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Audio I/O

Author: Moto Hira

This tutorial shows how to use TorchAudio’s basic I/O API to load audio files into PyTorch’s Tensor object, and save Tensor objects to audio files.

import torch
import torchaudio

print(torch.__version__)
print(torchaudio.__version__)
2.0.0
2.0.1

Preparation

First, we import the modules and download the audio assets we use in this tutorial.

Note

When running this tutorial in Google Colab, install the required packages with the following:

!pip install boto3
import io
import os
import tarfile
import tempfile

import boto3
import matplotlib.pyplot as plt
import requests
from botocore import UNSIGNED
from botocore.config import Config
from IPython.display import Audio
from torchaudio.utils import download_asset

SAMPLE_GSM = download_asset("tutorial-assets/steam-train-whistle-daniel_simon.gsm")
SAMPLE_WAV = download_asset("tutorial-assets/Lab41-SRI-VOiCES-src-sp0307-ch127535-sg0042.wav")
SAMPLE_WAV_8000 = download_asset("tutorial-assets/Lab41-SRI-VOiCES-src-sp0307-ch127535-sg0042-8000hz.wav")
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Querying audio metadata

Function torchaudio.info() fetches audio metadata. You can provide a path-like object or file-like object.

metadata = torchaudio.info(SAMPLE_WAV)
print(metadata)
AudioMetaData(sample_rate=16000, num_frames=54400, num_channels=1, bits_per_sample=16, encoding=PCM_S)

Where

  • sample_rate is the sampling rate of the audio

  • num_channels is the number of channels

  • num_frames is the number of frames per channel

  • bits_per_sample is bit depth

  • encoding is the sample coding format

encoding can take on one of the following values:

  • "PCM_S": Signed integer linear PCM

  • "PCM_U": Unsigned integer linear PCM

  • "PCM_F": Floating point linear PCM

  • "FLAC": Flac, Free Lossless Audio Codec

  • "ULAW": Mu-law, [wikipedia]

  • "ALAW": A-law [wikipedia]

  • "MP3" : MP3, MPEG-1 Audio Layer III

  • "VORBIS": OGG Vorbis [xiph.org]

  • "AMR_NB": Adaptive Multi-Rate [wikipedia]

  • "AMR_WB": Adaptive Multi-Rate Wideband [wikipedia]

  • "OPUS": Opus [opus-codec.org]

  • "GSM": GSM-FR [wikipedia]

  • "HTK": Single channel 16-bit PCM

  • "UNKNOWN" None of above

Note

  • bits_per_sample can be 0 for formats with compression and/or variable bit rate (such as MP3).

  • num_frames can be 0 for GSM-FR format.

metadata = torchaudio.info(SAMPLE_GSM)
print(metadata)
AudioMetaData(sample_rate=8000, num_frames=0, num_channels=1, bits_per_sample=0, encoding=GSM)

Querying file-like object

torchaudio.info() works on file-like objects.

url = "https://download.pytorch.org/torchaudio/tutorial-assets/steam-train-whistle-daniel_simon.wav"
with requests.get(url, stream=True) as response:
    metadata = torchaudio.info(response.raw)
print(metadata)
/usr/local/envs/python3.8/lib/python3.8/site-packages/torchaudio/backend/sox_io_backend.py:106: UserWarning: File-like object support in sox_io backend is deprecated, and will be removed in v2.1. See https://github.com/pytorch/audio/issues/2950 for the detail.Please migrate to the new dispatcher, or use soundfile backend.
  warnings.warn(_deprecation_message)
AudioMetaData(sample_rate=44100, num_frames=109368, num_channels=2, bits_per_sample=16, encoding=PCM_S)

Note

When passing a file-like object, info does not read all of the underlying data; rather, it reads only a portion of the data from the beginning. Therefore, for a given audio format, it may not be able to retrieve the correct metadata, including the format itself. In such case, you can pass format argument to specify the format of the audio.

Loading audio data

To load audio data, you can use torchaudio.load().

This function accepts a path-like object or file-like object as input.

The returned value is a tuple of waveform (Tensor) and sample rate (int).

By default, the resulting tensor object has dtype=torch.float32 and its value range is [-1.0, 1.0].

For the list of supported format, please refer to the torchaudio documentation.

waveform, sample_rate = torchaudio.load(SAMPLE_WAV)
def plot_waveform(waveform, sample_rate):
    waveform = waveform.numpy()

    num_channels, num_frames = waveform.shape
    time_axis = torch.arange(0, num_frames) / sample_rate

    figure, axes = plt.subplots(num_channels, 1)
    if num_channels == 1:
        axes = [axes]
    for c in range(num_channels):
        axes[c].plot(time_axis, waveform[c], linewidth=1)
        axes[c].grid(True)
        if num_channels > 1:
            axes[c].set_ylabel(f"Channel {c+1}")
    figure.suptitle("waveform")
    plt.show(block=False)
plot_waveform(waveform, sample_rate)
waveform
def plot_specgram(waveform, sample_rate, title="Spectrogram"):
    waveform = waveform.numpy()

    num_channels, num_frames = waveform.shape

    figure, axes = plt.subplots(num_channels, 1)
    if num_channels == 1:
        axes = [axes]
    for c in range(num_channels):
        axes[c].specgram(waveform[c], Fs=sample_rate)
        if num_channels > 1:
            axes[c].set_ylabel(f"Channel {c+1}")
    figure.suptitle(title)
    plt.show(block=False)
plot_specgram(waveform, sample_rate)
Spectrogram
Audio(waveform.numpy()[0], rate=sample_rate)


Loading from file-like object

The I/O functions support file-like objects. This allows for fetching and decoding audio data from locations within and beyond the local file system. The following examples illustrate this.

# Load audio data as HTTP request
url = "https://download.pytorch.org/torchaudio/tutorial-assets/Lab41-SRI-VOiCES-src-sp0307-ch127535-sg0042.wav"
with requests.get(url, stream=True) as response:
    waveform, sample_rate = torchaudio.load(response.raw)
plot_specgram(waveform, sample_rate, title="HTTP datasource")
HTTP datasource
/usr/local/envs/python3.8/lib/python3.8/site-packages/torchaudio/backend/sox_io_backend.py:235: UserWarning: File-like object support in sox_io backend is deprecated, and will be removed in v2.1. See https://github.com/pytorch/audio/issues/2950 for the detail.Please migrate to the new dispatcher, or use soundfile backend.
  warnings.warn(_deprecation_message)
# Load audio from tar file
tar_path = download_asset("tutorial-assets/VOiCES_devkit.tar.gz")
tar_item = "VOiCES_devkit/source-16k/train/sp0307/Lab41-SRI-VOiCES-src-sp0307-ch127535-sg0042.wav"
with tarfile.open(tar_path, mode="r") as tarfile_:
    fileobj = tarfile_.extractfile(tar_item)
    waveform, sample_rate = torchaudio.load(fileobj)
plot_specgram(waveform, sample_rate, title="TAR file")
TAR file
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/usr/local/envs/python3.8/lib/python3.8/site-packages/torchaudio/backend/sox_io_backend.py:235: UserWarning: File-like object support in sox_io backend is deprecated, and will be removed in v2.1. See https://github.com/pytorch/audio/issues/2950 for the detail.Please migrate to the new dispatcher, or use soundfile backend.
  warnings.warn(_deprecation_message)
# Load audio from S3
bucket = "pytorch-tutorial-assets"
key = "VOiCES_devkit/source-16k/train/sp0307/Lab41-SRI-VOiCES-src-sp0307-ch127535-sg0042.wav"
client = boto3.client("s3", config=Config(signature_version=UNSIGNED))
response = client.get_object(Bucket=bucket, Key=key)
waveform, sample_rate = torchaudio.load(response["Body"])
plot_specgram(waveform, sample_rate, title="From S3")
From S3
/usr/local/envs/python3.8/lib/python3.8/site-packages/torchaudio/backend/sox_io_backend.py:235: UserWarning: File-like object support in sox_io backend is deprecated, and will be removed in v2.1. See https://github.com/pytorch/audio/issues/2950 for the detail.Please migrate to the new dispatcher, or use soundfile backend.
  warnings.warn(_deprecation_message)

Tips on slicing

Providing num_frames and frame_offset arguments restricts decoding to the corresponding segment of the input.

The same result can be achieved using vanilla Tensor slicing, (i.e. waveform[:, frame_offset:frame_offset+num_frames]). However, providing num_frames and frame_offset arguments is more efficient.

This is because the function will end data acquisition and decoding once it finishes decoding the requested frames. This is advantageous when the audio data are transferred via network as the data transfer will stop as soon as the necessary amount of data is fetched.

The following example illustrates this.

# Illustration of two different decoding methods.
# The first one will fetch all the data and decode them, while
# the second one will stop fetching data once it completes decoding.
# The resulting waveforms are identical.

frame_offset, num_frames = 16000, 16000  # Fetch and decode the 1 - 2 seconds

url = "https://download.pytorch.org/torchaudio/tutorial-assets/Lab41-SRI-VOiCES-src-sp0307-ch127535-sg0042.wav"
print("Fetching all the data...")
with requests.get(url, stream=True) as response:
    waveform1, sample_rate1 = torchaudio.load(response.raw)
    waveform1 = waveform1[:, frame_offset : frame_offset + num_frames]
    print(f" - Fetched {response.raw.tell()} bytes")

print("Fetching until the requested frames are available...")
with requests.get(url, stream=True) as response:
    waveform2, sample_rate2 = torchaudio.load(response.raw, frame_offset=frame_offset, num_frames=num_frames)
    print(f" - Fetched {response.raw.tell()} bytes")

print("Checking the resulting waveform ... ", end="")
assert (waveform1 == waveform2).all()
print("matched!")
Fetching all the data...
/usr/local/envs/python3.8/lib/python3.8/site-packages/torchaudio/backend/sox_io_backend.py:235: UserWarning: File-like object support in sox_io backend is deprecated, and will be removed in v2.1. See https://github.com/pytorch/audio/issues/2950 for the detail.Please migrate to the new dispatcher, or use soundfile backend.
  warnings.warn(_deprecation_message)
 - Fetched 108844 bytes
Fetching until the requested frames are available...
 - Fetched 65580 bytes
Checking the resulting waveform ... matched!

Saving audio to file

To save audio data in formats interpretable by common applications, you can use torchaudio.save().

This function accepts a path-like object or file-like object.

When passing a file-like object, you also need to provide argument format so that the function knows which format it should use. In the case of a path-like object, the function will infer the format from the extension. If you are saving to a file without an extension, you need to provide argument format.

When saving WAV-formatted data, the default encoding for float32 Tensor is 32-bit floating-point PCM. You can provide arguments encoding and bits_per_sample to change this behavior. For example, to save data in 16-bit signed integer PCM, you can do the following.

Note

Saving data in encodings with a lower bit depth reduces the resulting file size but also precision.

waveform, sample_rate = torchaudio.load(SAMPLE_WAV)
def inspect_file(path):
    print("-" * 10)
    print("Source:", path)
    print("-" * 10)
    print(f" - File size: {os.path.getsize(path)} bytes")
    print(f" - {torchaudio.info(path)}")
    print()

Save without any encoding option. The function will pick up the encoding which the provided data fit

with tempfile.TemporaryDirectory() as tempdir:
    path = f"{tempdir}/save_example_default.wav"
    torchaudio.save(path, waveform, sample_rate)
    inspect_file(path)
----------
Source: /tmp/tmpbf2pmeol/save_example_default.wav
----------
 - File size: 217658 bytes
 - AudioMetaData(sample_rate=16000, num_frames=54400, num_channels=1, bits_per_sample=32, encoding=PCM_F)

Save as 16-bit signed integer Linear PCM The resulting file occupies half the storage but loses precision

with tempfile.TemporaryDirectory() as tempdir:
    path = f"{tempdir}/save_example_PCM_S16.wav"
    torchaudio.save(path, waveform, sample_rate, encoding="PCM_S", bits_per_sample=16)
    inspect_file(path)
----------
Source: /tmp/tmpv9t4ubcg/save_example_PCM_S16.wav
----------
 - File size: 108844 bytes
 - AudioMetaData(sample_rate=16000, num_frames=54400, num_channels=1, bits_per_sample=16, encoding=PCM_S)

torchaudio.save() can also handle other formats. To name a few:

formats = [
    "flac",
    "vorbis",
    "sph",
    "amb",
    "amr-nb",
    "gsm",
]
waveform, sample_rate = torchaudio.load(SAMPLE_WAV_8000)
with tempfile.TemporaryDirectory() as tempdir:
    for format in formats:
        path = f"{tempdir}/save_example.{format}"
        torchaudio.save(path, waveform, sample_rate, format=format)
        inspect_file(path)
----------
Source: /tmp/tmpo0xtsgo9/save_example.flac
----------
 - File size: 37141 bytes
 - AudioMetaData(sample_rate=8000, num_frames=27200, num_channels=1, bits_per_sample=24, encoding=FLAC)

----------
Source: /tmp/tmpo0xtsgo9/save_example.vorbis
----------
 - File size: 12588 bytes
 - AudioMetaData(sample_rate=8000, num_frames=27200, num_channels=1, bits_per_sample=0, encoding=VORBIS)

----------
Source: /tmp/tmpo0xtsgo9/save_example.sph
----------
 - File size: 109824 bytes
 - AudioMetaData(sample_rate=8000, num_frames=27200, num_channels=1, bits_per_sample=32, encoding=PCM_S)

----------
Source: /tmp/tmpo0xtsgo9/save_example.amb
----------
 - File size: 108858 bytes
 - AudioMetaData(sample_rate=8000, num_frames=27200, num_channels=1, bits_per_sample=32, encoding=PCM_F)

----------
Source: /tmp/tmpo0xtsgo9/save_example.amr-nb
----------
 - File size: 2008 bytes
 - AudioMetaData(sample_rate=8000, num_frames=27200, num_channels=1, bits_per_sample=0, encoding=AMR_NB)

----------
Source: /tmp/tmpo0xtsgo9/save_example.gsm
----------
 - File size: 5610 bytes
 - AudioMetaData(sample_rate=8000, num_frames=0, num_channels=1, bits_per_sample=0, encoding=GSM)

Saving to file-like object

Similar to the other I/O functions, you can save audio to file-like objects. When saving to a file-like object, argument format is required.

waveform, sample_rate = torchaudio.load(SAMPLE_WAV)

# Saving to bytes buffer
buffer_ = io.BytesIO()
torchaudio.save(buffer_, waveform, sample_rate, format="wav")

buffer_.seek(0)
print(buffer_.read(16))
/usr/local/envs/python3.8/lib/python3.8/site-packages/torchaudio/backend/sox_io_backend.py:416: UserWarning: File-like object support in sox_io backend is deprecated, and will be removed in v2.1. See https://github.com/pytorch/audio/issues/2950 for the detail.Please migrate to the new dispatcher, or use soundfile backend.
  warnings.warn(_deprecation_message)
b'RIFF2R\x03\x00WAVEfmt '

Total running time of the script: ( 0 minutes 2.084 seconds)

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