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Xash3DArchive/engine/client/sound.h
2022-06-27 01:15:36 +03:00

358 lines
12 KiB
C

/*
sound.h - sndlib main header
Copyright (C) 2009 Uncle Mike
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 3 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.
*/
#ifndef SOUND_H
#define SOUND_H
extern byte *sndpool;
#include "mathlib.h"
// sound engine rate defines
#define SOUND_DMA_SPEED 44100 // hardware playback rate
#define SOUND_11k 11025 // 11khz sample rate
#define SOUND_16k 16000 // 16khz sample rate
#define SOUND_22k 22050 // 22khz sample rate
#define SOUND_32k 32000 // 32khz sample rate
#define SOUND_44k 44100 // 44khz sample rate
#define DMA_MSEC_PER_SAMPLE ((float)(1000.0 / SOUND_DMA_SPEED))
#define SND_TRACE_UPDATE_MAX 2 // max of N channels may be checked for obscured source per frame
#define SND_RADIUS_MAX 240.0f // max sound source radius
#define SND_RADIUS_MIN 24.0f // min sound source radius
#define SND_OBSCURED_LOSS_DB -2.70f // dB loss due to obscured sound source
// calculate gain based on atmospheric attenuation.
// as gain excedes threshold, round off (compress) towards 1.0 using spline
#define SND_GAIN_COMP_EXP_MAX 2.5f // Increasing SND_GAIN_COMP_EXP_MAX fits compression curve
// more closely to original gain curve as it approaches 1.0.
#define SND_GAIN_FADE_TIME 0.25f // xfade seconds between obscuring gain changes
#define SND_GAIN_COMP_EXP_MIN 0.8f
#define SND_GAIN_COMP_THRESH 0.5f // gain value above which gain curve is rounded to approach 1.0
#define SND_DB_MAX 140.0f // max db of any sound source
#define SND_DB_MED 90.0f // db at which compression curve changes
#define SND_DB_MIN 60.0f // min db of any sound source
#define SND_GAIN_PLAYER_WEAPON_DB 2.0f // increase player weapon gain by N dB
// fixed point stuff for real-time resampling
#define FIX_BITS 28
#define FIX_SCALE (1 << FIX_BITS)
#define FIX_MASK ((1 << FIX_BITS)-1)
#define FIX_FLOAT(a) ((int)((a) * FIX_SCALE))
#define FIX(a) (((int)(a)) << FIX_BITS)
#define FIX_INTPART(a) (((int)(a)) >> FIX_BITS)
#define FIX_FRACTION(a,b) (FIX(a)/(b))
#define FIX_FRACPART(a) ((a) & FIX_MASK)
#define SNDLVL_TO_DIST_MULT( sndlvl ) \
( sndlvl ? ((pow( 10, s_refdb->value / 20 ) / pow( 10, (float)sndlvl / 20 )) / s_refdist->value ) : 0 )
#define DIST_MULT_TO_SNDLVL( dist_mult ) \
(int)( dist_mult ? ( 20 * log10( pow( 10, s_refdb->value / 20 ) / (dist_mult * s_refdist->value ))) : 0 )
// NOTE: clipped sound at 32760 to avoid overload
#define CLIP( x ) (( x ) > 32760 ? 32760 : (( x ) < -32760 ? -32760 : ( x )))
#define SWAP( a, b, t ) {(t) = (a); (a) = (b); (b) = (t);}
#define AVG( a, b ) (((a) + (b)) >> 1 )
#define AVG4( a, b, c, d ) (((a) + (b) + (c) + (d)) >> 2 )
#define PAINTBUFFER_SIZE 1024 // 44k: was 512
#define PAINTBUFFER (g_curpaintbuffer)
#define CPAINTBUFFERS 3
// sound mixing buffer
#define CPAINTFILTERMEM 3
#define CPAINTFILTERS 4 // maximum number of consecutive upsample passes per paintbuffer
#define S_RAW_SOUND_IDLE_SEC 10 // time interval for idling raw sound before it's freed
#define S_RAW_SOUND_BACKGROUNDTRACK -2
#define S_RAW_SOUND_SOUNDTRACK -1
#define S_RAW_SAMPLES_PRECISION_BITS 14
typedef struct
{
int left;
int right;
} portable_samplepair_t;
typedef struct
{
qboolean factive; // if true, mix to this paintbuffer using flags
portable_samplepair_t *pbuf; // front stereo mix buffer, for 2 or 4 channel mixing
int ifilter; // current filter memory buffer to use for upsampling pass
portable_samplepair_t fltmem[CPAINTFILTERS][CPAINTFILTERMEM];
} paintbuffer_t;
typedef struct sfx_s
{
string name;
wavdata_t *cache;
int touchFrame;
uint hashValue;
struct sfx_s *hashNext;
} sfx_t;
extern portable_samplepair_t paintbuffer[];
extern portable_samplepair_t roombuffer[];
extern portable_samplepair_t temppaintbuffer[];
extern portable_samplepair_t *g_curpaintbuffer;
extern paintbuffer_t paintbuffers[];
// structure used for fading in and out client sound volume.
typedef struct
{
float initial_percent;
float percent; // how far to adjust client's volume down by.
float starttime; // GetHostTime() when we started adjusting volume
float fadeouttime; // # of seconds to get to faded out state
float holdtime; // # of seconds to hold
float fadeintime; // # of seconds to restore
} soundfade_t;
typedef struct
{
float percent;
} musicfade_t;
typedef struct
{
int samples; // mono samples in buffer
int samplepos; // in mono samples
byte *buffer;
qboolean initialized; // sound engine is active
} dma_t;
#include "vox.h"
typedef struct
{
double sample;
wavdata_t *pData;
double forcedEndSample;
qboolean finished;
} mixer_t;
typedef struct rawchan_s
{
int entnum;
int master_vol;
int leftvol; // 0-255 left volume
int rightvol; // 0-255 right volume
float dist_mult; // distance multiplier (attenuation/clipK)
vec3_t origin; // only use if fixed_origin is set
float radius; // radius of this sound effect
volatile uint s_rawend;
size_t max_samples; // buffer length
portable_samplepair_t rawsamples[1]; // variable sized
} rawchan_t;
typedef struct channel_s
{
char name[16]; // keept sentence name
sfx_t *sfx; // sfx number
int leftvol; // 0-255 left volume
int rightvol; // 0-255 right volume
int entnum; // entity soundsource
int entchannel; // sound channel (CHAN_STREAM, CHAN_VOICE, etc.)
vec3_t origin; // only use if fixed_origin is set
float dist_mult; // distance multiplier (attenuation/clipK)
int master_vol; // 0-255 master volume
qboolean isSentence; // bit who indicated sentence
int basePitch; // base pitch percent (100% is normal pitch playback)
float pitch; // real-time pitch after any modulation or shift by dynamic data
qboolean use_loop; // don't loop default and local sounds
qboolean staticsound; // use origin instead of fetching entnum's origin
qboolean localsound; // it's a local menu sound (not looped, not paused)
mixer_t pMixer;
// sound culling
qboolean bfirstpass; // true if this is first time sound is spatialized
float ob_gain; // gain drop if sound source obscured from listener
float ob_gain_target; // target gain while crossfading between ob_gain & ob_gain_target
float ob_gain_inc; // crossfade increment
qboolean bTraced; // true if channel was already checked this frame for obscuring
float radius; // radius of this sound effect
vec3_t absmin, absmax; // filled in CL_GetEntitySpatialization
int movetype; // to determine point entities
// sentence mixer
int wordIndex;
mixer_t *currentWord; // NULL if sentence is finished
voxword_t words[CVOXWORDMAX];
} channel_t;
typedef struct
{
vec3_t origin; // simorg + view_ofs
vec3_t velocity;
vec3_t forward;
vec3_t right;
vec3_t up;
int entnum;
int waterlevel;
float frametime; // used for sound fade
qboolean active;
qboolean inmenu; // listener in-menu ?
qboolean paused;
qboolean streaming; // playing AVI-file
qboolean stream_paused; // pause only background track
byte pasbytes[(MAX_MAP_LEAFS+7)/8];// actual PHS for current frame
} listener_t;
typedef struct
{
string current; // a currently playing track
string loopName; // may be empty
stream_t *stream;
int source; // may be game, menu, etc
} bg_track_t;
/*
====================================================================
SYSTEM SPECIFIC FUNCTIONS
====================================================================
*/
// initializes cycling through a DMA buffer and returns information on it
qboolean SNDDMA_Init( void *hInst );
int SNDDMA_GetSoundtime( void );
void SNDDMA_Shutdown( void );
void SNDDMA_BeginPainting( void );
void SNDDMA_Submit( void );
//====================================================================
#define MAX_DYNAMIC_CHANNELS (60 + NUM_AMBIENTS)
#define MAX_CHANNELS (256 + MAX_DYNAMIC_CHANNELS) // Scourge Of Armagon has too many static sounds on hip2m4.bsp
#define MAX_RAW_CHANNELS 16
#define MAX_RAW_SAMPLES 8192
extern sound_t ambient_sfx[NUM_AMBIENTS];
extern qboolean snd_ambient;
extern channel_t channels[MAX_CHANNELS];
extern rawchan_t *raw_channels[MAX_RAW_CHANNELS];
extern int total_channels;
extern int paintedtime;
extern int soundtime;
extern listener_t s_listener;
extern int idsp_room;
extern dma_t dma;
extern convar_t *s_volume;
extern convar_t *s_musicvolume;
extern convar_t *s_show;
extern convar_t *s_mixahead;
extern convar_t *s_lerping;
extern convar_t *dsp_off;
extern convar_t *s_test; // cvar to testify new effects
void S_InitScaletable( void );
wavdata_t *S_LoadSound( sfx_t *sfx );
float S_GetMasterVolume( void );
float S_GetMusicVolume( void );
void S_PrintDeviceName( void );
//
// s_main.c
//
void S_FreeChannel( channel_t *ch );
//
// s_mix.c
//
int S_MixDataToDevice( channel_t *pChannel, int sampleCount, int outputRate, int outputOffset, int timeCompress );
void MIX_ClearAllPaintBuffers( int SampleCount, qboolean clearFilters );
void MIX_InitAllPaintbuffers( void );
void MIX_FreeAllPaintbuffers( void );
void MIX_PaintChannels( int endtime );
// s_load.c
qboolean S_TestSoundChar( const char *pch, char c );
char *S_SkipSoundChar( const char *pch );
sfx_t *S_FindName( const char *name, int *pfInCache );
sound_t S_RegisterSound( const char *name );
void S_FreeSound( sfx_t *sfx );
// s_dsp.c
void SX_Init( void );
void SX_Free( void );
void CheckNewDspPresets( void );
void DSP_Process( int idsp, portable_samplepair_t *pbfront, int sampleCount );
float DSP_GetGain( int idsp );
void DSP_ClearState( void );
qboolean S_Init( void );
void S_Shutdown( void );
void S_Activate( qboolean active, void *hInst );
void S_SoundList_f( void );
void S_SoundInfo_f( void );
channel_t *SND_PickDynamicChannel( int entnum, int channel, sfx_t *sfx, qboolean *ignore );
channel_t *SND_PickStaticChannel( const vec3_t pos, sfx_t *sfx );
int S_GetCurrentStaticSounds( soundlist_t *pout, int size );
int S_GetCurrentDynamicSounds( soundlist_t *pout, int size );
sfx_t *S_GetSfxByHandle( sound_t handle );
rawchan_t *S_FindRawChannel( int entnum, qboolean create );
void S_RawSamples( uint samples, uint rate, word width, word channels, const byte *data, int entnum );
void S_StopSound( int entnum, int channel, const char *soundname );
uint S_GetRawSamplesLength( int entnum );
void S_ClearRawChannel( int entnum );
void S_StopAllSounds( qboolean ambient );
void S_FreeSounds( void );
//
// s_mouth.c
//
void SND_InitMouth( int entnum, int entchannel );
void SND_MoveMouth8( channel_t *ch, wavdata_t *pSource, int count );
void SND_MoveMouth16( channel_t *ch, wavdata_t *pSource, int count );
void SND_CloseMouth( channel_t *ch );
//
// s_stream.c
//
void S_StreamSoundTrack( void );
void S_StreamBackgroundTrack( void );
qboolean S_StreamGetCurrentState( char *currentTrack, char *loopTrack, int *position );
void S_PrintBackgroundTrackState( void );
void S_FadeMusicVolume( float fadePercent );
//
// s_utils.c
//
int S_ZeroCrossingAfter( wavdata_t *pWaveData, int sample );
int S_ZeroCrossingBefore( wavdata_t *pWaveData, int sample );
int S_GetOutputData( wavdata_t *pSource, void **pData, int samplePosition, int sampleCount, qboolean use_loop );
void S_SetSampleStart( channel_t *pChan, wavdata_t *pSource, int newPosition );
void S_SetSampleEnd( channel_t *pChan, wavdata_t *pSource, int newEndPosition );
//
// s_vox.c
//
void VOX_Init( void );
void VOX_Shutdown( void );
void VOX_SetChanVol( channel_t *ch );
void VOX_LoadSound( channel_t *pchan, const char *psz );
float VOX_ModifyPitch( channel_t *ch, float pitch );
int VOX_MixDataToDevice( channel_t *pChannel, int sampleCount, int outputRate, int outputOffset );
#endif//SOUND_H