diff options
| author | Chris Robinson <[email protected]> | 2019-03-26 17:01:45 -0700 |
|---|---|---|
| committer | Chris Robinson <[email protected]> | 2019-03-26 17:01:45 -0700 |
| commit | 608e4e916e19cc1902cde006a743e50e6fec478d (patch) | |
| tree | 28e942f38e6eae7ee69582eea250520ab982b7dc | |
| parent | 2960d729ef92bd4da37da5fdffe9f24893e5ab67 (diff) | |
Avoid recreating temporary buffers all the time
| -rw-r--r-- | utils/makemhr/loadsofa.cpp | 153 |
1 files changed, 85 insertions, 68 deletions
diff --git a/utils/makemhr/loadsofa.cpp b/utils/makemhr/loadsofa.cpp index d56e6524..b6dd66d9 100644 --- a/utils/makemhr/loadsofa.cpp +++ b/utils/makemhr/loadsofa.cpp @@ -427,9 +427,9 @@ bool CheckIrData(MYSOFA_HRTF *sofaHrtf) /* Calculate the onset time of a HRIR. */ -static double CalcHrirOnset(const uint rate, const uint n, const double *hrir) +static double CalcHrirOnset(const uint rate, const uint n, std::vector<double> &upsampled, + const double *hrir) { - std::vector<double> upsampled(10 * n); { ResamplerT rs; ResamplerSetup(&rs, rate, 10 * rate); @@ -447,10 +447,9 @@ static double CalcHrirOnset(const uint rate, const uint n, const double *hrir) } /* Calculate the magnitude response of a HRIR. */ -static void CalcHrirMagnitude(const uint points, const uint n, const double *hrir, double *mag) +static void CalcHrirMagnitude(const uint points, const uint n, std::vector<complex_d> &h, + const double *hrir, double *mag) { - auto h = std::vector<complex_d>(n); - auto iter = std::copy_n(hrir, points, h.begin()); std::fill(iter, h.end(), complex_d{0.0, 0.0}); @@ -458,6 +457,82 @@ static void CalcHrirMagnitude(const uint points, const uint n, const double *hri MagnitudeResponse(n, h.data(), mag); } +static bool LoadResponses(MYSOFA_HRTF *sofaHrtf, HrirDataT *hData) +{ + const uint channels{(hData->mChannelType == CT_STEREO) ? 2u : 1u}; + hData->mHrirsBase.resize(channels * hData->mIrCount * hData->mIrSize); + double *hrirs = hData->mHrirsBase.data(); + + /* Temporary buffers used to calculate the IR's onset and frequency + * magnitudes. + */ + auto upsampled = std::vector<double>(10 * hData->mIrPoints); + auto htemp = std::vector<complex_d>(hData->mFftSize); + auto hrir = std::vector<double>(hData->mFftSize); + + for(uint si{0u};si < sofaHrtf->M;si++) + { + printf("\rLoading HRIRs... %d of %d", si+1, sofaHrtf->M); + fflush(stdout); + + float aer[3]{ + sofaHrtf->SourcePosition.values[3*si], + sofaHrtf->SourcePosition.values[3*si + 1], + sofaHrtf->SourcePosition.values[3*si + 2] + }; + mysofa_c2s(aer); + + if(std::abs(aer[1]) >= 89.999f) + aer[0] = 0.0f; + else + aer[0] = std::fmod(360.0f - aer[0], 360.0f); + + auto field = std::find_if(hData->mFds.cbegin(), hData->mFds.cend(), + [&aer](const HrirFdT &fld) -> bool + { + double delta = aer[2] - fld.mDistance; + return (std::abs(delta) < 0.001); + }); + if(field == hData->mFds.cend()) + continue; + + double ef{(90.0+aer[1]) * (field->mEvCount-1) / 180.0}; + auto ei = static_cast<int>(std::round(ef)); + ef = (ef-ei) * 180.0f / (field->mEvCount-1); + if(std::abs(ef) >= 0.1) continue; + + double af{aer[0] * field->mEvs[ei].mAzCount / 360.0f}; + auto ai = static_cast<int>(std::round(af)); + af = (af-ai) * 360.0f / field->mEvs[ei].mAzCount; + ai %= field->mEvs[ei].mAzCount; + if(std::abs(af) >= 0.1) continue; + + HrirAzT *azd = &field->mEvs[ei].mAzs[ai]; + if(azd->mIrs[0] != nullptr) + { + fprintf(stderr, "Multiple measurements near [ a=%f, e=%f, r=%f ].\n", + aer[0], aer[1], aer[2]); + return false; + } + + for(uint ti{0u};ti < channels;++ti) + { + std::copy_n(&sofaHrtf->DataIR.values[(si*sofaHrtf->R + ti)*sofaHrtf->N], + hData->mIrPoints, hrir.begin()); + azd->mIrs[ti] = &hrirs[hData->mIrSize * (hData->mIrCount*ti + azd->mIndex)]; + azd->mDelays[ti] = CalcHrirOnset(hData->mIrRate, hData->mIrPoints, upsampled, + hrir.data()); + CalcHrirMagnitude(hData->mIrPoints, hData->mFftSize, htemp, hrir.data(), + azd->mIrs[ti]); + } + + // TODO: Since some SOFA files contain minimum phase HRIRs, + // it would be beneficial to check for per-measurement delays + // (when available) to reconstruct the HRTDs. + } + printf("\n"); + return true; +} struct MySofaHrtfDeleter { void operator()(MYSOFA_HRTF *ptr) { mysofa_free(ptr); } @@ -529,70 +604,9 @@ bool LoadSofaFile(const char *filename, const uint fftSize, const uint truncSize if(!PrepareLayout(sofaHrtf->M, sofaHrtf->SourcePosition.values, hData)) return false; - const uint channels{(hData->mChannelType == CT_STEREO) ? 2u : 1u}; - hData->mHrirsBase.resize(channels * hData->mIrCount * hData->mIrSize); - double *hrirs = hData->mHrirsBase.data(); - auto hrir = std::vector<double>(hData->mFftSize); - for(uint si{0u};si < sofaHrtf->M;si++) - { - printf("\rLoading HRIRs... %d of %d", si+1, sofaHrtf->M); - fflush(stdout); - - float aer[3]{ - sofaHrtf->SourcePosition.values[3*si], - sofaHrtf->SourcePosition.values[3*si + 1], - sofaHrtf->SourcePosition.values[3*si + 2] - }; - mysofa_c2s(aer); - - if(std::abs(aer[1]) >= 89.999f) - aer[0] = 0.0f; - else - aer[0] = std::fmod(360.0f - aer[0], 360.0f); - - auto field = std::find_if(hData->mFds.cbegin(), hData->mFds.cend(), - [&aer](const HrirFdT &fld) -> bool - { - double delta = aer[2] - fld.mDistance; - return (std::abs(delta) < 0.001); - }); - if(field == hData->mFds.cend()) - continue; - - double ef{(90.0+aer[1]) * (field->mEvCount-1) / 180.0}; - auto ei = static_cast<int>(std::round(ef)); - ef = (ef-ei) * 180.0f / (field->mEvCount-1); - if(std::abs(ef) >= 0.1) continue; - - double af{aer[0] * field->mEvs[ei].mAzCount / 360.0f}; - auto ai = static_cast<int>(std::round(af)); - af = (af-ai) * 360.0f / field->mEvs[ei].mAzCount; - ai %= field->mEvs[ei].mAzCount; - if(std::abs(af) >= 0.1) continue; - - HrirAzT *azd = &field->mEvs[ei].mAzs[ai]; - if(azd->mIrs[0] != nullptr) - { - fprintf(stderr, "Multiple measurements near [ a=%f, e=%f, r=%f ].\n", - aer[0], aer[1], aer[2]); - return false; - } - - for(uint ti{0u};ti < channels;++ti) - { - std::copy_n(&sofaHrtf->DataIR.values[(si*sofaHrtf->R + ti)*sofaHrtf->N], - hData->mIrPoints, hrir.begin()); - azd->mIrs[ti] = &hrirs[hData->mIrSize * (hData->mIrCount*ti + azd->mIndex)]; - azd->mDelays[ti] = CalcHrirOnset(hData->mIrRate, hData->mIrPoints, hrir.data()); - CalcHrirMagnitude(hData->mIrPoints, hData->mFftSize, hrir.data(), azd->mIrs[ti]); - } - - // TODO: Since some SOFA files contain minimum phase HRIRs, - // it would be beneficial to check for per-measurement delays - // (when available) to reconstruct the HRTDs. - } + if(!LoadResponses(sofaHrtf.get(), hData)) + return false; sofaHrtf = nullptr; - printf("\n"); for(uint fi{0u};fi < hData->mFdCount;fi++) { @@ -627,6 +641,9 @@ bool LoadSofaFile(const char *filename, const uint fftSize, const uint truncSize } } } + + const uint channels{(hData->mChannelType == CT_STEREO) ? 2u : 1u}; + double *hrirs = hData->mHrirsBase.data(); for(uint fi{0u};fi < hData->mFdCount;fi++) { for(uint ei{0u};ei < hData->mFds[fi].mEvCount;ei++) |