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-rw-r--r--Alc/mixer.c44
-rw-r--r--OpenAL32/Include/alSource.h1
-rw-r--r--alsoftrc.sample1
3 files changed, 0 insertions, 46 deletions
diff --git a/Alc/mixer.c b/Alc/mixer.c
index 596db64c..5d7d828d 100644
--- a/Alc/mixer.c
+++ b/Alc/mixer.c
@@ -48,25 +48,16 @@ static __inline ALdouble lerp(ALdouble val1, ALdouble val2, ALint frac)
val1 += ((val2-val1) * (frac * (1.0/(1<<FRACTIONBITS))));
return val1;
}
-static __inline ALdouble cos_lerp(ALdouble val1, ALdouble val2, ALint frac)
-{
- val1 += ((val2-val1) * ((1.0-cos(frac * (1.0/(1<<FRACTIONBITS)) * M_PI)) * 0.5));
- return val1;
-}
static __inline ALdouble point16(ALdouble val1, ALdouble val2, ALint frac)
{ return point(val1, val2, frac) / 32767.0; }
static __inline ALdouble lerp16(ALdouble val1, ALdouble val2, ALint frac)
{ return lerp(val1, val2, frac) / 32767.0; }
-static __inline ALdouble cos_lerp16(ALdouble val1, ALdouble val2, ALint frac)
-{ return cos_lerp(val1, val2, frac) / 32767.0; }
static __inline ALdouble point8(ALdouble val1, ALdouble val2, ALint frac)
{ return (point(val1, val2, frac)-128.0) / 127.0; }
static __inline ALdouble lerp8(ALdouble val1, ALdouble val2, ALint frac)
{ return (lerp(val1, val2, frac)-128.0) / 127.0; }
-static __inline ALdouble cos_lerp8(ALdouble val1, ALdouble val2, ALint frac)
-{ return (cos_lerp(val1, val2, frac)-128.0) / 127.0; }
@@ -204,15 +195,12 @@ static void Mix_##T##_Mono_##sampler(ALsource *Source, ALCdevice *Device, \
DECL_MIX_MONO(ALfloat, point)
DECL_MIX_MONO(ALfloat, lerp)
-DECL_MIX_MONO(ALfloat, cos_lerp)
DECL_MIX_MONO(ALshort, point16)
DECL_MIX_MONO(ALshort, lerp16)
-DECL_MIX_MONO(ALshort, cos_lerp16)
DECL_MIX_MONO(ALubyte, point8)
DECL_MIX_MONO(ALubyte, lerp8)
-DECL_MIX_MONO(ALubyte, cos_lerp8)
#define DECL_MIX_STEREO(T,sampler) \
@@ -361,15 +349,12 @@ static void Mix_##T##_Stereo_##sampler(ALsource *Source, ALCdevice *Device, \
DECL_MIX_STEREO(ALfloat, point)
DECL_MIX_STEREO(ALfloat, lerp)
-DECL_MIX_STEREO(ALfloat, cos_lerp)
DECL_MIX_STEREO(ALshort, point16)
DECL_MIX_STEREO(ALshort, lerp16)
-DECL_MIX_STEREO(ALshort, cos_lerp16)
DECL_MIX_STEREO(ALubyte, point8)
DECL_MIX_STEREO(ALubyte, lerp8)
-DECL_MIX_STEREO(ALubyte, cos_lerp8)
#define DECL_MIX_MC(T,chans,sampler) \
@@ -509,15 +494,12 @@ static const Channel QuadChans[] = { FRONT_LEFT, FRONT_RIGHT,
BACK_LEFT, BACK_RIGHT };
DECL_MIX_MC(ALfloat, QuadChans, point)
DECL_MIX_MC(ALfloat, QuadChans, lerp)
-DECL_MIX_MC(ALfloat, QuadChans, cos_lerp)
DECL_MIX_MC(ALshort, QuadChans, point16)
DECL_MIX_MC(ALshort, QuadChans, lerp16)
-DECL_MIX_MC(ALshort, QuadChans, cos_lerp16)
DECL_MIX_MC(ALubyte, QuadChans, point8)
DECL_MIX_MC(ALubyte, QuadChans, lerp8)
-DECL_MIX_MC(ALubyte, QuadChans, cos_lerp8)
static const Channel X51Chans[] = { FRONT_LEFT, FRONT_RIGHT,
@@ -525,15 +507,12 @@ static const Channel X51Chans[] = { FRONT_LEFT, FRONT_RIGHT,
BACK_LEFT, BACK_RIGHT };
DECL_MIX_MC(ALfloat, X51Chans, point)
DECL_MIX_MC(ALfloat, X51Chans, lerp)
-DECL_MIX_MC(ALfloat, X51Chans, cos_lerp)
DECL_MIX_MC(ALshort, X51Chans, point16)
DECL_MIX_MC(ALshort, X51Chans, lerp16)
-DECL_MIX_MC(ALshort, X51Chans, cos_lerp16)
DECL_MIX_MC(ALubyte, X51Chans, point8)
DECL_MIX_MC(ALubyte, X51Chans, lerp8)
-DECL_MIX_MC(ALubyte, X51Chans, cos_lerp8)
static const Channel X61Chans[] = { FRONT_LEFT, FRONT_RIGHT,
@@ -542,15 +521,12 @@ static const Channel X61Chans[] = { FRONT_LEFT, FRONT_RIGHT,
SIDE_LEFT, SIDE_RIGHT };
DECL_MIX_MC(ALfloat, X61Chans, point)
DECL_MIX_MC(ALfloat, X61Chans, lerp)
-DECL_MIX_MC(ALfloat, X61Chans, cos_lerp)
DECL_MIX_MC(ALshort, X61Chans, point16)
DECL_MIX_MC(ALshort, X61Chans, lerp16)
-DECL_MIX_MC(ALshort, X61Chans, cos_lerp16)
DECL_MIX_MC(ALubyte, X61Chans, point8)
DECL_MIX_MC(ALubyte, X61Chans, lerp8)
-DECL_MIX_MC(ALubyte, X61Chans, cos_lerp8)
static const Channel X71Chans[] = { FRONT_LEFT, FRONT_RIGHT,
@@ -559,15 +535,12 @@ static const Channel X71Chans[] = { FRONT_LEFT, FRONT_RIGHT,
SIDE_LEFT, SIDE_RIGHT };
DECL_MIX_MC(ALfloat, X71Chans, point)
DECL_MIX_MC(ALfloat, X71Chans, lerp)
-DECL_MIX_MC(ALfloat, X71Chans, cos_lerp)
DECL_MIX_MC(ALshort, X71Chans, point16)
DECL_MIX_MC(ALshort, X71Chans, lerp16)
-DECL_MIX_MC(ALshort, X71Chans, cos_lerp16)
DECL_MIX_MC(ALubyte, X71Chans, point8)
DECL_MIX_MC(ALubyte, X71Chans, lerp8)
-DECL_MIX_MC(ALubyte, X71Chans, cos_lerp8)
#define DECL_MIX(T, sampler) \
@@ -612,15 +585,12 @@ static void Mix_##T##_##sampler(ALsource *Source, ALCdevice *Device, ALuint Chan
DECL_MIX(ALfloat, point)
DECL_MIX(ALfloat, lerp)
-DECL_MIX(ALfloat, cos_lerp)
DECL_MIX(ALshort, point16)
DECL_MIX(ALshort, lerp16)
-DECL_MIX(ALshort, cos_lerp16)
DECL_MIX(ALubyte, point8)
DECL_MIX(ALubyte, lerp8)
-DECL_MIX(ALubyte, cos_lerp8)
/* Stack data size can be whatever. Larger values need more stack, while
@@ -827,20 +797,6 @@ ALvoid MixSource(ALsource *Source, ALCdevice *Device, ALuint SamplesToDo)
SrcData, &DataPosInt, &DataPosFrac,
j, SamplesToDo, BufferSize);
break;
- case COSINE_RESAMPLER:
- if(Bytes == 4)
- Mix_ALfloat_cos_lerp(Source, Device, Channels,
- SrcData, &DataPosInt, &DataPosFrac,
- j, SamplesToDo, BufferSize);
- else if(Bytes == 2)
- Mix_ALshort_cos_lerp16(Source, Device, Channels,
- SrcData, &DataPosInt, &DataPosFrac,
- j, SamplesToDo, BufferSize);
- else if(Bytes == 1)
- Mix_ALubyte_cos_lerp8(Source, Device, Channels,
- SrcData, &DataPosInt, &DataPosFrac,
- j, SamplesToDo, BufferSize);
- break;
case RESAMPLER_MIN:
case RESAMPLER_MAX:
break;
diff --git a/OpenAL32/Include/alSource.h b/OpenAL32/Include/alSource.h
index 40673c00..54a3470e 100644
--- a/OpenAL32/Include/alSource.h
+++ b/OpenAL32/Include/alSource.h
@@ -14,7 +14,6 @@ extern "C" {
typedef enum {
POINT_RESAMPLER = 0,
LINEAR_RESAMPLER,
- COSINE_RESAMPLER,
RESAMPLER_MAX,
RESAMPLER_MIN = -1,
diff --git a/alsoftrc.sample b/alsoftrc.sample
index d407c952..dacaf0d7 100644
--- a/alsoftrc.sample
+++ b/alsoftrc.sample
@@ -64,7 +64,6 @@
# Selects the resampler used when mixing sources. Valid values are:
# 0 - None (nearest sample, no interpolation)
# 1 - Linear (extrapolates samples using a linear slope between samples)
-# 2 - Cosine (extrapolates using a (co)sine slope)
# Specifying other values will result in using the default (linear).
#resampler = 1