467 lines
16 KiB
C
467 lines
16 KiB
C
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#include "config.h"
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#include "converter.h"
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#include "mixer_defs.h"
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SampleConverter *CreateSampleConverter(enum DevFmtType srcType, enum DevFmtType dstType, ALsizei numchans, ALsizei srcRate, ALsizei dstRate)
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{
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SampleConverter *converter;
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ALsizei step;
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if(numchans <= 0 || srcRate <= 0 || dstRate <= 0)
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return NULL;
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converter = al_calloc(16, FAM_SIZE(SampleConverter, Chan, numchans));
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converter->mSrcType = srcType;
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converter->mDstType = dstType;
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converter->mNumChannels = numchans;
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converter->mSrcTypeSize = BytesFromDevFmt(srcType);
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converter->mDstTypeSize = BytesFromDevFmt(dstType);
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converter->mSrcPrepCount = 0;
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converter->mFracOffset = 0;
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/* Have to set the mixer FPU mode since that's what the resampler code expects. */
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START_MIXER_MODE();
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step = fastf2i((ALfloat)mind((ALdouble)srcRate / dstRate, MAX_PITCH)*FRACTIONONE + 0.5f);
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converter->mIncrement = maxi(step, 1);
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if(converter->mIncrement == FRACTIONONE)
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converter->mResample = Resample_copy_C;
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else
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{
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/* TODO: Allow other resamplers. */
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BsincPrepare(converter->mIncrement, &converter->mState.bsinc, &bsinc12);
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converter->mResample = SelectResampler(BSinc12Resampler);
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}
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END_MIXER_MODE();
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return converter;
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}
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void DestroySampleConverter(SampleConverter **converter)
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{
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if(converter)
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{
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al_free(*converter);
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*converter = NULL;
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}
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}
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static inline ALfloat Sample_ALbyte(ALbyte val)
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{ return val * (1.0f/128.0f); }
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static inline ALfloat Sample_ALubyte(ALubyte val)
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{ return Sample_ALbyte((ALint)val - 128); }
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static inline ALfloat Sample_ALshort(ALshort val)
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{ return val * (1.0f/32768.0f); }
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static inline ALfloat Sample_ALushort(ALushort val)
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{ return Sample_ALshort((ALint)val - 32768); }
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static inline ALfloat Sample_ALint(ALint val)
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{ return (val>>7) * (1.0f/16777216.0f); }
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static inline ALfloat Sample_ALuint(ALuint val)
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{ return Sample_ALint(val - INT_MAX - 1); }
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static inline ALfloat Sample_ALfloat(ALfloat val)
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{ return val; }
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#define DECL_TEMPLATE(T) \
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static inline void Load_##T(ALfloat *restrict dst, const T *restrict src, \
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ALint srcstep, ALsizei samples) \
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{ \
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ALsizei i; \
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for(i = 0;i < samples;i++) \
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dst[i] = Sample_##T(src[i*srcstep]); \
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}
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DECL_TEMPLATE(ALbyte)
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DECL_TEMPLATE(ALubyte)
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DECL_TEMPLATE(ALshort)
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DECL_TEMPLATE(ALushort)
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DECL_TEMPLATE(ALint)
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DECL_TEMPLATE(ALuint)
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DECL_TEMPLATE(ALfloat)
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#undef DECL_TEMPLATE
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static void LoadSamples(ALfloat *dst, const ALvoid *src, ALint srcstep, enum DevFmtType srctype, ALsizei samples)
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{
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switch(srctype)
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{
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case DevFmtByte:
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Load_ALbyte(dst, src, srcstep, samples);
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break;
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case DevFmtUByte:
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Load_ALubyte(dst, src, srcstep, samples);
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break;
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case DevFmtShort:
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Load_ALshort(dst, src, srcstep, samples);
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break;
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case DevFmtUShort:
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Load_ALushort(dst, src, srcstep, samples);
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break;
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case DevFmtInt:
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Load_ALint(dst, src, srcstep, samples);
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break;
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case DevFmtUInt:
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Load_ALuint(dst, src, srcstep, samples);
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break;
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case DevFmtFloat:
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Load_ALfloat(dst, src, srcstep, samples);
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break;
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}
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}
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static inline ALbyte ALbyte_Sample(ALfloat val)
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{ return fastf2i(clampf(val*128.0f, -128.0f, 127.0f)); }
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static inline ALubyte ALubyte_Sample(ALfloat val)
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{ return ALbyte_Sample(val)+128; }
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static inline ALshort ALshort_Sample(ALfloat val)
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{ return fastf2i(clampf(val*32768.0f, -32768.0f, 32767.0f)); }
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static inline ALushort ALushort_Sample(ALfloat val)
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{ return ALshort_Sample(val)+32768; }
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static inline ALint ALint_Sample(ALfloat val)
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{ return fastf2i(clampf(val*16777216.0f, -16777216.0f, 16777215.0f)) << 7; }
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static inline ALuint ALuint_Sample(ALfloat val)
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{ return ALint_Sample(val)+INT_MAX+1; }
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static inline ALfloat ALfloat_Sample(ALfloat val)
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{ return val; }
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#define DECL_TEMPLATE(T) \
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static inline void Store_##T(T *restrict dst, const ALfloat *restrict src, \
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ALint dststep, ALsizei samples) \
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{ \
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ALsizei i; \
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for(i = 0;i < samples;i++) \
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dst[i*dststep] = T##_Sample(src[i]); \
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}
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DECL_TEMPLATE(ALbyte)
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DECL_TEMPLATE(ALubyte)
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DECL_TEMPLATE(ALshort)
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DECL_TEMPLATE(ALushort)
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DECL_TEMPLATE(ALint)
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DECL_TEMPLATE(ALuint)
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DECL_TEMPLATE(ALfloat)
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#undef DECL_TEMPLATE
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static void StoreSamples(ALvoid *dst, const ALfloat *src, ALint dststep, enum DevFmtType dsttype, ALsizei samples)
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{
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switch(dsttype)
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{
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case DevFmtByte:
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Store_ALbyte(dst, src, dststep, samples);
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break;
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case DevFmtUByte:
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Store_ALubyte(dst, src, dststep, samples);
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break;
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case DevFmtShort:
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Store_ALshort(dst, src, dststep, samples);
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break;
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case DevFmtUShort:
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Store_ALushort(dst, src, dststep, samples);
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break;
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case DevFmtInt:
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Store_ALint(dst, src, dststep, samples);
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break;
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case DevFmtUInt:
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Store_ALuint(dst, src, dststep, samples);
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break;
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case DevFmtFloat:
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Store_ALfloat(dst, src, dststep, samples);
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break;
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}
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}
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ALsizei SampleConverterAvailableOut(SampleConverter *converter, ALsizei srcframes)
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{
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ALint prepcount = converter->mSrcPrepCount;
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ALsizei increment = converter->mIncrement;
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ALsizei DataPosFrac = converter->mFracOffset;
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ALuint64 DataSize64;
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if(prepcount < 0)
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{
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/* Negative prepcount means we need to skip that many input samples. */
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if(-prepcount >= srcframes)
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return 0;
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srcframes += prepcount;
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prepcount = 0;
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}
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if(srcframes < 1)
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{
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/* No output samples if there's no input samples. */
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return 0;
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}
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if(prepcount < MAX_POST_SAMPLES+MAX_PRE_SAMPLES &&
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MAX_POST_SAMPLES+MAX_PRE_SAMPLES-prepcount >= srcframes)
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{
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/* Not enough input samples to generate an output sample. */
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return 0;
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}
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DataSize64 = prepcount;
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DataSize64 += srcframes;
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DataSize64 -= MAX_POST_SAMPLES+MAX_PRE_SAMPLES;
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DataSize64 <<= FRACTIONBITS;
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DataSize64 -= DataPosFrac;
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/* If we have a full prep, we can generate at least one sample. */
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return (ALsizei)clampu64((DataSize64 + increment-1)/increment, 1, BUFFERSIZE);
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}
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ALsizei SampleConverterInput(SampleConverter *converter, const ALvoid **src, ALsizei *srcframes, ALvoid *dst, ALsizei dstframes)
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{
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const ALsizei SrcFrameSize = converter->mNumChannels * converter->mSrcTypeSize;
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const ALsizei DstFrameSize = converter->mNumChannels * converter->mDstTypeSize;
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const ALsizei increment = converter->mIncrement;
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ALsizei pos = 0;
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START_MIXER_MODE();
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while(pos < dstframes && *srcframes > 0)
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{
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ALfloat *restrict SrcData = ASSUME_ALIGNED(converter->mSrcSamples, 16);
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ALfloat *restrict DstData = ASSUME_ALIGNED(converter->mDstSamples, 16);
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ALint prepcount = converter->mSrcPrepCount;
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ALsizei DataPosFrac = converter->mFracOffset;
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ALuint64 DataSize64;
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ALsizei DstSize;
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ALint toread;
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ALsizei chan;
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if(prepcount < 0)
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{
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/* Negative prepcount means we need to skip that many input samples. */
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if(-prepcount >= *srcframes)
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{
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converter->mSrcPrepCount = prepcount + *srcframes;
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*srcframes = 0;
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break;
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}
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*src = (const ALbyte*)*src + SrcFrameSize*-prepcount;
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*srcframes += prepcount;
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converter->mSrcPrepCount = 0;
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continue;
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}
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toread = mini(*srcframes, BUFFERSIZE-(MAX_POST_SAMPLES+MAX_PRE_SAMPLES));
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if(prepcount < MAX_POST_SAMPLES+MAX_PRE_SAMPLES &&
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MAX_POST_SAMPLES+MAX_PRE_SAMPLES-prepcount >= toread)
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{
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/* Not enough input samples to generate an output sample. Store
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* what we're given for later.
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*/
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for(chan = 0;chan < converter->mNumChannels;chan++)
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LoadSamples(&converter->Chan[chan].mPrevSamples[prepcount],
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(const ALbyte*)*src + converter->mSrcTypeSize*chan,
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converter->mNumChannels, converter->mSrcType, toread
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);
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converter->mSrcPrepCount = prepcount + toread;
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*srcframes = 0;
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break;
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}
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DataSize64 = prepcount;
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DataSize64 += toread;
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DataSize64 -= MAX_POST_SAMPLES+MAX_PRE_SAMPLES;
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DataSize64 <<= FRACTIONBITS;
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DataSize64 -= DataPosFrac;
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/* If we have a full prep, we can generate at least one sample. */
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DstSize = (ALsizei)clampu64((DataSize64 + increment-1)/increment, 1, BUFFERSIZE);
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DstSize = mini(DstSize, dstframes-pos);
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for(chan = 0;chan < converter->mNumChannels;chan++)
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{
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const ALbyte *SrcSamples = (const ALbyte*)*src + converter->mSrcTypeSize*chan;
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ALbyte *DstSamples = (ALbyte*)dst + converter->mDstTypeSize*chan;
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const ALfloat *ResampledData;
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ALsizei SrcDataEnd;
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/* Load the previous samples into the source data first, then the
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* new samples from the input buffer.
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*/
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memcpy(SrcData, converter->Chan[chan].mPrevSamples,
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prepcount*sizeof(ALfloat));
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LoadSamples(SrcData + prepcount, SrcSamples,
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converter->mNumChannels, converter->mSrcType, toread
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);
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/* Store as many prep samples for next time as possible, given the
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* number of output samples being generated.
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*/
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SrcDataEnd = (DataPosFrac + increment*DstSize)>>FRACTIONBITS;
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if(SrcDataEnd >= prepcount+toread)
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memset(converter->Chan[chan].mPrevSamples, 0,
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sizeof(converter->Chan[chan].mPrevSamples));
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else
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{
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size_t len = mini(MAX_PRE_SAMPLES+MAX_POST_SAMPLES, prepcount+toread-SrcDataEnd);
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memcpy(converter->Chan[chan].mPrevSamples, &SrcData[SrcDataEnd],
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len*sizeof(ALfloat));
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memset(converter->Chan[chan].mPrevSamples+len, 0,
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sizeof(converter->Chan[chan].mPrevSamples) - len*sizeof(ALfloat));
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}
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/* Now resample, and store the result in the output buffer. */
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ResampledData = converter->mResample(&converter->mState,
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SrcData+MAX_PRE_SAMPLES, DataPosFrac, increment,
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DstData, DstSize
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);
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StoreSamples(DstSamples, ResampledData, converter->mNumChannels,
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converter->mDstType, DstSize);
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}
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/* Update the number of prep samples still available, as well as the
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* fractional offset.
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*/
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DataPosFrac += increment*DstSize;
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converter->mSrcPrepCount = mini(MAX_PRE_SAMPLES+MAX_POST_SAMPLES,
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prepcount+toread-(DataPosFrac>>FRACTIONBITS));
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converter->mFracOffset = DataPosFrac & FRACTIONMASK;
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/* Update the src and dst pointers in case there's still more to do. */
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*src = (const ALbyte*)*src + SrcFrameSize*(DataPosFrac>>FRACTIONBITS);
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*srcframes -= mini(*srcframes, (DataPosFrac>>FRACTIONBITS));
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dst = (ALbyte*)dst + DstFrameSize*DstSize;
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pos += DstSize;
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}
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END_MIXER_MODE();
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return pos;
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}
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ChannelConverter *CreateChannelConverter(enum DevFmtType srcType, enum DevFmtChannels srcChans, enum DevFmtChannels dstChans)
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{
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ChannelConverter *converter;
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if(srcChans != dstChans && !((srcChans == DevFmtMono && dstChans == DevFmtStereo) ||
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(srcChans == DevFmtStereo && dstChans == DevFmtMono)))
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return NULL;
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converter = al_calloc(DEF_ALIGN, sizeof(*converter));
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converter->mSrcType = srcType;
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converter->mSrcChans = srcChans;
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converter->mDstChans = dstChans;
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return converter;
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}
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void DestroyChannelConverter(ChannelConverter **converter)
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{
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if(converter)
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{
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al_free(*converter);
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*converter = NULL;
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}
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}
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#define DECL_TEMPLATE(T) \
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static void Mono2Stereo##T(ALfloat *restrict dst, const T *src, ALsizei frames)\
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{ \
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ALsizei i; \
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for(i = 0;i < frames;i++) \
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dst[i*2 + 1] = dst[i*2 + 0] = Sample_##T(src[i]) * 0.707106781187f; \
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} \
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\
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static void Stereo2Mono##T(ALfloat *restrict dst, const T *src, ALsizei frames)\
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{ \
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ALsizei i; \
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for(i = 0;i < frames;i++) \
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dst[i] = (Sample_##T(src[i*2 + 0])+Sample_##T(src[i*2 + 1])) * \
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0.707106781187f; \
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}
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DECL_TEMPLATE(ALbyte)
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DECL_TEMPLATE(ALubyte)
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DECL_TEMPLATE(ALshort)
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DECL_TEMPLATE(ALushort)
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DECL_TEMPLATE(ALint)
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DECL_TEMPLATE(ALuint)
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DECL_TEMPLATE(ALfloat)
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#undef DECL_TEMPLATE
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void ChannelConverterInput(ChannelConverter *converter, const ALvoid *src, ALfloat *dst, ALsizei frames)
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{
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if(converter->mSrcChans == converter->mDstChans)
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{
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LoadSamples(dst, src, 1, converter->mSrcType,
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frames*ChannelsFromDevFmt(converter->mSrcChans, 0));
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return;
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}
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if(converter->mSrcChans == DevFmtStereo && converter->mDstChans == DevFmtMono)
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{
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switch(converter->mSrcType)
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{
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case DevFmtByte:
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Stereo2MonoALbyte(dst, src, frames);
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break;
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case DevFmtUByte:
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Stereo2MonoALubyte(dst, src, frames);
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break;
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case DevFmtShort:
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Stereo2MonoALshort(dst, src, frames);
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break;
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case DevFmtUShort:
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Stereo2MonoALushort(dst, src, frames);
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break;
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case DevFmtInt:
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Stereo2MonoALint(dst, src, frames);
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break;
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case DevFmtUInt:
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Stereo2MonoALuint(dst, src, frames);
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break;
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case DevFmtFloat:
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Stereo2MonoALfloat(dst, src, frames);
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break;
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}
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}
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else /*if(converter->mSrcChans == DevFmtMono && converter->mDstChans == DevFmtStereo)*/
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{
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switch(converter->mSrcType)
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{
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case DevFmtByte:
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Mono2StereoALbyte(dst, src, frames);
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break;
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case DevFmtUByte:
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Mono2StereoALubyte(dst, src, frames);
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break;
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case DevFmtShort:
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Mono2StereoALshort(dst, src, frames);
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break;
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case DevFmtUShort:
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Mono2StereoALushort(dst, src, frames);
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break;
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case DevFmtInt:
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Mono2StereoALint(dst, src, frames);
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break;
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case DevFmtUInt:
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Mono2StereoALuint(dst, src, frames);
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break;
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case DevFmtFloat:
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Mono2StereoALfloat(dst, src, frames);
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break;
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}
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}
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}
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