ref: 7bc888ae5c8b31f7ccf657a7184b7b3957d48fba
dir: /snd_masm.h/
#pragma once #define GET_VOL \ const int32_t CDA_LVol = v->SLVol1; \ const int32_t CDA_RVol = v->SRVol1; \ #define GET_VOL_CENTER \ const int32_t CDA_LVol = v->SLVol1; \ #define GET_VOL_RAMP \ int32_t CDA_LVol = v->SLVol2; \ int32_t CDA_RVol = v->SRVol2; \ #define SET_VOL_BACK \ v->SLVol2 = CDA_LVol; \ v->SRVol2 = CDA_RVol; \ #define GET_MIXER_VARS \ int32_t *audioMix = CDA_MixBuffer + (bufferPos << 1); \ int32_t realPos = v->SPos; \ uint32_t pos = v->SPosDec; \ uint16_t CDA_MixBuffPos = (32768+96)-8; /* address of FT2 mix buffer minus mix sample size (used for quirky LERP) */ \ #define GET_RAMP_VARS \ int32_t CDA_LVolIP = v->SLVolIP; \ int32_t CDA_RVolIP = v->SRVolIP; \ #define SET_BASE8 \ const int8_t *CDA_LinearAdr = (int8_t *)v->SBase; \ const int8_t *CDA_LinAdrRev = (int8_t *)v->SRevBase; \ const int8_t *smpPtr = CDA_LinearAdr + realPos; USED(smpPtr); \ #define SET_BASE16 \ const int16_t *CDA_LinearAdr = (int16_t *)v->SBase; \ const int16_t *CDA_LinAdrRev = (int16_t *)v->SRevBase; \ const int16_t *smpPtr = CDA_LinearAdr + realPos; USED(smpPtr); \ #define INC_POS \ smpPtr += CDA_IPValH; \ smpPtr += (CDA_IPValL > (uint32_t)~pos); /* if pos would 32-bit overflow after CDA_IPValL add, add one to smpPtr (branchless) */ \ pos += CDA_IPValL; \ #define SET_BACK_MIXER_POS \ v->SPosDec = pos & 0xFFFF0000; \ v->SPos = realPos; \ #define VOL_RAMP \ CDA_LVol += CDA_LVolIP; \ CDA_RVol += CDA_RVolIP; \ // stereo mixing without interpolation #define MIX_8BIT \ sample = (*smpPtr) << (28-8); \ *audioMix++ += ((int64_t)sample * (int32_t)CDA_LVol) >> 32; \ *audioMix++ += ((int64_t)sample * (int32_t)CDA_RVol) >> 32; \ INC_POS \ #define MIX_16BIT \ sample = (*smpPtr) << (28-16); \ *audioMix++ += ((int64_t)sample * (int32_t)CDA_LVol) >> 32; \ *audioMix++ += ((int64_t)sample * (int32_t)CDA_RVol) >> 32; \ INC_POS \ // center mixing without interpolation #define MIX_8BIT_M \ sample = (*smpPtr) << (28-8); \ sample = ((int64_t)sample * (int32_t)CDA_LVol) >> 32; \ *audioMix++ += sample; \ *audioMix++ += sample; \ INC_POS \ #define MIX_16BIT_M \ sample = (*smpPtr) << (28-16); \ sample = ((int64_t)sample * (int32_t)CDA_LVol) >> 32; \ *audioMix++ += sample; \ *audioMix++ += sample; \ INC_POS \ // linear interpolation with bit-accurate results to FT2.08/FT2.09 #define LERP(s1, s2, f) \ { \ s2 -= s1; \ f >>= 1; \ s2 = ((int64_t)s2 * (int32_t)f) >> 32; \ f += f; \ s2 += s2; \ s2 += s1; \ } \ // stereo mixing w/ linear interpolation #define MIX_8BIT_INTRP \ sample = smpPtr[0] << 8; \ sample2 = smpPtr[1] << 8; \ LERP(sample, sample2, pos) \ sample2 <<= (28-16); \ *audioMix++ += ((int64_t)sample2 * (int32_t)CDA_LVol) >> 32; \ *audioMix++ += ((int64_t)sample2 * (int32_t)CDA_RVol) >> 32; \ INC_POS \ #define MIX_16BIT_INTRP \ sample = smpPtr[0]; \ sample2 = smpPtr[1]; \ LERP(sample, sample2, pos) \ sample2 <<= (28-16); \ *audioMix++ += ((int64_t)sample2 * (int32_t)CDA_LVol) >> 32; \ *audioMix++ += ((int64_t)sample2 * (int32_t)CDA_RVol) >> 32; \ INC_POS \ // center mixing w/ linear interpolation #define MIX_8BIT_INTRP_M \ sample = smpPtr[0] << 8; \ sample2 = smpPtr[1] << 8; \ LERP(sample, sample2, pos) \ sample2 <<= (28-16); \ sample = ((int64_t)sample2 * (int32_t)CDA_LVol) >> 32; \ *audioMix++ += sample; \ *audioMix++ += sample; \ INC_POS \ #define MIX_16BIT_INTRP_M \ sample = smpPtr[0]; \ sample2 = smpPtr[1]; \ LERP(sample, sample2, pos) \ sample2 <<= (28-16); \ sample = ((int64_t)sample2 * (int32_t)CDA_LVol) >> 32; \ *audioMix++ += sample; \ *audioMix++ += sample; \ INC_POS \ // ------------------------ #define LIMIT_MIX_NUM \ int32_t samplesToMix; \ int32_t SFrq = v->SFrq; \ int32_t i = (v->SLen - 1) - realPos; \ if (i > 65535) i = 65535; /* 8bb: added this to prevent 64-bit div (still bit-accurate mixing results) */ \ if (SFrq != 0) \ { \ const uint32_t tmp32 = (i << 16) | ((0xFFFF0000 - pos) >> 16); \ samplesToMix = (tmp32 / (uint32_t)SFrq) + 1; \ } \ else \ { \ samplesToMix = 65535; \ } \ \ if (samplesToMix > CDA_BytesLeft) \ samplesToMix = CDA_BytesLeft; \ #define LIMIT_MIX_NUM_RAMP \ if (v->SVolIPLen == 0) \ { \ CDA_LVolIP = 0; \ CDA_RVolIP = 0; \ } \ else \ { \ if (samplesToMix > v->SVolIPLen) \ samplesToMix = v->SVolIPLen; \ \ v->SVolIPLen -= samplesToMix; \ } \ #define HANDLE_POS_START \ const bool backwards = (v->SType & (SType_Rev+SType_RevDir)) == SType_Rev+SType_RevDir; \ if (backwards) \ { \ SFrq = 0 - SFrq; \ realPos = ~realPos; \ smpPtr = CDA_LinAdrRev + realPos; \ pos ^= 0xFFFF0000; \ } \ else \ { \ smpPtr = CDA_LinearAdr + realPos; \ } \ \ pos += CDA_MixBuffPos; \ const int32_t CDA_IPValH = (int32_t)SFrq >> 16; \ const uint32_t CDA_IPValL = ((uint32_t)(SFrq & 0xFFFF) << 16) + 8; /* 8 = mixer buffer increase (for LERP to be bit-accurate) */ \ #define HANDLE_POS_END \ if (backwards) \ { \ pos ^= 0xFFFF0000; \ realPos = ~(int32_t)(smpPtr - CDA_LinAdrRev); \ } \ else \ { \ realPos = (int32_t)(smpPtr - CDA_LinearAdr); \ } \ CDA_MixBuffPos = pos & 0xFFFF; \ pos &= 0xFFFF0000; \ \ if (realPos >= v->SLen) \ { \ uint8_t SType = v->SType; \ if (SType & (SType_Fwd+SType_Rev)) \ { \ do \ { \ realPos -= v->SRepL; \ SType ^= SType_RevDir; \ } \ while (realPos >= v->SLen); \ v->SType = SType; \ } \ else \ { \ v->SType = SType_Off; \ return; \ } \ } \ typedef void (*mixRoutine)(void *, int32_t, int32_t); extern mixRoutine mixRoutineTable[16]; void PMPMix32Proc(CIType *v, int32_t numSamples, int32_t bufferPos); // 8bb: numSamples = 1..65535