diff options
| author | Chris Robinson <[email protected]> | 2019-09-25 02:11:37 -0700 |
|---|---|---|
| committer | Chris Robinson <[email protected]> | 2019-09-25 02:11:37 -0700 |
| commit | f009219523fd1bc7bcd2451f01e1635d0cec5cc3 (patch) | |
| tree | 76eaf13fbf41f126537272ca3eeb61760488bea9 | |
| parent | 5bb91b858f22bfda358635abe9d54841b7507bba (diff) | |
Avoid extraneous parameters
| -rw-r--r-- | alc/hrtf.cpp | 25 | ||||
| -rw-r--r-- | alc/hrtf.h | 7 | ||||
| -rw-r--r-- | alc/panning.cpp | 4 |
3 files changed, 17 insertions, 19 deletions
diff --git a/alc/hrtf.cpp b/alc/hrtf.cpp index 822ea54e..85b75e07 100644 --- a/alc/hrtf.cpp +++ b/alc/hrtf.cpp @@ -290,9 +290,9 @@ std::unique_ptr<DirectHrtfState> DirectHrtfState::Create(size_t num_chans) return std::unique_ptr<DirectHrtfState>{new (FamCount{num_chans}) DirectHrtfState{num_chans}}; } -void BuildBFormatHrtf(const HrtfEntry *Hrtf, DirectHrtfState *state, const ALuint NumChannels, - const AngularPoint *AmbiPoints, const ALfloat (*RESTRICT AmbiMatrix)[MAX_AMBI_CHANNELS], - const size_t AmbiCount, const ALfloat *RESTRICT AmbiOrderHFGain) +void BuildBFormatHrtf(const HrtfEntry *Hrtf, DirectHrtfState *state, + const al::span<const AngularPoint> AmbiPoints, const ALfloat (*AmbiMatrix)[MAX_AMBI_CHANNELS], + const ALfloat *AmbiOrderHFGain) { using double2 = std::array<double,2>; struct ImpulseResponse { @@ -309,12 +309,9 @@ void BuildBFormatHrtf(const HrtfEntry *Hrtf, DirectHrtfState *state, const ALuin */ static constexpr bool DualBand{true}; - ASSUME(NumChannels > 0); - ASSUME(AmbiCount > 0); - ALuint min_delay{HRTF_HISTORY_LENGTH}; ALuint max_delay{0}; - al::vector<ImpulseResponse> impres; impres.reserve(AmbiCount); + al::vector<ImpulseResponse> impres; impres.reserve(AmbiPoints.size()); auto calc_res = [Hrtf,&max_delay,&min_delay](const AngularPoint &pt) -> ImpulseResponse { ImpulseResponse res; @@ -373,7 +370,7 @@ void BuildBFormatHrtf(const HrtfEntry *Hrtf, DirectHrtfState *state, const ALuin return res; }; - std::transform(AmbiPoints, AmbiPoints+AmbiCount, std::back_inserter(impres), calc_res); + std::transform(AmbiPoints.begin(), AmbiPoints.end(), std::back_inserter(impres), calc_res); /* For dual-band processing, add a 16-sample delay to compensate for the HF * scale on the minimum-phase response. @@ -382,9 +379,9 @@ void BuildBFormatHrtf(const HrtfEntry *Hrtf, DirectHrtfState *state, const ALuin const ALdouble xover_norm{400.0 / Hrtf->sampleRate}; BandSplitterR<double> splitter{xover_norm}; - auto tmpres = al::vector<std::array<double2,HRIR_LENGTH>>(NumChannels); + auto tmpres = al::vector<std::array<double2,HRIR_LENGTH>>(state->Coeffs.size()); auto tmpflt = al::vector<std::array<double,HRIR_LENGTH*4>>(3); - for(size_t c{0u};c < AmbiCount;++c) + for(size_t c{0u};c < AmbiPoints.size();++c) { const al::span<const double2,HRIR_LENGTH> hrir{impres[c].hrir}; const ALuint ldelay{impres[c].ldelay - min_delay + base_delay}; @@ -393,7 +390,7 @@ void BuildBFormatHrtf(const HrtfEntry *Hrtf, DirectHrtfState *state, const ALuin if /*constexpr*/(!DualBand) { /* For single-band decoding, apply the HF scale to the response. */ - for(ALuint i{0u};i < NumChannels;++i) + for(size_t i{0u};i < state->Coeffs.size();++i) { const double mult{double{AmbiOrderHFGain[OrderFromChan[i]]} * AmbiMatrix[c][i]}; const ALuint numirs{minu(Hrtf->irSize, HRIR_LENGTH-maxu(ldelay, rdelay))}; @@ -433,7 +430,7 @@ void BuildBFormatHrtf(const HrtfEntry *Hrtf, DirectHrtfState *state, const ALuin splitter.process(tmpflt[0].data(), tmpflt[1].data(), tmpflt[2].data(), tmpflt[2].size()); /* Apply left ear response with delay and HF scale. */ - for(ALuint i{0u};i < NumChannels;++i) + for(size_t i{0u};i < state->Coeffs.size();++i) { const ALdouble mult{AmbiMatrix[c][i]}; const ALdouble hfgain{AmbiOrderHFGain[OrderFromChan[i]]}; @@ -453,7 +450,7 @@ void BuildBFormatHrtf(const HrtfEntry *Hrtf, DirectHrtfState *state, const ALuin splitter.clear(); splitter.process(tmpflt[0].data(), tmpflt[1].data(), tmpflt[2].data(), tmpflt[2].size()); - for(ALuint i{0u};i < NumChannels;++i) + for(size_t i{0u};i < state->Coeffs.size();++i) { const ALdouble mult{AmbiMatrix[c][i]}; const ALdouble hfgain{AmbiOrderHFGain[OrderFromChan[i]]}; @@ -465,7 +462,7 @@ void BuildBFormatHrtf(const HrtfEntry *Hrtf, DirectHrtfState *state, const ALuin tmpflt.clear(); impres.clear(); - for(ALuint i{0u};i < NumChannels;++i) + for(size_t i{0u};i < state->Coeffs.size();++i) { auto copy_arr = [](const double2 &in) noexcept -> float2 { return float2{{static_cast<float>(in[0]), static_cast<float>(in[1])}}; }; @@ -9,6 +9,7 @@ #include "AL/al.h" #include "almalloc.h" +#include "alspan.h" #include "ambidefs.h" #include "atomic.h" #include "vector.h" @@ -107,8 +108,8 @@ void GetHrtfCoeffs(const HrtfEntry *Hrtf, ALfloat elevation, ALfloat azimuth, AL * frequency gains for the decoder. The calculated impulse responses are * ordered and scaled according to the matrix input. */ -void BuildBFormatHrtf(const HrtfEntry *Hrtf, DirectHrtfState *state, const ALuint NumChannels, - const AngularPoint *AmbiPoints, const ALfloat (*RESTRICT AmbiMatrix)[MAX_AMBI_CHANNELS], - const size_t AmbiCount, const ALfloat *RESTRICT AmbiOrderHFGain); +void BuildBFormatHrtf(const HrtfEntry *Hrtf, DirectHrtfState *state, + const al::span<const AngularPoint> AmbiPoints, const ALfloat (*AmbiMatrix)[MAX_AMBI_CHANNELS], + const ALfloat *AmbiOrderHFGain); #endif /* ALC_HRTF_H */ diff --git a/alc/panning.cpp b/alc/panning.cpp index a2f1bed8..c2bcf223 100644 --- a/alc/panning.cpp +++ b/alc/panning.cpp @@ -639,8 +639,8 @@ void InitHrtfPanning(ALCdevice *device) ); AllocChannels(device, static_cast<ALuint>(count), device->channelsFromFmt()); - BuildBFormatHrtf(device->mHrtf, device->mHrtfState.get(), static_cast<ALuint>(count), - AmbiPoints, AmbiMatrix, al::size(AmbiPoints), AmbiOrderHFGain); + BuildBFormatHrtf(device->mHrtf, device->mHrtfState.get(), AmbiPoints, AmbiMatrix, + AmbiOrderHFGain); HrtfEntry *Hrtf{device->mHrtf}; InitNearFieldCtrl(device, Hrtf->field[0].distance, ambi_order, ChansPerOrder); |