PlotFunctionNode.cc
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#include "PlotFunctionNode.hh"
#include "AxesNode.hh"
#include "FillsNode.hh"
#include "PanelPlotNodeRegistry.hh"
#include "ParamsNode.hh"
#include "PlotFunction.hh"
#include "PlotLegendNode.hh"
#include "PlotLogger.hh"
// DD_Client_r_lib module includes
#include "TimeUtil.hh"
namespace plot
{
const std::string PlotFunctionNode::NODENAME = PlotFunction_NODENAME;
std::string PlotFunctionNode::_key = PanelPlotNodeRegistry::getInstance().addElement(
NODENAME, boost::shared_ptr<PlotFunctionNode>(new PlotFunctionNode()));
PlotFunctionNode::PlotFunctionNode() : AbstractPanelPlotNode()
{
getChildList()["legends"] = AMDA::XMLConfigurator::NodeCfgSPtr(
new PlotLegendNode());
getChildList()["params"] = AMDA::XMLConfigurator::NodeCfgSPtr(
new ParamsNode<PlotFunction>());
getChildList()["axes"] = AMDA::XMLConfigurator::NodeCfgSPtr(new AxesNode());
}
PlotFunctionNode::~PlotFunctionNode()
{
}
boost::shared_ptr<PanelPlotOutput> PlotFunctionNode::proceed(xmlNodePtr pNode_,
PlotOutput *plotManager_, Panel *panel_)
{
LOG4CXX_DEBUG(gLogger, "PlotFunctionNode::proceed");
boost::shared_ptr<PlotFunction> plot(
new PlotFunction(plotManager_->getParameterManager(),
boost::shared_ptr<Panel>(panel_)));
// Copy default pages values for the panel if not already specified
if (panel_->_leftMargin == -1)
panel_->_leftMargin = panel_->_page->_defaultXYPlotLeftMargin;
if (panel_->_rightMargin == -1)
panel_->_rightMargin = panel_->_page->_defaultXYPlotRightMargin;
if (panel_->_topMargin == -1)
panel_->_topMargin = panel_->_page->_defaultXYPlotTopMargin;
if (panel_->_bottomMargin == -1)
panel_->_bottomMargin = panel_->_page->_defaultXYPlotBottomMargin;
if (panel_->_preferedWidth == -1)
panel_->_preferedWidth = panel_->_page->_defaultXYPlotWidth;
if (panel_->_preferedHeight == -1)
panel_->_preferedHeight = panel_->_page->_defaultXYPlotHeight;
// Read PlotFunction attributes
xmlChar *value;
value = xmlGetProp(pNode_, (const xmlChar *)PlotFunctuion_Type);
if (value)
{
const char *valueString = (const char *)value;
if (strcmp(valueString, PlotFunctuion_Type_AVG) == 0)
plot->setFunction(PlotFunction::Function::AVG);
else if (strcmp(valueString, PlotFunctuion_Type_FFT) == 0)
plot->setFunction(PlotFunction::Function::FFT);
else if (strcmp(valueString, PlotFunctuion_Type_DFT) == 0)
plot->setFunction(PlotFunction::Function::DFT);
else if (strcmp(valueString, PlotFunctuion_Type_SUM) == 0)
plot->setFunction(PlotFunction::Function::SUM);
xmlFree(value);
}
value = xmlGetProp(pNode_, (const xmlChar *)PlotFunction_Abscisse);
if (value && (plot->getFunction() == PlotFunction::Function::FFT || plot->getFunction() == PlotFunction::Function::DFT))
{
const char *valueString = (const char *)value;
if (strcmp(valueString, PlotFunction_Abscisse_Frequency) == 0)
{
Abscisse abscisse("Freq. ", "(Hz)", Abscisse::Abscisse_Type::FREQUENCY);
plot->setAbscisse(abscisse);
}
else if (strcmp(valueString, PlotFunction_Abscisse_Period) == 0)
{
Abscisse abscisse("Period. ", "(S)", Abscisse::Abscisse_Type::PERIOD);
plot->setAbscisse(abscisse);
}
xmlFree(value);
}
else
{
Abscisse abscisse("Time, ", "UT", Abscisse::Abscisse_Type::TIME);
plot->setAbscisse(abscisse);
}
value = xmlGetProp(pNode_, (const xmlChar *)PlotFunction_Scale_Abscisse);
if (value)
{
const char *valueAbscisseScale = (char *)value;
if (strcmp(valueAbscisseScale, PlotFunction_Linear) == 0)
plot->setAbscisseScale(Axis::Scale::LINEAR);
else if (strcmp(valueAbscisseScale, PlotFunction_Log) == 0)
plot->setAbscisseScale(Axis::Scale::LOGARITHMIC);
xmlFree(value);
}
value = xmlGetProp(pNode_, (const xmlChar *)PlotFunction_Scale_Ordonnee);
if (value)
{
const char *valueOrdonneeScale = (char *)value;
if (strcmp(valueOrdonneeScale, PlotFunction_Linear) == 0)
plot->setOrdonneeScale(Axis::Scale::LINEAR);
else if (strcmp(valueOrdonneeScale, PlotFunction_Log) == 0)
plot->setOrdonneeScale(Axis::Scale::LOGARITHMIC);
xmlFree(value);
}
else
{
LOG4CXX_DEBUG(gLogger, "non value");
}
AMDA::Parameters::CfgContext context;
context.push<PanelPlotOutput *>(plot.get());
context.push<PlotFunction *>(plot.get());
context.push<Panel *>(panel_);
AMDA::XMLConfigurator::NodeGrpCfg::proceed(pNode_, context);
return plot;
}
} /* namespace plot */