mirror of https://github.com/python/cpython
Rewrite intro paragraphs and add a "See also" box for the link to the
official OSS docs. Markup fixes: change \code{} variously to \function{}, \method{}, or \constant{} as appropriate.
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@ -1,26 +1,27 @@
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\section{\module{ossaudiodev} ---
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Access to Open Sound System-compatible audio hardware}
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Access to OSS-compatible audio devices}
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\declaremodule{builtin}{ossaudiodev}
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\platform{OSS}
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\modulesynopsis{Access to OSS-compatible audio hardware.}
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\platform{Linux, FreeBSD}
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\modulesynopsis{Access to OSS-compatible audio devices.}
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% I know FreeBSD uses OSS -- what about Net- and Open-?
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This module allows you to access the Open Sound System audio interface.
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The Open Sound System interface is present on Linux and FreeBSD.
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% XXX OSS is standard for Linux and FreeBSD -- what about NetBSD?
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% OpenBSD? others?
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This module allows you to access the OSS (Open Sound System) audio
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interface. OSS is available for a wide range of open-source and
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commercial Unices, and is the standard audio interface for Linux (up to
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kernel 2.4) and FreeBSD.
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This module provides a very "bare bones" wrapper over the IOCTLs used to
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access the audio hardware. The best---albeit rather daunting---way to
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get a feel for the interface is from the Open Sound System official
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documentation:
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\begin{seealso}
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\seetitle[http://www.opensound.com/pguide/oss.pdf]
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{Open Sound System Programmer's Guide}
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{the official documentation for the OSS C API}
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\seetext{The module defines a large number of constants supplied by
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the OSS device driver; see \file{<sys/soundcard.h>} on either
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Linux or FreeBSD for a listing .}
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\end{seealso}
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\url{http://www.opensound.com/pguide/oss.pdf}
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The module defines a number of constants which may be used to program
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the device. These constants are the same as those defined in the C
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include file \code{<sys/soundcard.h>}.
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\code{ossaudiodev} defines the following variables and functions:
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\module{ossaudiodev} defines the following variables and functions:
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\begin{excdesc}{error}
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This exception is raised on errors. The argument is a string describing
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@ -31,7 +32,7 @@ what went wrong.
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This function opens the audio device and returns an OSS audio device
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object. This object can then be used to do I/O on. The \var{device}
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parameter is the audio device filename to use. If it is not specified,
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this module first looks in the environment variable \code{AUDIODEV} for
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this module first looks in the environment variable \envvar{AUDIODEV} for
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a device to use. If not found, it falls back to \file{/dev/dsp}.
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The \var{mode} parameter is one of \code{'r'} for record-only access,
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@ -46,7 +47,7 @@ for reading or writing, but not both at once.
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opens the mixer device and returns an OSS mixer device object. The
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\var{device} parameter is the mixer device filename to use. If it is
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not specified, this module first looks in the environment variable
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\code{MIXERDEV} for a device to use. If not found, it falls back to
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\envvar{MIXERDEV} for a device to use. If not found, it falls back to
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\file{/dev/mixer}. You may specify \code{'r'}, \code{'rw'} or
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\code{'w'} for \var{mode}; the default is \code{'r'}.
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@ -59,9 +60,9 @@ Setting up the device
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To set up the device, three functions must be called in the correct
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sequence:
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\begin{enumerate}
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\item \code{setfmt()} to set the output format,
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\item \code{channels()} to set the number of channels, and
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\item \code{speed()} to set the sample rate.
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\item \method{setfmt()} to set the output format,
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\item \method{channels()} to set the number of channels, and
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\item \method{speed()} to set the sample rate.
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\end{enumerate}
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The audio device objects are returned by \function{open()} define the
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@ -86,15 +87,16 @@ Python string. The function blocks until enough data is available.
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Writes Python string \var{data} to the audio device and returns the
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number of bytes written. If the audio device is opened in blocking
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mode, the entire string is always written. If the device is opened in
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nonblocking mode, some data may not be written---see \code{writeall}.
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nonblocking mode, some data may not be written---see
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\method{writeall()}.
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\end{methoddesc}
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\begin{methoddesc}[audio device]{writeall}{data}
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Writes the entire Python string \var{data} to the audio device. If the
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device is opened in blocking mode, behaves identially to \code{write};
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in nonblocking mode, waits until the device becomes available before
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feeding it more data. Returns None, since the amount of data written is
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always equal to the amount of data supplied.
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device is opened in blocking mode, behaves identially to
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\method{write()}; in nonblocking mode, waits until the device becomes
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available before feeding it more data. Returns \code{None}, since the
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amount of data written is always equal to the amount of data supplied.
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\end{methoddesc}
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Simple IOCTLs:
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@ -113,7 +115,7 @@ soundcard. On a typical Linux system, these formats are:
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\begin{tableii}{l|l}{constant}{Format}{Description}
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\lineii{AFMT_MU_LAW}
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{a logarithmic encoding. This is the default format on
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/dev/audio and is the format used by Sun .au files.}
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\file{/dev/audio} and is the format used by Sun .au files.}
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\lineii{AFMT_A_LAW}
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{a logarithmic encoding}
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\lineii{AFMT_IMA_ADPCM}
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@ -135,16 +137,16 @@ soundcard. On a typical Linux system, these formats are:
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{Signed, 16-bit big-endian audio}
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\end{tableii}
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Most systems support only a subset of these formats. Many devices only
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support \code{AFMT_U8}; the most common format used today is
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\code{AFMT_S16_LE}.
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support \constant{AFMT_U8}; the most common format used today is
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\constant{AFMT_S16_LE}.
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\end{methoddesc}
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\begin{methoddesc}[audio device]{setfmt}{format}
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Used to set the current audio format to \var{format}---see
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\code{getfmts} for a list. May also be used to return the current audio
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format---do this by passing an ``audio format'' of \code{AFMT_QUERY}.
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Returns the audio format that the device was set to, which may not be
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the requested format.
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\method{getfmts()} for a list. May also be used to return the current
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audio format---do this by passing an ``audio format'' of
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\constant{AFMT_QUERY}. Returns the audio format that the device was set
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to, which may not be the requested format.
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\end{methoddesc}
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\begin{methoddesc}[audio device]{channels}{num_channels}
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@ -170,20 +172,20 @@ sample rates. Common rates are:
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Waits until the sound device has played every byte in its buffer and
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returns. This also occurs when the sound device is closed. The OSS
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documentation recommends simply closing and re-opening the device rather
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than using \code{sync}.
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than using \method{sync()}.
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\end{methoddesc}
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\begin{methoddesc}[audio device]{reset}
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Immediately stops and playing or recording and returns the device to a
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state where it can accept commands. The OSS documentation recommends
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closing and re-opening the device after calling \code{reset}.
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closing and re-opening the device after calling \method{reset()}.
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\end{methoddesc}
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\begin{methoddesc}[audio device]{post}
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To be used like a lightweight \code{sync}, the \code{post} IOCTL informs
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the audio device that there is a likely to be a pause in the audio
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output---i.e., after playing a spot sound effect, before waiting for
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user input, or before doing disk IO.
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To be used like a lightweight \method{sync()}, the \method{post()}
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IOCTL informs the audio device that there is a likely to be a pause in
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the audio output---i.e., after playing a spot sound effect, before
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waiting for user input, or before doing disk I/O.
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\end{methoddesc}
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Convenience methods
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\begin{methoddesc}[audio device]{setparameters}{samplerate,num_channels,format,emulate}
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Initialise the sound device in one method. \var{samplerate},
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\var{channels} and \var{format} should be as specified in the
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\code{speed}, \code{channels} and \code{setfmt} methods. If
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\var{emulate} is true, attempt to find the closest matching format
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instead, otherwise raise ValueError if the device does not support the
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format. The default is to raise ValueError on unsupported formats.
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\method{speed()}, \method{channels()} and \method{setfmt()}
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methods. If \var{emulate} is true, attempt to find the closest matching
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format instead, otherwise raise ValueError if the device does not
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support the format. The default is to raise ValueError on unsupported
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formats.
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\end{methoddesc}
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\begin{methoddesc}[audio device]{bufsize}{}
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\begin{methoddesc}[mixer device]{controls}{}
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This method returns a bitmask specifying the available mixer controls
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(``Control'' being a specific mixable ``channel'', such as
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\code{SOUND_MIXER_PCM} or \code{SOUND_MIXER_SYNTH}). This
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\constant{SOUND_MIXER_PCM} or \constant{SOUND_MIXER_SYNTH}). This
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bitmask indicates a subset of all available mixer channels---the
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\code{SOUND_MIXER_*} constants defined at module level. To determine if,
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\constant{SOUND_MIXER_*} constants defined at module level. To determine if,
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for example, the current mixer object supports a PCM mixer, use the
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following Python code:
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<code>
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\end{verbatim}
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For most purposes, the \code{SOUND_MIXER_VOLUME} (Master volume) and
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\code{SOUND_MIXER_PCM} channels should suffice---but code that uses the
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For most purposes, the \constant{SOUND_MIXER_VOLUME} (Master volume) and
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\constant{SOUND_MIXER_PCM} channels should suffice---but code that uses the
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mixer should be flexible when it comes to choosing sound channels. On
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the Gravis Ultrasound, for example, \code{SOUND_MIXER_VOLUME} does not
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the Gravis Ultrasound, for example, \constant{SOUND_MIXER_VOLUME} does not
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exist.
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\end{methoddesc}
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Returns a bitmask indicating stereo mixer channels. If a bit is set,
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the corresponding channel is stereo; if it is unset, the channel is
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either monophonic or not supported by the mixer (use in combination with
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\function{channels} to determine which).
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\method{channels()} to determine which).
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See the code example for the \function{channels} function for an example
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See the code example for the \method{channels()} function for an example
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of getting data from a bitmask.
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\end{methoddesc}
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\begin{methoddesc}[mixer device]{reccontrols}{}
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Returns a bitmask specifying the mixer controls that may be used to
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record. See the code example for \function{controls} for an example of
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record. See the code example for \method{controls()} for an example of
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reading from a bitmask.
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\end{methoddesc}
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\begin{methoddesc}[mixer device]{get}{channel}
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Returns the volume of a given mixer channel. The returned volume is a
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2-tuple of \code{left volume, right volume}. Volumes are specified as
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2-tuple \code{(left_volume,right_volume)}. Volumes are specified as
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numbers from 0 (silent) to 100 (full volume). If the channel is
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monophonic, a 2-tuple is still returned, but both channel volumes are
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the same.
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\end{methoddesc}
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\begin{methoddesc}[mixer device]{set}{channel, (left, right)}
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Sets the volume for a given mixer channel to \code{(left, right)}.
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Sets the volume for a given mixer channel to \code{(left,right)}.
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\code{left} and \code{right} must be ints and between 0 (silent) and 100
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(full volume). On success, the new volume is returned as a 2-tuple.
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Note that this may not be exactly the same as the volume specified,
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