#ifndef AL_MIDI_BASE_H #define AL_MIDI_BASE_H #include "alMain.h" #include "atomic.h" #include "evtqueue.h" #ifdef __cplusplus extern "C" { #endif struct ALsoundfont; typedef size_t (*ReaderCb)(void *ptr, size_t size, void *stream); typedef struct Reader { ReaderCb cb; void *ptr; int error; } Reader; #define READ(x_, buf_, len_) ((x_)->cb((buf_), (len_), (x_)->ptr)) #define READERR(x_) ((x_)->error) ALboolean loadSf2(Reader *stream, struct ALsoundfont *sfont, ALCcontext *context); #define MIDI_CLOCK_RES U64(1000000000) struct MidiSynthVtable; typedef struct MidiSynth { EvtQueue EventQueue; ALuint64 ClockBase; ALuint SamplesDone; ALuint SampleRate; /* NOTE: This rwlock is for the state and soundfont. The EventQueue and * related must instead use the device lock as they're used in the mixer * thread. */ RWLock Lock; struct ALsoundfont **Soundfonts; ALsizei NumSoundfonts; volatile ALfloat Gain; volatile ALenum State; const struct MidiSynthVtable *vtbl; } MidiSynth; void MidiSynth_Construct(MidiSynth *self, ALCdevice *device); void MidiSynth_Destruct(MidiSynth *self); ALenum MidiSynth_selectSoundfonts(MidiSynth *self, ALCcontext *context, ALsizei count, const ALuint *ids); inline void MidiSynth_setGain(MidiSynth *self, ALfloat gain) { self->Gain = gain; } inline ALfloat MidiSynth_getGain(const MidiSynth *self) { return self->Gain; } inline void MidiSynth_setState(MidiSynth *self, ALenum state) { ExchangeInt(&self->State, state); } inline ALenum MidiSynth_getState(const MidiSynth *self) { return self->State; } void MidiSynth_stop(MidiSynth *self); inline void MidiSynth_reset(MidiSynth *self) { MidiSynth_stop(self); } inline ALuint64 MidiSynth_getTime(const MidiSynth *self) { return self->ClockBase + (self->SamplesDone*MIDI_CLOCK_RES/self->SampleRate); } inline ALuint64 MidiSynth_getNextEvtTime(const MidiSynth *self) { if(self->EventQueue.pos == self->EventQueue.size) return UINT64_MAX; return self->EventQueue.events[self->EventQueue.pos].time; } void MidiSynth_setSampleRate(MidiSynth *self, ALuint srate); inline void MidiSynth_update(MidiSynth *self, ALCdevice *device) { MidiSynth_setSampleRate(self, device->Frequency); } ALenum MidiSynth_insertEvent(MidiSynth *self, ALuint64 time, ALuint event, ALsizei param1, ALsizei param2); ALenum MidiSynth_insertSysExEvent(MidiSynth *self, ALuint64 time, const ALbyte *data, ALsizei size); struct MidiSynthVtable { void (*const Destruct)(MidiSynth *self); ALenum (*const selectSoundfonts)(MidiSynth *self, ALCcontext *context, ALsizei count, const ALuint *ids); void (*const setGain)(MidiSynth *self, ALfloat gain); void (*const setState)(MidiSynth *self, ALenum state); void (*const stop)(MidiSynth *self); void (*const reset)(MidiSynth *self); void (*const update)(MidiSynth *self, ALCdevice *device); void (*const process)(MidiSynth *self, ALuint samples, ALfloat (*restrict DryBuffer)[BUFFERSIZE]); void (*const Delete)(void *ptr); }; #define DEFINE_MIDISYNTH_VTABLE(T) \ DECLARE_THUNK(T, MidiSynth, void, Destruct) \ DECLARE_THUNK3(T, MidiSynth, ALenum, selectSoundfonts, ALCcontext*, ALsizei, const ALuint*) \ DECLARE_THUNK1(T, MidiSynth, void, setGain, ALfloat) \ DECLARE_THUNK1(T, MidiSynth, void, setState, ALenum) \ DECLARE_THUNK(T, MidiSynth, void, stop) \ DECLARE_THUNK(T, MidiSynth, void, reset) \ DECLARE_THUNK1(T, MidiSynth, void, update, ALCdevice*) \ DECLARE_THUNK2(T, MidiSynth, void, process, ALuint, ALfloatBUFFERSIZE*restrict) \ static void T##_MidiSynth_Delete(void *ptr) \ { T##_Delete(STATIC_UPCAST(T, MidiSynth, ptr)); } \ \ static const struct MidiSynthVtable T##_MidiSynth_vtable = { \ T##_MidiSynth_Destruct, \ \ T##_MidiSynth_selectSoundfonts, \ T##_MidiSynth_setGain, \ T##_MidiSynth_setState, \ T##_MidiSynth_stop, \ T##_MidiSynth_reset, \ T##_MidiSynth_update, \ T##_MidiSynth_process, \ \ T##_MidiSynth_Delete, \ } MidiSynth *SSynth_create(ALCdevice *device); MidiSynth *FSynth_create(ALCdevice *device); MidiSynth *DSynth_create(ALCdevice *device); MidiSynth *SynthCreate(ALCdevice *device); #ifdef __cplusplus } #endif #endif /* AL_MIDI_BASE_H */