441 lines
17 KiB
ReStructuredText
441 lines
17 KiB
ReStructuredText
:mod:`ossaudiodev` --- Access to OSS-compatible audio devices
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=============================================================
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.. module:: ossaudiodev
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:platform: Linux, FreeBSD
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:synopsis: Access to OSS-compatible audio devices.
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This module allows you to access the OSS (Open Sound System) audio interface.
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OSS is available for a wide range of open-source and commercial Unices, and is
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the standard audio interface for Linux and recent versions of FreeBSD.
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.. Things will get more complicated for future Linux versions, since
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ALSA is in the standard kernel as of 2.5.x. Presumably if you
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use ALSA, you'll have to make sure its OSS compatibility layer
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is active to use ossaudiodev, but you're gonna need it for the vast
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majority of Linux audio apps anyway.
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Sounds like things are also complicated for other BSDs. In response
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to my python-dev query, Thomas Wouters said:
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> Likewise, googling shows OpenBSD also uses OSS/Free -- the commercial
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> OSS installation manual tells you to remove references to OSS/Free from the
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> kernel :)
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but Aleksander Piotrowsk actually has an OpenBSD box, and he quotes
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from its <soundcard.h>:
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> * WARNING! WARNING!
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> * This is an OSS (Linux) audio emulator.
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> * Use the Native NetBSD API for developing new code, and this
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> * only for compiling Linux programs.
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There's also an ossaudio manpage on OpenBSD that explains things
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further. Presumably NetBSD and OpenBSD have a different standard
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audio interface. That's the great thing about standards, there are so
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many to choose from ... ;-)
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This probably all warrants a footnote or two, but I don't understand
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things well enough right now to write it! --GPW
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.. versionchanged:: 3.3
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Operations in this module now raise :exc:`OSError` where :exc:`IOError`
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was raised.
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.. seealso::
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`Open Sound System Programmer's Guide <http://www.opensound.com/pguide/oss.pdf>`_
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the official documentation for the OSS C API
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The module defines a large number of constants supplied by the OSS device
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driver; see ``<sys/soundcard.h>`` on either Linux or FreeBSD for a listing.
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:mod:`ossaudiodev` defines the following variables and functions:
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.. exception:: OSSAudioError
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This exception is raised on certain errors. The argument is a string describing
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what went wrong.
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(If :mod:`ossaudiodev` receives an error from a system call such as
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:c:func:`open`, :c:func:`write`, or :c:func:`ioctl`, it raises :exc:`OSError`.
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Errors detected directly by :mod:`ossaudiodev` result in :exc:`OSSAudioError`.)
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(For backwards compatibility, the exception class is also available as
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``ossaudiodev.error``.)
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.. function:: open(mode)
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open(device, mode)
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Open an audio device and return an OSS audio device object. This object
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supports many file-like methods, such as :meth:`read`, :meth:`write`, and
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:meth:`fileno` (although there are subtle differences between conventional Unix
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read/write semantics and those of OSS audio devices). It also supports a number
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of audio-specific methods; see below for the complete list of methods.
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*device* is the audio device filename to use. If it is not specified, this
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module first looks in the environment variable :envvar:`AUDIODEV` for a device
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to use. If not found, it falls back to :file:`/dev/dsp`.
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*mode* is one of ``'r'`` for read-only (record) access, ``'w'`` for
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write-only (playback) access and ``'rw'`` for both. Since many sound cards
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only allow one process to have the recorder or player open at a time, it is a
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good idea to open the device only for the activity needed. Further, some
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sound cards are half-duplex: they can be opened for reading or writing, but
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not both at once.
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Note the unusual calling syntax: the *first* argument is optional, and the
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second is required. This is a historical artifact for compatibility with the
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older :mod:`linuxaudiodev` module which :mod:`ossaudiodev` supersedes.
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.. XXX it might also be motivated
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by my unfounded-but-still-possibly-true belief that the default
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audio device varies unpredictably across operating systems. -GW
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.. function:: openmixer([device])
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Open a mixer device and return an OSS mixer device object. *device* is the
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mixer device filename to use. If it is not specified, this module first looks
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in the environment variable :envvar:`MIXERDEV` for a device to use. If not
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found, it falls back to :file:`/dev/mixer`.
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.. _ossaudio-device-objects:
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Audio Device Objects
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--------------------
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Before you can write to or read from an audio device, you must call three
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methods in the correct order:
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#. :meth:`setfmt` to set the output format
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#. :meth:`channels` to set the number of channels
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#. :meth:`speed` to set the sample rate
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Alternately, you can use the :meth:`setparameters` method to set all three audio
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parameters at once. This is more convenient, but may not be as flexible in all
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cases.
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The audio device objects returned by :func:`.open` define the following methods
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and (read-only) attributes:
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.. method:: oss_audio_device.close()
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Explicitly close the audio device. When you are done writing to or reading from
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an audio device, you should explicitly close it. A closed device cannot be used
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again.
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.. method:: oss_audio_device.fileno()
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Return the file descriptor associated with the device.
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.. method:: oss_audio_device.read(size)
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Read *size* bytes from the audio input and return them as a Python string.
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Unlike most Unix device drivers, OSS audio devices in blocking mode (the
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default) will block :func:`read` until the entire requested amount of data is
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available.
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.. method:: oss_audio_device.write(data)
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Write the Python string *data* to the audio device and return the number of
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bytes written. If the audio device is in blocking mode (the default), the
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entire string is always written (again, this is different from usual Unix device
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semantics). If the device is in non-blocking mode, some data may not be written
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---see :meth:`writeall`.
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.. method:: oss_audio_device.writeall(data)
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Write the entire Python string *data* to the audio device: waits until the audio
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device is able to accept data, writes as much data as it will accept, and
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repeats until *data* has been completely written. If the device is in blocking
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mode (the default), this has the same effect as :meth:`write`; :meth:`writeall`
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is only useful in non-blocking mode. Has no return value, since the amount of
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data written is always equal to the amount of data supplied.
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.. versionchanged:: 3.2
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Audio device objects also support the context manager protocol, i.e. they can
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be used in a :keyword:`with` statement.
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The following methods each map to exactly one :c:func:`ioctl` system call. The
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correspondence is obvious: for example, :meth:`setfmt` corresponds to the
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``SNDCTL_DSP_SETFMT`` ioctl, and :meth:`sync` to ``SNDCTL_DSP_SYNC`` (this can
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be useful when consulting the OSS documentation). If the underlying
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:c:func:`ioctl` fails, they all raise :exc:`OSError`.
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.. method:: oss_audio_device.nonblock()
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Put the device into non-blocking mode. Once in non-blocking mode, there is no
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way to return it to blocking mode.
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.. method:: oss_audio_device.getfmts()
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Return a bitmask of the audio output formats supported by the soundcard. Some
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of the formats supported by OSS are:
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+-------------------------+---------------------------------------------+
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| Format | Description |
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+=========================+=============================================+
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| :const:`AFMT_MU_LAW` | a logarithmic encoding (used by Sun ``.au`` |
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| | files and :file:`/dev/audio`) |
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+-------------------------+---------------------------------------------+
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| :const:`AFMT_A_LAW` | a logarithmic encoding |
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+-------------------------+---------------------------------------------+
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| :const:`AFMT_IMA_ADPCM` | a 4:1 compressed format defined by the |
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| | Interactive Multimedia Association |
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+-------------------------+---------------------------------------------+
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| :const:`AFMT_U8` | Unsigned, 8-bit audio |
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+-------------------------+---------------------------------------------+
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| :const:`AFMT_S16_LE` | Signed, 16-bit audio, little-endian byte |
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| | order (as used by Intel processors) |
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+-------------------------+---------------------------------------------+
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| :const:`AFMT_S16_BE` | Signed, 16-bit audio, big-endian byte order |
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| | (as used by 68k, PowerPC, Sparc) |
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+-------------------------+---------------------------------------------+
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| :const:`AFMT_S8` | Signed, 8 bit audio |
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+-------------------------+---------------------------------------------+
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| :const:`AFMT_U16_LE` | Unsigned, 16-bit little-endian audio |
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+-------------------------+---------------------------------------------+
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| :const:`AFMT_U16_BE` | Unsigned, 16-bit big-endian audio |
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+-------------------------+---------------------------------------------+
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Consult the OSS documentation for a full list of audio formats, and note that
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most devices support only a subset of these formats. Some older devices only
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support :const:`AFMT_U8`; the most common format used today is
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:const:`AFMT_S16_LE`.
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.. method:: oss_audio_device.setfmt(format)
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Try to set the current audio format to *format*---see :meth:`getfmts` for a
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list. Returns the audio format that the device was set to, which may not be the
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requested format. May also be used to return the current audio format---do this
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by passing an "audio format" of :const:`AFMT_QUERY`.
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.. method:: oss_audio_device.channels(nchannels)
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Set the number of output channels to *nchannels*. A value of 1 indicates
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monophonic sound, 2 stereophonic. Some devices may have more than 2 channels,
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and some high-end devices may not support mono. Returns the number of channels
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the device was set to.
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.. method:: oss_audio_device.speed(samplerate)
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Try to set the audio sampling rate to *samplerate* samples per second. Returns
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the rate actually set. Most sound devices don't support arbitrary sampling
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rates. Common rates are:
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+-------+-------------------------------------------+
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| Rate | Description |
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+=======+===========================================+
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| 8000 | default rate for :file:`/dev/audio` |
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+-------+-------------------------------------------+
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| 11025 | speech recording |
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+-------+-------------------------------------------+
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| 22050 | |
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+-------+-------------------------------------------+
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| 44100 | CD quality audio (at 16 bits/sample and 2 |
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| | channels) |
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+-------+-------------------------------------------+
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| 96000 | DVD quality audio (at 24 bits/sample) |
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+-------+-------------------------------------------+
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.. method:: oss_audio_device.sync()
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Wait until the sound device has played every byte in its buffer. (This happens
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implicitly when the device is closed.) The OSS documentation recommends closing
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and re-opening the device rather than using :meth:`sync`.
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.. method:: oss_audio_device.reset()
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Immediately stop playing or recording and return the device to a state where it
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can accept commands. The OSS documentation recommends closing and re-opening
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the device after calling :meth:`reset`.
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.. method:: oss_audio_device.post()
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Tell the driver that there is likely to be a pause in the output, making it
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possible for the device to handle the pause more intelligently. You might use
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this after playing a spot sound effect, before waiting for user input, or before
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doing disk I/O.
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The following convenience methods combine several ioctls, or one ioctl and some
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simple calculations.
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.. method:: oss_audio_device.setparameters(format, nchannels, samplerate[, strict=False])
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Set the key audio sampling parameters---sample format, number of channels, and
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sampling rate---in one method call. *format*, *nchannels*, and *samplerate*
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should be as specified in the :meth:`setfmt`, :meth:`channels`, and
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:meth:`speed` methods. If *strict* is true, :meth:`setparameters` checks to
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see if each parameter was actually set to the requested value, and raises
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:exc:`OSSAudioError` if not. Returns a tuple (*format*, *nchannels*,
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*samplerate*) indicating the parameter values that were actually set by the
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device driver (i.e., the same as the return values of :meth:`setfmt`,
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:meth:`channels`, and :meth:`speed`).
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For example, ::
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(fmt, channels, rate) = dsp.setparameters(fmt, channels, rate)
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is equivalent to ::
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fmt = dsp.setfmt(fmt)
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channels = dsp.channels(channels)
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rate = dsp.rate(rate)
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.. method:: oss_audio_device.bufsize()
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Returns the size of the hardware buffer, in samples.
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.. method:: oss_audio_device.obufcount()
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Returns the number of samples that are in the hardware buffer yet to be played.
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.. method:: oss_audio_device.obuffree()
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Returns the number of samples that could be queued into the hardware buffer to
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be played without blocking.
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Audio device objects also support several read-only attributes:
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.. attribute:: oss_audio_device.closed
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Boolean indicating whether the device has been closed.
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.. attribute:: oss_audio_device.name
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String containing the name of the device file.
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.. attribute:: oss_audio_device.mode
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The I/O mode for the file, either ``"r"``, ``"rw"``, or ``"w"``.
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.. _mixer-device-objects:
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Mixer Device Objects
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--------------------
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The mixer object provides two file-like methods:
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.. method:: oss_mixer_device.close()
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This method closes the open mixer device file. Any further attempts to use the
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mixer after this file is closed will raise an :exc:`OSError`.
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.. method:: oss_mixer_device.fileno()
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Returns the file handle number of the open mixer device file.
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.. versionchanged:: 3.2
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Mixer objects also support the context manager protocol.
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The remaining methods are specific to audio mixing:
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.. method:: oss_mixer_device.controls()
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This method returns a bitmask specifying the available mixer controls ("Control"
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being a specific mixable "channel", such as :const:`SOUND_MIXER_PCM` or
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:const:`SOUND_MIXER_SYNTH`). This bitmask indicates a subset of all available
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mixer controls---the :const:`SOUND_MIXER_\*` constants defined at module level.
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To determine if, for example, the current mixer object supports a PCM mixer, use
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the following Python code::
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mixer=ossaudiodev.openmixer()
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if mixer.controls() & (1 << ossaudiodev.SOUND_MIXER_PCM):
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# PCM is supported
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... code ...
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For most purposes, the :const:`SOUND_MIXER_VOLUME` (master volume) and
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:const:`SOUND_MIXER_PCM` controls should suffice---but code that uses the mixer
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should be flexible when it comes to choosing mixer controls. On the Gravis
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Ultrasound, for example, :const:`SOUND_MIXER_VOLUME` does not exist.
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.. method:: oss_mixer_device.stereocontrols()
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Returns a bitmask indicating stereo mixer controls. If a bit is set, the
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corresponding control is stereo; if it is unset, the control is either
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monophonic or not supported by the mixer (use in combination with
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:meth:`controls` to determine which).
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See the code example for the :meth:`controls` function for an example of getting
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data from a bitmask.
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.. method:: oss_mixer_device.reccontrols()
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Returns a bitmask specifying the mixer controls that may be used to record. See
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the code example for :meth:`controls` for an example of reading from a bitmask.
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.. method:: oss_mixer_device.get(control)
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Returns the volume of a given mixer control. The returned volume is a 2-tuple
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``(left_volume,right_volume)``. Volumes are specified as numbers from 0
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(silent) to 100 (full volume). If the control is monophonic, a 2-tuple is still
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returned, but both volumes are the same.
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Raises :exc:`OSSAudioError` if an invalid control was is specified, or
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:exc:`OSError` if an unsupported control is specified.
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.. method:: oss_mixer_device.set(control, (left, right))
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Sets the volume for a given mixer control to ``(left,right)``. ``left`` and
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``right`` must be ints and between 0 (silent) and 100 (full volume). On
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success, the new volume is returned as a 2-tuple. Note that this may not be
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exactly the same as the volume specified, because of the limited resolution of
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some soundcard's mixers.
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Raises :exc:`OSSAudioError` if an invalid mixer control was specified, or if the
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specified volumes were out-of-range.
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.. method:: oss_mixer_device.get_recsrc()
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This method returns a bitmask indicating which control(s) are currently being
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used as a recording source.
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.. method:: oss_mixer_device.set_recsrc(bitmask)
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Call this function to specify a recording source. Returns a bitmask indicating
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the new recording source (or sources) if successful; raises :exc:`OSError` if an
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invalid source was specified. To set the current recording source to the
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microphone input::
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mixer.setrecsrc (1 << ossaudiodev.SOUND_MIXER_MIC)
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