ref: 723ca0d4b4da52cf0c52e84fa9b81ba11ae5ad31
dir: /snd_masm.c/
#include "common.h" #include "pmplay.h" #include "pmp_mix.h" #include "snd_masm.h" /* 8bb: This is done in a slightly different way, but the result ** is the same (bit-accurate to FT2.08/FT2.09 w/ SB16, and WAV-writer). ** ** Mixer macros are stored in snd_masm.h */ void PMPMix32Proc(CIType *v, int32_t numSamples, int32_t bufferPos) // 8bb: numSamples = 1..65535 { if (numSamples > 65535) return; if (v->SType & SType_Off) return; // voice is not active uint32_t volStatus = v->SLVol1 | v->SRVol1; if (volumeRampingFlag) volStatus |= v->SLVol2 | v->SRVol2; if (volStatus == 0) // mix silence { const uint32_t addPos = (v->SFrq >> 16) * (uint32_t)numSamples; uint32_t addFrac = (v->SFrq & 0xFFFF) * (uint32_t)numSamples; addFrac += v->SPosDec >> 16; int32_t realPos = v->SPos + addPos + (addFrac >> 16); if (realPos >= v->SLen) { uint8_t SType = v->SType; if (SType & (SType_Fwd+SType_Rev)) { do { SType ^= SType_RevDir; realPos -= v->SRepL; } while (realPos >= v->SLen); v->SType = SType; } else { v->SType = SType_Off; return; } } v->SPosDec = (addFrac & 0xFFFF) << 16; v->SPos = realPos; } else // normal mixing { bool mixInCenter; if (volumeRampingFlag) mixInCenter = (v->SLVol2 == v->SRVol2) && (v->SLVolIP == v->SRVolIP); else mixInCenter = v->SLVol1 == v->SRVol1; mixRoutineTable[(mixInCenter * 8) + v->SMixType](v, numSamples, bufferPos); } } static void mix8b(CIType *v, uint32_t numSamples, uint32_t bufferPos) { int32_t sample; GET_VOL GET_MIXER_VARS SET_BASE8 int32_t CDA_BytesLeft = numSamples; while (CDA_BytesLeft > 0) { LIMIT_MIX_NUM CDA_BytesLeft -= samplesToMix; HANDLE_POS_START for (i = 0; i < (samplesToMix & 3); i++) { MIX_8BIT } samplesToMix >>= 2; for (i = 0; i < samplesToMix; i++) { MIX_8BIT MIX_8BIT MIX_8BIT MIX_8BIT } HANDLE_POS_END } SET_BACK_MIXER_POS } static void mix8bIntrp(CIType *v, uint32_t numSamples, uint32_t bufferPos) { int32_t sample, sample2; GET_VOL GET_MIXER_VARS SET_BASE8 int32_t CDA_BytesLeft = numSamples; while (CDA_BytesLeft > 0) { LIMIT_MIX_NUM CDA_BytesLeft -= samplesToMix; HANDLE_POS_START for (i = 0; i < (samplesToMix & 3); i++) { MIX_8BIT_INTRP } samplesToMix >>= 2; for (i = 0; i < samplesToMix; i++) { MIX_8BIT_INTRP MIX_8BIT_INTRP MIX_8BIT_INTRP MIX_8BIT_INTRP } HANDLE_POS_END } SET_BACK_MIXER_POS } static void mix8bRamp(CIType *v, uint32_t numSamples, uint32_t bufferPos) { int32_t sample; GET_MIXER_VARS GET_RAMP_VARS SET_BASE8 int32_t CDA_BytesLeft = numSamples; while (CDA_BytesLeft > 0) { LIMIT_MIX_NUM LIMIT_MIX_NUM_RAMP CDA_BytesLeft -= samplesToMix; GET_VOL_RAMP HANDLE_POS_START for (i = 0; i < (samplesToMix & 3); i++) { MIX_8BIT VOL_RAMP } samplesToMix >>= 2; for (i = 0; i < samplesToMix; i++) { MIX_8BIT VOL_RAMP MIX_8BIT VOL_RAMP MIX_8BIT VOL_RAMP MIX_8BIT VOL_RAMP } HANDLE_POS_END SET_VOL_BACK } SET_BACK_MIXER_POS } static void mix8bRampIntrp(CIType *v, uint32_t numSamples, uint32_t bufferPos) { int32_t sample, sample2; GET_MIXER_VARS GET_RAMP_VARS SET_BASE8 int32_t CDA_BytesLeft = numSamples; while (CDA_BytesLeft > 0) { LIMIT_MIX_NUM LIMIT_MIX_NUM_RAMP CDA_BytesLeft -= samplesToMix; GET_VOL_RAMP HANDLE_POS_START for (i = 0; i < (samplesToMix & 3); i++) { MIX_8BIT_INTRP VOL_RAMP } samplesToMix >>= 2; for (i = 0; i < samplesToMix; i++) { MIX_8BIT_INTRP VOL_RAMP MIX_8BIT_INTRP VOL_RAMP MIX_8BIT_INTRP VOL_RAMP MIX_8BIT_INTRP VOL_RAMP } HANDLE_POS_END SET_VOL_BACK } SET_BACK_MIXER_POS } static void mix16b(CIType *v, uint32_t numSamples, uint32_t bufferPos) { int32_t sample; GET_VOL GET_MIXER_VARS SET_BASE16 int32_t CDA_BytesLeft = numSamples; while (CDA_BytesLeft > 0) { LIMIT_MIX_NUM CDA_BytesLeft -= samplesToMix; HANDLE_POS_START for (i = 0; i < (samplesToMix & 3); i++) { MIX_16BIT } samplesToMix >>= 2; for (i = 0; i < samplesToMix; i++) { MIX_16BIT MIX_16BIT MIX_16BIT MIX_16BIT } HANDLE_POS_END } SET_BACK_MIXER_POS } static void mix16bIntrp(CIType *v, uint32_t numSamples, uint32_t bufferPos) { int32_t sample, sample2; GET_VOL GET_MIXER_VARS SET_BASE16 int32_t CDA_BytesLeft = numSamples; while (CDA_BytesLeft > 0) { LIMIT_MIX_NUM CDA_BytesLeft -= samplesToMix; HANDLE_POS_START for (i = 0; i < (samplesToMix & 3); i++) { MIX_16BIT_INTRP } samplesToMix >>= 2; for (i = 0; i < samplesToMix; i++) { MIX_16BIT_INTRP MIX_16BIT_INTRP MIX_16BIT_INTRP MIX_16BIT_INTRP } HANDLE_POS_END } SET_BACK_MIXER_POS } static void mix16bRamp(CIType *v, uint32_t numSamples, uint32_t bufferPos) { int32_t sample; GET_MIXER_VARS GET_RAMP_VARS SET_BASE16 int32_t CDA_BytesLeft = numSamples; while (CDA_BytesLeft > 0) { LIMIT_MIX_NUM LIMIT_MIX_NUM_RAMP CDA_BytesLeft -= samplesToMix; GET_VOL_RAMP HANDLE_POS_START for (i = 0; i < (samplesToMix & 3); i++) { MIX_16BIT VOL_RAMP } samplesToMix >>= 2; for (i = 0; i < samplesToMix; i++) { MIX_16BIT VOL_RAMP MIX_16BIT VOL_RAMP MIX_16BIT VOL_RAMP MIX_16BIT VOL_RAMP } HANDLE_POS_END SET_VOL_BACK } SET_BACK_MIXER_POS } static void mix16bRampIntrp(CIType *v, uint32_t numSamples, uint32_t bufferPos) { int32_t sample, sample2; GET_MIXER_VARS GET_RAMP_VARS SET_BASE16 int32_t CDA_BytesLeft = numSamples; while (CDA_BytesLeft > 0) { LIMIT_MIX_NUM LIMIT_MIX_NUM_RAMP CDA_BytesLeft -= samplesToMix; GET_VOL_RAMP HANDLE_POS_START for (i = 0; i < (samplesToMix & 3); i++) { MIX_16BIT_INTRP VOL_RAMP } samplesToMix >>= 2; for (i = 0; i < samplesToMix; i++) { MIX_16BIT_INTRP VOL_RAMP MIX_16BIT_INTRP VOL_RAMP MIX_16BIT_INTRP VOL_RAMP MIX_16BIT_INTRP VOL_RAMP } HANDLE_POS_END SET_VOL_BACK } SET_BACK_MIXER_POS } static void mix8bCenter(CIType *v, uint32_t numSamples, uint32_t bufferPos) { int32_t sample; GET_VOL_CENTER GET_MIXER_VARS SET_BASE8 int32_t CDA_BytesLeft = numSamples; while (CDA_BytesLeft > 0) { LIMIT_MIX_NUM CDA_BytesLeft -= samplesToMix; HANDLE_POS_START for (i = 0; i < (samplesToMix & 3); i++) { MIX_8BIT_M } samplesToMix >>= 2; for (i = 0; i < samplesToMix; i++) { MIX_8BIT_M MIX_8BIT_M MIX_8BIT_M MIX_8BIT_M } HANDLE_POS_END } SET_BACK_MIXER_POS } static void mix8bIntrpCenter(CIType *v, uint32_t numSamples, uint32_t bufferPos) { int32_t sample, sample2; GET_VOL_CENTER GET_MIXER_VARS SET_BASE8 int32_t CDA_BytesLeft = numSamples; while (CDA_BytesLeft > 0) { LIMIT_MIX_NUM CDA_BytesLeft -= samplesToMix; HANDLE_POS_START for (i = 0; i < (samplesToMix & 3); i++) { MIX_8BIT_INTRP_M } samplesToMix >>= 2; for (i = 0; i < samplesToMix; i++) { MIX_8BIT_INTRP_M MIX_8BIT_INTRP_M MIX_8BIT_INTRP_M MIX_8BIT_INTRP_M } HANDLE_POS_END } SET_BACK_MIXER_POS } static void mix8bRampCenter(CIType *v, uint32_t numSamples, uint32_t bufferPos) { int32_t sample; GET_MIXER_VARS GET_RAMP_VARS SET_BASE8 int32_t CDA_BytesLeft = numSamples; while (CDA_BytesLeft > 0) { LIMIT_MIX_NUM LIMIT_MIX_NUM_RAMP CDA_BytesLeft -= samplesToMix; GET_VOL_RAMP HANDLE_POS_START for (i = 0; i < (samplesToMix & 3); i++) { MIX_8BIT_M VOL_RAMP } samplesToMix >>= 2; for (i = 0; i < samplesToMix; i++) { MIX_8BIT_M VOL_RAMP MIX_8BIT_M VOL_RAMP MIX_8BIT_M VOL_RAMP MIX_8BIT_M VOL_RAMP } HANDLE_POS_END SET_VOL_BACK } SET_BACK_MIXER_POS } static void mix8bRampIntrpCenter(CIType *v, uint32_t numSamples, uint32_t bufferPos) { int32_t sample, sample2; GET_MIXER_VARS GET_RAMP_VARS SET_BASE8 int32_t CDA_BytesLeft = numSamples; while (CDA_BytesLeft > 0) { LIMIT_MIX_NUM LIMIT_MIX_NUM_RAMP CDA_BytesLeft -= samplesToMix; GET_VOL_RAMP HANDLE_POS_START for (i = 0; i < (samplesToMix & 3); i++) { MIX_8BIT_INTRP_M VOL_RAMP } samplesToMix >>= 2; for (i = 0; i < samplesToMix; i++) { MIX_8BIT_INTRP_M VOL_RAMP MIX_8BIT_INTRP_M VOL_RAMP MIX_8BIT_INTRP_M VOL_RAMP MIX_8BIT_INTRP_M VOL_RAMP } HANDLE_POS_END SET_VOL_BACK } SET_BACK_MIXER_POS } static void mix16bCenter(CIType *v, uint32_t numSamples, uint32_t bufferPos) { int32_t sample; GET_VOL_CENTER GET_MIXER_VARS SET_BASE16 int32_t CDA_BytesLeft = numSamples; while (CDA_BytesLeft > 0) { LIMIT_MIX_NUM CDA_BytesLeft -= samplesToMix; HANDLE_POS_START for (i = 0; i < (samplesToMix & 3); i++) { MIX_16BIT_M } samplesToMix >>= 2; for (i = 0; i < samplesToMix; i++) { MIX_16BIT_M MIX_16BIT_M MIX_16BIT_M MIX_16BIT_M } HANDLE_POS_END } SET_BACK_MIXER_POS } static void mix16bIntrpCenter(CIType *v, uint32_t numSamples, uint32_t bufferPos) { int32_t sample, sample2; GET_VOL_CENTER GET_MIXER_VARS SET_BASE16 int32_t CDA_BytesLeft = numSamples; while (CDA_BytesLeft > 0) { LIMIT_MIX_NUM CDA_BytesLeft -= samplesToMix; HANDLE_POS_START for (i = 0; i < (samplesToMix & 3); i++) { MIX_16BIT_INTRP_M } samplesToMix >>= 2; for (i = 0; i < samplesToMix; i++) { MIX_16BIT_INTRP_M MIX_16BIT_INTRP_M MIX_16BIT_INTRP_M MIX_16BIT_INTRP_M } HANDLE_POS_END } SET_BACK_MIXER_POS } static void mix16bRampCenter(CIType *v, uint32_t numSamples, uint32_t bufferPos) { int32_t sample; GET_MIXER_VARS GET_RAMP_VARS SET_BASE16 int32_t CDA_BytesLeft = numSamples; while (CDA_BytesLeft > 0) { LIMIT_MIX_NUM LIMIT_MIX_NUM_RAMP CDA_BytesLeft -= samplesToMix; GET_VOL_RAMP HANDLE_POS_START for (i = 0; i < (samplesToMix & 3); i++) { MIX_16BIT_M VOL_RAMP } samplesToMix >>= 2; for (i = 0; i < samplesToMix; i++) { MIX_16BIT_M VOL_RAMP MIX_16BIT_M VOL_RAMP MIX_16BIT_M VOL_RAMP MIX_16BIT_M VOL_RAMP } HANDLE_POS_END SET_VOL_BACK } SET_BACK_MIXER_POS } static void mix16bRampIntrpCenter(CIType *v, uint32_t numSamples, uint32_t bufferPos) { int32_t sample, sample2; GET_MIXER_VARS GET_RAMP_VARS SET_BASE16 int32_t CDA_BytesLeft = numSamples; while (CDA_BytesLeft > 0) { LIMIT_MIX_NUM LIMIT_MIX_NUM_RAMP CDA_BytesLeft -= samplesToMix; GET_VOL_RAMP HANDLE_POS_START for (i = 0; i < (samplesToMix & 3); i++) { MIX_16BIT_INTRP_M VOL_RAMP } samplesToMix >>= 2; for (i = 0; i < samplesToMix; i++) { MIX_16BIT_INTRP_M VOL_RAMP MIX_16BIT_INTRP_M VOL_RAMP MIX_16BIT_INTRP_M VOL_RAMP MIX_16BIT_INTRP_M VOL_RAMP } HANDLE_POS_END SET_VOL_BACK } SET_BACK_MIXER_POS } mixRoutine mixRoutineTable[16] = { (mixRoutine)mix8b, (mixRoutine)mix8bIntrp, (mixRoutine)mix8bRamp, (mixRoutine)mix8bRampIntrp, (mixRoutine)mix16b, (mixRoutine)mix16bIntrp, (mixRoutine)mix16bRamp, (mixRoutine)mix16bRampIntrp, (mixRoutine)mix8bCenter, (mixRoutine)mix8bIntrpCenter, (mixRoutine)mix8bRampCenter, (mixRoutine)mix8bRampIntrpCenter, (mixRoutine)mix16bCenter, (mixRoutine)mix16bIntrpCenter, (mixRoutine)mix16bRampCenter, (mixRoutine)mix16bRampIntrpCenter };