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#include "config.h"
#include "AL/alc.h"
#include "AL/al.h"
#include "alMain.h"
#include "alSource.h"
#include "alAuxEffectSlot.h"
#include "mixer_defs.h"
#ifdef __GNUC__
#define LIKELY(x) __builtin_expect(!!(x), 1)
#define UNLIKELY(x) __builtin_expect(!!(x), 0)
#else
#define LIKELY(x) (x)
#define UNLIKELY(x) (x)
#endif
#define REAL_MERGE2(a,b) a##b
#define MERGE2(a,b) REAL_MERGE2(a,b)
#define REAL_MERGE4(a,b,c,d) a##b##c##d
#define MERGE4(a,b,c,d) REAL_MERGE4(a,b,c,d)
void MERGE4(MixDirect_Hrtf_,SAMPLER,_,SUFFIX)(
ALsource *Source, ALCdevice *Device, DirectParams *params,
const ALfloat *RESTRICT data, ALuint srcfrac,
ALuint OutPos, ALuint SamplesToDo, ALuint BufferSize)
{
const ALuint NumChannels = Source->NumChannels;
const ALint *RESTRICT DelayStep = params->Hrtf.DelayStep;
ALfloat (*RESTRICT DryBuffer)[MaxChannels];
ALfloat *RESTRICT ClickRemoval, *RESTRICT PendingClicks;
ALfloat (*RESTRICT CoeffStep)[2] = params->Hrtf.CoeffStep;
ALuint pos, frac;
FILTER *DryFilter;
ALuint BufferIdx;
ALuint increment;
ALfloat value;
ALuint i, c;
increment = Source->Params.Step;
DryBuffer = Device->DryBuffer;
ClickRemoval = Device->ClickRemoval;
PendingClicks = Device->PendingClicks;
DryFilter = ¶ms->iirFilter;
for(i = 0;i < NumChannels;i++)
{
ALfloat (*RESTRICT TargetCoeffs)[2] = params->Hrtf.Coeffs[i];
ALuint *RESTRICT TargetDelay = params->Hrtf.Delay[i];
ALfloat *RESTRICT History = Source->Hrtf.History[i];
ALfloat (*RESTRICT Values)[2] = Source->Hrtf.Values[i];
ALint Counter = maxu(Source->Hrtf.Counter, OutPos) - OutPos;
ALuint Offset = Source->Hrtf.Offset + OutPos;
ALIGN(16) ALfloat Coeffs[HRIR_LENGTH][2];
ALuint Delay[2];
ALfloat left, right;
pos = 0;
frac = srcfrac;
for(c = 0;c < HRIR_LENGTH;c++)
{
Coeffs[c][0] = TargetCoeffs[c][0] - (CoeffStep[c][0]*Counter);
Coeffs[c][1] = TargetCoeffs[c][1] - (CoeffStep[c][1]*Counter);
}
Delay[0] = TargetDelay[0] - (DelayStep[0]*Counter);
Delay[1] = TargetDelay[1] - (DelayStep[1]*Counter);
if(LIKELY(OutPos == 0))
{
value = SAMPLER(data + pos*NumChannels + i, NumChannels, frac);
value = lpFilter2PC(DryFilter, i, value);
History[Offset&SRC_HISTORY_MASK] = value;
left = lerp(History[(Offset-(Delay[0]>>HRTFDELAY_BITS))&SRC_HISTORY_MASK],
History[(Offset-(Delay[0]>>HRTFDELAY_BITS)-1)&SRC_HISTORY_MASK],
(Delay[0]&HRTFDELAY_MASK)*(1.0f/HRTFDELAY_FRACONE));
right = lerp(History[(Offset-(Delay[1]>>HRTFDELAY_BITS))&SRC_HISTORY_MASK],
History[(Offset-(Delay[1]>>HRTFDELAY_BITS)-1)&SRC_HISTORY_MASK],
(Delay[1]&HRTFDELAY_MASK)*(1.0f/HRTFDELAY_FRACONE));
ClickRemoval[FrontLeft] -= Values[(Offset+1)&HRIR_MASK][0] +
Coeffs[0][0] * left;
ClickRemoval[FrontRight] -= Values[(Offset+1)&HRIR_MASK][1] +
Coeffs[0][1] * right;
}
for(BufferIdx = 0;BufferIdx < BufferSize && Counter > 0;BufferIdx++)
{
value = SAMPLER(data + pos*NumChannels + i, NumChannels, frac);
value = lpFilter2P(DryFilter, i, value);
History[Offset&SRC_HISTORY_MASK] = value;
left = lerp(History[(Offset-(Delay[0]>>HRTFDELAY_BITS))&SRC_HISTORY_MASK],
History[(Offset-(Delay[0]>>HRTFDELAY_BITS)-1)&SRC_HISTORY_MASK],
(Delay[0]&HRTFDELAY_MASK)*(1.0f/HRTFDELAY_FRACONE));
right = lerp(History[(Offset-(Delay[1]>>HRTFDELAY_BITS))&SRC_HISTORY_MASK],
History[(Offset-(Delay[1]>>HRTFDELAY_BITS)-1)&SRC_HISTORY_MASK],
(Delay[1]&HRTFDELAY_MASK)*(1.0f/HRTFDELAY_FRACONE));
Delay[0] += DelayStep[0];
Delay[1] += DelayStep[1];
Values[Offset&HRIR_MASK][0] = 0.0f;
Values[Offset&HRIR_MASK][1] = 0.0f;
Offset++;
ApplyCoeffsStep(Offset, Values, Coeffs, CoeffStep, left, right);
DryBuffer[OutPos][FrontLeft] += Values[Offset&HRIR_MASK][0];
DryBuffer[OutPos][FrontRight] += Values[Offset&HRIR_MASK][1];
frac += increment;
pos += frac>>FRACTIONBITS;
frac &= FRACTIONMASK;
OutPos++;
Counter--;
}
Delay[0] >>= HRTFDELAY_BITS;
Delay[1] >>= HRTFDELAY_BITS;
for(;BufferIdx < BufferSize;BufferIdx++)
{
value = SAMPLER(data + pos*NumChannels + i, NumChannels, frac);
value = lpFilter2P(DryFilter, i, value);
History[Offset&SRC_HISTORY_MASK] = value;
left = History[(Offset-Delay[0])&SRC_HISTORY_MASK];
right = History[(Offset-Delay[1])&SRC_HISTORY_MASK];
Values[Offset&HRIR_MASK][0] = 0.0f;
Values[Offset&HRIR_MASK][1] = 0.0f;
Offset++;
ApplyCoeffs(Offset, Values, Coeffs, left, right);
DryBuffer[OutPos][FrontLeft] += Values[Offset&HRIR_MASK][0];
DryBuffer[OutPos][FrontRight] += Values[Offset&HRIR_MASK][1];
frac += increment;
pos += frac>>FRACTIONBITS;
frac &= FRACTIONMASK;
OutPos++;
}
if(LIKELY(OutPos == SamplesToDo))
{
value = SAMPLER(data + pos*NumChannels + i, NumChannels, frac);
value = lpFilter2PC(DryFilter, i, value);
History[Offset&SRC_HISTORY_MASK] = value;
left = History[(Offset-Delay[0])&SRC_HISTORY_MASK];
right = History[(Offset-Delay[1])&SRC_HISTORY_MASK];
PendingClicks[FrontLeft] += Values[(Offset+1)&HRIR_MASK][0] +
Coeffs[0][0] * left;
PendingClicks[FrontRight] += Values[(Offset+1)&HRIR_MASK][1] +
Coeffs[0][1] * right;
}
OutPos -= BufferSize;
}
}
void MERGE4(MixDirect_,SAMPLER,_,SUFFIX)(
ALsource *Source, ALCdevice *Device, DirectParams *params,
const ALfloat *RESTRICT data, ALuint srcfrac,
ALuint OutPos, ALuint SamplesToDo, ALuint BufferSize)
{
const ALuint NumChannels = Source->NumChannels;
ALfloat (*RESTRICT DryBuffer)[MaxChannels];
ALfloat *RESTRICT ClickRemoval, *RESTRICT PendingClicks;
ALfloat DrySend[MaxChannels];
FILTER *DryFilter;
ALuint pos, frac;
ALuint BufferIdx;
ALuint increment;
ALfloat value;
ALuint i, c;
increment = Source->Params.Step;
DryBuffer = Device->DryBuffer;
ClickRemoval = Device->ClickRemoval;
PendingClicks = Device->PendingClicks;
DryFilter = ¶ms->iirFilter;
for(i = 0;i < NumChannels;i++)
{
for(c = 0;c < MaxChannels;c++)
DrySend[c] = params->Gains[i][c];
pos = 0;
frac = srcfrac;
if(OutPos == 0)
{
value = SAMPLER(data + pos*NumChannels + i, NumChannels, frac);
value = lpFilter2PC(DryFilter, i, value);
for(c = 0;c < MaxChannels;c++)
ClickRemoval[c] -= value*DrySend[c];
}
for(BufferIdx = 0;BufferIdx < BufferSize;BufferIdx++)
{
value = SAMPLER(data + pos*NumChannels + i, NumChannels, frac);
value = lpFilter2P(DryFilter, i, value);
for(c = 0;c < MaxChannels;c++)
DryBuffer[OutPos][c] += value*DrySend[c];
frac += increment;
pos += frac>>FRACTIONBITS;
frac &= FRACTIONMASK;
OutPos++;
}
if(OutPos == SamplesToDo)
{
value = SAMPLER(data + pos*NumChannels + i, NumChannels, frac);
value = lpFilter2PC(DryFilter, i, value);
for(c = 0;c < MaxChannels;c++)
PendingClicks[c] += value*DrySend[c];
}
OutPos -= BufferSize;
}
}
void MERGE4(MixSend_,SAMPLER,_,SUFFIX)(
ALsource *Source, ALuint sendidx, SendParams *params,
const ALfloat *RESTRICT data, ALuint srcfrac,
ALuint OutPos, ALuint SamplesToDo, ALuint BufferSize)
{
const ALuint NumChannels = Source->NumChannels;
ALeffectslot *Slot;
ALfloat WetSend;
ALfloat *WetBuffer;
ALfloat *WetClickRemoval;
ALfloat *WetPendingClicks;
FILTER *WetFilter;
ALuint pos, frac;
ALuint BufferIdx;
ALuint increment;
ALfloat value;
ALuint i;
increment = Source->Params.Step;
Slot = Source->Params.Slot[sendidx];
WetBuffer = Slot->WetBuffer;
WetClickRemoval = Slot->ClickRemoval;
WetPendingClicks = Slot->PendingClicks;
WetFilter = ¶ms->iirFilter;
WetSend = params->Gain;
for(i = 0;i < NumChannels;i++)
{
pos = 0;
frac = srcfrac;
if(OutPos == 0)
{
value = SAMPLER(data + pos*NumChannels + i, NumChannels, frac);
value = lpFilter2PC(WetFilter, i, value);
WetClickRemoval[0] -= value * WetSend;
}
for(BufferIdx = 0;BufferIdx < BufferSize;BufferIdx++)
{
value = SAMPLER(data + pos*NumChannels + i, NumChannels, frac);
value = lpFilter2P(WetFilter, i, value);
WetBuffer[OutPos] += value * WetSend;
frac += increment;
pos += frac>>FRACTIONBITS;
frac &= FRACTIONMASK;
OutPos++;
}
if(OutPos == SamplesToDo)
{
value = SAMPLER(data + pos*NumChannels + i, NumChannels, frac);
value = lpFilter2PC(WetFilter, i, value);
WetPendingClicks[0] += value * WetSend;
}
OutPos -= BufferSize;
}
}
#undef MERGE4
#undef REAL_MERGE4
#undef MERGE2
#undef REAL_MERGE2
#undef UNLIKELY
#undef LIKELY
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