate_placeholder: sample_rate,
wav_data_placeholder: np.reshape(wav_data, (-1, 1))
})
def save_wav_file(filename, wav_data, sample_rate):
"""
save audio sample data to a .wav file
input:
filename - file path
wav_data - 2d array of audio data
sample_rate - samples per second
"""
with tf.Session(graph=tf.Graph()) as sess:
wav_filename_placeholder = tf.placeholder(tf.string, [])
sample_rate_placeholder = tf.placeholder(tf.int32, [])
wav_data_placeholder = tf.placeholder(tf.float32, [None, 1])
wav_encoder = contrib_audio.encode_wav(wav_data_placeholder,
sample_rate_placeholder)
wav_saver = io_ops.write_file(wav_filename_placeholder, wav_encoder)
sess.run(wav_saver,
feed_dict={
wav_filename_placeholder: filename,
sample_rate_placeholder: sample_rate,
wav_data_placeholder: np.reshape(wav_data, (-1, 1))
})
def _save_op(iterator_resource):
iterator_state_variant = gen_dataset_ops.serialize_iterator(
iterator_resource)
save_op = io_ops.write_file(
_path(), parsing_ops.serialize_tensor(iterator_state_variant))
return save_op
def _save_op(iterator_resource):
iterator_state_variant = gen_dataset_ops.serialize_iterator(
iterator_resource)
save_op = io_ops.write_file(
_path(), parsing_ops.serialize_tensor(iterator_state_variant))
return save_op
