Play and Record Sound with Python
Project description
Play and Record Sound with Python
=================================
This Python_ module provides bindings for the PortAudio_ library and a few
convenience functions to play and record NumPy_ arrays containing audio signals.
Documentation:
http://python-sounddevice.rtfd.org/
Code:
http://github.com/spatialaudio/python-sounddevice/
Python Package Index:
http://pypi.python.org/pypi/sounddevice/
.. index:: Requirements
Requirements
------------
Python:
Of course, you'll need Python_.
Any version where CFFI (see below) is supported should work.
If you don't have Python installed yet, you should get one of the
distributions which already include CFFI and NumPy (and many other useful
things), e.g. Anaconda_ or WinPython_.
pip/setuptools:
Those are needed for the installation of the Python module and its
dependencies. Most systems will have these installed already, but if not,
you should install it with your package manager or you can download and
install pip and setuptools as described on the `pip installation`_ page.
If you have pip but not setuptools, use this command::
pip install setuptools --user
CFFI:
The `C Foreign Function Interface for Python`_ is used to access the C-API
of the PortAudio library from within Python. It supports CPython 2.6, 2.7,
3.x; and is distributed with PyPy_ 2.0 beta2 or later.
You should install it with your package manager (if it's not installed
already), or you can get it with::
pip install cffi --user
PortAudio library:
The PortAudio_ library must be installed on your system (and CFFI must be
able to find it). Again, you should use your package manager to install it.
If you prefer, you can of course also download the sources and compile the
library yourself.
NumPy (optional):
NumPy_ is only needed if you want to play back and record NumPy arrays.
The classes `sounddevice.RawStream`, `sounddevice.RawInputStream` and
`sounddevice.RawOutputStream` use plain Python buffer objects and don't need
NumPy at all.
If you need NumPy, you should install it with your package manager or use a
Python distribution that already includes NumPy (see above).
Installing NumPy with pip is not recommended.
.. _PortAudio: http://www.portaudio.com/
.. _NumPy: http://www.numpy.org/
.. _Python: http://www.python.org/
.. _Anaconda: http://docs.continuum.io/anaconda/
.. _WinPython: http://winpython.github.io/
.. _C Foreign Function Interface for Python: http://cffi.readthedocs.org/
.. _PyPy: http://pypy.org/
.. _pip installation: http://www.pip-installer.org/en/latest/installing.html
.. index:: Installation
Installation
------------
Once you have installed the above-mentioned dependencies, you can use pip
to download and install the latest release with a single command::
pip install sounddevice --user
If you want to install it system-wide for all users (assuming you have the
necessary rights), you can just drop the ``--user`` option.
To un-install, use::
pip uninstall sounddevice
If you want to avoid this installation step, you can simply copy
``sounddevice.py`` to your working directory (or to any directory in your
Python path).
.. index:: Usage
Usage
-----
First, import the module:
>>> import sounddevice as sd
.. index:: play()
Playback
^^^^^^^^
Assuming you have a NumPy array named ``myarray`` holding audio data with a
sampling frequency of ``fs`` (in the most cases this will be 44100 or 48000
frames per second), you can play it back with `sounddevice.play()`:
>>> sd.play(myarray, fs)
This function returns immediately but continues playing the audio signal in the
background. You can stop playback with `sounddevice.stop()`:
>>> sd.stop()
If you know that you will always use the same sampling frequency, you can set it
as default using `sounddevice.default.samplerate`:
>>> sd.default.samplerate = fs
After that, you can drop the *samplerate* argument:
>>> sd.play(myarray)
.. index:: rec()
Recording
^^^^^^^^^
To record audio data from your sound device into a NumPy array, use
`sounddevice.rec()`:
>>> duration = 10 # seconds
>>> myrecording = sd.rec(duration * fs, samplerate=fs, channels=2)
Again, for repeated use you can set defaults using `sounddevice.default`:
>>> sd.default.samplerate = fs
>>> sd.default.channels = 2
After that, you can drop the additional arguments:
>>> myrecording = sd.rec(duration * fs)
This function also returns immediately but continues recording in the
background. In the meantime, you can run other commands, but if you want to
check if the recording is finished, you should use `sounddevice.wait()`:
>>> sd.wait()
If the recording was already finished, this returns immediately; if not, it
waits and returns as soon as the recording is finished.
Alternatively, you could have used the *blocking* argument in the first place:
>>> myrecording = sd.rec(duration * fs, blocking=True)
By default, the recorded array has the data type ``'float32'`` (see
`sounddevice.default.dtype`), but this can be changed with the *dtype* argument:
>>> myrecording = sd.rec(duration * fs, dtype='float64')
.. index:: playrec()
Simultaneous Playback and Recording
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
To play back an array and record at the same time, use `sounddevice.playrec()`:
>>> myrecording2 = sd.playrec(myarray, fs, input_channels=2)
The number of output channels is obtained from ``myarray``, but the number of
input channels still has to be specified.
Again, default values can be used:
>>> sd.default.samplerate = fs
>>> sd.default.channels = 2
>>> myrecording2 = sd.playrec(myarray)
In this case the number of output channels is still taken from ``myarray``
(which may or may not have 2 channels), but the number of input channels is
taken from `sounddevice.default.channels`.
Device Selection
^^^^^^^^^^^^^^^^
...
Streams
^^^^^^^
...
Copyright Information
---------------------
python-sounddevice (MIT License)
Copyright (c) 2015 Matthias Geier
PortAudio_ Portable Real-Time Audio Library (MIT License)
Copyright (c) 1999-2011 Ross Bencina and Phil Burk
=================================
This Python_ module provides bindings for the PortAudio_ library and a few
convenience functions to play and record NumPy_ arrays containing audio signals.
Documentation:
http://python-sounddevice.rtfd.org/
Code:
http://github.com/spatialaudio/python-sounddevice/
Python Package Index:
http://pypi.python.org/pypi/sounddevice/
.. index:: Requirements
Requirements
------------
Python:
Of course, you'll need Python_.
Any version where CFFI (see below) is supported should work.
If you don't have Python installed yet, you should get one of the
distributions which already include CFFI and NumPy (and many other useful
things), e.g. Anaconda_ or WinPython_.
pip/setuptools:
Those are needed for the installation of the Python module and its
dependencies. Most systems will have these installed already, but if not,
you should install it with your package manager or you can download and
install pip and setuptools as described on the `pip installation`_ page.
If you have pip but not setuptools, use this command::
pip install setuptools --user
CFFI:
The `C Foreign Function Interface for Python`_ is used to access the C-API
of the PortAudio library from within Python. It supports CPython 2.6, 2.7,
3.x; and is distributed with PyPy_ 2.0 beta2 or later.
You should install it with your package manager (if it's not installed
already), or you can get it with::
pip install cffi --user
PortAudio library:
The PortAudio_ library must be installed on your system (and CFFI must be
able to find it). Again, you should use your package manager to install it.
If you prefer, you can of course also download the sources and compile the
library yourself.
NumPy (optional):
NumPy_ is only needed if you want to play back and record NumPy arrays.
The classes `sounddevice.RawStream`, `sounddevice.RawInputStream` and
`sounddevice.RawOutputStream` use plain Python buffer objects and don't need
NumPy at all.
If you need NumPy, you should install it with your package manager or use a
Python distribution that already includes NumPy (see above).
Installing NumPy with pip is not recommended.
.. _PortAudio: http://www.portaudio.com/
.. _NumPy: http://www.numpy.org/
.. _Python: http://www.python.org/
.. _Anaconda: http://docs.continuum.io/anaconda/
.. _WinPython: http://winpython.github.io/
.. _C Foreign Function Interface for Python: http://cffi.readthedocs.org/
.. _PyPy: http://pypy.org/
.. _pip installation: http://www.pip-installer.org/en/latest/installing.html
.. index:: Installation
Installation
------------
Once you have installed the above-mentioned dependencies, you can use pip
to download and install the latest release with a single command::
pip install sounddevice --user
If you want to install it system-wide for all users (assuming you have the
necessary rights), you can just drop the ``--user`` option.
To un-install, use::
pip uninstall sounddevice
If you want to avoid this installation step, you can simply copy
``sounddevice.py`` to your working directory (or to any directory in your
Python path).
.. index:: Usage
Usage
-----
First, import the module:
>>> import sounddevice as sd
.. index:: play()
Playback
^^^^^^^^
Assuming you have a NumPy array named ``myarray`` holding audio data with a
sampling frequency of ``fs`` (in the most cases this will be 44100 or 48000
frames per second), you can play it back with `sounddevice.play()`:
>>> sd.play(myarray, fs)
This function returns immediately but continues playing the audio signal in the
background. You can stop playback with `sounddevice.stop()`:
>>> sd.stop()
If you know that you will always use the same sampling frequency, you can set it
as default using `sounddevice.default.samplerate`:
>>> sd.default.samplerate = fs
After that, you can drop the *samplerate* argument:
>>> sd.play(myarray)
.. index:: rec()
Recording
^^^^^^^^^
To record audio data from your sound device into a NumPy array, use
`sounddevice.rec()`:
>>> duration = 10 # seconds
>>> myrecording = sd.rec(duration * fs, samplerate=fs, channels=2)
Again, for repeated use you can set defaults using `sounddevice.default`:
>>> sd.default.samplerate = fs
>>> sd.default.channels = 2
After that, you can drop the additional arguments:
>>> myrecording = sd.rec(duration * fs)
This function also returns immediately but continues recording in the
background. In the meantime, you can run other commands, but if you want to
check if the recording is finished, you should use `sounddevice.wait()`:
>>> sd.wait()
If the recording was already finished, this returns immediately; if not, it
waits and returns as soon as the recording is finished.
Alternatively, you could have used the *blocking* argument in the first place:
>>> myrecording = sd.rec(duration * fs, blocking=True)
By default, the recorded array has the data type ``'float32'`` (see
`sounddevice.default.dtype`), but this can be changed with the *dtype* argument:
>>> myrecording = sd.rec(duration * fs, dtype='float64')
.. index:: playrec()
Simultaneous Playback and Recording
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
To play back an array and record at the same time, use `sounddevice.playrec()`:
>>> myrecording2 = sd.playrec(myarray, fs, input_channels=2)
The number of output channels is obtained from ``myarray``, but the number of
input channels still has to be specified.
Again, default values can be used:
>>> sd.default.samplerate = fs
>>> sd.default.channels = 2
>>> myrecording2 = sd.playrec(myarray)
In this case the number of output channels is still taken from ``myarray``
(which may or may not have 2 channels), but the number of input channels is
taken from `sounddevice.default.channels`.
Device Selection
^^^^^^^^^^^^^^^^
...
Streams
^^^^^^^
...
Copyright Information
---------------------
python-sounddevice (MIT License)
Copyright (c) 2015 Matthias Geier
PortAudio_ Portable Real-Time Audio Library (MIT License)
Copyright (c) 1999-2011 Ross Bencina and Phil Burk
