/* * SpectroNode.hh * * Created on: Jul 2, 2014 * Author: AKKA */ #ifndef SPECTRONODE_HH_ #define SPECTRONODE_HH_ #include #include #include #include #include "FileConfigurator.hh" #include "DrawingPropertiesNode.hh" #include "PlotLogger.hh" #include "SpectroProperties.hh" namespace plot { /** * Class that handle a xml node. * Template class that should be instanciated for each subclass of PanelOutputPanel. */ template class SpectroNode: public plot::DrawingPropertiesNode { public: SpectroNode(): DrawingPropertiesNode() { } virtual ~SpectroNode() { } void proceed(xmlNodePtr pNode_,const AMDA::Parameters::CfgContext& pContext_) { LOG4CXX_DEBUG(gLogger, "SpectroNode::proceed"); PlotType* plotOutput = pContext_.get(); xmlChar* name = pContext_.get(); // initialize spectro with default properties DrawingProperties defaultProps = plotOutput->getParameter( (const char*) name).getDefaultProperties(); // read parent attributes DrawingPropertiesNode::parseAttributes(pNode_, defaultProps); // spectro properties std::shared_ptr spectroPropsPtr = std::shared_ptr(new SpectroProperties(defaultProps)); xmlChar * value = NULL; // -- parameter resolution value = xmlGetProp(pNode_, (const xmlChar *) "resolution"); if( value ) { spectroPropsPtr->setMaxResolution(atoi((const char*)value)); xmlFree(value); } // read index definition value = xmlGetProp(pNode_, (const xmlChar*) "index"); if (value) { spectroPropsPtr->setIndexDef((const char*) value); xmlFree(value); } //set related dim spectroPropsPtr->setRelatedDim(AMDA::Common::ParameterIndexesTool::getRelatedDimForTab2D(spectroPropsPtr->getIndexDef())); // read uselog0asmin value = xmlGetProp(pNode_, (const xmlChar*) "uselog0asmin"); if (value) { std::string strValue((const char*) value); std::transform(strValue.begin(), strValue.end(), strValue.begin(), ::tolower); std::istringstream is(strValue); bool uselog0asmin; is >> std::boolalpha >> uselog0asmin; spectroPropsPtr->setUseLog0AsMin(uselog0asmin); xmlFree(value); } // normalization value = xmlGetProp(pNode_, (const xmlChar*) "normalization"); if (value) { spectroPropsPtr->setNormalization((const char*) value); xmlFree(value); } // add spectro definition to parameter plotOutput->getParameter((const char*)name).addSpectroProperties(spectroPropsPtr); } }; } /* namespace plot */ #endif /* SPECTRONODE_HH_ */