int main(int argc, char **argv) { setlocale(LC_ALL, ""); g_test_init(&argc, &argv, NULL); GSList *slist = NULL; std::vector<bool> reverse; reverse.push_back(false); reverse.push_back(true); for(std::vector<bool>::iterator it_reverse = reverse.begin(); it_reverse != reverse.end(); ++it_reverse) { std::vector<float> scale; scale.push_back(0.75f); scale.push_back(1.25f); for(std::vector<float>::iterator it_scale = scale.begin(); it_scale != scale.end(); ++it_scale) { std::vector<size_t> align; align.push_back(0); align.push_back(4 * sizeof(float)); // SSE //align.push_back(8 * sizeof(float)); // AVX //align.push_back(16 * sizeof(float)); // AVX512 for(std::vector<size_t>::iterator it_align = align.begin(); it_align != align.end(); ++it_align) { lfTestParams *p = (lfTestParams *)g_malloc(sizeof(lfTestParams)); p->reverse = *it_reverse; p->scale = *it_scale; p->alignment = *it_align; add_set_item(p); slist = g_slist_append(slist, p); } } } const int res = g_test_run(); g_slist_free_full(slist, (GDestroyNotify)g_free); return res; }
int main(int argc, char **argv) { setlocale(LC_ALL, ""); g_test_init(&argc, &argv, NULL); GSList *slist = NULL; std::vector<bool> reverse; reverse.push_back(false); reverse.push_back(true); for(std::vector<bool>::iterator it_reverse = reverse.begin(); it_reverse != reverse.end(); ++it_reverse) { std::map<std::string, lfLensType> lensType; lensType["LF_RECTILINEAR"] = LF_RECTILINEAR; lensType["LF_FISHEYE"] = LF_FISHEYE; lensType["LF_PANORAMIC"] = LF_PANORAMIC; lensType["LF_EQUIRECTANGULAR"] = LF_EQUIRECTANGULAR; lensType["LF_FISHEYE_ORTHOGRAPHIC"] = LF_FISHEYE_ORTHOGRAPHIC; lensType["LF_FISHEYE_STEREOGRAPHIC"] = LF_FISHEYE_STEREOGRAPHIC; lensType["LF_FISHEYE_EQUISOLID"] = LF_FISHEYE_EQUISOLID; lensType["LF_FISHEYE_THOBY"] = LF_FISHEYE_THOBY; for(std::map<std::string, lfLensType>::iterator it_sourceType = lensType.begin(); it_sourceType != lensType.end(); ++it_sourceType) { for(std::map<std::string, lfLensType>::iterator it_targetType = lensType.begin(); it_targetType != lensType.end(); ++it_targetType) { if(it_sourceType->second == it_targetType->second) continue; std::vector<size_t> align; align.push_back(0); align.push_back(4 * sizeof(float)); // SSE //align.push_back(8 * sizeof(float)); // AVX //align.push_back(16 * sizeof(float)); // AVX512 for(std::vector<size_t>::iterator it_align = align.begin(); it_align != align.end(); ++it_align) { lfTestParams *p = (lfTestParams *)g_malloc(sizeof(lfTestParams)); p->reverse = *it_reverse; p->sourceType = g_strdup(it_sourceType->first.c_str()); p->sourceLensType = it_sourceType->second; p->targetType = g_strdup(it_targetType->first.c_str()); p->targetLensType = it_targetType->second; p->alignment = *it_align; add_set_item(p); slist = g_slist_append(slist, p); } } } } const int res = g_test_run(); g_slist_free_full(slist, (GDestroyNotify)free_params); return res; }
int main(int argc, char **argv) { setlocale(LC_ALL, ""); g_test_init(&argc, &argv, NULL); GSList *slist = NULL; std::vector<bool> reverse; reverse.push_back(false); reverse.push_back(true); for(std::vector<bool>::iterator it_reverse = reverse.begin(); it_reverse != reverse.end(); ++it_reverse) { lfLensCalibAttributes cs = {0.0, 0.0, 1.0, 1.5}; std::map<std::string, lfLensCalibDistortion> distortCalib; // ??? + Canon EF 85mm f/1.2L II USM distortCalib["LF_DIST_MODEL_POLY3"] = (lfLensCalibDistortion) { LF_DIST_MODEL_POLY3, 85.0f, 85.3502f, false, { -0.00412}, cs }; //Canon PowerShot G12 (fixed lens) distortCalib["LF_DIST_MODEL_POLY5"] = (lfLensCalibDistortion) { LF_DIST_MODEL_POLY5, 6.1f, 6.1f, false, { -0.030571633, 0.004658548}, cs }; //Canon EOS 5D Mark III + Canon EF 24-70mm f/2.8L II USM distortCalib["LF_DIST_MODEL_PTLENS"] = (lfLensCalibDistortion) { LF_DIST_MODEL_PTLENS, 24.0f, 24.46704f, false, {0.02964, -0.07853, 0.02943}, cs }; for(std::map<std::string, lfLensCalibDistortion>::iterator it_distortCalib = distortCalib.begin(); it_distortCalib != distortCalib.end(); ++it_distortCalib) { std::vector<size_t> align; align.push_back(0); align.push_back(4 * sizeof(float)); // SSE //align.push_back(8 * sizeof(float)); // AVX //align.push_back(16 * sizeof(float)); // AVX512 for(std::vector<size_t>::iterator it_align = align.begin(); it_align != align.end(); ++it_align) { lfTestParams *p = (lfTestParams *)g_malloc(sizeof(lfTestParams)); p->reverse = *it_reverse; p->distortionModel = g_strdup(it_distortCalib->first.c_str()); p->calib = it_distortCalib->second; p->alignment = *it_align; add_set_item(p); slist = g_slist_append(slist, p); } } } const int res = g_test_run(); g_slist_free_full(slist, (GDestroyNotify)free_params); return res; }