655 lines
24 KiB
C
655 lines
24 KiB
C
#include <TFile.h>
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#include <TTree.h>
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#include <TCanvas.h>
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#include <TROOT.h>
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#include <TObjArray.h>
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#include <TStyle.h>
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#include <TH2F.h>
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#include <TH1F.h>
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#include <TF1.h>
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#include <TArc.h>
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#include <TMath.h>
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#include <TLine.h>
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#include <TSpectrum.h>
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#include <TGraph.h>
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#include <TLegend.h>
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#include <TLatex.h>
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#include <TMacro.h>
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#include <TObjArray.h>
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#include <fstream>
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#include <TCutG.h>
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#include "../armory/AnalysisLib.h"
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#include "../Cleopatra/Isotope.h"
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double * FindRange(TString branch, TString gate, TTree * tree, double output[2]);
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double ExtractNumber(int index, TMacro * macro);
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TString ExtractString(int index, TMacro * macro);
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vector<TString> StringToVector(TString str);
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vector<int> intConvertor(vector<TString> arr);
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vector<double> doubleConvertor(vector<TString> arr);
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enum plotID { pEZ, /// 0
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pRecoilXY, /// 1
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pRecoilXY1, /// 2
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pRecoilXY2, /// 3
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pRecoilRZ, /// 4
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pRecoilRTR, /// 5
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pTDiffZ, /// 6
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pThetaCM, /// 7
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pThetaCM_Z, /// 8
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pExCal, /// 9
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pRecoilRThetaCM, /// 10
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pArrayXY, /// 11
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pInfo, /// 12
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pHitID, /// 13
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pElum1XY, /// 14
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pEElum1R, /// 15
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pElum1RThetaCM, /// 16
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pEmpty }; /// 17
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plotID StringToPlotID(TString str);
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void Check_Simulation(TString filename = "transfer1.root",
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TString configFile = "../working/Check_Simulation_Config.txt",
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Int_t padSize = 500,
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bool outputCanvas = false){
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printf("=========================== Check_Simulation.C\n");
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TMacro * config = new TMacro(configFile);
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int numLine = config->GetListOfLines()->GetSize();
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int startLineNum = 0;
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for( int i = 0; i < numLine ; i++){
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TString haha = config->GetListOfLines()->At(i)->GetName();
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haha.Remove(4);
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if( haha != "////" ) {
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startLineNum = i;
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break;
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}
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}
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TString gate = ExtractString(startLineNum+1, config);
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double elumRange = ExtractNumber(startLineNum+2, config);
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vector<double> thetaCMRange = doubleConvertor( StringToVector( ExtractString(startLineNum+3,config) ));
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bool shownKELines = (ExtractString(startLineNum+4, config).Remove(4) == "true" ? true : false);
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bool isOverRideEx = (ExtractString(startLineNum+5, config).Remove(4) == "true" ? true : false);
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vector<double> oExRange = doubleConvertor( StringToVector ( ExtractString(startLineNum+6, config )));
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printf("%s \n", gate.Data());
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///==== config Canvas
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vector<TString> plotConfig = StringToVector( ExtractString(startLineNum, config));
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vector<plotID> canvas;
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int colCount = 0;
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int colCount_new = 0;
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int rowCount = 1;
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for( int i = 0; i < (int) plotConfig.size(); i++){
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if( plotConfig[i] == "break" ) {
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rowCount ++;
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if( colCount_new > colCount ) colCount = colCount_new;
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colCount_new = 0;
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continue;
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}
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canvas.push_back( StringToPlotID(plotConfig[i]));
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colCount_new ++;
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}
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if( colCount == 0 ) colCount = colCount_new;
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///printf("plot row: %d, col: %d \n", rowCount, colCount);
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vector<int> Div = {colCount, rowCount};
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TFile * file = new TFile(filename, "read");
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TTree * tree = (TTree*) file->Get("tree");
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TObjArray * fxList = (TObjArray *) file->FindObjectAny("fxList");
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TObjArray * txList = (TObjArray *) file->FindObjectAny("txList");
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//================== reactionConfig
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TMacro * reactionConfigTxt = (TMacro *) file->FindObjectAny("reactionConfig");
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TString Reaction=reactionConfigTxt->GetName();
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AnalysisLib::ReactionConfig reactionConfig = AnalysisLib::LoadReactionConfig(reactionConfigTxt);
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int nEvent = reactionConfig.numEvents;
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printf("number of events generated : %d \n", nEvent);
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double xBeam = reactionConfig.beamX;
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double yBeam = reactionConfig.beamY;
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printf(" beam position : (%5.2f, %5.2f) mm \n", xBeam, yBeam);
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gStyle->SetOptStat("");
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gStyle->SetStatY(0.9);
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gStyle->SetStatX(0.9);
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gStyle->SetStatW(0.4);
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gStyle->SetStatH(0.2);
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gStyle->SetLabelSize(0.05, "XY");
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gStyle->SetTitleFontSize(0.1);
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double eRange[2] = {0, 10};
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double zRange[3] = {400, -1000, 1000}; /// zRange[0] = nBin
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double recoilERange[2];
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vector<double> exList;
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double ExRange[2];
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//================================== detetcor Geometry
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printf("=================================\n");
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printf(" loading detector Geometry.\n");
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TMacro * detGeoTxt = (TMacro *) file->FindObjectAny("detGeo");
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AnalysisLib::DetGeo detGeo = AnalysisLib::LoadDetectorGeo(detGeoTxt);
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AnalysisLib::Array array;
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if( detGeo.use2ndArray){
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array = detGeo.array2;
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}else{
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array = detGeo.array1;
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}
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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 msg2;
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msg2.Form("field = %.2f T, %s", field, fdmsg.Data());
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double prepDist = array.detPerpDist;
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double length = array.detLength;
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double posRecoil = detGeo.recoilPos;
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double rhoRecoilIn = detGeo.recoilInnerRadius;
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double rhoRecoilOut = detGeo.recoilOuterRadius;
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double posRecoil1 = detGeo.recoilPos1;
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double posRecoil2 = detGeo.recoilPos2;
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vector<double> pos = array.detPos;
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float firstPos = array.firstPos;
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int rDet = array.nDet;
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int cDet = array.mDet;
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double elum1 = detGeo.elumPos1;
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printf("number of row-Det : %d \n", rDet);
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printf("number of col-Det : %d \n", cDet);
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for(int i = 0; i < rDet ; i++){
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if( firstPos > 0 ){
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printf("%d, %10.2f mm - %10.2f mm \n", i, pos[i], pos[i] + length);
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}else{
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printf("%d, %10.2f mm - %10.2f mm \n", i, pos[i] - length , pos[i]);
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}
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}
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printf("=================================\n");
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int numDet = rDet * cDet;
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zRange[1] = array.zMin - 50;
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zRange[2] = array.zMax + 50;
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printf(" zRange : %f - %f \n", zRange[1], zRange[2]);
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printf("=================================\n");
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//========================================= Ex List;
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printf(" loading Ex list\n");
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TMacro * exListMacro = (TMacro *) file->FindObjectAny("ExList");
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int numEx = exListMacro->GetListOfLines()->GetSize() - 1 ;
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for(int i = 1; i <= numEx ; i++){
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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] == '/' ) continue;
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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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exList.push_back(atof(tempStr[0].c_str()));
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}
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double exSpan = exList.back() - exList[0];
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const int nExID = exList.size();
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printf("========= number of excited states : %d \n", nExID);
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ExRange[0] = exList[0] - exSpan * 0.2;
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ExRange[1] = exList.back() + exSpan * 0.2;
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if( isOverRideEx ) {
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ExRange[0] = oExRange[0];
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ExRange[1] = oExRange[1];
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}
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printf("=================================\n");
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//========================================= reaction parameters
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printf(" loading reaction parameters \n");
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TMacro * reactionData = (TMacro *) file->FindObjectAny("reactionData");
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double mass = ExtractNumber(0, reactionData);
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double q = ExtractNumber(1, reactionData);
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double beta = ExtractNumber(2, reactionData);
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double Et = ExtractNumber(3, reactionData);
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double massB = ExtractNumber(4, reactionData);
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double alpha = ExtractNumber(5, reactionData);
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double gamm = 1./TMath::Sqrt(1-beta*beta);
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double slope = alpha * beta;
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printf("\tmass-b : %f MeV/c2 \n", mass);
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printf("\tcharge-b : %f \n", q);
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printf("\tE-total : %f MeV \n", Et);
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printf("\tmass-B : %f MeV/c2 \n", massB);
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printf("\tbeta : %f \n", beta);
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printf("\tslope : %f MeV/mm \n", slope);
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printf("=================================\n");
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//=================================== calculate Ranges
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//eRange by zRange and exList
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double QQ = (Et*Et + mass*mass - (massB-exList[0])*(massB-exList[0]))/2/Et;
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double intercept = QQ/gamm - mass;
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eRange[1] = intercept + zRange[2] * slope;
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///printf("intercept of 0 MeV : %f MeV \n", intercept);
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///printf("eRange 0 MeV : %f MeV \n", eRange[1]);
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//thetaCMRange
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///double momentum = sqrt(( Et*Et - pow(mass + massB - exList[0],2)) * ( Et*Et - pow(mass - massB + exList[0],2)))/2/Et;
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///double thetaMax = acos( (beta * QQ- alpha / gamm * zRange[2])/momentum) * TMath::RadToDeg();
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///thetaCMRange[1] = (int) TMath::Ceil(thetaMax/10.)*10;
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///printf(" momentum : %f \n", momentum);
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///printf(" thetaCM Max : %f \n", thetaMax);
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///printf(" thetaCM Range : %d \n", thetaCMRange[1]);
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//===================================================
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printf("============================== Gate\n");
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printf("gate : %s\n", gate.Data());
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printf("====================================\n");
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Int_t size[2] = {padSize,padSize}; ///x,y, single Canvas size
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TCanvas * cCheck = new TCanvas("cCheck", "Check For Simulation", 0, 0, size[0]*Div[0], size[1]*Div[1]);
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if(cCheck->GetShowEditor() )cCheck->ToggleEditor();
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if(cCheck->GetShowToolBar() )cCheck->ToggleToolBar();
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cCheck->Divide(Div[0],Div[1]);
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for( int i = 1; i <= Div[0]*Div[1] ; i++){
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cCheck->cd(i);
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cCheck->cd(i)->SetGrid();
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if( canvas[i-1] == pThetaCM ) {
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cCheck->cd(i)->SetGrid(0,0);
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cCheck->cd(i)->SetLogy();
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}
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if( canvas[i-1] == pHitID ){
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cCheck->cd(i)->SetLogy();
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}
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plotID pID = canvas[i-1];
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///########################################
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if( pID == pEZ){
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TH2F * hez = new TH2F("hez", Form("e-z [gated] @ %5.0f mm; z [mm]; e [MeV]", firstPos), zRange[0], zRange[1], zRange[2], 400, eRange[0], eRange[1]);
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tree->Draw("e:z>>hez", gate, "colz");
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if( shownKELines){
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for( int i = 0; i < nExID ; i++){
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fxList->At(i)->Draw("same");
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}
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}
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}
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if( pID == pRecoilXY ){
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TH2F * hRecoilXY = new TH2F("hRecoilXY", Form("RecoilXY [gated] @ %4.0f mm; X [mm]; Y [mm]", posRecoil ), 400, -rhoRecoilOut, rhoRecoilOut, 400,-rhoRecoilOut, rhoRecoilOut);
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tree->Draw("yRecoil:xRecoil>>hRecoilXY", gate, "colz");
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TArc * detArc1 = new TArc(0,0, rhoRecoilOut);
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detArc1->SetLineColor(kBlue-8);
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detArc1->SetFillStyle(0);
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detArc1->Draw("same");
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TArc * detArc2 = new TArc(0,0, rhoRecoilIn);
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detArc2->SetLineColor(kBlue-8);
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detArc2->SetFillStyle(0);
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detArc2->Draw("same");
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if( xBeam != 0. || yBeam != 0. ){
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TArc * arc = new TArc(xBeam, yBeam, 1);
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arc->SetLineColor(2);
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detArc1->SetFillStyle(0);
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arc->Draw("same");
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}
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}
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if( pID == pRecoilXY1 ){
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TH2F * hRecoilXY1 = new TH2F("hRecoilXY1", Form("RecoilXY-1 [gated] @ %4.0f mm; X [mm]; Y [mm]", posRecoil1 ), 400, -rhoRecoilOut, rhoRecoilOut, 400,-rhoRecoilOut, rhoRecoilOut);
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tree->Draw("yRecoil1:xRecoil1>>hRecoilXY1", gate, "colz");
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}
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if( pID == pRecoilXY2 ){
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TH2F * hRecoilXY2 = new TH2F("hRecoilXY2", Form("RecoilXY-2 [gated] @ %4.0f mm; X [mm]; Y [mm]", posRecoil2 ), 400, -rhoRecoilOut, rhoRecoilOut, 400,-rhoRecoilOut, rhoRecoilOut);
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tree->Draw("yRecoil2:xRecoil2>>hRecoilXY2", gate, "colz");
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}
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if( pID == pRecoilRZ ){
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TH2F * hRecoilRZ = new TH2F("hRecoilRZ", "RecoilR - Z [gated]; z [mm]; RecoilR [mm]", zRange[0], zRange[1], zRange[2], 400,0, rhoRecoilOut);
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tree->Draw("rhoRecoil:z>>hRecoilRZ", gate, "colz");
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}
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if( pID == pRecoilRTR ){
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FindRange("TB", gate, tree, recoilERange);
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TH2F * hRecoilRTR = new TH2F("hRecoilRTR", "RecoilR - recoilE [gated]; recoil Energy [MeV]; RecoilR [mm]", 500, recoilERange[0], recoilERange[1], 500, 0, rhoRecoilOut);
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tree->Draw("rhoRecoil:TB>>hRecoilRTR", gate, "colz");
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}
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if( pID == pTDiffZ ){
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double tDiffRange [2];
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FindRange("t-tB", gate, tree, tDiffRange);
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TH2F * hTDiffZ = new TH2F("hTDiffZ", "time(Array) - time(Recoil) vs Z [gated]; z [mm]; time diff [ns]", zRange[0], zRange[1], zRange[2], 500, tDiffRange[0], tDiffRange[1]);
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tree->Draw("t - tB : z >> hTDiffZ", gate, "colz");
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}
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if( pID == pThetaCM ){
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TH1F * hThetaCM[nExID];
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TLegend * legend = new TLegend(0.8,0.2,0.99,0.8);
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double maxCount = 0;
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int startID = 0; // set the start ExID
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for( int i = startID; i < nExID; i++){
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hThetaCM[i] = new TH1F(Form("hThetaCM%d", i), Form("thetaCM [gated] (ExID=%d); thetaCM [deg]; count", i), 200, thetaCMRange[0], thetaCMRange[1]);
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hThetaCM[i]->SetLineColor(i+1-startID);
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hThetaCM[i]->SetFillColor(i+1-startID);
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hThetaCM[i]->SetFillStyle(3000+i-startID);
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tree->Draw(Form("thetaCM>>hThetaCM%d", i), gate + Form("&& ExID==%d", i), "");
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legend->AddEntry(hThetaCM[i], Form("Ex=%5.1f MeV", exList[i]));
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double max = hThetaCM[i]->GetMaximum();
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if( max > maxCount ) maxCount = max;
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}
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for( int i = startID; i < nExID; i++){
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hThetaCM[i]->GetYaxis()->SetRangeUser(1, maxCount * 1.2);
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if( i == startID ) {
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hThetaCM[i]->Draw();
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}else{
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hThetaCM[i]->Draw("same");
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}
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}
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legend->Draw();
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}
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if( pID == pThetaCM_Z ){
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TH2F *hThetaCM_Z = new TH2F("hThetaCM_Z","ThetaCM vs Z ; Z [mm]; thetaCM [deg]",zRange[0], zRange[1], zRange[2], 200, thetaCMRange[0], thetaCMRange[1]);
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tree->Draw("thetaCM:z>>hThetaCM_Z",gate,"col");
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if( shownKELines){
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for( int i = 0; i < nExID ; i++){
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txList->At(i)->Draw("same");
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}
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}
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}
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if( pID == pExCal ){
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TH1F * hExCal = new TH1F("hExCal", Form("calculated Ex [gated]; Ex [MeV]; count / %.2f keV", (ExRange[1]-ExRange[0])/400.*1000), 400, ExRange[0], ExRange[1]);
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tree->Draw("ExCal>>hExCal", gate, "");
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Isotope hRecoil(reactionConfig.recoilHeavyA, reactionConfig.recoilHeavyZ);
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double Sn = hRecoil.CalSp(0,1);
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double Sp = hRecoil.CalSp(1,0);
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double Sa = hRecoil.CalSp2(4,2);
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double S2n = hRecoil.CalSp(0, 2);
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printf("Heavy recoil: %s \n", hRecoil.Name.c_str());
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printf("Sn : %f MeV/u \n", Sn);
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printf("Sp : %f MeV/u \n", Sp);
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printf("Sa : %f MeV/u \n", Sa);
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printf("S2n : %f MeV/u \n", S2n);
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double yMax = hExCal->GetMaximum();
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TLine * lineSn = new TLine(Sn, 0, Sn, yMax); lineSn->SetLineColor(2); lineSn->Draw("");
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TLine * lineSp = new TLine(Sp, 0, Sp, yMax); lineSp->SetLineColor(4); lineSp->Draw("same");
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TLine * lineSa = new TLine(Sa, 0, Sa, yMax); lineSa->SetLineColor(6); lineSa->Draw("same");
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TLine * lineS2n = new TLine(S2n, 0, S2n, yMax); lineS2n->SetLineColor(8); lineS2n->Draw("same");
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TLatex * text = new TLatex();
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text->SetTextFont(82);
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text->SetTextSize(0.06);
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text->SetTextColor(2); text->DrawLatex(Sn, yMax*0.9, "S_{n}");
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text->SetTextColor(4); text->DrawLatex(Sp, yMax*0.9, "S_{p}");
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text->SetTextColor(6); text->DrawLatex(Sa, yMax*0.9, "S_{a}");
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text->SetTextColor(8); text->DrawLatex(S2n, yMax*0.9, "S_{2n}");
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}
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if( pID == pRecoilRThetaCM ){
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TH2F * hRecoilRThetaCM = new TH2F("hRecoilRThetaCM", "RecoilR - thetaCM [gated]; thetaCM [deg]; RecoilR [mm]", 400, 0, 60, 400,0, rhoRecoilOut);
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tree->Draw("rhoRecoil:thetaCM>>hRecoilRThetaCM", gate, "colz");
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}
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if( pID == pArrayXY ){
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TH2F * hArrayXY = new TH2F("hArrayXY", "Array-XY [gated]; X [mm]; Y [mm]", 400, -prepDist*1.5, prepDist*1.5, 400, -prepDist*1.5, prepDist*1.5);
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tree->Draw("yArray:xArray>>hArrayXY", gate, "colz");
|
|
}
|
|
if( pID == pInfo ){
|
|
TLatex text;
|
|
text.SetNDC();
|
|
text.SetTextFont(82);
|
|
text.SetTextSize(0.06);
|
|
text.SetTextColor(2);
|
|
|
|
text.DrawLatex(0., 0.9, Reaction);
|
|
text.DrawLatex(0., 0.8, msg2);
|
|
text.SetTextColor(1);
|
|
text.DrawLatex(0., 0.7, "gate:");
|
|
|
|
text.SetTextColor(2);
|
|
//check gate text length, if > 30, break by "&&"
|
|
int ll = gate.Length();
|
|
if( ll > 30 ) {
|
|
vector<string> strList = AnalysisLib::SplitStr( (string) gate.Data(), "&&");
|
|
for( int i = 0; i < strList.size(); i++){
|
|
text.DrawLatex(0., 0.6 - 0.05*i, (TString) strList[i]);
|
|
}
|
|
}else{
|
|
text.DrawLatex(0., 0.6, gate);
|
|
}
|
|
|
|
if( xBeam != 0.0 || yBeam != 0.0 ){
|
|
text.DrawLatex(0.0, 0.1, Form("Bema pos: (%4.1f, %4.1f) mm", xBeam, yBeam));
|
|
}
|
|
}
|
|
|
|
if( pID == pElum1XY ){
|
|
|
|
TH2F * hElum1XY = new TH2F("hElum1XY", Form("Elum-1 XY [gated] @ %.0f mm ; X [mm]; Y [mm]", elum1), 400, -elumRange, elumRange, 400, -elumRange, elumRange);
|
|
tree->Draw("yElum1:xElum1>>hElum1XY", gate, "colz");
|
|
|
|
double count = hElum1XY->GetEntries();
|
|
|
|
if( count < 2000. ) {
|
|
hElum1XY->SetMarkerStyle(7);
|
|
if( count < 500. ) hElum1XY->SetMarkerStyle(3);
|
|
hElum1XY->Draw("scat");
|
|
}
|
|
}
|
|
|
|
if( pID == pEElum1R ){
|
|
TH2F * hEElum1Rho = new TH2F("hEElum1Rho", "Elum-1 E-R [gated]; R[mm]; Energy[MeV]", 400, 0, elumRange, 400, eRange[0], eRange[1]);
|
|
tree->Draw("Tb:rhoElum1>>hEElum1Rho", gate, "colz");
|
|
}
|
|
|
|
if( pID == pElum1RThetaCM){
|
|
int angBin = 400;
|
|
|
|
TH2F * hElum1RThetaCM = new TH2F("hElum1RThetaCM", "Elum-1 rho vs ThetaCM [gated]; thatCM [deg]; Elum- rho [mm]", angBin, thetaCMRange[0], thetaCMRange[1], 400, 0, elumRange);
|
|
tree->Draw("rhoElum1:thetaCM>>hElum1RThetaCM", gate, "colz");
|
|
|
|
TH1F * htemp = (TH1F *) hElum1RThetaCM->ProjectionX("htemp");
|
|
|
|
double rel = (thetaCMRange[1] - thetaCMRange[0])*1.0/angBin;
|
|
printf("angular resolution : %f deg \n", rel);
|
|
|
|
vector<double> xList;
|
|
double old_y = 0;
|
|
for( int i = 1; i <= angBin; i++){
|
|
double y = htemp->GetBinContent(i);
|
|
if( old_y == 0 && y > 0) xList.push_back(htemp->GetBinCenter(i));
|
|
if( old_y > 0 && y == 0 ) xList.push_back(htemp->GetBinCenter(i));
|
|
old_y = y;
|
|
}
|
|
|
|
printf("list of gaps :\n");
|
|
for( int i = 0; i < (int) xList.size(); i+=2){
|
|
printf("%d | %.3f - %.3f deg\n", i, xList[i], xList[i+1]);
|
|
}
|
|
|
|
TF1 f1("f1", "sin(x)");
|
|
double acceptance = 0;
|
|
double err1 = 0;
|
|
double err2 = 0;
|
|
for( int i = 0; i < (int) xList.size(); i += 2 ){
|
|
acceptance += f1.Integral(xList[i] * TMath::DegToRad(), xList[i+1] * TMath::DegToRad() ) * TMath::TwoPi();
|
|
err1 += f1.Integral((xList[i]-rel) * TMath::DegToRad(), (xList[i+1] + rel) * TMath::DegToRad() ) * TMath::TwoPi();
|
|
err2 += f1.Integral((xList[i]+rel) * TMath::DegToRad(), (xList[i+1] - rel) * TMath::DegToRad() ) * TMath::TwoPi();
|
|
}
|
|
printf("acceptance = %f sr +- %f \n", acceptance, (err1-err2)/2);
|
|
|
|
TLatex text;
|
|
text.SetTextFont(82);
|
|
text.SetTextSize(0.06);
|
|
text.SetTextColor(2);
|
|
text.SetTextAngle(90);
|
|
|
|
for( int i = 0; i < (int) xList.size(); i++){
|
|
text.DrawLatex(xList[i], elumRange/2, Form("%.2f", xList[i]));
|
|
}
|
|
|
|
text.SetNDC();
|
|
text.SetTextAngle(0);
|
|
text.DrawLatex(0.15, 0.15, Form("accp. = %.2f(%.2f) msr", acceptance * 1000., (err1-err2)*1000./2));
|
|
|
|
}
|
|
|
|
if( pID == pHitID ){
|
|
printf("=======================meaning of Hit ID\n");
|
|
printf(" 1 = light recoil hit array & heavy recoil hit recoil\n");
|
|
printf(" 0 = no detector\n");
|
|
printf(" -1 = light recoil go opposite side of array\n");
|
|
printf(" -2 = light recoil hit > det width\n");
|
|
printf(" -3 = light recoil hit > array \n");
|
|
printf(" -4 = light recoil hit blocker \n");
|
|
printf(" -10 = light recoil orbit radius too big \n");
|
|
printf(" -11 = light recoil orbit radius too small\n");
|
|
printf(" -12 = when reocol at the same side of array, light recoil blocked by recoil detector\n");
|
|
printf(" -13 = more than 3 loops\n");
|
|
printf(" -14 = heavy recoil did not hit recoil \n");
|
|
printf(" -15 = cannot find hit on array\n");
|
|
printf(" -20 = unknown\n");
|
|
printf("===========================================\n");
|
|
|
|
TH1F * hHit = new TH1F("hHit", "hit; hit-ID; count", 13, -11, 2);
|
|
tree->Draw("hit>>hHit", "", "");
|
|
}
|
|
///#######################################################
|
|
|
|
}
|
|
|
|
cCheck->Modified();
|
|
cCheck->Update();
|
|
|
|
if( outputCanvas ){
|
|
TDatime dateTime;
|
|
TString outPNGName = Form("Sim_%d%02d%02d_%06d.png", dateTime.GetYear(), dateTime.GetMonth(), dateTime.GetDay(), dateTime.GetTime());
|
|
|
|
cCheck->SaveAs(outPNGName);
|
|
printf("%s\n", outPNGName.Data());
|
|
|
|
gROOT->ProcessLine(".q");
|
|
|
|
}
|
|
}
|
|
|
|
///============================================================
|
|
///============================================================
|
|
|
|
double * FindRange(TString branch, TString gate, TTree * tree, double output[2]){
|
|
tree->Draw(Form("%s>>temp1", branch.Data()), gate);
|
|
TH1F * temp1 = (TH1F *) gROOT->FindObjectAny("temp1");
|
|
|
|
output[1] = temp1->GetXaxis()->GetXmax();
|
|
output[0] = temp1->GetXaxis()->GetXmin();
|
|
|
|
delete temp1;
|
|
return output;
|
|
}
|
|
|
|
double ExtractNumber(int index, TMacro * macro){
|
|
|
|
TString field = macro->GetListOfLines()->At(index)->GetName();
|
|
int pos = field.First('/');
|
|
if( pos >= 0 ) field.Remove(pos);
|
|
|
|
return field.Atof();
|
|
|
|
}
|
|
TString ExtractString(int index, TMacro * macro){
|
|
|
|
TString field = macro->GetListOfLines()->At(index)->GetName();
|
|
|
|
int pos = field.First('/');
|
|
if( pos >= 0 ) field.Remove(pos);
|
|
|
|
return field;
|
|
|
|
}
|
|
|
|
vector<TString> StringToVector(TString str){
|
|
|
|
vector<TString> temp;
|
|
|
|
bool startFlag = false;
|
|
bool endFlag = false;
|
|
string jaja="";
|
|
for(int i = 0; i < str.Length(); i++){
|
|
|
|
if( str[i] == '{' ) {
|
|
startFlag = true;
|
|
continue;
|
|
}
|
|
if( str[i] == ' '){
|
|
continue;
|
|
}
|
|
if( startFlag && !endFlag){
|
|
|
|
if( str[i] == ',' ){
|
|
temp.push_back(jaja);
|
|
jaja="";
|
|
continue;
|
|
}
|
|
|
|
if( str[i] == '}') {
|
|
temp.push_back(jaja);
|
|
endFlag = true;
|
|
continue;
|
|
}
|
|
jaja += str[i];
|
|
|
|
}
|
|
}
|
|
return temp;
|
|
}
|
|
|
|
vector<int> intConvertor(vector<TString> arr){
|
|
vector<int> out ;
|
|
for( int i = 0 ; i < (int) arr.size(); i++){
|
|
out.push_back( arr[i].Atoi());
|
|
}
|
|
return out;
|
|
}
|
|
vector<double> doubleConvertor(vector<TString> arr){
|
|
vector<double> out ;
|
|
for( int i = 0 ; i < (int) arr.size(); i++){
|
|
out.push_back( arr[i].Atof());
|
|
}
|
|
return out;
|
|
}
|
|
|
|
plotID StringToPlotID(TString str){
|
|
|
|
if( str == "pEZ") return plotID::pEZ; ///0
|
|
if( str == "pRecoilXY") return plotID::pRecoilXY; /// 1
|
|
if( str == "pRecoilXY1" ) return plotID::pRecoilXY1; /// 2
|
|
if( str == "pRecoilXY2" ) return plotID::pRecoilXY2; /// 3
|
|
if( str == "pRecoilRZ" ) return plotID::pRecoilRZ; /// 4
|
|
if( str == "pRecoilRTR" ) return plotID::pRecoilRTR; /// 5
|
|
if( str == "pTDiffZ" ) return plotID::pTDiffZ; /// 6
|
|
if( str == "pThetaCM" ) return plotID::pThetaCM; /// 7
|
|
if( str == "pThetaCM_Z" ) return plotID::pThetaCM_Z; /// 8
|
|
if( str == "pExCal" ) return plotID::pExCal; /// 9
|
|
if( str == "pRecoilRThetaCM" ) return plotID::pRecoilRThetaCM; /// 10
|
|
if( str == "pArrayXY" ) return plotID::pArrayXY; /// 11
|
|
if( str == "pInfo" ) return plotID::pInfo; /// 12
|
|
if( str == "pHitID" ) return plotID::pHitID; /// 13
|
|
if( str == "pElum1XY" ) return plotID::pElum1XY; /// 14
|
|
if( str == "pEElum1R" ) return plotID::pEElum1R; /// 14
|
|
if( str == "pElum1RThetaCM" ) return plotID::pElum1RThetaCM; /// 15
|
|
if( str == "pEmpty" ) return plotID::pEmpty ; /// 16
|
|
|
|
return plotID::pEmpty;
|
|
}
|