diff options
author | Chris Robinson <[email protected]> | 2019-10-22 15:22:37 -0700 |
---|---|---|
committer | Chris Robinson <[email protected]> | 2019-10-22 15:22:37 -0700 |
commit | a8a3acb6f66da6b630e6d71b77cdbc2b23a4f552 (patch) | |
tree | c5c80447c1eb06d5328c663a2faacb4b5b2806c4 /utils/makemhr | |
parent | fcde56e1fc2e16b2ac461fdc2e97a89adb82c6c6 (diff) |
More consistently use doubles in makemhr and loadsofa
Diffstat (limited to 'utils/makemhr')
-rw-r--r-- | utils/makemhr/loadsofa.cpp | 69 |
1 files changed, 37 insertions, 32 deletions
diff --git a/utils/makemhr/loadsofa.cpp b/utils/makemhr/loadsofa.cpp index e0c08349..49d16556 100644 --- a/utils/makemhr/loadsofa.cpp +++ b/utils/makemhr/loadsofa.cpp @@ -24,6 +24,7 @@ #include "loadsofa.h" #include <algorithm> +#include <array> #include <cmath> #include <cstdio> #include <iterator> @@ -37,6 +38,8 @@ #include "mysofa.h" +using double3 = std::array<double,3>; + static const char *SofaErrorStr(int err) { switch(err) @@ -57,18 +60,18 @@ static const char *SofaErrorStr(int err) * 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 double *const (&filters)[3], const double (&epsilons)[3], float *elems) +static uint GetUniquelySortedElems(const uint m, const double3 *aers, const uint axis, + const double *const (&filters)[3], const double (&epsilons)[3], double *elems) { uint count{0u}; - for(uint i{0u};i < 3*m;i += 3) + for(uint i{0u};i < m;++i) { - const float elem{triplets[i + axis]}; + const double elem{aers[i][axis]}; uint j; for(j = 0;j < 3;j++) { - if(filters[j] && std::fabs(triplets[i + j] - *filters[j]) > epsilons[j]) + if(filters[j] && std::fabs(aers[i][j] - *filters[j]) > epsilons[j]) break; } if(j < 3) @@ -76,7 +79,7 @@ static uint GetUniquelySortedElems(const uint m, const float *triplets, const ui for(j = 0;j < count;j++) { - const float delta{elem - elems[j]}; + const double delta{elem - elems[j]}; if(delta > epsilons[axis]) continue; @@ -104,9 +107,9 @@ static uint GetUniquelySortedElems(const uint m, const float *triplets, const ui * 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 double epsilon, const uint m, const float *elems) +static double GetUniformStepSize(const double epsilon, const uint m, const double *elems) { - auto steps = std::vector<float>(m, 0.0f); + auto steps = std::vector<double>(m, 0.0); auto counts = std::vector<uint>(m, 0u); uint count{0u}; @@ -114,7 +117,7 @@ static float GetUniformStepSize(const double epsilon, const uint m, const float { for(uint i{0u};i < m-stride;i++) { - const float step{elems[i + stride] - elems[i]}; + const double step{elems[i + stride] - elems[i]}; uint j; for(j = 0;j < count;j++) @@ -151,7 +154,7 @@ static float GetUniformStepSize(const double epsilon, const uint m, const float if(counts[0] > 5) return steps[0]; - return 0.0f; + return 0.0; } /* Attempts to produce a compatible layout. Most data sets tend to be @@ -162,15 +165,16 @@ static float GetUniformStepSize(const double epsilon, const uint m, const float */ static bool PrepareLayout(const uint m, const float *xyzs, HrirDataT *hData) { - std::vector<float> aers(3*m, 0.0f); - std::vector<float> elems(m, 0.0f); + auto aers = std::vector<double3>(m, double3{}); + auto elems = std::vector<double>(m, 0.0); - for(uint i{0u};i < 3*m;i += 3) + for(uint i{0u};i < m;++i) { - aers[i] = xyzs[i]; - aers[i + 1] = xyzs[i + 1]; - aers[i + 2] = xyzs[i + 2]; - mysofa_c2s(&aers[i]); + float aer[3]{xyzs[i*3], xyzs[i*3 + 1], xyzs[i*3 + 2]}; + mysofa_c2s(&aer[0]); + aers[i][0] = aer[0]; + aers[i][1] = aer[1]; + aers[i][2] = aer[2]; } const uint fdCount{GetUniquelySortedElems(m, aers.data(), 2, { nullptr, nullptr, nullptr }, @@ -183,7 +187,7 @@ static bool PrepareLayout(const uint m, const float *xyzs, HrirDataT *hData) double distances[MAX_FD_COUNT]{}; uint evCounts[MAX_FD_COUNT]{}; - auto azCounts = std::vector<uint>(MAX_FD_COUNT * MAX_EV_COUNT); + auto azCounts = std::vector<uint>(MAX_FD_COUNT*MAX_EV_COUNT, 0u); for(uint fi{0u};fi < fdCount;fi++) { distances[fi] = elems[fi]; @@ -211,8 +215,8 @@ static bool PrepareLayout(const uint m, const float *xyzs, HrirDataT *hData) return false; } - float step{GetUniformStepSize(0.1, evCount, elems.data())}; - if(step <= 0.0f) + double step{GetUniformStepSize(0.1, evCount, elems.data())}; + if(step <= 0.0) { fprintf(stderr, "Incompatible layout (non-uniform elevations).\n"); return false; @@ -221,18 +225,18 @@ static bool PrepareLayout(const uint m, const float *xyzs, HrirDataT *hData) uint evStart{0u}; for(uint ei{0u};ei < evCount;ei++) { - float ev{90.0f + elems[ei]}; - float eif{std::round(ev / step)}; + double ev{90.0 + elems[ei]}; + double eif{std::round(ev / step)}; const uint ei_start{static_cast<uint>(eif)}; - if(std::fabs(eif - static_cast<float>(ei_start)) < (0.1f/step)) + if(std::fabs(eif - static_cast<double>(ei_start)) < (0.1/step)) { evStart = ei_start; break; } } - evCount = static_cast<uint>(std::round(180.0f / step)) + 1; + evCount = static_cast<uint>(std::round(180.0 / step)) + 1; if(evCount < 5) { fprintf(stderr, "Incompatible layout (too few uniform elevations).\n"); @@ -247,22 +251,23 @@ static bool PrepareLayout(const uint m, const float *xyzs, HrirDataT *hData) const uint azCount{GetUniquelySortedElems(m, aers.data(), 0, { nullptr, &ev, &dist }, { 0.1, 0.1, 0.001 }, elems.data())}; - if(azCount > MAX_AZ_COUNT) - { - fprintf(stderr, "Incompatible layout (innumerable azimuths).\n"); - return false; - } - if(ei > 0 && ei < (evCount - 1)) { step = GetUniformStepSize(0.1, azCount, elems.data()); - if(step <= 0.0f) + if(step <= 0.0) { fprintf(stderr, "Incompatible layout (non-uniform azimuths).\n"); return false; } - azCounts[fi*MAX_EV_COUNT + ei] = static_cast<uint>(std::round(360.0f / step)); + azCounts[fi*MAX_EV_COUNT + ei] = static_cast<uint>(std::round(360.0 / step)); + if(azCounts[fi*MAX_EV_COUNT + ei] > MAX_AZ_COUNT) + { + fprintf(stderr, + "Incompatible layout (too many azimuths on elev=%f, rad=%f, %u > %u).\n", + ev, dist, azCounts[fi*MAX_EV_COUNT + ei], MAX_AZ_COUNT); + return false; + } } else if(azCount != 1) { |