/**

  * OpenAL cross platform audio library

  * Copyright (C) 1999-2007 by authors.

  * This library is free software; you can redistribute it and/or

  *  modify it under the terms of the GNU Library General Public

  *  License as published by the Free Software Foundation; either

  *  version 2 of the License, or (at your option) any later version.

  *

  * This library is distributed in the hope that it will be useful,

  *  but WITHOUT ANY WARRANTY; without even the implied warranty of

  *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU

  *  Library General Public License for more details.

  *

  * You should have received a copy of the GNU Library General Public

  *  License along with this library; if not, write to the

  *  Free Software Foundation, Inc., 59 Temple Place - Suite 330,

  *  Boston, MA  02111-1307, USA.

  * Or go to http://www.gnu.org/copyleft/lgpl.html

  */

 

 #include "config.h"

 

 #include <math.h>

 #include <stdlib.h>

 #include <string.h>

 #include <ctype.h>

 #include <assert.h>

 

 #include "alMain.h"

 #include "AL/al.h"

 #include "AL/alc.h"

 #include "alSource.h"

 #include "alBuffer.h"

 #include "alListener.h"

 #include "alAuxEffectSlot.h"

 #include "alu.h"

 #include "bs2b.h"

 

 

 static __inline ALdouble point32(const ALfloat *vals, ALint step, ALint frac)

 { return vals[0]; (void)step; (void)frac; }

 static __inline ALdouble lerp32(const ALfloat *vals, ALint step, ALint frac)

 { return lerp(vals[0], vals[step], frac * (1.0/FRACTIONONE)); }

 static __inline ALdouble cubic32(const ALfloat *vals, ALint step, ALint frac)

 { return cubic(vals[-step], vals[0], vals[step], vals[step+step],

                frac * (1.0/FRACTIONONE)); }

 

 static __inline ALdouble point16(const ALshort *vals, ALint step, ALint frac)

 { return vals[0] * (1.0/32767.0); (void)step; (void)frac; }

 static __inline ALdouble lerp16(const ALshort *vals, ALint step, ALint frac)

 { return lerp(vals[0], vals[step], frac * (1.0/FRACTIONONE)) * (1.0/32767.0); }

 static __inline ALdouble cubic16(const ALshort *vals, ALint step, ALint frac)

 { return cubic(vals[-step], vals[0], vals[step], vals[step+step],

                frac * (1.0/FRACTIONONE)) * (1.0/32767.0); }

 

 static __inline ALdouble point8(const ALbyte *vals, ALint step, ALint frac)

 { return vals[0] * (1.0/127.0); (void)step; (void)frac; }

 static __inline ALdouble lerp8(const ALbyte *vals, ALint step, ALint frac)

 { return lerp(vals[0], vals[step], frac * (1.0/FRACTIONONE)) * (1.0/127.0); }

 static __inline ALdouble cubic8(const ALbyte *vals, ALint step, ALint frac)

 { return cubic(vals[-step], vals[0], vals[step], vals[step+step],

                frac * (1.0/FRACTIONONE)) * (1.0/127.0); }

 

 #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

 

 #if defined(__ARM_NEON__) && defined(HAVE_ARM_NEON_H)

 #include <arm_neon.h>

 

 static __inline void ApplyCoeffs(ALuint Offset, ALfloat (*RESTRICT Values)[2],

                                  ALfloat (*RESTRICT Coeffs)[2],

                                  ALfloat left, ALfloat right)

 {

     ALuint c;

     float32x4_t leftright4;

     {

         float32x2_t leftright2 = vdup_n_f32(0.0);

         leftright2 = vset_lane_f32(left, leftright2, 0);

         leftright2 = vset_lane_f32(right, leftright2, 1);

         leftright4 = vcombine_f32(leftright2, leftright2);

     }

     for(c = 0;c < HRIR_LENGTH;c += 2)

     {

         const ALuint o0 = (Offset+c)&HRIR_MASK;

         const ALuint o1 = (o0+1)&HRIR_MASK;

         float32x4_t vals = vcombine_f32(vld1_f32((float32_t*)&Values[o0][0]),

                                         vld1_f32((float32_t*)&Values[o1][0]));

         float32x4_t coefs = vld1q_f32((float32_t*)&Coeffs[c][0]);

 

         vals = vmlaq_f32(vals, coefs, leftright4);

 

         vst1_f32((float32_t*)&Values[o0][0], vget_low_f32(vals));

         vst1_f32((float32_t*)&Values[o1][0], vget_high_f32(vals));

     }

 }

 

 #else

 

 static __inline void ApplyCoeffs(ALuint Offset, ALfloat (*RESTRICT Values)[2],

                                  ALfloat (*RESTRICT Coeffs)[2],

                                  ALfloat left, ALfloat right)

 {

     ALuint c;

     for(c = 0;c < HRIR_LENGTH;c++)

     {

         const ALuint off = (Offset+c)&HRIR_MASK;

         Values[off][0] += Coeffs[c][0] * left;

         Values[off][1] += Coeffs[c][1] * right;

     }

 }

 

 #endif

 

 #define DECL_TEMPLATE(T, sampler)                                             \

 static void Mix_Hrtf_##T##_##sampler(ALsource *Source, ALCdevice *Device,     \

   const ALvoid *srcdata, ALuint *DataPosInt, ALuint *DataPosFrac,             \

   ALuint OutPos, ALuint SamplesToDo, ALuint BufferSize)                       \

 {                                                                             \

     const ALuint NumChannels = Source->NumChannels;                           \

     const T *RESTRICT data = srcdata;                                         \

     const ALint *RESTRICT DelayStep = Source->Params.HrtfDelayStep;           \

     ALfloat (*RESTRICT DryBuffer)[MAXCHANNELS];                               \

     ALfloat *RESTRICT ClickRemoval, *RESTRICT PendingClicks;                  \

     ALfloat (*RESTRICT CoeffStep)[2] = Source->Params.HrtfCoeffStep;          \

     ALuint pos, frac;                                                         \

     FILTER *DryFilter;                                                        \

     ALuint BufferIdx;                                                         \

     ALuint increment;                                                         \

     ALuint i, out, c;                                                         \

     ALfloat value;                                                            \

                                                                               \

     increment = Source->Params.Step;                                          \

                                                                               \

     DryBuffer = Device->DryBuffer;                                            \

     ClickRemoval = Device->ClickRemoval;                                      \

     PendingClicks = Device->PendingClicks;                                    \

     DryFilter = &Source->Params.iirFilter;                                    \

                                                                               \

     pos = 0;                                                                  \

     frac = *DataPosFrac;                                                      \

                                                                               \

     for(i = 0;i < NumChannels;i++)                                            \

     {                                                                         \

         ALfloat (*RESTRICT TargetCoeffs)[2] = Source->Params.HrtfCoeffs[i];   \

         ALuint *RESTRICT TargetDelay = Source->Params.HrtfDelay[i];           \

         ALfloat *RESTRICT History = Source->HrtfHistory[i];                   \

         ALfloat (*RESTRICT Values)[2] = Source->HrtfValues[i];                \

         ALint Counter = maxu(Source->HrtfCounter, OutPos) - OutPos;           \

         ALuint Offset = Source->HrtfOffset + OutPos;                          \

         ALfloat Coeffs[HRIR_LENGTH][2];                                       \

         ALuint Delay[2];                                                      \

         ALfloat left, right;                                                  \

                                                                               \

         pos = 0;                                                              \

         frac = *DataPosFrac;                                                  \

                                                                               \

         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) + 32768;           \

         Delay[1] = TargetDelay[1] - (DelayStep[1]*Counter) + 32768;           \

                                                                               \

         if(LIKELY(OutPos == 0))                                               \

         {                                                                     \

             value = sampler(data + pos*NumChannels + i, NumChannels, frac);   \

             value = lpFilter2PC(DryFilter, i, value);                         \

                                                                               \

             History[Offset&SRC_HISTORY_MASK] = value;                         \

             left = History[(Offset-(Delay[0]>>16))&SRC_HISTORY_MASK];         \

             right = History[(Offset-(Delay[1]>>16))&SRC_HISTORY_MASK];        \

                                                                               \

             ClickRemoval[FRONT_LEFT]  -= Values[(Offset+1)&HRIR_MASK][0] +    \

                                          Coeffs[0][0] * left;                 \

             ClickRemoval[FRONT_RIGHT] -= 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 = History[(Offset-(Delay[0]>>16))&SRC_HISTORY_MASK];         \

             right = History[(Offset-(Delay[1]>>16))&SRC_HISTORY_MASK];        \

                                                                               \

             Delay[0] += DelayStep[0];                                         \

             Delay[1] += DelayStep[1];                                         \

                                                                               \

             Values[Offset&HRIR_MASK][0] = 0.0f;                               \

             Values[Offset&HRIR_MASK][1] = 0.0f;                               \

             Offset++;                                                         \

                                                                               \

             for(c = 0;c < HRIR_LENGTH;c++)                                    \

             {                                                                 \

                 const ALuint off = (Offset+c)&HRIR_MASK;                      \

                 Values[off][0] += Coeffs[c][0] * left;                        \

                 Values[off][1] += Coeffs[c][1] * right;                       \

                 Coeffs[c][0] += CoeffStep[c][0];                              \

                 Coeffs[c][1] += CoeffStep[c][1];                              \

             }                                                                 \

                                                                               \

             DryBuffer[OutPos][FRONT_LEFT]  += Values[Offset&HRIR_MASK][0];    \

             DryBuffer[OutPos][FRONT_RIGHT] += Values[Offset&HRIR_MASK][1];    \

                                                                               \

             frac += increment;                                                \

             pos  += frac>>FRACTIONBITS;                                       \

             frac &= FRACTIONMASK;                                             \

             OutPos++;                                                         \

             Counter--;                                                        \

         }                                                                     \

                                                                               \

         Delay[0] >>= 16;                                                      \

         Delay[1] >>= 16;                                                      \

         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][FRONT_LEFT]  += Values[Offset&HRIR_MASK][0];    \

             DryBuffer[OutPos][FRONT_RIGHT] += 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[FRONT_LEFT]  += Values[(Offset+1)&HRIR_MASK][0] +   \

                                           Coeffs[0][0] * left;                \

             PendingClicks[FRONT_RIGHT] += Values[(Offset+1)&HRIR_MASK][1] +   \

                                           Coeffs[0][1] * right;               \

         }                                                                     \

         OutPos -= BufferSize;                                                 \

     }                                                                         \

                                                                               \

     for(out = 0;out < Device->NumAuxSends;out++)                              \

     {                                                                         \

         ALeffectslot *Slot = Source->Params.Send[out].Slot;                   \

         ALfloat  WetSend;                                                     \

         ALfloat *RESTRICT WetBuffer;                                          \

         ALfloat *RESTRICT WetClickRemoval;                                    \

         ALfloat *RESTRICT WetPendingClicks;                                   \

         FILTER  *WetFilter;                                                   \

                                                                               \

         if(!Slot || Slot->effect.type == AL_EFFECT_NULL)                      \

             continue;                                                         \

                                                                               \

         WetBuffer = Slot->WetBuffer;                                          \

         WetClickRemoval = Slot->ClickRemoval;                                 \

         WetPendingClicks = Slot->PendingClicks;                               \

         WetFilter = &Source->Params.Send[out].iirFilter;                      \

         WetSend = Source->Params.Send[out].WetGain;                           \

                                                                               \

         for(i = 0;i < NumChannels;i++)                                        \

         {                                                                     \

             pos = 0;                                                          \

             frac = *DataPosFrac;                                              \

                                                                               \

             if(LIKELY(OutPos == 0))                                           \

             {                                                                 \

                 value = sampler(data + pos*NumChannels + i, NumChannels,frac);\

                 value = lpFilter1PC(WetFilter, i, value);                     \

                                                                               \

                 WetClickRemoval[0] -= value * WetSend;                        \

             }                                                                 \

             for(BufferIdx = 0;BufferIdx < BufferSize;BufferIdx++)             \

             {                                                                 \

                 value = sampler(data + pos*NumChannels + i, NumChannels,frac);\

                 value = lpFilter1P(WetFilter, i, value);                      \

                                                                               \

                 WetBuffer[OutPos] += value * WetSend;                         \

                                                                               \

                 frac += increment;                                            \

                 pos  += frac>>FRACTIONBITS;                                   \

                 frac &= FRACTIONMASK;                                         \

                 OutPos++;                                                     \

             }                                                                 \

             if(LIKELY(OutPos == SamplesToDo))                                 \

             {                                                                 \

                 value = sampler(data + pos*NumChannels + i, NumChannels,frac);\

                 value = lpFilter1PC(WetFilter, i, value);                     \

                                                                               \

                 WetPendingClicks[0] += value * WetSend;                       \

             }                                                                 \

             OutPos -= BufferSize;                                             \

         }                                                                     \

     }                                                                         \

     *DataPosInt += pos;                                                       \

     *DataPosFrac = frac;                                                      \

 }

 

 DECL_TEMPLATE(ALfloat, point32)

 DECL_TEMPLATE(ALfloat, lerp32)

 DECL_TEMPLATE(ALfloat, cubic32)

 

 DECL_TEMPLATE(ALshort, point16)

 DECL_TEMPLATE(ALshort, lerp16)

 DECL_TEMPLATE(ALshort, cubic16)

 

 DECL_TEMPLATE(ALbyte, point8)

 DECL_TEMPLATE(ALbyte, lerp8)

 DECL_TEMPLATE(ALbyte, cubic8)

 

 #undef DECL_TEMPLATE

 

 

 #define DECL_TEMPLATE(T, sampler)                                             \

 static void Mix_##T##_##sampler(ALsource *Source, ALCdevice *Device,          \

   const ALvoid *srcdata, ALuint *DataPosInt, ALuint *DataPosFrac,             \

   ALuint OutPos, ALuint SamplesToDo, ALuint BufferSize)                       \

 {                                                                             \

     const ALuint NumChannels = Source->NumChannels;                           \

     const T *RESTRICT data = srcdata;                                         \

     ALfloat (*DryBuffer)[MAXCHANNELS];                                        \

     ALfloat *ClickRemoval, *PendingClicks;                                    \

     ALuint pos, frac;                                                         \

     ALfloat DrySend[MAXCHANNELS][MAXCHANNELS];                                \

     FILTER *DryFilter;                                                        \

     ALuint BufferIdx;                                                         \

     ALuint increment;                                                         \

     ALuint i, out, c;                                                         \

     ALfloat value;                                                            \

                                                                               \

     increment = Source->Params.Step;                                          \

                                                                               \

     DryBuffer = Device->DryBuffer;                                            \

     ClickRemoval = Device->ClickRemoval;                                      \

     PendingClicks = Device->PendingClicks;                                    \

     DryFilter = &Source->Params.iirFilter;                                    \

     for(i = 0;i < NumChannels;i++)                                            \

     {                                                                         \

         for(c = 0;c < MAXCHANNELS;c++)                                        \

             DrySend[i][c] = Source->Params.DryGains[i][c];                    \

     }                                                                         \

                                                                               \

     pos = 0;                                                                  \

     frac = *DataPosFrac;                                                      \

                                                                               \

     for(i = 0;i < NumChannels;i++)                                            \

     {                                                                         \

         pos = 0;                                                              \

         frac = *DataPosFrac;                                                  \

                                                                               \

         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[i][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[i][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[i][c];                      \

         }                                                                     \

         OutPos -= BufferSize;                                                 \

     }                                                                         \

                                                                               \

     for(out = 0;out < Device->NumAuxSends;out++)                              \

     {                                                                         \

         ALeffectslot *Slot = Source->Params.Send[out].Slot;                   \

         ALfloat  WetSend;                                                     \

         ALfloat *WetBuffer;                                                   \

         ALfloat *WetClickRemoval;                                             \

         ALfloat *WetPendingClicks;                                            \

         FILTER  *WetFilter;                                                   \

                                                                               \

         if(!Slot || Slot->effect.type == AL_EFFECT_NULL)                      \

             continue;                                                         \

                                                                               \

         WetBuffer = Slot->WetBuffer;                                          \

         WetClickRemoval = Slot->ClickRemoval;                                 \

         WetPendingClicks = Slot->PendingClicks;                               \

         WetFilter = &Source->Params.Send[out].iirFilter;                      \

         WetSend = Source->Params.Send[out].WetGain;                           \

                                                                               \

         for(i = 0;i < NumChannels;i++)                                        \

         {                                                                     \

             pos = 0;                                                          \

             frac = *DataPosFrac;                                              \

                                                                               \

             if(OutPos == 0)                                                   \

             {                                                                 \

                 value = sampler(data + pos*NumChannels + i, NumChannels,frac);\

                                                                               \

                 value = lpFilter1PC(WetFilter, i, value);                     \

                 WetClickRemoval[0] -= value * WetSend;                        \

             }                                                                 \

             for(BufferIdx = 0;BufferIdx < BufferSize;BufferIdx++)             \

             {                                                                 \

                 value = sampler(data + pos*NumChannels + i, NumChannels,frac);\

                                                                               \

                 value = lpFilter1P(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 = lpFilter1PC(WetFilter, i, value);                     \

                 WetPendingClicks[0] += value * WetSend;                       \

             }                                                                 \

             OutPos -= BufferSize;                                             \

         }                                                                     \

     }                                                                         \

     *DataPosInt += pos;                                                       \

     *DataPosFrac = frac;                                                      \

 }

 

 DECL_TEMPLATE(ALfloat, point32)

 DECL_TEMPLATE(ALfloat, lerp32)

 DECL_TEMPLATE(ALfloat, cubic32)

 

 DECL_TEMPLATE(ALshort, point16)

 DECL_TEMPLATE(ALshort, lerp16)

 DECL_TEMPLATE(ALshort, cubic16)

 

 DECL_TEMPLATE(ALbyte, point8)

 DECL_TEMPLATE(ALbyte, lerp8)

 DECL_TEMPLATE(ALbyte, cubic8)

 

 #undef DECL_TEMPLATE

 

 

 #define DECL_TEMPLATE(sampler)                                                \

 static MixerFunc Select_##sampler(enum FmtType FmtType)                       \

 {                                                                             \

     switch(FmtType)                                                           \

     {                                                                         \

     case FmtByte:                                                             \

         return Mix_ALbyte_##sampler##8;                                       \

     case FmtShort:                                                            \

         return Mix_ALshort_##sampler##16;                                     \

     case FmtFloat:                                                            \

         return Mix_ALfloat_##sampler##32;                                     \

     }                                                                         \

     return NULL;                                                              \

 }

 

 DECL_TEMPLATE(point)

 DECL_TEMPLATE(lerp)

 DECL_TEMPLATE(cubic)

 

 #undef DECL_TEMPLATE

 

 MixerFunc SelectMixer(ALbuffer *Buffer, enum Resampler Resampler)

 {

     switch(Resampler)

     {

         case POINT_RESAMPLER:

             return Select_point(Buffer->FmtType);

         case LINEAR_RESAMPLER:

             return Select_lerp(Buffer->FmtType);

         case CUBIC_RESAMPLER:

             return Select_cubic(Buffer->FmtType);

         case RESAMPLER_MIN:

         case RESAMPLER_MAX:

             break;

     }

     return NULL;

 }

 

 #define DECL_TEMPLATE(sampler)                                                \

 static MixerFunc Select_Hrtf_##sampler(enum FmtType FmtType)                  \

 {                                                                             \

     switch(FmtType)                                                           \

     {                                                                         \

     case FmtByte:                                                             \

         return Mix_Hrtf_ALbyte_##sampler##8;                                  \

     case FmtShort:                                                            \

         return Mix_Hrtf_ALshort_##sampler##16;                                \

     case FmtFloat:                                                            \

         return Mix_Hrtf_ALfloat_##sampler##32;                                \

     }                                                                         \

     return NULL;                                                              \

 }

 

 DECL_TEMPLATE(point)

 DECL_TEMPLATE(lerp)

 DECL_TEMPLATE(cubic)

 

 #undef DECL_TEMPLATE

 

 MixerFunc SelectHrtfMixer(ALbuffer *Buffer, enum Resampler Resampler)

 {

     switch(Resampler)

     {

         case POINT_RESAMPLER:

             return Select_Hrtf_point(Buffer->FmtType);

         case LINEAR_RESAMPLER:

             return Select_Hrtf_lerp(Buffer->FmtType);

         case CUBIC_RESAMPLER:

             return Select_Hrtf_cubic(Buffer->FmtType);

         case RESAMPLER_MIN:

         case RESAMPLER_MAX:

             break;

     }

     return NULL;

 }

 

 

 ALvoid MixSource(ALsource *Source, ALCdevice *Device, ALuint SamplesToDo)

 {

     ALbufferlistitem *BufferListItem;

     ALuint DataPosInt, DataPosFrac;

     ALuint BuffersPlayed;

     ALboolean Looping;

     ALuint increment;

     enum Resampler Resampler;

     ALenum State;

     ALuint OutPos;

     ALuint FrameSize;

     ALint64 DataSize64;

     ALuint i;

 

     /* Get source info */

     State         = Source->state;

     BuffersPlayed = Source->BuffersPlayed;

     DataPosInt    = Source->position;

     DataPosFrac   = Source->position_fraction;

     Looping       = Source->bLooping;

     increment     = Source->Params.Step;

     Resampler     = Source->Resampler;

     FrameSize     = Source->NumChannels * Source->SampleSize;

 

     /* Get current buffer queue item */

     BufferListItem = Source->queue;

     for(i = 0;i < BuffersPlayed;i++)

         BufferListItem = BufferListItem->next;

 

     OutPos = 0;

     do {

         const ALuint BufferPrePadding = ResamplerPrePadding[Resampler];

         const ALuint BufferPadding = ResamplerPadding[Resampler];

         ALubyte StackData[STACK_DATA_SIZE];

         ALubyte *SrcData = StackData;

         ALuint SrcDataSize = 0;

         ALuint BufferSize;

 

         /* Figure out how many buffer bytes will be needed */

         DataSize64  = SamplesToDo-OutPos+1;

         DataSize64 *= increment;

         DataSize64 += DataPosFrac+FRACTIONMASK;

         DataSize64 >>= FRACTIONBITS;

         DataSize64 += BufferPadding+BufferPrePadding;

         DataSize64 *= FrameSize;

 

         BufferSize = ((DataSize64 > STACK_DATA_SIZE) ? STACK_DATA_SIZE : DataSize64);

         BufferSize -= BufferSize%FrameSize;

 

         if(Source->lSourceType == AL_STATIC)

         {

             const ALbuffer *ALBuffer = Source->Buffer;

             const ALubyte *Data = ALBuffer->data;

             ALuint DataSize;

             ALuint pos;

 

             /* If current pos is beyond the loop range, do not loop */

             if(Looping == AL_FALSE || DataPosInt >= (ALuint)ALBuffer->LoopEnd)

             {

                 Looping = AL_FALSE;

 

                 if(DataPosInt >= BufferPrePadding)

                     pos = (DataPosInt-BufferPrePadding)*FrameSize;

                 else

                 {

                     DataSize = (BufferPrePadding-DataPosInt)*FrameSize;

                     DataSize = minu(BufferSize, DataSize);

 

                     memset(&SrcData[SrcDataSize], 0, DataSize);

                     SrcDataSize += DataSize;

                     BufferSize -= DataSize;

 

                     pos = 0;

                 }

 

                 /* Copy what's left to play in the source buffer, and clear the

                  * rest of the temp buffer */

                 DataSize = ALBuffer->size - pos;

                 DataSize = minu(BufferSize, DataSize);

 

                 memcpy(&SrcData[SrcDataSize], &Data[pos], DataSize);

                 SrcDataSize += DataSize;

                 BufferSize -= DataSize;

 

                 memset(&SrcData[SrcDataSize], 0, BufferSize);

                 SrcDataSize += BufferSize;

                 BufferSize -= BufferSize;

             }

             else

             {

                 ALuint LoopStart = ALBuffer->LoopStart;

                 ALuint LoopEnd   = ALBuffer->LoopEnd;

 

                 if(DataPosInt >= LoopStart)

                 {

                     pos = DataPosInt-LoopStart;

                     while(pos < BufferPrePadding)

                         pos += LoopEnd-LoopStart;

                     pos -= BufferPrePadding;

                     pos += LoopStart;

                     pos *= FrameSize;

                 }

                 else if(DataPosInt >= BufferPrePadding)

                     pos = (DataPosInt-BufferPrePadding)*FrameSize;

                 else

                 {

                     DataSize = (BufferPrePadding-DataPosInt)*FrameSize;

                     DataSize = minu(BufferSize, DataSize);

 

                     memset(&SrcData[SrcDataSize], 0, DataSize);

                     SrcDataSize += DataSize;

                     BufferSize -= DataSize;

 

                     pos = 0;

                 }

 

                 /* Copy what's left of this loop iteration, then copy repeats

                  * of the loop section */

                 DataSize = LoopEnd*FrameSize - pos;

                 DataSize = minu(BufferSize, DataSize);

 

                 memcpy(&SrcData[SrcDataSize], &Data[pos], DataSize);

                 SrcDataSize += DataSize;

                 BufferSize -= DataSize;

 

                 DataSize = (LoopEnd-LoopStart) * FrameSize;

                 while(BufferSize > 0)

                 {

                     DataSize = minu(BufferSize, DataSize);

 

                     memcpy(&SrcData[SrcDataSize], &Data[LoopStart*FrameSize], DataSize);

                     SrcDataSize += DataSize;

                     BufferSize -= DataSize;

                 }

             }

         }

         else

         {

             /* Crawl the buffer queue to fill in the temp buffer */

             ALbufferlistitem *BufferListIter = BufferListItem;

             ALuint pos;

 

             if(DataPosInt >= BufferPrePadding)

                 pos = (DataPosInt-BufferPrePadding)*FrameSize;

             else

             {

                 pos = (BufferPrePadding-DataPosInt)*FrameSize;

                 while(pos > 0)

                 {

                     if(!BufferListIter->prev && !Looping)

                     {

                         ALuint DataSize = minu(BufferSize, pos);

 

                         memset(&SrcData[SrcDataSize], 0, DataSize);

                         SrcDataSize += DataSize;

                         BufferSize -= DataSize;

 

                         pos = 0;

                         break;

                     }

 

                     if(BufferListIter->prev)

                         BufferListIter = BufferListIter->prev;

                     else

                     {

                         while(BufferListIter->next)

                             BufferListIter = BufferListIter->next;

                     }

 

                     if(BufferListIter->buffer)

                     {

                         if((ALuint)BufferListIter->buffer->size > pos)

                         {

                             pos = BufferListIter->buffer->size - pos;

                             break;

                         }

                         pos -= BufferListIter->buffer->size;

                     }

                 }

             }

 

             while(BufferListIter && BufferSize > 0)

             {

                 const ALbuffer *ALBuffer;

                 if((ALBuffer=BufferListIter->buffer) != NULL)

                 {

                     const ALubyte *Data = ALBuffer->data;

                     ALuint DataSize = ALBuffer->size;

 

                     /* Skip the data already played */

                     if(DataSize <= pos)

                         pos -= DataSize;

                     else

                     {

                         Data += pos;

                         DataSize -= pos;

                         pos -= pos;

 

                         DataSize = minu(BufferSize, DataSize);

                         memcpy(&SrcData[SrcDataSize], Data, DataSize);

                         SrcDataSize += DataSize;

                         BufferSize -= DataSize;

                     }

                 }

                 BufferListIter = BufferListIter->next;

                 if(!BufferListIter && Looping)

                     BufferListIter = Source->queue;

                 else if(!BufferListIter)

                 {

                     memset(&SrcData[SrcDataSize], 0, BufferSize);

                     SrcDataSize += BufferSize;

                     BufferSize -= BufferSize;

                 }

             }

         }

 

         /* Figure out how many samples we can mix. */

         DataSize64  = SrcDataSize / FrameSize;

         DataSize64 -= BufferPadding+BufferPrePadding;

         DataSize64 <<= FRACTIONBITS;

         DataSize64 -= increment;

         DataSize64 -= DataPosFrac;

 

         BufferSize = (ALuint)((DataSize64+(increment-1)) / increment);

         BufferSize = minu(BufferSize, (SamplesToDo-OutPos));

 

         SrcData += BufferPrePadding*FrameSize;

         Source->Params.DoMix(Source, Device, SrcData, &DataPosInt, &DataPosFrac,

                              OutPos, SamplesToDo, BufferSize);

         OutPos += BufferSize;

 

         /* Handle looping sources */

         while(1)

         {

             const ALbuffer *ALBuffer;

             ALuint DataSize = 0;

             ALuint LoopStart = 0;

             ALuint LoopEnd = 0;

 

             if((ALBuffer=BufferListItem->buffer) != NULL)

             {

                 DataSize = ALBuffer->size / FrameSize;

                 LoopStart = ALBuffer->LoopStart;

                 LoopEnd = ALBuffer->LoopEnd;

                 if(LoopEnd > DataPosInt)

                     break;

             }

 

             if(Looping && Source->lSourceType == AL_STATIC)

             {

                 BufferListItem = Source->queue;

                 DataPosInt = ((DataPosInt-LoopStart)%(LoopEnd-LoopStart)) + LoopStart;

                 break;

             }

 

             if(DataSize > DataPosInt)

                 break;

 

             if(BufferListItem->next)

             {

                 BufferListItem = BufferListItem->next;

                 BuffersPlayed++;

             }

             else if(Looping)

             {

                 BufferListItem = Source->queue;

                 BuffersPlayed = 0;

             }

             else

             {

                 State = AL_STOPPED;

                 BufferListItem = Source->queue;

                 BuffersPlayed = Source->BuffersInQueue;

                 DataPosInt = 0;

                 DataPosFrac = 0;

                 break;

             }

 

             DataPosInt -= DataSize;

         }

     } while(State == AL_PLAYING && OutPos < SamplesToDo);

 

     /* Update source info */

     Source->state             = State;

     Source->BuffersPlayed     = BuffersPlayed;

     Source->position          = DataPosInt;

     Source->position_fraction = DataPosFrac;

     Source->Buffer            = BufferListItem->buffer;

     Source->HrtfOffset       += OutPos;

     if(State == AL_PLAYING)

     {

         Source->HrtfCounter = maxu(Source->HrtfCounter, OutPos) - OutPos;

         Source->HrtfMoving  = AL_TRUE;

     }

     else

     {

         Source->HrtfCounter = 0;

         Source->HrtfMoving  = AL_FALSE;

     }

 }