ref: 6b2df7a57294c528efc25765d7069407e9bdd4e8
dir: /src/pt2_audio.h/
#pragma once
#include <stdint.h>
#include <stdbool.h>
#include "pt2_header.h" // AMIGA_VOICES
typedef struct audio_t
{
volatile bool locked, isSampling;
bool forceSoundCardSilence, oversamplingFlag;
uint32_t outputRate, audioBufferSize;
int64_t tickSampleCounter64, samplesPerTick64;
int64_t bpmTable[256-32], bpmTable28kHz[256-32], bpmTable20kHz[256-32]; // 32.32 fixed-point
double dPeriodToDeltaDiv;
// for audio sampling
bool rescanAudioDevicesSupported;
// for audio/video syncing
bool resetSyncTickTimeFlag;
uint64_t tickLengthTable[224];
} audio_t;
typedef struct voice_t
{
volatile bool DMA_active;
// internal values (don't modify directly!)
int8_t AUD_DAT[2]; // DMA data buffer
const int8_t* location; // current location
uint16_t lengthCounter; // current length
int32_t sampleCounter; // how many bytes left in AUD_DAT
double dSample; // current sample point
// registers modified by Paula functions
const int8_t* AUD_LC; // location
uint16_t AUD_LEN; // length (in words)
double AUD_PER_delta, AUD_PER_deltamul; // delta
double AUD_VOL; // volume
double dDelta, dPhase;
// for BLEP synthesis
double dLastDelta, dLastPhase, dLastDeltaMul, dBlepOffset, dDeltaMul;
// period cache
int32_t oldPeriod;
double dOldVoiceDelta, dOldVoiceDeltaMul;
// used for pt2_sync.c
uint8_t syncFlags;
uint8_t syncVolume;
int32_t syncPeriod;
int32_t syncTriggerLength;
const int8_t *syncTriggerData;
} paulaVoice_t;
void updateReplayerTimingMode(void);
void setSyncTickTimeLen(uint32_t timeLen, uint32_t timeLenFrac);
void resetCachedMixerPeriod(void);
void resetAudioDithering(void);
uint16_t get16BitPeak(int16_t *sampleData, uint32_t sampleLength);
uint32_t get32BitPeak(int32_t *sampleData, uint32_t sampleLength);
float getFloatPeak(float *fSampleData, uint32_t sampleLength);
double getDoublePeak(double *dSampleData, uint32_t sampleLength);
void normalize16BitTo8Bit(int16_t *sampleData, uint32_t sampleLength);
void normalize32BitTo8Bit(int32_t *sampleData, uint32_t sampleLength);
void normalizeFloatTo8Bit(float *fSampleData, uint32_t sampleLength);
void normalizeDoubleTo8Bit(double *dSampleData, uint32_t sampleLength);
void setLEDFilter(bool state, bool doLockAudio);
void toggleLEDFilter(void);
void toggleAmigaPanMode(void);
void toggleFilterModel(void);
void paulaStopDMA(int32_t ch);
void paulaStartDMA(int32_t ch);
void paulaSetPeriod(int32_t ch, uint16_t period);
void paulaSetVolume(int32_t ch, uint16_t vol);
void paulaSetLength(int32_t ch, uint16_t len);
void paulaSetData(int32_t ch, const int8_t *src);
void lockAudio(void);
void unlockAudio(void);
void mixerUpdateLoops(void);
void mixerKillVoice(int32_t ch);
void turnOffVoices(void);
void mixerSetStereoSeparation(uint8_t percentage);
void outputAudio(int16_t *target, int32_t numSamples);
extern audio_t audio; // pt2_audio.c
extern paulaVoice_t paula[AMIGA_VOICES]; // pt2_audio.c