Loading src/modules/ElectricFieldReader/ElectricFieldReaderModule.cpp +3 −4 Original line number Diff line number Diff line Loading @@ -344,7 +344,6 @@ void ElectricFieldReaderModule::create_output_plots() { ? ROOT::Math::XYZVector(model->getPixelSize().x(), model->getPixelSize().y(), model->getSensorSize().z()) : model->getSensorSize()); // Use either full sensor axis or only depleted region double z_min = center.z() - size.z() / 2.0; double z_max = center.z() + size.z() / 2.0; Loading Loading @@ -417,7 +416,7 @@ void ElectricFieldReaderModule::create_output_plots() { histogram_y->GetYaxis()->SetTitle("z (mm)"); histogram_z->GetYaxis()->SetTitle("z (mm)"); } else { z = z_min + config_.get<double>("output_plots_projection_percentage", 0.5) * (z_max - z_min); z = z_min + config_.get<double>("output_plots_projection_percentage", 0.5) * size.z(); histogram->GetXaxis()->SetTitle("x (mm)"); histogram_x->GetXaxis()->SetTitle("x (mm)"); histogram_y->GetXaxis()->SetTitle("x (mm)"); Loading Loading @@ -445,9 +444,9 @@ void ElectricFieldReaderModule::create_output_plots() { } for(size_t k = 0; k < steps; ++k) { if(project == 'x') { z = z_min + ((static_cast<double>(k) + 0.5) / static_cast<double>(steps)) * (z_max - z_min); z = z_min + ((static_cast<double>(k) + 0.5) / static_cast<double>(steps)) * size.z(); } else if(project == 'y') { z = z_min + ((static_cast<double>(k) + 0.5) / static_cast<double>(steps)) * (z_max - z_min); z = z_min + ((static_cast<double>(k) + 0.5) / static_cast<double>(steps)) * size.z(); } else { y = center.y() - size.y() / 2.0 + ((static_cast<double>(k) + 0.5) / static_cast<double>(steps)) * size.y(); } Loading Loading
src/modules/ElectricFieldReader/ElectricFieldReaderModule.cpp +3 −4 Original line number Diff line number Diff line Loading @@ -344,7 +344,6 @@ void ElectricFieldReaderModule::create_output_plots() { ? ROOT::Math::XYZVector(model->getPixelSize().x(), model->getPixelSize().y(), model->getSensorSize().z()) : model->getSensorSize()); // Use either full sensor axis or only depleted region double z_min = center.z() - size.z() / 2.0; double z_max = center.z() + size.z() / 2.0; Loading Loading @@ -417,7 +416,7 @@ void ElectricFieldReaderModule::create_output_plots() { histogram_y->GetYaxis()->SetTitle("z (mm)"); histogram_z->GetYaxis()->SetTitle("z (mm)"); } else { z = z_min + config_.get<double>("output_plots_projection_percentage", 0.5) * (z_max - z_min); z = z_min + config_.get<double>("output_plots_projection_percentage", 0.5) * size.z(); histogram->GetXaxis()->SetTitle("x (mm)"); histogram_x->GetXaxis()->SetTitle("x (mm)"); histogram_y->GetXaxis()->SetTitle("x (mm)"); Loading Loading @@ -445,9 +444,9 @@ void ElectricFieldReaderModule::create_output_plots() { } for(size_t k = 0; k < steps; ++k) { if(project == 'x') { z = z_min + ((static_cast<double>(k) + 0.5) / static_cast<double>(steps)) * (z_max - z_min); z = z_min + ((static_cast<double>(k) + 0.5) / static_cast<double>(steps)) * size.z(); } else if(project == 'y') { z = z_min + ((static_cast<double>(k) + 0.5) / static_cast<double>(steps)) * (z_max - z_min); z = z_min + ((static_cast<double>(k) + 0.5) / static_cast<double>(steps)) * size.z(); } else { y = center.y() - size.y() / 2.0 + ((static_cast<double>(k) + 0.5) / static_cast<double>(steps)) * size.y(); } Loading
