quakeforge/include/snd_internal.h
Bill Currie 9a91aff93c Move the ambient level check out of the sound renderer.
Instead, the client gets the current leaf and passes ambient_sound_level
from the leaf to S_Update.
2012-02-13 13:44:29 +09:00

581 lines
18 KiB
C

/*
snd_internal.h
Sound renderer plugin stuff
Copyright (C) 2002 Bill Currie
Author: Bill Currie <bill@taniwha.org>
Date: Jan 31 2003
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License
as published by the Free Software Foundation; either version 2
of the License, or (at your option) any later version.
This program 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 General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to:
Free Software Foundation, Inc.
59 Temple Place - Suite 330
Boston, MA 02111-1307, USA
$Id$
*/
#ifndef __snd_internal_h
#define __snd_internal_h
/** \defgroup sound_render Sound rendering sub-system.
\ingroup sound
*/
//@{
#include "QF/plugin/snd_render.h"
#include "QF/quakeio.h"
#include "QF/sound.h"
#include "QF/zone.h"
typedef struct portable_samplepair_s portable_samplepair_t;
typedef struct dma_s dma_t;
typedef struct wavinfo_s wavinfo_t;
typedef struct channel_s channel_t;
typedef struct sfxbuffer_s sfxbuffer_t;
typedef struct sfxblock_s sfxblock_t;
typedef struct sfxstream_s sfxstream_t;
/** paint samples into the mix buffer
\param offset offset into the mix buffer at which to start mixing
the channel
\param ch sound channel
\param buffer sound data
\param count number of frames to paint
*/
typedef void sfxpaint_t (int, channel_t *, float *, unsigned);
/** Represent a sound sample in the mixer.
*/
struct portable_samplepair_s {
float left; //!< left sample
float right; //!< right sample
};
/** communication structure between output drivers and renderer
*/
struct dma_s {
int speed; //!< sample rate
int samplebits; //!< bits per sample
int channels; //!< number of output channels
int frames; //!< frames in buffer
//!< 1 frame = channels samples
int submission_chunk; //!< don't mix less than this #
int framepos; //!< position of dma cursor
unsigned char *buffer; //!< destination for mixed sound
/** Transfer mixed samples to the output.
\param paintbuffer The buffer of mixed samples to be transferred.
\param count The number of sample to transfer.
\param volume The gain for the samples.
*/
void (*xfer) (portable_samplepair_t *paintbuffer, int count,
float volume);
/** Optional data for the xfer function.
*/
void *xfer_data;
};
/** Describes the sound data.
For looped data (loopstart >= 0), play starts at sample 0, goes to the end,
then loops back to loopstart. This allows an optional lead in section
followed by a continuously looped (until the sound is stopped) section.
*/
struct wavinfo_s {
unsigned rate; //!< sample rate
unsigned width; //!< bytes per sample
unsigned channels; //!< number of channels
unsigned loopstart; //!< start frame of loop. -1 = no loop
unsigned frames; //!< size of sound in frames
unsigned dataofs; //!< chunk starts this many bytes from BOF
unsigned datalen; //!< chunk bytes
};
/** Buffer for storing sound samples in memory. For cached sounds, acts as
an ordinary buffer. For streamed sounds, acts as a ring buffer.
*/
struct sfxbuffer_s {
unsigned head; //!< ring buffer head position in sampels
unsigned tail; //!< ring buffer tail position in sampels
unsigned length; //!< length of buffer in frames
unsigned pos; //!< position of tail within full stream
unsigned channels; //!< number of channels per frame
sfxpaint_t *paint; //!< channel count specific paint function
/** Advance the position with the stream, updating the ring buffer as
necessary. Null for chached sounds.
\param buffer "this"
\param count number of frames to advance
\return true for success, false if an error occured
*/
int (*advance) (sfxbuffer_t *buffer, unsigned int count);
/** Seek to an absolute position within the stream, resetting the ring
buffer.
\param buffer "this"
\param pos frame position with the stream
*/
void (*setpos) (sfxbuffer_t *buffer, unsigned int pos);
sfx_t *sfx; //!< owning sfx_t instance
/** Sample data. The block at the beginning of the buffer (size depends on
sample size)
*/
float data[1];
};
/** Representation of sound loaded that is streamed in as needed.
*/
struct sfxstream_s {
sfx_t *sfx; //!< owning sfx_t instance
void *file; //!< handle for "file" representing the stream
wavinfo_t wavinfo; //!< description of sound data
unsigned pos; //!< position of next frame full stream
int error; //!< an error occured while reading
void *state; //!< resampler state information
/** Read data from the stream.
This is a low-level function used by sfxstream_t::read. The read
samples will be at the sample rate of the underlying stream.
\param cb_data stream relevant infomation (actually ::sfxstream_t
("this"), but this signature is used for compatibility
with libsamplerate
\param data address of pointer to be set to point to the buffer
holding the samples
*/
long (*ll_read)(void *cb_data, float **data);
/** Seek to an absolute position within the stream (low level).
\param stream "this"
\param pos frame position with the stream
*/
int (*ll_seek)(sfxstream_t *stream, int pos);
/** Read data from the stream.
This is a high-level function for use in the mixer. The read samples
will always at be the correct sample rate for the mixer, reguardless
of the sample rate in the underlying stream.
\param stream "this"
\param data destination of read data
\param frames maximum number of frames to read from stream
\return number of frames read from stream
*/
int (*read)(sfxstream_t *stream, float *data, int frames);
/** Seek to an absolute position within the stream.
\param stream "this"
\param pos frame position with the stream
*/
int (*seek)(sfxstream_t *stream, int pos);
sfxbuffer_t buffer; //<! stream's ring buffer
};
/** Representation of sound loaded into memory as a full block.
*/
struct sfxblock_s {
sfx_t *sfx; //!< owning sfx_t instance
void *file; //!< handle for "file" representing the block
wavinfo_t wavinfo; //!< description of sound data
cache_user_t cache; //!< cached sound buffer (::sfxbuffer_s)
sfxbuffer_t *buffer; //!< pointer to cached buffer
};
/** Representation of a sound being played.
*/
struct channel_s {
struct channel_s *next; //!< next channel in "free" list
sfx_t *sfx; //!< sound played by this channel
int leftvol; //!< 0-255 volume
int rightvol; //!< 0-255 volume
unsigned end; //!< end time in global paintsamples
unsigned pos; //!< sample position in sfx
unsigned looping; //!< where to loop, -1 = no looping
int entnum; //!< to allow overriding a specific sound
int entchannel; //
vec3_t origin; //!< origin of sound effect
vec_t dist_mult; //!< distance multiplier (attenuation/clip)
int pause; //!< don't update the channel at all
int master_vol; //!< 0-255 master volume
int phase; //!< phase shift between l-r in samples
int oldphase; //!< phase shift between l-r in samples
/** signal between main program and mixer thread that the channel is to be
stopped.
- both \c stop and \c done are zero: normal operation
- \c stop is non-zero: main program is done with channel. must wait
for mixer to finish with channel before re-using.
- \c done is non-zero: mixer is done with channel. can be reused at
any time.
- both \c stop and \c done are non-zero: both are done with channel.
can be reused at any time.
*/
//@{
int stop;
int done;
//@}
};
extern struct cvar_s *snd_loadas8bit;
extern struct cvar_s *snd_volume;
extern struct cvar_s *snd_interp;
extern struct cvar_s *snd_stereo_phase_separation;
extern volatile dma_t *snd_shm;
extern snd_render_data_t snd_render_data;
#define PAINTBUFFER_SIZE 512
extern portable_samplepair_t snd_paintbuffer[PAINTBUFFER_SIZE * 2];
//@}
/** \defgroup sound_render_sfx Sound sfx
\ingroup sound_render_mix
*/
//@{
/** Cache sound data. Initializes caching fields of sfx.
\param sfx
\param realname
\param info
\param loader
*/
void SND_SFX_Cache (sfx_t *sfx, char *realname, wavinfo_t info,
cache_loader_t loader);
/** Stream sound data. Initializes streaming fields of sfx.
\param sfx
\param realname
\param info
\param open
*/
void SND_SFX_Stream (sfx_t *sfx, char *realname, wavinfo_t info,
sfx_t *(*open) (sfx_t *sfx));
/** Open a stream for playback.
\param sfx
\param file
\param read
\param seek
\param close
*/
sfx_t *SND_SFX_StreamOpen (sfx_t *sfx, void *file,
long (*read)(void *, float **),
int (*seek)(sfxstream_t *, int),
void (*close) (sfx_t *));
/** Close a stream.
\param sfx
*/
void SND_SFX_StreamClose (sfx_t *sfx);
/** Pre-load a sound into the cache.
\param sample name of sound to precache
*/
sfx_t *SND_PrecacheSound (const char *sample);
/** Pre-load a sound.
\param name name of sound to load
*/
sfx_t *SND_LoadSound (const char *name);
/** Initialize the sfx sub-subsystem
*/
void SND_SFX_Init (void);
//@}
/** \defgroup sound_render_mix_channels Sound channels
\ingroup sound_render_mix
Output sound is mixed from an number of active sound channels.
- 0 to MAX_DYNAMIC_CHANNELS-1 <br>
normal entity sounds
- MAX_DYNAMIC_CHANNELS to MAX_DYNAMIC_CHANNELS + NUM_AMBIENTS -1 <br>
water, etc
- MAX_DYNAMIC_CHANNELS + NUM_AMBIENTS to total_channels - 1 <br>
static sounds
*/
//@{
#define MAX_CHANNELS 512 //!< number of available mixing channels
#define MAX_DYNAMIC_CHANNELS 128 //!< number of dynamic channels
#define MAX_STATIC_CHANNELS 256 //!< number of static channels
extern channel_t snd_channels[MAX_CHANNELS]; //!< pool of available channels
extern int snd_total_channels; //!< number of active channels
/** Allocate a sound channel that can be used for playing sounds.
*/
struct channel_s *SND_AllocChannel (void);
/** Stop a channel from playing.
\param chan the channel to stop
*/
void SND_ChannelStop (channel_t *chan);
/** Scan channels looking for stopped channels.
\param wait if true, wait for the channels to be done. if false, force the
channels to be done. true is for threaded, false for
non-threaded.
*/
void SND_ScanChannels (int wait);
/** Disable ambient sounds.
\todo not used, remove?
*/
void SND_AmbientOff (void);
/** Enable ambient sounds.
\todo not used, remove?
*/
void SND_AmbientOn (void);
/** Update the sound engine with the client's position and orientation and
render some sound.
\param origin 3d coords of the client
\param v_forward 3d vector of the client's facing direction
\param v_right 3d vector of the client's rightward direction
\param v_up 3d vector of the client's upward direction
*/
void SND_SetListener (const vec3_t origin, const vec3_t v_forward,
const vec3_t v_right, const vec3_t v_up,
const byte *ambient_sound_level);
/** Stop all sounds from playing.
*/
void SND_StopAllSounds(void);
/** Initialize the channels sub-subsystem
*/
void SND_Channels_Init (void);
/** Start a sound playing.
\param entnum index of entity the sound is associated with.
\param entchannel 0-7
- 0 auto (never willingly overrides)
- 1 weapon
- 2 voice
- 3 item
- 4 body
\param sfx sound to play
\param origin 3d coords of where the sound originates
\param fvol absolute volume of the sound
\param attenuation rate of volume dropoff vs distance
*/
void SND_StartSound (int entnum, int entchannel, sfx_t *sfx, const vec3_t origin,
float fvol, float attenuation);
/** Create a sound generated by the world.
\param sfx sound to play
\param origin 3d coords of where the sound originates
\param vol absolute volume of the sound
\param attenuation rate of volume dropoff vs distance
*/
void SND_StaticSound (sfx_t *sfx, const vec3_t origin, float vol,
float attenuation);
/** Stop an entity's sound.
\param entnum index of entity the sound is associated with.
\param entchannel channel to silence
*/
void SND_StopSound (int entnum, int entchannel);
/** Start a sound local to the client view.
\param s name of sound to play
*/
void SND_LocalSound (const char *s);
//@}
/** \defgroup sound_render_mix Mixer engine.
\ingroup sound_render
*/
//@{
/** sound clock in samples
*/
extern unsigned snd_paintedtime;
/** Mix all active channels into the output buffer.
\param endtime sample time until when to mix
*/
void SND_PaintChannels(unsigned int endtime);
/** Initialize the scale table for painting of 8 bit samples.
*/
void SND_InitScaletable (void);
/** Set the paint function of the sfxbuffer
\param sc sfxbuffer to set.
*/
void SND_SetPaint (sfxbuffer_t *sc);
//@}
/** \defgroup sound_render_resample Resampling functions
\ingroup sound_render
*/
//@{
/** Set up the various parameters that depend on the actual sample rate.
\param sc buffer to setup
\param streamed non-zero if this is for a stream.
*/
void SND_SetupResampler (sfxbuffer_t *sc, int streamed);
/** Free memory allocated for the resampler.
\param stream stream to pulldown
*/
void SND_PulldownResampler (sfxstream_t *stream);
/** Copy/resample data into buffer, resampling as necessary.
\param sc buffer to write resampled sound
\param data raw sample data
\param length number of frames to resample
*/
void SND_Resample (sfxbuffer_t *sc, float *data, int length);
/** Convert integer sample data to float sample data.
\param idata integer data buffer
\param fdata float data buffer
\param frames number of frames
\param channels number of channels per frame
\param width bytes per channel
*/
void SND_Convert (byte *idata, float *fdata, int frames, int channels,
int width);
//@}
/** \defgroup sound_render_load Sound loading functions
\ingroup sound_render
*/
//@{
/** Load the referenced sound.
\param sfx sound reference
\return 0 if ok, -1 on error
*/
int SND_Load (sfx_t *sfx);
/** Load the referenced sound from the specified Ogg file.
\param file pre-opened Ogg file
\param sfx sound reference
\param realname path of sound file should it need to be re-opened
\return 0 if ok, -1 on error
*/
int SND_LoadOgg (QFile *file, sfx_t *sfx, char *realname);
/** Load the referenced sound from the specified FLAC file.
\param file pre-opened FLAC file
\param sfx sound reference
\param realname path of sound file should it need to be re-opened
\return 0 if ok, -1 on error
*/
int SND_LoadFLAC (QFile *file, sfx_t *sfx, char *realname);
/** Load the referenced sound from the specified WAV file.
\param file pre-opened WAV file
\param sfx sound reference
\param realname path of sound file should it need to be re-opened
\return 0 if ok, -1 on error
*/
int SND_LoadWav (QFile *file, sfx_t *sfx, char *realname);
/** Load the referenced sound from the specified MIDI file.
\param file pre-opened MIDI file
\param sfx sound reference
\param realname path of sound file should it need to be re-opened
\return 0 if ok, -1 on error
*/
int SND_LoadMidi (QFile *file, sfx_t *sfx, char *realname);
//@}
/** \defgroup sound_render_cache_stream Cache/Stream Functions.
\ingroup sound_render
*/
//@{
/** Retrieve wavinfo from a cached sound.
\param sfx sound reference
\return pointer to sound's wavinfo
*/
wavinfo_t *SND_CacheWavinfo (sfx_t *sfx);
/** Retrieve wavinfo from a streamed sound.
\param sfx sound reference
\return pointer to sound's wavinfo
*/
wavinfo_t *SND_StreamWavinfo (sfx_t *sfx);
/** Ensure a cached sound is in memory.
\param sfx sound reference
\return poitner to sound buffer
*/
sfxbuffer_t *SND_CacheTouch (sfx_t *sfx);
/** Get the pointer to the sound buffer.
\param sfx sound reference
\return sound buffer or null
\note The sound must be retained with SND_CacheRetain() for the returned
buffer to be valid.
*/
sfxbuffer_t *SND_CacheGetBuffer (sfx_t *sfx);
/** Lock a cached sound into memory. After calling this, SND_CacheGetBffer()
will return a valid buffer.
\param sfx sound reference
\return poitner to sound buffer
*/
sfxbuffer_t *SND_CacheRetain (sfx_t *sfx);
/** Unlock a cached sound from memory. After calling this, SND_CacheGetBffer()
will return a null buffer.
\param sfx sound reference
*/
void SND_CacheRelease (sfx_t *sfx);
/** Get the pointer to the sound buffer.
\param sfx sound reference
\return poitner to sound buffer
*/
sfxbuffer_t *SND_StreamGetBuffer (sfx_t *sfx);
/** Lock a streamed sound into memory. Doesn't actually do anything other than
return a pointer to the buffer.
\param sfx sound reference
\return poitner to sound buffer
*/
sfxbuffer_t *SND_StreamRetain (sfx_t *sfx);
/** Unlock a streamed sound from memory. Doesn't actually do anything.
\param sfx sound reference
*/
void SND_StreamRelease (sfx_t *sfx);
/** Advance the position with the stream, updating the ring buffer as
necessary. Null for chached sounds.
\param buffer "this"
\param count number of samples to advance
*/
int SND_StreamAdvance (sfxbuffer_t *buffer, unsigned int count);
/** Seek to an absolute position within the stream, resetting the ring
buffer.
\param buffer "this"
\param pos sample position with the stream
*/
void SND_StreamSetPos (sfxbuffer_t *buffer, unsigned int pos);
/** Allocate a sound buffer from cache for cached sounds.
\param samples size in samples
\param rate sample rate
\param channels number of channels in input data
\param block cached sound descriptor to initialize
\param allocator cache allocator function
\return pointer to sound sample buffer (setup for block mode)
*/
sfxbuffer_t *SND_GetCache (long samples, int rate, int channels,
sfxblock_t *block, cache_allocator_t allocator);
//@}
#endif//__snd_internal_h