#include <RPCEfficiencySecond.h>
Class for RPC Monitoring: use RPCDigi and DT and CSC Segments.
Definition at line 39 of file RPCEfficiencySecond.h.
RPCEfficiencySecond::RPCEfficiencySecond | ( | const edm::ParameterSet & | iConfig | ) | [explicit] |
Definition at line 24 of file RPCEfficiencySecond.cc.
References barrel, debug, endcap, folderPath, edm::ParameterSet::getUntrackedParameter(), NameFile, and SaveFile.
{ SaveFile = iConfig.getUntrackedParameter<bool>("SaveFile", false); NameFile = iConfig.getUntrackedParameter<std::string>("NameFile","RPCEfficiency.root"); folderPath = iConfig.getUntrackedParameter<std::string>("folderPath","RPC/RPCEfficiency/"); debug = iConfig.getUntrackedParameter<bool>("debug",false); barrel = iConfig.getUntrackedParameter<bool>("barrel"); endcap = iConfig.getUntrackedParameter<bool>("endcap"); }
RPCEfficiencySecond::~RPCEfficiencySecond | ( | ) |
Definition at line 33 of file RPCEfficiencySecond.cc.
{}
void RPCEfficiencySecond::analyze | ( | const edm::Event & | iEvent, |
const edm::EventSetup & | iSetup | ||
) | [private, virtual] |
void RPCEfficiencySecond::beginRun | ( | const edm::Run & | , |
const edm::EventSetup & | iSetup | ||
) | [private, virtual] |
Reimplemented from edm::EDAnalyzer.
Definition at line 35 of file RPCEfficiencySecond.cc.
References DQMStore::book1D(), DQMStore::book2D(), dbe, Disk1Summary, Disk2Summary, Disk3Summary, Diskm1Summary, Diskm2Summary, Diskm3Summary, EffDistroD1, EffDistroD2, EffDistroD3, EffDistroDm1, EffDistroDm2, EffDistroDm3, EffDistroW0, EffDistroW1, EffDistroW2, EffDistroWm1, EffDistroWm2, EffGlobD1, EffGlobD2, EffGlobD3, EffGlobDm1, EffGlobDm2, EffGlobDm3, EffGlobW0, EffGlobW1, EffGlobW2, EffGlobWm1, EffGlobWm2, ExGregD1R2, ExGregD1R3, ExGregD2R2, ExGregD2R3, ExGregD3R2, ExGregD3R3, ExGregDm1R2, ExGregDm1R3, ExGregDm2R2, ExGregDm2R3, ExGregDm3R2, ExGregDm3R3, ExpLayerW0, ExpLayerW1, ExpLayerW2, ExpLayerWm1, ExpLayerWm2, ExsectorEffW0, ExsectorEffW1, ExsectorEffW2, ExsectorEffWm1, ExsectorEffWm2, folderPath, GregD1R2, GregD1R3, GregD2R2, GregD2R3, GregD3R2, GregD3R3, GregDm1R2, GregDm1R3, GregDm2R2, GregDm2R3, GregDm3R2, GregDm3R3, rpcdqm::utils::labelXAxisSector(), rpcdqm::utils::labelXAxisSegment(), rpcdqm::utils::labelYAxisRing(), rpcdqm::utils::labelYAxisRoll(), ObsLayerW0, ObsLayerW1, ObsLayerW2, ObsLayerWm1, ObsLayerWm2, OcGregD1R2, OcGregD1R3, OcGregD2R2, OcGregD2R3, OcGregD3R2, OcGregD3R3, OcGregDm1R2, OcGregDm1R3, OcGregDm2R2, OcGregDm2R3, OcGregDm3R2, OcGregDm3R3, OcsectorEffW0, OcsectorEffW1, OcsectorEffW2, OcsectorEffWm1, OcsectorEffWm2, cppFunctionSkipper::operator, sectorEffW0, sectorEffW1, sectorEffW2, sectorEffWm1, sectorEffWm2, DQMStore::setCurrentFolder(), Wheel0Summary, Wheel1Summary, Wheel2Summary, Wheelm1Summary, and Wheelm2Summary.
{ dbe = edm::Service<DQMStore>().operator->(); // if(debug) std::cout<<"Booking Residuals Barrel"<<std::endl; // dbe->setCurrentFolder(folderPath+"ResidualsBarrel/"); //Barrel // hGlobal2ResClu1La1 = dbe->book1D("GlobalResidualsClu1La1","RPC Residuals Layer 1 Cluster Size 1",101,-10.,10.); // hGlobal2ResClu1La2 = dbe->book1D("GlobalResidualsClu1La2","RPC Residuals Layer 2 Cluster Size 1",101,-10.,10.); // hGlobal2ResClu1La3 = dbe->book1D("GlobalResidualsClu1La3","RPC Residuals Layer 3 Cluster Size 1",101,-10.,10.); // hGlobal2ResClu1La4 = dbe->book1D("GlobalResidualsClu1La4","RPC Residuals Layer 4 Cluster Size 1",101,-10.,10.); // hGlobal2ResClu1La5 = dbe->book1D("GlobalResidualsClu1La5","RPC Residuals Layer 5 Cluster Size 1",101,-10.,10.); // hGlobal2ResClu1La6 = dbe->book1D("GlobalResidualsClu1La6","RPC Residuals Layer 6 Cluster Size 1",101,-10.,10.); // hGlobal2ResClu2La1 = dbe->book1D("GlobalResidualsClu2La1","RPC Residuals Layer 1 Cluster Size 2",101,-10.,10.); // hGlobal2ResClu2La2 = dbe->book1D("GlobalResidualsClu2La2","RPC Residuals Layer 2 Cluster Size 2",101,-10.,10.); // hGlobal2ResClu2La3 = dbe->book1D("GlobalResidualsClu2La3","RPC Residuals Layer 3 Cluster Size 2",101,-10.,10.); // hGlobal2ResClu2La4 = dbe->book1D("GlobalResidualsClu2La4","RPC Residuals Layer 4 Cluster Size 2",101,-10.,10.); // hGlobal2ResClu2La5 = dbe->book1D("GlobalResidualsClu2La5","RPC Residuals Layer 5 Cluster Size 2",101,-10.,10.); // hGlobal2ResClu2La6 = dbe->book1D("GlobalResidualsClu2La6","RPC Residuals Layer 6 Cluster Size 2",101,-10.,10.); // hGlobal2ResClu3La1 = dbe->book1D("GlobalResidualsClu3La1","RPC Residuals Layer 1 Cluster Size 3",101,-10.,10.); // hGlobal2ResClu3La2 = dbe->book1D("GlobalResidualsClu3La2","RPC Residuals Layer 2 Cluster Size 3",101,-10.,10.); // hGlobal2ResClu3La3 = dbe->book1D("GlobalResidualsClu3La3","RPC Residuals Layer 3 Cluster Size 3",101,-10.,10.); // hGlobal2ResClu3La4 = dbe->book1D("GlobalResidualsClu3La4","RPC Residuals Layer 4 Cluster Size 3",101,-10.,10.); // hGlobal2ResClu3La5 = dbe->book1D("GlobalResidualsClu3La5","RPC Residuals Layer 5 Cluster Size 3",101,-10.,10.); // hGlobal2ResClu3La6 = dbe->book1D("GlobalResidualsClu3La6","RPC Residuals Layer 6 Cluster Size 3",101,-10.,10.); // if(debug) std::cout<<"Booking Residuals EndCaps"<<std::endl; // dbe->setCurrentFolder(folderPath+"ResidualsEndCaps/"); //Endcap // hGlobal2ResClu1R3C = dbe->book1D("GlobalResidualsClu1R3C","RPC Residuals Ring 3 Roll C Cluster Size 1",101,-10.,10.); // hGlobal2ResClu1R3B = dbe->book1D("GlobalResidualsClu1R3B","RPC Residuals Ring 3 Roll B Cluster Size 1",101,-10.,10.); // hGlobal2ResClu1R3A = dbe->book1D("GlobalResidualsClu1R3A","RPC Residuals Ring 3 Roll A Cluster Size 1",101,-10.,10.); // hGlobal2ResClu1R2C = dbe->book1D("GlobalResidualsClu1R2C","RPC Residuals Ring 2 Roll C Cluster Size 1",101,-10.,10.); // hGlobal2ResClu1R2B = dbe->book1D("GlobalResidualsClu1R2B","RPC Residuals Ring 2 Roll B Cluster Size 1",101,-10.,10.); // hGlobal2ResClu1R2A = dbe->book1D("GlobalResidualsClu1R2A","RPC Residuals Ring 2 Roll A Cluster Size 1",101,-10.,10.); // hGlobal2ResClu2R3C = dbe->book1D("GlobalResidualsClu2R3C","RPC Residuals Ring 3 Roll C Cluster Size 2",101,-10.,10.); // hGlobal2ResClu2R3B = dbe->book1D("GlobalResidualsClu2R3B","RPC Residuals Ring 3 Roll B Cluster Size 2",101,-10.,10.); // hGlobal2ResClu2R3A = dbe->book1D("GlobalResidualsClu2R3A","RPC Residuals Ring 3 Roll A Cluster Size 2",101,-10.,10.); // hGlobal2ResClu2R2C = dbe->book1D("GlobalResidualsClu2R2C","RPC Residuals Ring 2 Roll C Cluster Size 2",101,-10.,10.); // hGlobal2ResClu2R2B = dbe->book1D("GlobalResidualsClu2R2B","RPC Residuals Ring 2 Roll B Cluster Size 2",101,-10.,10.); // hGlobal2ResClu2R2A = dbe->book1D("GlobalResidualsClu2R2A","RPC Residuals Ring 2 Roll A Cluster Size 2",101,-10.,10.); // hGlobal2ResClu3R3C = dbe->book1D("GlobalResidualsClu3R3C","RPC Residuals Ring 3 Roll C Cluster Size 3",101,-10.,10.); // hGlobal2ResClu3R3B = dbe->book1D("GlobalResidualsClu3R3B","RPC Residuals Ring 3 Roll B Cluster Size 3",101,-10.,10.); // hGlobal2ResClu3R3A = dbe->book1D("GlobalResidualsClu3R3A","RPC Residuals Ring 3 Roll A Cluster Size 3",101,-10.,10.); // hGlobal2ResClu3R2C = dbe->book1D("GlobalResidualsClu3R2C","RPC Residuals Ring 2 Roll C Cluster Size 3",101,-10.,10.); // hGlobal2ResClu3R2B = dbe->book1D("GlobalResidualsClu3R2B","RPC Residuals Ring 2 Roll B Cluster Size 3",101,-10.,10.); // hGlobal2ResClu3R2A = dbe->book1D("GlobalResidualsClu3R2A","RPC Residuals Ring 2 Roll A Cluster Size 3",101,-10.,10.); // if(debug) std::cout<<"Booking EffDistros"<<std::endl; // dbe->setCurrentFolder(folderPath); // if(debug) std::cout<<"Booking statistics2"<<std::endl; // dbe->setCurrentFolder(folderPath); // statistics2 = dbe->book1D("AllStatistics","Analyzed Events DT and CSC Segments",33,0.5,33.5); //Barrel dbe->setCurrentFolder(folderPath+"Wheel_-2"); EffDistroWm2=dbe->book1D("EffDistroWheel_-2","Efficiency Distribution for Wheel -2 ",20,0.5,100.5); //EffDistroWm2far=dbe->book1D("EffDistroWheel_-2far","Efficiency Distribution for Far Side Wheel -2 ",20,0.5,100.5); EffGlobWm2=dbe->book1D("GlobEfficiencyWheel_-2","Efficiency Wheel -2 ",206,0.5,206.5); //EffGlobWm2far=dbe->book1D("GlobEfficiencyWheel_-2far","Efficiency Far Side Wheel -2",105,0.5,105.5); //BXGlobWm2= dbe->book1D("GlobBXWheel_-2near","BX Near Side Wheel -2",101,0.5,101.5); //BXGlobWm2far= dbe->book1D("GlobBXWheel_-2far","BX Far Side Wheel -2",105,0.5,105.5); //MaskedGlobWm2= dbe->book1D("GlobMaskedWheel_-2near","Masked Near Side Wheel -2",101,0.5,101.5); //MaskedGlobWm2far= dbe->book1D("GlobMaskedWheel_-2far","Masked Far Side Wheel -2",105,0.5,105.5); //AverageEffWm2=dbe->book1D("AverageEfficiencyWheel_-2near","Average Efficiency Near Side Wheel -2 ",101,0.5,101.5); //AverageEffWm2far =dbe->book1D("AverageEfficiencyWheel_-2far","Average Efficiency Far Side Wheel -2 ",105,0.5,105.5); //NoPredictionWm2=dbe->book1D("NoPredictionWheel_-2near","No Predictions Near Side Wheel -2 ",101,0.5,101.5); //NoPredictionWm2far=dbe->book1D("NoPredictionWheel_-2far","No Predictions Efficiency Far Side Wheel -2 ",105,0.5,105.5); dbe->setCurrentFolder(folderPath+"Wheel_-1"); EffDistroWm1=dbe->book1D("EffDistroWheel_-1","Efficiency Distribution for Wheel -1 ",20,0.5,100.5); //EffDistroWm1far=dbe->book1D("EffDistroWheel_-1far","Efficiency Distribution for Far Side Wheel -1 ",20,0.5,100.5); EffGlobWm1= dbe->book1D("GlobEfficiencyWheel_-1","Efficiency Wheel -1",206,0.5,206.5); //EffGlobWm1far=dbe->book1D("GlobEfficiencyWheel_-1far","Efficiency Far Side Wheel -1",105,0.5,105.5); //BXGlobWm1= dbe->book1D("GlobBXWheel_-1near","BX Near Side Wheel -1",101,0.5,101.5); //BXGlobWm1far= dbe->book1D("GlobBXWheel_-1far","BX Far Side Wheel -1",105,0.5,105.5); //MaskedGlobWm1= dbe->book1D("GlobMaskedWheel_-1near","Masked Near Side Wheel -1",101,0.5,101.5); //MaskedGlobWm1far= dbe->book1D("GlobMaskedWheel_-1far","Masked Far Side Wheel -1",105,0.5,105.5); //AverageEffWm1=dbe->book1D("AverageEfficiencyWheel_-1near","Average Efficiency Near Side Wheel -1 ",101,0.5,101.5); //AverageEffWm1far=dbe->book1D("AverageEfficiencyWheel_-1far","Average Efficiency Far Side Wheel -1 ",105,0.5,105.5); //NoPredictionWm1=dbe->book1D("NoPredictionWheel_-1near","No Predictions Near Side Wheel -1 ",101,0.5,101.5); //NoPredictionWm1far=dbe->book1D("NoPredictionWheel_-1far","No Predictions Efficiency Far Side Wheel -1 ",105,0.5,105.5); dbe->setCurrentFolder(folderPath+"Wheel_0"); EffDistroW0=dbe->book1D("EffDistroWheel_0","Efficiency Distribution for Wheel 0 ",20,0.5,100.5); //EffDistroW0far=dbe->book1D("EffDistroWheel_0far","Efficiency Distribution for Far Side Wheel 0 ",20,0.5,100.5); EffGlobW0 = dbe->book1D("GlobEfficiencyWheel_0","Efficiency Wheel 0",206,0.5,206.5); //EffGlobW0far =dbe->book1D("GlobEfficiencyWheel_0far","Efficiency Far Side Wheel 0",105,0.5,105.5); //BXGlobW0 = dbe->book1D("GlobBXWheel_0near","BX Near Side Wheel 0",101,0.5,101.5); //BXGlobW0far = dbe->book1D("GlobBXWheel_0far","BX Far Side Wheel 0",105,0.5,105.5); //MaskedGlobW0 = dbe->book1D("GlobMaskedWheel_0near","Masked Near Side Wheel 0",101,0.5,101.5); //MaskedGlobW0far = dbe->book1D("GlobMaskedWheel_0far","Masked Far Side Wheel 0",105,0.5,105.5); //AverageEffW0=dbe->book1D("AverageEfficiencyWheel_0near","Average Efficiency Near Side Wheel 0 ",101,0.5,101.5); //AverageEffW0far=dbe->book1D("AverageEfficiencyWheel_0far","Average Efficiency Far Side Wheel 0 ",105,0.5,105.5); //NoPredictionW0=dbe->book1D("NoPredictionWheel_0near","No Predictions Near Side Wheel 0 ",101,0.5,101.5); //NoPredictionW0far=dbe->book1D("NoPredictionWheel_0far","No Predictions Efficiency Far Side Wheel 0 ",105,0.5,105.5); dbe->setCurrentFolder(folderPath+"Wheel_1"); EffDistroW1=dbe->book1D("EffDistroWheel_1","Efficiency Distribution for Wheel 1 ",20,0.5,100.5); //EffDistroW1far=dbe->book1D("EffDistroWheel_1far","Efficiency Distribution for Far Side Wheel 1 ",20,0.5,100.5); EffGlobW1 = dbe->book1D("GlobEfficiencyWheel_1","Efficiency Wheel 1",206,0.5,206.5); //EffGlobW1far =dbe->book1D("GlobEfficiencyWheel_1far","Efficiency Far Side Wheel 1",105,0.5,105.5); //BXGlobW1 = dbe->book1D("GlobBXWheel_1near","BX Near Side Wheel 1",101,0.5,101.5); //BXGlobW1far = dbe->book1D("GlobBXWheel_1far","BX Far Side Wheel 1",105,0.5,105.5); //MaskedGlobW1 = dbe->book1D("GlobMaskedWheel_1near","Masked Near Side Wheel 1",101,0.5,101.5); //MaskedGlobW1far = dbe->book1D("GlobMaskedWheel_1far","Masked Far Side Wheel 1",105,0.5,105.5); //AverageEffW1=dbe->book1D("AverageEfficiencyWheel_1near","Average Efficiency Near Side Wheel 1 ",101,0.5,101.5); //AverageEffW1far=dbe->book1D("AverageEfficiencyWheel_1far","Average Efficiency Far Side Wheel 1 ",105,0.5,105.5); //NoPredictionW1=dbe->book1D("NoPredictionWheel_1near","No Predictions Near Side Wheel 1 ",101,0.5,101.5); //NoPredictionW1far=dbe->book1D("NoPredictionWheel_1far","No Predictions Efficiency Far Side Wheel 1 ",105,0.5,105.5); dbe->setCurrentFolder(folderPath+"Wheel_2"); EffDistroW2=dbe->book1D("EffDistroWheel_2","Efficiency Distribution for Wheel 2 ",20,0.5,100.5); //EffDistroW2far=dbe->book1D("EffDistroWheel_2far","Efficiency Distribution for Far Side Wheel 2 ",20,0.5,100.5); EffGlobW2 = dbe->book1D("GlobEfficiencyWheel_2","Efficiency Wheel 2",206,0.5,206.5); //EffGlobW2far =dbe->book1D("GlobEfficiencyWheel_2far","Efficiency Far Side Wheel 2",105,0.5,105.5); //BXGlobW2 = dbe->book1D("GlobBXWheel_2near","BX Near Side Wheel 2",101,0.5,101.5); //BXGlobW2far = dbe->book1D("GlobBXWheel_2far","BX Far Side Wheel 2",105,0.5,105.5); //MaskedGlobW2 = dbe->book1D("GlobMaskedWheel_2near","Masked Near Side Wheel 2",101,0.5,101.5); //MaskedGlobW2far = dbe->book1D("GlobMaskedWheel_2far","Masked Far Side Wheel 2",105,0.5,105.5); //AverageEffW2=dbe->book1D("AverageEfficiencyWheel_2near","Average Efficiency Near Side Wheel 2 ",101,0.5,101.5); //AverageEffW2far=dbe->book1D("AverageEfficiencyWheel_2far","Average Efficiency Far Side Wheel 2 ",105,0.5,105.5); //NoPredictionW2=dbe->book1D("NoPredictionWheel_2near","No Predictions Near Side Wheel 2 ",101,0.5,101.5); //NoPredictionW2far=dbe->book1D("NoPredictionWheel_2far","No Predictions Efficiency Far Side Wheel 2 ",105,0.5,105.5); //EndCap dbe->setCurrentFolder(folderPath+"Disk_3"); EffDistroD3=dbe->book1D("EffDistroDisk_3","Efficiency Distribution Disk 3 ",20,0.5,100.5); //EffDistroD3far=dbe->book1D("EffDistroDisk_3far","Efficiency Distribution Far Side Disk 3 ",20,0.5,100.5); EffGlobD3 = dbe->book1D("GlobEfficiencyDisk_3","Efficiency Disk 3",218,0.5,218.5); //EffGlobD3far =dbe->book1D("GlobEfficiencyDisk_3far","Efficiency Far Side Disk 3",109,0.5,109.5); //BXGlobD3 = dbe->book1D("GlobBXDisk_3near","BX Near Side Disk 3",109,0.5,109.5); //BXGlobD3far = dbe->book1D("GlobBXDisk_3far","BX Far Side Disk 3",109,0.5,109.5); //MaskedGlobD3 = dbe->book1D("GlobMaskedDisk_3near","Masked Near Side Disk 3",109,0.5,109.5); //MaskedGlobD3far = dbe->book1D("GlobMaskedDisk_3far","Masked Far Side Disk 3",109,0.5,109.5); //AverageEffD3=dbe->book1D("AverageEfficiencyDisk_3near","Average Efficiency Near Side Disk 3 ",109,0.5,109.5); //AverageEffD3far=dbe->book1D("AverageEfficiencyDisk_3far","Average Efficiency Far Side Disk 3 ",109,0.5,109.5); //NoPredictionD3=dbe->book1D("NoPredictionDisk_3near","No Predictions Near Side Disk 3 ",109,0.5,109.5); //NoPredictionD3far=dbe->book1D("NoPredictionDisk_3far","No Predictions Efficiency Far Side Disk 3 ",109,0.5,109.5); dbe->setCurrentFolder(folderPath+"Disk_2"); EffDistroD2=dbe->book1D("EffDistroDisk_2","Efficiency Distribution Disk 2 ",20,0.5,100.5); //EffDistroD2far=dbe->book1D("EffDistroDisk_2far","Efficiency Distribution Far Side Disk 2 ",20,0.5,100.5); EffGlobD2 = dbe->book1D("GlobEfficiencyDisk_2","Efficiency Disk 2",218,0.5,218.5); //EffGlobD2far =dbe->book1D("GlobEfficiencyDisk_2far","Efficiency Far Side Disk 2",109,0.5,109.5); //BXGlobD2 = dbe->book1D("GlobBXDisk_2near","BX Near Side Disk 2",109,0.5,109.5); //BXGlobD2far = dbe->book1D("GlobBXDisk_2far","BX Far Side Disk 2",109,0.5,109.5); //MaskedGlobD2 = dbe->book1D("GlobMaskedDisk_2near","Masked Near Side Disk 2",109,0.5,109.5); //MaskedGlobD2far = dbe->book1D("GlobMaskedDisk_2far","Masked Far Side Disk 2",109,0.5,109.5); //AverageEffD2=dbe->book1D("AverageEfficiencyDisk_2near","Average Efficiency Near Side Disk 2 ",109,0.5,109.5); //AverageEffD2far=dbe->book1D("AverageEfficiencyDisk_2far","Average Efficiency Far Side Disk 2 ",109,0.5,109.5); //NoPredictionD2=dbe->book1D("NoPredictionDisk_2near","No Predictions Near Side Disk 2 ",109,0.5,109.5); //NoPredictionD2far=dbe->book1D("NoPredictionDisk_2far","No Predictions Efficiency Far Side Disk 2 ",109,0.5,109.5); dbe->setCurrentFolder(folderPath+"Disk_1"); EffDistroD1=dbe->book1D("EffDistroDisk_1","Efficiency Distribution Disk 1 ",20,0.5,100.5); //EffDistroD1far=dbe->book1D("EffDistroDisk_1far","Efficiency Distribution Far Side Disk 1 ",20,0.5,100.5); EffGlobD1 = dbe->book1D("GlobEfficiencyDisk_1","Efficiency Disk 1",218,0.5,218.5); //EffGlobD1far =dbe->book1D("GlobEfficiencyDisk_1far","Efficiency Far Side Disk 1",109,0.5,109.5); //BXGlobD1 = dbe->book1D("GlobBXDisk_1near","BX Near Side Disk 1",109,0.5,109.5); //BXGlobD1far = dbe->book1D("GlobBXDisk_1far","BX Far Side Disk 1",109,0.5,109.5); //MaskedGlobD1 = dbe->book1D("GlobMaskedDisk_1near","Masked Near Side Disk 1",109,0.5,109.5); //MaskedGlobD1far = dbe->book1D("GlobMaskedDisk_1far","Masked Far Side Disk 1",109,0.5,109.5); //AverageEffD1=dbe->book1D("AverageEfficiencyDisk_1near","Average Efficiency Near Side Disk 1 ",109,0.5,109.5); //AverageEffD1far=dbe->book1D("AverageEfficiencyDisk_1far","Average Efficiency Far Side Disk 1 ",109,0.5,109.5); //NoPredictionD1=dbe->book1D("NoPredictionDisk_1near","No Predictions Near Side Disk 1 ",109,0.5,109.5); //NoPredictionD1far=dbe->book1D("NoPredictionDisk_1far","No Predictions Efficiency Far Side Disk 1 ",109,0.5,109.5); dbe->setCurrentFolder(folderPath+"Disk_-1"); EffDistroDm1=dbe->book1D("EffDistroDisk_m1","Efficiency Distribution Disk - 1 ",20,0.5,100.5); //EffDistroDm1far=dbe->book1D("EffDistroDisk_m1far","Efficiency Distribution Far Side Disk - 1 ",20,0.5,100.5); EffGlobDm1 = dbe->book1D("GlobEfficiencyDisk_m1","Efficiency Disk -1",218,0.5,218.5); //EffGlobDm1far =dbe->book1D("GlobEfficiencyDisk_m1far","Efficiency Far Side Disk -1",109,0.5,109.5); //BXGlobDm1 = dbe->book1D("GlobBXDisk_m1near","BX Near Side Disk -1",109,0.5,109.5); //BXGlobDm1far = dbe->book1D("GlobBXDisk_m1far","BX Far Side Disk -1",109,0.5,109.5); //MaskedGlobDm1 = dbe->book1D("GlobMaskedDisk_m1near","Masked Near Side Disk -1",109,0.5,109.5); //MaskedGlobDm1far = dbe->book1D("GlobMaskedDisk_m1far","Masked Far Side Disk -1",109,0.5,109.5); //AverageEffDm1=dbe->book1D("AverageEfficiencyDisk_m1near","Average Efficiency Near Side Disk -1 ",109,0.5,109.5); //AverageEffDm1far=dbe->book1D("AverageEfficiencyDisk_m1far","Average Efficiency Far Side Disk -1 ",109,0.5,109.5); //NoPredictionDm1=dbe->book1D("NoPredictionDisk_m1near","No Predictions Near Side Disk -1 ",109,0.5,109.5); //NoPredictionDm1far=dbe->book1D("NoPredictionDisk_m1far","No Predictions Efficiency Far Side Disk -1 ",109,0.5,109.5); dbe->setCurrentFolder(folderPath+"Disk_-2"); EffDistroDm2=dbe->book1D("EffDistroDisk_m2","Efficiency Distribution Disk - 2 ",20,0.5,100.5); //EffDistroDm2far=dbe->book1D("EffDistroDisk_m2far","Efficiency Distribution Far Side Disk - 2 ",20,0.5,100.5); EffGlobDm2 = dbe->book1D("GlobEfficiencyDisk_m2","Efficiency Disk -2",218,0.5,218.5); //EffGlobDm2far =dbe->book1D("GlobEfficiencyDisk_m2far","Efficiency Far Side Disk -2",109,0.5,109.5); //BXGlobDm2 = dbe->book1D("GlobBXDisk_m2near","BX Near Side Disk -2",109,0.5,109.5); //BXGlobDm2far = dbe->book1D("GlobBXDisk_m2far","BX Far Side Disk -2",109,0.5,109.5); //MaskedGlobDm2 = dbe->book1D("GlobMaskedDisk_m2near","Masked Near Side Disk -2",109,0.5,109.5); //MaskedGlobDm2far = dbe->book1D("GlobMaskedDisk_m2far","Masked Far Side Disk -2",109,0.5,109.5); //AverageEffDm2=dbe->book1D("AverageEfficiencyDisk_m2near","Average Efficiency Near Side Disk -2 ",109,0.5,109.5); //AverageEffDm2far=dbe->book1D("AverageEfficiencyDisk_m2far","Average Efficiency Far Side Disk -2 ",109,0.5,109.5); //NoPredictionDm2=dbe->book1D("NoPredictionDisk_m2near","No Predictions Near Side Disk -2 ",109,0.5,109.5); //NoPredictionDm2far=dbe->book1D("NoPredictionDisk_m2far","No Predictions Efficiency Far Side Disk -2 ",109,0.5,109.5); dbe->setCurrentFolder(folderPath+"Disk_-3"); EffDistroDm3=dbe->book1D("EffDistroDisk_m3","Efficiency Distribution Disk - 3 ",20,0.5,100.5); //EffDistroDm3far=dbe->book1D("EffDistroDisk_m3far","Efficiency Distribution Far Side Disk - 3 ",20,0.5,100.5); EffGlobDm3 = dbe->book1D("GlobEfficiencyDisk_m3","Efficiency Disk -3",218,0.5,218.5); //EffGlobDm3far =dbe->book1D("GlobEfficiencyDisk_m3far","Efficiency Far Side Disk -3",109,0.5,109.5); //BXGlobDm3 = dbe->book1D("GlobBXDisk_m3near","BX Near Side Disk -3",109,0.5,109.5); //BXGlobDm3far = dbe->book1D("GlobBXDisk_m3far","BX Far Side Disk -3",109,0.5,109.5); //MaskedGlobDm3 = dbe->book1D("GlobMaskedDisk_m3near","Masked Near Side Disk -3",109,0.5,109.5); //MaskedGlobDm3far = dbe->book1D("GlobMaskedDisk_m3far","Masked Far Side Disk -3",109,0.5,109.5); //AverageEffDm3=dbe->book1D("AverageEfficiencyDisk_m3near","Average Efficiency Near Side Disk -3 ",109,0.5,109.5); //AverageEffDm3far=dbe->book1D("AverageEfficiencyDisk_m3far","Average Efficiency Far Side Disk -3 ",109,0.5,109.5); //NoPredictionDm3=dbe->book1D("NoPredictionDisk_m3near","No Predictions Near Side Disk -3 ",109,0.5,109.5); //NoPredictionDm3far=dbe->book1D("NoPredictionDisk_m3far","No Predictions Efficiency Far Side Disk -3 ",109,0.5,109.5); //Summary Histograms dbe->setCurrentFolder(folderPath); std::string os; os="Efficiency_Roll_vs_Sector_Wheel_-2"; Wheelm2Summary = dbe->book2D(os, os, 12, 0.5,12.5, 21, 0.5, 21.5); os="Efficiency_Roll_vs_Sector_Wheel_-1"; Wheelm1Summary = dbe->book2D(os, os, 12, 0.5,12.5, 21, 0.5, 21.5); os="Efficiency_Roll_vs_Sector_Wheel_0"; Wheel0Summary = dbe->book2D(os, os, 12, 0.5,12.5, 21, 0.5, 21.5); os="Efficiency_Roll_vs_Sector_Wheel_+1"; Wheel1Summary = dbe->book2D(os, os, 12, 0.5,12.5, 21, 0.5, 21.5); os="Efficiency_Roll_vs_Sector_Wheel_+2"; Wheel2Summary = dbe->book2D(os, os, 12, 0.5,12.5, 21, 0.5, 21.5); rpcdqm::utils rpcUtils; rpcUtils.labelXAxisSector( Wheel2Summary ); rpcUtils.labelYAxisRoll( Wheel2Summary, 0, 2, true); rpcUtils.labelXAxisSector( Wheel1Summary ); rpcUtils.labelYAxisRoll( Wheel1Summary, 0, 1, true); rpcUtils.labelXAxisSector( Wheel0Summary ); rpcUtils.labelYAxisRoll( Wheel0Summary, 0, 0, true); rpcUtils.labelXAxisSector( Wheelm1Summary ); rpcUtils.labelYAxisRoll( Wheelm1Summary, 0, -1, true); rpcUtils.labelXAxisSector( Wheelm2Summary ); rpcUtils.labelYAxisRoll( Wheelm2Summary, 0, -2, true); os="Efficiency_Roll_vs_Segment_Disk_-3"; Diskm3Summary = dbe->book2D(os,os,36,0.5,36.5,6,0.5,6.5); os="Efficiency_Roll_vs_Segment_Disk_-2"; Diskm2Summary = dbe->book2D(os,os,36,0.5,36.5,6,0.5,6.5); os="Efficiency_Roll_vs_Segment_Disk_-1"; Diskm1Summary = dbe->book2D(os,os,36,0.5,36.5,6,0.5,6.5); os="Efficiency_Roll_vs_Segment_Disk_1"; Disk1Summary = dbe->book2D(os,os,36,0.5,36.5,6,0.5,6.5); os="Efficiency_Roll_vs_Segment_Disk_2"; Disk2Summary = dbe->book2D(os,os,36,0.5,36.5,6,0.5,6.5); os="Efficiency_Roll_vs_Segment_Disk_3"; Disk3Summary = dbe->book2D(os,os,36,0.5,36.5,6,0.5,6.5); rpcUtils.labelXAxisSegment(Diskm3Summary); rpcUtils.labelYAxisRing(Diskm3Summary, 2, true); rpcUtils.labelXAxisSegment(Diskm2Summary); rpcUtils.labelYAxisRing(Diskm2Summary, 2, true); rpcUtils.labelXAxisSegment(Diskm1Summary); rpcUtils.labelYAxisRing(Diskm1Summary, 2, true); rpcUtils.labelXAxisSegment(Disk1Summary); rpcUtils.labelYAxisRing(Disk1Summary, 2, true); rpcUtils.labelXAxisSegment(Disk2Summary); rpcUtils.labelYAxisRing(Disk2Summary, 2, true); rpcUtils.labelXAxisSegment(Disk3Summary); rpcUtils.labelYAxisRing(Disk3Summary, 2, true); //Azimutal Histograms dbe->setCurrentFolder(folderPath+"Azimutal/"); sectorEffWm2= dbe->book1D("AzimutalDistroWm2","Efficiency per Sector Wheel -2",12,0.5,12.5); sectorEffWm1= dbe->book1D("AzimutalDistroWm1","Efficiency per Sector Wheel -1",12,0.5,12.5); sectorEffW0= dbe->book1D("AzimutalDistroW0","Efficiency per Sector Wheel 0",12,0.5,12.5); sectorEffW1= dbe->book1D("AzimutalDistroW1","Efficiency per Sector Wheel 1",12,0.5,12.5); sectorEffW2= dbe->book1D("AzimutalDistroW2","Efficiency per Sector Wheel 2",12,0.5,12.5); OcsectorEffWm2= dbe->book1D("AzimutalDistroWm2Oc","Occupancy per Sector Wheel -2",12,0.5,12.5); OcsectorEffWm1= dbe->book1D("AzimutalDistroWm1Oc","Occupancy per Sector Wheel -1",12,0.5,12.5); OcsectorEffW0= dbe->book1D("AzimutalDistroW0Oc","Ocuppancy per Sector Wheel 0",12,0.5,12.5); OcsectorEffW1= dbe->book1D("AzimutalDistroW1Oc","Ocuppancy per Sector Wheel 1",12,0.5,12.5); OcsectorEffW2= dbe->book1D("AzimutalDistroW2Oc","Ocupancy per Sector Wheel 2",12,0.5,12.5); ExsectorEffWm2= dbe->book1D("AzimutalDistroWm2Ex","Expected per Sector Wheel -2",12,0.5,12.5); ExsectorEffWm1= dbe->book1D("AzimutalDistroWm1Ex","Expected per Sector Wheel -1",12,0.5,12.5); ExsectorEffW0= dbe->book1D("AzimutalDistroW0Ex","Expected per Sector Wheel 0",12,0.5,12.5); ExsectorEffW1= dbe->book1D("AzimutalDistroW1Ex","Expected per Sector Wheel 1",12,0.5,12.5); ExsectorEffW2= dbe->book1D("AzimutalDistroW2Ex","Expected per Sector Wheel 2",12,0.5,12.5); GregD1R2= dbe->book1D("GregDistroD1R2","Efficiency for Station 1 Ring 2",36,0.5,36.5); GregD1R3= dbe->book1D("GregDistroD1R3","Efficiency for Station 1 Ring 3",36,0.5,36.5); GregD2R2= dbe->book1D("GregDistroD2R2","Efficiency for Station 2 Ring 2",36,0.5,36.5); GregD2R3= dbe->book1D("GregDistroD2R3","Efficiency for Station 2 Ring 3",36,0.5,36.5); GregD3R2= dbe->book1D("GregDistroD3R2","Efficiency for Station 3 Ring 2",36,0.5,36.5); GregD3R3= dbe->book1D("GregDistroD3R3","Efficiency for Station 3 Ring 3",36,0.5,36.5); GregDm1R2= dbe->book1D("GregDistroDm1R2","Efficiency for Station -1 Ring 2",36,0.5,36.5); GregDm1R3= dbe->book1D("GregDistroDm1R3","Efficiency for Station -1 Ring 3",36,0.5,36.5); GregDm2R2= dbe->book1D("GregDistroDm2R2","Efficiency for Station -2 Ring 2",36,0.5,36.5); GregDm2R3= dbe->book1D("GregDistroDm2R3","Efficiency for Station -2 Ring 3",36,0.5,36.5); GregDm3R2= dbe->book1D("GregDistroDm3R2","Efficiency for Station -3 Ring 2",36,0.5,36.5); GregDm3R3= dbe->book1D("GregDistroDm3R3","Efficiency for Station -3 Ring 3",36,0.5,36.5); OcGregD1R2= dbe->book1D("OcGregDistroD1R2","Occupancy Distribution for Station 1 Ring 2",36,0.5,36.5); OcGregD1R3= dbe->book1D("OcGregDistroD1R3","Occupancy Distribution for Station 1 Ring 3",36,0.5,36.5); OcGregD2R2= dbe->book1D("OcGregDistroD2R2","Occupancy Distribution for Station 2 Ring 2",36,0.5,36.5); OcGregD2R3= dbe->book1D("OcGregDistroD2R3","Occupancy Distribution for Station 2 Ring 3",36,0.5,36.5); OcGregD3R2= dbe->book1D("OcGregDistroD3R2","Occupancy Distribution for Station 3 Ring 2",36,0.5,36.5); OcGregD3R3= dbe->book1D("OcGregDistroD3R3","Occupancy Distribution for Station 3 Ring 3",36,0.5,36.5); OcGregDm1R2= dbe->book1D("OcGregDistroDm1R2","Occupancy Distribution for Station -1 Ring 2",36,0.5,36.5); OcGregDm1R3= dbe->book1D("OcGregDistroDm1R3","Occupancy Distribution for Station -1 Ring 3",36,0.5,36.5); OcGregDm2R2= dbe->book1D("OcGregDistroDm2R2","Occupancy Distribution for Station -2 Ring 2",36,0.5,36.5); OcGregDm2R3= dbe->book1D("OcGregDistroDm2R3","Occupancy Distribution for Station -2 Ring 3",36,0.5,36.5); OcGregDm3R2= dbe->book1D("OcGregDistroDm3R2","Occupancy Distribution for Station -3 Ring 2",36,0.5,36.5); OcGregDm3R3= dbe->book1D("OcGregDistroDm3R3","Occupancy Distribution for Station -3 Ring 3",36,0.5,36.5); ExGregD1R2= dbe->book1D("ExGregDistroD1R2","Expected Distribution for Station 1 Ring 2",36,0.5,36.5); ExGregD1R3= dbe->book1D("ExGregDistroD1R3","Expected Distribution for Station 1 Ring 3",36,0.5,36.5); ExGregD2R2= dbe->book1D("ExGregDistroD2R2","Expected Distribution for Station 2 Ring 2",36,0.5,36.5); ExGregD2R3= dbe->book1D("ExGregDistroD2R3","Expected Distribution for Station 2 Ring 3",36,0.5,36.5); ExGregD3R2= dbe->book1D("ExGregDistroD3R2","Expected Distribution for Station 3 Ring 2",36,0.5,36.5); ExGregD3R3= dbe->book1D("ExGregDistroD3R3","Expected Distribution for Station 3 Ring 3",36,0.5,36.5); ExGregDm1R2= dbe->book1D("ExGregDistroDm1R2","Expected Distribution for Station -1 Ring 2",36,0.5,36.5); ExGregDm1R3= dbe->book1D("ExGregDistroDm1R3","Expected Distribution for Station -1 Ring 3",36,0.5,36.5); ExGregDm2R2= dbe->book1D("ExGregDistroDm2R2","Expected Distribution for Station -2 Ring 2",36,0.5,36.5); ExGregDm2R3= dbe->book1D("ExGregDistroDm2R3","Expected Distribution for Station -2 Ring 3",36,0.5,36.5); ExGregDm3R2= dbe->book1D("ExGregDistroDm3R2","Expected Distribution for Station -3 Ring 2",36,0.5,36.5); ExGregDm3R3= dbe->book1D("ExGregDistroDm3R3","Expected Distribution for Station -3 Ring 3",36,0.5,36.5); dbe->setCurrentFolder(folderPath+"BarrelPerLayer/"); ExpLayerWm2= dbe->book1D("ExpLayerWm2","Expected Wheel - 2",6,0.5,6.5); ExpLayerWm1= dbe->book1D("ExpLayerWm1","Expected Wheel - 1",6,0.5,6.5); ExpLayerW0= dbe->book1D("ExpLayerW0","Expected Wheel 0",6,0.5,6.5); ExpLayerW1= dbe->book1D("ExpLayerW1","Expected Wheel 1",6,0.5,6.5); ExpLayerW2= dbe->book1D("ExpLayerW2","Expected Wheel 2",6,0.5,6.5); ObsLayerWm2= dbe->book1D("ObsLayerWm2","Observed Wheel - 2",6,0.5,6.5); ObsLayerWm1= dbe->book1D("ObsLayerWm1","Observed Wheel - 1",6,0.5,6.5); ObsLayerW0= dbe->book1D("ObsLayerW0","Observed Wheel 0",6,0.5,6.5); ObsLayerW1= dbe->book1D("ObsLayerW1","Observed Wheel 1",6,0.5,6.5); ObsLayerW2= dbe->book1D("ObsLayerW2","Observed Wheel 2",6,0.5,6.5); }
std::map< std::string, MonitorElement * > RPCEfficiencySecond::bookDetUnitSeg | ( | RPCDetId & | detId, |
int | nstrips, | ||
std::string | folder | ||
) | [private] |
Definition at line 14 of file RPCEfficiencyBookSecondStep.cc.
References DQMStore::book1D(), dbe, RPCBookFolderStructure::folderStructure(), RPCGeomServ::name(), RPCDetId::region(), and DQMStore::setCurrentFolder().
{ std::map<std::string, MonitorElement*> meMap; RPCBookFolderStructure * folderStr = new RPCBookFolderStructure(); //Anna std::string folder = folderPath+ "RollByRoll/" + folderStr->folderStructure(detId); delete folderStr; dbe->setCurrentFolder(folder); RPCGeomServ RPCname(detId); std::string nameRoll = RPCname.name(); char detUnitLabel[128]; char layerLabel[128]; sprintf(detUnitLabel ,"%s",nameRoll.c_str()); sprintf(layerLabel ,"%s",nameRoll.c_str()); char meId [128]; char meTitle [128]; //Begin booking DT if(detId.region()==0) { //std::cout<<"Booking "<<folder<<meId<<std::endl; sprintf(meId,"ExpectedOccupancyFromDT_%s",detUnitLabel); sprintf(meTitle,"ExpectedOccupancyFromDT_for_%s",layerLabel); meMap[meId] = dbe->book1D(meId, meTitle, nstrips, 0.5, nstrips+0.5); //std::cout<<"Booking "<<meId<<std::endl; sprintf(meId,"RPCDataOccupancyFromDT_%s",detUnitLabel); sprintf(meTitle,"RPCDataOccupancyFromDT_for_%s",layerLabel); meMap[meId] = dbe->book1D(meId, meTitle, nstrips, 0.5, nstrips+0.5); sprintf(meId,"Profile_%s",detUnitLabel); sprintf(meTitle,"Profile_for_%s",layerLabel); meMap[meId] = dbe->book1D(meId, meTitle, nstrips, 0.5, nstrips+0.5); //std::cout<<"Booking "<<folder<<meId<<std::endl; // sprintf(meId,"BXDistribution_%s",detUnitLabel); // sprintf(meTitle,"BXDistribution_for_%s",layerLabel); // meMap[meId] = dbe->book1D(meId, meTitle, 11,-5.5, 5.5); }else{ //std::cout<<"Booking for the EndCap"<<detUnitLabel<<std::endl; //std::cout<<"Booking "<<meId<<std::endl; sprintf(meId,"ExpectedOccupancyFromCSC_%s",detUnitLabel); sprintf(meTitle,"ExpectedOccupancyFromCSC_for_%s",layerLabel); meMap[meId] = dbe->book1D(meId, meTitle, nstrips, 0.5, nstrips+0.5); //std::cout<<"Booking "<<meId<<std::endl; sprintf(meId,"RPCDataOccupancyFromCSC_%s",detUnitLabel); sprintf(meTitle,"RPCDataOccupancyFromCSC_for_%s",layerLabel); meMap[meId] = dbe->book1D(meId, meTitle, nstrips, 0.5, nstrips+0.5); //std::cout<<"Booking "<<meId<<std::endl; sprintf(meId,"Profile_%s",detUnitLabel); sprintf(meTitle,"Profile_for_%s",layerLabel); meMap[meId] = dbe->book1D(meId, meTitle, nstrips, 0.5, nstrips+0.5); // //std::cout<<"Booking "<<meId<<std::endl; // sprintf(meId,"BXDistribution_%s",detUnitLabel); // sprintf(meTitle,"BXDistribution_for_%s",layerLabel); // meMap[meId] = dbe->book1D(meId, meTitle, 11,-5.5, 5.5); } return meMap; }
void RPCEfficiencySecond::endJob | ( | void | ) | [private, virtual] |
void RPCEfficiencySecond::endRun | ( | const edm::Run & | r, |
const edm::EventSetup & | iSetup | ||
) | [private, virtual] |
Reimplemented from edm::EDAnalyzer.
Definition at line 393 of file RPCEfficiencySecond.cc.
References barrel, gather_cfg::cout, dbe, debug, rpcdqm::utils::detId2RollNr(), Disk1Summary, Disk2Summary, Disk3Summary, Diskm1Summary, Diskm2Summary, Diskm3Summary, interpolateCardsSimple::eff, EffDistroD1, EffDistroD2, EffDistroD3, EffDistroDm1, EffDistroDm2, EffDistroDm3, EffDistroW0, EffDistroW1, EffDistroW2, EffDistroWm1, EffDistroWm2, EffGlobD1, EffGlobD2, EffGlobD3, EffGlobDm1, EffGlobDm2, EffGlobDm3, EffGlobW0, EffGlobW1, EffGlobW2, EffGlobWm1, EffGlobWm2, endcap, ExGregD1R2, ExGregD1R3, ExGregD2R2, ExGregD2R3, ExGregD3R2, ExGregD3R3, ExGregDm1R2, ExGregDm1R3, ExGregDm2R2, ExGregDm2R3, ExGregDm3R2, ExGregDm3R3, ExpLayerW0, ExpLayerW1, ExpLayerW2, ExpLayerWm1, ExpLayerWm2, ExsectorEffW0, ExsectorEffW1, ExsectorEffW2, ExsectorEffWm1, ExsectorEffWm2, MonitorElement::Fill(), folderPath, edm::EventSetup::get(), DQMStore::get(), MonitorElement::getBinContent(), MonitorElement::getTH1F(), GregD1R2, GregD1R3, GregD2R2, GregD2R3, GregD3R2, GregD3R3, GregDm1R2, GregDm1R3, GregDm2R2, GregDm2R3, GregDm3R2, GregDm3R3, histoCSC, histoDT, histoRPC, i, j, gen::k, RPCDetId::layer(), meCollection, N, RPCGeomServ::name(), NameFile, python::connectstrParser::o, ObsLayerW0, ObsLayerW1, ObsLayerW2, ObsLayerWm1, ObsLayerWm2, OcGregD1R2, OcGregD1R3, OcGregD2R2, OcGregD2R3, OcGregD3R2, OcGregD3R3, OcGregDm1R2, OcGregDm1R3, OcGregDm2R2, OcGregDm2R3, OcGregDm3R2, OcGregDm3R3, OcsectorEffW0, OcsectorEffW1, OcsectorEffW2, OcsectorEffWm1, OcsectorEffWm2, AlCaHLTBitMon_ParallelJobs::p, alignCSCRings::r, DetId::rawId(), RPCDetId::region(), RPCDetId::ring(), RPCChamber::rolls(), DQMStore::save(), SaveFile, RPCDetId::sector(), sectorEffW0, sectorEffW1, sectorEffW2, sectorEffWm1, sectorEffWm2, RPCGeomServ::segment(), MonitorElement::setAxisRange(), MonitorElement::setAxisTitle(), MonitorElement::setBinContent(), MonitorElement::setBinError(), MonitorElement::setBinLabel(), RPCGeomServ::shortname(), mathSSE::sqrt(), RPCDetId::station(), Wheel0Summary, Wheel1Summary, Wheel2Summary, Wheelm1Summary, Wheelm2Summary, x, and detailsBasic3DVector::y.
{ if(debug) std::cout <<"\t Getting the RPC Geometry"<<std::endl; edm::ESHandle<RPCGeometry> rpcGeo; iSetup.get<MuonGeometryRecord>().get(rpcGeo); // std::string label,folder; // folder = folderPath; // label = folder + "MuonSegEff/Statistics"; // if(debug) std::cout<<"Getting statistcs="<<label<<std::endl; // statistics = dbe->get(label); // if(debug && !statistics){ // std::cout<<"Statistics Doesn't exist Not access to a monitor element"<<std::endl; // std::cout<<label<<std::endl; // edm::LogWarning("Missing rpcSource in the sequence") << " Statistics Doesn't exist."; // return; // } // if(debug) std::cout<<"Cloning statistcs"<<std::endl; // for(int i=1;i<=33;i++){ // if(debug) std::cout<<statistics->getBinContent(i)<<std::endl; // statistics2->setBinContent(i,statistics->getBinContent(i)); // } //Cloning Residuals. // folder = folderPath+"MuonSegEff/Residuals/Barrel/"; // label = folder + "GlobalResidualsClu1La1"; hGlobalResClu1La1 = dbe->get(label); // label = folder + "GlobalResidualsClu1La2"; hGlobalResClu1La2 = dbe->get(label); // label = folder + "GlobalResidualsClu1La3"; hGlobalResClu1La3 = dbe->get(label); // label = folder + "GlobalResidualsClu1La4"; hGlobalResClu1La4 = dbe->get(label); // label = folder + "GlobalResidualsClu1La5"; hGlobalResClu1La5 = dbe->get(label); // label = folder + "GlobalResidualsClu1La6"; hGlobalResClu1La6 = dbe->get(label); // label = folder + "GlobalResidualsClu2La1"; hGlobalResClu2La1 = dbe->get(label); // label = folder + "GlobalResidualsClu2La2"; hGlobalResClu2La2 = dbe->get(label); // label = folder + "GlobalResidualsClu2La3"; hGlobalResClu2La3 = dbe->get(label); // label = folder + "GlobalResidualsClu2La4"; hGlobalResClu2La4 = dbe->get(label); // label = folder + "GlobalResidualsClu2La5"; hGlobalResClu2La5 = dbe->get(label); // label = folder + "GlobalResidualsClu2La6"; hGlobalResClu2La6 = dbe->get(label); // label = folder + "GlobalResidualsClu3La1"; hGlobalResClu3La1 = dbe->get(label); // label = folder + "GlobalResidualsClu3La2"; hGlobalResClu3La2 = dbe->get(label); // label = folder + "GlobalResidualsClu3La3"; hGlobalResClu3La3 = dbe->get(label); // label = folder + "GlobalResidualsClu3La4"; hGlobalResClu3La4 = dbe->get(label); // label = folder + "GlobalResidualsClu3La5"; hGlobalResClu3La5 = dbe->get(label); // label = folder + "GlobalResidualsClu3La6"; hGlobalResClu3La6 = dbe->get(label); // if(debug) std::cout<<"Clonning for Barrel"<<std::endl; // for(int i=1;i<=101;i++){ // if(debug) std::cout<<"Global Residual"<<hGlobalResClu1La1->getBinContent(i)<<std::endl; // hGlobal2ResClu1La1->setBinContent(i,hGlobalResClu1La1->getBinContent(i)); // hGlobal2ResClu1La2->setBinContent(i,hGlobalResClu1La2->getBinContent(i)); // hGlobal2ResClu1La3->setBinContent(i,hGlobalResClu1La3->getBinContent(i)); // hGlobal2ResClu1La4->setBinContent(i,hGlobalResClu1La4->getBinContent(i)); // hGlobal2ResClu1La5->setBinContent(i,hGlobalResClu1La5->getBinContent(i)); // hGlobal2ResClu1La6->setBinContent(i,hGlobalResClu1La6->getBinContent(i)); // hGlobal2ResClu2La1->setBinContent(i,hGlobalResClu2La1->getBinContent(i)); // hGlobal2ResClu2La2->setBinContent(i,hGlobalResClu2La2->getBinContent(i)); // hGlobal2ResClu2La3->setBinContent(i,hGlobalResClu2La3->getBinContent(i)); // hGlobal2ResClu2La4->setBinContent(i,hGlobalResClu2La4->getBinContent(i)); // hGlobal2ResClu2La5->setBinContent(i,hGlobalResClu2La5->getBinContent(i)); // hGlobal2ResClu2La6->setBinContent(i,hGlobalResClu2La6->getBinContent(i)); // hGlobal2ResClu3La1->setBinContent(i,hGlobalResClu3La1->getBinContent(i)); // hGlobal2ResClu3La2->setBinContent(i,hGlobalResClu3La2->getBinContent(i)); // hGlobal2ResClu3La3->setBinContent(i,hGlobalResClu3La3->getBinContent(i)); // hGlobal2ResClu3La4->setBinContent(i,hGlobalResClu3La4->getBinContent(i)); // hGlobal2ResClu3La5->setBinContent(i,hGlobalResClu3La5->getBinContent(i)); // hGlobal2ResClu3La6->setBinContent(i,hGlobalResClu3La6->getBinContent(i)); // } // if(debug) std::cout<<"Clonning the EndCap"<<std::endl; // folder = folderPath+"MuonSegEff/Residuals/EndCap/"; // if(debug) std::cout<<folder<<std::endl; // label = folder + "GlobalResidualsClu1R3C"; hGlobalResClu1R3C = dbe->get(label); // //if(!hGlobalResClu1R3C)std::cout<<"hGlobal2ResClu1R3C dont exist"<<std::endl; // //std::cout<<label<<std::endl; // label = folder + "GlobalResidualsClu1R3B"; hGlobalResClu1R3B = dbe->get(label); // //if(!hGlobalResClu1R3B)std::cout<<"hGlobal2ResClu1R3B dont exist"<<std::endl; // //std::cout<<label<<std::endl; // label = folder + "GlobalResidualsClu1R3A"; hGlobalResClu1R3A = dbe->get(label); // label = folder + "GlobalResidualsClu1R2C"; hGlobalResClu1R2C = dbe->get(label); // label = folder + "GlobalResidualsClu1R2B"; hGlobalResClu1R2B = dbe->get(label); // label = folder + "GlobalResidualsClu1R2A"; hGlobalResClu1R2A = dbe->get(label); // label = folder + "GlobalResidualsClu2R3C"; hGlobalResClu2R3C = dbe->get(label); // label = folder + "GlobalResidualsClu2R3B"; hGlobalResClu2R3B = dbe->get(label); // label = folder + "GlobalResidualsClu2R3A"; hGlobalResClu2R3A = dbe->get(label); // label = folder + "GlobalResidualsClu2R2C"; hGlobalResClu2R2C = dbe->get(label); // label = folder + "GlobalResidualsClu2R2B"; hGlobalResClu2R2B = dbe->get(label); // label = folder + "GlobalResidualsClu2R2A"; hGlobalResClu2R2A = dbe->get(label); // label = folder + "GlobalResidualsClu3R3C"; hGlobalResClu3R3C = dbe->get(label); // label = folder + "GlobalResidualsClu3R3B"; hGlobalResClu3R3B = dbe->get(label); // label = folder + "GlobalResidualsClu3R3A"; hGlobalResClu3R3A = dbe->get(label); // label = folder + "GlobalResidualsClu3R2C"; hGlobalResClu3R2C = dbe->get(label); // label = folder + "GlobalResidualsClu3R2B"; hGlobalResClu3R2B = dbe->get(label); // label = folder + "GlobalResidualsClu3R2A"; hGlobalResClu3R2A = dbe->get(label); // if(debug) std::cout<<"Going for!"<<std::endl; /*for(int i=1;i<=101;i++){ if(debug) std::cout<<i<<std::endl; hGlobal2ResClu1R3C->setBinContent(i,hGlobalResClu1R3C->getBinContent(i)); std::cout<<"hGlobal2ResClu1R3C"<<std::endl; hGlobal2ResClu1R3B->setBinContent(i,hGlobalResClu1R3B->getBinContent(i)); std::cout<<"hGlobal2ResClu1R3B"<<std::endl; hGlobal2ResClu1R3A->setBinContent(i,hGlobalResClu1R3A->getBinContent(i)); std::cout<<"hGlobal2ResClu1R3A"<<std::endl; hGlobal2ResClu1R2C->setBinContent(i,hGlobalResClu1R2C->getBinContent(i)); std::cout<<"hGlobal2ResClu1R2C"<<std::endl; hGlobal2ResClu1R2B->setBinContent(i,hGlobalResClu1R2B->getBinContent(i)); std::cout<<"hGlobal2ResClu1R2B"<<std::endl; hGlobal2ResClu1R2A->setBinContent(i,hGlobalResClu1R2A->getBinContent(i)); std::cout<<"hGlobal2ResClu1R2A"<<std::endl; hGlobal2ResClu2R3C->setBinContent(i,hGlobalResClu2R3C->getBinContent(i)); std::cout<<"hGlobal2ResClu2R3C"<<std::endl; hGlobal2ResClu2R3B->setBinContent(i,hGlobalResClu2R3B->getBinContent(i)); std::cout<<"hGlobal2ResClu2R3B"<<std::endl; hGlobal2ResClu2R3A->setBinContent(i,hGlobalResClu2R3A->getBinContent(i)); std::cout<<"hGlobal2ResClu2R3A"<<std::endl; hGlobal2ResClu2R2C->setBinContent(i,hGlobalResClu2R2C->getBinContent(i)); std::cout<<"hGlobal2ResClu2R2C"<<std::endl; hGlobal2ResClu2R2B->setBinContent(i,hGlobalResClu2R2B->getBinContent(i)); std::cout<<"hGlobal2ResClu2R2B"<<std::endl; hGlobal2ResClu2R2A->setBinContent(i,hGlobalResClu2R2A->getBinContent(i)); std::cout<<"hGlobal2ResClu2R2A"<<std::endl; hGlobal2ResClu3R3C->setBinContent(i,hGlobalResClu3R3C->getBinContent(i)); std::cout<<"hGlobal2ResClu3R3C"<<std::endl; hGlobal2ResClu3R3B->setBinContent(i,hGlobalResClu3R3B->getBinContent(i)); std::cout<<"hGlobal2ResClu3R3B"<<std::endl; hGlobal2ResClu3R3A->setBinContent(i,hGlobalResClu3R3A->getBinContent(i)); std::cout<<"hGlobal2ResClu3R3A"<<std::endl; hGlobal2ResClu3R2C->setBinContent(i,hGlobalResClu3R2C->getBinContent(i)); std::cout<<"hGlobal2ResClu3R2C"<<std::endl; hGlobal2ResClu3R2B->setBinContent(i,hGlobalResClu3R2B->getBinContent(i)); std::cout<<"hGlobal2ResClu3R2B"<<std::endl; hGlobal2ResClu3R2A->setBinContent(i,hGlobalResClu3R2A->getBinContent(i)); std::cout<<"hGlobal2ResClu3R2A"<<std::endl; }*/ //Setting Labels in Summary Label. std::stringstream binLabel; if(debug) std::cout<<"Default -1 for Barrel GUI"<<std::endl; for(int x = 1;x<=12;x++){ for(int y = 1;y<=21;y++){ Wheelm2Summary->setBinContent(x,y,-1); Wheelm1Summary->setBinContent(x,y,-1); Wheel0Summary->setBinContent(x,y,-1); Wheel1Summary->setBinContent(x,y,-1); Wheel2Summary->setBinContent(x,y,-1); } } if(debug) std::cout<<"Default -1 for EndCap GUI"<<std::endl; for(int x = 1;x<=36;x++){ for(int y = 1;y<=6;y++){ Diskm3Summary->setBinContent(x,y,-1); Diskm2Summary->setBinContent(x,y,-1); Diskm1Summary->setBinContent(x,y,-1); Disk1Summary->setBinContent(x,y,-1); Disk2Summary->setBinContent(x,y,-1); Disk3Summary->setBinContent(x,y,-1); } } binLabel.str(""); int indexWheel[5]; for(int j=0;j<5;j++){ indexWheel[j]=0; } int indexWheelf[5]; for(int j=0;j<5;j++){ indexWheelf[j]=0; } int indexDisk[6]; for(int j=0;j<6;j++){ indexDisk[j]=0; } int indexDiskf[6]; for(int j=0;j<6;j++){ indexDiskf[j]=0; } // for(TrackingGeometry::DetContainer::const_iterator it=rpcGeo->dets().begin();it<rpcGeo->dets().end();it++){ // if(dynamic_cast< RPCChamber* >( *it ) != 0 ){ // RPCChamber* ch = dynamic_cast< RPCChamber* >( *it ); // std::vector< const RPCRoll*> roles = (ch->rolls()); // for(std::vector<const RPCRoll*>::const_iterator r = roles.begin();r != roles.end(); ++r){ // RPCDetId rpcId = (*r)->id(); // RPCGeomServ rpcsrv(rpcId); // std::string nameRoll = rpcsrv.name(); // if(debug) std::cout<<"Booking for "<<nameRoll<<std::endl; // meCollection[rpcId.rawId()] = bookDetUnitSeg(rpcId,(*r)->nstrips(),folderPath); // } // } // } //if(debug) dbe->showDirStructure(); for(TrackingGeometry::DetContainer::const_iterator it=rpcGeo->dets().begin();it<rpcGeo->dets().end();it++){ if(dynamic_cast< RPCChamber* >( *it ) != 0 ){ RPCChamber* ch = dynamic_cast< RPCChamber* >( *it ); std::vector< const RPCRoll*> roles = (ch->rolls()); for(std::vector<const RPCRoll*>::const_iterator r = roles.begin();r != roles.end(); ++r){ RPCDetId rpcId = (*r)->id(); RPCGeomServ rpcsrv(rpcId); // int sector = rpcId.sector(); std::string nameRoll = rpcsrv.name(); // std::map<std::string, MonitorElement*> meMap=meCollection[rpcId.rawId()]; // if(debug){ // std::map<std::string, MonitorElement*>::const_iterator it; // for (it = meMap.begin(); it != meMap.end(); ++it){ // std::cout<<"Histo name:" <<it->first<<std::endl; // } // } if(debug){ if(meCollection.find(rpcId.rawId())==meCollection.end()){ std::cout<<"WARNING!!! Empty RecHit collection map"<<std::endl; } std::cout<<rpcId<<std::endl; //printing indexes std::cout<<"indexWheel="; for(int j=0;j<5;j++){ std::cout<<indexWheel[j]<<" "; } std::cout<<std::endl; std::cout<<"indexWheelf="; for(int j=0;j<5;j++){ std::cout<<indexWheelf[j]<<" "; } std::cout<<std::endl; std::cout<<"indexDisk="; for(int j=0;j<6;j++){ std::cout<<indexDisk[j]<<" "; } std::cout<<std::endl; std::cout<<"indexDiskf="; for(int j=0;j<6;j++){ std::cout<<indexDiskf[j]<<" "; } std::cout<<std::endl; } if(rpcId.region()==0){ std::stringstream meIdRPC, meIdDT; //, bxDistroId; // std::string meIdPRO, // std::string meIdRPC2, meIdDT2; //, bxDistroId2; // RPCBookFolderStructure * folderStr = new RPCBookFolderStructure(); // std::string folder = folderPath+"MuonSegEff"; //if(debug) std::cout<<"Setting the folder "<<folder<<std::endl; meIdRPC<<folderPath<<"MuonSegEff/RPCDataOccupancyFromDT_"<<rpcId.rawId(); meIdDT<<folderPath<<"MuonSegEff/ExpectedOccupancyFromDT_"<<rpcId.rawId(); // bxDistroId<<folder<<"/BXDistribution_"<<rpcId.rawId(); // std::string folder2 = folderPath+"RollByRoll/" + folderStr->folderStructure(rpcId); // delete folderStr; // meIdRPC2 = "RPCDataOccupancyFromDT_" + rpcsrv.name(); // meIdDT2 = "ExpectedOccupancyFromDT_"+ rpcsrv.name(); // meIdPRO = "Profile_"+ rpcsrv.name(); histoRPC = dbe->get(meIdRPC.str()); histoDT = dbe->get(meIdDT.str()); // histoPRO = dbe->get(meIdPRO); int NumberWithOutPrediction=0; double p = 0.; double o = 0.; // float mybxhisto = 0.; // float mybxerror = 0.; float ef = 0.; float er = 0.; float buffef = 0.; float buffer = 0.; float sumbuffef = 0.; float sumbuffer = 0.; float averageeff = 0.; //float averageerr = 0.; int NumberStripsPointed = 0; if(histoRPC && histoDT){ // && BXDistribution){ if(debug) std::cout <<rpcsrv.name()<<std::endl; for(int i=1;i<=int((*r)->nstrips());++i){ if(histoDT->getBinContent(i)!=0){ if(debug) std::cout<<"Inside the If"<<std::endl; buffef = float(histoRPC->getBinContent(i))/float(histoDT->getBinContent(i)); // meMap[meIdPRO]->setBinContent(i,buffef); buffer = sqrt(buffef*(1.-buffef)/float(histoDT->getBinContent(i))); // meMap[meIdPRO]->setBinError(i,buffer); sumbuffef=sumbuffef+buffef; sumbuffer = sumbuffer + buffer*buffer; NumberStripsPointed++; }else{ NumberWithOutPrediction++; } if(debug) std::cout<<"\t Strip="<<i<<" RPC="<<histoRPC->getBinContent(i)<<" DT="<<histoDT->getBinContent(i)<<" buffef="<<buffef<<" buffer="<<buffer<<" sumbuffef="<<sumbuffef<<" sumbuffer="<<sumbuffer<<" NumberStripsPointed="<<NumberStripsPointed<<" NumberWithOutPrediction"<<NumberWithOutPrediction<<std::endl; } p=histoDT->getTH1F()->Integral(); o=histoRPC->getTH1F()->Integral(); if(NumberStripsPointed!=0){ averageeff = (sumbuffef/float(NumberStripsPointed))*100.; //averageerr = sqrt(sumbuffer/float(NumberStripsPointed))*100.; } } int Ring = rpcId.ring(); if(p!=0){ ef = float(o)/float(p); er = sqrt(ef*(1.-ef)/float(p)); } ef=ef*100; er=er*100; //Filling azimutal Wheel Histograms int wheel = rpcId.ring(); int sector = rpcId.sector(); int region = rpcId.region(); if(region ==0){ int layer = 0; if(rpcId.station()==1&&rpcId.layer()==1) layer = 1; else if(rpcId.station()==1&&rpcId.layer()==2) layer = 2; else if(rpcId.station()==2&&rpcId.layer()==1) layer = 3; else if(rpcId.station()==2&&rpcId.layer()==2) layer = 4; else if(rpcId.station()==3) layer = 5; else if(rpcId.station()==4) layer = 6; if(wheel==-2){ExsectorEffWm2->Fill(sector,p); OcsectorEffWm2->Fill(sector,o); ExpLayerWm2->Fill(layer, p); ObsLayerWm2->Fill(layer, o);} else if(wheel==-1){ExsectorEffWm1->Fill(sector,p); OcsectorEffWm1->Fill(sector,o); ExpLayerWm1->Fill(layer, p); ObsLayerWm1->Fill(layer, o);} else if(wheel==0){ExsectorEffW0->Fill(sector,p); OcsectorEffW0->Fill(sector,o); ExpLayerW0->Fill(layer, p); ObsLayerW0->Fill(layer, o);} else if(wheel==1){ExsectorEffW1->Fill(sector,p); OcsectorEffW1->Fill(sector,o); ExpLayerW1->Fill(layer, p); ObsLayerW1->Fill(layer, o);} else if(wheel==2){ExsectorEffW2->Fill(sector,p); OcsectorEffW2->Fill(sector,o); ExpLayerW2->Fill(layer, p); ObsLayerW2->Fill(layer, o);} } std::string camera = rpcsrv.name(); //float nopredictionsratio = (float(NumberWithOutPrediction)/float((*r)->nstrips()))*100.; //Efficiency for Pigis Histos if(debug) std::cout<<"Pigi "<<camera<<" "<<rpcsrv.shortname()<<" " <<(*r)->id()<<std::endl; if(p > 100){//We need at least 100 predictions to fill the summary plot int xBin,yBin; xBin= (*r)->id().sector(); rpcdqm::utils rollNumber; yBin = rollNumber.detId2RollNr((*r)->id()); if((*r)->id().ring()==2) Wheel2Summary->setBinContent(xBin,yBin,averageeff); else if((*r)->id().ring()==1) Wheel1Summary->setBinContent(xBin,yBin,averageeff); else if((*r)->id().ring()==0) Wheel0Summary->setBinContent(xBin,yBin,averageeff); else if((*r)->id().ring()==-1) Wheelm1Summary->setBinContent(xBin,yBin,averageeff); else if((*r)->id().ring()==-2) Wheelm2Summary->setBinContent(xBin,yBin,averageeff); } //Near Side //float maskedratio =0; // if((sector==1||sector==2||sector==3||sector==10||sector==11||sector==12)){ if(Ring==-2){ EffDistroWm2->Fill(averageeff); indexWheel[0]++; EffGlobWm2->setBinContent(indexWheel[0],ef); EffGlobWm2->setBinError(indexWheel[0],er); EffGlobWm2->setBinLabel(indexWheel[0],camera,1); // BXGlobWm2->setBinContent(indexWheel[0],mybxhisto); // BXGlobWm2->setBinError(indexWheel[0],mybxerror); // BXGlobWm2->setBinLabel(indexWheel[0],camera,1); // MaskedGlobWm2->setBinContent(indexWheel[0],maskedratio); // MaskedGlobWm2->setBinLabel(indexWheel[0],camera,1); // AverageEffWm2->setBinContent(indexWheel[0],averageeff); // AverageEffWm2->setBinError(indexWheel[0],averageerr); // AverageEffWm2->setBinLabel(indexWheel[0],camera,1); // NoPredictionWm2->setBinContent(indexWheel[0],nopredictionsratio); // NoPredictionWm2->setBinLabel(indexWheel[0],camera,1); }else if(Ring==-1){ EffDistroWm1->Fill(averageeff); indexWheel[1]++; EffGlobWm1->setBinContent(indexWheel[1],ef); EffGlobWm1->setBinError(indexWheel[1],er); EffGlobWm1->setBinLabel(indexWheel[1],camera,1); // BXGlobWm1->setBinContent(indexWheel[1],mybxhisto); // BXGlobWm1->setBinError(indexWheel[1],mybxerror); // BXGlobWm1->setBinLabel(indexWheel[1],camera,1); // MaskedGlobWm1->setBinContent(indexWheel[1],maskedratio); // MaskedGlobWm1->setBinLabel(indexWheel[1],camera,1); // AverageEffWm1->setBinContent(indexWheel[1],averageeff); // AverageEffWm1->setBinError(indexWheel[1],averageerr); // AverageEffWm1->setBinLabel(indexWheel[1],camera,1); // NoPredictionWm1->setBinContent(indexWheel[1],nopredictionsratio); // NoPredictionWm1->setBinLabel(indexWheel[1],camera,1); }else if(Ring==0){ EffDistroW0->Fill(averageeff); indexWheel[2]++; EffGlobW0->setBinContent(indexWheel[2],ef); EffGlobW0->setBinError(indexWheel[2],er); EffGlobW0->setBinLabel(indexWheel[2],camera,1); // BXGlobW0->setBinContent(indexWheel[2],mybxhisto); // BXGlobW0->setBinError(indexWheel[2],mybxerror); // BXGlobW0->setBinLabel(indexWheel[2],camera,1); // MaskedGlobW0->setBinContent(indexWheel[2],maskedratio); // MaskedGlobW0->setBinLabel(indexWheel[2],camera,1); // AverageEffW0->setBinContent(indexWheel[2],averageeff); // AverageEffW0->setBinError(indexWheel[2],averageerr); // AverageEffW0->setBinLabel(indexWheel[2],camera,1); // NoPredictionW0->setBinContent(indexWheel[2],nopredictionsratio); // NoPredictionW0->setBinLabel(indexWheel[2],camera,1); }else if(Ring==1){ EffDistroW1->Fill(averageeff); indexWheel[3]++; EffGlobW1->setBinContent(indexWheel[3],ef); EffGlobW1->setBinError(indexWheel[3],er); EffGlobW1->setBinLabel(indexWheel[3],camera,1); // BXGlobW1->setBinContent(indexWheel[3],mybxhisto); // BXGlobW1->setBinError(indexWheel[3],mybxerror); // BXGlobW1->setBinLabel(indexWheel[3],camera,1); // MaskedGlobW1->setBinContent(indexWheel[3],maskedratio); // MaskedGlobW1->setBinLabel(indexWheel[3],camera,1); // AverageEffW1->setBinContent(indexWheel[3],averageeff); // AverageEffW1->setBinError(indexWheel[3],averageerr); // AverageEffW1->setBinLabel(indexWheel[3],camera,1); // NoPredictionW1->setBinContent(indexWheel[3],nopredictionsratio); // NoPredictionW1->setBinLabel(indexWheel[3],camera,1); }else if(Ring==2){ EffDistroW2->Fill(averageeff); indexWheel[4]++; EffGlobW2->setBinContent(indexWheel[4],ef); EffGlobW2->setBinError(indexWheel[4],er); EffGlobW2->setBinLabel(indexWheel[4],camera,1); // BXGlobW2->setBinContent(indexWheel[4],mybxhisto); // BXGlobW2->setBinError(indexWheel[4],mybxerror); // BXGlobW2->setBinLabel(indexWheel[4],camera,1); // MaskedGlobW2->setBinContent(indexWheel[4],maskedratio); // MaskedGlobW2->setBinLabel(indexWheel[4],camera,1); // AverageEffW2->setBinContent(indexWheel[4],averageeff); // AverageEffW2->setBinError(indexWheel[4],averageerr); // AverageEffW2->setBinLabel(indexWheel[4],camera,1); // NoPredictionW2->setBinContent(indexWheel[4],nopredictionsratio); // NoPredictionW2->setBinLabel(indexWheel[4],camera,1); } /* }else{//Far Side if(Ring==-2){ EffDistroWm2far->Fill(averageeff); indexWheelf[0]++; EffGlobWm2far->setBinContent(indexWheelf[0],ef); EffGlobWm2far->setBinError(indexWheelf[0],er); EffGlobWm2far->setBinLabel(indexWheelf[0],camera,1); // BXGlobWm2far->setBinContent(indexWheelf[0],mybxhisto); // BXGlobWm2far->setBinError(indexWheelf[0],mybxerror); // BXGlobWm2far->setBinLabel(indexWheelf[0],camera); MaskedGlobWm2far->setBinContent(indexWheelf[0],maskedratio); MaskedGlobWm2far->setBinLabel(indexWheelf[0],camera,1); AverageEffWm2far->setBinContent(indexWheelf[0],averageeff); AverageEffWm2far->setBinError(indexWheelf[0],averageerr); AverageEffWm2far->setBinLabel(indexWheelf[0],camera,1); NoPredictionWm2->setBinContent(indexWheel[0],nopredictionsratio); NoPredictionWm2->setBinLabel(indexWheel[0],camera,1); }else if(Ring==-1){ EffDistroWm1far->Fill(averageeff); indexWheelf[1]++; EffGlobWm1far->setBinContent(indexWheelf[1],ef); EffGlobWm1far->setBinError(indexWheelf[1],er); EffGlobWm1far->setBinLabel(indexWheelf[1],camera,1); // BXGlobWm1far->setBinContent(indexWheelf[1],mybxhisto); // BXGlobWm1far->setBinError(indexWheelf[1],mybxerror); // BXGlobWm1far->setBinLabel(indexWheelf[1],camera,1); MaskedGlobWm1far->setBinContent(indexWheelf[1],maskedratio); MaskedGlobWm1far->setBinLabel(indexWheelf[1],camera,1); AverageEffWm1far->setBinContent(indexWheelf[1],averageeff); AverageEffWm1far->setBinError(indexWheelf[1],averageerr); AverageEffWm1far->setBinLabel(indexWheelf[1],camera,1); NoPredictionWm1far->setBinContent(indexWheelf[1],nopredictionsratio); NoPredictionWm1far->setBinLabel(indexWheelf[1],camera,1); }else if(Ring==0){ EffDistroW0far->Fill(averageeff); indexWheelf[2]++; EffGlobW0far->setBinContent(indexWheelf[2],ef); EffGlobW0far->setBinError(indexWheelf[2],er); EffGlobW0far->setBinLabel(indexWheelf[2],camera,1); // BXGlobW0far->setBinContent(indexWheelf[2],mybxhisto); // BXGlobW0far->setBinError(indexWheelf[2],mybxerror); // BXGlobW0far->setBinLabel(indexWheelf[2],camera,1); MaskedGlobW0far->setBinContent(indexWheelf[2],maskedratio); MaskedGlobW0far->setBinLabel(indexWheelf[2],camera,1); AverageEffW0far->setBinContent(indexWheelf[2],averageeff); AverageEffW0far->setBinError(indexWheelf[2],averageerr); AverageEffW0far->setBinLabel(indexWheelf[2],camera,1); NoPredictionW0far->setBinContent(indexWheelf[2],nopredictionsratio); NoPredictionW0far->setBinLabel(indexWheelf[2],camera,1); }else if(Ring==1){ EffDistroW1far->Fill(averageeff); indexWheelf[3]++; EffGlobW1far->setBinContent(indexWheelf[3],ef); EffGlobW1far->setBinError(indexWheelf[3],er); EffGlobW1far->setBinLabel(indexWheelf[3],camera,1); // BXGlobW1far->setBinContent(indexWheelf[3],mybxhisto); // BXGlobW1far->setBinError(indexWheelf[3],mybxerror); // BXGlobW1far->setBinLabel(indexWheelf[3],camera,1); MaskedGlobW1far->setBinContent(indexWheelf[3],maskedratio); MaskedGlobW1far->setBinLabel(indexWheelf[3],camera,1); AverageEffW1far->setBinContent(indexWheelf[3],averageeff); AverageEffW1far->setBinError(indexWheelf[3],averageerr); AverageEffW1far->setBinLabel(indexWheelf[3],camera,1); NoPredictionW1far->setBinContent(indexWheelf[3],nopredictionsratio); NoPredictionW1far->setBinLabel(indexWheelf[3],camera,1); }else if(Ring==2){ EffDistroW2far->Fill(averageeff); indexWheelf[4]++; EffGlobW2far->setBinContent(indexWheelf[4],ef); EffGlobW2far->setBinError(indexWheelf[4],er); EffGlobW2far->setBinLabel(indexWheelf[4],camera,1); // BXGlobW2far->setBinContent(indexWheelf[4],mybxhisto); // BXGlobW2far->setBinError(indexWheelf[4],mybxerror); // BXGlobW2far->setBinLabel(indexWheelf[4],camera,1); MaskedGlobW2far->setBinContent(indexWheelf[4],maskedratio); MaskedGlobW2far->setBinLabel(indexWheelf[4],camera,1); AverageEffW2far->setBinContent(indexWheelf[4],averageeff); AverageEffW2far->setBinError(indexWheelf[4],averageerr); AverageEffW2far->setBinLabel(indexWheelf[4],camera,1); NoPredictionW2far->setBinContent(indexWheelf[4],nopredictionsratio); NoPredictionW2far->setBinLabel(indexWheelf[4],camera,1); } }*/ }else{//EndCap std::stringstream meIdRPC,meIdCSC; //, bxDistroId; std::string meIdPRO; // std::string meIdRPC2, meIdCSC2; //, bxDistroId2; // RPCBookFolderStructure * folderStr = new RPCBookFolderStructure(); // std::string folder = folderPath+"MuonSegEff"; meIdRPC<<folderPath<<"MuonSegEff/RPCDataOccupancyFromCSC_"<<rpcId.rawId(); meIdCSC<<folderPath<<"MuonSegEff/ExpectedOccupancyFromCSC_"<<rpcId.rawId(); // bxDistroId<<folder<<"/BXDistribution_"<<rpcId.rawId(); // std::string folder2 = folderPath+"RollByRoll/" + folderStr->folderStructure(rpcId); // delete folderStr; // meIdRPC2 = "RPCDataOccupancyFromCSC_" + rpcsrv.name(); // meIdCSC2 = "ExpectedOccupancyFromCSC_"+ rpcsrv.name(); // bxDistroId2 = "BXDistribution_"+ rpcsrv.name(); meIdPRO = "Profile_"+ rpcsrv.name(); histoRPC= dbe->get(meIdRPC.str()); histoCSC= dbe->get(meIdCSC.str()); //BXDistribution = dbe->get(bxDistroId.str()); int NumberWithOutPrediction=0; double p = 0; double o = 0; // float mybxhisto = 0; //float mybxerror = 0; float ef =0; float er =0; float buffef = 0; float buffer = 0; float sumbuffef = 0; float sumbuffer = 0; float averageeff = 0; //float averageerr = 0; int NumberStripsPointed = 0; // if(debug) std::cout<<"Cloning BX"<<std::endl; // for(int i=1;i<=11;i++){ // if(debug) std::cout<<i<<"-"<<BXDistribution->getBinContent(i)<<std::endl; // meMap[bxDistroId2]->setBinContent(i,BXDistribution->getBinContent(i)); // } if(histoRPC && histoCSC) {// && BXDistribution){ if(debug) std::cout <<rpcsrv.name()<<std::endl; for(int i=1;i<=int((*r)->nstrips());++i){ // if(debug) std::cout<<"Cloning histoCSC "<<meIdCSC2<<std::endl; // meMap[meIdCSC2]->setBinContent(i,histoCSC->getBinContent(i)); // if(debug) std::cout<<"Cloning histoRPC:"<<meIdRPC2<<std::endl; // meMap[meIdRPC2]->setBinContent(i,histoRPC->getBinContent(i)); // if(meMap.find(meIdPRO)==meMap.end()){ // std::cout<<"Empty Map"<<std::endl; // } if(histoCSC->getBinContent(i)!=0){ if(debug) std::cout<<"Inside the If"<<std::endl; buffef = float(histoRPC->getBinContent(i))/float(histoCSC->getBinContent(i)); // meMap[meIdPRO]->setBinContent(i,buffef); buffer = sqrt(buffef*(1.-buffef)/float(histoCSC->getBinContent(i))); // meMap[meIdPRO]->setBinError(i,buffer); sumbuffef=sumbuffef+buffef; sumbuffer = sumbuffer + buffer*buffer; NumberStripsPointed++; }else{ NumberWithOutPrediction++; } if(debug) std::cout<<"\t Strip="<<i<<" RPC="<<histoRPC->getBinContent(i)<<" CSC="<<histoCSC->getBinContent(i)<<" buffef="<<buffef<<" buffer="<<buffer<<" sumbuffef="<<sumbuffef<<" sumbuffer="<<sumbuffer<<" NumberStripsPointed="<<NumberStripsPointed<<" NumberWithOutPrediction"<<NumberWithOutPrediction<<std::endl; } p=histoCSC->getTH1F()->Integral(); o=histoRPC->getTH1F()->Integral(); if(NumberStripsPointed!=0){ averageeff = (sumbuffef/float(NumberStripsPointed))*100.; //averageerr = sqrt(sumbuffer/float(NumberStripsPointed))*100.; } // mybxhisto = 50.+BXDistribution->getMean()*10; // mybxerror = BXDistribution->getRMS()*10; } int Disk = rpcId.station()*rpcId.region(); if(p!=0){ ef = float(o)/float(p); er = sqrt(ef*(1.-ef)/float(p)); } ef=ef*100; er=er*100; //Filling azimutal GregHistograms if(rpcId.region()==1){ if(rpcId.station()==1 && rpcId.ring()==2){ ExGregD1R2->Fill(rpcsrv.segment(),p);OcGregD1R2->Fill(rpcsrv.segment(),o);} else if(rpcId.station()==1 && rpcId.ring()==3){ ExGregD1R3->Fill(rpcsrv.segment(),p);OcGregD1R3->Fill(rpcsrv.segment(),o);} else if(rpcId.station()==2 && rpcId.ring()==2){ ExGregD2R2->Fill(rpcsrv.segment(),p);OcGregD2R2->Fill(rpcsrv.segment(),o);} else if(rpcId.station()==2 && rpcId.ring()==3){ ExGregD2R3->Fill(rpcsrv.segment(),p);OcGregD2R3->Fill(rpcsrv.segment(),o);} else if(rpcId.station()==3 && rpcId.ring()==2){ ExGregD3R2->Fill(rpcsrv.segment(),p);OcGregD3R2->Fill(rpcsrv.segment(),o);} else if(rpcId.station()==3 && rpcId.ring()==3){ ExGregD3R3->Fill(rpcsrv.segment(),p);OcGregD3R3->Fill(rpcsrv.segment(),o);} }else if(rpcId.region()==-1){ if(rpcId.station()==1 && rpcId.ring()==2){ ExGregDm1R2->Fill(rpcsrv.segment(),p);OcGregDm1R2->Fill(rpcsrv.segment(),o);} else if(rpcId.station()==1 && rpcId.ring()==3){ ExGregDm1R3->Fill(rpcsrv.segment(),p);OcGregDm1R3->Fill(rpcsrv.segment(),o);} else if(rpcId.station()==2 && rpcId.ring()==2){ ExGregDm2R2->Fill(rpcsrv.segment(),p);OcGregDm2R2->Fill(rpcsrv.segment(),o);} else if(rpcId.station()==2 && rpcId.ring()==3){ ExGregDm2R3->Fill(rpcsrv.segment(),p);OcGregDm2R3->Fill(rpcsrv.segment(),o);} else if(rpcId.station()==3 && rpcId.ring()==2){ ExGregDm3R2->Fill(rpcsrv.segment(),p);OcGregDm3R2->Fill(rpcsrv.segment(),o);} else if(rpcId.station()==3 && rpcId.ring()==3){ ExGregDm3R3->Fill(rpcsrv.segment(),p);OcGregDm3R3->Fill(rpcsrv.segment(),o);} } std::string camera = rpcsrv.name(); //float nopredictionsratio = (float(NumberWithOutPrediction)/float((*r)->nstrips()))*100.; //Efficiency for Pigis Histos if(debug) std::cout<<"Pigi "<<camera<<" "<<rpcsrv.shortname()<<" " <<(*r)->id()<<std::endl; if(p > 100){ //We need at least 100 predictions to fill the summary plot RPCGeomServ RPCServ((*r)->id()); int xBin = RPCServ.segment(); int yBin= ((*r)->id().ring()-1)*3-(*r)->id().roll()+1; if(Disk==-3) Diskm3Summary->setBinContent(xBin, yBin, averageeff); else if(Disk==-2) Diskm2Summary->setBinContent(xBin, yBin, averageeff); else if(Disk==-1) Diskm1Summary->setBinContent(xBin, yBin, averageeff); else if(Disk==1) Disk1Summary->setBinContent(xBin, yBin, averageeff); else if(Disk==2) Disk2Summary->setBinContent(xBin, yBin, averageeff); else if(Disk==3) Disk3Summary->setBinContent(xBin, yBin, averageeff); } //Near Side //float maskedratio =0; // if(sector==1||sector==2||sector==6){ if(Disk==-3){ EffDistroDm3->Fill(averageeff); indexDisk[0]++; EffGlobDm3->setBinContent(indexDisk[0],ef); EffGlobDm3->setBinError(indexDisk[0],er); EffGlobDm3->setBinLabel(indexDisk[0],camera,1); // BXGlobDm3->setBinContent(indexDisk[0],mybxhisto); // BXGlobDm3->setBinError(indexDisk[0],mybxerror); // BXGlobDm3->setBinLabel(indexDisk[0],camera,1); // MaskedGlobDm3->setBinContent(indexDisk[0],maskedratio); // MaskedGlobDm3->setBinLabel(indexDisk[0],camera,1); // AverageEffDm3->setBinContent(indexDisk[0],averageeff); // AverageEffDm3->setBinError(indexDisk[0],averageerr); // AverageEffDm3->setBinLabel(indexDisk[0],camera,1); // NoPredictionDm3->setBinContent(indexDisk[0],nopredictionsratio); // NoPredictionDm3->setBinLabel(indexDisk[0],camera,1); }else if(Disk==-2){ EffDistroDm2->Fill(averageeff); indexDisk[1]++; EffGlobDm2->setBinContent(indexDisk[1],ef); EffGlobDm2->setBinError(indexDisk[1],er); EffGlobDm2->setBinLabel(indexDisk[1],camera,1); // BXGlobDm2->setBinContent(indexDisk[1],mybxhisto); // BXGlobDm2->setBinError(indexDisk[1],mybxerror); // BXGlobDm2->setBinLabel(indexDisk[1],camera,1); // MaskedGlobDm2->setBinContent(indexDisk[1],maskedratio); // MaskedGlobDm2->setBinLabel(indexDisk[1],camera,1); // AverageEffDm2->setBinContent(indexDisk[1],averageeff); // AverageEffDm2->setBinError(indexDisk[1],averageerr); // AverageEffDm2->setBinLabel(indexDisk[1],camera,1); // NoPredictionDm2->setBinContent(indexDisk[1],nopredictionsratio); // NoPredictionDm2->setBinLabel(indexDisk[1],camera,1); }else if(Disk==-1){ EffDistroDm1->Fill(averageeff); indexDisk[2]++; EffGlobDm1->setBinContent(indexDisk[2],ef); EffGlobDm1->setBinError(indexDisk[2],er); EffGlobDm1->setBinLabel(indexDisk[2],camera,1); // BXGlobDm1->setBinContent(indexDisk[2],mybxhisto); // BXGlobDm1->setBinError(indexDisk[2],mybxerror); // BXGlobDm1->setBinLabel(indexDisk[2],camera,1); // MaskedGlobDm1->setBinContent(indexDisk[2],maskedratio); // MaskedGlobDm1->setBinLabel(indexDisk[2],camera,1); // AverageEffDm1->setBinContent(indexDisk[2],averageeff); // AverageEffDm1->setBinError(indexDisk[2],averageerr); // AverageEffDm1->setBinLabel(indexDisk[2],camera,1); // NoPredictionDm1->setBinContent(indexDisk[2],nopredictionsratio); // NoPredictionDm1->setBinLabel(indexDisk[2],camera,1); }else if(Disk==1){ EffDistroD1->Fill(averageeff); indexDisk[3]++; EffGlobD1->setBinContent(indexDisk[3],ef); EffGlobD1->setBinError(indexDisk[3],er); EffGlobD1->setBinLabel(indexDisk[3],camera,1); // BXGlobD1->setBinContent(indexDisk[3],mybxhisto); // BXGlobD1->setBinError(indexDisk[3],mybxerror); // BXGlobD1->setBinLabel(indexDisk[3],camera,1); // MaskedGlobD1->setBinContent(indexDisk[3],maskedratio); // MaskedGlobD1->setBinLabel(indexDisk[3],camera,1); // AverageEffD1->setBinContent(indexDisk[3],averageeff); // AverageEffD1->setBinError(indexDisk[3],averageerr); // AverageEffD1->setBinLabel(indexDisk[3],camera,1); // NoPredictionD1->setBinContent(indexDisk[3],nopredictionsratio); // NoPredictionD1->setBinLabel(indexDisk[3],camera,1); }else if(Disk==2){ EffDistroD2->Fill(averageeff); indexDisk[4]++; EffGlobD2->setBinContent(indexDisk[4],ef); EffGlobD2->setBinError(indexDisk[4],er); EffGlobD2->setBinLabel(indexDisk[4],camera,1); // BXGlobD2->setBinContent(indexDisk[4],mybxhisto); // BXGlobD2->setBinError(indexDisk[4],mybxerror); // BXGlobD2->setBinLabel(indexDisk[4],camera,1); // MaskedGlobD2->setBinContent(indexDisk[4],maskedratio); // MaskedGlobD2->setBinLabel(indexDisk[4],camera,1); // AverageEffD2->setBinContent(indexDisk[4],averageeff); // AverageEffD2->setBinError(indexDisk[4],averageerr); // AverageEffD2->setBinLabel(indexDisk[4],camera,1); // NoPredictionD2->setBinContent(indexDisk[4],nopredictionsratio); // NoPredictionD2->setBinLabel(indexDisk[4],camera,1); }else if(Disk==3){ EffDistroD3->Fill(averageeff); indexDisk[5]++; EffGlobD3->setBinContent(indexDisk[5],ef); EffGlobD3->setBinError(indexDisk[5],er); EffGlobD3->setBinLabel(indexDisk[5],camera,1); // BXGlobD3->setBinContent(indexDisk[5],mybxhisto); // BXGlobD3->setBinError(indexDisk[5],mybxerror); // BXGlobD3->setBinLabel(indexDisk[5],camera,1); // MaskedGlobD3->setBinContent(indexDisk[5],maskedratio); // MaskedGlobD3->setBinLabel(indexDisk[5],camera,1); // AverageEffD3->setBinContent(indexDisk[5],averageeff); // AverageEffD3->setBinError(indexDisk[5],averageerr); // AverageEffD3->setBinLabel(indexDisk[5],camera,1); // NoPredictionD3->setBinContent(indexDisk[5],nopredictionsratio); // NoPredictionD3->setBinLabel(indexDisk[5],camera,1); } /* }else{//Far Side if(Disk==-3){ EffDistroDm3far->Fill(averageeff); indexDiskf[0]++; EffGlobDm3far->setBinContent(indexDiskf[0],ef); EffGlobDm3far->setBinError(indexDiskf[0],er); EffGlobDm3far->setBinLabel(indexDiskf[0],camera,1); // BXGlobDm3far->setBinContent(indexDiskf[0],mybxhisto); // BXGlobDm3far->setBinError(indexDiskf[0],mybxerror); // BXGlobDm3far->setBinLabel(indexDiskf[0],camera); MaskedGlobDm3far->setBinContent(indexDiskf[0],maskedratio); MaskedGlobDm3far->setBinLabel(indexDiskf[0],camera,1); AverageEffDm3far->setBinContent(indexDiskf[0],averageeff); AverageEffDm3far->setBinError(indexDiskf[0],averageerr); AverageEffDm3far->setBinLabel(indexDiskf[0],camera,1); NoPredictionDm3->setBinContent(indexDisk[0],nopredictionsratio); NoPredictionDm3->setBinLabel(indexDisk[0],camera,1); } else if(Disk==-2){ EffDistroDm2far->Fill(averageeff); indexDiskf[1]++; EffGlobDm2far->setBinContent(indexDiskf[1],ef); EffGlobDm2far->setBinError(indexDiskf[1],er); EffGlobDm2far->setBinLabel(indexDiskf[1],camera,1); // BXGlobDm2far->setBinContent(indexDiskf[1],mybxhisto); // BXGlobDm2far->setBinError(indexDiskf[1],mybxerror); // BXGlobDm2far->setBinLabel(indexDiskf[1],camera); MaskedGlobDm2far->setBinContent(indexDiskf[1],maskedratio); MaskedGlobDm2far->setBinLabel(indexDiskf[1],camera,1); AverageEffDm2far->setBinContent(indexDiskf[1],averageeff); AverageEffDm2far->setBinError(indexDiskf[1],averageerr); AverageEffDm2far->setBinLabel(indexDiskf[1],camera,1); NoPredictionDm2->setBinContent(indexDisk[1],nopredictionsratio); NoPredictionDm2->setBinLabel(indexDisk[1],camera,1); }else if(Disk==-1){ EffDistroDm1far->Fill(averageeff); indexDiskf[2]++; EffGlobDm1far->setBinContent(indexDiskf[2],ef); EffGlobDm1far->setBinError(indexDiskf[2],er); EffGlobDm1far->setBinLabel(indexDiskf[2],camera,1); // BXGlobDm1far->setBinContent(indexDiskf[2],mybxhisto); // BXGlobDm1far->setBinError(indexDiskf[2],mybxerror); // BXGlobDm1far->setBinLabel(indexDiskf[2],camera,1); MaskedGlobDm1far->setBinContent(indexDiskf[2],maskedratio); MaskedGlobDm1far->setBinLabel(indexDiskf[2],camera,1); AverageEffDm1far->setBinContent(indexDiskf[2],averageeff); AverageEffDm1far->setBinError(indexDiskf[2],averageerr); AverageEffDm1far->setBinLabel(indexDiskf[2],camera,1); NoPredictionDm1far->setBinContent(indexDiskf[2],nopredictionsratio); NoPredictionDm1far->setBinLabel(indexDiskf[2],camera,1); }else if(Disk==1){ EffDistroD1far->Fill(averageeff); indexDiskf[3]++; EffGlobD1far->setBinContent(indexDiskf[3],ef); EffGlobD1far->setBinError(indexDiskf[3],er); EffGlobD1far->setBinLabel(indexDiskf[3],camera,1); // BXGlobD1far->setBinContent(indexDiskf[3],mybxhisto); // BXGlobD1far->setBinError(indexDiskf[3],mybxerror); // BXGlobD1far->setBinLabel(indexDiskf[3],camera,1); MaskedGlobD1far->setBinContent(indexDiskf[3],maskedratio); MaskedGlobD1far->setBinLabel(indexDiskf[3],camera,1); AverageEffD1far->setBinContent(indexDiskf[3],averageeff); AverageEffD1far->setBinError(indexDiskf[3],averageerr); AverageEffD1far->setBinLabel(indexDiskf[3],camera,1); NoPredictionD1far->setBinContent(indexDiskf[3],nopredictionsratio); NoPredictionD1far->setBinLabel(indexDiskf[3],camera,1); }else if(Disk==2){ EffDistroD2far->Fill(averageeff); indexDiskf[4]++; EffGlobD2far->setBinContent(indexDiskf[4],ef); EffGlobD2far->setBinError(indexDiskf[4],er); EffGlobD2far->setBinLabel(indexDiskf[4],camera,1); // BXGlobD2far->setBinContent(indexDiskf[4],mybxhisto); // BXGlobD2far->setBinError(indexDiskf[4],mybxerror); // BXGlobD2far->setBinLabel(indexDiskf[4],camera,1); MaskedGlobD2far->setBinContent(indexDiskf[4],maskedratio); MaskedGlobD2far->setBinLabel(indexDiskf[4],camera,1); AverageEffD2far->setBinContent(indexDiskf[4],averageeff); AverageEffD2far->setBinError(indexDiskf[4],averageerr); AverageEffD2far->setBinLabel(indexDiskf[4],camera,1); NoPredictionD2far->setBinContent(indexDiskf[4],nopredictionsratio); NoPredictionD2far->setBinLabel(indexDiskf[4],camera,1); }else if(Disk==3){ EffDistroD3far->Fill(averageeff); indexDiskf[5]++; EffGlobD3far->setBinContent(indexDiskf[5],ef); EffGlobD3far->setBinError(indexDiskf[5],er); EffGlobD3far->setBinLabel(indexDiskf[5],camera,1); // BXGlobD3far->setBinContent(indexDiskf[5],mybxhisto); // BXGlobD3far->setBinError(indexDiskf[5],mybxerror); // BXGlobD3far->setBinLabel(indexDiskf[5],camera,1); MaskedGlobD3far->setBinContent(indexDiskf[5],maskedratio); MaskedGlobD3far->setBinLabel(indexDiskf[5],camera,1); AverageEffD3far->setBinContent(indexDiskf[5],averageeff); AverageEffD3far->setBinError(indexDiskf[5],averageerr); AverageEffD3far->setBinLabel(indexDiskf[5],camera,1); NoPredictionD3far->setBinContent(indexDiskf[5],nopredictionsratio); NoPredictionD3far->setBinLabel(indexDiskf[5],camera,1); } }//Finishing EndCap*/ } } } } float eff,N,err; int k; for(k=1;k<=36;k++){ err=0; eff=0; N=ExGregD1R2->getBinContent(k); if(N!=0.){ eff = OcGregD1R2->getBinContent(k)/N; err=sqrt(eff*(1-eff)/N);} GregD1R2->setBinContent(k,eff); GregD1R2->setBinError(k,err); err=0; eff=0; N=ExGregD1R3->getBinContent(k); if(N!=0.){eff = OcGregD1R3->getBinContent(k)/N;err=sqrt(eff*(1-eff)/N);} GregD1R3->setBinContent(k,eff); GregD1R3->setBinError(k,err); err=0; eff=0; N=ExGregD2R2->getBinContent(k); if(N!=0.){ eff = OcGregD2R2->getBinContent(k)/N;err=sqrt(eff*(1-eff)/N);} GregD2R2->setBinContent(k,eff); GregD2R2->setBinError(k,err); err=0; eff=0; N=ExGregD2R3->getBinContent(k); if(N!=0.){ eff = OcGregD2R3->getBinContent(k)/N;err=sqrt(eff*(1-eff)/N);} GregD2R3->setBinContent(k,eff); GregD2R3->setBinError(k,err); err=0; eff=0; N=ExGregD3R2->getBinContent(k); if(N!=0.){ eff = OcGregD3R2->getBinContent(k)/N;err=sqrt(eff*(1-eff)/N);} GregD3R2->setBinContent(k,eff); GregD3R2->setBinError(k,err); err=0; eff=0; N=ExGregD3R3->getBinContent(k); if(N!=0.){ eff = OcGregD3R3->getBinContent(k)/N;err=sqrt(eff*(1-eff)/N);} GregD3R3->setBinContent(k,eff); GregD3R3->setBinError(k,err); err=0; eff=0; N=ExGregDm1R2->getBinContent(k); if(N!=0.){ eff = OcGregDm1R2->getBinContent(k)/N; err=sqrt(eff*(1-eff)/N);} GregDm1R2->setBinContent(k,eff); GregDm1R2->setBinError(k,err); err=0; eff=0; N=ExGregDm1R3->getBinContent(k); if(N!=0.){eff = OcGregDm1R3->getBinContent(k)/N;err=sqrt(eff*(1-eff)/N);} GregDm1R3->setBinContent(k,eff); GregDm1R3->setBinError(k,err); err=0; eff=0; N=ExGregDm2R2->getBinContent(k); if(N!=0.){ eff = OcGregDm2R2->getBinContent(k)/N;err=sqrt(eff*(1-eff)/N);} GregDm2R2->setBinContent(k,eff); GregDm2R2->setBinError(k,err); err=0; eff=0; N=ExGregDm2R3->getBinContent(k); if(N!=0.){ eff = OcGregDm2R3->getBinContent(k)/N;err=sqrt(eff*(1-eff)/N);} GregDm2R3->setBinContent(k,eff); GregDm2R3->setBinError(k,err); err=0; eff=0; N=ExGregDm3R2->getBinContent(k); if(N!=0.){ eff = OcGregDm3R2->getBinContent(k)/N;err=sqrt(eff*(1-eff)/N);} GregDm3R2->setBinContent(k,eff); GregDm3R2->setBinError(k,err); err=0; eff=0; N=ExGregDm3R3->getBinContent(k); if(N!=0.){ eff = OcGregDm3R3->getBinContent(k)/N;err=sqrt(eff*(1-eff)/N);} GregDm3R3->setBinContent(k,eff); GregDm3R3->setBinError(k,err); } for(k=1;k<=12;k++){ err=0; eff=0; N=ExsectorEffWm2->getBinContent(k); if(N!=0.){ eff = OcsectorEffWm2->getBinContent(k)/N;err=sqrt(eff*(1-eff)/N);} sectorEffWm2->setBinContent(k,eff); sectorEffWm2->setBinError(k,err); //std::cout<<N<<" "<<OcsectorEffWm2->getBinContent(k)<<" "<<eff<<" "<<err<<std::endl; err=0; eff=0; N=ExsectorEffWm1->getBinContent(k); if(N!=0.){ eff = OcsectorEffWm1->getBinContent(k)/N;err=sqrt(eff*(1-eff)/N);} sectorEffWm1->setBinContent(k,eff); sectorEffWm1->setBinError(k,err); //std::cout<<N<<" "<<OcsectorEffWm1->getBinContent(k)<<" "<<eff<<" "<<err<<std::endl; err=0; eff=0; N=ExsectorEffW0->getBinContent(k); if(N!=0.){ eff = OcsectorEffW0->getBinContent(k)/N;err=sqrt(eff*(1-eff)/N);} sectorEffW0->setBinContent(k,eff); sectorEffW0->setBinError(k,err); //std::cout<<N<<" "<<OcsectorEffW0->getBinContent(k)<<" "<<eff<<" "<<err<<std::endl; err=0; eff=0; N=ExsectorEffW1->getBinContent(k); if(N!=0.){ eff = OcsectorEffW1->getBinContent(k)/N;err=sqrt(eff*(1-eff)/N);} sectorEffW1->setBinContent(k,eff); sectorEffW1->setBinError(k,err); //std::cout<<N<<" "<<OcsectorEffW1->getBinContent(k)<<" "<<eff<<" "<<err<<std::endl; err=0; eff=0; N=ExsectorEffW2->getBinContent(k); if(N!=0.){ eff = OcsectorEffW2->getBinContent(k)/N;err=sqrt(eff*(1-eff)/N);} sectorEffW2->setBinContent(k,eff); sectorEffW2->setBinError(k,err); //std::cout<<N<<" "<<OcsectorEffW2->getBinContent(k)<<" "<<eff<<" "<<err<<std::endl; } //Ranges for Both //Barrel if(barrel){ EffGlobWm2->setAxisRange(-4.,100.,2); EffGlobWm1->setAxisRange(-4.,100.,2); EffGlobW0->setAxisRange(-4.,100.,2); EffGlobW1->setAxisRange(-4.,100.,2); EffGlobW2->setAxisRange(-4.,100.,2); // EffGlobWm2far->setAxisRange(-4.,100.,2); // EffGlobWm1far->setAxisRange(-4.,100.,2); // EffGlobW0far->setAxisRange(-4.,100.,2); // EffGlobW1far->setAxisRange(-4.,100.,2); // EffGlobW2far->setAxisRange(-4.,100.,2); // AverageEffWm2->setAxisRange(-4.,100.,2); // AverageEffWm1->setAxisRange(-4.,100.,2); // AverageEffW0->setAxisRange(-4.,100.,2); // AverageEffW1->setAxisRange(-4.,100.,2); // AverageEffW2->setAxisRange(-4.,100.,2); // AverageEffWm2far->setAxisRange(-4.,100.,2); // AverageEffWm1far->setAxisRange(-4.,100.,2); // AverageEffW0far->setAxisRange(-4.,100.,2); // AverageEffW1far->setAxisRange(-4.,100.,2); // AverageEffW2far->setAxisRange(-4.,100.,2); // MaskedGlobWm2->setAxisRange(-4.,100.,2); // MaskedGlobWm1->setAxisRange(-4.,100.,2); // MaskedGlobW0->setAxisRange(-4.,100.,2); // MaskedGlobW1->setAxisRange(-4.,100.,2); // MaskedGlobW2->setAxisRange(-4.,100.,2); // MaskedGlobWm2far->setAxisRange(-4.,100.,2); // MaskedGlobWm1far->setAxisRange(-4.,100.,2); // MaskedGlobW0far->setAxisRange(-4.,100.,2); // MaskedGlobW1far->setAxisRange(-4.,100.,2); // MaskedGlobW2far->setAxisRange(-4.,100.,2); // NoPredictionWm2->setAxisRange(-4.,100.,2); // NoPredictionWm1->setAxisRange(-4.,100.,2); // NoPredictionW0->setAxisRange(-4.,100.,2); // NoPredictionW1->setAxisRange(-4.,100.,2); // NoPredictionW2->setAxisRange(-4.,100.,2); // NoPredictionWm2far->setAxisRange(-4.,100.,2); // NoPredictionWm1far->setAxisRange(-4.,100.,2); // NoPredictionW0far->setAxisRange(-4.,100.,2); // NoPredictionW1far->setAxisRange(-4.,100.,2); // NoPredictionW2far->setAxisRange(-4.,100.,2); } //EndCap if(endcap){ EffGlobDm3->setAxisRange(-4.,100.,2); EffGlobDm2->setAxisRange(-4.,100.,2); EffGlobDm1->setAxisRange(-4.,100.,2); EffGlobD1->setAxisRange(-4.,100.,2); EffGlobD2->setAxisRange(-4.,100.,2); EffGlobD3->setAxisRange(-4.,100.,2); // EffGlobDm3far->setAxisRange(-4.,100.,2); // EffGlobDm2far->setAxisRange(-4.,100.,2); // EffGlobDm1far->setAxisRange(-4.,100.,2); // EffGlobD1far->setAxisRange(-4.,100.,2); // EffGlobD2far->setAxisRange(-4.,100.,2); // EffGlobD3far->setAxisRange(-4.,100.,2); // BXGlobDm3->setAxisRange(-4.,100.,2); // BXGlobDm2->setAxisRange(-4.,100.,2); // BXGlobDm1->setAxisRange(-4.,100.,2); // BXGlobD1->setAxisRange(-4.,100.,2); // BXGlobD2->setAxisRange(-4.,100.,2); // BXGlobD3->setAxisRange(-4.,100.,2); // BXGlobDm3far->setAxisRange(-4.,100.,2); // BXGlobDm2far->setAxisRange(-4.,100.,2); // BXGlobDm1far->setAxisRange(-4.,100.,2); // BXGlobD1far->setAxisRange(-4.,100.,2); // BXGlobD2far->setAxisRange(-4.,100.,2); // BXGlobD3far->setAxisRange(-4.,100.,2); // MaskedGlobDm3->setAxisRange(-4.,100.,2); // MaskedGlobDm2->setAxisRange(-4.,100.,2); // MaskedGlobDm1->setAxisRange(-4.,100.,2); // MaskedGlobD1->setAxisRange(-4.,100.,2); // MaskedGlobD2->setAxisRange(-4.,100.,2); // MaskedGlobD3->setAxisRange(-4.,100.,2); // MaskedGlobDm3far->setAxisRange(-4.,100.,2); // MaskedGlobDm2far->setAxisRange(-4.,100.,2); // MaskedGlobDm1far->setAxisRange(-4.,100.,2); // MaskedGlobD1far->setAxisRange(-4.,100.,2); // MaskedGlobD2far->setAxisRange(-4.,100.,2); // MaskedGlobD3far->setAxisRange(-4.,100.,2); // AverageEffDm3->setAxisRange(-4.,100.,2); // AverageEffDm2->setAxisRange(-4.,100.,2); // AverageEffDm1->setAxisRange(-4.,100.,2); // AverageEffD1->setAxisRange(-4.,100.,2); // AverageEffD2->setAxisRange(-4.,100.,2); // AverageEffD3->setAxisRange(-4.,100.,2); // AverageEffDm3far->setAxisRange(-4.,100.,2); // AverageEffDm2far->setAxisRange(-4.,100.,2); // AverageEffDm1far->setAxisRange(-4.,100.,2); // AverageEffD1far->setAxisRange(-4.,100.,2); // AverageEffD2far->setAxisRange(-4.,100.,2); // AverageEffD3far->setAxisRange(-4.,100.,2); // NoPredictionDm3->setAxisRange(-4.,100.,2); // NoPredictionDm2->setAxisRange(-4.,100.,2); // NoPredictionDm1->setAxisRange(-4.,100.,2); // NoPredictionD1->setAxisRange(-4.,100.,2); // NoPredictionD2->setAxisRange(-4.,100.,2); // NoPredictionD3->setAxisRange(-4.,100.,2); // NoPredictionDm3far->setAxisRange(-4.,100.,2); // NoPredictionDm2far->setAxisRange(-4.,100.,2); // NoPredictionDm1far->setAxisRange(-4.,100.,2); // NoPredictionD1far->setAxisRange(-4.,100.,2); // NoPredictionD2far->setAxisRange(-4.,100.,2); // NoPredictionD3far->setAxisRange(-4.,100.,2); } //Title for Both //Barrel if(barrel){ EffGlobWm2->setAxisTitle("%",2); EffGlobWm1->setAxisTitle("%",2); EffGlobW0->setAxisTitle("%",2); EffGlobW1->setAxisTitle("%",2); EffGlobW2->setAxisTitle("%",2); // EffGlobWm2far->setAxisTitle("%",2); // EffGlobWm1far->setAxisTitle("%",2); // EffGlobW0far->setAxisTitle("%",2); // EffGlobW1far->setAxisTitle("%",2); // EffGlobW2far->setAxisTitle("%",2); // AverageEffWm2->setAxisTitle("%",2); // AverageEffWm1->setAxisTitle("%",2); // AverageEffW0->setAxisTitle("%",2); // AverageEffW1->setAxisTitle("%",2); // AverageEffW2->setAxisTitle("%",2); // AverageEffWm2far->setAxisTitle("%",2); // AverageEffWm1far->setAxisTitle("%",2); // AverageEffW0far->setAxisTitle("%",2); // AverageEffW1far->setAxisTitle("%",2); // AverageEffW2far->setAxisTitle("%",2); // MaskedGlobWm2->setAxisTitle("%",2); // MaskedGlobWm1->setAxisTitle("%",2); // MaskedGlobW0->setAxisTitle("%",2); // MaskedGlobW1->setAxisTitle("%",2); // MaskedGlobW2->setAxisTitle("%",2); // MaskedGlobWm2far->setAxisTitle("%",2); // MaskedGlobWm1far->setAxisTitle("%",2); // MaskedGlobW0far->setAxisTitle("%",2); // MaskedGlobW1far->setAxisTitle("%",2); // MaskedGlobW2far->setAxisTitle("%",2); // NoPredictionWm2->setAxisTitle("%",2); // NoPredictionWm1->setAxisTitle("%",2); // NoPredictionW0->setAxisTitle("%",2); // NoPredictionW1->setAxisTitle("%",2); // NoPredictionW2->setAxisTitle("%",2); // NoPredictionWm2far->setAxisTitle("%",2); // NoPredictionWm1far->setAxisTitle("%",2); // NoPredictionW0far->setAxisTitle("%",2); // NoPredictionW1far->setAxisTitle("%",2); // NoPredictionW2far->setAxisTitle("%",2); } //EndCap if(endcap){ EffGlobDm3->setAxisTitle("%",2); EffGlobDm2->setAxisTitle("%",2); EffGlobDm1->setAxisTitle("%",2); EffGlobD1->setAxisTitle("%",2); EffGlobD2->setAxisTitle("%",2); EffGlobD3->setAxisTitle("%",2); // EffGlobDm3far->setAxisTitle("%",2); // EffGlobDm2far->setAxisTitle("%",2); // EffGlobDm1far->setAxisTitle("%",2); // EffGlobD1far->setAxisTitle("%",2); // EffGlobD2far->setAxisTitle("%",2); // EffGlobD3far->setAxisTitle("%",2); // BXGlobDm3->setAxisTitle("%",2); // BXGlobDm2->setAxisTitle("%",2); // BXGlobDm1->setAxisTitle("%",2); // BXGlobD1->setAxisTitle("%",2); // BXGlobD2->setAxisTitle("%",2); // BXGlobD3->setAxisTitle("%",2); // BXGlobDm3far->setAxisTitle("%",2); // BXGlobDm2far->setAxisTitle("%",2); // BXGlobDm1far->setAxisTitle("%",2); // BXGlobD1far->setAxisTitle("%",2); // BXGlobD2far->setAxisTitle("%",2); // BXGlobD3far->setAxisTitle("%",2); // MaskedGlobDm3->setAxisTitle("%",2); // MaskedGlobDm2->setAxisTitle("%",2); // MaskedGlobDm1->setAxisTitle("%",2); // MaskedGlobD1->setAxisTitle("%",2); // MaskedGlobD2->setAxisTitle("%",2); // MaskedGlobD3->setAxisTitle("%",2); // MaskedGlobDm3far->setAxisTitle("%",2); // MaskedGlobDm2far->setAxisTitle("%",2); // MaskedGlobDm1far->setAxisTitle("%",2); // MaskedGlobD1far->setAxisTitle("%",2); // MaskedGlobD2far->setAxisTitle("%",2); // MaskedGlobD3far->setAxisTitle("%",2); // AverageEffDm3->setAxisTitle("%",2); // AverageEffDm2->setAxisTitle("%",2); // AverageEffDm1->setAxisTitle("%",2); // AverageEffD1->setAxisTitle("%",2); // AverageEffD2->setAxisTitle("%",2); // AverageEffD3->setAxisTitle("%",2); // AverageEffDm3far->setAxisTitle("%",2); // AverageEffDm2far->setAxisTitle("%",2); // AverageEffDm1far->setAxisTitle("%",2); // AverageEffD1far->setAxisTitle("%",2); // AverageEffD2far->setAxisTitle("%",2); // AverageEffD3far->setAxisTitle("%",2); // NoPredictionDm3->setAxisTitle("%",2); // NoPredictionDm2->setAxisTitle("%",2); // NoPredictionDm1->setAxisTitle("%",2); // NoPredictionD1->setAxisTitle("%",2); // NoPredictionD2->setAxisTitle("%",2); // NoPredictionD3->setAxisTitle("%",2); // NoPredictionDm3far->setAxisTitle("%",2); // NoPredictionDm2far->setAxisTitle("%",2); // NoPredictionDm1far->setAxisTitle("%",2); // NoPredictionD1far->setAxisTitle("%",2); // NoPredictionD2far->setAxisTitle("%",2); // NoPredictionD3far->setAxisTitle("%",2); } if(SaveFile){ std::cout<<"Saving RootFile"<<std::endl; dbe->save(NameFile); } if(debug) std::cout<<"RPCEFFICIENCY SECOND DONE"<<std::endl; }
int RPCEfficiencySecond::rollY | ( | std::string | shortname, |
std::vector< std::string > | rollNames | ||
) |
bool RPCEfficiencySecond::barrel [private] |
Definition at line 426 of file RPCEfficiencySecond.h.
Referenced by endRun(), and RPCEfficiencySecond().
DQMStore* RPCEfficiencySecond::dbe [private] |
Definition at line 431 of file RPCEfficiencySecond.h.
Referenced by beginRun(), bookDetUnitSeg(), and endRun().
bool RPCEfficiencySecond::debug [private] |
Definition at line 424 of file RPCEfficiencySecond.h.
Referenced by endRun(), and RPCEfficiencySecond().
Definition at line 338 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 339 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 340 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 337 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 336 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 335 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 317 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 318 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 319 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 316 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 315 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 314 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 226 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 227 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 228 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 225 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 224 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 242 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 243 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 244 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 241 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 240 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 239 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 161 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 162 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 163 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 160 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 159 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
bool RPCEfficiencySecond::endcap [private] |
Definition at line 425 of file RPCEfficiencySecond.h.
Referenced by endRun(), and RPCEfficiencySecond().
Definition at line 388 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 389 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 390 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 391 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 392 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 393 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 394 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 395 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 396 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 397 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 398 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 399 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 403 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 404 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 405 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 402 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 401 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 358 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 359 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 360 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 357 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 356 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
std::string RPCEfficiencySecond::folderPath [private] |
Definition at line 429 of file RPCEfficiencySecond.h.
Referenced by beginRun(), endRun(), and RPCEfficiencySecond().
Definition at line 362 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 363 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 364 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 365 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 366 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 367 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 368 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 369 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 370 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 371 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 372 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 373 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 143 of file RPCEfficiencySecond.h.
Referenced by endRun().
Definition at line 154 of file RPCEfficiencySecond.h.
Definition at line 141 of file RPCEfficiencySecond.h.
Referenced by endRun().
Definition at line 152 of file RPCEfficiencySecond.h.
Definition at line 148 of file RPCEfficiencySecond.h.
Definition at line 147 of file RPCEfficiencySecond.h.
Definition at line 146 of file RPCEfficiencySecond.h.
Definition at line 142 of file RPCEfficiencySecond.h.
Definition at line 153 of file RPCEfficiencySecond.h.
Definition at line 140 of file RPCEfficiencySecond.h.
Referenced by endRun().
Definition at line 151 of file RPCEfficiencySecond.h.
std::map<int, std::map<std::string, MonitorElement*> > RPCEfficiencySecond::meCollection [private] |
Definition at line 422 of file RPCEfficiencySecond.h.
Referenced by endRun().
std::string RPCEfficiencySecond::NameFile [private] |
Definition at line 428 of file RPCEfficiencySecond.h.
Referenced by endRun(), and RPCEfficiencySecond().
Definition at line 409 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 410 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 411 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 408 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 407 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 375 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 376 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 377 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 378 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 379 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 380 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 381 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 382 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 383 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 384 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 385 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 386 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 352 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 353 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 354 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 351 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 350 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
bool RPCEfficiencySecond::SaveFile [private] |
Definition at line 427 of file RPCEfficiencySecond.h.
Referenced by endRun(), and RPCEfficiencySecond().
Definition at line 346 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 347 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 348 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 345 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 344 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 331 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 332 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 333 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 330 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().
Definition at line 329 of file RPCEfficiencySecond.h.
Referenced by beginRun(), and endRun().