PySoundFile is an audio library based on libsndfile, CFFI and Numpy

PySoundFile can read and write sound files. File reading/writing is supported through libsndfile, which is a free, cross-platform, open-source library for reading and writing many different sampled sound file formats that runs on many platforms including Windows, OS X, and Unix. It is accessed through CFFI, which is a foreight function interface for Python calling C code. CFFI is supported for CPython 2.6+, 3.x and PyPy 2.0+. PySoundFile represents audio data as NumPy arrays.

PySoundFile is BSD licensed.
(c) 2013, Bastian Bechtold

On the Python side, you need to have CFFI and Numpy in order to use PySoundFile. Additionally, You need the library libsndfile installed on your computer. On Unix, use your package manager to install libsndfile. Then just install PySoundFile using pip or python setup.py install.

If you are running Windows, I recommend using WinPython or some similar distribution. This should set you up with Numpy. However, you also need CFFI and it's dependency, PyCParser. A good place to get these are the Unofficial Windows Binaries for Python. Having installed those, you can download the Windows installers for PySoundFile:

PySoundFile-0.4.1.win-amd64-py2.7
PySoundFile-0.4.1.win-amd64-py3.3
PySoundFile-0.4.1.win32-py2.7
PySoundFile-0.4.1.win32-py3.3

Each SoundFile can either open a sound file on the disk, or a file-like object (using libsndfile's virtual file interface). Every sound file has a specific samplerate, data format and a set number of channels. Each sound file can be opened in read_mode, write_mode, or read_write_mode. Note that read_write_mode is unsupported for some formats.

You can read and write any file that libsndfile can open. This includes Microsoft WAV, OGG, FLAC and Matlab MAT files. Different variants of these can be built by ORing snd_types, snd_subtypes and snd_endians or using the predefined formats wave_file, flac_file, matlab_file and ogg_file. Note that specifying the format is only necessary when writing.

If a file on disk is opened, it is kept open for as long as the SoundFile object exists and closes automatically when it goes out of scope. Alternatively, the SoundFile object can be used as a context manager, which closes the file when it exits.

All data access uses frames as index. A frame is one discrete time-step in the sound file. Every frame contains as many samples as there are channels in the file.

Data can be written to the file using write(), or read from the file using read(). Every read and write operation starts at a certain position in the file. Reading N frames will change this position by N frames as well. Alternatively, seek(), and seek_absolute(), can be used to set the current position to a frame index offset from the current position, the start of the file, or the end of the file, respectively.

Here is an example for a program that reads a wave file and copies it into an ogg-vorbis file:

    from pysoundfile import SoundFile

    wave = SoundFile('existing_file.wav')
    ogg  = SoundFile('new_file.ogg', sample_rate=wave.samplerate,
                     channels=wave.channels, format=ogg_file,
                     mode=write_mode)

    data = wave.read(1024)
    while len(data) > 0:
        ogg.write(data)
        data = wave.read(1024)

Alternatively, slices can be used to access data at arbitrary positions in the file. Note that slices currently only work on frame indices, not channels.

Here is an example of reading in a whole wave file into a NumPy array:

    from pysoundfile import SoundFile

    wave = SoundFile('existing_file.wav')[:]

If you have an open file-like object, you can use something similar to this to decode it:

from io import BytesIO
from pysoundfile import SoundFile
fObj = BytesIO(open('filename.flac', 'rb').read())
flac = SoundFile(fObj, virtual_io=True)

Here is an example using an HTTP request:

from io import BytesIO
from pysoundfile import SoundFile
import requests

fObj = BytesIO()
response = requests.get('http://www.example.com/my.flac', stream=True)
for data in response.iter_content(4096):
    if data:
        fObj.write(data)
fObj.seek(0)
flac = SoundFile(fObj, virtual_io=True)

In addition to audio data, there are a number of text fields in every sound file. In particular, you can set a title, a copyright notice, a software description, the artist name, a comment, a date, the album name, a license, a tracknumber and a genre. Note however, that not all of these fields are supported for every file format.