view docs/html/sdlopenaudio.html @ 4139:568c9b3c0167 SDL-1.2

* Added configure option --enable-screensaver, to allow enabling the screensaver by default. * Use XResetScreenSaver() instead of disabling screensaver entirely. Full discussion summary from Erik on the SDL mailing list: Current behaviour ================= SDL changes the user's display power management settings without permission from the user and without telling the user. The interface that it uses to do so is DPMSDisable/DPMSEnable, which should only ever be used by configuration utilities like KControl, never by normal application programs, let alone by the libraries that they use. Using an interface that is not at all intended for what SDL tries to achieve means that it will not work as it should. Firstly, the power management is completely disabled during the whole lifetime of the SDL program, not only when it should be. Secondly, it makes SDL non-reentrant, meaning that things will break when multiple SDL programs are clients of the same X server simultaneously. Thirdly, no cleanup mechanism ensures that the setting is restored if the client does not do that (for example if it crashes). In addition to that, this interface is broken on xorg, [http://bugs.freedesktop.org/show_bug.cgi?id=13962], so what SDL tries to do does not work at all on that implementation of the X Window System. (The reason that the DPMSEnable works in KControl is that it calls DPMSSetTimeout immediately after, [http://websvn.kde.org/tags/KDE/3.5.9/kdebase/kcontrol/energy/energy.cpp?annotate=774532#l343]). The problems that the current behaviour causes ============================================== 1. Information leak. When the user is away, someone might see what the user has on the display when the user counts on the screensaver preventing this. This does not even require physical access to the workstation, it is enough to see it from a distance. 2. Draining battery. An SDL program that runs on a laptop will quickly drain the battery while the user is away. The system will soon shut down and require recharging before being usable again, while it should in fact have consumed very little energy if the user's settings would have been obeyed. 3. Wasting energy. Even if battery issues are not considered, energy as such is wasted. 4. Display wear. The display may be worn out. The problems that the current behaviour tries to solve ====================================================== 1. Preventing screensaver while playing movies. Many SDL applications are media players. They have reasons to prevent screensavers from being activated while a movie is being played. When a user clicks on the play button it can be interpreted as saying "play this movie, but do not turn off the display while playing it, because I will watch it even though I do not interact with the system". 2. Preventing screensaver when some input bypasses X. Sometimes SDL uses input from another source than the X server, so that the X server is bypassed. This obviously breaks the screensaver handling. SDL tries to work around that. 3. Preventing screensaver when all input bypasses X. There is something called Direct Graphics Access mode, where a program takes control of both the display and the input devices from the X server. This obviously means that the X server can not handle the screensaver alone, since screensaver handling depends on input handling. SDL does not do what it should to help the X server to handle the screensaver. Nor does SDL take care of screeensaver handling itself. SDL simply disables the screensaver completely. How the problems should be solved ================================= The correct way for an application program to prevent the screensaver under X is to call XResetScreenSaver. This was recently discovered and implemented by the mplayer developers, [http://svn.mplayerhq.hu/mplayer?view=rev&revision=25637]. SDL needs to wrap this in an API call (SDL_ResetScreenSaver) and implement it for the other video targets (if they do not have a corresponding call, SDL should do what it takes on that particular target, for example sending fake key events). 1. When a movie is played, the player should reset the screensaver when the animation is advanced to a new frame. The same applies to anything similar, like slideshows. 2. When the X server is handling input, it must handle all input (keyboards, mice, gamepads, ...). This is necessary, not only to be able to handle the screensaver, but also so that it can send the events to the correct (the currently active) client. If there is an input device that the X server can not handle for some reason (such as lack of Plug and Play capability), the program that handles the device as a workaround must simulate what would happen if the X server would have handled the device, by calling XResetScreenSaver when input is received from the device. 3. When the X server is not handling the input, it depends on the program that does to call XResetScreenSaver whenever an input event occurs. Alternatively the program must handle the screensaver countdown internally and call XActivateScreenSaver.
author Sam Lantinga <slouken@libsdl.org>
date Fri, 29 Feb 2008 13:55:44 +0000
parents 355632dca928
children
line wrap: on
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<HTML
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><H1
><A
NAME="SDLOPENAUDIO"
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>SDL_OpenAudio</H1
><DIV
CLASS="REFNAMEDIV"
><A
NAME="AEN6650"
></A
><H2
>Name</H2
>SDL_OpenAudio&nbsp;--&nbsp;Opens the audio device with the desired parameters.</DIV
><DIV
CLASS="REFSYNOPSISDIV"
><A
NAME="AEN6653"
></A
><H2
>Synopsis</H2
><DIV
CLASS="FUNCSYNOPSIS"
><A
NAME="AEN6654"
></A
><P
></P
><PRE
CLASS="FUNCSYNOPSISINFO"
>#include "SDL.h"</PRE
><P
><CODE
><CODE
CLASS="FUNCDEF"
>int <B
CLASS="FSFUNC"
>SDL_OpenAudio</B
></CODE
>(SDL_AudioSpec *desired, SDL_AudioSpec *obtained);</CODE
></P
><P
></P
></DIV
></DIV
><DIV
CLASS="REFSECT1"
><A
NAME="AEN6660"
></A
><H2
>Description</H2
><P
>This function opens the audio device with the <TT
CLASS="PARAMETER"
><I
>desired</I
></TT
> parameters, and
returns 0 if successful, placing the actual hardware parameters in the
structure pointed to by <TT
CLASS="PARAMETER"
><I
>obtained</I
></TT
>.  If <TT
CLASS="PARAMETER"
><I
>obtained</I
></TT
> is NULL, the audio
data passed to the callback function will be guaranteed to be in the
requested format, and will be automatically converted to the hardware
audio format if necessary.  This function returns -1 if it failed 
to open the audio device, or couldn't set up the audio thread.</P
><P
>To open the audio device a <TT
CLASS="PARAMETER"
><I
>desired</I
></TT
> <A
HREF="sdlaudiospec.html"
><SPAN
CLASS="STRUCTNAME"
>SDL_AudioSpec</SPAN
></A
> must be created.
<PRE
CLASS="PROGRAMLISTING"
>SDL_AudioSpec *desired;
.
.
desired = malloc(sizeof(SDL_AudioSpec));</PRE
>
You must then fill this structure with your desired audio specifications.</P
><P
></P
><DIV
CLASS="VARIABLELIST"
><DL
><DT
><SPAN
CLASS="STRUCTNAME"
>desired</SPAN
>-&#62;<TT
CLASS="STRUCTFIELD"
><I
>freq</I
></TT
></DT
><DD
><P
>The desired audio frequency in samples-per-second.</P
></DD
><DT
><SPAN
CLASS="STRUCTNAME"
>desired</SPAN
>-&#62;<TT
CLASS="STRUCTFIELD"
><I
>format</I
></TT
></DT
><DD
><P
>The desired audio format (see <A
HREF="sdlaudiospec.html"
><SPAN
CLASS="STRUCTNAME"
>SDL_AudioSpec</SPAN
></A
>)</P
></DD
><DT
><SPAN
CLASS="STRUCTNAME"
>desired</SPAN
>-&#62;<TT
CLASS="STRUCTFIELD"
><I
>samples</I
></TT
></DT
><DD
><P
>The desired size of the audio buffer in samples. This number should be a power of two, and may be adjusted by the audio driver to a value more suitable for the hardware.  Good values seem to range between 512 and 8192 inclusive, depending on the application and CPU speed.  Smaller values yield faster response time, but can lead to underflow if the application is doing heavy processing and cannot fill the audio buffer in time.  A stereo sample consists of both right and left channels in LR ordering.  Note that the number of samples is directly related to time by the following formula:  ms = (samples*1000)/freq</P
></DD
><DT
><SPAN
CLASS="STRUCTNAME"
>desired</SPAN
>-&#62;<TT
CLASS="STRUCTFIELD"
><I
>callback</I
></TT
></DT
><DD
><P
>This should be set to a function that will be called when the audio device is ready for more data.  It is passed a pointer to the audio buffer, and the length in bytes of the audio buffer. This function usually runs in a separate thread, and so you should protect data structures that it accesses by calling <A
HREF="sdllockaudio.html"
><TT
CLASS="FUNCTION"
>SDL_LockAudio</TT
></A
> and <A
HREF="sdlunlockaudio.html"
><TT
CLASS="FUNCTION"
>SDL_UnlockAudio</TT
></A
> in your code. The callback prototype is:
<PRE
CLASS="PROGRAMLISTING"
>void callback(void *userdata, Uint8 *stream, int len);</PRE
>
<TT
CLASS="PARAMETER"
><I
>userdata</I
></TT
> is the pointer stored in <TT
CLASS="STRUCTFIELD"
><I
>userdata</I
></TT
> field of the <SPAN
CLASS="STRUCTNAME"
>SDL_AudioSpec</SPAN
>. <TT
CLASS="PARAMETER"
><I
>stream</I
></TT
> is a pointer to the audio buffer you want to fill with information and <TT
CLASS="PARAMETER"
><I
>len</I
></TT
> is the length of the audio buffer in bytes.</P
></DD
><DT
><SPAN
CLASS="STRUCTNAME"
>desired</SPAN
>-&#62;<TT
CLASS="STRUCTFIELD"
><I
>userdata</I
></TT
></DT
><DD
><P
>This pointer is passed as the first parameter to the <TT
CLASS="FUNCTION"
>callback</TT
> function.</P
></DD
></DL
></DIV
><P
><TT
CLASS="FUNCTION"
>SDL_OpenAudio</TT
> reads these fields from the <TT
CLASS="PARAMETER"
><I
>desired</I
></TT
> <SPAN
CLASS="STRUCTNAME"
>SDL_AudioSpec</SPAN
> structure pass to the function and attempts to find an audio configuration matching your <TT
CLASS="PARAMETER"
><I
>desired</I
></TT
>. As mentioned above, if the <TT
CLASS="PARAMETER"
><I
>obtained</I
></TT
> parameter is <TT
CLASS="LITERAL"
>NULL</TT
> then SDL with convert from your <TT
CLASS="PARAMETER"
><I
>desired</I
></TT
> audio settings to the hardware settings as it plays.</P
><P
>If <TT
CLASS="PARAMETER"
><I
>obtained</I
></TT
> is <TT
CLASS="LITERAL"
>NULL</TT
> then the <TT
CLASS="PARAMETER"
><I
>desired</I
></TT
> <SPAN
CLASS="STRUCTNAME"
>SDL_AudioSpec</SPAN
> is your working specification, otherwise the <TT
CLASS="PARAMETER"
><I
>obtained</I
></TT
> <SPAN
CLASS="STRUCTNAME"
>SDL_AudioSpec</SPAN
> becomes the working specification and the <TT
CLASS="PARAMETER"
><I
>desirec</I
></TT
> specification can be deleted. The data in the working specification is used when building <SPAN
CLASS="STRUCTNAME"
>SDL_AudioCVT</SPAN
>'s for converting loaded data to the hardware format.</P
><P
><TT
CLASS="FUNCTION"
>SDL_OpenAudio</TT
> calculates the <TT
CLASS="STRUCTFIELD"
><I
>size</I
></TT
> and <TT
CLASS="STRUCTFIELD"
><I
>silence</I
></TT
> fields for both the <TT
CLASS="PARAMETER"
><I
>desired</I
></TT
> and <TT
CLASS="PARAMETER"
><I
>obtained</I
></TT
> specifications. The <TT
CLASS="STRUCTFIELD"
><I
>size</I
></TT
> field stores the total size of the audio buffer in bytes, while the <TT
CLASS="STRUCTFIELD"
><I
>silence</I
></TT
> stores the value used to represent silence in the audio buffer</P
><P
>The audio device starts out playing <TT
CLASS="STRUCTFIELD"
><I
>silence</I
></TT
> when it's opened, and should be enabled for playing by calling <A
HREF="sdlpauseaudio.html"
><TT
CLASS="FUNCTION"
>SDL_PauseAudio</TT
>(<TT
CLASS="PARAMETER"
><I
>0</I
></TT
>)</A
> when you are ready for your audio <TT
CLASS="STRUCTFIELD"
><I
>callback</I
></TT
> function to be called.  Since the audio driver may modify the requested <TT
CLASS="STRUCTFIELD"
><I
>size</I
></TT
> of the audio buffer, you should allocate any local mixing buffers after you open the audio device.</P
></DIV
><DIV
CLASS="REFSECT1"
><A
NAME="AEN6747"
></A
><H2
>Examples</H2
><PRE
CLASS="PROGRAMLISTING"
>/* Prototype of our callback function */
void my_audio_callback(void *userdata, Uint8 *stream, int len);

/* Open the audio device */
SDL_AudioSpec *desired, *obtained;
SDL_AudioSpec *hardware_spec;

/* Allocate a desired SDL_AudioSpec */
desired = malloc(sizeof(SDL_AudioSpec));

/* Allocate space for the obtained SDL_AudioSpec */
obtained = malloc(sizeof(SDL_AudioSpec));

/* 22050Hz - FM Radio quality */
desired-&#62;freq=22050;

/* 16-bit signed audio */
desired-&#62;format=AUDIO_S16LSB;

/* Mono */
desired-&#62;channels=0;

/* Large audio buffer reduces risk of dropouts but increases response time */
desired-&#62;samples=8192;

/* Our callback function */
desired-&#62;callback=my_audio_callback;

desired-&#62;userdata=NULL;

/* Open the audio device */
if ( SDL_OpenAudio(desired, obtained) &#60; 0 ){
  fprintf(stderr, "Couldn't open audio: %s\n", SDL_GetError());
  exit(-1);
}
/* desired spec is no longer needed */
free(desired);
hardware_spec=obtained;
.
.
/* Prepare callback for playing */
.
.
.
/* Start playing */
SDL_PauseAudio(0);</PRE
></DIV
><DIV
CLASS="REFSECT1"
><A
NAME="AEN6750"
></A
><H2
>See Also</H2
><P
><A
HREF="sdlaudiospec.html"
><TT
CLASS="FUNCTION"
>SDL_AudioSpec</TT
></A
>,
<A
HREF="sdllockaudio.html"
><TT
CLASS="FUNCTION"
>SDL_LockAudio</TT
></A
>,
<A
HREF="sdlunlockaudio.html"
><TT
CLASS="FUNCTION"
>SDL_UnlockAudio</TT
></A
>,
<A
HREF="sdlpauseaudio.html"
><TT
CLASS="FUNCTION"
>SDL_PauseAudio</TT
></A
></P
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