MonAnalyser.C basically done. Need to link to ChainMonitors.C, need RDTCutCreator, need Calibrations stuffs.

This commit is contained in:
Ryan Tang 2024-07-10 16:18:46 -04:00
parent 19a567f8fc
commit 08577871ee
9 changed files with 114 additions and 66 deletions

View File

@ -72,6 +72,8 @@ public:
void PlotEZ(); void PlotEZ();
void PlotEx(); void PlotEx();
void PlotRDT(bool isLog = false);
TCanvas * canvas; TCanvas * canvas;
//====================== Histograms //====================== Histograms
@ -148,7 +150,7 @@ MonPlotter::MonPlotter(unsigned short arrayID, DetGeo * detGeo, int numRDT){
suffix = Form("_%d", arrayID); suffix = Form("_%d", arrayID);
this->numRDT = numDet; this->numRDT = numRDT;
recoilOutter = detGeo->aux[aID].outerRadius; recoilOutter = detGeo->aux[aID].outerRadius;
zRange[0] = detGeo->array[aID].zMin - 50; zRange[0] = detGeo->array[aID].zMin - 50;
@ -218,7 +220,6 @@ MonPlotter::~MonPlotter(){
delete [] hrdt2D; delete [] hrdt2D;
delete [] hrdt2Dg; delete [] hrdt2Dg;
delete cutG;
delete cutList; delete cutList;
} }
@ -271,7 +272,7 @@ void MonPlotter::SetUpHistograms(int * rawEnergyRange,
hxf_ID = new TH2F("hxf_ID" + suffix, "Raw xf vs array ID; Array ID; Raw xf", numDet, 0, numDet, 200, rawEnergyRange[0], rawEnergyRange[1]); hxf_ID = new TH2F("hxf_ID" + suffix, "Raw xf vs array ID; Array ID; Raw xf", numDet, 0, numDet, 200, rawEnergyRange[0], rawEnergyRange[1]);
hxn_ID = new TH2F("hxn_ID" + suffix, "Raw xn vs array ID; Array ID; Raw xn", numDet, 0, numDet, 200, rawEnergyRange[0], rawEnergyRange[1]); hxn_ID = new TH2F("hxn_ID" + suffix, "Raw xn vs array ID; Array ID; Raw xn", numDet, 0, numDet, 200, rawEnergyRange[0], rawEnergyRange[1]);
hArrayMulti = new TH1I("hArrayMulti", "Array Multiplicity", numDet, 0, numDet); hArrayMulti = new TH1I("hArrayMulti", "Array Multiplicity ( e and (xf or xn) )", numDet, 0, numDet);
CreateListOfHist1D(he, numDet, "he", "Raw e (ch=%d); e (channel); count", 200, rawEnergyRange[0], rawEnergyRange[1]); CreateListOfHist1D(he, numDet, "he", "Raw e (ch=%d); e (channel); count", 200, rawEnergyRange[0], rawEnergyRange[1]);
CreateListOfHist1D(hxf, numDet, "hxf", "Raw xf (ch=%d); e (channel); count", 200, rawEnergyRange[0], rawEnergyRange[1]); CreateListOfHist1D(hxf, numDet, "hxf", "Raw xf (ch=%d); e (channel); count", 200, rawEnergyRange[0], rawEnergyRange[1]);
@ -280,7 +281,7 @@ void MonPlotter::SetUpHistograms(int * rawEnergyRange,
CreateListOfHist2D(hxf_xn, numDet, "hxf_xn", "Raw xf vs. xn (ch=%d);xf (channel);xn (channel)" , 500, rawEnergyRange[0], rawEnergyRange[1], 500, rawEnergyRange[0], rawEnergyRange[1]); CreateListOfHist2D(hxf_xn, numDet, "hxf_xn", "Raw xf vs. xn (ch=%d);xf (channel);xn (channel)" , 500, rawEnergyRange[0], rawEnergyRange[1], 500, rawEnergyRange[0], rawEnergyRange[1]);
CreateListOfHist2D(he_xs, numDet, "he_xs", "Raw e vs xf+xn (ch=%d); xf+xn (channel); e (channel)", 500, rawEnergyRange[0], rawEnergyRange[1], 500, rawEnergyRange[0], rawEnergyRange[1]); CreateListOfHist2D(he_xs, numDet, "he_xs", "Raw e vs xf+xn (ch=%d); xf+xn (channel); e (channel)", 500, rawEnergyRange[0], rawEnergyRange[1], 500, rawEnergyRange[0], rawEnergyRange[1]);
CreateListOfHist2D(he_x , numDet, "he_x", "Raw e vs x (ch=%d); x (mm); Raw e (channel)", 500, rawEnergyRange[0], rawEnergyRange[1], 500, -1, detLength +1); CreateListOfHist2D(he_x , numDet, "he_x", "Raw e vs x (ch=%d); x (mm); Raw e (channel)", 500, rawEnergyRange[0], rawEnergyRange[1], 500, -0.5, 1.5);
CreateListOfHist2D(hxfCal_xnCal, numDet, "hxfCal_xnCal", "Corrected XF vs. XN (ch=%d);XF (channel);XN (channel)", 500, 0, rawEnergyRange[1], 500, 0, rawEnergyRange[1]); CreateListOfHist2D(hxfCal_xnCal, numDet, "hxfCal_xnCal", "Corrected XF vs. XN (ch=%d);XF (channel);XN (channel)", 500, 0, rawEnergyRange[1], 500, 0, rawEnergyRange[1]);
CreateListOfHist2D(he_xsCal , numDet, "he_xsCal", "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]); CreateListOfHist2D(he_xsCal , numDet, "he_xsCal", "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]);
@ -347,12 +348,19 @@ void MonPlotter::SetUpHistograms(int * rawEnergyRange,
} }
void MonPlotter::Plot(){ void MonPlotter::Plot(){
//TODO a more user-friendly way.
//TODO display text on the plot.
for( int i = 1; i <= numPad; i++ ){ for( int i = 1; i <= numPad; i++ ){
canvas->cd(i); canvas->cd(i);
switch (i){ switch (i){
case 1: heCal_z->Draw("colz");break; case 1: heCal_z->Draw("colz");break;
case 2: heCal_zGC->Draw("colz");break; case 2: heCal_zGC->Draw("colz");break;
case 3: htDiff->Draw("");break; case 3: {
htDiff->Draw("");
htDiffg->Draw("same");
}break;
case 4: hEx->Draw("colz");break; case 4: hEx->Draw("colz");break;
default:break; default:break;
} }
@ -366,7 +374,7 @@ void MonPlotter::LoadRDTGate(TString rdtCutFile){
TFile * fCut = new TFile(rdtCutFile); TFile * fCut = new TFile(rdtCutFile);
bool isCutFileOpen = fCut->IsOpen(); bool isCutFileOpen = fCut->IsOpen();
if(!isCutFileOpen) { if(!isCutFileOpen) {
printf( "Failed to open rdt-cutfile 1 : %s\n" , fileName.Data()); printf( "Failed to open rdt-cutfile 1 : %s\n" , rdtCutFile.Data());
}else{ }else{
cutList = (TObjArray *) fCut->FindObjectAny("cutList"); cutList = (TObjArray *) fCut->FindObjectAny("cutList");
@ -461,12 +469,13 @@ void MonPlotter::PlotCal(){
TCanvas *cxfxneC = new TCanvas("cxfxneC" + suffix,Form("Raw E - Corrected XF+XN | %s", canvasTitle.Data()), 200 + 500 * aID, 200, canvasSize[0], canvasSize[1]); TCanvas *cxfxneC = new TCanvas("cxfxneC" + suffix,Form("Raw E - Corrected XF+XN | %s", canvasTitle.Data()), 200 + 500 * aID, 200, canvasSize[0], canvasSize[1]);
cxfxneC->Clear(); cxfxneC->Divide(colDet,rowDet); cxfxneC->Clear(); cxfxneC->Divide(colDet,rowDet);
TLine line(0,0, 4000, 4000); line.SetLineColor(2); TLine * line = new TLine(0,0, 4000, 4000);
line->SetLineColor(2);
for (Int_t i=0;i<numDet;i++) { for (Int_t i=0;i<numDet;i++) {
cxfxneC->cd(i+1); cxfxneC->cd(i+1);
cxfxneC->cd(i+1)->SetGrid(); cxfxneC->cd(i+1)->SetGrid();
he_xsCal[i]->Draw("col"); he_xsCal[i]->Draw("col");
line.Draw("same"); line->Draw("same");
} }
TCanvas *cEC = new TCanvas("cEC" + suffix,Form("E corrected | %s", canvasTitle.Data()), 300 + 500 * aID, 300, canvasSize[0], canvasSize[1]); TCanvas *cEC = new TCanvas("cEC" + suffix,Form("E corrected | %s", canvasTitle.Data()), 300 + 500 * aID, 300, canvasSize[0], canvasSize[1]);
@ -502,25 +511,7 @@ void MonPlotter::PlotEZ(){
void MonPlotter::PlotEx(){ void MonPlotter::PlotEx(){
TCanvas *cex = new TCanvas("cex" + suffix,Form("EX : %s", canvasTitle.Data()),0, 0, 1000,650); TCanvas *cExVxCal = new TCanvas("cExVxCal" + suffix,Form("EX | %s", canvasTitle.Data()), 200 + 1000 * aID, 200, 1600,1000);
cex->Clear();
gStyle->SetOptStat("neiou");
hEx->Draw("");
TCanvas *cexI = new TCanvas("cexI" + suffix,Form("EX : %s", canvasTitle.Data()),500, 0, 1600,1000);
cexI->Clear();cexI->Divide(colDet,rowDet);
gStyle->SetOptStat("neiou");
for( int i = 0; i < numDet; i++){
cexI->cd(i+1);
hExi[i]->Draw("");
}
TCanvas *cExThetaCM = new TCanvas("cExThetaCM" + suffix,Form("EX - ThetaCM | %s", canvasTitle.Data()), 500, 500, 650,650);
cExThetaCM->Clear();
gStyle->SetOptStat("neiou");
hEx_ThetaCM->Draw("colz");
TCanvas *cExVxCal = new TCanvas("cExVxCal" + suffix,Form("EX | %s", canvasTitle.Data()),200, 200, 1600,1000);
cExVxCal->Clear(); cExVxCal->Clear();
gStyle->SetOptStat("neiou"); gStyle->SetOptStat("neiou");
cExVxCal->Divide(colDet,rowDet); cExVxCal->Divide(colDet,rowDet);
@ -530,6 +521,48 @@ void MonPlotter::PlotEx(){
hEx_xCal[i]->Draw(); hEx_xCal[i]->Draw();
} }
TCanvas *cexI = new TCanvas("cexI" + suffix,Form("EX : %s", canvasTitle.Data()),300 + 1000 * aID, 300, 1600,1000);
cexI->Clear();cexI->Divide(colDet,rowDet);
gStyle->SetOptStat("neiou");
for( int i = 0; i < numDet; i++){
cexI->cd(i+1);
hExi[i]->Draw("");
}
TCanvas *cExThetaCM = new TCanvas("cExThetaCM" + suffix,Form("EX - ThetaCM | %s", canvasTitle.Data()), 400 + 1000 * aID, 400, 650,650);
cExThetaCM->Clear();
gStyle->SetOptStat("neiou");
hEx_ThetaCM->Draw("colz");
TCanvas *cex = new TCanvas("cex" + suffix,Form("EX : %s", canvasTitle.Data()), 500 + 1000 * aID, 500, 1000,650);
cex->Clear();
gStyle->SetOptStat("neiou");
hEx->Draw("");
}
void MonPlotter::PlotRDT(bool isLog){
TCanvas *crdt = new TCanvas("crdt" + suffix,Form("raw RDT | %s", canvasTitle.Data()), 1000, 0, 1000,1000);
crdt->Clear();crdt->Divide(numRDT/4,2);
for( int i = 0; i < numRDT/2; i++){
if( isLog ) crdt->cd(i+1)->SetLogz(); crdt->cd(i+1); hrdt2D[i]->Draw("col");
}
TCanvas *crdtID = new TCanvas("crdtID" + suffix,Form("raw RDT ID | %s", canvasTitle.Data()),1100,1100, 500, 500);
crdtID->Clear();
if( isLog ) crdtID->SetLogz();
hrdt_ID->Draw("colz");
TCanvas *crdtS = new TCanvas("crdtS" + suffix,Form("raw RDT | %s", canvasTitle.Data()),1200, 1200, 1000, 1000);
crdtS->Clear(); crdtS->Divide(2,numRDT/2);
for( int i = 0; i < numRDT; i ++){
crdtS->cd(i+1);
if( isLog ) crdtS->cd(i+1)->SetLogy();
hrdt[i]->Draw("");
}
} }
#endif #endif

View File

@ -28,7 +28,7 @@ int rawEnergyRange[2] = { 0, 3000}; /// share with e, xf, xn
int energyRange[2] = { 0, 10}; /// in the E-Z plot int energyRange[2] = { 0, 10}; /// in the E-Z plot
int rdtDERange[2] = { 0, 80}; int rdtDERange[2] = { 0, 80};
int rdtERange[2] = { 0, 80}; int rdtERange[2] = { 0, 80};
int thetaCMRange[2] = {0, 80}; int thetaCMRange[2] = { 0, 50}; /// deg
double exRange[3] = { 100, -2, 10}; /// bin [keV], low[MeV], high[MeV] double exRange[3] = { 100, -2, 10}; /// bin [keV], low[MeV], high[MeV]
@ -51,6 +51,7 @@ std::vector<TString> rdtCutFile1 = {"", ""}; /// {reaction-0, reaction-1}, can a
MonPlotter ** plotter = nullptr; MonPlotter ** plotter = nullptr;
int numGeo = 1; int numGeo = 1;
TChain *gen_tree = nullptr;
void MonAnalyzer(){ void MonAnalyzer(){
@ -58,20 +59,20 @@ void MonAnalyzer(){
printf("####################### MonAnalyzer.C #######################\n"); printf("####################### MonAnalyzer.C #######################\n");
printf("#####################################################################\n"); printf("#####################################################################\n");
TChain *chain = new TChain("gen_tree"); gen_tree = new TChain("gen_tree");
//chain->Add("../root_data/gen_run043.root"); //gen_tree->Add("../root_data/gen_run043.root");
chain->Add("../root_data/trace_run029.root"); gen_tree->Add("../root_data/trace_run033.root");
TObjArray * fileList = chain->GetListOfFiles(); TObjArray * fileList = gen_tree->GetListOfFiles();
printf("\033[0;31m========================================== Number of Files : %2d\n",fileList->GetEntries()); printf("\033[0;31m========================================== Number of Files : %2d\n",fileList->GetEntries());
fileList->Print(); fileList->Print();
printf("========================================== Number of Files : %2d\033[0m\n",fileList->GetEntries()); printf("========================================== Number of Files : %2d\033[0m\n",fileList->GetEntries());
printf("///////////////////////////////////////////////////////////////////\n"); printf("///////////////////////////////////////////////////////////////////\n");
printf(" Total Number of entries : %llu \n", chain->GetEntries()); printf(" Total Number of entries : %llu \n", gen_tree->GetEntries());
printf("///////////////////////////////////////////////////////////////////\n"); printf("///////////////////////////////////////////////////////////////////\n");
TTreeReader reader(chain); TTreeReader reader(gen_tree);
TTreeReaderValue<ULong64_t> evID = {reader, "evID"}; TTreeReaderValue<ULong64_t> evID = {reader, "evID"};
TTreeReaderArray<Float_t> e = {reader, "e"}; TTreeReaderArray<Float_t> e = {reader, "e"};
@ -85,7 +86,7 @@ void MonAnalyzer(){
//TODO //TODO
// TTreeReaderArray<TGraph> array = {reader, "trace"}; // TTreeReaderArray<TGraph> array = {reader, "trace"};
ULong64_t NumEntries = chain->GetEntries(); ULong64_t NumEntries = gen_tree->GetEntries();
//*========================================== //*==========================================
DetGeo * detGeo = new DetGeo("detectorGeo.txt"); DetGeo * detGeo = new DetGeo("detectorGeo.txt");
@ -134,9 +135,13 @@ void MonAnalyzer(){
std::vector<double>xCal (numTotArray); std::vector<double>xCal (numTotArray);
std::vector<double>z (numTotArray); std::vector<double>z (numTotArray);
//^########################################################### //^###########################################################
//^ * Process //^ * Process
//^########################################################### //^###########################################################
printf("############################################### Processing...\n");
fflush(stdout); // flush out any printf
ULong64_t processedEntries = 0; ULong64_t processedEntries = 0;
float Frac = 0.1; float Frac = 0.1;
TStopwatch StpWatch; TStopwatch StpWatch;
@ -148,6 +153,9 @@ void MonAnalyzer(){
int arrayMulti[numGeo] ; //array multiplicity, when any is calculated. int arrayMulti[numGeo] ; //array multiplicity, when any is calculated.
for( int i = 0; i < numGeo; i++ ) arrayMulti[i] = 0; for( int i = 0; i < numGeo; i++ ) arrayMulti[i] = 0;
bool rdtgate1 = false; bool rdtgate1 = false;
// bool rdtgate2 = false;
bool coinFlag = false;
bool isGoodEventFlag = false;
for( int id = 0; id < (int) e.GetSize() ; id++ ){ for( int id = 0; id < (int) e.GetSize() ; id++ ){
short aID = detGeo->GetArrayID(id); short aID = detGeo->GetArrayID(id);
@ -180,11 +188,12 @@ void MonAnalyzer(){
//@==================== When e, xn, or xf is valid. //@==================== When e, xn, or xf is valid.
arrayMulti[aID] ++; arrayMulti[aID] ++;
// printf("%8llu | %d, %f %f %f | \n", processedEntries, id, e[id], xn[id], xf[id] );
//@==================== Calibrations go here //@==================== Calibrations go here
if( corr->xnCorr.size() && corr->xfxneCorr.size() ) xnCal[id] = xn[id] * corr->xnCorr[id] * corr->xfxneCorr[id][1] + corr->xfxneCorr[id][0]; xnCal[id] = xn[id] * corr->xnCorr[id] * corr->xfxneCorr[id][1] + corr->xfxneCorr[id][0];
if( corr->xfxneCorr.size() ) xfCal[id] = xf[id] * corr->xfxneCorr[id][1] + corr->xfxneCorr[id][0]; xfCal[id] = xf[id] * corr->xfxneCorr[id][1] + corr->xfxneCorr[id][0];
if( corr->eCorr.size() ) eCal[id] = e[id] / corr->eCorr[id][0] + corr->eCorr[id][1]; eCal[id] = e[id] / corr->eCorr[id][0] + corr->eCorr[id][1];
if( eCal[id] < eCalCut[0] || eCalCut[1] < eCal[id] ) continue; if( eCal[id] < eCalCut[0] || eCalCut[1] < eCal[id] ) continue;
@ -193,7 +202,7 @@ void MonAnalyzer(){
plotter[aID]->hxfCal_xnCal[id]->Fill(xfCal[id], xnCal[id]); plotter[aID]->hxfCal_xnCal[id]->Fill(xfCal[id], xnCal[id]);
plotter[aID]->he_xsCal[id]->Fill(xnCal[id] + xfCal[id], e[id]); plotter[aID]->he_xsCal[id]->Fill(xnCal[id] + xfCal[id], e[id]);
//@===================== calculate X //@===================== calculate X (0,1)
if( (xf[id] > 0 || !TMath::IsNaN(xf[id])) && ( xn[id] > 0 || !TMath::IsNaN(xn[id])) ) { if( (xf[id] > 0 || !TMath::IsNaN(xf[id])) && ( xn[id] > 0 || !TMath::IsNaN(xn[id])) ) {
///x[id] = 0.5*((xf[id]-xn[id]) / (xf[id]+xn[id]))+0.5; ///x[id] = 0.5*((xf[id]-xn[id]) / (xf[id]+xn[id]))+0.5;
x[id] = 0.5*((xf[id]-xn[id]) / e[id])+0.5; x[id] = 0.5*((xf[id]-xn[id]) / e[id])+0.5;
@ -205,12 +214,12 @@ void MonAnalyzer(){
if ( TMath::IsNaN(xf[id]) && !TMath::IsNaN(xn[id]) ) xCal[id] = 1.0 - xnCal[id]/ e[id]; if ( TMath::IsNaN(xf[id]) && !TMath::IsNaN(xn[id]) ) xCal[id] = 1.0 - xnCal[id]/ e[id];
//@=================== Fill in histogram //@=================== Fill in histogram
plotter[aID]->he_x[id]->Fill(x[id],e[id]); plotter[aID]->he_x[id]->Fill(e[id], x[id]);
plotter[aID]->hxfCal_xnCal[id]->Fill(xfCal[id],xnCal[id]); plotter[aID]->hxfCal_xnCal[id]->Fill(xfCal[id],xnCal[id]);
plotter[aID]->he_xsCal[id]->Fill(e[id],xnCal[id] + xfCal[id]); plotter[aID]->he_xsCal[id]->Fill(e[id],xnCal[id] + xfCal[id]);
//@======= Scale xcal from (0,1) //@======= Scale xcal from (0,1)
if( corr->xScale.size() ) xCal[id] = (xCal[id]-0.5)/corr->xScale[id] + 0.5; /// if include this scale, need to also inclused in Cali_littleTree xCal[id] = (xCal[id]-0.5)/corr->xScale[id] + 0.5; /// if include this scale, need to also inclused in Cali_littleTree
if( abs(xCal[id] - 0.5) > xGate/2. ) continue; if( abs(xCal[id] - 0.5) > xGate/2. ) continue;
@ -231,10 +240,10 @@ void MonAnalyzer(){
//@=================== Recoil Gate //@=================== Recoil Gate
if( plotter[aID]->cutList ){ if( plotter[aID]->cutList ){
for(int i = 0 ; i < cutList1->GetEntries() ; i++ ){ for(int i = 0 ; i < plotter[aID]->cutList->GetEntries() ; i++ ){
TCutG * cutG = (TCutG *)cutList1->At(i) ; TCutG * cutG = (TCutG *)plotter[aID]->cutList->At(i) ;
if(cutG->IsInside(rdt[2*i],rdt[2*i+1])) { if(cutG->IsInside(rdt[2*i],rdt[2*i+1])) {
rdtgate1= true; rdtgate1 = true;
break; /// only one is enough break; /// only one is enough
} }
} }
@ -263,26 +272,27 @@ void MonAnalyzer(){
if( j%2 == 1) { if( j%2 == 1) {
plotter[aID]->htDiff->Fill(tdiff); plotter[aID]->htDiff->Fill(tdiff);
// if((rdtgate1 || rdtgate2) && (eCalCut[1] > eCal[id] && eCal[id]>eCalCut[0])) { // if((rdtgate1 || rdtgate2) && (eCalCut[1] > eCal[id] && eCal[id]>eCalCut[0])) {
// plotter[aID]->htdiffg->Fill(tdiff); if((rdtgate1 ) && (eCalCut[1] > eCal[id] && eCal[id]>eCalCut[0])) {
// } plotter[aID]->htDiffg->Fill(tdiff);
}
} }
// hArrayRDTMatrix->Fill(id, j); // hArrayRDTMatrix->Fill(id, j);
// if( isTimeGateOn && timeGate[0] < tdiff && tdiff < timeGate[1] ) { 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 ) plotter[aID]->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 ///if(j % 2 == 0 ) hrdt2Dg[j/2]->Fill(rdt[j+1],rdt[j]); /// x=dE, y=E
// hArrayRDTMatrixG->Fill(id, j); // hArrayRDTMatrixG->Fill(id, j);
// ///if( rdtgate1) hArrayRDTMatrixG->Fill(id, j); ///if( rdtgate1) hArrayRDTMatrixG->Fill(id, j);
// hrdtg[j]->Fill(rdt[j]); // plotter[aID]->hrdtg[j]->Fill(rdt[j]);
// coinFlag = true; coinFlag = true;
// } }
} }
} }
// if( !isTimeGateOn ) coinFlag = true; if( !isTimeGateOn ) coinFlag = true;
//@================ E-Z gate //@================ E-Z gate
// if( EZCut ) { // if( EZCut ) {
@ -291,14 +301,13 @@ void MonAnalyzer(){
// ezGate = true; // ezGate = true;
// } // }
//@================ is Good Event ?
// if( coinFlag && (rdtgate1 || rdtgate2) && ezGate){ // if( coinFlag && (rdtgate1 || rdtgate2) && ezGate){
// plotter[arrayID]->heCalVzGC->Fill( z[id] , eCal[id] ); if( coinFlag && rdtgate1){
plotter[aID]->heCal_zGC->Fill( z[id] , eCal[id] );
// heCalVxCalG[id]->Fill(xCal[id]*detGeo->array[arrayID].detLength, eCal[id]); isGoodEventFlag = true;
}
// multiEZ ++;
// isGoodEventFlag = true;
// }
}//*====== end of array loop }//*====== end of array loop
@ -321,8 +330,9 @@ void MonAnalyzer(){
plotter[j]->hrdtMulti->Fill(recoilMulti); plotter[j]->hrdtMulti->Fill(recoilMulti);
} }
//@*********** Ex and thetaCM ****************************************/ //@*********** Ex and thetaCM ****************************************/
if( !isGoodEventFlag ) continue;
for(Int_t id = 0; id < numTotArray ; id++){ for(Int_t id = 0; id < numTotArray ; id++){
if( TMath::IsNaN(e[id]) ) continue ; if( TMath::IsNaN(e[id]) ) continue ;
@ -363,10 +373,11 @@ void MonAnalyzer(){
int len = msg.Sizeof(); int len = msg.Sizeof();
printf(" %3.0f%% (%*llu/%llu k) processed in %6.1f sec | expect %6.1f sec\n", 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); Frac*100, len, processedEntries/1000,NumEntries/1000,StpWatch.RealTime(), StpWatch.RealTime()/Frac);
fflush(stdout);
StpWatch.Start(kFALSE); StpWatch.Start(kFALSE);
Frac += 0.1; Frac += 0.1;
} }
if( processedEntries > 1000 ) break; // if( processedEntries > 1000 ) break;
}//^############################################## End of Process }//^############################################## End of Process
gStyle->SetOptStat("neiou"); gStyle->SetOptStat("neiou");
@ -386,13 +397,13 @@ void MonAnalyzer(){
// printf("-----------------------------------------------------\n"); // printf("-----------------------------------------------------\n");
printf(" raw() - Raw data\n"); printf(" raw() - Raw data\n");
printf(" cal() - Calibrated data\n"); printf(" cal() - Calibrated data\n");
printf(" rdt() - Raw RDT data\n");
printf("-----------------------------------------------------\n"); printf("-----------------------------------------------------\n");
printf(" ez() - Energy vs. Z\n"); printf(" ez() - Energy vs. Z\n");
printf("-----------------------------------------------------\n");
printf(" excite() - Excitation Energy\n"); printf(" excite() - Excitation Energy\n");
// printf(" recoils() - Raw DE vs. E Recoil spectra\n");
//printf(" elum() - Luminosity Energy Spectra\n"); //printf(" elum() - Luminosity Energy Spectra\n");
//printf(" ic() - Ionization Chamber Spectra\n"); //printf(" ic() - Ionization Chamber Spectra\n");
// printf("-----------------------------------------------------\n");
// printf(" eCalVzRow() - Energy vs. Z for each row\n"); // printf(" eCalVzRow() - Energy vs. Z for each row\n");
// printf(" ExThetaCM() - Ex vs ThetaCM\n"); // printf(" ExThetaCM() - Ex vs ThetaCM\n");
// printf(" ExVxCal() - Ex vs X for all %d detectors\n", numDet); // printf(" ExVxCal() - Ex vs X for all %d detectors\n", numDet);
@ -426,6 +437,10 @@ void cal(int arrayID = -1){
} }
} }
void rdt(bool isLog = false){
plotter[0]->PlotRDT(isLog);
}
void ez(int arrayID = -1){ void ez(int arrayID = -1){
if( arrayID < 0 ){ if( arrayID < 0 ){
for( int i = 0; i < numGeo; i++ ) plotter[i]->PlotEZ(); for( int i = 0; i < numGeo; i++ ) plotter[i]->PlotEZ();