/* SDL_mixer: An audio mixer library based on the SDL library Copyright (C) 1997-2004 Sam Lantinga This library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with this library; if not, write to the Free Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA Sam Lantinga slouken@libsdl.org */ /* $Id: SDL_mixer.h,v 1.1 2008/10/09 20:41:56 dusteddk Exp $ */ #ifndef _SDL_MIXER_H #define _SDL_MIXER_H #include "SDL_types.h" #include "SDL_rwops.h" #include "SDL_audio.h" #include "SDL_endian.h" #include "SDL_version.h" #include "begin_code.h" /* Set up for C function definitions, even when using C++ */ #ifdef __cplusplus extern "C" { #endif /* Printable format: "%d.%d.%d", MAJOR, MINOR, PATCHLEVEL */ #define SDL_MIXER_MAJOR_VERSION 1 #define SDL_MIXER_MINOR_VERSION 2 #define SDL_MIXER_PATCHLEVEL 8 /* This macro can be used to fill a version structure with the compile-time * version of the SDL_mixer library. */ #define SDL_MIXER_VERSION(X) \ { \ (X)->major = SDL_MIXER_MAJOR_VERSION; \ (X)->minor = SDL_MIXER_MINOR_VERSION; \ (X)->patch = SDL_MIXER_PATCHLEVEL; \ } /* Backwards compatibility */ #define MIX_MAJOR_VERSION SDL_MIXER_MAJOR_VERSION #define MIX_MINOR_VERSION SDL_MIXER_MINOR_VERSION #define MIX_PATCHLEVEL SDL_MIXER_PATCHLEVEL #define MIX_VERSION(X) SDL_MIXER_VERSION(X) /* This function gets the version of the dynamically linked SDL_mixer library. it should NOT be used to fill a version structure, instead you should use the SDL_MIXER_VERSION() macro. */ extern DECLSPEC const SDL_version * SDLCALL Mix_Linked_Version(void); /* The default mixer has 8 simultaneous mixing channels */ #ifndef MIX_CHANNELS #define MIX_CHANNELS 8 #endif /* Good default values for a PC soundcard */ #define MIX_DEFAULT_FREQUENCY 22050 #if SDL_BYTEORDER == SDL_LIL_ENDIAN #define MIX_DEFAULT_FORMAT AUDIO_S16LSB #else #define MIX_DEFAULT_FORMAT AUDIO_S16MSB #endif #define MIX_DEFAULT_CHANNELS 2 #define MIX_MAX_VOLUME 128 /* Volume of a chunk */ /* The internal format for an audio chunk */ typedef struct Mix_Chunk { int allocated; Uint8 *abuf; Uint32 alen; Uint8 volume; /* Per-sample volume, 0-128 */ } Mix_Chunk; /* The different fading types supported */ typedef enum { MIX_NO_FADING, MIX_FADING_OUT, MIX_FADING_IN } Mix_Fading; typedef enum { MUS_NONE, MUS_CMD, MUS_WAV, MUS_MOD, MUS_MID, MUS_OGG, MUS_MP3, MUS_MP3_MAD } Mix_MusicType; /* The internal format for a music chunk interpreted via mikmod */ typedef struct _Mix_Music Mix_Music; /* Open the mixer with a certain audio format */ extern DECLSPEC int SDLCALL Mix_OpenAudio(int frequency, Uint16 format, int channels, int chunksize); /* Dynamically change the number of channels managed by the mixer. If decreasing the number of channels, the upper channels are stopped. This function returns the new number of allocated channels. */ extern DECLSPEC int SDLCALL Mix_AllocateChannels(int numchans); /* Find out what the actual audio device parameters are. This function returns 1 if the audio has been opened, 0 otherwise. */ extern DECLSPEC int SDLCALL Mix_QuerySpec(int *frequency,Uint16 *format,int *channels); /* Load a wave file or a music (.mod .s3m .it .xm) file */ extern DECLSPEC Mix_Chunk * SDLCALL Mix_LoadWAV_RW(SDL_RWops *src, int freesrc); #define Mix_LoadWAV(file) Mix_LoadWAV_RW(SDL_RWFromFile(file, "rb"), 1) extern DECLSPEC Mix_Music * SDLCALL Mix_LoadMUS(const char *file); /* Load a music file from an SDL_RWop object (Ogg and MikMod specific currently) Matt Campbell (matt@campbellhome.dhs.org) April 2000 */ extern DECLSPEC Mix_Music * SDLCALL Mix_LoadMUS_RW(SDL_RWops *rw); /* Load a wave file of the mixer format from a memory buffer */ extern DECLSPEC Mix_Chunk * SDLCALL Mix_QuickLoad_WAV(Uint8 *mem); /* Load raw audio data of the mixer format from a memory buffer */ extern DECLSPEC Mix_Chunk * SDLCALL Mix_QuickLoad_RAW(Uint8 *mem, Uint32 len); /* Free an audio chunk previously loaded */ extern DECLSPEC void SDLCALL Mix_FreeChunk(Mix_Chunk *chunk); extern DECLSPEC void SDLCALL Mix_FreeMusic(Mix_Music *music); /* Find out the music format of a mixer music, or the currently playing music, if 'music' is NULL. */ extern DECLSPEC Mix_MusicType SDLCALL Mix_GetMusicType(const Mix_Music *music); /* Set a function that is called after all mixing is performed. This can be used to provide real-time visual display of the audio stream or add a custom mixer filter for the stream data. */ extern DECLSPEC void SDLCALL Mix_SetPostMix(void (*mix_func) (void *udata, Uint8 *stream, int len), void *arg); /* Add your own music player or additional mixer function. If 'mix_func' is NULL, the default music player is re-enabled. */ extern DECLSPEC void SDLCALL Mix_HookMusic(void (*mix_func) (void *udata, Uint8 *stream, int len), void *arg); /* Add your own callback when the music has finished playing. This callback is only called if the music finishes naturally. */ extern DECLSPEC void SDLCALL Mix_HookMusicFinished(void (*music_finished)(void)); /* Get a pointer to the user data for the current music hook */ extern DECLSPEC void * SDLCALL Mix_GetMusicHookData(void); /* * Add your own callback when a channel has finished playing. NULL * to disable callback. The callback may be called from the mixer's audio * callback or it could be called as a result of Mix_HaltChannel(), etc. * do not call SDL_LockAudio() from this callback; you will either be * inside the audio callback, or SDL_mixer will explicitly lock the audio * before calling your callback. */ extern DECLSPEC void SDLCALL Mix_ChannelFinished(void (*channel_finished)(int channel)); /* Special Effects API by ryan c. gordon. (icculus@icculus.org) */ #define MIX_CHANNEL_POST -2 /* This is the format of a special effect callback: * * myeffect(int chan, void *stream, int len, void *udata); * * (chan) is the channel number that your effect is affecting. (stream) is * the buffer of data to work upon. (len) is the size of (stream), and * (udata) is a user-defined bit of data, which you pass as the last arg of * Mix_RegisterEffect(), and is passed back unmolested to your callback. * Your effect changes the contents of (stream) based on whatever parameters * are significant, or just leaves it be, if you prefer. You can do whatever * you like to the buffer, though, and it will continue in its changed state * down the mixing pipeline, through any other effect functions, then finally * to be mixed with the rest of the channels and music for the final output * stream. * * DO NOT EVER call SDL_LockAudio() from your callback function! */ typedef void (*Mix_EffectFunc_t)(int chan, void *stream, int len, void *udata); /* * This is a callback that signifies that a channel has finished all its * loops and has completed playback. This gets called if the buffer * plays out normally, or if you call Mix_HaltChannel(), implicitly stop * a channel via Mix_AllocateChannels(), or unregister a callback while * it's still playing. * * DO NOT EVER call SDL_LockAudio() from your callback function! */ typedef void (*Mix_EffectDone_t)(int chan, void *udata); /* Register a special effect function. At mixing time, the channel data is * copied into a buffer and passed through each registered effect function. * After it passes through all the functions, it is mixed into the final * output stream. The copy to buffer is performed once, then each effect * function performs on the output of the previous effect. Understand that * this extra copy to a buffer is not performed if there are no effects * registered for a given chunk, which saves CPU cycles, and any given * effect will be extra cycles, too, so it is crucial that your code run * fast. Also note that the data that your function is given is in the * format of the sound device, and not the format you gave to Mix_OpenAudio(), * although they may in reality be the same. This is an unfortunate but * necessary speed concern. Use Mix_QuerySpec() to determine if you can * handle the data before you register your effect, and take appropriate * actions. * You may also specify a callback (Mix_EffectDone_t) that is called when * the channel finishes playing. This gives you a more fine-grained control * than Mix_ChannelFinished(), in case you need to free effect-specific * resources, etc. If you don't need this, you can specify NULL. * You may set the callbacks before or after calling Mix_PlayChannel(). * Things like Mix_SetPanning() are just internal special effect functions, * so if you are using that, you've already incurred the overhead of a copy * to a separate buffer, and that these effects will be in the queue with * any functions you've registered. The list of registered effects for a * channel is reset when a chunk finishes playing, so you need to explicitly * set them with each call to Mix_PlayChannel*(). * You may also register a special effect function that is to be run after * final mixing occurs. The rules for these callbacks are identical to those * in Mix_RegisterEffect, but they are run after all the channels and the * music have been mixed into a single stream, whereas channel-specific * effects run on a given channel before any other mixing occurs. These * global effect callbacks are call "posteffects". Posteffects only have * their Mix_EffectDone_t function called when they are unregistered (since * the main output stream is never "done" in the same sense as a channel). * You must unregister them manually when you've had enough. Your callback * will be told that the channel being mixed is (MIX_CHANNEL_POST) if the * processing is considered a posteffect. * * After all these effects have finished processing, the callback registered * through Mix_SetPostMix() runs, and then the stream goes to the audio * device. * * DO NOT EVER call SDL_LockAudio() from your callback function! * * returns zero if error (no such channel), nonzero if added. * Error messages can be retrieved from Mix_GetError(). */ extern DECLSPEC int SDLCALL Mix_RegisterEffect(int chan, Mix_EffectFunc_t f, Mix_EffectDone_t d, void *arg); /* You may not need to call this explicitly, unless you need to stop an * effect from processing in the middle of a chunk's playback. * Posteffects are never implicitly unregistered as they are for channels, * but they may be explicitly unregistered through this function by * specifying MIX_CHANNEL_POST for a channel. * returns zero if error (no such channel or effect), nonzero if removed. * Error messages can be retrieved from Mix_GetError(). */ extern DECLSPEC int SDLCALL Mix_UnregisterEffect(int channel, Mix_EffectFunc_t f); /* You may not need to call this explicitly, unless you need to stop all * effects from processing in the middle of a chunk's playback. Note that * this will also shut off some internal effect processing, since * Mix_SetPanning() and others may use this API under the hood. This is * called internally when a channel completes playback. * Posteffects are never implicitly unregistered as they are for channels, * but they may be explicitly unregistered through this function by * specifying MIX_CHANNEL_POST for a channel. * returns zero if error (no such channel), nonzero if all effects removed. * Error messages can be retrieved from Mix_GetError(). */ extern DECLSPEC int SDLCALL Mix_UnregisterAllEffects(int channel); #define MIX_EFFECTSMAXSPEED "MIX_EFFECTSMAXSPEED" /* * These are the internally-defined mixing effects. They use the same API that * effects defined in the application use, but are provided here as a * convenience. Some effects can reduce their quality or use more memory in * the name of speed; to enable this, make sure the environment variable * MIX_EFFECTSMAXSPEED (see above) is defined before you call * Mix_OpenAudio(). */ /* Set the panning of a channel. The left and right channels are specified * as integers between 0 and 255, quietest to loudest, respectively. * * Technically, this is just individual volume control for a sample with * two (stereo) channels, so it can be used for more than just panning. * If you want real panning, call it like this: * * Mix_SetPanning(channel, left, 255 - left); * * ...which isn't so hard. * * Setting (channel) to MIX_CHANNEL_POST registers this as a posteffect, and * the panning will be done to the final mixed stream before passing it on * to the audio device. * * This uses the Mix_RegisterEffect() API internally, and returns without * registering the effect function if the audio device is not configured * for stereo output. Setting both (left) and (right) to 255 causes this * effect to be unregistered, since that is the data's normal state. * * returns zero if error (no such channel or Mix_RegisterEffect() fails), * nonzero if panning effect enabled. Note that an audio device in mono * mode is a no-op, but this call will return successful in that case. * Error messages can be retrieved from Mix_GetError(). */ extern DECLSPEC int SDLCALL Mix_SetPanning(int channel, Uint8 left, Uint8 right); /* Set the position of a channel. (angle) is an integer from 0 to 360, that * specifies the location of the sound in relation to the listener. (angle) * will be reduced as neccesary (540 becomes 180 degrees, -100 becomes 260). * Angle 0 is due north, and rotates clockwise as the value increases. * For efficiency, the precision of this effect may be limited (angles 1 * through 7 might all produce the same effect, 8 through 15 are equal, etc). * (distance) is an integer between 0 and 255 that specifies the space * between the sound and the listener. The larger the number, the further * away the sound is. Using 255 does not guarantee that the channel will be * culled from the mixing process or be completely silent. For efficiency, * the precision of this effect may be limited (distance 0 through 5 might * all produce the same effect, 6 through 10 are equal, etc). Setting (angle) * and (distance) to 0 unregisters this effect, since the data would be * unchanged. * * If you need more precise positional audio, consider using OpenAL for * spatialized effects instead of SDL_mixer. This is only meant to be a * basic effect for simple "3D" games. * * If the audio device is configured for mono output, then you won't get * any effectiveness from the angle; however, distance attenuation on the * channel will still occur. While this effect will function with stereo * voices, it makes more sense to use voices with only one channel of sound, * so when they are mixed through this effect, the positioning will sound * correct. You can convert them to mono through SDL before giving them to * the mixer in the first place if you like. * * Setting (channel) to MIX_CHANNEL_POST registers this as a posteffect, and * the positioning will be done to the final mixed stream before passing it * on to the audio device. * * This is a convenience wrapper over Mix_SetDistance() and Mix_SetPanning(). * * returns zero if error (no such channel or Mix_RegisterEffect() fails), * nonzero if position effect is enabled. * Error messages can be retrieved from Mix_GetError(). */ extern DECLSPEC int SDLCALL Mix_SetPosition(int channel, Sint16 angle, Uint8 distance); /* Set the "distance" of a channel. (distance) is an integer from 0 to 255 * that specifies the location of the sound in relation to the listener. * Distance 0 is overlapping the listener, and 255 is as far away as possible * A distance of 255 does not guarantee silence; in such a case, you might * want to try changing the chunk's volume, or just cull the sample from the * mixing process with Mix_HaltChannel(). * For efficiency, the precision of this effect may be limited (distances 1 * through 7 might all produce the same effect, 8 through 15 are equal, etc). * (distance) is an integer between 0 and 255 that specifies the space * between the sound and the listener. The larger the number, the further * away the sound is. * Setting (distance) to 0 unregisters this effect, since the data would be * unchanged. * If you need more precise positional audio, consider using OpenAL for * spatialized effects instead of SDL_mixer. This is only meant to be a * basic effect for simple "3D" games. * * Setting (channel) to MIX_CHANNEL_POST registers this as a posteffect, and * the distance attenuation will be done to the final mixed stream before * passing it on to the audio device. * * This uses the Mix_RegisterEffect() API internally. * * returns zero if error (no such channel or Mix_RegisterEffect() fails), * nonzero if position effect is enabled. * Error messages can be retrieved from Mix_GetError(). */ extern DECLSPEC int SDLCALL Mix_SetDistance(int channel, Uint8 distance); /* * !!! FIXME : Haven't implemented, since the effect goes past the * end of the sound buffer. Will have to think about this. * --ryan. */ #if 0 /* Causes an echo effect to be mixed into a sound. (echo) is the amount * of echo to mix. 0 is no echo, 255 is infinite (and probably not * what you want). * * Setting (channel) to MIX_CHANNEL_POST registers this as a posteffect, and * the reverbing will be done to the final mixed stream before passing it on * to the audio device. * * This uses the Mix_RegisterEffect() API internally. If you specify an echo * of zero, the effect is unregistered, as the data is already in that state. * * returns zero if error (no such channel or Mix_RegisterEffect() fails), * nonzero if reversing effect is enabled. * Error messages can be retrieved from Mix_GetError(). */ extern no_parse_DECLSPEC int SDLCALL Mix_SetReverb(int channel, Uint8 echo); #endif /* Causes a channel to reverse its stereo. This is handy if the user has his * speakers hooked up backwards, or you would like to have a minor bit of * psychedelia in your sound code. :) Calling this function with (flip) * set to non-zero reverses the chunks's usual channels. If (flip) is zero, * the effect is unregistered. * * This uses the Mix_RegisterEffect() API internally, and thus is probably * more CPU intensive than having the user just plug in his speakers * correctly. Mix_SetReverseStereo() returns without registering the effect * function if the audio device is not configured for stereo output. * * If you specify MIX_CHANNEL_POST for (channel), then this the effect is used * on the final mixed stream before sending it on to the audio device (a * posteffect). * * returns zero if error (no such channel or Mix_RegisterEffect() fails), * nonzero if reversing effect is enabled. Note that an audio device in mono * mode is a no-op, but this call will return successful in that case. * Error messages can be retrieved from Mix_GetError(). */ extern DECLSPEC int SDLCALL Mix_SetReverseStereo(int channel, int flip); /* end of effects API. --ryan. */ /* Reserve the first channels (0 -> n-1) for the application, i.e. don't allocate them dynamically to the next sample if requested with a -1 value below. Returns the number of reserved channels. */ extern DECLSPEC int SDLCALL Mix_ReserveChannels(int num); /* Channel grouping functions */ /* Attach a tag to a channel. A tag can be assigned to several mixer channels, to form groups of channels. If 'tag' is -1, the tag is removed (actually -1 is the tag used to represent the group of all the channels). Returns true if everything was OK. */ extern DECLSPEC int SDLCALL Mix_GroupChannel(int which, int tag); /* Assign several consecutive channels to a group */ extern DECLSPEC int SDLCALL Mix_GroupChannels(int from, int to, int tag); /* Finds the first available channel in a group of channels, returning -1 if none are available. */ extern DECLSPEC int SDLCALL Mix_GroupAvailable(int tag); /* Returns the number of channels in a group. This is also a subtle way to get the total number of channels when 'tag' is -1 */ extern DECLSPEC int SDLCALL Mix_GroupCount(int tag); /* Finds the "oldest" sample playing in a group of channels */ extern DECLSPEC int SDLCALL Mix_GroupOldest(int tag); /* Finds the "most recent" (i.e. last) sample playing in a group of channels */ extern DECLSPEC int SDLCALL Mix_GroupNewer(int tag); /* Play an audio chunk on a specific channel. If the specified channel is -1, play on the first free channel. If 'loops' is greater than zero, loop the sound that many times. If 'loops' is -1, loop inifinitely (~65000 times). Returns which channel was used to play the sound. */ #define Mix_PlayChannel(channel,chunk,loops) Mix_PlayChannelTimed(channel,chunk,loops,-1) /* The same as above, but the sound is played at most 'ticks' milliseconds */ extern DECLSPEC int SDLCALL Mix_PlayChannelTimed(int channel, Mix_Chunk *chunk, int loops, int ticks); extern DECLSPEC int SDLCALL Mix_PlayMusic(Mix_Music *music, int loops); /* Fade in music or a channel over "ms" milliseconds, same semantics as the "Play" functions */ extern DECLSPEC int SDLCALL Mix_FadeInMusic(Mix_Music *music, int loops, int ms); extern DECLSPEC int SDLCALL Mix_FadeInMusicPos(Mix_Music *music, int loops, int ms, double position); #define Mix_FadeInChannel(channel,chunk,loops,ms) Mix_FadeInChannelTimed(channel,chunk,loops,ms,-1) extern DECLSPEC int SDLCALL Mix_FadeInChannelTimed(int channel, Mix_Chunk *chunk, int loops, int ms, int ticks); /* Set the volume in the range of 0-128 of a specific channel or chunk. If the specified channel is -1, set volume for all channels. Returns the original volume. If the specified volume is -1, just return the current volume. */ extern DECLSPEC int SDLCALL Mix_Volume(int channel, int volume); extern DECLSPEC int SDLCALL Mix_VolumeChunk(Mix_Chunk *chunk, int volume); extern DECLSPEC int SDLCALL Mix_VolumeMusic(int volume); /* Halt playing of a particular channel */ extern DECLSPEC int SDLCALL Mix_HaltChannel(int channel); extern DECLSPEC int SDLCALL Mix_HaltGroup(int tag); extern DECLSPEC int SDLCALL Mix_HaltMusic(void); /* Change the expiration delay for a particular channel. The sample will stop playing after the 'ticks' milliseconds have elapsed, or remove the expiration if 'ticks' is -1 */ extern DECLSPEC int SDLCALL Mix_ExpireChannel(int channel, int ticks); /* Halt a channel, fading it out progressively till it's silent The ms parameter indicates the number of milliseconds the fading will take. */ extern DECLSPEC int SDLCALL Mix_FadeOutChannel(int which, int ms); extern DECLSPEC int SDLCALL Mix_FadeOutGroup(int tag, int ms); extern DECLSPEC int SDLCALL Mix_FadeOutMusic(int ms); /* Query the fading status of a channel */ extern DECLSPEC Mix_Fading SDLCALL Mix_FadingMusic(void); extern DECLSPEC Mix_Fading SDLCALL Mix_FadingChannel(int which); /* Pause/Resume a particular channel */ extern DECLSPEC void SDLCALL Mix_Pause(int channel); extern DECLSPEC void SDLCALL Mix_Resume(int channel); extern DECLSPEC int SDLCALL Mix_Paused(int channel); /* Pause/Resume the music stream */ extern DECLSPEC void SDLCALL Mix_PauseMusic(void); extern DECLSPEC void SDLCALL Mix_ResumeMusic(void); extern DECLSPEC void SDLCALL Mix_RewindMusic(void); extern DECLSPEC int SDLCALL Mix_PausedMusic(void); /* Set the current position in the music stream. This returns 0 if successful, or -1 if it failed or isn't implemented. This function is only implemented for MOD music formats (set pattern order number) and for OGG music (set position in seconds), at the moment. */ extern DECLSPEC int SDLCALL Mix_SetMusicPosition(double position); /* Check the status of a specific channel. If the specified channel is -1, check all channels. */ extern DECLSPEC int SDLCALL Mix_Playing(int channel); extern DECLSPEC int SDLCALL Mix_PlayingMusic(void); /* Stop music and set external music playback command */ extern DECLSPEC int SDLCALL Mix_SetMusicCMD(const char *command); /* Synchro value is set by MikMod from modules while playing */ extern DECLSPEC int SDLCALL Mix_SetSynchroValue(int value); extern DECLSPEC int SDLCALL Mix_GetSynchroValue(void); /* Get the Mix_Chunk currently associated with a mixer channel Returns NULL if it's an invalid channel, or there's no chunk associated. */ extern DECLSPEC Mix_Chunk * SDLCALL Mix_GetChunk(int channel); /* Close the mixer, halting all playing audio */ extern DECLSPEC void SDLCALL Mix_CloseAudio(void); /* We'll use SDL for reporting errors */ #define Mix_SetError SDL_SetError #define Mix_GetError SDL_GetError /* Ends C function definitions when using C++ */ #ifdef __cplusplus } #endif #include "close_code.h" #endif /* _SDL_MIXER_H */