modified all related code for the updated DetectorGeo format
This commit is contained in:
parent
ef8e20d915
commit
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12
.gitignore
vendored
12
.gitignore
vendored
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@ -7,4 +7,14 @@ EventBuilder
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*.so
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*.so
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data_raw
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data_raw
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root_data
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root_data
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Cleopatra/ExtractXSec
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Cleopatra/ExtractXSecFromText
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Cleopatra/FindThetaCM
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Cleopatra/InFileCreator
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Cleopatra/Isotope
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Cleopatra/IsotopeShort
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Cleopatra/PlotSimulation
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Cleopatra/PlotTGraphTObjArray
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Cleopatra/Transfer
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@ -109,7 +109,7 @@ void Check_Simulation(TString filename = "transfer.root",
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TMacro * reactionConfigTxt = (TMacro *) file->FindObjectAny("reactionConfig");
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TMacro * reactionConfigTxt = (TMacro *) file->FindObjectAny("reactionConfig");
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TString Reaction=reactionConfigTxt->GetName();
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TString Reaction=reactionConfigTxt->GetName();
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ReactionConfig reactionConfig = LoadReactionConfig(reactionConfigTxt);
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AnalysisLib::ReactionConfig reactionConfig = AnalysisLib::LoadReactionConfig(reactionConfigTxt);
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int nEvent = reactionConfig.numEvents;
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int nEvent = reactionConfig.numEvents;
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printf("number of events generated : %d \n", nEvent);
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printf("number of events generated : %d \n", nEvent);
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@ -137,15 +137,15 @@ void Check_Simulation(TString filename = "transfer.root",
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printf(" loading detector Geometry.\n");
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printf(" loading detector Geometry.\n");
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TMacro * detGeoTxt = (TMacro *) file->FindObjectAny("detGeo");
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TMacro * detGeoTxt = (TMacro *) file->FindObjectAny("detGeo");
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DetGeo detGeo = LoadDetectorGeo(detGeoTxt);
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AnalysisLib::DetGeo detGeo = AnalysisLib::LoadDetectorGeo(detGeoTxt);
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double field = detGeo.Bfield;
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double field = detGeo.Bfield;
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TString fdmsg = field > 0 ? "out of plan" : "into plan";
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TString fdmsg = field > 0 ? "out of plan" : "into plan";
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TString msg2;
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TString msg2;
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msg2.Form("field = %.2f T, %s", field, fdmsg.Data());
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msg2.Form("field = %.2f T, %s", field, fdmsg.Data());
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double prepDist = detGeo.detPerpDist;
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double prepDist = detGeo.array1.detPerpDist;
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double length = detGeo.detLength;
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double length = detGeo.array1.detLength;
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double posRecoil = detGeo.recoilPos;
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double posRecoil = detGeo.recoilPos;
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double rhoRecoilIn = detGeo.recoilInnerRadius;
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double rhoRecoilIn = detGeo.recoilInnerRadius;
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double rhoRecoilOut = detGeo.recoilOuterRadius;
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double rhoRecoilOut = detGeo.recoilOuterRadius;
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@ -153,11 +153,11 @@ void Check_Simulation(TString filename = "transfer.root",
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double posRecoil1 = detGeo.recoilPos1;
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double posRecoil1 = detGeo.recoilPos1;
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double posRecoil2 = detGeo.recoilPos2;
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double posRecoil2 = detGeo.recoilPos2;
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vector<double> pos = detGeo.detPos;
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vector<double> pos = detGeo.array1.detPos;
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float firstPos = detGeo.firstPos;
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float firstPos = detGeo.array1.firstPos;
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int rDet = detGeo.nDet;
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int rDet = detGeo.array1.nDet;
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int cDet = detGeo.mDet;
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int cDet = detGeo.array1.mDet;
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double elum1 = detGeo.elumPos1;
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double elum1 = detGeo.elumPos1;
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@ -191,7 +191,7 @@ void Check_Simulation(TString filename = "transfer.root",
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string temp = exListMacro->GetListOfLines()->At(i)->GetName();
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string temp = exListMacro->GetListOfLines()->At(i)->GetName();
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if( temp[0] == '#' ) break;
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if( temp[0] == '#' ) break;
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if( temp[0] == '/' ) continue;
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if( temp[0] == '/' ) continue;
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vector<string> tempStr = SplitStr(temp, " ");
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vector<string> tempStr = AnalysisLib::SplitStr(temp, " ");
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printf("%d | %s \n", i, tempStr[0].c_str());
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printf("%d | %s \n", i, tempStr[0].c_str());
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exList.push_back(atof(tempStr[0].c_str()));
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exList.push_back(atof(tempStr[0].c_str()));
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}
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}
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@ -413,7 +413,7 @@ void Check_Simulation(TString filename = "transfer.root",
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//check gate text length, if > 30, break by "&&"
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//check gate text length, if > 30, break by "&&"
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int ll = gate.Length();
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int ll = gate.Length();
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if( ll > 30 ) {
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if( ll > 30 ) {
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vector<string> strList = SplitStr( (string) gate.Data(), "&&");
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vector<string> strList = AnalysisLib::SplitStr( (string) gate.Data(), "&&");
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for( int i = 0; i < strList.size(); i++){
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for( int i = 0; i < strList.size(); i++){
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text.DrawLatex(0., 0.6 - 0.05*i, (TString) strList[i]);
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text.DrawLatex(0., 0.6 - 0.05*i, (TString) strList[i]);
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}
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}
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@ -419,7 +419,7 @@ int ExtractXSecFromText(string readFile){
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//printf("%d | %s\n", lineNum, line.c_str());
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//printf("%d | %s\n", lineNum, line.c_str());
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//after the comment line, the next line must be column name
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//after the comment line, the next line must be column name
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vector<string> header= SplitStr(line, " ");
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vector<string> header= AnalysisLib::SplitStr(line, " ");
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//printf("---%lu #", header.size());
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//printf("---%lu #", header.size());
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//for( int i = 0; i < header.size(); i++){
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//for( int i = 0; i < header.size(); i++){
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// printf("%s|", header[i].c_str());
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// printf("%s|", header[i].c_str());
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@ -12,6 +12,7 @@
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#include "TFile.h"
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#include "TFile.h"
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#include "TTree.h"
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#include "TTree.h"
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#include "TF1.h"
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#include "TMacro.h"
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#include "TMacro.h"
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#include "TObjArray.h"
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#include "TObjArray.h"
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#include "TGraph.h"
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#include "TGraph.h"
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@ -33,13 +34,13 @@ void FindThetaCM(double Ex, int nDivision=1, double XRATION = 0.95,
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double xBeam, yBeam; // mm
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double xBeam, yBeam; // mm
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/**///========================================================= load files
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/**///========================================================= load files
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ReactionConfig reactionConfig;
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AnalysisLib::ReactionConfig reactionConfig;
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DetGeo detGeo;
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AnalysisLib::DetGeo detGeo;
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TMacro * haha = new TMacro();
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TMacro * haha = new TMacro();
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if( haha->ReadFile(basicConfig.c_str()) > 0 ){
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if( haha->ReadFile(basicConfig.c_str()) > 0 ){
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reactionConfig = LoadReactionConfig(haha);
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reactionConfig = AnalysisLib::LoadReactionConfig(haha);
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PrintReactionConfig(reactionConfig);
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AnalysisLib::PrintReactionConfig(reactionConfig);
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KEAmean = reactionConfig.beamEnergy;
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KEAmean = reactionConfig.beamEnergy;
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KEAsigma = reactionConfig.beamEnergySigma;
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KEAsigma = reactionConfig.beamEnergySigma;
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@ -100,19 +101,19 @@ void FindThetaCM(double Ex, int nDivision=1, double XRATION = 0.95,
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printf("----- loading detector geometery : %s.", detGeoFileName.c_str());
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printf("----- loading detector geometery : %s.", detGeoFileName.c_str());
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TMacro * kaka = new TMacro();
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TMacro * kaka = new TMacro();
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if( kaka->ReadFile(detGeoFileName.c_str()) > 0 ){
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if( kaka->ReadFile(detGeoFileName.c_str()) > 0 ){
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detGeo = LoadDetectorGeo(kaka);
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detGeo = AnalysisLib::LoadDetectorGeo(kaka);
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pos = detGeo.detPos;
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pos = detGeo.array1.detPos;
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a = detGeo.detPerpDist;
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a = detGeo.array1.detPerpDist;
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length = detGeo.detLength;
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length = detGeo.array1.detLength;
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firstPos = detGeo.firstPos;
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firstPos = detGeo.array1.firstPos;
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iDet = detGeo.nDet;
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iDet = detGeo.array1.nDet;
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jDet = detGeo.mDet;
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jDet = detGeo.array1.mDet;
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BField = detGeo.Bfield;
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BField = detGeo.Bfield;
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printf("... done.\n");
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printf("... done.\n");
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PrintDetGeo(detGeo);
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AnalysisLib::PrintDetGeo(detGeo);
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}else{
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}else{
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printf("... fail\n");
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printf("... fail\n");
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@ -79,11 +79,11 @@ public:
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double GetReactionGamma() {return gamma;}
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double GetReactionGamma() {return gamma;}
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double GetCMTotalEnergy() {return Etot;}
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double GetCMTotalEnergy() {return Etot;}
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ReactionConfig GetRectionConfig() { return reaction;}
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AnalysisLib::ReactionConfig GetRectionConfig() { return reaction;}
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private:
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private:
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ReactionConfig reaction;
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AnalysisLib::ReactionConfig reaction;
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string nameA, namea, nameb, nameB;
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string nameA, namea, nameb, nameB;
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double thetaIN, phiIN;
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double thetaIN, phiIN;
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@ -201,7 +201,7 @@ void TransferReaction::SetReactionFromFile(string settingFile){
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TMacro * haha = new TMacro();
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TMacro * haha = new TMacro();
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if( haha->ReadFile(settingFile.c_str()) > 0 ) {
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if( haha->ReadFile(settingFile.c_str()) > 0 ) {
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reaction = LoadReactionConfig(haha);
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reaction = AnalysisLib::LoadReactionConfig(haha);
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SetA(reaction.beamA, reaction.beamZ);
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SetA(reaction.beamA, reaction.beamZ);
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Seta(reaction.targetA, reaction.targetZ);
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Seta(reaction.targetA, reaction.targetZ);
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@ -501,7 +501,7 @@ public:
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trajectory GetTrajectory_b() {return orbitb;}
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trajectory GetTrajectory_b() {return orbitb;}
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trajectory GetTrajectory_B() {return orbitB;}
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trajectory GetTrajectory_B() {return orbitB;}
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DetGeo GetDetectorGeometry() {return detGeo;}
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AnalysisLib::DetGeo GetDetectorGeometry() {return detGeo;}
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private:
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private:
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@ -522,7 +522,7 @@ private:
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t.loop = -1;
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t.loop = -1;
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}
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}
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DetGeo detGeo;
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AnalysisLib::DetGeo detGeo;
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trajectory orbitb, orbitB;
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trajectory orbitb, orbitB;
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@ -607,7 +607,7 @@ bool HELIOS::SetDetectorGeometry(string filename){
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TMacro * haha = new TMacro();
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TMacro * haha = new TMacro();
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if( haha->ReadFile(filename.c_str()) > 0 ) {
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if( haha->ReadFile(filename.c_str()) > 0 ) {
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detGeo = LoadDetectorGeo(haha);
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detGeo = AnalysisLib::LoadDetectorGeo(haha);
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PrintDetGeo(detGeo);
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PrintDetGeo(detGeo);
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@ -615,22 +615,22 @@ bool HELIOS::SetDetectorGeometry(string filename){
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BfieldTheta = detGeo.BfieldTheta;
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BfieldTheta = detGeo.BfieldTheta;
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sign = detGeo.BfieldSign;
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sign = detGeo.BfieldSign;
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bore = detGeo.bore;
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bore = detGeo.bore;
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perpDist = detGeo.detPerpDist;
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width = detGeo.detWidth;
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posRecoil = detGeo.recoilPos;
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posRecoil = detGeo.recoilPos;
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rhoRecoilin = detGeo.recoilInnerRadius;
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rhoRecoilin = detGeo.recoilInnerRadius;
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rhoRecoilout = detGeo.recoilOuterRadius;
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rhoRecoilout = detGeo.recoilOuterRadius;
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length = detGeo.detLength;
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blocker = detGeo.blocker;
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length = detGeo.array1.detLength;
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firstPos = detGeo.firstPos;
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width = detGeo.array1.detWidth;
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pos = detGeo.detPos;
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perpDist = detGeo.array1.detPerpDist;
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nDet = detGeo.nDet;
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blocker = detGeo.array1.blocker;
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mDet = detGeo.mDet;
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firstPos = detGeo.array1.firstPos;
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pos = detGeo.array1.detPos;
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nDet = detGeo.array1.nDet;
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mDet = detGeo.array1.mDet;
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isFromOutSide = detGeo.array1.detFaceOut;
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isCoincidentWithRecoil = detGeo.isCoincidentWithRecoil;
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isCoincidentWithRecoil = detGeo.isCoincidentWithRecoil;
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isFromOutSide = detGeo.detFaceOut;
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isDetReady = true;
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isDetReady = true;
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}else{
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}else{
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printf("cannot read file %s.\n", filename.c_str());
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printf("cannot read file %s.\n", filename.c_str());
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@ -74,7 +74,7 @@ int InFileCreator(string readFile, string infile, double angMin, double angMax,
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if( tempLine.size() < 5 ) continue;
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if( tempLine.size() < 5 ) continue;
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//split line using space
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//split line using space
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vector<string> str0 = SplitStr(tempLine, " ");
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vector<string> str0 = AnalysisLib::SplitStr(tempLine, " ");
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if ( str0.size() == 0 ) continue;
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if ( str0.size() == 0 ) continue;
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printf(" %s\n", tempLine.c_str());
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printf(" %s\n", tempLine.c_str());
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@ -83,8 +83,8 @@ int InFileCreator(string readFile, string infile, double angMin, double angMax,
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/// printf(" str0[%d] %s \n", i, str0[i].c_str());
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/// printf(" str0[%d] %s \n", i, str0[i].c_str());
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///}
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///}
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vector<string> str1 = SplitStr(str0[0], "(", 0);
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vector<string> str1 = AnalysisLib::SplitStr(str0[0], "(", 0);
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vector<string> str2 = SplitStr(str1[1], ")", 1);
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vector<string> str2 = AnalysisLib::SplitStr(str1[1], ")", 1);
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str2[0] = "(" + str2[0];
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str2[0] = "(" + str2[0];
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@ -1,7 +1,7 @@
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#include <fstream>
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#include <fstream>
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#include <stdlib.h>
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#include <stdlib.h>
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#include "../Armory/Check_Simulation.C"
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#include "Check_Simulation.C"
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using namespace std;
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using namespace std;
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@ -85,7 +85,7 @@ MyMainFrame::MyMainFrame(const TGWindow *p,UInt_t w,UInt_t h) {
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TGVerticalFrame *hframe2 = new TGVerticalFrame(fMain,600,800 );
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TGVerticalFrame *hframe2 = new TGVerticalFrame(fMain,600,800 );
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hframe->AddFrame(hframe2,new TGLayoutHints( kLHintsExpandX | kLHintsExpandY, 2,2,2,2));
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hframe->AddFrame(hframe2,new TGLayoutHints( kLHintsExpandX | kLHintsExpandY, 2,2,2,2));
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fileName = "reactionConfig.txt";
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fileName = "../working/reactionConfig.txt";
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TGHorizontalFrame *hframe00 = new TGHorizontalFrame(hframe2,600,600 );
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TGHorizontalFrame *hframe00 = new TGHorizontalFrame(hframe2,600,600 );
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hframe2->AddFrame(hframe00, new TGLayoutHints(kLHintsCenterX | kLHintsExpandX , 2,2,2,2));
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hframe2->AddFrame(hframe00, new TGLayoutHints(kLHintsCenterX | kLHintsExpandX , 2,2,2,2));
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@ -566,7 +566,7 @@ void MyMainFrame::Command(int ID) {
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TH1F * temp = (TH1F*) gROOT->FindObjectAny("hExCal");
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TH1F * temp = (TH1F*) gROOT->FindObjectAny("hExCal");
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if( temp != NULL ){
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if( temp != NULL ){
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fitAuto(temp, -1);
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AutoFit::fitAuto(temp, -1);
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statusLabel->SetText("Auto Fit hExCal");
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statusLabel->SetText("Auto Fit hExCal");
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}else{
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}else{
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statusLabel->SetText("Cannot find historgram hExCal. Please Run Plot Simulation first.");
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statusLabel->SetText("Cannot find historgram hExCal. Please Run Plot Simulation first.");
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@ -37,9 +37,9 @@ void Transfer(
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printf("----- loading reaction setting from %s. \n", basicConfig.c_str());
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printf("----- loading reaction setting from %s. \n", basicConfig.c_str());
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printf("\e[32m#################################### Beam \e[0m\n");
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printf("\e[32m#################################### Beam \e[0m\n");
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const ReactionConfig reactionConfig = reaction.GetRectionConfig();
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const AnalysisLib::ReactionConfig reactionConfig = reaction.GetRectionConfig();
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PrintReactionConfig(reactionConfig);
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AnalysisLib::PrintReactionConfig(reactionConfig);
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vector<float> ExAList = reactionConfig.beamEx;
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vector<float> ExAList = reactionConfig.beamEx;
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int nExA = (int) ExAList.size();
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int nExA = (int) ExAList.size();
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@ -49,7 +49,7 @@ void Transfer(
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HELIOS helios;
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HELIOS helios;
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helios.SetDetectorGeometry(heliosDetGeoFile);
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helios.SetDetectorGeometry(heliosDetGeoFile);
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const DetGeo detGeo = helios.GetDetectorGeometry();
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const AnalysisLib::DetGeo detGeo = helios.GetDetectorGeometry();
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printf("==================================== E-Z plot slope\n");
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printf("==================================== E-Z plot slope\n");
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double betaRect = reaction.GetReactionBeta() ;
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double betaRect = reaction.GetReactionBeta() ;
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@ -128,7 +128,7 @@ void Transfer(
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if( line.substr(0,2) == "//" ) continue;
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if( line.substr(0,2) == "//" ) continue;
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if( line.substr(0,2) == "#=" ) break;
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if( line.substr(0,2) == "#=" ) break;
|
||||||
|
|
||||||
vector<string> str = SplitStr(line, " ");
|
vector<string> str = AnalysisLib::SplitStr(line, " ");
|
||||||
|
|
||||||
ExKnown.push_back(atof(str[0].c_str()));
|
ExKnown.push_back(atof(str[0].c_str()));
|
||||||
ExStrength.push_back(atof(str[1].c_str()));
|
ExStrength.push_back(atof(str[1].c_str()));
|
||||||
|
@ -597,9 +597,9 @@ void Transfer(
|
||||||
trajectory orb_b = helios.GetTrajectory_b();
|
trajectory orb_b = helios.GetTrajectory_b();
|
||||||
trajectory orb_B = helios.GetTrajectory_B();
|
trajectory orb_B = helios.GetTrajectory_B();
|
||||||
|
|
||||||
e = helios.GetEnergy() + gRandom->Gaus(0, detGeo.eSigma);
|
e = helios.GetEnergy() + gRandom->Gaus(0, detGeo.array1.eSigma);
|
||||||
|
|
||||||
double ranX = gRandom->Gaus(0, detGeo.zSigma);
|
double ranX = gRandom->Gaus(0, detGeo.array1.zSigma);
|
||||||
z = orb_b.z + ranX;
|
z = orb_b.z + ranX;
|
||||||
detX = helios.GetDetX() + ranX;
|
detX = helios.GetDetX() + ranX;
|
||||||
|
|
||||||
|
|
|
@ -23,7 +23,7 @@ FindThetaCM: FindThetaCM.C FindThetaCM.h ../Cleopatra/HELIOS_LIB.h ../Cleopatra/
|
||||||
Transfer: Transfer.C Transfer.h ../Cleopatra/HELIOS_LIB.h ../Cleopatra/Isotope.h ../Cleopatra/constant.h
|
Transfer: Transfer.C Transfer.h ../Cleopatra/HELIOS_LIB.h ../Cleopatra/Isotope.h ../Cleopatra/constant.h
|
||||||
$(CC) Transfer.C -o Transfer `root-config --cflags --glibs`
|
$(CC) Transfer.C -o Transfer `root-config --cflags --glibs`
|
||||||
|
|
||||||
PlotSimulation: PlotSimulation.C ../Armory/Check_Simulation.C
|
PlotSimulation: PlotSimulation.C Check_Simulation.C
|
||||||
$(CC) PlotSimulation.C -o PlotSimulation `root-config --cflags --glibs`
|
$(CC) PlotSimulation.C -o PlotSimulation `root-config --cflags --glibs`
|
||||||
|
|
||||||
Isotope: ../Cleopatra/Isotope.h ../Cleopatra/Isotope.C
|
Isotope: ../Cleopatra/Isotope.h ../Cleopatra/Isotope.C
|
||||||
|
|
|
@ -8,6 +8,7 @@
|
||||||
|
|
||||||
#include <TMacro.h>
|
#include <TMacro.h>
|
||||||
#include <TList.h>
|
#include <TList.h>
|
||||||
|
#include <TFile.h>
|
||||||
#include <TMath.h>
|
#include <TMath.h>
|
||||||
#include <TObjArray.h>
|
#include <TObjArray.h>
|
||||||
#include <TCutG.h>
|
#include <TCutG.h>
|
||||||
|
@ -153,7 +154,6 @@ struct ReactionConfig{
|
||||||
bool isRedo; ///isReDo
|
bool isRedo; ///isReDo
|
||||||
std::vector<float> beamEx; ///excitation_energy_of_A[MeV]
|
std::vector<float> beamEx; ///excitation_energy_of_A[MeV]
|
||||||
|
|
||||||
|
|
||||||
};
|
};
|
||||||
|
|
||||||
///Using TMacro to load the detectorGeo frist,
|
///Using TMacro to load the detectorGeo frist,
|
||||||
|
|
|
@ -9,7 +9,7 @@ false //is_coincident_with_recoil
|
||||||
0 //Recoil_2_position_[mm]
|
0 //Recoil_2_position_[mm]
|
||||||
0.00 //Elum_1_position_[mm]_(just_another_recoil_detector_but_for_light_recoil)
|
0.00 //Elum_1_position_[mm]_(just_another_recoil_detector_but_for_light_recoil)
|
||||||
0.00 //Elum_2_position_[mm]_when_Elum=0_disable_tree_branch
|
0.00 //Elum_2_position_[mm]_when_Elum=0_disable_tree_branch
|
||||||
#===============1st_detector
|
#===============1st_Array
|
||||||
11.5 //distance_from_axis_[mm]
|
11.5 //distance_from_axis_[mm]
|
||||||
10.0 //width_of_detector_[mm]
|
10.0 //width_of_detector_[mm]
|
||||||
50 //length_of_detector_[mm]
|
50 //length_of_detector_[mm]
|
||||||
|
@ -25,7 +25,7 @@ Out //detector_facing_Out_or_In
|
||||||
176.8
|
176.8
|
||||||
235.8 //5th_det
|
235.8 //5th_det
|
||||||
290.0
|
290.0
|
||||||
#===============2nd_detector
|
#===============2nd_Array
|
||||||
true //is_2nd_detctor_exist_false=false_other=true
|
true //is_2nd_detctor_exist_false=false_other=true
|
||||||
11.5 //distance_from_axis_[mm]
|
11.5 //distance_from_axis_[mm]
|
||||||
10.0 //width_of_detector_[mm]
|
10.0 //width_of_detector_[mm]
|
||||||
|
|
Loading…
Reference in New Issue
Block a user