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make_fit_ntuple_v2.C
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make_fit_ntuple_v2.C
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#include <TSystem.h>
#include <TString.h>
#include "TFile.h"
#include "TTree.h"
#include <TNtuple.h>
#include "TCanvas.h"
#include <iostream>
#include <fstream>
#include "TMath.h"
#include "TH1F.h"
#include <TH2.h>
#include <TCutG.h>
#include <TStyle.h>
#include <TGraph.h>
#include <TROOT.h>
#include <TMath.h>
#include <TLegend.h>
#include <TPaveLabel.h>
#include <TProfile.h>
#include <TPolyLine.h>
#include <TObjArray.h>
#include <cmath>
#include <cstdio>
#include <cstdlib>
#include<math.h>
#include <iostream>
#include <fstream>
using namespace std;
void make_fit_ntuple_v2(Int_t nrun=1814,Int_t FileID=-2){
Double_t yMP = -0.03;//0.0;
Double_t xMP = -0.126;//0.0;
Double_t xptarOffset = 0.0;//-0.002221854212;//offset used in replay as xptar = xptar + offset
Bool_t CutYtarFlag=kTRUE;
Bool_t CutYpFpYFpFlag=kTRUE;
Bool_t CutXpFpXFpFlag=kTRUE;
gStyle->SetPalette(1,0);
gStyle->SetOptStat(1000011);
gStyle->SetOptFit(11);
gStyle->SetTitleOffset(1.,"Y");
gStyle->SetTitleOffset(.7,"X");
gStyle->SetLabelSize(0.04,"XY");
gStyle->SetTitleSize(0.06,"XY");
gStyle->SetPadLeftMargin(0.12);
// Get info for that optics run
TString OpticsFile = "list_of_optics_run.dat";
ifstream file_optics(OpticsFile.Data());
TString opticsline;
TString OpticsID="";
Int_t RunNum=0.;
Double_t CentAngle=0.;
Int_t SieveFlag=1;
Int_t NumFoil=0;
TString temp;
//
vector <Double_t> ztar_foil;
Int_t ndelcut;
vector<Double_t > delcut;
vector<Double_t > delwidth;
if (file_optics.is_open()) {
//
cout << " Open file = " << OpticsFile << endl;
while (RunNum!=nrun ) {
temp.ReadToDelim(file_optics,',');
cout << temp << endl;
if (temp.Atoi() == nrun) {
RunNum = temp.Atoi();
} else {
temp.ReadLine(file_optics);
}
}
if (RunNum==nrun) {
temp.ReadToDelim(file_optics,',');
OpticsID = temp;
temp.ReadToDelim(file_optics,',');
CentAngle = temp.Atof();
temp.ReadToDelim(file_optics,',');
NumFoil = temp.Atoi();
temp.ReadToDelim(file_optics,',');
SieveFlag = temp.Atoi();
temp.ReadToDelim(file_optics);
ndelcut = temp.Atoi();
for (Int_t nf=0;nf<NumFoil-1;nf++) {
temp.ReadToDelim(file_optics,',');
ztar_foil.push_back(temp.Atof());
}
temp.ReadToDelim(file_optics);
ztar_foil.push_back(temp.Atof());
for (Int_t nd=0;nd<ndelcut-1;nd++) {
temp.ReadToDelim(file_optics,',');
delcut.push_back(temp.Atof());
}
temp.ReadToDelim(file_optics);
delcut.push_back(temp.Atof());
for (Int_t nw=0;nw<ndelcut-1;nw++) {
temp.ReadToDelim(file_optics,',');
delwidth.push_back(temp.Atof());
}
temp.ReadToDelim(file_optics);
delwidth.push_back(temp.Atof());
}
} else {
cout << " No file = " << OpticsFile << endl;
}
cout << RunNum << " " << OpticsID << " " << CentAngle << " " << NumFoil << " " << SieveFlag << endl;
if (NumFoil==0) return;
for (Int_t nf=0;nf<NumFoil;nf++) {
cout << nf << " foil = " << ztar_foil[nf] << endl;
}
vector <Double_t> ys_cent;
vector <Double_t> xs_cent;
for (Int_t nys=0;nys<11;nys++) {
Double_t ypos=nys*1.64-1.64*5;
ys_cent.push_back(ypos);
Double_t xpos=nys*2.5-2.5*5;
xs_cent.push_back(xpos);
}
//
//
//
TString inputroot;
TString outputroot;
if (nrun==16023){inputroot=Form("ROOTfiles/cafe_replay_optics_%s_%d.root",OpticsID.Data(),FileID);}
else if (nrun==16024){inputroot=Form("ROOTfiles/cafe_replay_optics_comb_6p8deg_%d.root",FileID);}
else if (nrun==16031){inputroot=Form("ROOTfiles/cafe_replay_optics_%s_%d.root",OpticsID.Data(),FileID);}
else if (nrun==16029){inputroot=Form("ROOTfiles/cafe_replay_prod_%s_%d.root",OpticsID.Data(),FileID);}
else if (nrun==16033){inputroot=Form("ROOTfiles/cafe_replay_optics_%s_%d.root",OpticsID.Data(),FileID);}
else {inputroot=Form("ROOTfiles/cafe_replay_optics_comb_8p3deg_%d.root",FileID);}
outputroot= Form("hist/Optics_%s_%d_fit_tree.root",OpticsID.Data(),FileID);
TH1F *hxbpm_tar = new TH1F("hxbpm_tar",Form("Run %d ; Xbpm_tar ; Counts",nrun),100,-2.,2.);
TH1F *hybpm_tar = new TH1F("hybpm_tar",Form("Run %d ; Ybpm_tar ; Counts",nrun),100,-2.,2.);
//
//
TString YtarDeltaCutFile;
TFile *fYtarDeltaCut;
vector <TCutG*> ytar_delta_cut;
if (CutYtarFlag) {
YtarDeltaCutFile=Form("cuts/ytar_delta_%s_%d_cut.root",OpticsID.Data(),FileID);
fYtarDeltaCut = new TFile(YtarDeltaCutFile);
cout << " Cut file = " << YtarDeltaCutFile << endl;
for (Int_t nc=0;nc<NumFoil;nc++) {
fYtarDeltaCut->cd();
TCutG* tempcut = (TCutG*)gROOT->FindObject(Form("delta_vs_ytar_cut_foil%d",nc));
if (tempcut) {
Int_t npt = tempcut->GetN();
cout << "hYtarDelta_cut = " << nc << " npts = " << npt << endl;
ytar_delta_cut.push_back(tempcut);
} else {
cout << " No hYtarDelta_cut = " << nc << endl;
}
}
}
//
TString outCutFile;
TFile *fcut;
vector<vector<vector<TCutG*> > > ypfp_yfp_cut;
vector<vector<vector<Int_t> > > ypfp_yfp_cut_flag;
ypfp_yfp_cut.resize(NumFoil);
ypfp_yfp_cut_flag.resize(NumFoil);
for (Int_t nf=0;nf<NumFoil;nf++) {
ypfp_yfp_cut[nf].resize(ndelcut);
ypfp_yfp_cut_flag[nf].resize(ndelcut);
}
if (CutYpFpYFpFlag) {
outCutFile=Form("cuts/YpFpYFp_%s_%d_cut.root",OpticsID.Data(),FileID);
fcut = new TFile(outCutFile);
cout << " Cut file = " << outCutFile << endl;
fcut->cd();
for (Int_t nf=0;nf<NumFoil;nf++) {
for (Int_t nd=0;nd<ndelcut;nd++) {
for (Int_t nc=0;nc<11;nc++) {
TCutG* tempg = (TCutG*)gROOT->FindObject(Form("hYpFpYFp_cut_yscol_%d_nfoil_%d_ndel_%d",nc,nf,nd));
if (tempg) {
Int_t npt = tempg->GetN();
//cout << "hYpFpYFp_cut = " << nf << " " << nd << " " << nc << " npts = " << npt << endl;
//cout << "hYpFpYFp_cut = " << nc << " " << nf << " " << nd << endl;
ypfp_yfp_cut[nf][nd].push_back(tempg);
} else {
//cout << " No hYpFpYFp_cut = " << nc << " " << nf << " " << nd << endl;
ypfp_yfp_cut[nf][nd].push_back(tempg);
}
}}}
}
//
TString xpfp_xfp_outCutFile;
TFile *xpfp_xfp_fcut;
vector<vector<vector<TCutG*> > > xpfp_xfp_cut;
vector<vector<vector<Int_t> > > xpfp_xfp_cut_flag;
xpfp_xfp_cut.resize(NumFoil);
xpfp_xfp_cut_flag.resize(NumFoil);
for (Int_t nf=0;nf<NumFoil;nf++) {
xpfp_xfp_cut[nf].resize(ndelcut);
xpfp_xfp_cut_flag[nf].resize(ndelcut);
}
if (CutXpFpXFpFlag) {
xpfp_xfp_outCutFile=Form("cuts/XpFpXFp_%s_%d_cut.root",OpticsID.Data(),FileID);
xpfp_xfp_fcut = new TFile(xpfp_xfp_outCutFile);
cout << "xpfp_xfp_ Cut file = " << xpfp_xfp_outCutFile << endl;
xpfp_xfp_fcut->cd();
for (Int_t nf=0;nf<NumFoil;nf++) {
for (Int_t nd=0;nd<ndelcut;nd++) {
for (Int_t nc=0;nc<11;nc++) {
TCutG* tempg = (TCutG*)gROOT->FindObject(Form("hXpFpXFp_cut_yscol_%d_nfoil_%d_ndel_%d",nc,nf,nd));
if (tempg) {
//cout << "hXpFpXFp_cut = " << nc << " " << nf << " " << nd << endl;
xpfp_xfp_cut[nf][nd].push_back(tempg);
} else {
//cout << " No hXpFpXFp_cut = " << nc << " " << nf << " " << nd << endl;
xpfp_xfp_cut[nf][nd].push_back(tempg);
}
}}}
}
//
TFile *fsimc = new TFile(inputroot);
TTree *tsimc = (TTree*) fsimc->Get("T");
// Define branches
Double_t sumnpe;
tsimc->SetBranchAddress("P.ngcer.npeSum",&sumnpe);
Double_t sumhgnpe;
tsimc->SetBranchAddress("P.hgcer.npeSum",&sumhgnpe);
Double_t etracknorm;
tsimc->SetBranchAddress("P.cal.etottracknorm",&etracknorm);
Double_t ytar;
tsimc->SetBranchAddress("P.gtr.y",&ytar);
Double_t xtar;
tsimc->SetBranchAddress("P.gtr.x",&xtar);
Double_t reactx;
tsimc->SetBranchAddress("P.react.x",&reactx);
Double_t reacty;
tsimc->SetBranchAddress("P.react.y",&reacty);
Double_t reactz;
tsimc->SetBranchAddress("P.react.z",&reactz);
Double_t delta;
tsimc->SetBranchAddress("P.gtr.dp",&delta);
Double_t yptar;
tsimc->SetBranchAddress("P.gtr.ph",&yptar);
Double_t xptar;
tsimc->SetBranchAddress("P.gtr.th",&xptar);
Double_t yfp;
tsimc->SetBranchAddress("P.dc.y_fp",&yfp);
Double_t ypfp;
tsimc->SetBranchAddress("P.dc.yp_fp",&ypfp);
Double_t xfp;
tsimc->SetBranchAddress("P.dc.x_fp",&xfp);
Double_t xpfp;
tsimc->SetBranchAddress("P.dc.xp_fp",&xpfp);
Double_t ysieve;
// tsimc->SetBranchAddress("P.extcor.ysieve",&ysieve);
Double_t xsieve;
//tsimc->SetBranchAddress("P.extcor.xsieve",&xsieve);
Double_t xbpm_tar;
tsimc->SetBranchAddress("P.rb.raster.fr_xbpm_tar",&xbpm_tar);
Double_t ybpm_tar;
tsimc->SetBranchAddress("P.rb.raster.fr_ybpm_tar",&ybpm_tar);
Double_t frx;
tsimc->SetBranchAddress("P.rb.raster.fr_xa",&frx);
Double_t fry;
tsimc->SetBranchAddress("P.rb.raster.fr_ya",&fry);
Double_t xptarT,ytarT,yptarT,ysieveT,xsieveT,ztarT,ztar,xtarT;
//
TFile hroot(outputroot,"recreate");
TTree *otree = new TTree("TFit","FitTree");
otree->Branch("ys",&ysieve);
otree->Branch("ysT",&ysieveT);
otree->Branch("xs",&xsieve);
otree->Branch("xsT",&xsieveT);
otree->Branch("ztarT",&ztarT);
otree->Branch("xtar",&xtar);
otree->Branch("xtarT",&xtarT);
otree->Branch("ztar",&ztar);
otree->Branch("xptar",&xptar);
otree->Branch("yptar",&yptar);
otree->Branch("ytar",&ytar);
otree->Branch("xptarT",&xptarT);
otree->Branch("yptarT",&yptarT);
otree->Branch("ytarT",&ytarT);
otree->Branch("delta",&delta);
otree->Branch("xpfp",&xpfp);
otree->Branch("ypfp",&ypfp);
otree->Branch("xfp",&xfp);
otree->Branch("yfp",&yfp);
otree->Branch("reactxcalc",&reactx);
otree->Branch("reactycalc",&reacty);
//
//parse the input matrix elements
//string coeffsfilename="newfit_global_zbin_30deg.dat";
//string coeffsfilename="newfit_10790_zbin.dat";
string coeffsfilename="hsv_fit_global.dat";
ifstream coeffsfile(coeffsfilename.c_str());
TString currentline;
int num_recon_terms=0;
vector<double> xptarcoeffs;
vector<double> yptarcoeffs;
vector<double> ytarcoeffs;
vector<double> deltacoeffs;
vector<int> xfpexpon;
vector<int> xpfpexpon;
vector<int> yfpexpon;
vector<int> ypfpexpon;
vector<int> xtarexpon;
while( currentline.ReadLine(coeffsfile,kFALSE) && !currentline.BeginsWith(" ----") ){
TString sc1(currentline(1,16));
TString sc2(currentline(17,16));
TString sc3(currentline(33,16));
TString sc4(currentline(49,16));
xptarcoeffs.push_back(sc1.Atof());
ytarcoeffs.push_back(sc2.Atof());
yptarcoeffs.push_back(sc3.Atof());
deltacoeffs.push_back(sc4.Atof());
int expontemp[5];
for(int expon=0; expon<5; expon++){
TString stemp(currentline(66+expon,1));
expontemp[expon] = stemp.Atoi();
}
xfpexpon.push_back(expontemp[0]);
xpfpexpon.push_back(expontemp[1]);
yfpexpon.push_back(expontemp[2]);
ypfpexpon.push_back(expontemp[3]);
xtarexpon.push_back(expontemp[4]);
cout << num_recon_terms << " " << xptarcoeffs[num_recon_terms] << " " << ytarcoeffs[num_recon_terms] << " " << yptarcoeffs[num_recon_terms] << " " << deltacoeffs[num_recon_terms] << " " << xfpexpon[num_recon_terms] << " " << xpfpexpon[num_recon_terms] << " " << yfpexpon[num_recon_terms] << " " << ypfpexpon[num_recon_terms] << " " << xtarexpon[num_recon_terms] << " " << endl;
num_recon_terms++;
}
Double_t zdis_sieve = 253.;
Double_t zdis_hbmagexit_coll=40.;
Double_t hb_delta_yptar_coeff = 0.019+zdis_hbmagexit_coll*0.00052;
Double_t hb_delta_yptar_coeff2 = 0.00019+zdis_hbmagexit_coll*0.0000052;
Long64_t nentries = tsimc->GetEntries();
for (int i = 0; i < nentries; i++) {
tsimc->GetEntry(i);
if (i%50000==0) cout << " Entry = " << i << endl;
if (etracknorm>.8 && sumnpe > 6. && delta>-10 && delta<10) {
hxbpm_tar->Fill(xbpm_tar);
hybpm_tar->Fill(ybpm_tar);
}} //
Double_t xbeam = -hxbpm_tar->GetMean(); // horizontal beam in Hall coordinates
Double_t ybeam = hybpm_tar->GetMean();
cout << " xbeam = " << xbeam << " ybeam = " << ybeam << endl;
cout << " start loop " << nentries << endl;
// loop over entries
cout << " start loop " << nentries << endl;
CentAngle=CentAngle*3.14159/180.;
for (int i = 0; i < nentries; i++) {
tsimc->GetEntry(i);
////////////////////////////////////////////////////////////////////
// Calculate corrections & recalculate ,,,track parameters
Double_t xptar_save=0.,xptar_diff=10000., xtar_new=-reacty;
Double_t x_tg = -reacty-xMP; // units of cm, beam position in spectrometer coordinate system
Double_t ytartemp = 0.0,yptartemp=0.0,xptartemp=0.0,deltatemp=0.0;
Double_t etemp;
for( int icoeff=0; icoeff<num_recon_terms; icoeff++ ){
etemp=
pow( xfp / 100.0, xfpexpon[icoeff] ) *
pow( yfp / 100.0, yfpexpon[icoeff] ) *
pow( xpfp, xpfpexpon[icoeff] ) *
pow( ypfp, ypfpexpon[icoeff] ) *
pow( x_tg/100., xtarexpon[icoeff] );
deltatemp += deltacoeffs[icoeff] * etemp;
ytartemp += ytarcoeffs[icoeff] * etemp;
yptartemp += yptarcoeffs[icoeff] * etemp;
xptartemp += xptarcoeffs[icoeff] *etemp;
} // for icoeffold loop
xptar_save = xptartemp;
Int_t niter=0;
while ( xptar_diff > 2 && niter < 5) {
xtar_new = x_tg - xptartemp*reactz*cos(CentAngle); //units of cm
ytartemp = 0.0,yptartemp=0.0,xptartemp=0.0,deltatemp=0.0;
for( int icoeff=0; icoeff<num_recon_terms; icoeff++ ){
etemp=
pow( xfp / 100.0, xfpexpon[icoeff] ) *
pow( yfp / 100.0, yfpexpon[icoeff] ) *
pow( xpfp, xpfpexpon[icoeff] ) *
pow( ypfp, ypfpexpon[icoeff] ) *
pow( xtar_new/100., xtarexpon[icoeff] );
deltatemp += deltacoeffs[icoeff] * etemp;
ytartemp += ytarcoeffs[icoeff] * etemp;
yptartemp += yptarcoeffs[icoeff] * etemp;
xptartemp += xptarcoeffs[icoeff] *etemp;
} // for icoeffold loop
xptar_diff = abs(xptartemp-xptar_save)*1000;
xptar_save = xptartemp;
niter++;
}
///////////////////////////////////////////////////////////////////
xsieve = xtar_new + xptartemp*253;
Double_t delta_per = deltatemp*100.0;
ysieve = ytartemp*100+yptartemp*253.-(0.019+40.*.01*0.052)*delta_per+(0.00019+40*.01*.00052)*delta_per*delta_per;
ytartemp *=100;
Double_t ztarg=(ytartemp-yMP-0*(cos(CentAngle)-yptartemp*sin(CentAngle)))/(-sin(CentAngle)-cos(CentAngle)*yptartemp);//mine
////////////////////////////////////////////////////////////////////
if (i%50000==0) cout << " Entry = " << i << endl;
if (etracknorm>.8 && sumnpe > 6. && delta>-15 && delta<24) {
Int_t nf_found=-1, nd_found=-1,ny_found=-1,nx_found=-1;
for (UInt_t nf=0;nf<ytar_delta_cut.size();nf++) {
if (ytar_delta_cut[nf]->IsInside(ytartemp,delta_per)) nf_found=nf;
}
for (UInt_t nd=0;nd<ndelcut;nd++) {
if ( delta_per >=delcut[nd]-delwidth[nd] && delta_per <delcut[nd]+delwidth[nd]) nd_found=nd;
}
if (nf_found!=-1 && nd_found!=-1) {
for (UInt_t ny=0;ny<11;ny++) {
if (ypfp_yfp_cut[nf_found][nd_found][ny] && ypfp_yfp_cut[nf_found][nd_found][ny]->IsInside(ypfp,yfp)) ny_found=ny;
}
for (UInt_t nx=0;nx<11;nx++) {
if (xpfp_xfp_cut[nf_found][nd_found][nx] && xpfp_xfp_cut[nf_found][nd_found][nx]->IsInside(xpfp,xfp)) nx_found=nx;
}
}
if (nf_found !=-1 && nd_found!=-1 && ny_found!=-1 && nx_found!=-1) {
//yptarT = (ys_cent[ny_found]+hb_delta_yptar_coeff*delta-hb_delta_yptar_coeff2*delta*delta+ztar_foil[nf_found]*TMath::Sin(CentAngle))/(zdis_sieve-ztar_foil[nf_found]*TMath::Cos(CentAngle));
//ytarT = -ztar_foil[nf_found]*(TMath::Sin(CentAngle)+yptarT*TMath::Cos(CentAngle));
//xptarT = (xs_cent[nx_found])/(zdis_sieve-ztar_foil[nf_found]*TMath::Cos(CentAngle));
/*
Double_t ytartemp = 0.0,yptartemp=0.0,xptartemp=0.0,deltatemp=0.0;
Double_t etemp;
for( int icoeff=0; icoeff<num_recon_terms; icoeff++ ){
etemp=
pow( xfp / 100.0, xfpexpon[icoeff] ) *
pow( yfp / 100.0, yfpexpon[icoeff] ) *
pow( xpfp, xpfpexpon[icoeff] ) *
pow( ypfp, ypfpexpon[icoeff] ) *
pow( xtar/100., xtarexpon[icoeff] );
deltatemp += deltacoeffs[icoeff] * etemp;
ytartemp += ytarcoeffs[icoeff] * etemp;
yptartemp += yptarcoeffs[icoeff] * etemp;
xptartemp += xptarcoeffs[icoeff] *etemp;
} // for icoeffold loop
reactx = xbeam - (frx+0.01);
reacty = -ybeam - (fry+0.01);
if (CentAngle*180/3.14 > 25){reacty = -ybeam - (fry+0.005);}
xtar = -reacty -(ztar_foil[nf_found]*TMath::Cos(CentAngle)+reactx*TMath::Sin(CentAngle))*xptartemp;
ysieve = ytartemp*100.0+yptartemp*zdis_sieve;
xsieve = xtar +xptartemp*zdis_sieve;
yptar = yptartemp;
xptar = xptartemp;
ytar = ytartemp*100.0;
delta=deltatemp*100.0;
*/
yptarT = (ys_cent[ny_found]+hb_delta_yptar_coeff*delta-hb_delta_yptar_coeff2*delta_per*delta_per+ztar_foil[nf_found]*TMath::Sin(CentAngle)-reactx*TMath::Cos(CentAngle)+yMP)/(zdis_sieve-ztar_foil[nf_found]*TMath::Cos(CentAngle)-reactx*TMath::Sin(CentAngle));
ytarT = -ztar_foil[nf_found]*TMath::Sin(CentAngle)-yptarT*(ztar_foil[nf_found]*TMath::Cos(CentAngle)+reactx*TMath::Sin(CentAngle))+reactx*TMath::Cos(CentAngle)-yMP;
xptarT = (xs_cent[nx_found]+reacty+xMP)/(zdis_sieve-ztar_foil[nf_found]*TMath::Cos(CentAngle)-reactx*TMath::Sin(CentAngle));
xtarT = -reacty - xMP - xptarT*ztar_foil[nf_found]*TMath::Cos(CentAngle);
ysieveT=ys_cent[ny_found];
xsieveT=xs_cent[nx_found];
ztarT=ztar_foil[nf_found];
ztar=reactz;
//ztar = (ytartemp-yMP-reactx*(cos(CentAngle)-yptartemp*sin(CentAngle)))/(-sin(CentAngle)-cos(CentAngle)*yptartemp);
ztar = (ytartemp-yMP-0*(cos(CentAngle)-yptartemp*sin(CentAngle)))/(-sin(CentAngle)-cos(CentAngle)*yptartemp);
//xptar = xptar - xptarOffset;
otree->Fill();
}
}
}
//
otree->Write();
//
}