808 lines
31 KiB
C
808 lines
31 KiB
C
#define Monitor_cxx
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#include <TH2.h>
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#include <TH1.h>
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#include <TF1.h>
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#include <TStyle.h>
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#include <TCutG.h>
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#include <TGraph.h>
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#include <TMath.h>
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#include <TMultiGraph.h>
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#include <TString.h>
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#include <TLatex.h>
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#include <TSystem.h>
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#include <TMacro.h>
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#include <TLine.h>
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#include <TStopwatch.h>
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#include <TCanvas.h>
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#include <TBox.h>
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#include <TDatime.h>
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#include <TMD5.h>
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#include <TObjArray.h>
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#include <fstream>
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#include <vector>
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#include "../Cleopatra/Isotope.h"
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#include "Mapping.h"
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#define tick2ns 8. // 1clock tick = 8 ns
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#define tick2min tick2ns / 1e9/60.
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using namespace std;
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//############################################ User setting
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ULong64_t maxNumberEvent = 1000000000;
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//---histogram setting
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int rawEnergyRange[2] = { 100, 4000}; /// share with e, xf, xn
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int energyRange[2] = { 0, 10}; /// in the E-Z plot
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int rdtDERange[2] = { 0, 80};
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int rdtERange[2] = { 0, 80};
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int thetaCMRange[2] = {0, 80};
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double exRange[3] = { 100, -2, 10}; /// bin [keV], low[MeV], high[MeV]
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int coinTimeRange[2] = { -200, 200};
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int timeRangeUser[2] = {0, 99999999}; /// min, use when cannot find time, this set the min and max
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bool isUseArrayTrace = false;
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bool isUseRDTTrace = false;
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//---Gate
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bool isTimeGateOn = true;
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int timeGate[2] = {-20, 12}; /// min, max, 1 ch = 10 ns
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double eCalCut[2] = {0.5, 50}; /// lower & higher limit for eCal
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int dEgate[2] = { 500, 1500};
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int Eresgate[2] = { 1000, 4000};
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double thetaCMGate = 10; /// deg
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double xGate = 0.9; ///cut out the edge
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vector<int> skipDetID = {11, 16, 23} ;//{2, 11, 17}
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TString rdtCutFile1 = "";
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TString rdtCutFile2 = "";
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TString ezCutFile = "";//"ezCut.root";
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//############################################ end of user setting
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/******************************************************************
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* variable and histogram naming rules *
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* name are case sensitive, so as any C/C++ code *
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* *
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* ID is dettector ID *
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* *
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* raw data from gen_tree are e, xf, xn, ring. *
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* the x from raw data is x *
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* *
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* xf + xn = xs, s for sum *
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* *
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* calibrated data are eCal, xfCal, xnCal, ringCal. *
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* the x from cal data is xCal *
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* *
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* xfCal + xnCal = xsCal *
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* *
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* since the z is always from xCal, so it calls z. *
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* *
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* Excitation energy calls Ex *
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* *
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* *
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* TH2D is always using "V" to seperate 2 variables, like eVx *
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* *
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* histogram with TCutG, add suffix "GC" for Graphical-Cut. *
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* *
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*******************************************************************/
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//======== raw data
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TH1F ** he, ** hxf, ** hxn, * hMultiHit; //basic data
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TH2F ** hxfVxn, ** heVxs, ** heVx; // correlation
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TH2F * heVID, * hxfVID, * hxnVID; // vs ID
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//====== cal data
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TH1F ** heCal;
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TH2F ** hxfCalVxnCal;
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TH2F ** heVxsCal; // raw e vs xf
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TH2F ** heCalVxCal; // eCal vs xCal
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TH2F ** heCalVxCalG; // eCal vs xCal
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TH2F * heCalID; // e vs detID
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TH2F * heCalVz;
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TH2F * heCalVzGC;
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TH2F ** hecalVzRow;
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//====== Ex data
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TH1F * hEx;
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TH1F ** hExi;
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TH2F ** hExVxCal;
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TH2F * hExThetaCM;
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TH1F * hExCut1;
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TH1F * hExCut2;
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//======= Recoil
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TH2F * hrdtID;
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TH1F ** hrdt; // single recoil
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TH1F ** hrdtg;
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TH2F ** hrdt2D;
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TH2F ** hrdt2Dg;
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TH1F * hrdtRate1;
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TH1F * hrdtRate2;
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//======= multi-Hit
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TH2I * hmult;
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TH1I * hmultEZ;
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TH2I * hArrayRDTMatrix;
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TH2I * hArrayRDTMatrixG;
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//======= ARRAY-RDT time diff
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TH1I * htdiff;
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TH1I * htdiffg;
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/***************************
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***************************/
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double zRange[2] = {-1000, 0}; // zMin, zMax
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TLatex text;
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int numCol, numRow, numDet;
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ULong64_t NumEntries = 0;
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ULong64_t ProcessedEntries = 0;
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Float_t Frac = 0.1; ///Progress bar
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TStopwatch StpWatch;
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//======= Canvas
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TCanvas * cCanvas;
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TString canvasTitle;
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//======= Recoil Cut
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TCutG* cutG; //! //general temeprary pointer to cut
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TObjArray * cutList1;
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TObjArray * cutList2;
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//======= Other Cuts
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TCutG * EZCut;
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#include "Monitor.h"
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//^###########################################################
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//^ * Begin
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//^###########################################################
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void Monitor::Begin(TTree *tree){
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TString option = GetOption();
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NumEntries = tree->GetEntries();
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canvasTitle = GetCanvasTitle();
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printf("###########################################################\n");
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printf("########## SOLARIS Monitors.C #########\n");
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printf("###########################################################\n");
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//===================================================== loading parameter
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AnalysisLib::LoadDetGeoAndReactionConfigFile();
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AnalysisLib::LoadXNCorr();
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AnalysisLib::LoadXFXN2ECorr();
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AnalysisLib::LoadXScaleCorr();
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AnalysisLib::LoadECorr();
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AnalysisLib::LoadRDTCorr();
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AnalysisLib::LoadReactionParas(true);
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if( (int) AnalysisLib::xnCorr.size() < mapping::NARRAY ) { isXNCorrOK = false; printf("!!!!!!!! size of xnCorr < NARRAY .\n"); }
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if( (int) AnalysisLib::xfxneCorr.size() < mapping::NARRAY ) { isXFXNCorrOK = false; printf("!!!!!!!! size of xfxneCorr < NARRAY .\n"); }
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if( (int) AnalysisLib::eCorr.size() < mapping::NARRAY ) { isXScaleCorrOK = false; printf("!!!!!!!! size of eCorr < NARRAY .\n"); }
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if( (int) AnalysisLib::xScale.size() < mapping::NARRAY ) { isECorrOK = false; printf("!!!!!!!! size of xScale < NARRAY .\n"); }
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if( (int) AnalysisLib::rdtCorr.size() < mapping::NRDT ) { isRDTCorrOK = false; printf("!!!!!!!! size of rdtCorr < NRDT .\n"); }
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numRow = AnalysisLib::detGeo.nDet;
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numCol = mapping::NARRAY/numRow;
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numDet = mapping::NARRAY;
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zRange[0] = AnalysisLib::detGeo.zMax - 50;
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zRange[1] = AnalysisLib::detGeo.zMax + 50;
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printf("=====================================================\n");
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printf(" z Range : %5.0f - %5.0f mm\n", zRange[0], zRange[1]);
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printf(" time Range : %5.0f - %5.0f min\n", timeRangeInMin[0], timeRangeInMin[1]);
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printf("=====================================================\n");
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//================ Get Recoil cuts;
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cutG = new TCutG();
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cutList1 = AnalysisLib::LoadListOfTCut(rdtCutFile1, "cutList");
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cutList2 = AnalysisLib::LoadListOfTCut(rdtCutFile2, "cutList");
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//================ Get EZ cuts;
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EZCut = AnalysisLib::LoadSingleTCut(ezCutFile);
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//========================= Generate all of the histograms needed for drawing later on
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printf("============================================ Histograms declaration\n");
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gROOT->cd();
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CreateListOfHist1D(he, mapping::NARRAY, "he", "Raw e (ch=%d); e (channel); count", 200, rawEnergyRange[0], rawEnergyRange[1]);
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CreateListOfHist1D(hxf, mapping::NARRAY, "hxf", "Raw xf (ch=%d); e (channel); count", 200, rawEnergyRange[0], rawEnergyRange[1]);
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CreateListOfHist1D(hxn, mapping::NARRAY, "hxn", "Raw xn (ch=%d); e (channel); count", 200, rawEnergyRange[0], rawEnergyRange[1]);
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CreateListOfHist2D(hxfVxn, mapping::NARRAY, "hxfVxn", "Raw xf vs. xn (ch=%d);xf (channel);xn (channel)", 500, 0, rawEnergyRange[1], 500, 0, rawEnergyRange[1]);
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CreateListOfHist2D(heVxs, mapping::NARRAY, "heVxs", "Raw e vs xf+xn (ch=%d); xf+xn (channel); e (channel)", 500, rawEnergyRange[0], rawEnergyRange[1], 500, rawEnergyRange[0], rawEnergyRange[1]);
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CreateListOfHist2D(heVx, mapping::NARRAY, "heVx", "Raw PSD E vs. X (ch=%d);X (channel);E (channel)", 500, -0.1, 1.1, 500, rawEnergyRange[0], rawEnergyRange[1]);
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CreateListOfHist1D(heCal, mapping::NARRAY, "heCal", "Corrected e (ch=%d); e (MeV); count", 2000, energyRange[0], energyRange[1]);
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CreateListOfHist2D(hxfCalVxnCal, mapping::NARRAY, "hxfCalVxnCal", "Corrected XF vs. XN (ch=%d);XF (channel);XN (channel)", 500, 0, rawEnergyRange[1], 500, 0, rawEnergyRange[1]);
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CreateListOfHist2D(heVxsCal , mapping::NARRAY, "heVxsCal", "Raw e vs Corrected xf+xn (ch=%d); corrected xf+xn (channel); Raw e (channel)", 500, rawEnergyRange[0], rawEnergyRange[1], 500, rawEnergyRange[0], rawEnergyRange[1]);
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CreateListOfHist2D(heCalVxCal , mapping::NARRAY, "heCalVxCal", "Cal PSD E vs. X (ch=%d);X (cm);E (MeV)", 500, -2.5, AnalysisLib::detGeo.detLength + 2.5, 500, energyRange[0], energyRange[1]);
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CreateListOfHist2D(heCalVxCalG , mapping::NARRAY, "heCalVxCalG", "Cal PSD E vs. X (ch=%d);X (cm);E (MeV)", 500, -2.5, AnalysisLib::detGeo.detLength + 2.5, 500, energyRange[0], energyRange[1]);
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heVID = new TH2F("heVID", "Raw e vs channel", mapping::NARRAY, 0, mapping::NARRAY, 500, rawEnergyRange[0], rawEnergyRange[1]);
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hxfVID = new TH2F("hxfVID", "Raw xf vs channel", mapping::NARRAY, 0, mapping::NARRAY, 500, rawEnergyRange[0], rawEnergyRange[1]);
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hxnVID = new TH2F("hxnVID", "Raw xn vs channel", mapping::NARRAY, 0, mapping::NARRAY, 500, rawEnergyRange[0], rawEnergyRange[1]);
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heCalID = new TH2F("heCalID", "Corrected E vs detID; detID; E / 10 keV", mapping::NARRAY, 0, mapping::NARRAY, 2000, energyRange[0], energyRange[1]);
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hMultiHit = new TH1F("hMultiHit", "Multi-Hit of Energy", 10, 0, 1);
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//====================== E-Z plot
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heCalVz = new TH2F("heCalVz", "E vs. Z;Z (mm);E (MeV)" , 400, zRange[0], zRange[1], 400, energyRange[0], energyRange[1]);
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heCalVzGC = new TH2F("heCalVzGC","E vs. Z gated;Z (mm);E (MeV)", 400, zRange[0], zRange[1], 400, 0, energyRange[1]);
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hecalVzRow = new TH2F * [numRow];
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for( int i = 0; i < numRow; i++){
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hecalVzRow[i] = new TH2F(Form("heCalVzRow%d", i), Form("E vs. Z (ch=%d-%d); Z (cm); E (MeV)", numCol*i, numCol*(i+1)-1), 500, zRange[0], zRange[1], 500, energyRange[0], energyRange[1]);
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}
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//===================== energy spectrum
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hEx = new TH1F("hEx",Form("excitation spectrum w/ goodFlag; Ex [MeV] ; Count / %4.0f keV", exRange[0]), (int) (exRange[2]-exRange[1])/exRange[0]*1000, exRange[1], exRange[2]);
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hExCut1 = new TH1F("hExCut1",Form("excitation spectrum w/ goodFlag; Ex [MeV] ; Count / %4.0f keV", exRange[0]), (int) (exRange[2]-exRange[1])/exRange[0]*1000, exRange[1], exRange[2]);
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hExCut2 = new TH1F("hExCut2",Form("excitation spectrum w/ goodFlag; Ex [MeV] ; Count / %4.0f keV", exRange[0]), (int) (exRange[2]-exRange[1])/exRange[0]*1000, exRange[1], exRange[2]);
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hExCut1->SetLineColor(2);
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hExCut2->SetLineColor(4);
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TString haha = "Ex (det=%i) w/goodFlag; Ex [MeV]; Count / " +std::to_string(exRange[0]) + "keV";
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CreateListOfHist1D(hExi, mapping::NARRAY, "hExi", haha.Data(), (int) (exRange[2]-exRange[1])/exRange[0]*1000, exRange[1], exRange[2]);
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CreateListOfHist2D(hExVxCal, mapping::NARRAY, "hExVxCal", "Ex vs X (ch=%d); X (cm); Ex (MeV)", 500, -0.1, 1.1, (int) (exRange[2]-exRange[1])/exRange[0]*1000, exRange[1], exRange[2]);
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hExThetaCM = new TH2F("hExThetaCM", "Ex vs ThetaCM; ThetaCM [deg]; Ex [MeV]", 200, thetaCMRange[0], thetaCMRange[1], (int) (exRange[2]-exRange[1])/exRange[0]*1000, exRange[1], exRange[2]);
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//===================== Recoils
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hrdtID = new TH2F("hrdtID", "RDT vs ID; ID; energy [ch]", 8, 0, 8, 500, TMath::Min(rdtERange[0], rdtDERange[0]), TMath::Max(rdtERange[1], rdtDERange[1]));
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hrdt = new TH1F * [mapping::NRDT];
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hrdtg = new TH1F * [mapping::NRDT];
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hrdt2D = new TH2F * [mapping::NRDT/2];
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hrdt2Dg = new TH2F * [mapping::NRDT/2];
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for (Int_t i = 0; i < mapping::NRDT ; i++) {
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if( i % 2 == 0 ) hrdt[i] = new TH1F(Form("hrdt%d",i), Form("Raw Recoil E(ch=%d); E (channel)",i), 500, rdtERange[0], rdtERange[1]);
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if( i % 2 == 0 ) hrdtg[i] = new TH1F(Form("hrdt%dg",i),Form("Raw Recoil E(ch=%d) gated; E (channel)",i), 500, rdtERange[0], rdtERange[1]);
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if( i % 2 == 1 ) hrdt[i] = new TH1F(Form("hrdt%d",i), Form("Raw Recoil DE(ch=%d); DE (channel)",i), 500, rdtDERange[0], rdtDERange[1]);
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if( i % 2 == 1 ) hrdtg[i] = new TH1F(Form("hrdt%dg",i),Form("Raw Recoil DE(ch=%d) gated; DE (channel)",i), 500, rdtDERange[0], rdtDERange[1]);
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///dE vs E
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if( i % 2 == 0 ) {
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int tempID = i / 2;
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hrdt2D[tempID] = new TH2F(Form("hrdt2D%d",tempID), Form("Raw Recoil DE vs Eres (dE=%d, E=%d); Eres (channel); DE (channel)", i+1, i), 500, rdtERange[0], rdtERange[1],500,rdtDERange[0],rdtDERange[1]);
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hrdt2Dg[tempID] = new TH2F(Form("hrdt2Dg%d",tempID), Form("Gated Raw Recoil DE vs Eres (dE=%d, E=%d); Eres (channel); DE (channel)",i+1, i), 500, rdtERange[0], rdtERange[1],500,rdtDERange[0], rdtDERange[1]);
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}
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}
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hrdtRate1 = new TH1F("hrdtRate1", "recoil rate 1 / min; min; count / 1 min", timeRangeInMin[1] - timeRangeInMin[0], timeRangeInMin[0], timeRangeInMin[1]);
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hrdtRate2 = new TH1F("hrdtRate2", "recoil rate 2 / min; min; count / 1 min", timeRangeInMin[1] - timeRangeInMin[0], timeRangeInMin[0], timeRangeInMin[1]);
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hrdtRate1->SetLineColor(2);
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hrdtRate2->SetLineColor(4);
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//===================== multiplicity
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hmultEZ = new TH1I("hmultEZ", "Filled EZ with coinTime and recoil", 10, 0, 10);
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hmult = new TH2I("hmult", "Array Multiplicity vs Recoil Multiplicity; Array ; Recoil",10, 0, 10, 10, 0, 10);
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hArrayRDTMatrix = new TH2I("hArrayRDTMatrix", "Array ID vs Recoil ID; Array ID; Recoil ID", 30, 0, 30, 8, 0, 8);
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hArrayRDTMatrixG = new TH2I("hArrayRDTMatrixG", "Array ID vs Recoil ID / g; Array ID; Recoil ID", 30, 0, 30, 8, 0, 8);
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//===================== coincident time
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htdiff = new TH1I("htdiff" ,"Coincident time (recoil-dE - array); time [ch = 10ns]; count", coinTimeRange[1] - coinTimeRange[0], coinTimeRange[0], coinTimeRange[1]);
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htdiffg = new TH1I("htdiffg","Coincident time (recoil-dE - array) w/ recoil gated; time [ch = 10ns]; count", coinTimeRange[1] - coinTimeRange[0], coinTimeRange[0], coinTimeRange[1]);
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printf("============================================ End of histograms Declaration\n");
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StpWatch.Start();
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}
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//^###########################################################
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//^ * Process
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//^###########################################################
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Bool_t Monitor::Process(Long64_t entry){
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if( entry == 0 ) {
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treeID ++;
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baseTimeStamp = (treeID == 0 ? 0 : endTime[treeID-1]);
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printf("============================================ %s , treeID : %d\n", __func__, treeID);
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}
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if( ProcessedEntries > maxNumberEvent ) return kTRUE;
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ProcessedEntries++;
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//@*********** Progress Bar ******************************************/
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if (ProcessedEntries >= NumEntries*Frac - 1 ) {
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TString msg; msg.Form("%llu", NumEntries/1000);
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int len = msg.Sizeof();
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printf(" %3.0f%% (%*llu/%llu k) processed in %6.1f sec | expect %6.1f sec\n",
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Frac*100, len, ProcessedEntries/1000,NumEntries/1000,StpWatch.RealTime(), StpWatch.RealTime()/Frac);
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StpWatch.Start(kFALSE);
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Frac += 0.1;
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}
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//@********** Get Branch *********************************************/
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b_Energy->GetEntry(entry);
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b_XF->GetEntry(entry);
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b_XN->GetEntry(entry);
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b_EnergyTimestamp->GetEntry(entry);
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if( isRDTExist ){
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b_RDT->GetEntry(entry);
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b_RDTTimestamp->GetEntry(entry);
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}
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// if( isArrayTraceExist ) {
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// ///b_Trace_Energy->GetEntry(entry);
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// b_Trace_Energy_RiseTime->GetEntry(entry);
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// b_Trace_Energy_Time->GetEntry(entry);
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// }
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// if( isRDTTraceExist ){
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// ///b_Trace_RDT->GetEntry(entry);
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// b_Trace_RDT_Time->GetEntry(entry);
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// b_Trace_RDT_RiseTime->GetEntry(entry);
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// }
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//@*********** initization ******************************************/
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for( int i = 0 ; i < mapping::NARRAY; i++){
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z[i] = TMath::QuietNaN();
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x[i] = TMath::QuietNaN();
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xCal[i] = TMath::QuietNaN();
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eCal[i] = TMath::QuietNaN();
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}
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//@*********** Apply Recoil correction here *************************/
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if( isRDTCorrOK ){
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for( int i = 0 ; i < mapping::NRDT; i++){
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rdt[i] = rdt[i]*AnalysisLib::rdtCorr[i][0] + AnalysisLib::rdtCorr[i][1];
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}
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}
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//@*********** Array ************************************************/
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//Do calculations and fill histograms
|
|
Int_t recoilMulti = 0;
|
|
Int_t arrayMulti = 0;
|
|
Int_t multiEZ = 0;
|
|
bool rdtgate1 = false;
|
|
bool rdtgate2 = false;
|
|
bool coinFlag = false;
|
|
bool ezGate = false;
|
|
bool isGoodEventFlag = false;
|
|
|
|
for (Int_t detID = 0; detID < mapping::NARRAY; detID++) {
|
|
|
|
//@================== Filling raw data
|
|
he[detID]->Fill(e[detID]);
|
|
hxf[detID]->Fill(xf[detID]);
|
|
hxn[detID]->Fill(xn[detID]);
|
|
hxfVxn[detID]->Fill(xf[detID],xn[detID]);
|
|
heVxs[detID]->Fill(xf[detID]+xn[detID], e[detID]);
|
|
|
|
heVID->Fill(detID, e[detID]);
|
|
hxfVID->Fill(detID, xf[detID]);
|
|
hxnVID->Fill(detID, xn[detID]);
|
|
|
|
//if( !TMath::IsNaN(e[detID]) ) printf("%llu | %d | %f %f %f \n", entry, detID, e[detID], xf[detID], xn[detID]);
|
|
|
|
//@==================== Basic gate
|
|
if( TMath::IsNaN(e[detID]) ) continue ;
|
|
///if( ring[detID] < -100 || ring[detID] > 100 ) continue;
|
|
///if( ring[detID] > 300 ) continue;
|
|
if( TMath::IsNaN(xn[detID]) && TMath::IsNaN(xf[detID]) ) continue ;
|
|
|
|
//@==================== Skip detector
|
|
bool skipFlag = false;
|
|
for( unsigned int kk = 0; kk < skipDetID.size() ; kk++){
|
|
if( detID == skipDetID[kk] ) {
|
|
skipFlag = true;
|
|
break;
|
|
}
|
|
}
|
|
if (skipFlag ) continue;
|
|
|
|
//@==================== Basic gate
|
|
if( TMath::IsNaN(e[detID]) ) continue ;
|
|
///if( ring[detID] < -100 || ring[detID] > 100 ) continue;
|
|
///if( ring[detID] > 300 ) continue;
|
|
if( TMath::IsNaN(xn[detID]) && TMath::IsNaN(xf[detID]) ) continue ;
|
|
|
|
//@==================== Calibrations go here
|
|
if( isXNCorrOK && isXFXNCorrOK ) xnCal[detID] = xn[detID] * AnalysisLib::xnCorr[detID] * AnalysisLib::xfxneCorr[detID][1] + AnalysisLib::xfxneCorr[detID][0];
|
|
if( isXNCorrOK && isXFXNCorrOK ) xfCal[detID] = xf[detID] * AnalysisLib::xfxneCorr[detID][1] + AnalysisLib::xfxneCorr[detID][0];
|
|
if( isECorrOK ) eCal[detID] = e[detID] / AnalysisLib::eCorr[detID][0] + AnalysisLib::eCorr[detID][1];
|
|
|
|
if( eCal[detID] < eCalCut[0] ) continue;
|
|
if( eCal[detID] > eCalCut[1] ) continue;
|
|
|
|
//@===================== fill Calibrated data
|
|
heCal[detID]->Fill(eCal[detID]);
|
|
heCalID->Fill(detID, eCal[detID]);
|
|
hxfCalVxnCal[detID]->Fill(xfCal[detID], xnCal[detID]);
|
|
heVxsCal[detID]->Fill(xnCal[detID] + xfCal[detID], e[detID]);
|
|
|
|
//@===================== calculate X
|
|
if( (xf[detID] > 0 || !TMath::IsNaN(xf[detID])) && ( xn[detID]>0 || !TMath::IsNaN(xn[detID])) ) {
|
|
///x[detID] = 0.5*((xf[detID]-xn[detID]) / (xf[detID]+xn[detID]))+0.5;
|
|
x[detID] = 0.5*((xf[detID]-xn[detID]) / e[detID])+0.5;
|
|
}
|
|
|
|
/// range of x is (0, 1)
|
|
if ( !TMath::IsNaN(xf[detID]) && !TMath::IsNaN(xn[detID]) ) xCal[detID] = 0.5 + 0.5 * (xfCal[detID] - xnCal[detID] ) / e[detID];
|
|
if ( !TMath::IsNaN(xf[detID]) && TMath::IsNaN(xn[detID]) ) xCal[detID] = xfCal[detID]/ e[detID];
|
|
if ( TMath::IsNaN(xf[detID]) && !TMath::IsNaN(xn[detID]) ) xCal[detID] = 1.0 - xnCal[detID]/ e[detID];
|
|
|
|
//@======= Scale xcal from (0,1)
|
|
if( isXScaleCorrOK ) xCal[detID] = (xCal[detID]-0.5)/AnalysisLib::xScale[detID] + 0.5; /// if include this scale, need to also inclused in Cali_littleTree
|
|
|
|
if( abs(xCal[detID] - 0.5) > xGate/2. ) continue;
|
|
|
|
//@==================== calculate Z
|
|
if( AnalysisLib::detGeo.firstPos > 0 ) {
|
|
z[detID] = AnalysisLib::detGeo.detLength*(1.0-xCal[detID]) + AnalysisLib::detGeo.detPos[detID%numCol];
|
|
}else{
|
|
z[detID] = AnalysisLib::detGeo.detLength*(xCal[detID]-1.0) + AnalysisLib::detGeo.detPos[detID%numCol];
|
|
}
|
|
|
|
//@===================== multiplicity
|
|
arrayMulti++; /// multi-hit when both e, xf, xn are not NaN
|
|
|
|
//@=================== Array fill
|
|
heVx[detID]->Fill(x[detID],e[detID]);
|
|
|
|
heCalVxCal[detID]->Fill(xCal[detID]*AnalysisLib::detGeo.detLength,eCal[detID]);
|
|
heCalVz->Fill(z[detID],eCal[detID]);
|
|
|
|
//@=================== Recoil Gate
|
|
if( isRDTExist && (cutList1 || cutList2)){
|
|
for(int i = 0 ; i < cutList1->GetEntries() ; i++ ){
|
|
cutG = (TCutG *)cutList1->At(i) ;
|
|
if(cutG->IsInside(rdt[2*i],rdt[2*i+1])) {
|
|
// if(cutG->IsInside(rdt[2*i] + rdt[2*i+1],rdt[2*i+1])) {
|
|
rdtgate1= true;
|
|
break; /// only one is enough
|
|
}
|
|
}
|
|
|
|
for(int i = 0 ; i < cutList2->GetEntries() ; i++ ){
|
|
cutG = (TCutG *)cutList2->At(i) ;
|
|
if(cutG->IsInside(rdt[2*i],rdt[2*i+1])) {
|
|
//if(cutG->IsInside(rdt[2*i]+ rdt[2*i+1],rdt[2*i+1])) {
|
|
rdtgate2= true;
|
|
break; /// only one is enough
|
|
}
|
|
}
|
|
|
|
}else{
|
|
rdtgate1 = true;
|
|
rdtgate2 = true;
|
|
}
|
|
|
|
//================ coincident with Recoil when z is calculated.
|
|
if( !TMath::IsNaN(z[detID]) ) {
|
|
for( int j = 0; j < mapping::NRDT ; j++){
|
|
if( TMath::IsNaN(rdt[j]) ) continue;
|
|
|
|
int tdiff = rdt_t[j] - e_t[detID];
|
|
|
|
if( j%2 == 1) {
|
|
htdiff->Fill(tdiff);
|
|
if((rdtgate1 || rdtgate2) && (eCalCut[1] > eCal[detID] && eCal[detID]>eCalCut[0])) {
|
|
htdiffg->Fill(tdiff);
|
|
}
|
|
}
|
|
|
|
hArrayRDTMatrix->Fill(detID, j);
|
|
|
|
if( isTimeGateOn && timeGate[0] < tdiff && tdiff < timeGate[1] ) {
|
|
if(j % 2 == 0 ) hrdt2Dg[j/2]->Fill(rdt[j],rdt[j+1]); /// x=E, y=dE
|
|
///if(j % 2 == 0 ) hrdt2Dg[j/2]->Fill(rdt[j+1],rdt[j]); /// x=dE, y=E
|
|
hArrayRDTMatrixG->Fill(detID, j);
|
|
///if( rdtgate1) hArrayRDTMatrixG->Fill(detID, j);
|
|
|
|
hrdtg[j]->Fill(rdt[j]);
|
|
coinFlag = true;
|
|
|
|
}
|
|
}
|
|
}
|
|
|
|
if( !isTimeGateOn ) coinFlag = true;
|
|
|
|
//================ E-Z gate
|
|
if( EZCut ) {
|
|
if( EZCut->IsInside(z[detID], eCal[detID]) ) ezGate = true;
|
|
}else{
|
|
ezGate = true;
|
|
}
|
|
|
|
if( coinFlag && (rdtgate1 || rdtgate2) && ezGate){
|
|
heCalVzGC->Fill( z[detID] , eCal[detID] );
|
|
|
|
heCalVxCalG[detID]->Fill(xCal[detID]*AnalysisLib::detGeo.detLength,eCal[detID]);
|
|
|
|
multiEZ ++;
|
|
isGoodEventFlag = true;
|
|
}
|
|
|
|
|
|
}//end of array loop
|
|
if( EZCut == nullptr ) ezGate = true;
|
|
|
|
//@*********** RECOILS ***********************************************/
|
|
for( int i = 0; i < mapping::NRDT ; i++){
|
|
hrdtID->Fill(i, rdt[i]);
|
|
hrdt[i]->Fill(rdt[i]);
|
|
|
|
if( i % 2 == 0 ){
|
|
recoilMulti++; // when both dE and E are hit
|
|
hrdt2D[i/2]->Fill(rdt[i],rdt[i+1]); //E-dE
|
|
}
|
|
}
|
|
|
|
hrdtRate1->Fill( (e_t[1] + baseTimeStamp) * tick2min );
|
|
|
|
//@******************* Multi-hit *************************************/
|
|
hmultEZ->Fill(multiEZ);
|
|
hmult->Fill(recoilMulti,arrayMulti);
|
|
hMultiHit->Fill(arrayMulti);
|
|
|
|
//@*********** Good event Gate ***************************************/
|
|
if( !isGoodEventFlag ) return kTRUE;
|
|
|
|
//@*********** Ex and thetaCM ****************************************/
|
|
for(Int_t detID = 0; detID < mapping::NARRAY ; detID++){
|
|
|
|
if( TMath::IsNaN(e[detID]) ) continue ;
|
|
if( TMath::IsNaN(z[detID]) ) continue ;
|
|
if( eCal[detID] < eCalCut[0] ) continue ;
|
|
if( eCal[detID] > eCalCut[1] ) continue ;
|
|
|
|
double Ex, thetaCM;
|
|
|
|
if( AnalysisLib::hasReactionPara ){
|
|
|
|
std::vector<double> ExThetaCM = AnalysisLib::CalExTheta(eCal[detID], x[detID]);
|
|
Ex = ExThetaCM[0];
|
|
thetaCM = ExThetaCM[1];
|
|
|
|
}else{
|
|
Ex = TMath::QuietNaN();
|
|
thetaCM = TMath::QuietNaN();
|
|
}
|
|
|
|
if( thetaCM > thetaCMGate ) {
|
|
|
|
hEx->Fill(Ex);
|
|
|
|
hExThetaCM->Fill(thetaCM, Ex);
|
|
|
|
if( rdtgate1 ) {
|
|
hExCut1->Fill(Ex);
|
|
hExThetaCM->Fill(thetaCM, Ex);
|
|
}
|
|
if( rdtgate2 ) {
|
|
hExCut2->Fill(Ex);
|
|
hExThetaCM->Fill(thetaCM, Ex);
|
|
}
|
|
|
|
hExi[detID]->Fill(Ex);
|
|
hExVxCal[detID]->Fill(xCal[detID], Ex);
|
|
|
|
}
|
|
}
|
|
|
|
return kTRUE;
|
|
}
|
|
|
|
//^###########################################################
|
|
//^ * Terminate
|
|
//^###########################################################
|
|
void Monitor::Terminate(){
|
|
printf("============================================ Drawing Canvas.\n");
|
|
|
|
gROOT->cd();
|
|
|
|
//############################################ User is free to edit this section
|
|
//--- Canvas Size
|
|
int canvasXY[2] = {1200 , 800} ;// x, y
|
|
int canvasDiv[2] = {3,2};
|
|
cCanvas = new TCanvas("cCanvas",canvasTitle + " | " + rdtCutFile1,canvasXY[0],canvasXY[1]);
|
|
cCanvas->Modified(); cCanvas->Update();
|
|
cCanvas->cd(); cCanvas->Divide(canvasDiv[0],canvasDiv[1]);
|
|
|
|
gStyle->SetOptStat("neiou");
|
|
|
|
text.SetNDC();
|
|
text.SetTextFont(82);
|
|
text.SetTextSize(0.04);
|
|
text.SetTextColor(2);
|
|
|
|
double yMax = 0;
|
|
|
|
Isotope hRecoil(AnalysisLib::reactionConfig.recoilHeavyA, AnalysisLib::reactionConfig.recoilHeavyZ);
|
|
double Sn = hRecoil.CalSp(0,1);
|
|
double Sp = hRecoil.CalSp(1,0);
|
|
double Sa = hRecoil.CalSp2(4,2);
|
|
|
|
//TODO, Module each plot
|
|
///----------------------------------- Canvas - 1
|
|
PlotEZ(1); /// raw EZ
|
|
|
|
///----------------------------------- Canvas - 2
|
|
PlotEZ(0); ///gated EZ
|
|
|
|
///----------------------------------- Canvas - 3
|
|
PlotTDiff(1, 1); ///with Gated Tdiff, isLog
|
|
|
|
///----------------------------------- Canvas - 4
|
|
padID++; cCanvas->cd(padID);
|
|
|
|
//hEx->Draw();
|
|
hExCut1->Draw("");
|
|
hExCut2->Draw("same");
|
|
DrawLine(hEx, Sn);
|
|
DrawLine(hEx, Sa);
|
|
|
|
if(isTimeGateOn)text.DrawLatex(0.15, 0.8, Form("%d < coinTime < %d", timeGate[0], timeGate[1]));
|
|
if( xGate < 1 ) text.DrawLatex(0.15, 0.75, Form("with |x-0.5|<%.4f", xGate/2.));
|
|
if( cutList1 ) text.DrawLatex(0.15, 0.7, "with recoil gated");
|
|
|
|
///----------------------------------- Canvas - 5
|
|
padID++; cCanvas->cd(padID);
|
|
|
|
//Draw2DHist(hExThetaCM);
|
|
//heVIDG->Draw();
|
|
//text.DrawLatex(0.15, 0.75, Form("#theta_{cm} > %.1f deg", thetaCMGate));
|
|
|
|
Draw2DHist(hrdt2D[0]);
|
|
// Draw2DHist(hrdt2Dsum[0]);
|
|
|
|
if( cutList1 && cutList1->GetEntries() > 0 ) {cutG = (TCutG *)cutList1->At(0) ; cutG->Draw("same");}
|
|
if( cutList2 && cutList2->GetEntries() > 0 ) {cutG = (TCutG *)cutList2->At(0) ; cutG->Draw("same");}
|
|
|
|
|
|
//helum4D->Draw();
|
|
//text.DrawLatex(0.25, 0.3, Form("gated from 800 to 1200 ch\n"));
|
|
|
|
///----------------------------------- Canvas - 6
|
|
PlotRDT(0,0);
|
|
|
|
// padID++; cCanvas->cd(padID);
|
|
// Draw2DHist(hrdtExGated);
|
|
|
|
//padID++; cCanvas->cd(padID);
|
|
//Draw2DHist(htacEx);
|
|
|
|
///------------------------------------- Canvas - 7
|
|
//PlotRDT(0, 0);
|
|
|
|
///----------------------------------- Canvas - 8
|
|
//PlotRDT(1, 0);
|
|
|
|
///yMax = hic2->GetMaximum()*1.2;
|
|
///hic2->GetYaxis()->SetRangeUser(0, yMax);
|
|
///hic2->Draw();
|
|
///TBox * box14N = new TBox (-10, 0, -2, yMax);
|
|
///box14N->SetFillColorAlpha(2, 0.1);
|
|
///box14N->Draw();
|
|
///
|
|
///TBox * box14C = new TBox (8, 0, 16, yMax);
|
|
///box14C->SetFillColorAlpha(4, 0.1);
|
|
///box14C->Draw();
|
|
///
|
|
///text.SetTextColor(2); text.DrawLatex(0.38, 0.50, "14N");
|
|
///text.SetTextColor(4); text.DrawLatex(0.6, 0.45, "14C");
|
|
///text.SetTextColor(2);
|
|
///----------------------------------- Canvas - 9
|
|
//padID++; cCanvas->cd(padID);
|
|
|
|
//Draw2DHist(hic01);
|
|
|
|
///----------------------------------- Canvas - 10
|
|
//PlotRDT(3,0);
|
|
|
|
//TH1F * helumDBIC = new TH1F("helumDBIC", "elum(d)/BIC; time [min]; count/min", timeRangeInMin[1]-timeRangeInMin[0], timeRangeInMin[0], timeRangeInMin[1]);
|
|
//helumDBIC = (TH1F*) helum4D->Clone();
|
|
//helumDBIC->SetTitle("elum(d)/BIC; time [min]; count/min");
|
|
//helumDBIC->SetName("helumDBIC");
|
|
//helumDBIC->SetLineColor(2);
|
|
|
|
//helumDBIC->Divide(hBIC);
|
|
|
|
//yMax = helumDBIC->GetMaximum();
|
|
//if( yMax < hBIC->GetMaximum() ) yMax = hBIC->GetMaximum();
|
|
|
|
//helumDBIC->SetMaximum(yMax * 1.2);
|
|
//hBIC->SetMaximum(yMax * 1.2);
|
|
|
|
//hBIC->Draw();
|
|
//helumDBIC->Draw("same");
|
|
|
|
//text.DrawLatex(0.15, 0.5, Form("Elum(D) / BIC \n"));
|
|
|
|
///----------------------------------- Canvas - 11
|
|
//PlotRDT(2,0);
|
|
|
|
///----------------------------------- Canvas - 12
|
|
//padID++; cCanvas->cd(padID);
|
|
//htac->Draw();
|
|
|
|
///----------------------------------- Canvas - 13
|
|
//padID++; cCanvas->cd(padID);
|
|
|
|
///hicT14N->Draw("");
|
|
///hicT14C->Draw("same");
|
|
///
|
|
///text.SetTextColor(2); text.DrawLatex(0.15, 0.60, "14N");
|
|
///text.SetTextColor(4); text.DrawLatex(0.15, 0.25, "14C");
|
|
///text.SetTextColor(2);
|
|
|
|
///----------------------------------- Canvas - 14
|
|
padID++; cCanvas->cd(padID);
|
|
|
|
hrdtRate1->Draw("");
|
|
hrdtRate2->Draw("same");
|
|
|
|
///----------------------------------- Canvas - 15
|
|
//padID++; cCanvas->cd(padID);
|
|
|
|
///----------------------------------- Canvas - 16
|
|
//padID++; cCanvas->cd(padID);
|
|
|
|
///----------------------------------- Canvas - 17
|
|
//padID++; cCanvas->cd(padID);
|
|
|
|
///----------------------------------- Canvas - 18
|
|
//padID++; cCanvas->cd(padID);
|
|
|
|
///----------------------------------- Canvas - 19
|
|
//padID++; cCanvas->cd(padID);
|
|
|
|
///----------------------------------- Canvas - 20
|
|
//padID++; cCanvas->cd(padID);
|
|
|
|
|
|
/************************************/
|
|
gStyle->GetAttDate()->SetTextSize(0.02);
|
|
gStyle->SetOptDate(1);
|
|
gStyle->SetDateX(0);
|
|
gStyle->SetDateY(0);
|
|
|
|
/************************************/
|
|
StpWatch.Start(kFALSE);
|
|
|
|
gROOT->ProcessLine(".L ../armory/Monitor_Util.C"); //TODO some pointer is empty
|
|
printf("============================================ loaded Monitor_Utils.C\n");
|
|
//gROOT->ProcessLine(".L ../armory/AutoFit.C");
|
|
//printf("============================================ loaded armory/AutoFit.C\n");
|
|
// gROOT->ProcessLine(".L ../armory/RDTCutCreator.C");
|
|
// printf("============================================ loaded armory/RDTCutCreator.C\n");
|
|
// gROOT->ProcessLine(".L ../armory/Check_rdtGate.C");
|
|
// printf("============================================ loaded armory/Check_rdtGate.C\n");
|
|
// gROOT->ProcessLine(".L ../armory/readTrace.C");
|
|
// printf("============================================ loaded Armory/readTrace.C\n");
|
|
// gROOT->ProcessLine(".L ../armory/readRawTrace.C");
|
|
// printf("============================================ loaded Armory/readRawTrace.C\n");
|
|
gROOT->ProcessLine("listDraws()");
|
|
|
|
/************************* Save histograms to root file*/
|
|
|
|
gROOT->cd();
|
|
|
|
|
|
/************************************/
|
|
//gROOT->ProcessLine("recoils()");
|
|
|
|
}
|