mirror of https://github.com/axmolengine/axmol.git
130 lines
4.6 KiB
C++
130 lines
4.6 KiB
C++
#ifndef CORE_MIXER_HRTFBASE_H
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#define CORE_MIXER_HRTFBASE_H
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#include <algorithm>
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#include <cmath>
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#include "almalloc.h"
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#include "hrtfdefs.h"
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#include "opthelpers.h"
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using uint = unsigned int;
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using ApplyCoeffsT = void(&)(float2 *RESTRICT Values, const size_t irSize,
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const ConstHrirSpan Coeffs, const float left, const float right);
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template<ApplyCoeffsT ApplyCoeffs>
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inline void MixHrtfBase(const float *InSamples, float2 *RESTRICT AccumSamples, const size_t IrSize,
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const MixHrtfFilter *hrtfparams, const size_t BufferSize)
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{
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ASSUME(BufferSize > 0);
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const ConstHrirSpan Coeffs{hrtfparams->Coeffs};
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const float gainstep{hrtfparams->GainStep};
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const float gain{hrtfparams->Gain};
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size_t ldelay{HrtfHistoryLength - hrtfparams->Delay[0]};
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size_t rdelay{HrtfHistoryLength - hrtfparams->Delay[1]};
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float stepcount{0.0f};
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for(size_t i{0u};i < BufferSize;++i)
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{
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const float g{gain + gainstep*stepcount};
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const float left{InSamples[ldelay++] * g};
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const float right{InSamples[rdelay++] * g};
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ApplyCoeffs(AccumSamples+i, IrSize, Coeffs, left, right);
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stepcount += 1.0f;
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}
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}
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template<ApplyCoeffsT ApplyCoeffs>
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inline void MixHrtfBlendBase(const float *InSamples, float2 *RESTRICT AccumSamples,
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const size_t IrSize, const HrtfFilter *oldparams, const MixHrtfFilter *newparams,
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const size_t BufferSize)
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{
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ASSUME(BufferSize > 0);
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const ConstHrirSpan OldCoeffs{oldparams->Coeffs};
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const float oldGainStep{oldparams->Gain / static_cast<float>(BufferSize)};
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const ConstHrirSpan NewCoeffs{newparams->Coeffs};
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const float newGainStep{newparams->GainStep};
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if LIKELY(oldparams->Gain > GainSilenceThreshold)
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{
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size_t ldelay{HrtfHistoryLength - oldparams->Delay[0]};
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size_t rdelay{HrtfHistoryLength - oldparams->Delay[1]};
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auto stepcount = static_cast<float>(BufferSize);
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for(size_t i{0u};i < BufferSize;++i)
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{
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const float g{oldGainStep*stepcount};
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const float left{InSamples[ldelay++] * g};
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const float right{InSamples[rdelay++] * g};
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ApplyCoeffs(AccumSamples+i, IrSize, OldCoeffs, left, right);
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stepcount -= 1.0f;
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}
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}
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if LIKELY(newGainStep*static_cast<float>(BufferSize) > GainSilenceThreshold)
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{
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size_t ldelay{HrtfHistoryLength+1 - newparams->Delay[0]};
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size_t rdelay{HrtfHistoryLength+1 - newparams->Delay[1]};
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float stepcount{1.0f};
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for(size_t i{1u};i < BufferSize;++i)
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{
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const float g{newGainStep*stepcount};
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const float left{InSamples[ldelay++] * g};
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const float right{InSamples[rdelay++] * g};
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ApplyCoeffs(AccumSamples+i, IrSize, NewCoeffs, left, right);
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stepcount += 1.0f;
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}
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}
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}
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template<ApplyCoeffsT ApplyCoeffs>
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inline void MixDirectHrtfBase(const FloatBufferSpan LeftOut, const FloatBufferSpan RightOut,
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const al::span<const FloatBufferLine> InSamples, float2 *RESTRICT AccumSamples,
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float *TempBuf, HrtfChannelState *ChanState, const size_t IrSize, const size_t BufferSize)
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{
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ASSUME(BufferSize > 0);
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for(const FloatBufferLine &input : InSamples)
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{
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/* For dual-band processing, the signal needs extra scaling applied to
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* the high frequency response. The band-splitter applies this scaling
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* with a consistent phase shift regardless of the scale amount.
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*/
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ChanState->mSplitter.processHfScale({input.data(), BufferSize}, TempBuf,
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ChanState->mHfScale);
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/* Now apply the HRIR coefficients to this channel. */
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const float *RESTRICT tempbuf{al::assume_aligned<16>(TempBuf)};
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const ConstHrirSpan Coeffs{ChanState->mCoeffs};
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for(size_t i{0u};i < BufferSize;++i)
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{
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const float insample{tempbuf[i]};
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ApplyCoeffs(AccumSamples+i, IrSize, Coeffs, insample, insample);
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}
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++ChanState;
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}
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/* Add the HRTF signal to the existing "direct" signal. */
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float *RESTRICT left{al::assume_aligned<16>(LeftOut.data())};
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float *RESTRICT right{al::assume_aligned<16>(RightOut.data())};
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for(size_t i{0u};i < BufferSize;++i)
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left[i] += AccumSamples[i][0];
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for(size_t i{0u};i < BufferSize;++i)
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right[i] += AccumSamples[i][1];
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/* Copy the new in-progress accumulation values to the front and clear the
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* following samples for the next mix.
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*/
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auto accum_iter = std::copy_n(AccumSamples+BufferSize, HrirLength, AccumSamples);
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std::fill_n(accum_iter, BufferSize, float2{});
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}
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#endif /* CORE_MIXER_HRTFBASE_H */
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