32 for(
int i = 0; i < 5; i++) {
36 m_offset[i] = -1000.0;
44 for(
unsigned int i=0; i<5; i++ ) {
45 for(
unsigned int j=0; j<7; j++ ) {
47 m_dtCorr[i][j] = -1000.0;
48 m_sigCorr[i][j] = 10.0;
49 m_chiCorr[i][j] = 100.0;
54 if( !(
abs(run)>=m_runBegin &&
abs(run)<=m_runEnd ) ) {
77 SmartRefVector<RecTofTrack> tofTrk = recTrk->
tofTrack();
78 SmartRefVector<RecTofTrack>::iterator it;
80 const std::vector<TTofTrack* >& tofTrk = recTrk->
tofTrack();
81 std::vector<TTofTrack* >::const_iterator it;
87 double p[5], betaGamma[5];
89 for(
int i=0; i<5; i++ ) {
106 HepLorentzVector
ptrk = kalTrk->
p4();
111 betaGamma[i] =
p[i]/
xmass(i);
119 int tofid[2] = { -9, -9 };
122 bool readFile =
false;
123 bool signal[2] = {
false,
false };
125 for( it = tofTrk.begin(); it!=tofTrk.end(); it++ ) {
126 unsigned int st = (*it)->status();
128 if( hitst->
is_raw() )
return irc;
130 bool ismrpc = hitst->
is_mrpc();
131 if( !barrel && !ismrpc ) { zrhit[0] = extTrk->
tof1Position().rho(); }
135 int layer = hitst->
layer();
136 tofid[layer-1] = (*it)->tofID();
138 double tof = (*it)->tof();
139 unsigned int ipmt = 0;
143 if( barrel ) {
ipmt = ( ( st & 0xC0 ) >> 5 ) + ( ( ( st ^ 0x20 ) & 0x20 ) >> 5 ) - 2; }
146 if( tofid[0]<=47 ) {
ipmt = 7; }
150 if( tofid[0]<=35 ) {
ipmt = 7; }
155 for(
unsigned int i=0; i<5; i++ ) {
156 double offset = (*it)->toffset(i);
157 double texp = (*it)->texp(i);
158 if( texp<0.0 )
continue;
164 m_chiCorr[i][
ipmt] = m_dtCorr[i][
ipmt]/m_sigCorr[i][
ipmt];
170 m_sigCorr[i][0] =
sigmaTof( i,
charge, barrel,
ipmt, &tofid[0], &zrhit[0], betaGamma[i] );
171 m_chiCorr[i][0] = m_dtCorr[i][
ipmt]/m_sigCorr[i][
ipmt];
177 int strip = (*it)->strip();
179 if( strip<0 || strip>11 ) { m_sigCorr[i][0] = 0.065; }
181 if( strip==0 ) { p0=0.16; p1=0.0; }
182 else if( strip==1 ) { p0=0.051094; p1=0.019467; }
183 else if( strip==2 ) { p0=0.056019; p1=0.012964; }
184 else if( strip==3 ) { p0=0.043901; p1=0.015933; }
185 else if( strip==4 ) { p0=0.049750; p1=0.010473; }
186 else if( strip==5 ) { p0=0.048345; p1=0.008545; }
187 else if( strip==6 ) { p0=0.046518; p1=0.009038; }
188 else if( strip==7 ) { p0=0.048803; p1=0.007251; }
189 else if( strip==8 ) { p0=0.047523; p1=0.008434; }
190 else if( strip==9 ) { p0=0.042187; p1=0.010307; }
191 else if( strip==10 ) { p0=0.050337; p1=0.005951; }
192 else if( strip==11 ) { p0=0.054740; p1=0.005629; }
193 if(
p[i]<0.05 ) { m_sigCorr[i][0] = p0+p1/0.05; }
194 else { m_sigCorr[i][0] = p0+p1/
p[i]; }
196 if( i==4 ) { m_sigCorr[i][0] = 1.5*m_sigCorr[i][0]; }
197 m_chiCorr[i][0] = m_dtCorr[i][0]/m_sigCorr[i][0];
201 if( counter && cluster ) {
203 for(
unsigned int i=0; i<5; i++ ) {
204 if( ((*it)->texp(i))>0.0 ) {
206 m_offset[i] = m_dtCorr[i][
ipmt];
207 m_sigma[i] = m_sigCorr[i][
ipmt];
210 m_offset[i] = m_dtCorr[i][0];
211 m_sigma[i] = m_sigCorr[i][0];
220 for(
unsigned int i=0; i<5; i++ ) {
221 double offset = (*it)->toffset(i);
222 double texp = (*it)->texp(i);
223 if( texp<0.0 )
continue;
228 m_sigCorr[i][
ipmt] =
sigmaTof( i,
charge, barrel, layer+3, &tofid[0], &zrhit[0], betaGamma[i] );
229 m_chiCorr[i][
ipmt] = m_dtCorr[i][
ipmt]/m_sigCorr[i][
ipmt];
236 int strip = (*it)->strip();
238 if( strip<0 || strip>11 ) { m_sigCorr[i][0] = 0.065; }
240 if( strip==0 ) { p0=0.16; p1=0.0; }
241 else if( strip==1 ) { p0=0.051094; p1=0.019467; }
242 else if( strip==2 ) { p0=0.056019; p1=0.012964; }
243 else if( strip==3 ) { p0=0.043901; p1=0.015933; }
244 else if( strip==4 ) { p0=0.049750; p1=0.010473; }
245 else if( strip==5 ) { p0=0.048345; p1=0.008545; }
246 else if( strip==6 ) { p0=0.046518; p1=0.009038; }
247 else if( strip==7 ) { p0=0.048803; p1=0.007251; }
248 else if( strip==8 ) { p0=0.047523; p1=0.008434; }
249 else if( strip==9 ) { p0=0.042187; p1=0.010307; }
250 else if( strip==10 ) { p0=0.050337; p1=0.005951; }
251 else if( strip==11 ) { p0=0.054740; p1=0.005629; }
252 if(
p[i]<0.05 ) { m_sigCorr[i][0] = p0+p1/0.05; }
253 else { m_sigCorr[i][0] = p0+p1/
p[i]; }
255 if( i==4 ) { m_sigCorr[i][0] = 1.5*m_sigCorr[i][0]; }
256 m_chiCorr[i][0] = m_dtCorr[i][0]/m_sigCorr[i][0];
259 cout <<
"ParticleID: TofCorr::particleIDCalculation: Endcap Scintillator TOF have more than one end!!!" << endl;
265 for(
unsigned int i=0; i<5; i++ ) {
266 if( ((*it)->texp(i))>0.0 ) {
268 m_offset[i] = m_dtCorr[i][
ipmt];
269 m_sigma[i] = m_sigCorr[i][
ipmt];
272 m_offset[i] = m_dtCorr[i][0];
273 m_sigma[i] = m_sigCorr[i][0];
285 for(
unsigned int i=0; i<5; i++ ) {
286 double offset = (*it)->toffset(i);
287 double texp = (*it)->texp(i);
288 if( texp<0.0 )
continue;
291 m_dtCorr[i][
ipmt] =
offsetTof( i, tofid[0], tofid[1], zrhit[0], zrhit[1], betaGamma[i],
charge,
dt );
293 m_chiCorr[i][
ipmt] = m_dtCorr[i][
ipmt]/m_sigCorr[i][
ipmt];
295 if( signal[0] && signal[1] ) {
297 for(
unsigned int i=0; i<5; i++ ) {
298 m_offset[i] = m_dtCorr[i][
ipmt];
299 m_sigma[i] = m_sigCorr[i][
ipmt];
302 else if( signal[0] && !signal[1] ) {
304 for(
unsigned int i=0; i<5; i++ ) {
305 m_offset[i] = m_dtCorr[i][4];
306 m_sigma[i] = m_sigCorr[i][4];
309 else if( !signal[0] && signal[1] ) {
311 for(
unsigned int i=0; i<5; i++ ) {
312 m_offset[i] = m_dtCorr[i][5];
313 m_sigma[i] = m_sigCorr[i][5];
324 for(
unsigned int i=0; i<5; i++ ) {
325 m_chi[i] = m_offset[i]/m_sigma[i];
326 if( m_chi[i]<0. && m_chi[i]>m_chimin ) { m_chimin = m_chi[i]; }
327 if( m_chi[i]>0. && m_chi[i]<m_chimax ) { m_chimax = m_chi[i]; }
329 if( fabs(ppp) > pdftemp) { pdftemp = fabs(ppp); }
334 if( ( m_chimin > -90.0 && (0-m_chimin)>
chiMinCut() ) && ( m_chimax < 90.0 && m_chimax>
chiMaxCut() ) )
return irc;
335 for(
int i = 0; i < 5; i++) {
346 std::string filePath =
path +
"/share/TofCorrPID/";
348 filePath = filePath +
"jpsi2012";
353 filePath = filePath +
"/data/";
356 filePath = filePath +
"/mc/";
361 std::string fileWeight = filePath +
"calib_barrel_sigma.txt";
362 ifstream inputWeight( fileWeight.c_str(), std::ios_base::in );
364 cout <<
"ParticleID::TofCorrPID: Can NOT open file: " << fileWeight << endl;
368 for(
unsigned int tofid=0; tofid<176; tofid++ ) {
369 for(
unsigned int readout=0; readout<3; readout++ ) {
370 for(
unsigned int p_i=0; p_i<5; p_i++ ) {
371 inputWeight >> m_p_weight[tofid][readout][p_i];
378 std::string fileCommon = filePath +
"calib_barrel_common.txt";
379 ifstream inputCommon( fileCommon.c_str(), std::ios_base::in );
381 cout <<
"ParticleID::TofCorrPID: Can NOT open file: " << fileCommon << endl;
384 inputCommon >> m_p_common;
388 std::string fileEcSigma = filePath +
"calib_endcap_sigma.txt";
389 ifstream inputEcSigma( fileEcSigma.c_str(), std::ios_base::in );
390 if( !inputEcSigma ) {
391 cout <<
"ParticleID::TofCorrPID: Can NOT open file: " << fileEcSigma << endl;
395 for(
unsigned int tofid=0; tofid<96; tofid++ ) {
396 for(
unsigned int p_i=0; p_i<3; p_i++ ) {
397 inputEcSigma >> m_ec_sigma[tofid][p_i];
403 std::string fileQ0BetaGamma = filePath +
"curve_Q0_BetaGamma.txt";
404 ifstream inputQ0BetaGamma( fileQ0BetaGamma.c_str(), std::ios_base::in );
405 if( !inputQ0BetaGamma ) {
406 cout <<
"ParticleID::TofCorrPID: Can NOT open file: " << fileQ0BetaGamma << endl;
410 for(
unsigned int layer=0; layer<3; layer++ ) {
411 for(
unsigned int ipar=0; ipar<5; ipar++ ) {
412 inputQ0BetaGamma >> m_q0_bg[layer][ipar];
418 std::string fileParAB = filePath +
"parameter_A_B.txt";
419 ifstream inputParAB( fileParAB.c_str(), std::ios_base::in );
421 cout <<
"ParticleID::TofCorrPID: Can NOT open file: " << fileParAB << endl;
430 for(
unsigned int ispecies=0; ispecies<2; ispecies++ ) {
432 for(
unsigned int icharge=0; icharge<2; icharge++ ) {
433 for(
unsigned int iab=0; iab<2; iab++ ) {
434 for(
unsigned int ipar=0; ipar<11; ipar++ ) {
435 inputParAB >> m_par_ab_12[ispecies][
ipmt][icharge][iab][ipar];
443 std::string fileSigma = filePath +
"parameter_sigma.txt";
444 ifstream inputSigma( fileSigma.c_str(), std::ios_base::in );
446 cout <<
"ParticleID::TofCorrPID: Can NOT open file: " << fileSigma << endl;
454 for(
unsigned int ispecies=0; ispecies<4; ispecies++ ) {
456 for(
unsigned int ipar=0; ipar<12; ipar++ ) {
457 inputSigma >> m_par_sigma[ispecies][
ipmt][ipar];
463 std::string fileProtonOffset = filePath +
"parameter_offset_proton.txt";
464 ifstream inputProtonOffset( fileProtonOffset.c_str(), std::ios_base::in );
465 if( !inputProtonOffset ) {
466 cout <<
"ParticleID::TofCorrPID: Can NOT open file: " << fileProtonOffset << endl;
475 for(
unsigned int ispecies=0; ispecies<2; ispecies++ ) {
477 for(
unsigned int ipar=0; ipar<20; ipar++ ) {
479 for(
unsigned int jpar=0; jpar<46; jpar++ ) {
480 inputProtonOffset >> m_p_offset_12[ispecies][
ipmt][ipar][jpar];
484 for(
unsigned int jpar=0; jpar<7; jpar++ ) {
485 inputProtonOffset >> m_p_offset_ec12[ispecies][ipar][jpar];
494 std::string fileProtonSigma = filePath +
"parameter_sigma_proton.txt";
495 ifstream inputProtonSigma( fileProtonSigma.c_str(), std::ios_base::in );
496 if( !inputProtonSigma ) {
497 cout <<
"ParticleID::TofCorrPID: Can NOT open file: " << fileProtonSigma << endl;
506 for(
unsigned int ispecies=0; ispecies<2; ispecies++ ) {
508 for(
unsigned int ipar=0; ipar<20; ipar++ ) {
510 for(
unsigned int jpar=0; jpar<46; jpar++ ) {
511 inputProtonSigma >> m_p_sigma_12[ispecies][
ipmt][ipar][jpar];
515 for(
unsigned int jpar=0; jpar<7; jpar++ ) {
516 inputProtonSigma >> m_p_sigma_ec12[ispecies][ipar][jpar];
529 if( ispecies==0 || ispecies==1 ) {
return dt; }
531 double deltaT = -1000.0;
532 if( (
ipmt>= 4 && barrel ) || (
ipmt!=7 &&
ipmt!=8 && !barrel ) || betaGamma<0.0 ||
abs(
charge)!=1 || fabs(zrhit)>120.0 ) {
536 unsigned int layer=0;
538 if(
ipmt==0 ||
ipmt==1 ) { layer=0; }
539 else if(
ipmt==2 ||
ipmt==3 ) { layer=1; }
544 unsigned int inumber=
ipmt;
545 if( !barrel ) { inumber=4; }
548 for(
unsigned int i=0; i<9; i++ ) {
557 for(
unsigned int i=1; i<8; i++ ) {
558 func[i] = func[i-1]*zrhit;
561 unsigned int iparticle=0;
562 if( ispecies==2 || ispecies==3 ) { iparticle=0; }
563 else if( ispecies==4 ) { iparticle=1; }
564 unsigned int icharge=0;
565 if(
charge==1 ) { icharge=0; }
566 else if(
charge==-1 ) { icharge=1; }
568 if( ispecies!=4 || betaGamma*
xmass(4)>0.8 ) {
569 for(
unsigned int i=0; i<8; i++ ) {
571 parA += m_par_ab_12[iparticle][inumber][icharge][0][i]*func[i];
572 parB += m_par_ab_12[iparticle][inumber][icharge][1][i]*func[i];
575 parA += m_par_ab_12[iparticle][inumber][icharge][0][i+3]*func[i];
576 parB += m_par_ab_12[iparticle][inumber][icharge][1][i+3]*func[i];
579 for(
unsigned int iab=0; iab<2; iab++ ) {
580 func[8] = m_par_ab_12[iparticle][inumber][icharge][iab][5]*TMath::Gaus(zrhit,m_par_ab_12[iparticle][inumber][icharge][iab][6], m_par_ab_12[iparticle][inumber][icharge][iab][7]);
590 double tcorr = parA + parB/sqrt(q0);
594 if( barrel && ispecies==4 && betaGamma*
xmass(4)<0.8 ) {
600 double nbgbin = 20.0;
601 double bgbegin = 0.3;
604 bgstep = (bgend-bgbegin)/nbgbin;
606 int izbin =
static_cast<int>((zrhit-
zbegin)/zstep);
607 if( izbin<0 ) { izbin=0; }
608 else if( izbin>=nzbin ) { izbin=nzbin-1; }
609 int ibgbin =
static_cast<int>((betaGamma*
xmass(4)-bgbegin)/bgstep);
610 if( ibgbin<0 ) { ibgbin=0; }
611 else if( ibgbin>=nbgbin ) { ibgbin=nbgbin-1; }
614 tcorr = m_p_offset_12[0][
ipmt][ibgbin][izbin];
617 tcorr = m_p_offset_12[1][
ipmt][ibgbin][izbin];
620 else if( !barrel && ispecies==4 && betaGamma*
xmass(4)<0.8 ) {
626 double nbgbin = 20.0;
627 double bgbegin = 0.3;
630 bgstep = (bgend-bgbegin)/nbgbin;
632 int irbin =
static_cast<int>((zrhit-
rbegin)/rstep);
633 if( irbin<0 ) { irbin=0; }
634 else if( irbin>=nrbin ) { irbin=nrbin-1; }
635 int ibgbin =
static_cast<int>((betaGamma*
xmass(4)-bgbegin)/bgstep);
636 if( ibgbin<0 ) { ibgbin=0; }
637 else if( ibgbin>=nbgbin ) { ibgbin=nbgbin-1; }
640 tcorr = m_p_offset_ec12[0][ibgbin][irbin];
643 tcorr = m_p_offset_ec12[1][ibgbin][irbin];
654 if( ispecies==0 || ispecies==1 ) {
return dt; }
656 double deltaT = -1000.0;
657 if( tofid<0 || tofid>=176 ) {
658 cout <<
"Particle::TofCorrPID: offsetTof for single layer: the input parameter are NOT correct! Please check them!" << endl;
661 int pmt[3] = { -9, -9, -9 };
662 if( tofid>=0 && tofid<=87 ) {
673 double sigmaCorr2 = m_p_common*m_p_common;
674 double sigmaLeft =
bSigma( 0, tofid, zrhit );
675 double sigmaLeft2 = sigmaLeft*sigmaLeft;
676 double sigmaRight =
bSigma( 1, tofid, zrhit );
677 double sigmaRight2 = sigmaRight*sigmaRight;
679 double fraction = ( sigmaRight2 - sigmaCorr2 )/( sigmaLeft2 + sigmaRight2 - 2.0*sigmaCorr2);
680 deltaT = fraction*m_dtCorr[ispecies][pmt[0]] + (1.0-fraction)*m_dtCorr[ispecies][pmt[1]];
684 unsigned int ipmt = 4;
685 if( tofid>=88 && tofid<176 ) {
ipmt = 5; }
686 if( ispecies==4 && betaGamma*
xmass(4)<0.8 ) {
692 double nbgbin = 20.0;
693 double bgbegin = 0.3;
696 bgstep = (bgend-bgbegin)/nbgbin;
698 int izbin =
static_cast<int>((zrhit-
zbegin)/zstep);
699 if( izbin<0 ) { izbin=0; }
700 else if( izbin>=nzbin ) { izbin=nzbin-1; }
701 int ibgbin =
static_cast<int>((betaGamma*
xmass(4)-bgbegin)/bgstep);
702 if( ibgbin<0 ) { ibgbin=0; }
703 else if( ibgbin>=nbgbin ) { ibgbin=nbgbin-1; }
706 tcorr = m_p_offset_12[0][
ipmt][ibgbin][izbin];
709 tcorr = m_p_offset_12[1][
ipmt][ibgbin][izbin];
712 deltaT = deltaT - tcorr;
719 if( ispecies==0 || ispecies==1 ) {
return dt; }
721 double deltaT = -1000.0;
722 if( tofid1<0 || tofid1>=88 || tofid2<88 || tofid2>=176 ) {
723 cout <<
"Particle::TofCorrPID: offsetTof for double layer: the input parameter are NOT correct! Please check them!" << endl;
727 double sigmaCorr2 = m_p_common*m_p_common;
728 double sigmaInner =
bSigma( 2, tofid1, zrhit1 );
729 double sigmaInner2 = sigmaInner*sigmaInner;
730 double sigmaOuter =
bSigma( 2, tofid2, zrhit2 );
731 double sigmaOuter2 = sigmaOuter*sigmaOuter;
732 double sigma = sqrt( (sigmaInner2*sigmaOuter2-sigmaCorr2*sigmaCorr2)/(sigmaInner2+sigmaOuter2-2.0*sigmaCorr2) );
737 double fraction = ( sigmaOuter2 - sigmaCorr2 )/( sigmaInner2 + sigmaOuter2 - 2.0*sigmaCorr2);
738 deltaT = fraction*m_dtCorr[ispecies][4] + (1.0-fraction)*m_dtCorr[ispecies][5];
742 if( ispecies==4 && betaGamma*
xmass(4)<0.8 ) {
748 double nbgbin = 20.0;
749 double bgbegin = 0.3;
752 bgstep = (bgend-bgbegin)/nbgbin;
754 int izbin =
static_cast<int>((zrhit1-
zbegin)/zstep);
755 if( izbin<0 ) { izbin=0; }
756 else if( izbin>=nzbin ) { izbin=nzbin-1; }
757 int ibgbin =
static_cast<int>((betaGamma*
xmass(4)-bgbegin)/bgstep);
758 if( ibgbin<0 ) { ibgbin=0; }
759 else if( ibgbin>=nbgbin ) { ibgbin=nbgbin-1; }
762 tcorr = m_p_offset_12[0][6][ibgbin][izbin];
765 tcorr = m_p_offset_12[1][6][ibgbin][izbin];
768 deltaT = deltaT - tcorr;
774double TofCorrPID::sigmaTof(
unsigned int ispecies,
int charge,
bool barrel,
unsigned int ipmt,
int tofid[2],
double zrhit[2],
double betaGamma ) {
776 double sigma = 1.0e-6;
778 if( ispecies==0 || ispecies==1 ) {
822 if( ispecies==4 && (betaGamma*
xmass(4))<0.8 ) {
823 double nbgbin = 20.0;
824 double bgbegin = 0.3;
827 bgstep = (bgend-bgbegin)/nbgbin;
828 ibgbin =
static_cast<int>((betaGamma*
xmass(4)-bgbegin)/bgstep);
830 if( ibgbin<0 ) { ibgbin=0; }
831 else if( ibgbin>=nbgbin ) { ibgbin=nbgbin-1; }
839 izbin =
static_cast<int>((zrhit-
zbegin)/zstep);
840 if( izbin<0 ) { izbin=0; }
841 else if( izbin>=nzbin ) { izbin=nzbin-1; }
849 izbin =
static_cast<int>((zrhit-
zbegin)/zstep);
850 if( izbin<0 ) { izbin=0; }
851 else if( izbin>=nzbin ) { izbin=nzbin-1; }
855 unsigned int numParam = 4;
857 for(
unsigned int i=0; i<4; i++ ) {
858 if( i==0 ) { func[i] = 1.0; }
860 func[i] = func[i-1]*zrhit;
863 for(
unsigned int i=4; i<12; i++ ) {
869 if( ispecies==2 || ispecies==3 ) {
870 for(
unsigned int i=4; i<10; i++ ) {
871 func[i] = func[i-1]*zrhit;
873 func[10] = 1.0/(115.0-zrhit)/(115.0-zrhit);
874 func[11] = 1.0/(115.0+zrhit)/(115.0+zrhit);
877 else if( ispecies==4 ) {
878 for(
unsigned int i=4; i<12; i++ ) {
879 func[i] = func[i-1]*zrhit;
888 unsigned int inumber =
ipmt;
889 if( !barrel ) { inumber=7; }
892 if( ispecies==2 || ispecies==3 ) {
893 for(
unsigned int i=0; i<numParam; i++ ) {
894 sigma += m_par_sigma[ispecies-2][inumber][i]*func[i];
897 else if( ispecies==4 ) {
902 sigma = m_p_sigma_12[0][inumber][ibgbin][izbin];
905 sigma = m_p_sigma_12[1][inumber][ibgbin][izbin];
910 sigma = m_p_sigma_ec12[0][ibgbin][izbin];
913 sigma = m_p_sigma_ec12[1][ibgbin][izbin];
916 if( fabs(
sigma+999.0)<1.0e-6 ) {
921 for(
unsigned int i=0; i<numParam; i++ ) {
923 sigma += m_par_sigma[2][inumber][i]*func[i];
926 sigma += m_par_sigma[3][inumber][i]*func[i];
936 sigma =
sigma*(TMath::Exp((betaGamma-0.356345)/(-0.767124))+0.994072);
946 if( layer>=3 || betaGamma<0.0 ) {
947 cout <<
"Particle::TofCorrPID::qCurveFunc: the input parameter are NOT correct! Please check them!" << endl;
951 double beta = betaGamma/sqrt(1.0+betaGamma*betaGamma);
952 double logterm = log( m_q0_bg[layer][2]+pow((1.0/betaGamma), m_q0_bg[layer][4] ) );
953 q0 = m_q0_bg[layer][0]*( m_q0_bg[layer][1]-pow( beta, m_q0_bg[layer][3] ) - logterm )/pow( beta, m_q0_bg[layer][3] );
964 func[2] = zrhit*zrhit;
965 func[3] = zrhit*zrhit*zrhit;
966 func[4] = zrhit*zrhit*zrhit*zrhit;
969 for(
unsigned int i=0; i<5; i++ ) {
970 sigma += m_p_weight[tofid][end][i]*func[i];
979 double sigma1 =
bSigma( 2, tofid[0], zrhit[0] );
980 double sigma2 =
bSigma( 2, tofid[1], zrhit[1] );
981 double sigmaCorr2 = m_p_common*m_p_common;
982 double sigma = ( sigma1*sigma1*sigma2*sigma2 - sigmaCorr2*sigmaCorr2 )/( sigma1*sigma1 + sigma2*sigma2 - 2.0*sigmaCorr2 );
994 func[2] = zrhit*zrhit;
997 for(
unsigned int i=0; i<3; i++ ) {
998 sigma += m_ec_sigma[tofid][i]*func[i];
1006 bool chiCut =
false;
1009 for(
unsigned int i=0; i<5; i++ ) {
1012 if( fabs(ppp) > pdftemp) { pdftemp = fabs(ppp); }
1016 if( !good )
return chiCut;
const Hep3Vector tof1Position() const
const Hep3Vector tof2Position() const
static void setPidType(PidType pidType)
const HepLorentzVector p4() const
bool isMdcKalTrackValid()
SmartRefVector< RecTofTrack > tofTrack()
RecMdcKalTrack * mdcKalTrack()
EvtRecTrack * PidTrk() const
double probCalculate(double chi2, int n)
double pdfCalculate(double offset, double sigma)
double pdfMinSigmaCut() const
void inputParameter(int run)
double qCurveFunc(unsigned int layer, double betaGamma)
int particleIDCalculation()
double offset(int n) const
double sigmaTof(unsigned int ispecies, int charge, bool barrel, unsigned int ipmt, int tofid[2], double zrhit[2], double betaGamma)
double bSigma(unsigned int end, int tofid, double zrhit)
double offsetTof(unsigned int ispecies, bool barrel, unsigned int ipmt, double betaGamma, int charge, double zrhit, double dt)
static TofCorrPID * instance()
double eSigma(int tofid, double zrhit)
bool correlationCheck(unsigned int ipmt)
unsigned int layer() const
void setStatus(unsigned int status)