222 lines
5.9 KiB
C
222 lines
5.9 KiB
C
#include "TRandom.h"
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#include "TFile.h"
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#include "TTree.h"
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#include "TH1.h"
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#include "TH2.h"
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#include "TStyle.h"
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#include "TCanvas.h"
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#include "TBenchmark.h"
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#include "ClassTransfer.h"
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#include "ClassAnasen.h"
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//======== Gerneate light particle based on reaction
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// find out the CalTrack and the real track
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// find out the Q-value uncertaintly
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void anasenMS(){
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const int numEvent = 100000;
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//Reaction
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TransferReaction transfer;
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transfer.SetA(12, 6, 0);
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transfer.SetIncidentEnergyAngle(10, 0, 0);
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transfer.Seta( 2, 1);
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transfer.Setb( 1, 1);
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std::vector<float> ExAList = {0};
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std::vector<float> ExList = {0, 1, 2};
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double vertexXRange[2] = { 0, 0};
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double vertexYRange[2] = { 0, 0};
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double vertexZRange[2] = { 0, 0};
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//###################################################
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transfer.CalReactionConstant();
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int nExA = ExAList.size();
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int nEx = ExList.size();
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ANASEN anasen;
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TString saveFileName = "msAnasen.root";
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printf("\e[32m#################################### building Tree in %s\e[0m\n", saveFileName.Data());
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TFile * saveFile = new TFile(saveFileName, "recreate");
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TTree * tree = new TTree("tree", "tree");
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double KEA;
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tree->Branch("beamKEA", &KEA, "beamKEA/D");
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double thetaCM, phiCM;
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tree->Branch("thetaCM", &thetaCM, "thetaCM/D");
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tree->Branch("phiCM", &phiCM, "phiCM/D");
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double thetab, phib, Tb;
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double thetaB, phiB, TB;
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tree->Branch("thetab", &thetab, "thetab/D");
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tree->Branch("phib", &phib, "phib/D");
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tree->Branch("Tb", &Tb, "Tb/D");
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tree->Branch("thetaB", &thetaB, "thetaB/D");
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tree->Branch("phiB", &phiB, "phiB/D");
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tree->Branch("TB", &TB, "TB/D");
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int ExAID;
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double ExA;
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tree->Branch("ExAID", &ExAID, "ExAID/I");
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tree->Branch("ExA", &ExA, "ExA/D");
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int ExID;
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double Ex;
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tree->Branch("ExID", &ExID, "ExID/I");
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tree->Branch("Ex", &Ex, "Ex/D");
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double vertexX, vertexY, vertexZ;
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tree->Branch("vX", &vertexX, "VertexX/D");
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tree->Branch("vY", &vertexY, "VertexY/D");
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tree->Branch("vZ", &vertexZ, "VertexZ/D");
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double sx3X, sx3Y, sx3Z;
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tree->Branch("sx3X", &sx3X, "sx3X/D");
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tree->Branch("sx3Y", &sx3Y, "sx3Y/D");
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tree->Branch("sx3Z", &sx3Z, "sx3Z/D");
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int anodeID, cathodeID;
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tree->Branch("aID", &anodeID, "anodeID/I");
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tree->Branch("cID", &cathodeID, "cathodeID/I");
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int sx3ID, sx3Up, sx3Down, sx3Back;
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double sx3ZFrac;
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tree->Branch("sx3ID", &sx3ID, "sx3ID/I");
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tree->Branch("sx3Up", &sx3Up, "sx3Up/I");
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tree->Branch("sx3Down", &sx3Down, "sx3Down/I");
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tree->Branch("sx3Back", &sx3Back, "sx3Back/I");
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tree->Branch("sx3ZFrac", &sx3ZFrac, "sx3ZFrac/D");
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double reTheta, rePhi;
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tree->Branch("reTheta", &reTheta, "reconstucted_theta/D");
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tree->Branch("rePhi", &rePhi, "reconstucted_phi/D");
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//========timer
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TBenchmark clock;
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bool shown ;
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clock.Reset();
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clock.Start("timer");
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shown = false;
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//================================= Calculate event
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for( int i = 0; i < numEvent ; i++){
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ExAID = gRandom->Integer(nExA);
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ExA = ExAList[ExAID];
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transfer.SetExA(ExA);
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ExID = gRandom->Integer(nEx);
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Ex = ExList[ExID];
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transfer.SetExB(Ex);
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thetaCM = TMath::ACos(2 * gRandom->Rndm() - 1) ;
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phiCM = (gRandom->Rndm() - 0.5) * TMath::TwoPi();
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//==== Calculate reaction
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TLorentzVector * output = transfer.Event(thetaCM, phiCM);
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TLorentzVector Pb = output[2];
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TLorentzVector PB = output[3];
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thetab = Pb.Theta() * TMath::RadToDeg();
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thetaB = PB.Theta() * TMath::RadToDeg();
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Tb = Pb.E() - Pb.M();
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TB = PB.E() - PB.M();
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phib = Pb.Phi() * TMath::RadToDeg();
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phiB = PB.Phi() * TMath::RadToDeg();
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vertexX = (vertexXRange[1]- vertexXRange[0])*gRandom->Rndm() + vertexXRange[0];
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vertexY = (vertexYRange[1]- vertexYRange[0])*gRandom->Rndm() + vertexYRange[0];
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vertexZ = (vertexZRange[1]- vertexZRange[0])*gRandom->Rndm() + vertexZRange[0];
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TVector3 vertex(vertexX, vertexY, vertexZ);
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TVector3 dir(1, 0, 0);
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dir.SetTheta(thetab * TMath::DegToRad());
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dir.SetPhi(phib * TMath::DegToRad());
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std::pair<int, int> wireID = anasen.FindWireID(vertex, dir, false);
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SX3 sx3 = anasen.FindSX3Pos(vertex, dir, false);
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anodeID = wireID.first;
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cathodeID = wireID.second;
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sx3ID = sx3.id;
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if( sx3.id >= 0 ){
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sx3Up = sx3.chUp;
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sx3Down = sx3.chDown;
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sx3Back = sx3.chBack;
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sx3ZFrac = sx3.zFrac;
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sx3X = sx3.hitPos.X();
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sx3Y = sx3.hitPos.Y();
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sx3Z = sx3.hitPos.Z();
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// for( int i = 0; i < 12; i++){
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// sx3Index[i] = -1;
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// if( i == sx3Up ) sx3Index[i] = sx3ID * 12 + sx3Up;
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// if( i == sx3Down ) sx3Index[i] = sx3ID * 12 + sx3Down;
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// if( i == sx3Back ) sx3Index[i] = sx3ID * 12 + sx3Back;
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// }
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anasen.CalTrack(sx3.hitPos, wireID.first, wireID.second, false);
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reTheta = anasen.GetTrackTheta() * TMath::RadToDeg();
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rePhi = anasen.GetTrackPhi() * TMath::RadToDeg();
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}else{
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sx3Up = -1;
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sx3Down = -1;
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sx3Back = -1;
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sx3ZFrac = TMath::QuietNaN();
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sx3X = TMath::QuietNaN();
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sx3Y = TMath::QuietNaN();
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sx3Z = TMath::QuietNaN();
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// for( int i = 0; i < 12; i++){
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// sx3Index[i] = -1;
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// }
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reTheta = TMath::QuietNaN();
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rePhi = TMath::QuietNaN();
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}
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tree->Fill();
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//#################################################################### Timer
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clock.Stop("timer");
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Double_t time = clock.GetRealTime("timer");
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clock.Start("timer");
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if ( !shown ) {
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if (fmod(time, 10) < 1 ){
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printf( "%10d[%2d%%]| %8.2f sec | expect: %5.1f min \n", i, TMath::Nint((i+1)*100./numEvent), time , numEvent*time/(i+1)/60);
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shown = 1;
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}
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}else{
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if (fmod(time, 10) > 9 ){
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shown = 0;
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}
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}
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}
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tree->Write();
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int count = tree->GetEntries();
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saveFile->Close();
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printf("=============== done. saved as %s. count(hit==1) : %d\n", saveFileName.Data(), count);
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} |