#ifndef CONVERTER_H #define CONVERTER_H #include #include #include "AL/al.h" #include "alcmain.h" #include "almalloc.h" #include "alnumeric.h" #include "alu.h" #include "devformat.h" struct SampleConverter { DevFmtType mSrcType{}; DevFmtType mDstType{}; ALuint mSrcTypeSize{}; ALuint mDstTypeSize{}; ALint mSrcPrepCount{}; ALuint mFracOffset{}; ALuint mIncrement{}; InterpState mState{}; ResamplerFunc mResample{}; alignas(16) ALfloat mSrcSamples[BUFFERSIZE]{}; alignas(16) ALfloat mDstSamples[BUFFERSIZE]{}; struct ChanSamples { alignas(16) ALfloat PrevSamples[MAX_RESAMPLER_PADDING]; }; al::FlexArray mChan; SampleConverter(size_t numchans) : mChan{numchans} { } ALuint convert(const ALvoid **src, ALuint *srcframes, ALvoid *dst, ALuint dstframes); ALuint availableOut(ALuint srcframes) const; DEF_FAM_NEWDEL(SampleConverter, mChan) }; using SampleConverterPtr = std::unique_ptr; SampleConverterPtr CreateSampleConverter(DevFmtType srcType, DevFmtType dstType, size_t numchans, ALuint srcRate, ALuint dstRate, Resampler resampler); struct ChannelConverter { DevFmtType mSrcType; DevFmtChannels mSrcChans; DevFmtChannels mDstChans; bool is_active() const noexcept { return mSrcChans != mDstChans; } void convert(const ALvoid *src, ALfloat *dst, ALuint frames) const; }; #endif /* CONVERTER_H */