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#include "CondCore/Utilities/interface/PayloadInspectorModule.h"
#include "CondCore/Utilities/interface/PayloadInspector.h"
#include "CondCore/CondDB/interface/Time.h"
//#include "DataFormats/EcalDetId/interface/EBDetId.h"
//#include "DataFormats/EcalDetId/interface/EEDetId.h"
#include "DataFormats/HcalDetId/interface/HcalDetId.h"
//#include "Geometry/HcalCommonData/interface/HcalTopologyMode.h"
#include "Geometry/CaloTopology/interface/HcalTopology.h"
#include "CondCore/HcalPlugins/interface/HcalObjRepresent.h"
// the data format of the condition to be inspected
#include "CondFormats/HcalObjects/interface/HcalGains.h" //or Gain.h???
#include "TH2F.h"
#include "TCanvas.h"
#include "TLine.h"
#include "TStyle.h"
#include "TLatex.h"
#include "TPave.h"
#include "TPaveStats.h"
#include <string>
#include <fstream>
namespace {
class HcalGainContainer : public HcalObjRepresent::HcalDataContainer<HcalGains, HcalGain> {
public:
HcalGainContainer(std::shared_ptr<HcalGains> payload, unsigned int run)
: HcalObjRepresent::HcalDataContainer<HcalGains, HcalGain>(payload, run) {}
float getValue(const HcalGain* gain) override {
return gain->getValue(0) + gain->getValue(1) + gain->getValue(2) + gain->getValue(3);
}
};
/******************************************
2d plot of HCAL Gain of 1 IOV
******************************************/
class HcalGainsPlot : public cond::payloadInspector::PlotImage<HcalGains> {
public:
HcalGainsPlot() : cond::payloadInspector::PlotImage<HcalGains>("HCAL Gain Ratios - map ") { setSingleIov(true); }
bool fill(const std::vector<std::tuple<cond::Time_t, cond::Hash> >& iovs) override {
auto iov = iovs.front();
std::shared_ptr<HcalGains> payload = fetchPayload(std::get<1>(iov));
if (payload.get()) {
HcalGainContainer* objContainer = new HcalGainContainer(payload, std::get<0>(iov));
std::string ImageName(m_imageFileName);
objContainer->getCanvasAll()->SaveAs(ImageName.c_str());
return true;
} else
return false;
} // fill method
};
/**********************************************************
2d plot of HCAL Gain ratios between 2 IOVs
**********************************************************/
class HcalGainsRatio : public cond::payloadInspector::PlotImage<HcalGains> {
public:
HcalGainsRatio() : cond::payloadInspector::PlotImage<HcalGains>("HCAL Gain Ratios difference") {
setSingleIov(false);
}
bool fill(const std::vector<std::tuple<cond::Time_t, cond::Hash> >& iovs) override {
auto iov1 = iovs.front();
auto iov2 = iovs.back();
std::shared_ptr<HcalGains> payload1 = fetchPayload(std::get<1>(iov1));
std::shared_ptr<HcalGains> payload2 = fetchPayload(std::get<1>(iov2));
if (payload1.get() && payload2.get()) {
HcalGainContainer* objContainer1 = new HcalGainContainer(payload1, std::get<0>(iov1));
HcalGainContainer* objContainer2 = new HcalGainContainer(payload2, std::get<0>(iov2));
objContainer2->Divide(objContainer1);
std::string ImageName(m_imageFileName);
objContainer2->getCanvasAll()->SaveAs(ImageName.c_str());
return true;
} else
return false;
} // fill method
};
/******************************************
2d plot of HCAL Gain of 1 IOV, projected along iphi
******************************************/
class HcalGainsPhiPlot : public cond::payloadInspector::PlotImage<HcalGains> {
public:
HcalGainsPhiPlot() : cond::payloadInspector::PlotImage<HcalGains>("HCAL Gain Ratios - map ") { setSingleIov(true); }
bool fill(const std::vector<std::tuple<cond::Time_t, cond::Hash> >& iovs) override {
auto iov = iovs.front();
std::shared_ptr<HcalGains> payload = fetchPayload(std::get<1>(iov));
if (payload.get()) {
HcalGainContainer* objContainer = new HcalGainContainer(payload, std::get<0>(iov));
std::string ImageName(m_imageFileName);
objContainer->getCanvasAll("PhiProfile")->SaveAs(ImageName.c_str());
return true;
} else
return false;
} // fill method
};
/**********************************************************
2d plot of HCAL Gain ratios between 2 IOVs, projected along iphi
**********************************************************/
class HcalGainsPhiRatio : public cond::payloadInspector::PlotImage<HcalGains> {
public:
HcalGainsPhiRatio() : cond::payloadInspector::PlotImage<HcalGains>("HCAL Gain Ratios difference") {
setSingleIov(false);
}
bool fill(const std::vector<std::tuple<cond::Time_t, cond::Hash> >& iovs) override {
auto iov1 = iovs.front();
auto iov2 = iovs.back();
std::shared_ptr<HcalGains> payload1 = fetchPayload(std::get<1>(iov1));
std::shared_ptr<HcalGains> payload2 = fetchPayload(std::get<1>(iov2));
if (payload1.get() && payload2.get()) {
HcalGainContainer* objContainer1 = new HcalGainContainer(payload1, std::get<0>(iov1));
HcalGainContainer* objContainer2 = new HcalGainContainer(payload2, std::get<0>(iov2));
objContainer2->Divide(objContainer1);
std::string ImageName(m_imageFileName);
objContainer2->getCanvasAll("PhiProfile")->SaveAs(ImageName.c_str());
return true;
} else
return false;
} // fill method
};
/******************************************
2d plot of HCAL Gain of 1 IOV, projected along ieta
******************************************/
class HcalGainsEtaPlot : public cond::payloadInspector::PlotImage<HcalGains> {
public:
HcalGainsEtaPlot() : cond::payloadInspector::PlotImage<HcalGains>("HCAL Gain Ratios - map ") { setSingleIov(true); }
bool fill(const std::vector<std::tuple<cond::Time_t, cond::Hash> >& iovs) override {
auto iov = iovs.front();
std::shared_ptr<HcalGains> payload = fetchPayload(std::get<1>(iov));
if (payload.get()) {
HcalGainContainer* objContainer = new HcalGainContainer(payload, std::get<0>(iov));
std::string ImageName(m_imageFileName);
objContainer->getCanvasAll("EtaProfile")->SaveAs(ImageName.c_str());
return true;
} else
return false;
} // fill method
};
/**********************************************************
2d plot of HCAL Gain ratios between 2 IOVs
**********************************************************/
class HcalGainsEtaRatio : public cond::payloadInspector::PlotImage<HcalGains> {
public:
HcalGainsEtaRatio() : cond::payloadInspector::PlotImage<HcalGains>("HCAL Gain Ratios difference") {
setSingleIov(false);
}
bool fill(const std::vector<std::tuple<cond::Time_t, cond::Hash> >& iovs) override {
auto iov1 = iovs.front();
auto iov2 = iovs.back();
std::shared_ptr<HcalGains> payload1 = fetchPayload(std::get<1>(iov1));
std::shared_ptr<HcalGains> payload2 = fetchPayload(std::get<1>(iov2));
if (payload1.get() && payload2.get()) {
HcalGainContainer* objContainer1 = new HcalGainContainer(payload1, std::get<0>(iov1));
HcalGainContainer* objContainer2 = new HcalGainContainer(payload2, std::get<0>(iov2));
objContainer2->Divide(objContainer1);
std::string ImageName(m_imageFileName);
objContainer2->getCanvasAll("EtaProfile")->SaveAs(ImageName.c_str());
return true;
} else
return false;
} // fill method
};
} // namespace
// Register the classes as boost python plugin
PAYLOAD_INSPECTOR_MODULE(HcalGains) {
PAYLOAD_INSPECTOR_CLASS(HcalGainsPlot);
PAYLOAD_INSPECTOR_CLASS(HcalGainsRatio);
PAYLOAD_INSPECTOR_CLASS(HcalGainsEtaPlot);
PAYLOAD_INSPECTOR_CLASS(HcalGainsPhiPlot);
PAYLOAD_INSPECTOR_CLASS(HcalGainsPhiRatio);
PAYLOAD_INSPECTOR_CLASS(HcalGainsEtaRatio);
}
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