/* * SOFA info utility for inspecting SOFA file metrics and determining HRTF * utility compatible layouts. * * Copyright (C) 2018-2019 Christopher Fitzgerald * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. * * Or visit: http://www.gnu.org/licenses/old-licenses/gpl-2.0.html */ #include #include #include #include #include #include "win_main_utf8.h" using uint = unsigned int; // Per-field measurement info. struct HrirFdT { float mDistance{0.0f}; uint mEvCount{0u}; uint mEvStart{0u}; std::vector mAzCounts; }; static const char *SofaErrorStr(int err) { switch(err) { case MYSOFA_OK: return "OK"; case MYSOFA_INVALID_FORMAT: return "Invalid format"; case MYSOFA_UNSUPPORTED_FORMAT: return "Unsupported format"; case MYSOFA_INTERNAL_ERROR: return "Internal error"; case MYSOFA_NO_MEMORY: return "Out of memory"; case MYSOFA_READ_ERROR: return "Read error"; } return "Unknown"; } static void PrintSofaAttributes(const char *prefix, struct MYSOFA_ATTRIBUTE *attribute) { while(attribute) { fprintf(stdout, "%s.%s: %s\n", prefix, attribute->name, attribute->value); attribute = attribute->next; } } static void PrintSofaArray(const char *prefix, struct MYSOFA_ARRAY *array) { PrintSofaAttributes(prefix, array->attributes); for(uint i{0u};i < array->elements;i++) fprintf(stdout, "%s[%u]: %.6f\n", prefix, i, array->values[i]); } /* Produces a sorted array of unique elements from a particular axis of the * triplets array. The filters are used to focus on particular coordinates * of other axes as necessary. The epsilons are used to constrain the * equality of unique elements. */ static uint GetUniquelySortedElems(const uint m, const float *triplets, const uint axis, const float *const (&filters)[3], const float (&epsilons)[3], float *elems) { uint count{0u}; for(uint i{0u};i < 3*m;i += 3) { float elem = triplets[i + axis]; uint j; for(j = 0;j < 3;j++) { if(filters[j] && std::fabs(triplets[i + j] - *filters[j]) > epsilons[j]) break; } if(j < 3) continue; for(j = 0;j < count;j++) { const float delta{elem - elems[j]}; if(delta > epsilons[axis]) continue; if(delta >= -epsilons[axis]) break; for(uint k{count};k > j;k--) elems[k] = elems[k - 1]; elems[j] = elem; count++; break; } if(j >= count) elems[count++] = elem; } return count; } /* Given a list of elements, this will produce the smallest step size that * can uniformly cover a fair portion of the list. Ideally this will be over * half, but in degenerate cases this can fall to a minimum of 5 (the lower * limit on elevations necessary to build a layout). */ static float GetUniformStepSize(const float epsilon, const uint m, const float *elems) { std::vector steps(m, 0.0f); std::vector counts(m, 0u); uint count{0u}; for(uint stride{1u};stride < m/2;stride++) { for(uint i{0u};i < m-stride;i++) { const float step{elems[i + stride] - elems[i]}; uint j; for(j = 0;j < count;j++) { if(std::fabs(step - steps[j]) < epsilon) { counts[j]++; break; } } if(j >= count) { steps[j] = step; counts[j] = 1; count++; } } for(uint i{1u};i < count;i++) { if(counts[i] > counts[0]) { steps[0] = steps[i]; counts[0] = counts[i]; } } count = 1; if(counts[0] > m/2) return steps[0]; } if(counts[0] > 5) return steps[0]; return 0.0f; } /* Attempts to produce a compatible layout. Most data sets tend to be * uniform and have the same major axis as used by OpenAL Soft's HRTF model. * This will remove outliers and produce a maximally dense layout when * possible. Those sets that contain purely random measurements or use * different major axes will fail. */ static void PrintCompatibleLayout(const uint m, const float *xyzs) { std::vector aers(3*m, 0.0f); std::vector elems(m, 0.0f); fprintf(stdout, "\n"); for(uint i{0u};i < 3*m;i += 3) { aers[i] = xyzs[i]; aers[i + 1] = xyzs[i + 1]; aers[i + 2] = xyzs[i + 2]; mysofa_c2s(&aers[i]); } uint fdCount{GetUniquelySortedElems(m, aers.data(), 2, { nullptr, nullptr, nullptr }, { 0.1f, 0.1f, 0.001f }, elems.data())}; if(fdCount > (m / 3)) { fprintf(stdout, "Incompatible layout (inumerable radii).\n"); return; } std::vector fds(fdCount); for(uint fi{0u};fi < fdCount;fi++) fds[fi].mDistance = elems[fi]; for(uint fi{0u};fi < fdCount;fi++) { float dist{fds[fi].mDistance}; uint evCount{GetUniquelySortedElems(m, aers.data(), 1, { nullptr, nullptr, &dist }, { 0.1f, 0.1f, 0.001f }, elems.data())}; if(evCount > (m / 3)) { fprintf(stdout, "Incompatible layout (innumerable elevations).\n"); return; } float step{GetUniformStepSize(0.1f, evCount, elems.data())}; if(step <= 0.0f) { fprintf(stdout, "Incompatible layout (non-uniform elevations).\n"); return; } uint evStart{0u}; for(uint ei{0u};ei < evCount;ei++) { float ev{90.0f + elems[ei]}; float eif{std::round(ev / step)}; if(std::fabs(eif - static_cast(eif)) < (0.1f / step)) { evStart = static_cast(eif); break; } } evCount = static_cast(std::round(180.0f / step)) + 1; if(evCount < 5) { fprintf(stdout, "Incompatible layout (too few uniform elevations).\n"); return; } fds[fi].mEvCount = evCount; fds[fi].mEvStart = evStart; fds[fi].mAzCounts.resize(evCount); auto &azCounts = fds[fi].mAzCounts; for(uint ei{evStart};ei < evCount;ei++) { float ev{-90.0f + ei * 180.0f / (evCount - 1)}; uint azCount{GetUniquelySortedElems(m, aers.data(), 0, { nullptr, &ev, &dist }, { 0.1f, 0.1f, 0.001f }, elems.data())}; if(azCount > (m / 3)) { fprintf(stdout, "Incompatible layout (innumerable azimuths).\n"); return; } if(ei > 0 && ei < (evCount - 1)) { step = GetUniformStepSize(0.1f, azCount, elems.data()); if(step <= 0.0f) { fprintf(stdout, "Incompatible layout (non-uniform azimuths).\n"); return; } azCounts[ei] = static_cast(std::round(360.0f / step)); } else if(azCount != 1) { fprintf(stdout, "Incompatible layout (non-singular poles).\n"); return; } else { azCounts[ei] = 1; } } for(uint ei{0u};ei < evStart;ei++) azCounts[ei] = azCounts[evCount - ei - 1]; } fprintf(stdout, "Compatible Layout:\n\ndistance = %.3f", fds[0].mDistance); for(uint fi{1u};fi < fdCount;fi++) fprintf(stdout, ", %.3f", fds[fi].mDistance); fprintf(stdout, "\nazimuths = "); for(uint fi{0u};fi < fdCount;fi++) { for(uint ei{0u};ei < fds[fi].mEvCount;ei++) fprintf(stdout, "%d%s", fds[fi].mAzCounts[ei], (ei < (fds[fi].mEvCount - 1)) ? ", " : (fi < (fdCount - 1)) ? ";\n " : "\n"); } } // Load and inspect the given SOFA file. static void SofaInfo(const char *filename) { struct MYSOFA_EASY sofa; sofa.lookup = nullptr; sofa.neighborhood = nullptr; int err; sofa.hrtf = mysofa_load(filename, &err); if(!sofa.hrtf) { mysofa_close(&sofa); fprintf(stdout, "Error: Could not load source file '%s'.\n", filename); return; } err = mysofa_check(sofa.hrtf); if(err != MYSOFA_OK) /* NOTE: Some valid SOFA files are failing this check. { mysofa_close(&sofa); fprintf(stdout, "Error: Malformed source file '%s' (%s).\n", filename, SofaErrorStr(err)); return; } */ fprintf(stdout, "Warning: Supposedly malformed source file '%s' (%s).\n", filename, SofaErrorStr(err)); mysofa_tocartesian(sofa.hrtf); PrintSofaAttributes("Info", sofa.hrtf->attributes); fprintf(stdout, "Measurements: %u\n", sofa.hrtf->M); fprintf(stdout, "Receivers: %u\n", sofa.hrtf->R); fprintf(stdout, "Emitters: %u\n", sofa.hrtf->E); fprintf(stdout, "Samples: %u\n", sofa.hrtf->N); PrintSofaArray("SampleRate", &sofa.hrtf->DataSamplingRate); PrintSofaArray("DataDelay", &sofa.hrtf->DataDelay); PrintCompatibleLayout(sofa.hrtf->M, sofa.hrtf->SourcePosition.values); mysofa_free(sofa.hrtf); } int main(int argc, char *argv[]) { GET_UNICODE_ARGS(&argc, &argv); if(argc != 2) { fprintf(stdout, "Usage: %s \n", argv[0]); return 0; } SofaInfo(argv[1]); return 0; }