#ifndef MIXER_HRTFBASE_H #define MIXER_HRTFBASE_H #include #include "alu.h" #include "../hrtf.h" #include "opthelpers.h" using ApplyCoeffsT = void(ALsizei Offset, float2 *RESTRICT Values, const ALsizei irSize, const HrirArray &Coeffs, const ALfloat left, const ALfloat right); template inline void MixHrtfBase(ALfloat *RESTRICT LeftOut, ALfloat *RESTRICT RightOut, const ALfloat *data, float2 *RESTRICT AccumSamples, const ALsizei OutPos, const ALsizei IrSize, MixHrtfParams *hrtfparams, const ALsizei BufferSize) { ASSUME(OutPos >= 0); ASSUME(IrSize >= 4); ASSUME(BufferSize > 0); const auto &Coeffs = *hrtfparams->Coeffs; const ALfloat gainstep{hrtfparams->GainStep}; const ALfloat gain{hrtfparams->Gain}; ALfloat stepcount{0.0f}; ALsizei Delay[2]{ HRTF_HISTORY_LENGTH - hrtfparams->Delay[0], HRTF_HISTORY_LENGTH - hrtfparams->Delay[1] }; ASSUME(Delay[0] >= 0 && Delay[1] >= 0); for(ALsizei i{0};i < BufferSize;++i) { const ALfloat g{gain + gainstep*stepcount}; const ALfloat left{data[Delay[0]++] * g}; const ALfloat right{data[Delay[1]++] * g}; ApplyCoeffs(i, AccumSamples+i, IrSize, Coeffs, left, right); stepcount += 1.0f; } for(ALsizei i{0};i < BufferSize;++i) LeftOut[OutPos+i] += AccumSamples[i][0]; for(ALsizei i{0};i < BufferSize;++i) RightOut[OutPos+i] += AccumSamples[i][1]; hrtfparams->Gain = gain + gainstep*stepcount; } template inline void MixHrtfBlendBase(ALfloat *RESTRICT LeftOut, ALfloat *RESTRICT RightOut, const ALfloat *data, float2 *RESTRICT AccumSamples, const ALsizei OutPos, const ALsizei IrSize, const HrtfParams *oldparams, MixHrtfParams *newparams, const ALsizei BufferSize) { const auto &OldCoeffs = oldparams->Coeffs; const ALfloat oldGain{oldparams->Gain}; const ALfloat oldGainStep{-oldGain / static_cast(BufferSize)}; const auto &NewCoeffs = *newparams->Coeffs; const ALfloat newGainStep{newparams->GainStep}; ALfloat stepcount{0.0f}; ASSUME(OutPos >= 0); ASSUME(IrSize >= 4); ASSUME(BufferSize > 0); ALsizei OldDelay[2]{ HRTF_HISTORY_LENGTH - oldparams->Delay[0], HRTF_HISTORY_LENGTH - oldparams->Delay[1] }; ASSUME(OldDelay[0] >= 0 && OldDelay[1] >= 0); ALsizei NewDelay[2]{ HRTF_HISTORY_LENGTH - newparams->Delay[0], HRTF_HISTORY_LENGTH - newparams->Delay[1] }; ASSUME(NewDelay[0] >= 0 && NewDelay[1] >= 0); for(ALsizei i{0};i < BufferSize;++i) { ALfloat g{oldGain + oldGainStep*stepcount}; ALfloat left{data[OldDelay[0]++] * g}; ALfloat right{data[OldDelay[1]++] * g}; ApplyCoeffs(i, AccumSamples+i, IrSize, OldCoeffs, left, right); g = newGainStep*stepcount; left = data[NewDelay[0]++] * g; right = data[NewDelay[1]++] * g; ApplyCoeffs(i, AccumSamples+i, IrSize, NewCoeffs, left, right); stepcount += 1.0f; } for(ALsizei i{0};i < BufferSize;++i) LeftOut[OutPos+i] += AccumSamples[i][0]; for(ALsizei i{0};i < BufferSize;++i) RightOut[OutPos+i] += AccumSamples[i][1]; newparams->Gain = newGainStep*stepcount; } template inline void MixDirectHrtfBase(ALfloat *RESTRICT LeftOut, ALfloat *RESTRICT RightOut, const ALfloat (*data)[BUFFERSIZE], float2 *RESTRICT AccumSamples, DirectHrtfState *State, const ALsizei NumChans, const ALsizei BufferSize) { ASSUME(NumChans > 0); ASSUME(BufferSize > 0); const ALsizei IrSize{State->IrSize}; ASSUME(IrSize >= 4); for(ALsizei c{0};c < NumChans;++c) { const ALfloat (&input)[BUFFERSIZE] = data[c]; const auto &Coeffs = State->Chan[c].Coeffs; auto accum_iter = std::copy_n(State->Chan[c].Values.begin(), State->Chan[c].Values.size(), AccumSamples); std::fill_n(accum_iter, BufferSize, float2{}); for(ALsizei i{0};i < BufferSize;++i) { const ALfloat insample{input[i]}; ApplyCoeffs(i, AccumSamples+i, IrSize, Coeffs, insample, insample); } for(ALsizei i{0};i < BufferSize;++i) LeftOut[i] += AccumSamples[i][0]; for(ALsizei i{0};i < BufferSize;++i) RightOut[i] += AccumSamples[i][1]; std::copy_n(AccumSamples + BufferSize, State->Chan[c].Values.size(), State->Chan[c].Values.begin()); } } #endif /* MIXER_HRTFBASE_H */