XIAEventBuilder/Analyzer.C

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#define Analyzer_cxx
#include "Analyzer.h"
#include <TH2.h>
#include <TStyle.h>
#include <TH1.h>
#include <TCanvas.h>
#include <TMath.h>
#include <vector>
#include <TStopwatch.h>
//############################################ User setting
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int rawEnergyRange[2] = {100, 6000}; // in ch
int energyRange[3] = {1, 100, 2000}; // keV {resol, min, max}
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double BGO_threshold = 100; // in ch
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TString e_corr = "e_corr.txt";
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//############################################ end of user setting
ULong64_t NumEntries = 0;
ULong64_t ProcessedEntries = 0;
Float_t Frac = 0.1; ///Progress bar
TStopwatch StpWatch;
vector<vector<double>> eCorr;
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//############################################ histogram declaration
TH2F * heVID;
TH1F * he[NCLOVER];
TH2F * hgg[NCLOVER][NCLOVER];
TH2F * hcoin;
///----- after calibration and BGO veto
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TH2F * heCalVID;
TH1F * heCal[NCLOVER];
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TH2F * hcoinBGO;
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void Analyzer::Begin(TTree * tree){
TString option = GetOption();
NumEntries = tree->GetEntries();
printf("======================== Histograms declaration\n");
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heVID = new TH2F("heVID", "e vs ID; det ID; e [ch]", NCLOVER, 0, NCLOVER, rawEnergyRange[1] - rawEnergyRange[0], rawEnergyRange[0], rawEnergyRange[1]);
heCalVID = new TH2F("heCalVID", Form("eCal vs ID (BGO veto > %.1f); det ID; e [ch]", BGO_threshold), NCLOVER, 0, NCLOVER, rawEnergyRange[1] - rawEnergyRange[0], rawEnergyRange[0], rawEnergyRange[1]);
for( int i = 0; i < NCLOVER; i ++){
he[i] = new TH1F( Form("he%02d", i), Form("e -%02d", i), rawEnergyRange[1] - rawEnergyRange[0], rawEnergyRange[0], rawEnergyRange[1]);
heCal[i] = new TH1F(Form("heCal%02d", i), Form("e -%02d (BGO veto > %.1f)", i, BGO_threshold), rawEnergyRange[1] - rawEnergyRange[0], rawEnergyRange[0], rawEnergyRange[1]);
}
for( int i = 0; i < NCLOVER; i++){
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for( int j = i+1; j < NCLOVER; j++){
//hgg[i][j] = new TH2F(Form("hgg%02d%02d", i, j), Form("e%02d vs e%02d; e%02d; e%02d", i, j, i, j),
// (rawEnergyRange[1] - rawEnergyRange[0])/2, rawEnergyRange[0], rawEnergyRange[1],
// (rawEnergyRange[1] - rawEnergyRange[0])/2, rawEnergyRange[0], rawEnergyRange[1]);
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}
}
hcoin = new TH2F("hcoin", "detector coin.; det ID; det ID", NCLOVER, 0, NCLOVER, NCLOVER, 0 , NCLOVER);
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hcoinBGO = new TH2F("hcoinBGO", Form("detector coin. (BGO veto > %.1f); det ID; det ID", BGO_threshold), NCLOVER, 0, NCLOVER, NCLOVER, 0 , NCLOVER);
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printf("======================== End of histograms declaration\n");
printf("======================== Load parameters.\n");
eCorr = LoadCorrectionParameters(e_corr);
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StpWatch.Start();
printf("======================== Start processing....\n");
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}
Bool_t Analyzer::Process(Long64_t entry){
ProcessedEntries++;
/*********** Progress Bar ******************************************/
if (ProcessedEntries>NumEntries*Frac-1) {
TString msg; msg.Form("%llu", NumEntries/1000);
int len = msg.Sizeof();
printf(" %3.0f%% (%*llu/%llu k) processed in %6.1f sec | expect %6.1f sec\n",
Frac*100, len, ProcessedEntries/1000,NumEntries/1000,StpWatch.RealTime(), StpWatch.RealTime()/Frac);
StpWatch.Start(kFALSE);
Frac+=0.1;
}
b_energy->GetEntry(entry);
b_time->GetEntry(entry);
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//b_pileup->GetEntry(entry);
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b_bgo->GetEntry(entry);
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//b_other->GetEntry(entry);
//b_multiplicity->GetEntry(entry);
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if( multi == 0 ) return kTRUE;
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///=========== Looping Crystals
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for( int detID = 0; detID < NCLOVER ; detID ++){
//======== baics gate when no energy or pileup
if( TMath::IsNaN(e[detID])) continue;
//if( pileup[detID] == 1 ) continue;
//======== Fill raw data
heVID->Fill( detID, e[detID]);
he[detID]->Fill(e[detID]);
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for( int detJ = detID +1; detJ < NCLOVER; detJ++) {
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if( TMath::IsNaN(e[detJ])) continue;
//hgg[detID][detJ]->Fill(e[detID], e[detJ]); // x then y
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hcoin->Fill(detID, detJ);
}
//======== BGO veto
for( int kk = 0; kk < NBGO ; kk++){
if( TMath::IsNaN(bgo[kk]) ) continue;
if( bgo[kk] > BGO_threshold ) {
return kTRUE;
}
}
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//========= apply correction
double eCal = e[detID];
heCalVID->Fill( detID, eCal);
heCal[detID]->Fill(eCal);
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for( int detJ = detID +1; detJ < NCLOVER; detJ++) {
if( TMath::IsNaN(e[detJ])) continue;
hcoinBGO->Fill(detID, detJ);
}
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}
return kTRUE;
}
void Analyzer::Terminate(){
printf("============================== finishing.\n");
gROOT->cd();
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int canvasXY[2] = {1200 , 1200} ;// x, y
int canvasDiv[2] = {2,2};
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TCanvas *cCanvas = new TCanvas("cCanvas", "" ,canvasXY[0],canvasXY[1]);
cCanvas->Modified(); cCanvas->Update();
cCanvas->cd(); cCanvas->Divide(canvasDiv[0],canvasDiv[1]);
gStyle->SetOptStat("neiou");
cCanvas->cd(1);
cCanvas->cd(1)->SetLogz(1);
heVID->Draw("colz");
cCanvas->cd(2);
cCanvas->cd(2)->SetLogz(1);
heCalVID->Draw("colz");
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cCanvas->cd(3);
cCanvas->cd(3)->SetLogz(1);
hcoin->Draw("colz");
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cCanvas->cd(4);
cCanvas->cd(4)->SetLogz(1);
hcoinBGO->Draw("colz");
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printf("=============== Analyzer Utility\n");
gROOT->ProcessLine(".L Analyzer_Utili.c");
gROOT->ProcessLine("listDraws()");
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printf("=============== loaded AutoFit.C\n");
gROOT->ProcessLine(".L AutoFit.C");
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}