RVC_HFv2 / demucs /audio.py
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# Copyright (c) Facebook, Inc. and its affiliates.
# All rights reserved.
#
# This source code is licensed under the license found in the
# LICENSE file in the root directory of this source tree.
import json
import subprocess as sp
from pathlib import Path
import julius
import numpy as np
import torch
from .utils import temp_filenames
def _read_info(path):
stdout_data = sp.check_output([
'ffprobe', "-loglevel", "panic",
str(path), '-print_format', 'json', '-show_format', '-show_streams'
])
return json.loads(stdout_data.decode('utf-8'))
class AudioFile:
"""
Allows to read audio from any format supported by ffmpeg, as well as resampling or
converting to mono on the fly. See :method:`read` for more details.
"""
def __init__(self, path: Path):
self.path = Path(path)
self._info = None
def __repr__(self):
features = [("path", self.path)]
features.append(("samplerate", self.samplerate()))
features.append(("channels", self.channels()))
features.append(("streams", len(self)))
features_str = ", ".join(f"{name}={value}" for name, value in features)
return f"AudioFile({features_str})"
@property
def info(self):
if self._info is None:
self._info = _read_info(self.path)
return self._info
@property
def duration(self):
return float(self.info['format']['duration'])
@property
def _audio_streams(self):
return [
index for index, stream in enumerate(self.info["streams"])
if stream["codec_type"] == "audio"
]
def __len__(self):
return len(self._audio_streams)
def channels(self, stream=0):
return int(self.info['streams'][self._audio_streams[stream]]['channels'])
def samplerate(self, stream=0):
return int(self.info['streams'][self._audio_streams[stream]]['sample_rate'])
def read(self,
seek_time=None,
duration=None,
streams=slice(None),
samplerate=None,
channels=None,
temp_folder=None):
"""
Slightly more efficient implementation than stempeg,
in particular, this will extract all stems at once
rather than having to loop over one file multiple times
for each stream.
Args:
seek_time (float): seek time in seconds or None if no seeking is needed.
duration (float): duration in seconds to extract or None to extract until the end.
streams (slice, int or list): streams to extract, can be a single int, a list or
a slice. If it is a slice or list, the output will be of size [S, C, T]
with S the number of streams, C the number of channels and T the number of samples.
If it is an int, the output will be [C, T].
samplerate (int): if provided, will resample on the fly. If None, no resampling will
be done. Original sampling rate can be obtained with :method:`samplerate`.
channels (int): if 1, will convert to mono. We do not rely on ffmpeg for that
as ffmpeg automatically scale by +3dB to conserve volume when playing on speakers.
See https://sound.stackexchange.com/a/42710.
Our definition of mono is simply the average of the two channels. Any other
value will be ignored.
temp_folder (str or Path or None): temporary folder to use for decoding.
"""
streams = np.array(range(len(self)))[streams]
single = not isinstance(streams, np.ndarray)
if single:
streams = [streams]
if duration is None:
target_size = None
query_duration = None
else:
target_size = int((samplerate or self.samplerate()) * duration)
query_duration = float((target_size + 1) / (samplerate or self.samplerate()))
with temp_filenames(len(streams)) as filenames:
command = ['ffmpeg', '-y']
command += ['-loglevel', 'panic']
if seek_time:
command += ['-ss', str(seek_time)]
command += ['-i', str(self.path)]
for stream, filename in zip(streams, filenames):
command += ['-map', f'0:{self._audio_streams[stream]}']
if query_duration is not None:
command += ['-t', str(query_duration)]
command += ['-threads', '1']
command += ['-f', 'f32le']
if samplerate is not None:
command += ['-ar', str(samplerate)]
command += [filename]
sp.run(command, check=True)
wavs = []
for filename in filenames:
wav = np.fromfile(filename, dtype=np.float32)
wav = torch.from_numpy(wav)
wav = wav.view(-1, self.channels()).t()
if channels is not None:
wav = convert_audio_channels(wav, channels)
if target_size is not None:
wav = wav[..., :target_size]
wavs.append(wav)
wav = torch.stack(wavs, dim=0)
if single:
wav = wav[0]
return wav
def convert_audio_channels(wav, channels=2):
"""Convert audio to the given number of channels."""
*shape, src_channels, length = wav.shape
if src_channels == channels:
pass
elif channels == 1:
# Case 1:
# The caller asked 1-channel audio, but the stream have multiple
# channels, downmix all channels.
wav = wav.mean(dim=-2, keepdim=True)
elif src_channels == 1:
# Case 2:
# The caller asked for multiple channels, but the input file have
# one single channel, replicate the audio over all channels.
wav = wav.expand(*shape, channels, length)
elif src_channels >= channels:
# Case 3:
# The caller asked for multiple channels, and the input file have
# more channels than requested. In that case return the first channels.
wav = wav[..., :channels, :]
else:
# Case 4: What is a reasonable choice here?
raise ValueError('The audio file has less channels than requested but is not mono.')
return wav
def convert_audio(wav, from_samplerate, to_samplerate, channels):
wav = convert_audio_channels(wav, channels)
return julius.resample_frac(wav, from_samplerate, to_samplerate)