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4. API Reference
In order to manage library logging, you can use spleeter.utils.logging
module which offers two following functions :
def enable_logging():
""" Enable INFO level logging for tensorflow, INFO for spleeter. """
...
def enable_tensorflow_logging()
""" Enable ERROR level logging for tensorflow. """
...
Plus if you don't want to Tensorflow verbose warnings to be displayed, you can run following code before any Tensorflow library import1:
import warnings
warnings.filterwarnings('ignore')
1 thus, any Spleeter library import as well.
In order to provide abstraction for audio based I/O operation, Spleeter use an abstract class spleeter.audio.adapter.AudioAdapter
with following specification :
class AudioAdapter(ABC):
@abstractmethod
def load(
self, audio_descriptor, offset, duration,
sample_rate, dtype=np.float32):
pass
@abstractmethod
def save(
self, path, data, sample_rate,
codec=None, bitrate=None):
pass
Concerning the audio_descriptor
parameter, it is rule-free. Such audio_descriptor
could be anything describing a way of retrieving audio content as long as the method implementation return the associated waveform (for instance, a audio file path, or an audio track identifier allowing to perform storage lookup). Although the save()
method aims to write audio data on file.
A default implementation is provided based on ffmpeg that takes file path as audio_descriptor
.
In order to use Spleeter in your own development pipeline, a generic class for performing audio source separation is available in spleeter.separator
module.
from spleeter.separator import Separator
# Using embedded configuration.
separator = Separator('spleeter:2stems')
# Using custom configuration file.
separator = Separator('/path/to/config.json')
Once you have a Separator
instance you can easily perform separation on
audio waveforms (as numpy arrays), using separate(waveform)
method :
# Use audio loader explicitly for loading audio waveform :
from spleeter.audio.adapter import AudioAdapter
audio_loader = AudioAdapter.default()
sample_rate = 44100
waveform, _ = audio_loader.load('/path/to/audio/file', sample_rate=sample_rate)
# Perform the separation :
prediction = separator.separate(waveform)
prediction
output is a dictionary whose keys contain the name of the instruments,
and values the associated instrument separated waveforms. For instance, using 2stems model, the
returned dictionary would have two keys vocals
and accompaniment
with corresponding
numpy arrays waveforms as value.
If you do not want to deal directly with audio waveform loading, you can
use separate_to_file()
method which will handle audio adapter interaction :
separator.separate_to_file('/path/to/audio', '/path/to/output/directory')
It will infer default audio adapter instance. You can also control separation process using following parameters :
Parameter | Description |
---|---|
audio_descriptor |
Audio descriptor that identify audio resource to separate |
destination |
Path of the directory to write separate source into |
audio_adapter |
(Optional) Audio adapter to use for audio I/O |
offset |
(Optional) Loading offset parameter |
duration |
(Optional) Loading duration parameter |
codec |
(Optional) Saving codec parameter |
bitrate |
(Optional) Saving bitrate parameter |
filename_format |
(Optional) Format string for output filename |
synchronous |
(Optional) Boolean flag to control partial asynchronous processing |
As seen previously, separate_to_file
have a synchronous
parameter
flag. By default, the method will perform source separation and then apply
asynchronous audio export of the predicted data, using Python multiprocessing
module. If the synchronous
flag is True
the method will then wait for export
tasks2 to be finished before to return, although if the flag is False
it will return directly allowing to queue up audio export task as following :
# List of input to process.
audio_descriptors = [...]
# Batch separation export.
for i in audio_descriptors:
separator.separate_to_file(i, '/path/to/output/directory', synchronous=False)
# Wait for batch to finish.
separator.join()
2 for a given separation, one export task would be created for each separated instrument.
Training and Evaluation are performed using Tensorflow Estimator API. Take a look at this file for details.