Double-up the interpolation functions (and make them use doubles)
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Chris Robinson
parent
2c96c29938
commit
2595d85cca
99
Alc/mixer.c
99
Alc/mixer.c
@ -37,56 +37,37 @@
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#include "bs2b.h"
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static __inline ALfloat point32(ALfloat val1, ALfloat val2, ALint frac)
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static __inline ALdouble point(ALdouble val1, ALdouble val2, ALint frac)
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{
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return val1;
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(void)val2;
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(void)frac;
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}
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static __inline ALfloat lerp32(ALfloat val1, ALfloat val2, ALint frac)
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static __inline ALdouble lerp(ALdouble val1, ALdouble val2, ALint frac)
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{
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val1 += ((val2-val1) * (frac * (1.0/(1<<FRACTIONBITS))));
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return val1;
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}
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static __inline ALfloat cos_lerp32(ALfloat val1, ALfloat val2, ALint frac)
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static __inline ALdouble cos_lerp(ALdouble val1, ALdouble val2, ALint frac)
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{
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val1 += ((val2-val1) * ((1.0-cos(frac * (1.0/(1<<FRACTIONBITS)) * M_PI)) * 0.5));
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return val1;
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}
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static __inline ALfloat point16(ALfloat val1, ALfloat val2, ALint frac)
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{
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return val1 / 32767.0f;
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(void)val2;
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(void)frac;
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}
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static __inline ALfloat lerp16(ALfloat val1, ALfloat val2, ALint frac)
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{
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val1 += (val2-val1) * (frac * (1.0/(1<<FRACTIONBITS)));
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return val1 / 32767.0f;
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}
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static __inline ALfloat cos_lerp16(ALfloat val1, ALfloat val2, ALint frac)
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{
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val1 += (val2-val1) * ((1.0-cos(frac * (1.0/(1<<FRACTIONBITS)) * M_PI)) * 0.5);
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return val1 / 32767.0f;
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}
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static __inline ALdouble point16(ALdouble val1, ALdouble val2, ALint frac)
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{ return point(val1, val2, frac) / 32767.0; }
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static __inline ALdouble lerp16(ALdouble val1, ALdouble val2, ALint frac)
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{ return lerp(val1, val2, frac) / 32767.0; }
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static __inline ALdouble cos_lerp16(ALdouble val1, ALdouble val2, ALint frac)
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{ return cos_lerp(val1, val2, frac) / 32767.0; }
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static __inline ALdouble point8(ALdouble val1, ALdouble val2, ALint frac)
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{ return (point(val1, val2, frac)-128.0) / 127.0; }
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static __inline ALdouble lerp8(ALdouble val1, ALdouble val2, ALint frac)
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{ return (lerp(val1, val2, frac)-128.0) / 127.0; }
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static __inline ALdouble cos_lerp8(ALdouble val1, ALdouble val2, ALint frac)
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{ return (cos_lerp(val1, val2, frac)-128.0) / 127.0; }
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static __inline ALfloat point8(ALfloat val1, ALfloat val2, ALint frac)
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{
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return (val1-128.0f) / 127.0f;
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(void)val2;
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(void)frac;
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}
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static __inline ALfloat lerp8(ALfloat val1, ALfloat val2, ALint frac)
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{
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val1 += (val2-val1) * (frac * (1.0/(1<<FRACTIONBITS)));
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return (val1-128.0f) / 127.0f;
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}
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static __inline ALfloat cos_lerp8(ALfloat val1, ALfloat val2, ALint frac)
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{
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val1 += (val2-val1) * ((1.0-cos(frac * (1.0/(1<<FRACTIONBITS)) * M_PI)) * 0.5);
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return (val1-128.0f) / 127.0f;
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}
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#define DECL_MIX_MONO(T,sampler) \
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@ -221,9 +202,9 @@ static void Mix_##T##_Mono_##sampler(ALsource *Source, ALCdevice *Device, \
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*DataPosFrac = frac; \
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}
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DECL_MIX_MONO(ALfloat, point32)
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DECL_MIX_MONO(ALfloat, lerp32)
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DECL_MIX_MONO(ALfloat, cos_lerp32)
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DECL_MIX_MONO(ALfloat, point)
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DECL_MIX_MONO(ALfloat, lerp)
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DECL_MIX_MONO(ALfloat, cos_lerp)
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DECL_MIX_MONO(ALshort, point16)
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DECL_MIX_MONO(ALshort, lerp16)
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@ -378,9 +359,9 @@ static void Mix_##T##_Stereo_##sampler(ALsource *Source, ALCdevice *Device, \
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*DataPosFrac = frac; \
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}
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DECL_MIX_STEREO(ALfloat, point32)
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DECL_MIX_STEREO(ALfloat, lerp32)
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DECL_MIX_STEREO(ALfloat, cos_lerp32)
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DECL_MIX_STEREO(ALfloat, point)
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DECL_MIX_STEREO(ALfloat, lerp)
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DECL_MIX_STEREO(ALfloat, cos_lerp)
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DECL_MIX_STEREO(ALshort, point16)
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DECL_MIX_STEREO(ALshort, lerp16)
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@ -526,9 +507,9 @@ static void Mix_##T##_##chans##_##sampler(ALsource *Source, ALCdevice *Device,\
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static const Channel QuadChans[] = { FRONT_LEFT, FRONT_RIGHT,
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BACK_LEFT, BACK_RIGHT };
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DECL_MIX_MC(ALfloat, QuadChans, point32)
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DECL_MIX_MC(ALfloat, QuadChans, lerp32)
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DECL_MIX_MC(ALfloat, QuadChans, cos_lerp32)
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DECL_MIX_MC(ALfloat, QuadChans, point)
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DECL_MIX_MC(ALfloat, QuadChans, lerp)
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DECL_MIX_MC(ALfloat, QuadChans, cos_lerp)
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DECL_MIX_MC(ALshort, QuadChans, point16)
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DECL_MIX_MC(ALshort, QuadChans, lerp16)
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@ -542,9 +523,9 @@ DECL_MIX_MC(ALubyte, QuadChans, cos_lerp8)
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static const Channel X51Chans[] = { FRONT_LEFT, FRONT_RIGHT,
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FRONT_CENTER, LFE,
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BACK_LEFT, BACK_RIGHT };
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DECL_MIX_MC(ALfloat, X51Chans, point32)
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DECL_MIX_MC(ALfloat, X51Chans, lerp32)
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DECL_MIX_MC(ALfloat, X51Chans, cos_lerp32)
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DECL_MIX_MC(ALfloat, X51Chans, point)
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DECL_MIX_MC(ALfloat, X51Chans, lerp)
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DECL_MIX_MC(ALfloat, X51Chans, cos_lerp)
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DECL_MIX_MC(ALshort, X51Chans, point16)
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DECL_MIX_MC(ALshort, X51Chans, lerp16)
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@ -559,9 +540,9 @@ static const Channel X61Chans[] = { FRONT_LEFT, FRONT_RIGHT,
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FRONT_CENTER, LFE,
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BACK_CENTER,
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SIDE_LEFT, SIDE_RIGHT };
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DECL_MIX_MC(ALfloat, X61Chans, point32)
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DECL_MIX_MC(ALfloat, X61Chans, lerp32)
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DECL_MIX_MC(ALfloat, X61Chans, cos_lerp32)
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DECL_MIX_MC(ALfloat, X61Chans, point)
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DECL_MIX_MC(ALfloat, X61Chans, lerp)
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DECL_MIX_MC(ALfloat, X61Chans, cos_lerp)
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DECL_MIX_MC(ALshort, X61Chans, point16)
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DECL_MIX_MC(ALshort, X61Chans, lerp16)
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@ -576,9 +557,9 @@ static const Channel X71Chans[] = { FRONT_LEFT, FRONT_RIGHT,
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FRONT_CENTER, LFE,
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BACK_LEFT, BACK_RIGHT,
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SIDE_LEFT, SIDE_RIGHT };
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DECL_MIX_MC(ALfloat, X71Chans, point32)
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DECL_MIX_MC(ALfloat, X71Chans, lerp32)
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DECL_MIX_MC(ALfloat, X71Chans, cos_lerp32)
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DECL_MIX_MC(ALfloat, X71Chans, point)
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DECL_MIX_MC(ALfloat, X71Chans, lerp)
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DECL_MIX_MC(ALfloat, X71Chans, cos_lerp)
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DECL_MIX_MC(ALshort, X71Chans, point16)
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DECL_MIX_MC(ALshort, X71Chans, lerp16)
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@ -629,9 +610,9 @@ static void Mix_##T##_##sampler(ALsource *Source, ALCdevice *Device, ALuint Chan
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} \
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}
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DECL_MIX(ALfloat, point32)
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DECL_MIX(ALfloat, lerp32)
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DECL_MIX(ALfloat, cos_lerp32)
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DECL_MIX(ALfloat, point)
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DECL_MIX(ALfloat, lerp)
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DECL_MIX(ALfloat, cos_lerp)
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DECL_MIX(ALshort, point16)
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DECL_MIX(ALshort, lerp16)
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@ -820,7 +801,7 @@ ALvoid MixSource(ALsource *Source, ALCdevice *Device, ALuint SamplesToDo)
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{
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case POINT_RESAMPLER:
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if(Bytes == 4)
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Mix_ALfloat_point32(Source, Device, Channels,
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Mix_ALfloat_point(Source, Device, Channels,
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SrcData, &DataPosInt, &DataPosFrac,
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j, SamplesToDo, BufferSize);
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else if(Bytes == 2)
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@ -834,7 +815,7 @@ ALvoid MixSource(ALsource *Source, ALCdevice *Device, ALuint SamplesToDo)
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break;
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case LINEAR_RESAMPLER:
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if(Bytes == 4)
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Mix_ALfloat_lerp32(Source, Device, Channels,
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Mix_ALfloat_lerp(Source, Device, Channels,
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SrcData, &DataPosInt, &DataPosFrac,
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j, SamplesToDo, BufferSize);
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else if(Bytes == 2)
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@ -848,7 +829,7 @@ ALvoid MixSource(ALsource *Source, ALCdevice *Device, ALuint SamplesToDo)
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break;
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case COSINE_RESAMPLER:
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if(Bytes == 4)
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Mix_ALfloat_cos_lerp32(Source, Device, Channels,
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Mix_ALfloat_cos_lerp(Source, Device, Channels,
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SrcData, &DataPosInt, &DataPosFrac,
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j, SamplesToDo, BufferSize);
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else if(Bytes == 2)
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