making progress... need to convert on of helios run to have better test

This commit is contained in:
Ryan@Home 2024-07-08 22:24:44 -04:00
parent 56285cef62
commit a80e5e2b64
4 changed files with 370 additions and 53 deletions

View File

@ -3,20 +3,71 @@
//************************************** Correction parameters; //************************************** Correction parameters;
class CorrParas { class CorrParas {
private:
int defaultSize;
public: public:
CorrParas(){ CorrParas(int defaultSize = 100){
xnCorr.clear(); is_xn_OK = false;
xScale.clear(); is_xfxne_OK = false;
xfxneCorr.clear(); is_e_OK = false;
eCorr.clear(); is_xScale_OK = false;
rdtCorr.clear(); is_rdt_OK = false;
this->defaultSize = defaultSize;
}; };
void LoadAllCorrections(){
LoadXNCorr();
LoadXFXN2ECorr();
LoadECorr();
LoadXScaleCorr();
LoadRDTCorr();
}
void CheckCorrParasSize(int arraySize, int rdtSize){
printf("------------ Check Correction parameter sizes\n");
if( is_xn_OK && xnCorr.size() < arraySize ) {
printf(" xnCorr [%zu] < array size %d. Set xnCorr[1..99] = 1.0 \n", xnCorr.size(), arraySize);
for( int i = 0; i < defaultSize; i++ ) xnCorr.push_back(1.0);
is_xn_OK = false;
}
if( is_xfxne_OK && xfxneCorr.size() < arraySize ) {
printf(" xfxneCorr [%zu] < array size %d. Set xfxneCorr[1..99] = (0.0, 1.0) \n", xfxneCorr.size(), arraySize);
for( int i = 0; i < defaultSize; i++ ) xfxneCorr.push_back({0.0, 1.0});
is_xScale_OK = false;
}
if( is_e_OK && eCorr.size() < arraySize ) {
printf(" eCorr [%zu] < array size %d. Set eCorr[1..99] = (1.0, 0.0) \n", xnCorr.size(), arraySize);
for( int i = 0; i < defaultSize; i++ ) eCorr.push_back({1.0, 0.0});
is_e_OK = false;
}
if( is_xScale_OK && xScale.size() < arraySize ) {
printf(" xScale [%zu] < array size %d. Set xScale[1..99] = 1.0 \n", xScale.size(), arraySize);
for( int i = 0; i < defaultSize; i++ ) xScale.push_back(1.0);
is_xScale_OK = false;
}
if( is_rdt_OK && rdtCorr.size() < rdtSize ) {
printf(" rdtCorr [%zu] < array size %d. Set rdtScale[1..99] = (0.0, 1.0) \n", rdtCorr.size(), arraySize);
for( int i = 0; i < defaultSize; i++ ) rdtCorr.push_back({0.0, 1.0});
is_rdt_OK = false;
}
printf("------------ Done Check Corr. Para. Size.\n");
}
bool is_xn_OK;
bool is_xfxne_OK;
bool is_e_OK;
bool is_xScale_OK;
bool is_rdt_OK;
std::vector<float> xnCorr; //correction of xn to match xf std::vector<float> xnCorr; //correction of xn to match xf
std::vector<float> xScale; // correction of x to be (0,1)
std::vector<std::vector<float>> xfxneCorr; //correction of xn and xf to match e std::vector<std::vector<float>> xfxneCorr; //correction of xn and xf to match e
std::vector<std::vector<float>> eCorr; // correction to e, ch -> MeV std::vector<std::vector<float>> eCorr; // correction to e, ch -> MeV
std::vector<float> xScale; // correction of x to be (0,1)
std::vector<std::vector<float>> rdtCorr; // correction of rdt, ch -> MeV std::vector<std::vector<float>> rdtCorr; // correction of rdt, ch -> MeV
//~========================================= xf = xn correction //~========================================= xf = xn correction
@ -29,14 +80,16 @@ public:
float a; float a;
while( file >> a ) xnCorr.push_back(a); while( file >> a ) xnCorr.push_back(a);
printf(".......... done.\n"); printf(".......... done.\n");
is_xn_OK = true;
}else{ }else{
printf(".......... fail.\n"); for( int i = 0; i < defaultSize; i++ ) xnCorr.push_back(1.0);
printf(".......... fail. xnCorr[1..99] = 1.0\n");
is_xn_OK = false;
} }
file.close(); file.close();
if( verbose ) for(int i = 0; i < (int) xnCorr.size(); i++) printf("%2d | %10.3f\n", i, xnCorr[i]); if( verbose ) for(int i = 0; i < (int) xnCorr.size(); i++) printf("%2d | %10.3f\n", i, xnCorr[i]);
} }
//~========================================= X-Scale correction //~========================================= X-Scale correction
void LoadXScaleCorr(bool verbose = false, const char * fileName = "correction_scaleX.dat"){ void LoadXScaleCorr(bool verbose = false, const char * fileName = "correction_scaleX.dat"){
printf(" loading x-Scale correction."); printf(" loading x-Scale correction.");
@ -44,11 +97,14 @@ public:
std::ifstream file; std::ifstream file;
file.open(fileName); file.open(fileName);
if( file.is_open() ){ if( file.is_open() ){
float a, b; float a;
while( file >> a ) xScale.push_back(a); while( file >> a ) xScale.push_back(a);
printf("........ done.\n"); printf("........ done.\n");
is_xScale_OK = true;
}else{ }else{
printf("........ fail.\n"); for( int i = 0; i < defaultSize; i++ ) xScale.push_back(1.0);
printf("........ fail. xScale[1..99] = 1.0\n");
is_xScale_OK = false;
} }
file.close(); file.close();
if( verbose ) for(int i = 0; i < (int) xScale.size(); i++) printf("%2d | %10.3f\n", i, xnCorr[i]); if( verbose ) for(int i = 0; i < (int) xScale.size(); i++) printf("%2d | %10.3f\n", i, xnCorr[i]);
@ -64,8 +120,11 @@ public:
float a, b; float a, b;
while( file >> a >> b) xfxneCorr.push_back({a, b}); while( file >> a >> b) xfxneCorr.push_back({a, b});
printf("........ done.\n"); printf("........ done.\n");
is_xfxne_OK = true;
}else{ }else{
printf("........ fail.\n"); for( int i = 0; i < defaultSize; i++ ) xfxneCorr.push_back({0.0, 1.0});
printf("........ fail. xfxneCorr[1..99] = (0.0, 1.0)\n");
is_xfxne_OK = false;
} }
file.close(); file.close();
if( verbose ) for(int i = 0; i < (int) xfxneCorr.size(); i++) printf("%2d | %10.3f, %10.3f\n", i, xfxneCorr[i][0], xfxneCorr[i][1]); if( verbose ) for(int i = 0; i < (int) xfxneCorr.size(); i++) printf("%2d | %10.3f, %10.3f\n", i, xfxneCorr[i][0], xfxneCorr[i][1]);
@ -81,8 +140,11 @@ public:
float a, b; float a, b;
while( file >> a >> b) eCorr.push_back( {a, b} ); // 1/a1, a0 , e' = e * a1 + a0 while( file >> a >> b) eCorr.push_back( {a, b} ); // 1/a1, a0 , e' = e * a1 + a0
printf(".............. done.\n"); printf(".............. done.\n");
is_e_OK = true;
}else{ }else{
printf(".............. fail.\n"); for( int i = 0; i < defaultSize; i++ ) eCorr.push_back( {1.0, 0.0} );
printf(".............. fail. eCorr[1..99] = (1.0, 0.0) \n");
is_e_OK = false;
} }
file.close(); file.close();
if( verbose ) for(int i = 0; i < (int) eCorr.size(); i++) printf("%2d | %10.3f, %10.3f\n", i, eCorr[i][0], eCorr[i][1]); if( verbose ) for(int i = 0; i < (int) eCorr.size(); i++) printf("%2d | %10.3f, %10.3f\n", i, eCorr[i][0], eCorr[i][1]);
@ -98,8 +160,11 @@ public:
float a, b; float a, b;
while( file >> a >> b) rdtCorr.push_back({a, b}); while( file >> a >> b) rdtCorr.push_back({a, b});
printf("............ done.\n"); printf("............ done.\n");
is_rdt_OK = true;
}else{ }else{
printf("............ fail.\n"); for( int i = 0; i < defaultSize; i++ ) rdtCorr.push_back( {0.0, 1.0} );
printf("............ fail. rdtCorr[1..99] = (0.0, 1.0)\n");
is_rdt_OK = false;
} }
file.close(); file.close();
if( verbose ) for(int i = 0; i < (int) rdtCorr.size(); i++) printf("%2d | %10.3f, %10.3f\n", i, rdtCorr[i][0], rdtCorr[i][1]); if( verbose ) for(int i = 0; i < (int) rdtCorr.size(); i++) printf("%2d | %10.3f, %10.3f\n", i, rdtCorr[i][0], rdtCorr[i][1]);

View File

@ -53,10 +53,12 @@ public:
~MonPlotter(); ~MonPlotter();
void SetUpCanvas(TString title, int padSize, int divX, int divY); void SetUpCanvas(TString title, int padSize, int divX, int divY);
void SetUpHistograms(int * rawEnergyRange, int * energyRange, double * exRange, int * thetaCMRange, int * rdtDERange, int * rdtERange); void SetUpHistograms(int * rawEnergyRange, int * energyRange, double * exRange, int * thetaCMRange, int * rdtDERange, int * rdtERange);
void Plot(); void Plot();
void PlotRawID();
TCanvas * canvas; TCanvas * canvas;
//====================== Histograms //====================== Histograms
@ -301,13 +303,22 @@ void MonPlotter::Plot(){
for( int i = 0; i < numPad; i++ ){ for( int i = 0; i < numPad; i++ ){
canvas->cd(i+1); canvas->cd(i+1);
switch (i){ switch (i){
case 0: he_ID->Draw("colz");break; case 0: heCal_z->Draw("colz");break;
case 1: hxf_ID->Draw("colz");break; case 1: heCal_zGC->Draw("colz");break;
case 2: hxn_ID->Draw("colz");break; // case 2: hxn_ID->Draw("colz");break;
default:break; default:break;
} }
} }
}
void MonPlotter::PlotRawID(){
TCanvas * haha = new TCanvas("haha" + suffix, "Raw ID", 1200, 600);
haha->Divide(2,2);
haha->cd(1); he_ID->Draw("colz");
haha->cd(2); hArrayMulti->Draw();
haha->cd(3); hxf_ID->Draw("colz");
haha->cd(4); hxn_ID->Draw("colz");
} }
#endif #endif

View File

@ -16,13 +16,15 @@
#include "TTreeReaderValue.h" #include "TTreeReaderValue.h"
#include "TTreeReaderArray.h" #include "TTreeReaderArray.h"
#include "TClonesArray.h" #include "TClonesArray.h"
#include "TGraph.h"
#include "TH2.h" #include "TH2.h"
#include "TStyle.h" #include "TStyle.h"
#include "TStopwatch.h" #include "TStopwatch.h"
#include "TMath.h"
#include "vector" #include "vector"
//^############################################ User setting //^############################################ User setting
int rawEnergyRange[2] = { 100, 4000}; /// share with e, xf, xn int rawEnergyRange[2] = { 100, 60000}; /// 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};
@ -35,19 +37,37 @@ double exRange[3] = { 100, -2, 10}; /// bin [keV], low[MeV], high[M
bool isTimeGateOn = true; bool isTimeGateOn = true;
int timeGate[2] = {-20, 12}; /// min, max, 1 ch = 10 ns int timeGate[2] = {-20, 12}; /// min, max, 1 ch = 10 ns
double eCalCut[2] = {0.5, 50}; /// lower & higher limit for eCal double eCalCut[2] = {0.5, 50}; /// lower & higher limit for eCal
double xGate = 0.9; ///cut out the edge
double thetaCMGate = 10; /// deg
std::vector<int> skipDetID = {11, 16, 23} ;//{2, 11, 17} std::vector<int> skipDetID = {11, 16, 23} ;//{2, 11, 17}
TString rdtCutFile1 = "";
TString rdtCutFile2 = "";
TString ezCutFile = "";//"ezCut.root";
//^############################################ end of user setting //^############################################ end of user setting
MonPlotter ** plotter = nullptr;
int numGeo = 1;
void MonAnalyzer(){ void MonAnalyzer(){
// TFile * file = new TFile("../root_data/gen_run043.root"); printf("#####################################################################\n");
printf("####################### MonAnalyzer.C #######################\n");
printf("#####################################################################\n");
TChain *chain = new TChain("gen_tree"); TChain *chain = new TChain("gen_tree");
chain->Add("../root_data/gen_run043.root"); chain->Add("../root_data/gen_run043.root");
// chain->Print(); TObjArray * fileList = chain->GetListOfFiles();
printf("\033[0;31m========================================== Number of Files : %2d\n",fileList->GetEntries());
fileList->Print();
printf("========================================== Number of Files : %2d\033[0m\n",fileList->GetEntries());
printf("///////////////////////////////////////////////////////////////////\n");
printf(" Total Number of entries : %llu \n", chain->GetEntries());
printf("///////////////////////////////////////////////////////////////////\n");
TTreeReader reader(chain); TTreeReader reader(chain);
@ -61,24 +81,34 @@ void MonAnalyzer(){
TTreeReaderArray<ULong64_t> rdt_t = {reader, "rdt_t"}; TTreeReaderArray<ULong64_t> rdt_t = {reader, "rdt_t"};
//TODO //TODO
// TTreeReaderArray<TClonesArray> array = {reader, "trace"}; // TTreeReaderArray<TGraph> array = {reader, "trace"};
//*========================================== //*==========================================
ULong64_t NumEntries = chain->GetEntries(); ULong64_t NumEntries = chain->GetEntries();
CorrParas * corr = new CorrParas; CorrParas * corr = new CorrParas;
corr->LoadAllCorrections();
corr->CheckCorrParasSize(mapping::NARRAY, mapping::NRDT);
DetGeo * detGeo = new DetGeo("detectorGeo.txt"); DetGeo * detGeo = new DetGeo("detectorGeo.txt");
// TransferReaction * transfer = new TransferReaction("reactionConfig.txt"); // TransferReaction * transfer = new TransferReaction("reactionConfig.txt");
MonPlotter ** plotter = new MonPlotter *[detGeo->numGeo]; numGeo = detGeo->numGeo;
for( int i = 0; i < detGeo->numGeo; i++ ) { printf("================== num. of Arrays : %d\n", numGeo);
plotter = new MonPlotter *[numGeo];
for( int i = 0; i < numGeo; i++ ) {
plotter[i] = new MonPlotter(i, detGeo, mapping::NRDT); plotter[i] = new MonPlotter(i, detGeo, mapping::NRDT);
plotter[i]->SetUpCanvas("haha", 500, 3, 2); plotter[i]->SetUpCanvas("haha", 500, 3, 2);
plotter[i]->SetUpHistograms(rawEnergyRange, energyRange, exRange, thetaCMRange, rdtDERange, rdtERange); plotter[i]->SetUpHistograms(rawEnergyRange, energyRange, exRange, thetaCMRange, rdtDERange, rdtERange);
} }
//TODO make the data class.
double eCal[mapping::NARRAY]; double eCal[mapping::NARRAY];
double xfCal[mapping::NARRAY]; double xfCal[mapping::NARRAY];
double xnCal[mapping::NARRAY]; double xnCal[mapping::NARRAY];
double x[mapping::NARRAY];
double xCal[mapping::NARRAY];
double z[mapping::NARRAY];
//^########################################################### //^###########################################################
//^ * Process //^ * Process
@ -93,6 +123,13 @@ void MonAnalyzer(){
// printf("%llu | %llu | %lu\n", processedEntries, *evID, e.GetSize()); // printf("%llu | %llu | %lu\n", processedEntries, *evID, e.GetSize());
//*============================================= Array; //*============================================= Array;
int arrayMulti[numGeo] ; //array multiplicity, when any is calculated.
int zMulti[numGeo] ; //array multiplicity, when z is calculated.
for( int i = 0; i < numGeo; i++ ) {
arrayMulti[i] = 0;
zMulti[i] = 0;
}
for( int id = 0; id < e.GetSize() ; id++ ){ for( int id = 0; id < e.GetSize() ; id++ ){
short aID = detGeo->GetArrayID(id); short aID = detGeo->GetArrayID(id);
if( aID < 0 ) continue; if( aID < 0 ) continue;
@ -108,33 +145,190 @@ void MonAnalyzer(){
plotter[aID]->hxf_ID->Fill(id, xf[id]); plotter[aID]->hxf_ID->Fill(id, xf[id]);
plotter[aID]->hxn_ID->Fill(id, xn[id]); plotter[aID]->hxn_ID->Fill(id, xn[id]);
// //@==================== Basic gate //@==================== Basic gate
// if( TMath::IsNaN(e[id]) ) continue ; if( TMath::IsNaN(e[id]) ) continue ;
// if( TMath::IsNaN(xn[id]) && TMath::IsNaN(xf[id]) ) continue ; if( TMath::IsNaN(xn[id]) && TMath::IsNaN(xf[id]) ) continue ;
// //@==================== Skip detector //@==================== Skip detector
// bool skipFlag = false; bool skipFlag = false;
// for( unsigned int kk = 0; kk < skipDetID.size() ; kk++){ for( unsigned int kk = 0; kk < skipDetID.size() ; kk++){
// if( id == skipDetID[kk] ) { if( id == skipDetID[kk] ) {
// skipFlag = true; skipFlag = true;
// break; break;
}
}
if (skipFlag ) continue;
//@==================== When e, xn, or xf is valid.
arrayMulti[aID] ++;
//@==================== 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];
if( corr->xfxneCorr.size() ) 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];
if( eCal[id] < eCalCut[0] || eCalCut[1] < eCal[id] ) continue;
//@===================== fill Calibrated data
plotter[aID]->heCal[id]->Fill(eCal[id]);
plotter[aID]->hxfCal_xnCal[id]->Fill(xfCal[id], xnCal[id]);
plotter[aID]->he_xsCal[id]->Fill(xnCal[id] + xfCal[id], e[id]);
//@===================== calculate X
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]) / e[id])+0.5;
}
/// range of x is (0, 1)
if ( !TMath::IsNaN(xf[id]) && !TMath::IsNaN(xn[id]) ) xCal[id] = 0.5 + 0.5 * (xfCal[id] - xnCal[id] ) / e[id];
if ( !TMath::IsNaN(xf[id]) && TMath::IsNaN(xn[id]) ) xCal[id] = xfCal[id]/ e[id];
if ( TMath::IsNaN(xf[id]) && !TMath::IsNaN(xn[id]) ) xCal[id] = 1.0 - xnCal[id]/ e[id];
//@======= Scale xcal from (0,1)
if( corr->xScale.size() >= id ) 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;
//@==================== calculate Z
if( aID >= 0 ){
int colIndex = id % detGeo->array[aID].colDet;
if( detGeo->array[aID].firstPos > 0 ) {
z[id] = detGeo->array[aID].detLength*(1.0-xCal[id]) + detGeo->array[aID].detPos[colIndex];
}else{
z[id] = detGeo->array[aID].detLength*(xCal[id]-1.0) + detGeo->array[aID].detPos[colIndex];
}
}
//@===================== When z is calcualted.
zMulti[aID] ++;
//@=================== Array fill
plotter[aID]->he_x[id]->Fill(x[id],e[id]);
plotter[aID]->heCal_z->Fill(z[id],eCal[id]);
//@=================== 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;
// } // }
// if (skipFlag ) continue;
// //@==================== Calibrations go here //@================ coincident with Recoil when z is calculated.
// if( corr->xnCorr.size() >= id && corr->xfxneCorr.size() >= id ) xnCal[id] = xn[id] * corr->xnCorr[id] * corr->xfxneCorr[id][1] + corr->xfxneCorr[id][0]; // if( !TMath::IsNaN(z[id]) ) {
// if( corr->xfxneCorr.size() >= id ) xfCal[id] = xf[id] * corr->xfxneCorr[id][1] + corr->xfxneCorr[id][0]; // for( int j = 0; j < mapping::NRDT ; j++){
// if( corr->eCorr.size() >= id) eCal[id] = e[id] / corr->eCorr[id][0] + corr->eCorr[id][1]; // if( TMath::IsNaN(rdt[j]) ) continue;
// if( eCal[id] < eCalCut[0] || eCalCut[1] < eCal[id] ) continue; // int tdiff = rdt_t[j] - e_t[id];
// if( j%2 == 1) {
// htdiff->Fill(tdiff);
// if((rdtgate1 || rdtgate2) && (eCalCut[1] > eCal[id] && eCal[id]>eCalCut[0])) {
// htdiffg->Fill(tdiff);
// }
// }
// hArrayRDTMatrix->Fill(id, 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(id, j);
// ///if( rdtgate1) hArrayRDTMatrixG->Fill(id, j);
// hrdtg[j]->Fill(rdt[j]);
// coinFlag = true;
// }
// }
// }
// if( !isTimeGateOn ) coinFlag = true;
//@================ E-Z gate
// if( EZCut ) {
// if( EZCut->IsInside(z[id], eCal[id]) ) ezGate = true;
// }else{
// ezGate = true;
// }
// if( coinFlag && (rdtgate1 || rdtgate2) && ezGate){
// plotter[arrayID]->heCalVzGC->Fill( z[id] , eCal[id] );
// heCalVxCalG[id]->Fill(xCal[id]*detGeo->array[arrayID].detLength, eCal[id]);
// multiEZ ++;
// isGoodEventFlag = true;
// }
}//*====== end of array loop
}//*==== end of array for( int i = 0 ; i < numGeo ; i++ ) plotter[i]->hArrayMulti->Fill(arrayMulti[i]);
//*********** 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
// }
// }
//@*********** Ex and thetaCM ****************************************/
// for(Int_t id = 0; id < mapping::NARRAY ; id++){
// if( TMath::IsNaN(e[id]) ) continue ;
// if( TMath::IsNaN(z[id]) ) continue ;
// if( eCal[id] < eCalCut[0] ) continue ;
// if( eCal[id] > eCalCut[1] ) continue ;
// short aID = detGeo->GetArrayID(id);
// if( aID < 0 ) continue;
// std::pair<double, double> ExThetaCM = transfer->CalExThetaCM(eCal[id], z[id], detGeo->Bfield, detGeo->array[aID].detPerpDist);
// double Ex = ExThetaCM.first;
// double thetaCM = ExThetaCM.second;
// if( thetaCM > thetaCMGate ) {
// plotter[aID]->hEx->Fill(Ex);
// plotter[aID]->hExThetaCM->Fill(thetaCM, Ex);
// // if( rdtgate1 ) {
// // plotter[arrayID]->hExCut1->Fill(Ex);
// // plotter[arrayID]->hExThetaCM->Fill(thetaCM, Ex);
// // }
// // if( rdtgate2 ) {
// // plotter[arrayID]->hExCut2->Fill(Ex);
// // plotter[arrayID]->hExThetaCM->Fill(thetaCM, Ex);
// // }
// plotter[arrayID]->hExi[id]->Fill(Ex);
// plotter[arrayID]->hExVxCal[id]->Fill(xCal[id], Ex);
// }
// }
//*============================================ Progress Bar //*============================================ Progress Bar
processedEntries ++; processedEntries ++;
@ -154,5 +348,20 @@ void MonAnalyzer(){
plotter[i]->Plot(); plotter[i]->Plot();
} }
//^###############################################
}
//%=============================================
void rawID(int arrayID = -1){
if( arrayID < 0 ){
for( int i = 0; i < numGeo; i++ ) plotter[i]->PlotRawID();
}else{
if( arrayID < numGeo) plotter[arrayID]->PlotRawID();
}
} }

View File

@ -1,9 +1,18 @@
#include "../Armory/ClassDetGeo.h" #include "../Armory/ClassDetGeo.h"
#include "../Armory/ClassReactionConfig.h" #include "../Armory/ClassReactionConfig.h"
#include "../Armory/ClassCorrParas.h"
#include "../Cleopatra/ClassHelios.h" #include "../Cleopatra/ClassHelios.h"
#include "../Cleopatra/ClassTransfer.h" #include "../Cleopatra/ClassTransfer.h"
#include "ClassMonPlotter.h" #include "ClassMonPlotter.h"
#include "TFile.h"
#include "TChain.h"
#include "TH1F.h"
#include "TTreeReader.h"
#include "TTreeReaderValue.h"
#include "TTreeReaderArray.h"
#include "TClonesArray.h"
#include "TGraph.h"
void test(){ void test(){
@ -48,25 +57,48 @@ void test(){
// delete helios; // delete helios;
// delete transfer;root // delete transfer;root
DetGeo dd("detectorGeo.txt"); // DetGeo dd("detectorGeo.txt");
MonPlotter * pp = new MonPlotter(0, &dd, 8); // MonPlotter * pp = new MonPlotter(0, &dd, 8);
pp->SetUpCanvas("haha", 500, 3, 2); // pp->SetUpCanvas("haha", 500, 3, 2);
int rawEnergyRange[2] = { 100, 4000}; /// share with e, xf, xn // int rawEnergyRange[2] = { 100, 4000}; /// 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};
double exRange[3] = { 100, -2, 10}; /// bin [keV], low[MeV], high[MeV] // double exRange[3] = { 100, -2, 10}; /// bin [keV], low[MeV], high[MeV]
int thetaCMRange[2] = {0, 80}; // int thetaCMRange[2] = {0, 80};
pp->SetUpHistograms(rawEnergyRange, energyRange, exRange, thetaCMRange, rdtDERange, rdtERange); // pp->SetUpHistograms(rawEnergyRange, energyRange, exRange, thetaCMRange, rdtDERange, rdtERange);
pp->Plot(); // pp->Plot();
delete pp; // delete pp;
// TChain *chain = new TChain("gen_tree");
// chain->Add("../root_data/gen_run043.root");
// // chain->Print();
// TTreeReader reader(chain);
// TTreeReaderArray<TGraph> trace = {reader, "trace"};
// ULong64_t processedEntries = 0;
// while (reader.Next()) {
// printf("%llu | %lu \n", processedEntries, trace.GetSize());
// for( int i = 0; i < trace.GetSize(); i++ ){
// printf( " %d| %d\n", i, trace.At(i).GetN());
// }
// processedEntries ++;
// if( processedEntries > 10 ) break;
// }
CorrParas * corr = new CorrParas();
} }