#ifndef _AL_SOURCE_H_ #define _AL_SOURCE_H_ #define MAX_SENDS 16 #define DEFAULT_SENDS 2 #include "alMain.h" #include "alu.h" #include "hrtf.h" #ifdef __cplusplus extern "C" { #endif struct ALbuffer; struct ALsource; struct ALsourceProps; typedef struct ALbufferlistitem { struct ALbuffer *buffer; struct ALbufferlistitem *volatile next; } ALbufferlistitem; struct ALsourceProps { ATOMIC(struct ALsourceProps*) next; ATOMIC(ALfloat) Pitch; ATOMIC(ALfloat) Gain; ATOMIC(ALfloat) OuterGain; ATOMIC(ALfloat) MinGain; ATOMIC(ALfloat) MaxGain; ATOMIC(ALfloat) InnerAngle; ATOMIC(ALfloat) OuterAngle; ATOMIC(ALfloat) RefDistance; ATOMIC(ALfloat) MaxDistance; ATOMIC(ALfloat) RollOffFactor; ATOMIC(ALfloat) Position[3]; ATOMIC(ALfloat) Velocity[3]; ATOMIC(ALfloat) Direction[3]; ATOMIC(ALfloat) Orientation[2][3]; ATOMIC(ALboolean) HeadRelative; ATOMIC(enum DistanceModel) DistanceModel; ATOMIC(ALboolean) DirectChannels; ATOMIC(ALboolean) DryGainHFAuto; ATOMIC(ALboolean) WetGainAuto; ATOMIC(ALboolean) WetGainHFAuto; ATOMIC(ALfloat) OuterGainHF; ATOMIC(ALfloat) AirAbsorptionFactor; ATOMIC(ALfloat) RoomRolloffFactor; ATOMIC(ALfloat) DopplerFactor; ATOMIC(ALfloat) StereoPan[2]; ATOMIC(ALfloat) Radius; /** Direct filter and auxiliary send info. */ struct { ATOMIC(ALfloat) Gain; ATOMIC(ALfloat) GainHF; ATOMIC(ALfloat) HFReference; ATOMIC(ALfloat) GainLF; ATOMIC(ALfloat) LFReference; } Direct; struct { ATOMIC(struct ALeffectslot*) Slot; ATOMIC(ALfloat) Gain; ATOMIC(ALfloat) GainHF; ATOMIC(ALfloat) HFReference; ATOMIC(ALfloat) GainLF; ATOMIC(ALfloat) LFReference; } Send[]; }; typedef struct ALvoice { struct ALsourceProps *Props; struct ALsource *Source; /** Current target parameters used for mixing. */ ALint Step; /* If not 'moving', gain/coefficients are set directly without fading. */ ALboolean Moving; ALboolean IsHrtf; ALuint Offset; /* Number of output samples mixed since starting. */ alignas(16) ALfloat PrevSamples[MAX_INPUT_CHANNELS][MAX_PRE_SAMPLES]; InterpState ResampleState; struct { DirectParams Params[MAX_INPUT_CHANNELS]; ALfloat (*Buffer)[BUFFERSIZE]; ALsizei Channels; } Direct; struct { SendParams Params[MAX_INPUT_CHANNELS]; ALfloat (*Buffer)[BUFFERSIZE]; ALsizei Channels; } Send[]; } ALvoice; typedef struct ALsource { /** Source properties. */ ALfloat Pitch; ALfloat Gain; ALfloat OuterGain; ALfloat MinGain; ALfloat MaxGain; ALfloat InnerAngle; ALfloat OuterAngle; ALfloat RefDistance; ALfloat MaxDistance; ALfloat RollOffFactor; ALfloat Position[3]; ALfloat Velocity[3]; ALfloat Direction[3]; ALfloat Orientation[2][3]; ALboolean HeadRelative; enum DistanceModel DistanceModel; ALboolean DirectChannels; ALboolean DryGainHFAuto; ALboolean WetGainAuto; ALboolean WetGainHFAuto; ALfloat OuterGainHF; ALfloat AirAbsorptionFactor; ALfloat RoomRolloffFactor; ALfloat DopplerFactor; /* NOTE: Stereo pan angles are specified in radians, counter-clockwise * rather than clockwise. */ ALfloat StereoPan[2]; ALfloat Radius; /** Direct filter and auxiliary send info. */ struct { ALfloat Gain; ALfloat GainHF; ALfloat HFReference; ALfloat GainLF; ALfloat LFReference; } Direct; struct { struct ALeffectslot *Slot; ALfloat Gain; ALfloat GainHF; ALfloat HFReference; ALfloat GainLF; ALfloat LFReference; } *Send; /** * Last user-specified offset, and the offset type (bytes, samples, or * seconds). */ ALdouble Offset; ALenum OffsetType; /** Source type (static, streaming, or undetermined) */ ALint SourceType; /** Source state (initial, playing, paused, or stopped) */ ATOMIC(ALenum) state; ALenum new_state; /** Source Buffer Queue info. */ RWLock queue_lock; ATOMIC(ALbufferlistitem*) queue; ATOMIC(ALbufferlistitem*) current_buffer; /** * Source offset in samples, relative to the currently playing buffer, NOT * the whole queue, and the fractional (fixed-point) offset to the next * sample. */ ATOMIC(ALuint) position; ATOMIC(ALuint) position_fraction; ATOMIC(ALboolean) looping; /** Current buffer sample info. */ ALsizei NumChannels; ALsizei SampleSize; ALenum NeedsUpdate; ATOMIC(struct ALsourceProps*) Update; ATOMIC(struct ALsourceProps*) FreeList; /** Self ID */ ALuint id; } ALsource; inline void LockSourcesRead(ALCcontext *context) { LockUIntMapRead(&context->SourceMap); } inline void UnlockSourcesRead(ALCcontext *context) { UnlockUIntMapRead(&context->SourceMap); } inline void LockSourcesWrite(ALCcontext *context) { LockUIntMapWrite(&context->SourceMap); } inline void UnlockSourcesWrite(ALCcontext *context) { UnlockUIntMapWrite(&context->SourceMap); } inline struct ALsource *LookupSource(ALCcontext *context, ALuint id) { return (struct ALsource*)LookupUIntMapKeyNoLock(&context->SourceMap, id); } inline struct ALsource *RemoveSource(ALCcontext *context, ALuint id) { return (struct ALsource*)RemoveUIntMapKeyNoLock(&context->SourceMap, id); } void UpdateAllSourceProps(ALCcontext *context); ALvoid SetSourceState(ALsource *Source, ALCcontext *Context, ALenum state); ALboolean ApplyOffset(ALsource *Source); inline ALboolean IsPlayingOrPaused(const ALsource *source) { ALenum state = ATOMIC_LOAD_SEQ(&source->state); return state == AL_PLAYING || state == AL_PAUSED; } ALvoid ReleaseALSources(ALCcontext *Context); #ifdef __cplusplus } #endif #endif