// ----------------------------------------------------------------------------- // // ----------------------------------------------------------------------------- int H5PrimaryStatsDataDelegate::readAxisODFWeights(hid_t pid, PrimaryStatsData* data) { int err = 0; FloatArrayType::Pointer euler1 = FloatArrayType::CreateArray(0, DREAM3D::HDF5::Euler1); FloatArrayType::Pointer euler2 = FloatArrayType::CreateArray(0, DREAM3D::HDF5::Euler2); FloatArrayType::Pointer euler3 = FloatArrayType::CreateArray(0, DREAM3D::HDF5::Euler3); FloatArrayType::Pointer sigma = FloatArrayType::CreateArray(0, DREAM3D::HDF5::Sigma); FloatArrayType::Pointer weight = FloatArrayType::CreateArray(0, DREAM3D::HDF5::Weight); VectorOfFloatArray odfWeights; odfWeights.push_back(euler1); odfWeights.push_back(euler2); odfWeights.push_back(euler3); odfWeights.push_back(sigma); odfWeights.push_back(weight); hid_t groupId = H5Utilities::openHDF5Object(pid, DREAM3D::HDF5::AxisODFWeights); if (groupId > 0) { err = readVectorOfArrays(groupId, odfWeights); if(err >= 0) { data->setAxisODF_Weights(odfWeights); } } err |= H5Utilities::closeHDF5Object(groupId); return err; }
// ----------------------------------------------------------------------------- // // ----------------------------------------------------------------------------- int H5PrimaryStatsDataDelegate::readMDFWeights(hid_t pid, PrimaryStatsData* data) { int err = 0; QVector<size_t> dims(1, 1); FloatArrayType::Pointer angles = FloatArrayType::CreateArray(1, dims, DREAM3D::StringConstants::Angle); FloatArrayType::Pointer weight = FloatArrayType::CreateArray(1, DREAM3D::StringConstants::Weight); dims[0] = 3; FloatArrayType::Pointer axis = FloatArrayType::CreateArray(3, dims, DREAM3D::StringConstants::Axis); VectorOfFloatArray mdfWeights; mdfWeights.push_back(angles); mdfWeights.push_back(axis); mdfWeights.push_back(weight); hid_t groupId = QH5Utilities::openHDF5Object(pid, DREAM3D::StringConstants::MDFWeights); if (groupId > 0) { err = readVectorOfArrays(groupId, mdfWeights); if(err >= 0) { data->setMDF_Weights(mdfWeights); } } err = QH5Utilities::closeHDF5Object(groupId); return err; }
// ----------------------------------------------------------------------------- // // ----------------------------------------------------------------------------- int H5PrimaryStatsDataDelegate::readMDFWeights(hid_t pid, PrimaryStatsData* data) { int err = 0; FloatArrayType::Pointer angles = FloatArrayType::CreateArray(1, DREAM3D::HDF5::Angle); FloatArrayType::Pointer axis = FloatArrayType::CreateArray(3, DREAM3D::HDF5::Axis); axis->SetNumberOfComponents(3); FloatArrayType::Pointer weight = FloatArrayType::CreateArray(1, DREAM3D::HDF5::Weight); VectorOfFloatArray mdfWeights; mdfWeights.push_back(angles); mdfWeights.push_back(axis); mdfWeights.push_back(weight); hid_t groupId = H5Utilities::openHDF5Object(pid, DREAM3D::HDF5::MDFWeights); if (groupId > 0) { err = readVectorOfArrays(groupId, mdfWeights); if(err >= 0) { data->setMDF_Weights(mdfWeights); } } err = H5Utilities::closeHDF5Object(groupId); return err; }
// ----------------------------------------------------------------------------- // // ----------------------------------------------------------------------------- int H5TransformationStatsDataDelegate::readODFWeights(hid_t pid, TransformationStatsData* data) { int err = 0; FloatArrayType::Pointer euler1 = FloatArrayType::CreateArray(0, DREAM3D::StringConstants::Euler1); FloatArrayType::Pointer euler2 = FloatArrayType::CreateArray(0, DREAM3D::StringConstants::Euler2); FloatArrayType::Pointer euler3 = FloatArrayType::CreateArray(0, DREAM3D::StringConstants::Euler3); FloatArrayType::Pointer weight = FloatArrayType::CreateArray(0, DREAM3D::StringConstants::Weight); FloatArrayType::Pointer sigma = FloatArrayType::CreateArray(0, DREAM3D::StringConstants::Sigma); VectorOfFloatArray odfWeights; odfWeights.push_back(euler1); odfWeights.push_back(euler2); odfWeights.push_back(euler3); odfWeights.push_back(weight); odfWeights.push_back(sigma); hid_t groupId = QH5Utilities::openHDF5Object(pid, DREAM3D::StringConstants::ODFWeights); err = readVectorOfArrays(groupId, odfWeights); if(err >= 0) { data->setODF_Weights(odfWeights); } err |= QH5Utilities::closeHDF5Object(groupId); return err; }