4 m_filename(
"widget.gen.root"),
15HadronPrep::HadronPrep( TString infile,
int mcFlag,
int type,
int bgbins,
double upperbg,
double lowerbg,
int cosbins,
double uppercos,
double lowercos ){
23 m_uppercos = uppercos;
24 m_lowercos = lowercos;
30 gr->SetTitle(
";cos(#theta);#chi_{mean}");
31 gr->SetMarkerStyle(24);
32 gr->SetMarkerColor(2);
33 gr->SetMarkerSize(.7);
36 gr->GetXaxis()->SetRangeUser(-1,1);
39 gr->SetMarkerStyle(22);
40 gr->SetMarkerColor(9);
41 gr->SetMarkerSize(.7);
44 gr->SetTitle(
";cos(#theta);#sigma");
45 gr->SetMarkerStyle(24);
46 gr->SetMarkerColor(2);
47 gr->SetMarkerSize(.7);
50 gr->GetXaxis()->SetRangeUser(-1,1);
58 gErrorIgnoreLevel = kWarning;
63 if( particle ==
"pion" )
mass = Widget::mpion;
64 else if( particle ==
"kaon" )
mass = Widget::mkaon;
65 else if( particle ==
"proton" )
mass = Widget::mproton;
66 else if( particle ==
"muon" )
mass = Widget::mmuon;
67 else if( particle ==
"electron" )
mass = Widget::melectron;
68 if(
mass == 0.0 ) exit(1);
70 TFile* infile =
new TFile(m_filename);
71 TTree* hadron = (TTree*)infile->Get(
"track");
73 std::cout <<
"HadronPrep: reading in file " << m_filename << std::endl;
74 std::cout <<
"\t beta-gamma range: " << m_lowerbg <<
" to " << m_upperbg << std::endl;
75 std::cout <<
"\t cos(theta) range: " << m_lowercos <<
" to " << m_uppercos << std::endl;
97 hadron->SetBranchAddress(
"dedx", &dedxpub);
98 hadron->SetBranchAddress(
"dedxsat", &dedx);
99 hadron->SetBranchAddress(
"pF", &p);
100 hadron->SetBranchAddress(
"costh", &costh);
101 hadron->SetBranchAddress(
"db", &db);
102 hadron->SetBranchAddress(
"dz", &dz);
103 hadron->SetBranchAddress(
"chiPi", &chiPi);
104 hadron->SetBranchAddress(
"eopst", &eop);
107 hadron->SetBranchAddress(
"numGoodHits", &b3nhit);
108 else if( m_type == 1 )
109 hadron->SetBranchAddress(
"lNHitsUsed", &b2nhit);
112 double bgstep = (m_upperbg-m_lowerbg)/m_bgbins;
113 double cosstep = (m_uppercos-m_lowercos)/m_cosbins;
116 TH1F* hdedx_costh[m_bgbins][m_cosbins];
117 TH1F* hdedx_costh_pub[m_bgbins][m_cosbins];
118 TH1F* hchi_costh[m_bgbins][m_cosbins];
119 TH1F* hchi_costh_pub[m_bgbins][m_cosbins];
122 for(
int i = 0; i < m_bgbins; ++i ){
123 for(
int j = 0; j < m_cosbins; ++j ){
124 char histname[100],histname2[100],histname3[100],histname4[100],histname5[100];
125 sprintf(histname,
"dedx_costh_p_%d_cos_%d",i,j);
126 sprintf(histname2,
"chi_costh_p_%d_cos_%d",i,j);
127 sprintf(histname3,
"chipub_costh_p_%d_cos_%d",i,j);
128 sprintf(histname4,
"dedxpub_costh_p_%d_cos_%d",i,j);
129 sprintf(histname5,
"dedxnew_costh_p_%d_cos_%d",i,j);
132 if( particle ==
"electron" ){
133 hdedx_costh[i][j] =
new TH1F(histname,histname,200,0,2);
134 hchi_costh[i][j] =
new TH1F(histname2,histname2,200,-2,2);
135 hchi_costh_pub[i][j] =
new TH1F(histname3,histname3,200,-5,5);
136 hdedx_costh_pub[i][j] =
new TH1F(histname4,histname4,200,0,2);
138 else if( particle ==
"proton" ){
140 hdedx_costh[i][j] =
new TH1F(histname,histname,200,0,6);
141 hchi_costh[i][j] =
new TH1F(histname2,histname2,200,-30,30);
142 hchi_costh_pub[i][j] =
new TH1F(histname3,histname3,200,0,40);
143 hdedx_costh_pub[i][j] =
new TH1F(histname4,histname4,200,0,6);
146 hdedx_costh[i][j] =
new TH1F(histname,histname,200,0,4);
147 hchi_costh[i][j] =
new TH1F(histname2,histname2,200,-5,5);
148 hchi_costh_pub[i][j] =
new TH1F(histname3,histname3,200,-20,20);
149 hdedx_costh_pub[i][j] =
new TH1F(histname4,histname4,200,0,4);
152 hdedx_costh[i][j] =
new TH1F(histname,histname,200,0,2);
153 hchi_costh[i][j] =
new TH1F(histname2,histname2,200,-5,5);
154 hchi_costh_pub[i][j] =
new TH1F(histname3,histname3,200,-5,5);
155 hdedx_costh_pub[i][j] =
new TH1F(histname4,histname4,200,0,2);
159 hdedx_costh[i][j] =
new TH1F(histname,histname,200,0,4);
160 hchi_costh[i][j] =
new TH1F(histname2,histname2,200,-5,5);
161 hchi_costh_pub[i][j] =
new TH1F(histname3,histname3,200,-5,5);
162 hdedx_costh_pub[i][j] =
new TH1F(histname4,histname4,200,0,4);
165 hdedx_costh[i][j] =
new TH1F(histname,histname,200,0,2);
166 hchi_costh[i][j] =
new TH1F(histname2,histname2,200,-5,5);
167 hchi_costh_pub[i][j] =
new TH1F(histname3,histname3,200,-5,5);
168 hdedx_costh_pub[i][j] =
new TH1F(histname4,histname4,200,0,2);
174 double sumcos[m_bgbins][m_cosbins];
175 double sumsin[m_bgbins][m_cosbins];
176 double sumbg[m_bgbins][m_cosbins];
177 double sumressq[m_bgbins][m_cosbins];
178 int sumsize[m_bgbins][m_cosbins];
179 for(
int i = 0; i < m_bgbins; ++i ){
180 for(
int j = 0; j < m_cosbins; ++j ){
190 double means[m_bgbins][m_cosbins];
191 double errors[m_bgbins][m_cosbins];
192 double widths[m_bgbins][m_cosbins];
193 for(
int i = 0; i < m_bgbins; ++i ){
194 for(
int j = 0; j < m_cosbins; ++j ){
211 for(
unsigned int index = 0; index < hadron->GetEntries(); ++index ){
212 hadron->GetEvent(index);
219 nhit = std::floor(b3nhit);
220 else if( m_type == 1 )
224 if( nhit < 0 || nhit > 100 || dedx <= 0 || costh != costh ||
225 bg <= m_lowerbg || bg >= m_upperbg || costh <= m_lowercos || costh >= m_uppercos )
229 if( particle ==
"pion" && eop > 0.75 )
continue;
232 if( particle ==
"proton" && (dedxpub < 0 || dedxpub > 100 || dedxpub < 0.85/fabs(p)) )
234 if( particle ==
"kaon" && dedxpub < 0.4/fabs(p) )
237 int bgBin = (int)((
bg-m_lowerbg)/(m_upperbg-m_lowerbg) * m_bgbins);
238 int cosBin = (int)((costh-m_lowercos)/(m_uppercos-m_lowercos) * m_cosbins);
240 double dedx_pre = dedx;
241 double dedx_new = dedx_pre;
242 if( !m_mcFlag ) dedx_new = m_hadsat.
D2I(costh,m_hadsat.
I2D(costh,1.0)*dedx);
244 double dedx_res = m_gpar.
sigmaPrediction(dedx_cur,nhit,sqrt(1-costh*costh));
246 std::cout <<
"RESOLUTION IS ZERO!!!" << std::endl;
250 double chi_new = (dedx_new-dedx_cur)/dedx_res;
251 if( particle ==
"electron" ) chi_new = (dedx_new-1)/dedx_res;
252 if( correct ) hdedx_costh[bgBin][cosBin]->Fill(dedx_new);
253 else hdedx_costh[bgBin][cosBin]->Fill(dedx_pre);
255 if( correct ) hchi_costh[bgBin][cosBin]->Fill(chi_new);
256 else hchi_costh[bgBin][cosBin]->Fill(chiPi);
258 hdedx_costh_pub[bgBin][cosBin]->Fill(dedxpub);
259 hchi_costh_pub[bgBin][cosBin]->Fill(chiPi);
263 sumcos[bgBin][cosBin] += costh;
264 sumsin[bgBin][cosBin] += sqrt(1-costh*costh);
265 sumbg[bgBin][cosBin] +=
bg;
266 sumressq[bgBin][cosBin] += pow(dedx_res,2);
267 sumsize[bgBin][cosBin] += 1;
278 TTree* satTree =
new TTree(particle,
"dE/dx means and errors");
287 double satdedxres_avg;
296 double satchipubwidth;
299 satTree->Branch(
"bg",&satbg,
"bg/D");
300 satTree->Branch(
"costh",&satcosth,
"costh/D");
301 satTree->Branch(
"dedx",&satdedx,
"dedx/D");
302 satTree->Branch(
"error",&saterror,
"error/D");
303 satTree->Branch(
"bg_avg",&satbg_avg,
"bg_avg/D");
304 satTree->Branch(
"costh_avg",&satcosth_avg,
"costh_avg/D");
305 satTree->Branch(
"sinth_avg",&satsinth_avg,
"sinth_avg/D");
306 satTree->Branch(
"dedxres_avg",&satdedxres_avg,
"dedxres_avg/D");
307 satTree->Branch(
"dedx_pub",&satpubdedx,
"dedx_pub/D");
308 satTree->Branch(
"dedxerr_pub",&satpuberror,
"dedxerr_pub/D");
309 satTree->Branch(
"chi",&satchi,
"chi/D");
310 satTree->Branch(
"chi_pub",&satchipub,
"chi_pub/D");
311 satTree->Branch(
"sigma",&satchiwidth,
"sigma/D");
312 satTree->Branch(
"sigma_pub",&satchipubwidth,
"sigma_pub/D");
313 satTree->Branch(
"ratio",&ratio,
"ratio/D");
316 int fs1=0, fs2=0, fs3=0, fs4=0;
317 double dedxmax = 1.0, dedxmin = 1.0;
318 for(
int i = 0; i < m_bgbins; ++i ){
319 for(
int j = 0; j < m_cosbins; ++j ){
321 std::cout <<
"\t\t" <<
"i= " << i <<
" j= " << j << std::endl;
323 satbg = m_lowerbg+0.5*bgstep+i*bgstep;
324 satcosth = m_lowercos+0.5*cosstep+j*cosstep;
326 satbg_avg = sumbg[i][j]/sumsize[i][j];
327 satcosth_avg = sumcos[i][j]/sumsize[i][j];
328 satsinth_avg = sumsin[i][j]/sumsize[i][j];
329 satdedxres_avg = sumressq[i][j]/sumsize[i][j];
333 fs = hdedx_costh[i][j]->Fit(
"gaus",
"ql");
334 double mean = hdedx_costh[i][j]->GetFunction(
"gaus")->GetParameter(1);
335 double width = hdedx_costh[i][j]->GetFunction(
"gaus")->GetParameter(2);
337 fs = hdedx_costh[i][j]->Fit(
"gaus",
"l",
"",mean-2.5*width,mean+2.5*width);
339 std::cout <<
"\t\t" <<
"MEAN FIT STATUS " << fs << std::endl;
343 satdedx = hdedx_costh[i][j]->GetFunction(
"gaus")->GetParameter(1);
344 saterror = hdedx_costh[i][j]->GetFunction(
"gaus")->GetParError(1);
345 means[i][j] = satdedx;
346 errors[i][j] = saterror;
347 widths[i][j] = hdedx_costh[i][j]->GetFunction(
"gaus")->GetParameter(2);
349 if( satdedx > dedxmax ) dedxmax = satdedx;
350 if( satdedx < dedxmin ) dedxmin = satdedx;
353 fs = hdedx_costh_pub[i][j]->Fit(
"gaus",
"ql");
354 mean = hdedx_costh_pub[i][j]->GetFunction(
"gaus")->GetParameter(1);
355 width = hdedx_costh_pub[i][j]->GetFunction(
"gaus")->GetParameter(2);
357 fs = hdedx_costh_pub[i][j]->Fit(
"gaus",
"ql",
"",mean-2.5*width,mean+2.5*width);
359 std::cout <<
"\t\t" <<
"MEAN PUB FIT STATUS " << fs << std::endl;
363 satpubdedx = hdedx_costh_pub[i][j]->GetFunction(
"gaus")->GetParameter(1);
364 satpuberror = hdedx_costh_pub[i][j]->GetFunction(
"gaus")->GetParError(1);
365 satpubwidth = hdedx_costh_pub[i][j]->GetFunction(
"gaus")->GetParameter(2);
369 fs = hchi_costh[i][j]->Fit(
"gaus",
"ql");
370 mean = hchi_costh[i][j]->GetFunction(
"gaus")->GetParameter(1);
371 width = hchi_costh[i][j]->GetFunction(
"gaus")->GetParameter(2);
372 fs = hchi_costh[i][j]->Fit(
"gaus",
"ql",
"",mean-2.5*width,mean+2.5*width);
378 satchi = hchi_costh[i][j]->GetFunction(
"gaus")->GetParameter(1);
379 satchierr = hchi_costh[i][j]->GetFunction(
"gaus")->GetParError(1);
380 satchiwidth = hchi_costh[i][j]->GetFunction(
"gaus")->GetParameter(2);
407 if( fs1+fs2+fs3+fs4 != 0 ) std::cout <<
"FIT RESULTS: " << particle << std::endl;
408 if( fs1 != 0 ) std::cout <<
"\t\t" <<
"MEAN FIT FAILS " << fs1 << std::endl;
409 if( fs2 != 0 ) std::cout <<
"\t\t" <<
"MEAN PUB FIT FAILS " << fs2 << std::endl;
410 if( fs3 != 0 ) std::cout <<
"\t\t" <<
"CHI FIT FAILS " << fs3 << std::endl;
411 if( fs4 != 0 ) std::cout <<
"\t\t" <<
"CHI PUB FIT FAILS " << fs4 << std::endl;
413 std::string corname(
"uncorrected");
414 if( correct ==
true ) corname =
"corrected";
417 TCanvas* ctmp =
new TCanvas(
"tmp",
"tmp",900,900);
419 std::stringstream psname; psname <<
"plots/dedx_" << particle <<
"_" << corname <<
".ps[";
420 ctmp->Print(psname.str().c_str());
421 psname.str(
""); psname <<
"plots/dedx_" << particle <<
"_" << corname <<
".ps";
422 for(
int i = 0 ; i < m_bgbins; ++i ){
423 for(
int j = 0; j < m_cosbins; ++j ){
425 hdedx_costh[i][j]->Draw();
427 ctmp->Print(psname.str().c_str());
430 psname.str(
""); psname <<
"plots/dedx_" << particle <<
"_" << corname <<
".ps]";
431 ctmp->Print(psname.str().c_str());
436 TCanvas* ctmp2 =
new TCanvas(
"tmp2",
"tmp2",900,900);
438 psname.str(
""); psname <<
"plots/dedx_" << particle <<
"_pub_" << corname <<
".ps[";
439 ctmp2->Print(psname.str().c_str());
440 psname.str(
""); psname <<
"plots/dedx_" << particle <<
"_pub_" << corname <<
".ps";
441 for(
int i = 0 ; i < m_bgbins; ++i ){
442 for(
int j = 0; j < m_cosbins; ++j ){
444 hdedx_costh_pub[i][j]->Draw();
446 ctmp2->Print(psname.str().c_str());
449 psname.str(
""); psname <<
"plots/dedx_" << particle <<
"_pub_" << corname <<
".ps]";
450 ctmp2->Print(psname.str().c_str());
455 TCanvas* ctmp3 =
new TCanvas(
"tmp3",
"tmp3",900,900);
457 psname.str(
""); psname <<
"plots/chi_" << particle <<
"_" << corname <<
".ps[";
458 ctmp3->Print(psname.str().c_str());
459 psname.str(
""); psname <<
"plots/chi_" << particle <<
"_" << corname <<
".ps";
460 for(
int i = 0 ; i < m_bgbins; ++i ){
461 for(
int j = 0; j < m_cosbins; ++j ){
463 hchi_costh[i][j]->Draw();
465 ctmp3->Print(psname.str().c_str());
468 psname.str(
""); psname <<
"plots/chi_" << particle <<
"_" << corname <<
".ps]";
469 ctmp3->Print(psname.str().c_str());
474 TCanvas* ctmp4 =
new TCanvas(
"tmp4",
"tmp4",900,900);
476 psname.str(
""); psname <<
"plots/chi_" << particle <<
"_pub_" << corname <<
".ps[";
477 ctmp4->Print(psname.str().c_str());
478 psname.str(
""); psname <<
"plots/chi_" << particle <<
"_pub_" << corname <<
".ps";
479 for(
int i = 0 ; i < m_bgbins; ++i ){
480 for(
int j = 0; j < m_cosbins; ++j ){
482 hchi_costh_pub[i][j]->Draw();
484 ctmp4->Print(psname.str().c_str());
487 psname.str(
""); psname <<
"plots/chi_" << particle <<
"_pub_" << corname <<
".ps]";
488 ctmp4->Print(psname.str().c_str());
491 double cbcenters[m_cosbins], cberrors[m_cosbins];
492 for(
int j = 0; j < m_cosbins; ++j ){
493 cbcenters[j] = m_lowercos+0.5*cosstep+j*cosstep;
498 TGraphErrors gdedx_costh[m_bgbins];
499 for(
int i = 0; i < m_bgbins; ++i ){
501 satbg = m_lowerbg+0.5*bgstep+i*bgstep;
502 sprintf(graphname,
"dedx_costh_p_%d",i);
503 gdedx_costh[i] = TGraphErrors(m_cosbins,cbcenters,means[i],cberrors,errors[i]);
505 TH1F* base =
new TH1F(
"base",
"dE/dx vs. cos(#theta);cos(#theta);dE/dx",100,0,1.0);
506 base->GetXaxis()->SetTitleOffset(1.5);
507 base->SetMaximum(dedxmax*1.1);
508 base->SetMinimum(dedxmin*0.9);
512 TCanvas* ctmp6 =
new TCanvas(
"tmp6",
"tmp6",900,900);
514 for(
int i = 0 ; i < m_bgbins; ++i ){
515 gdedx_costh[i].SetMarkerSize(0.8);
516 gdedx_costh[i].SetMarkerColor(50+i);
517 gdedx_costh[i].SetLineColor(50+i);
518 gdedx_costh[i].DrawClone(
"same");
520 psname.str(
""); psname <<
"plots/costh_" << particle <<
"_" << corname <<
".eps";
521 ctmp6->SaveAs(psname.str().c_str());
524 std::cout <<
"HadronPrep: saving output to " << outfile->GetName() << std::endl;
531 for(
int i = 0; i < m_bgbins; ++i ){
532 for(
int j = 0; j < m_cosbins; ++j ){
533 delete hdedx_costh[i][j];
534 delete hdedx_costh_pub[i][j];
535 delete hchi_costh[i][j];
536 delete hchi_costh_pub[i][j];
547 gErrorIgnoreLevel = kWarning;
552 if( particle ==
"pion" )
mass = Widget::mpion;
553 else if( particle ==
"kaon" )
mass = Widget::mkaon;
554 else if( particle ==
"proton" )
mass = Widget::mproton;
555 else if( particle ==
"muon" )
mass = Widget::mmuon;
556 else if( particle ==
"electron" )
mass = Widget::melectron;
557 if(
mass == 0.0 ) exit(1);
559 TFile* infile =
new TFile(m_filename);
560 TTree* hadron = (TTree*)infile->Get(
"track");
562 std::cout <<
"HadronPrep: reading in file " << m_filename << std::endl;
563 std::cout <<
"\t beta-gamma range: " << m_lowerbg <<
" to " << m_upperbg << std::endl;
585 hadron->SetBranchAddress(
"dedx", &dedxpub);
586 hadron->SetBranchAddress(
"dedxsat", &dedx);
587 hadron->SetBranchAddress(
"pF", &p);
588 hadron->SetBranchAddress(
"costh", &costh);
589 hadron->SetBranchAddress(
"db", &db);
590 hadron->SetBranchAddress(
"dz", &dz);
591 hadron->SetBranchAddress(
"chiPi", &chiPi);
592 hadron->SetBranchAddress(
"eopst", &eop);
595 hadron->SetBranchAddress(
"numGoodHits", &b3nhit);
596 else if( m_type == 1 )
597 hadron->SetBranchAddress(
"lNHitsUsed", &b2nhit);
600 double bgstep = (m_upperbg-m_lowerbg)/m_bgbins;
603 TH1F* hdedx_bg[m_bgbins];
604 TH1F* hdedx_bg_pub[m_bgbins];
605 TH1F* hchi_bg[m_bgbins];
606 TH1F* hchi_bg_pub[m_bgbins];
607 TH1F* hsigma_bg[m_bgbins];
610 for(
int i = 0; i < m_bgbins; ++i ){
611 char histname[100], histname2[100], histname3[100];
612 char histname4[100], histname5[100], histname6[100];
613 sprintf(histname,
"dedx_bg_%d",i);
614 sprintf(histname2,
"chi_bg_%d",i);
615 sprintf(histname3,
"chipub_bg_%d",i);
616 sprintf(histname4,
"dedxpub_bg_%d",i);
617 sprintf(histname5,
"dedxnew_bg_%d",i);
618 sprintf(histname6,
"sigma_bg_%d",i);
620 if( particle ==
"electron" ){
621 hdedx_bg[i] =
new TH1F(histname,histname,200,0,2);
622 hchi_bg[i] =
new TH1F(histname2,histname2,200,-2,2);
623 hchi_bg_pub[i] =
new TH1F(histname3,histname3,200,-5,5);
624 hdedx_bg_pub[i] =
new TH1F(histname4,histname4,200,0,2);
626 else if( particle ==
"proton" ){
628 hdedx_bg[i] =
new TH1F(histname,histname,200,0,6);
629 hchi_bg[i] =
new TH1F(histname2,histname2,200,-30,30);
630 hchi_bg_pub[i] =
new TH1F(histname3,histname3,200,0,40);
631 hdedx_bg_pub[i] =
new TH1F(histname4,histname4,200,0,6);
634 hdedx_bg[i] =
new TH1F(histname,histname,200,0,4);
635 hchi_bg[i] =
new TH1F(histname2,histname2,200,-5,5);
636 hchi_bg_pub[i] =
new TH1F(histname3,histname3,200,-20,20);
637 hdedx_bg_pub[i] =
new TH1F(histname4,histname4,200,0,4);
640 hdedx_bg[i] =
new TH1F(histname,histname,200,0,2);
641 hchi_bg[i] =
new TH1F(histname2,histname2,200,-5,5);
642 hchi_bg_pub[i] =
new TH1F(histname3,histname3,200,-5,5);
643 hdedx_bg_pub[i] =
new TH1F(histname4,histname4,200,0,2);
647 hdedx_bg[i] =
new TH1F(histname,histname,200,0,4);
648 hchi_bg[i] =
new TH1F(histname2,histname2,200,-5,5);
649 hchi_bg_pub[i] =
new TH1F(histname3,histname3,200,-20,20);
650 hdedx_bg_pub[i] =
new TH1F(histname4,histname4,200,0,4);
653 hdedx_bg[i] =
new TH1F(histname,histname,200,0,2);
654 hchi_bg[i] =
new TH1F(histname2,histname2,200,-5,5);
655 hchi_bg_pub[i] =
new TH1F(histname3,histname3,100,-5,5);
656 hdedx_bg_pub[i] =
new TH1F(histname4,histname4,200,0,2);
658 hsigma_bg[i] =
new TH1F(histname6,histname6,100,-3,3);
662 double sumcos[m_bgbins];
663 double sumsin[m_bgbins];
664 double sumbg[m_bgbins];
665 double sumressq[m_bgbins];
666 int sumsize[m_bgbins];
667 for(
int i = 0; i < m_bgbins; ++i ){
676 double means[m_bgbins];
677 double errors[m_bgbins];
678 double widths[m_bgbins];
679 for(
int i = 0; i < m_bgbins; ++i ){
686 const int cosbins = 20;
687 const double cosstep = 2.0 / cosbins;
688 double cosArray[cosbins], cosArrayErr[cosbins];
689 for(
int i = 0; i < cosbins; ++i ){
690 cosArray[i] = -1 + (i*cosstep + cosstep/2.0);
691 cosArrayErr[i] = 0.0;
694 TH1F* hchi_costh_all[2][cosbins];
695 TH1F* hchi_costh_0[2][cosbins];
696 TH1F* hchi_costh_1[2][cosbins];
697 TH1F* hchi_costh_2[2][cosbins];
699 for(
int i = 0; i < cosbins; ++i ){
700 char histname[100], histname0[100], histname1[100], histname2[100];
701 sprintf(histname,
"chi_costh_pos_%d",i);
702 sprintf(histname0,
"chi_costh0_pos_%d",i);
703 sprintf(histname1,
"chi_costh1_pos_%d",i);
704 sprintf(histname2,
"chi_costh2_pos_%d",i);
706 hchi_costh_all[0][i] =
new TH1F(histname,histname,100,-5,5);
707 hchi_costh_0[0][i] =
new TH1F(histname0,histname0,100,-5,5);
708 hchi_costh_1[0][i] =
new TH1F(histname1,histname1,100,-5,5);
709 hchi_costh_2[0][i] =
new TH1F(histname2,histname2,100,-5,5);
711 sprintf(histname,
"chi_costh_neg_%d",i);
712 sprintf(histname0,
"chi_costh0_neg_%d",i);
713 sprintf(histname1,
"chi_costh1_neg_%d",i);
714 sprintf(histname2,
"chi_costh2_neg_%d",i);
716 hchi_costh_all[1][i] =
new TH1F(histname,histname,100,-5,5);
717 hchi_costh_0[1][i] =
new TH1F(histname0,histname0,100,-5,5);
718 hchi_costh_1[1][i] =
new TH1F(histname1,histname1,100,-5,5);
719 hchi_costh_2[1][i] =
new TH1F(histname2,histname2,100,-5,5);
731 for(
unsigned int index = 0; index < hadron->GetEntries(); ++index ){
732 hadron->GetEvent(index);
734 int charge = (p < 0)? 1 : 0;
739 nhit = std::floor(b3nhit);
740 else if( m_type == 1 )
744 if( nhit < 0 || nhit > 100 || dedx <= 0 || costh != costh ||
745 bg <= m_lowerbg || bg >= m_upperbg )
749 if( particle ==
"pion" && eop > 0.75 )
continue;
752 if( particle ==
"proton" && (dedxpub < 0 || dedxpub > 100 || dedxpub < 0.85/fabs(p)) )
754 if( particle ==
"kaon" && dedxpub < 0.4/fabs(p) )
757 int bgBin = (int)((
bg-m_lowerbg)/(m_upperbg-m_lowerbg) * m_bgbins);
759 double dedx_pre = dedx;
760 double dedx_new = dedx_pre;
761 if( !m_mcFlag ) dedx_new = m_hadsat.
D2I(costh,m_hadsat.
I2D(costh,1.0)*dedx);
763 double dedx_res = m_gpar.
sigmaPrediction(dedx_cur,nhit,sqrt(1-costh*costh));
765 double chi_new = (dedx_new-dedx_cur)/dedx_res;
766 if( particle ==
"electron" ) chi_new = (dedx_new-1)/dedx_res;
767 double res_cor = m_gpar.
resPrediction(nhit,sqrt(1-costh*costh));
768 int i = (int) ( (fabs(
bg)-m_lowerbg)/bgstep );
769 hsigma_bg[i]->Fill((dedx_new-dedx_cur)/res_cor);
771 if( correct ) hdedx_bg[bgBin]->Fill(dedx_new);
772 else hdedx_bg[bgBin]->Fill(dedx_pre);
773 hdedx_bg_pub[bgBin]->Fill(dedxpub);
774 if( correct ) hchi_bg[bgBin]->Fill(chi_new);
775 hchi_bg_pub[bgBin]->Fill(chiPi);
777 sumcos[bgBin] += costh;
778 sumsin[bgBin] += sqrt(1-costh*costh);
780 sumressq[bgBin] += pow(dedx_res,2);
784 int icos = (int)((costh+1)/cosstep);
785 hchi_costh_all[
charge][icos]->Fill(chi_new);
786 if( bgBin <
int(m_bgbins/3) )
788 else if( bgBin < 2*
int(m_bgbins/3) )
791 hchi_costh_2[
charge][icos]->Fill(chi_new);
801 TTree* satTree =
new TTree(particle,
"dE/dx means and errors");
810 double satdedxres_avg;
819 double satchipubwidth;
822 satTree->Branch(
"bg",&satbg,
"bg/D");
823 satTree->Branch(
"costh",&satcosth,
"costh/D");
824 satTree->Branch(
"dedx",&satdedx,
"dedx/D");
825 satTree->Branch(
"error",&saterror,
"error/D");
826 satTree->Branch(
"bg_avg",&satbg_avg,
"bg_avg/D");
827 satTree->Branch(
"costh_avg",&satcosth_avg,
"costh_avg/D");
828 satTree->Branch(
"sinth_avg",&satsinth_avg,
"sinth_avg/D");
829 satTree->Branch(
"dedxres_avg",&satdedxres_avg,
"dedxres_avg/D");
830 satTree->Branch(
"dedx_pub",&satpubdedx,
"dedx_pub/D");
831 satTree->Branch(
"dedxerr_pub",&satpuberror,
"dedxerr_pub/D");
832 satTree->Branch(
"chi",&satchi,
"chi/D");
833 satTree->Branch(
"chi_pub",&satchipub,
"chi_pub/D");
834 satTree->Branch(
"sigma",&satchiwidth,
"sigma/D");
835 satTree->Branch(
"sigma_pub",&satchipubwidth,
"sigma_pub/D");
836 satTree->Branch(
"ratio",&ratio,
"ratio/D");
839 for(
int i = 0; i < m_bgbins; ++i ){
842 satbg = m_lowerbg+0.5*bgstep+i*bgstep;
844 satbg_avg = sumbg[i]/sumsize[i];
845 satcosth_avg = sumcos[i]/sumsize[i];
846 satsinth_avg = sumsin[i]/sumsize[i];
849 hsigma_bg[i]->Fit(
"gaus",
"ql");
850 satdedxres_avg = hsigma_bg[i]->GetFunction(
"gaus")->GetParameter(2);
855 fs = hdedx_bg[i]->Fit(
"gaus",
"ql");
856 if( fs != 0 ) std::cout <<
"\t\t" <<
"MEAN FIT STATUS " << fs << std::endl;
857 double mean = hdedx_bg[i]->GetFunction(
"gaus")->GetParameter(1);
858 double width = hdedx_bg[i]->GetFunction(
"gaus")->GetParameter(2);
859 fs = hdedx_bg[i]->Fit(
"gaus",
"ql",
"",mean-2.5*width,mean+2.5*width);
860 if( fs != 0 ) std::cout <<
"\t\t" <<
"MEAN FIT STATUS " << fs << std::endl;
862 satdedx = hdedx_bg[i]->GetFunction(
"gaus")->GetParameter(1);
863 saterror = hdedx_bg[i]->GetFunction(
"gaus")->GetParError(1);
865 errors[i] = saterror;
866 widths[i] = hdedx_bg[i]->GetFunction(
"gaus")->GetParameter(2);
870 fs = hdedx_bg_pub[i]->Fit(
"gaus",
"ql");
871 if( fs != 0 ) std::cout <<
"\t\t" <<
"MEAN PUB FIT STATUS " << fs << std::endl;
872 mean = hdedx_bg_pub[i]->GetFunction(
"gaus")->GetParameter(1);
873 width = hdedx_bg_pub[i]->GetFunction(
"gaus")->GetParameter(2);
874 fs = hdedx_bg_pub[i]->Fit(
"gaus",
"ql",
"",mean-2.5*width,mean+2.5*width);
875 if( fs != 0 ) std::cout <<
"\t\t" <<
"MEAN PUB FIT STATUS " << fs << std::endl;
877 satpubdedx = hdedx_bg_pub[i]->GetFunction(
"gaus")->GetParameter(1);
878 satpuberror = hdedx_bg_pub[i]->GetFunction(
"gaus")->GetParError(1);
879 satpubwidth = hdedx_bg_pub[i]->GetFunction(
"gaus")->GetParameter(2);
883 fs = hchi_bg[i]->Fit(
"gaus",
"ql");
884 if( fs != 0 ) std::cout <<
"\t\t" <<
"CHI FIT STATUS " << fs << std::endl;
885 mean = hchi_bg[i]->GetFunction(
"gaus")->GetParameter(1);
886 width = hchi_bg[i]->GetFunction(
"gaus")->GetParameter(2);
887 fs = hchi_bg[i]->Fit(
"gaus",
"ql",
"",mean-2.5*width,mean+2.5*width);
888 if( fs != 0 ) std::cout <<
"\t\t" <<
"CHI FIT STATUS " << fs << std::endl;
890 satchi = hchi_bg[i]->GetFunction(
"gaus")->GetParameter(1);
891 satchierr = hchi_bg[i]->GetFunction(
"gaus")->GetParError(1);
892 satchiwidth = hchi_bg[i]->GetFunction(
"gaus")->GetParameter(2);
916 std::string corname(
"uncorrected");
917 if( correct ==
true ) corname =
"corrected";
920 TCanvas* ctmp =
new TCanvas(
"tmp",
"tmp",900,900);
922 std::stringstream psname; psname <<
"plots/dedx_" << particle <<
"_" << corname <<
".ps[";
923 ctmp->Print(psname.str().c_str());
924 psname.str(
""); psname <<
"plots/dedx_" << particle <<
"_" << corname <<
".ps";
925 for(
int i = 0 ; i < m_bgbins; ++i ){
929 ctmp->Print(psname.str().c_str());
931 psname.str(
""); psname <<
"plots/dedx_" << particle <<
"_" << corname <<
".ps]";
932 ctmp->Print(psname.str().c_str());
935 std::cout <<
"HadronPrep: saving output to " << outfile->GetName() << std::endl;
941 std::cout <<
"making validation plots..." << std::endl;
947 double chicos[2][cosbins], sigmacos[2][cosbins];
948 double chicoserr[2][cosbins], sigmacoserr[2][cosbins];
950 double chicos0[2][cosbins], sigmacos0[2][cosbins];
951 double chicos0err[2][cosbins], sigmacos0err[2][cosbins];
953 double chicos1[2][cosbins], sigmacos1[2][cosbins];
954 double chicos1err[2][cosbins], sigmacos1err[2][cosbins];
956 double chicos2[2][cosbins], sigmacos2[2][cosbins];
957 double chicos2err[2][cosbins], sigmacos2err[2][cosbins];
959 for(
int c = 0; c < 2; ++c ){
960 for(
int i = 0; i < cosbins; ++i ){
961 if( hchi_costh_all[c][i]->Integral(1,100) == 0 )
continue;
962 hchi_costh_all[c][i]->Fit(
"gaus",
"ql");
963 chicos[c][i] = hchi_costh_all[c][i]->GetFunction(
"gaus")->GetParameter(1);
964 chicoserr[c][i] = hchi_costh_all[c][i]->GetFunction(
"gaus")->GetParError(1);
965 sigmacos[c][i] = hchi_costh_all[c][i]->GetFunction(
"gaus")->GetParameter(2);
966 sigmacoserr[c][i] = hchi_costh_all[c][i]->GetFunction(
"gaus")->GetParError(2);
968 for(
int i = 0; i < cosbins; ++i ){
969 if( hchi_costh_0[c][i]->Integral(1,100) == 0 )
continue;
970 hchi_costh_0[c][i]->Fit(
"gaus",
"ql");
971 chicos0[c][i] = hchi_costh_0[c][i]->GetFunction(
"gaus")->GetParameter(1);
972 chicos0err[c][i] = hchi_costh_0[c][i]->GetFunction(
"gaus")->GetParError(1);
973 sigmacos0[c][i] = hchi_costh_0[c][i]->GetFunction(
"gaus")->GetParameter(2);
974 sigmacos0err[c][i] = hchi_costh_0[c][i]->GetFunction(
"gaus")->GetParError(2);
976 for(
int i = 0; i < cosbins; ++i ){
977 if( hchi_costh_1[c][i]->Integral(1,100) == 0 )
continue;
978 hchi_costh_1[c][i]->Fit(
"gaus",
"ql");
979 chicos1[c][i] = hchi_costh_1[c][i]->GetFunction(
"gaus")->GetParameter(1);
980 chicos1err[c][i] = hchi_costh_1[c][i]->GetFunction(
"gaus")->GetParError(1);
981 sigmacos1[c][i] = hchi_costh_1[c][i]->GetFunction(
"gaus")->GetParameter(2);
982 sigmacos1err[c][i] = hchi_costh_1[c][i]->GetFunction(
"gaus")->GetParError(2);
984 for(
int i = 0; i < cosbins; ++i ){
985 if( hchi_costh_2[c][i]->Integral(1,100) == 0 )
continue;
986 hchi_costh_2[c][i]->Fit(
"gaus",
"ql");
987 chicos2[c][i] = hchi_costh_2[c][i]->GetFunction(
"gaus")->GetParameter(1);
988 chicos2err[c][i] = hchi_costh_2[c][i]->GetFunction(
"gaus")->GetParError(1);
989 sigmacos2[c][i] = hchi_costh_2[c][i]->GetFunction(
"gaus")->GetParameter(2);
990 sigmacos2err[c][i] = hchi_costh_2[c][i]->GetFunction(
"gaus")->GetParError(2);
995 TCanvas* ctmp2 =
new TCanvas(
"tmp2",
"tmp2",900,900);
997 psname.str(
""); psname <<
"plots/chivscos_fits_" << particle <<
".ps[";
998 ctmp2->Print(psname.str().c_str());
999 psname.str(
""); psname <<
"plots/chivscos_fits_" << particle <<
".ps";
1000 for(
int i = 0 ; i < cosbins; ++i ){
1002 hchi_costh_all[0][i]->Draw();
1003 hchi_costh_all[1][i]->SetMarkerColor(kRed);
1004 hchi_costh_all[1][i]->Draw(
"same");
1006 ctmp2->Print(psname.str().c_str());
1008 psname.str(
""); psname <<
"plots/chivscos_fits_" << particle <<
".ps]";
1009 ctmp2->Print(psname.str().c_str());
1012 TGraphErrors* grchicos =
new TGraphErrors(cosbins,cosArray,chicos[0],cosArrayErr,chicoserr[0]);
1013 TGraphErrors* grchicos0 =
new TGraphErrors(cosbins,cosArray,chicos0[0],cosArrayErr,chicos0err[0]);
1014 TGraphErrors* grchicos1 =
new TGraphErrors(cosbins,cosArray,chicos1[0],cosArrayErr,chicos1err[0]);
1015 TGraphErrors* grchicos2 =
new TGraphErrors(cosbins,cosArray,chicos2[0],cosArrayErr,chicos2err[0]);
1017 TGraphErrors* grchicosn =
new TGraphErrors(cosbins,cosArray,chicos[1],cosArrayErr,chicoserr[1]);
1018 TGraphErrors* grchicos0n =
new TGraphErrors(cosbins,cosArray,chicos0[1],cosArrayErr,chicos0err[1]);
1019 TGraphErrors* grchicos1n =
new TGraphErrors(cosbins,cosArray,chicos1[1],cosArrayErr,chicos1err[1]);
1020 TGraphErrors* grchicos2n =
new TGraphErrors(cosbins,cosArray,chicos2[1],cosArrayErr,chicos2err[1]);
1022 TGraphErrors* grsigmacos =
new TGraphErrors(cosbins,cosArray,sigmacos[0],cosArrayErr,sigmacoserr[0]);
1023 TGraphErrors* grsigmacos0 =
new TGraphErrors(cosbins,cosArray,sigmacos0[0],cosArrayErr,sigmacos0err[0]);
1024 TGraphErrors* grsigmacos1 =
new TGraphErrors(cosbins,cosArray,sigmacos1[0],cosArrayErr,sigmacos1err[0]);
1025 TGraphErrors* grsigmacos2 =
new TGraphErrors(cosbins,cosArray,sigmacos2[0],cosArrayErr,sigmacos2err[0]);
1027 TGraphErrors* grsigmacosn =
new TGraphErrors(cosbins,cosArray,sigmacos[1],cosArrayErr,sigmacoserr[1]);
1028 TGraphErrors* grsigmacos0n =
new TGraphErrors(cosbins,cosArray,sigmacos0[1],cosArrayErr,sigmacos0err[1]);
1029 TGraphErrors* grsigmacos1n =
new TGraphErrors(cosbins,cosArray,sigmacos1[1],cosArrayErr,sigmacos1err[1]);
1030 TGraphErrors* grsigmacos2n =
new TGraphErrors(cosbins,cosArray,sigmacos2[1],cosArrayErr,sigmacos2err[1]);
1032 TLine* line0 =
new TLine(-1,0,1,0);
1033 line0->SetLineStyle(kDashed);
1034 line0->SetLineColor(kRed);
1035 TLine* line1 =
new TLine(-1,1,1,1);
1036 line1->SetLineStyle(kDashed);
1037 line1->SetLineColor(kRed);
1040 if( particle ==
"pion" )
ptype +=
"#pi";
1041 else if( particle ==
"kaon" )
ptype +=
"K";
1042 else if( particle ==
"proton" )
ptype +=
"p";
1043 else if( particle ==
"muon" )
ptype +=
"#mu";
1044 else if( particle ==
"electron" )
ptype +=
"e";
1046 TLegend* lchi =
new TLegend(0.6,0.75,0.8,0.85);
1047 lchi->SetBorderSize(0);
1048 lchi->SetFillColor(0);
1049 lchi->AddEntry(grchicos,
ptype+
"^{+}",
"p");
1050 lchi->AddEntry(grchicosn,
ptype+
"^{-}",
"p");
1051 TCanvas* cchi =
new TCanvas(
"cchi",
"cchi",700,600);
1055 grchicos->Draw(
"AP");
1056 grchicosn->Draw(
"P,same");
1057 line0->Draw(
"same");
1059 cchi->SaveAs(
"plots/chiall"+particle+
".eps");
1063 grchicos0->Draw(
"AP");
1064 grchicos0n->Draw(
"P,same");
1065 line0->Draw(
"same");
1067 cchi->SaveAs(
"plots/chi0"+particle+
".eps");
1071 grchicos1->Draw(
"AP");
1072 grchicos1n->Draw(
"P,same");
1073 line0->Draw(
"same");
1075 cchi->SaveAs(
"plots/chi1"+particle+
".eps");
1079 grchicos2->Draw(
"AP");
1080 grchicos2n->Draw(
"P,same");
1081 line0->Draw(
"same");
1083 cchi->SaveAs(
"plots/chi2"+particle+
".eps");
1087 grsigmacos->Draw(
"AP");
1088 grsigmacosn->Draw(
"P,same");
1089 line1->Draw(
"same");
1091 cchi->SaveAs(
"plots/sigmaall"+particle+
".eps");
1095 grsigmacos0->Draw(
"AP");
1096 grsigmacos0n->Draw(
"P,same");
1097 line1->Draw(
"same");
1099 cchi->SaveAs(
"plots/sigma0"+particle+
".eps");
1103 grsigmacos1->Draw(
"AP");
1104 grsigmacos1n->Draw(
"P,same");
1105 line1->Draw(
"same");
1107 cchi->SaveAs(
"plots/sigma1"+particle+
".eps");
1111 grsigmacos2->Draw(
"AP");
1112 grsigmacos2n->Draw(
"P,same");
1113 line1->Draw(
"same");
1115 cchi->SaveAs(
"plots/sigma2"+particle+
".eps");
1117 for(
int i = 0; i < 2; ++i ){
1118 for(
int j = 0; j < cosbins; ++j ){
1119 delete hchi_costh_all[i][j];
1120 delete hchi_costh_0[i][j];
1121 delete hchi_costh_1[i][j];
1122 delete hchi_costh_2[i][j];
1142 delete grsigmacos0n;
1143 delete grsigmacos1n;
1144 delete grsigmacos2n;
string::const_iterator ptype
void FormatGraph(TGraphErrors *gr, int flag)
void bgCosThetaFits(TString particle, TFile *outfile, bool correct, std::string paramfile)
void bgFits(TString particle, TFile *outfile, bool correct, std::string paramfile)
double I2D(double cosTheta, double I, double alpha, double gamma, double delta, double power, double ratio) const
double D2I(double cosTheta, double D, double alpha, double gamma, double delta, double power, double ratio) const
void setParameters(double par[])
sprintf(cut,"kal_costheta0_em>-0.93&&kal_costheta0_em<0.93&&kal_pxy0_em>=0.05+%d*0.1&&kal_pxy0_em<0.15+%d*0.1&&NGch>=2", j, j)