BOSS 7.0.6
BESIII Offline Software System
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TofCorrPID.cxx
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1#include <cmath>
2#include "TMath.h"
3
5
6#ifndef BEAN
13#else
14#include "TofHitStatus.h"
15#endif
16#include <fstream>
17
18
19TofCorrPID * TofCorrPID::m_pointer = 0;
21 if(!m_pointer) m_pointer = new TofCorrPID();
22 return m_pointer;
23}
24
25TofCorrPID::TofCorrPID():ParticleIDBase() {
26 m_runBegin = 0;
27 m_runEnd = 0;
28}
29
31
32 for(int i = 0; i < 5; i++) {
33 m_chi[i] = -100.0;
34 m_prob[i] = -1.0;
35 m_sigma[i] = 10.0;
36 m_offset[i] = -1000.0;
37 }
38 m_chimin = -99.0;
39 m_chimax = 99.0;
40 m_pdfmin = 99.;
41 m_ndof = 0;
42
43 m_ipmt = -1;
44 for( unsigned int i=0; i<5; i++ ) {
45 for( unsigned int j=0; j<7; j++ ) {
46 m_dt[i][j] = -1000.0;
47 m_dtCorr[i][j] = -1000.0;
48 m_sigCorr[i][j] = 10.0;
49 m_chiCorr[i][j] = 100.0;
50 }
51 }
52
53 int run = getRunNo();
54 if( !( abs(run)>=m_runBegin && abs(run)<=m_runEnd ) ) {
56 }
57
58 return;
59}
60
61
63 if(particleIDCalculation() == 0) m_ndof=1;
64}
65
66
68 int irc=-1;
69
70 EvtRecTrack* recTrk = PidTrk();
71 if(!(recTrk->isMdcTrackValid())) return irc;
72 if(!(recTrk->isMdcKalTrackValid())) return irc;
73 if(!(recTrk->isExtTrackValid())) return irc;
74 if(!(recTrk->isTofTrackValid())) return irc;
75
76#ifndef BEAN
77 SmartRefVector<RecTofTrack> tofTrk = recTrk->tofTrack();
78 SmartRefVector<RecTofTrack>::iterator it;
79#else
80 const std::vector<TTofTrack* >& tofTrk = recTrk->tofTrack();
81 std::vector<TTofTrack* >::const_iterator it;
82#endif
83
84 RecMdcTrack* mdcTrk = recTrk->mdcTrack();
85 int charge = mdcTrk->charge();
86
87 double p[5], betaGamma[5];
88 RecMdcKalTrack* kalTrk = recTrk->mdcKalTrack();
89 for( int i=0; i<5; i++ ) {
90 if( i==0 ) {
92 }
93 else if( i==1 ) {
95 }
96 else if( i==2 ) {
98 }
99 else if( i==3 ) {
101 }
102 else if( i==4 ) {
104 }
105#ifndef BEAN
106 HepLorentzVector ptrk = kalTrk->p4();
107#else
108 HepLorentzVector ptrk = kalTrk->p4( xmass(i) );
109#endif
110 p[i] = ptrk.rho();
111 betaGamma[i] = p[i]/xmass(i);
112 }
113
114 double zrhit[2];
115 RecExtTrack* extTrk = recTrk->extTrack();
116 zrhit[0] = extTrk->tof1Position().z();
117 zrhit[1] = extTrk->tof2Position().z();
118
119 int tofid[2] = { -9, -9 };
120
121 m_ipmt = -1;
122 bool readFile = false;
123 bool signal[2] = { false, false };
124 TofHitStatus *hitst = new TofHitStatus;
125 for( it = tofTrk.begin(); it!=tofTrk.end(); it++ ) {
126 unsigned int st = (*it)->status();
127 hitst->setStatus(st);
128 if( hitst->is_raw() ) return irc; // TOF no hit
129 bool barrel = hitst->is_barrel();
130 bool ismrpc = hitst->is_mrpc();
131 if( !barrel && !ismrpc ) { zrhit[0] = extTrk->tof1Position().rho(); }
132 bool readout = hitst->is_readout();
133 bool counter = hitst->is_counter();
134 bool cluster = hitst->is_cluster();
135 int layer = hitst->layer();
136 tofid[layer-1] = (*it)->tofID();
137 bool east = hitst->is_east();
138 double tof = (*it)->tof();
139 unsigned int ipmt = 0;
140 if( readout ) {
141 // barrel: 0:inner east, 1:inner west, 2:outer east, 3: outer west
142 // endcap: 7:east endcap, 8:west endcap
143 if( barrel ) { ipmt = ( ( st & 0xC0 ) >> 5 ) + ( ( ( st ^ 0x20 ) & 0x20 ) >> 5 ) - 2; }
144 else {
145 if( !ismrpc ) {
146 if( tofid[0]<=47 ) { ipmt = 7; }
147 else { ipmt = 8; }
148 }
149 else {
150 if( tofid[0]<=35 ) { ipmt = 7; }
151 else { ipmt = 8; }
152 }
153 }
154
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;
159 double dt = tof - offset - texp;
160 if( barrel ) {
161 m_dt[i][ipmt] = dt;
162 m_dtCorr[i][ipmt] = offsetTof( i, barrel, ipmt, betaGamma[i], charge, zrhit[layer-1], dt );
163 m_sigCorr[i][ipmt] = sigmaTof( i, charge, barrel, ipmt, &tofid[0], &zrhit[0], betaGamma[i] );
164 m_chiCorr[i][ipmt] = m_dtCorr[i][ipmt]/m_sigCorr[i][ipmt];
165 }
166 else {
167 if( !ismrpc ) {
168 m_dt[i][0] = dt;
169 m_dtCorr[i][0] = offsetTof( i, barrel, ipmt, betaGamma[i], charge, zrhit[layer-1], dt );
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];
172 }
173 else {
174 m_dt[i][0] = dt;
175 m_dtCorr[i][0] = dt;
176 // m_sigCorr[i][0] = 0.065;
177 int strip = (*it)->strip();
178 double p0, p1;
179 if( strip<0 || strip>11 ) { m_sigCorr[i][0] = 0.065; }
180 else {
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]; }
195 }
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];
198 }
199 }
200 }
201 if( counter && cluster ) {
202 m_ipmt = ipmt;
203 for( unsigned int i=0; i<5; i++ ) {
204 if( ((*it)->texp(i))>0.0 ) {
205 if( barrel ) {
206 m_offset[i] = m_dtCorr[i][ipmt];
207 m_sigma[i] = m_sigCorr[i][ipmt];
208 }
209 else {
210 m_offset[i] = m_dtCorr[i][0];
211 m_sigma[i] = m_sigCorr[i][0];
212 }
213 }
214 }
215 }
216 }
217 else {
218 if( counter ) {
219 ipmt = layer+3;
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;
224 double dt = tof - offset - texp;
225 if( barrel ) {
226 m_dt[i][ipmt] = dt;
227 m_dtCorr[i][ipmt] = offsetTof( i, tofid[layer-1], zrhit[layer-1], betaGamma[i], charge, dt );
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];
230 }
231 else {
232 if( ismrpc ) {
233 m_dt[i][0] = dt;
234 m_dtCorr[i][0] = dt;
235 // m_sigCorr[i][0] = 0.065;
236 int strip = (*it)->strip();
237 double p0, p1;
238 if( strip<0 || strip>11 ) { m_sigCorr[i][0] = 0.065; }
239 else {
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]; }
254 }
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];
257 }
258 else {
259 cout << "ParticleID: TofCorr::particleIDCalculation: Endcap Scintillator TOF have more than one end!!!" << endl;
260 }
261 }
262 }
263 if( cluster ) {
264 m_ipmt = ipmt;
265 for( unsigned int i=0; i<5; i++ ) {
266 if( ((*it)->texp(i))>0.0 ) {
267 if( barrel ) {
268 m_offset[i] = m_dtCorr[i][ipmt];
269 m_sigma[i] = m_sigCorr[i][ipmt];
270 }
271 else {
272 m_offset[i] = m_dtCorr[i][0];
273 m_sigma[i] = m_sigCorr[i][0];
274 }
275 }
276 }
277 }
278 else {
279 signal[layer-1] = correlationCheck( ipmt );
280 }
281 }
282 else {
283 if( cluster ) {
284 ipmt = 6;
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;
289 double dt = tof - offset - texp;
290 m_dt[i][ipmt] = dt;
291 m_dtCorr[i][ipmt] = offsetTof( i, tofid[0], tofid[1], zrhit[0], zrhit[1], betaGamma[i], charge, dt );
292 m_sigCorr[i][ipmt] = sigmaTof( i, charge, barrel, ipmt, &tofid[0], &zrhit[0], betaGamma[i] );
293 m_chiCorr[i][ipmt] = m_dtCorr[i][ipmt]/m_sigCorr[i][ipmt];
294 }
295 if( signal[0] && signal[1] ) {
296 m_ipmt = 6;
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];
300 }
301 }
302 else if( signal[0] && !signal[1] ) {
303 m_ipmt = 4;
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];
307 }
308 }
309 else if( !signal[0] && signal[1] ) {
310 m_ipmt = 5;
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];
314 }
315 }
316 else return irc;
317 }
318 }
319 }
320 }
321 delete hitst;
322
323 double pdftemp = 0;
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]; }
328 double ppp = pdfCalculate(m_chi[i],1);
329 if( fabs(ppp) > pdftemp) { pdftemp = fabs(ppp); }
330 }
331
332 m_pdfmin = pdftemp;
333 if( pdftemp < pdfCalculate(pdfMinSigmaCut(),1) ) return irc;
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++) {
336 m_prob[i] = probCalculate(m_chi[i]*m_chi[i], 1);
337 }
338
339 irc = 0;
340 return irc;
341}
342
343
345
346 std::string filePath = path + "/share/TofCorrPID/";
347
348 filePath = filePath + "jpsi2012";
349 m_runBegin = 0;
350 m_runEnd = 80000;
351
352 if( run>0 ) {
353 filePath = filePath + "/data/";
354 }
355 else {
356 filePath = filePath + "/mc/";
357 }
358
359
360 // weight from tof calibration
361 std::string fileWeight = filePath + "calib_barrel_sigma.txt";
362 ifstream inputWeight( fileWeight.c_str(), std::ios_base::in );
363 if( !inputWeight ) {
364 cout << "ParticleID::TofCorrPID: Can NOT open file: " << fileWeight << endl;
365 exit(1);
366 }
367
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];
372 }
373 }
374 }
375 // cout << "finish read " << fileWeight << endl;
376
377 // common item, from bunch size and bunch time
378 std::string fileCommon = filePath + "calib_barrel_common.txt";
379 ifstream inputCommon( fileCommon.c_str(), std::ios_base::in );
380 if( !inputCommon ) {
381 cout << "ParticleID::TofCorrPID: Can NOT open file: " << fileCommon << endl;
382 exit(1);
383 }
384 inputCommon >> m_p_common;
385 // cout << "finish read " << fileCommon << endl;
386
387 // endcap sigma
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;
392 exit(1);
393 }
394
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];
398 }
399 }
400 // cout << "finish read " << fileEcSigma << endl;
401
402 // curve of betaGamma versus Q0
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;
407 exit(1);
408 }
409 // barrel layer1 layer2 and endcap
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];
413 }
414 }
415 // cout << "finish read " << fileQ0BetaGamma << endl;
416
417 // paramter of A and B
418 std::string fileParAB = filePath + "parameter_A_B.txt";
419 ifstream inputParAB( fileParAB.c_str(), std::ios_base::in );
420 if( !inputParAB ) {
421 cout << "ParticleID::TofCorrPID: Can NOT open file: " << fileParAB << endl;
422 exit(1);
423 }
424
425 // Jpsi2012
426 // 0: pion/kaon, 1: proton/anti-proton
427 // 0: inner east, 1: inner west, 2: outer east, 3: outer west, 4: west endcap
428 // 0: plus, 1: minus
429 // 0: parameter A, 1: parameter B
430 for( unsigned int ispecies=0; ispecies<2; ispecies++ ) {
431 for( unsigned int ipmt=0; ipmt<5; ipmt++ ) {
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];
436 }
437 }
438 }
439 }
440 }
441
442 // sigma for pion, kaon and proton
443 std::string fileSigma = filePath + "parameter_sigma.txt";
444 ifstream inputSigma( fileSigma.c_str(), std::ios_base::in );
445 if( !inputSigma ) {
446 cout << "ParticleID::TofCorrPID: Can NOT open file: " << fileSigma << endl;
447 exit(1);
448 }
449 // Jpsi2009 & Jpsi2012
450 // 0: pion, 1: kaon, 2: proton, 3: anti-proton
451 // 0: inner east, 1: inner west, 2: outer east, 3: outer west
452 // 4: inner layer, 5: outer layer, 6: double layer
453 // 7: west endcap
454 for( unsigned int ispecies=0; ispecies<4; ispecies++ ) {
455 for( unsigned int ipmt=0; ipmt<8; ipmt++ ) {
456 for( unsigned int ipar=0; ipar<12; ipar++ ) {
457 inputSigma >> m_par_sigma[ispecies][ipmt][ipar];
458 }
459 }
460 }
461
462 // offset for low momentum proton and anti-proton
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;
467 exit(1);
468 }
469
470 // Jpsi2012
471 // 0: proton, 1: anti-proton
472 // 0: inner east, 1: inner west, 2: outer east, 3: outer west
473 // 4: inner layer, 5: outer layer, 6: double layer
474 // 7: west endcap
475 for( unsigned int ispecies=0; ispecies<2; ispecies++ ) {
476 for( unsigned int ipmt=0; ipmt<8; ipmt++ ) {
477 for( unsigned int ipar=0; ipar<20; ipar++ ) {
478 if( ipmt!=7 ) {
479 for( unsigned int jpar=0; jpar<46; jpar++ ) {
480 inputProtonOffset >> m_p_offset_12[ispecies][ipmt][ipar][jpar];
481 }
482 }
483 else {
484 for( unsigned int jpar=0; jpar<7; jpar++ ) {
485 inputProtonOffset >> m_p_offset_ec12[ispecies][ipar][jpar];
486 }
487 }
488 }
489 }
490 }
491 // cout << "finish read " << fileProtonOffset << endl;
492
493 // sigma for low momentum proton and anti-proton
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;
498 exit(1);
499 }
500
501 // Jpsi2012
502 // 0: proton, 1: anti-proton
503 // 0: inner east, 1: inner west, 2: outer east, 3: outer west
504 // 4: inner layer, 5: outer layer, 6: double layer
505 // 7: west endcap
506 for( unsigned int ispecies=0; ispecies<2; ispecies++ ) {
507 for( unsigned int ipmt=0; ipmt<8; ipmt++ ) {
508 for( unsigned int ipar=0; ipar<20; ipar++ ) {
509 if( ipmt!=7 ) {
510 for( unsigned int jpar=0; jpar<46; jpar++ ) {
511 inputProtonSigma >> m_p_sigma_12[ispecies][ipmt][ipar][jpar];
512 }
513 }
514 else {
515 for( unsigned int jpar=0; jpar<7; jpar++ ) {
516 inputProtonSigma >> m_p_sigma_ec12[ispecies][ipar][jpar];
517 }
518 }
519 }
520 }
521 }
522 // cout << "finish read " << fileProtonSigma << endl;
523
524 return;
525}
526
527
528double TofCorrPID::offsetTof( unsigned int ispecies, bool barrel, unsigned int ipmt, double betaGamma, int charge, double zrhit, double dt ) {
529 if( ispecies==0 || ispecies==1 ) { return dt; }
530
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 ) {
533// cout << "Particle::TofCorrPID: offsetTof for single end: the input parameter are NOT correct! Please check them!" << endl;
534 return deltaT;
535 }
536 unsigned int layer=0;
537 if( barrel ) {
538 if( ipmt==0 || ipmt==1 ) { layer=0; }
539 else if( ipmt==2 || ipmt==3 ) { layer=1; }
540 }
541 else { layer=2; }
542 double q0 = qCurveFunc( layer, betaGamma );
543
544 unsigned int inumber=ipmt;
545 if( !barrel ) { inumber=4; }
546
547 double func[9];
548 for( unsigned int i=0; i<9; i++ ) {
549 func[i]=0.0;
550 }
551
552 double parA = 0.0;
553 double parB = 0.0;
554
555 // Jpsi2012
556 func[0] = 1.0;
557 for( unsigned int i=1; i<8; i++ ) {
558 func[i] = func[i-1]*zrhit;
559 }
560
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; }
567
568 if( ispecies!=4 || betaGamma*xmass(4)>0.8 ) {
569 for( unsigned int i=0; i<8; i++ ) {
570 if( i<5 ) {
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];
573 }
574 else if( i>=5 ) {
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];
577 }
578 }
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]);
581 if( iab==0 ) {
582 parA += func[8];
583 }
584 else if( iab==1 ) {
585 parB += func[8];
586 }
587 }
588 }
589
590 double tcorr = parA + parB/sqrt(q0);
591
592 // barrel TOF low momentum proton and anti-proton
593 // Jpsi2012
594 if( barrel && ispecies==4 && betaGamma*xmass(4)<0.8 ) {
595 int nzbin = 46;
596 double zbegin = -115.0;
597 double zend = 115.0;
598 double zstep = (zend-zbegin)/nzbin;
599
600 double nbgbin = 20.0;
601 double bgbegin = 0.3;
602 double bgend = 0.8;
603 double bgstep;
604 bgstep = (bgend-bgbegin)/nbgbin;
605
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; }
612
613 if( charge==1 ) {
614 tcorr = m_p_offset_12[0][ipmt][ibgbin][izbin];
615 }
616 else {
617 tcorr = m_p_offset_12[1][ipmt][ibgbin][izbin];
618 }
619 }
620 else if( !barrel && ispecies==4 && betaGamma*xmass(4)<0.8 ) {
621 int nrbin = 7;
622 double rbegin = 55.0;
623 double rend = 83.0;
624 double rstep = (rend-rbegin)/nrbin;
625
626 double nbgbin = 20.0;
627 double bgbegin = 0.3;
628 double bgend = 0.8;
629 double bgstep;
630 bgstep = (bgend-bgbegin)/nbgbin;
631
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; }
638
639 if( charge==1 ) {
640 tcorr = m_p_offset_ec12[0][ibgbin][irbin];
641 }
642 else {
643 tcorr = m_p_offset_ec12[1][ibgbin][irbin];
644 }
645 }
646
647 deltaT = dt - tcorr;
648
649 return deltaT;
650}
651
652
653double TofCorrPID::offsetTof( unsigned int ispecies, int tofid, double zrhit, double betaGamma, int charge, double dt ) {
654 if( ispecies==0 || ispecies==1 ) { return dt; }
655
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;
659 exit(1);
660 }
661 int pmt[3] = { -9, -9, -9 };
662 if( tofid>=0 && tofid<=87 ) {
663 pmt[0] = 0;
664 pmt[1] = 1;
665 pmt[2] = 4;
666 }
667 else {
668 pmt[0] = 2;
669 pmt[1] = 3;
670 pmt[2] = 5;
671 }
672
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;
678
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]];
681
682 // Jpsi2012
683 double tcorr = 0.0;
684 unsigned int ipmt = 4;
685 if( tofid>=88 && tofid<176 ) { ipmt = 5; }
686 if( ispecies==4 && betaGamma*xmass(4)<0.8 ) {
687 int nzbin = 46;
688 double zbegin = -115.0;
689 double zend = 115.0;
690 double zstep = (zend-zbegin)/nzbin;
691
692 double nbgbin = 20.0;
693 double bgbegin = 0.3;
694 double bgend = 0.8;
695 double bgstep;
696 bgstep = (bgend-bgbegin)/nbgbin;
697
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; }
704
705 if( charge==1 ) {
706 tcorr = m_p_offset_12[0][ipmt][ibgbin][izbin];
707 }
708 else {
709 tcorr = m_p_offset_12[1][ipmt][ibgbin][izbin];
710 }
711 }
712 deltaT = deltaT - tcorr;
713
714 return deltaT;
715}
716
717
718double TofCorrPID::offsetTof( unsigned int ispecies, int tofid1, int tofid2, double zrhit1, double zrhit2, double betaGamma, int charge, double dt ) {
719 if( ispecies==0 || ispecies==1 ) { return dt; }
720
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;
724 exit(1);
725 }
726
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) );
733
734 m_sigma[0] = sigma;
735 m_sigma[1] = sigma;
736
737 double fraction = ( sigmaOuter2 - sigmaCorr2 )/( sigmaInner2 + sigmaOuter2 - 2.0*sigmaCorr2);
738 deltaT = fraction*m_dtCorr[ispecies][4] + (1.0-fraction)*m_dtCorr[ispecies][5];
739
740 // Jpsi2012
741 double tcorr = 0.0;
742 if( ispecies==4 && betaGamma*xmass(4)<0.8 ) {
743 int nzbin = 46;
744 double zbegin = -115.0;
745 double zend = 115.0;
746 double zstep = (zend-zbegin)/nzbin;
747
748 double nbgbin = 20.0;
749 double bgbegin = 0.3;
750 double bgend = 0.8;
751 double bgstep;
752 bgstep = (bgend-bgbegin)/nbgbin;
753
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; }
760
761 if( charge==1 ) {
762 tcorr = m_p_offset_12[0][6][ibgbin][izbin];
763 }
764 else {
765 tcorr = m_p_offset_12[1][6][ibgbin][izbin];
766 }
767 }
768 deltaT = deltaT - tcorr;
769
770 return deltaT;
771}
772
773
774double TofCorrPID::sigmaTof( unsigned int ispecies, int charge, bool barrel, unsigned int ipmt, int tofid[2], double zrhit[2], double betaGamma ) {
775
776 double sigma = 1.0e-6;
777
778 if( ispecies==0 || ispecies==1 ) {
779 if( barrel ) {
780 if( ipmt==0 ) {
781 sigma = bSigma( 0, tofid[0], zrhit[0] );
782 }
783 else if( ipmt==1 ) {
784 sigma = bSigma( 1, tofid[0], zrhit[0] );
785 }
786 else if( ipmt==2 ) {
787 sigma = bSigma( 0, tofid[1], zrhit[1] );
788 }
789 else if( ipmt==3 ) {
790 sigma = bSigma( 1, tofid[1], zrhit[1] );
791 }
792 else if( ipmt==4 ) {
793 sigma = bSigma( 2, tofid[0], zrhit[0] );
794 }
795 else if( ipmt==5 ) {
796 sigma = bSigma( 2, tofid[1], zrhit[1] );
797 }
798 else if( ipmt==6 ) {
799 sigma = bSigma( &tofid[0], &zrhit[0] );
800 }
801 }
802 else {
803 sigma = eSigma( tofid[0], zrhit[0] );
804 }
805 }
806 else {
807 unsigned int iz = 0;
808 if( ipmt==2 || ipmt==3 || ipmt==5 ) { iz=1; }
809
810 sigma = sigmaTof( ispecies, charge, barrel, ipmt, zrhit[iz], betaGamma );
811 }
812
813 return sigma;
814}
815
816
817double TofCorrPID::sigmaTof( unsigned int ispecies, int charge, bool barrel, unsigned int ipmt, double zrhit, double betaGamma ) {
818
819 int ibgbin = -1;
820 int izbin = 0;
821 // Jpsi2012
822 if( ispecies==4 && (betaGamma*xmass(4))<0.8 ) {
823 double nbgbin = 20.0;
824 double bgbegin = 0.3;
825 double bgend = 0.8;
826 double bgstep;
827 bgstep = (bgend-bgbegin)/nbgbin;
828 ibgbin = static_cast<int>((betaGamma*xmass(4)-bgbegin)/bgstep);
829
830 if( ibgbin<0 ) { ibgbin=0; }
831 else if( ibgbin>=nbgbin ) { ibgbin=nbgbin-1; }
832
833 if( barrel ) {
834 int nzbin = 46;
835 double zbegin = -115.0;
836 double zend = 115.0;
837 double zstep = (zend-zbegin)/nzbin;
838
839 izbin = static_cast<int>((zrhit-zbegin)/zstep);
840 if( izbin<0 ) { izbin=0; }
841 else if( izbin>=nzbin ) { izbin=nzbin-1; }
842 }
843 else {
844 int nzbin = 7;
845 double zbegin = 55.0;
846 double zend = 83.0;
847 double zstep = (zend-zbegin)/nzbin;
848
849 izbin = static_cast<int>((zrhit-zbegin)/zstep);
850 if( izbin<0 ) { izbin=0; }
851 else if( izbin>=nzbin ) { izbin=nzbin-1; }
852 }
853 }
854
855 unsigned int numParam = 4;
856 double func[12];
857 for( unsigned int i=0; i<4; i++ ) {
858 if( i==0 ) { func[i] = 1.0; }
859 else {
860 func[i] = func[i-1]*zrhit;
861 }
862 }
863 for( unsigned int i=4; i<12; i++ ) {
864 func[i] = 0.0;
865 }
866
867 // Jpsi2012
868 if( barrel ) { // barrel
869 if( ispecies==2 || ispecies==3 ) { // pion / kaon
870 for( unsigned int i=4; i<10; i++ ) {
871 func[i] = func[i-1]*zrhit;
872 }
873 func[10] = 1.0/(115.0-zrhit)/(115.0-zrhit);
874 func[11] = 1.0/(115.0+zrhit)/(115.0+zrhit);
875 numParam = 12;
876 }
877 else if( ispecies==4 ) { // proton / anti-proton
878 for( unsigned int i=4; i<12; i++ ) {
879 func[i] = func[i-1]*zrhit;
880 }
881 numParam = 12;
882 }
883 }
884 else { // endcap
885 numParam = 4;
886 }
887
888 unsigned int inumber = ipmt;
889 if( !barrel ) { inumber=7; }
890
891 double sigma = 0.0;
892 if( ispecies==2 || ispecies==3 ) { // pion / kaon
893 for( unsigned int i=0; i<numParam; i++ ) {
894 sigma += m_par_sigma[ispecies-2][inumber][i]*func[i];
895 }
896 }
897 else if( ispecies==4 ) {
898 if( ibgbin!=-1 ) {
899 // Jpsi2012
900 if( barrel ) {
901 if( charge==1 ) {
902 sigma = m_p_sigma_12[0][inumber][ibgbin][izbin];
903 }
904 else {
905 sigma = m_p_sigma_12[1][inumber][ibgbin][izbin];
906 }
907 }
908 else {
909 if( charge==1 ) {
910 sigma = m_p_sigma_ec12[0][ibgbin][izbin];
911 }
912 else {
913 sigma = m_p_sigma_ec12[1][ibgbin][izbin];
914 }
915 }
916 if( fabs(sigma+999.0)<1.0e-6 ) {
917 sigma = 0.3;
918 }
919 }
920 else {
921 for( unsigned int i=0; i<numParam; i++ ) {
922 if( charge==1 ) {
923 sigma += m_par_sigma[2][inumber][i]*func[i];
924 }
925 else {
926 sigma += m_par_sigma[3][inumber][i]*func[i];
927 }
928 }
929 }
930 }
931
932 // Jpsi2012
933 int run = getRunNo();
934 if( run>0 ) {
935 if( ispecies==2 ) {
936 sigma = sigma*(TMath::Exp((betaGamma-0.356345)/(-0.767124))+0.994072);
937 }
938 }
939
940 return sigma;
941}
942
943
944double TofCorrPID::qCurveFunc( unsigned int layer, double betaGamma ) {
945 double q0 = -100.0;
946 if( layer>=3 || betaGamma<0.0 ) {
947 cout << "Particle::TofCorrPID::qCurveFunc: the input parameter are NOT correct! Please check them!" << endl;
948 return q0;
949 }
950
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] );
954
955 return q0;
956}
957
958
959double TofCorrPID::bSigma( unsigned int end, int tofid, double zrhit ) {
960
961 double func[5];
962 func[0] = 1.0;
963 func[1] = zrhit;
964 func[2] = zrhit*zrhit;
965 func[3] = zrhit*zrhit*zrhit;
966 func[4] = zrhit*zrhit*zrhit*zrhit;
967
968 double sigma = 0.0;
969 for( unsigned int i=0; i<5; i++ ) {
970 sigma += m_p_weight[tofid][end][i]*func[i];
971 }
972
973 return sigma;
974}
975
976
977double TofCorrPID::bSigma( int tofid[2], double zrhit[2] ) {
978
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 );
983 sigma = sqrt(fabs(sigma));
984
985 return sigma;
986}
987
988
989double TofCorrPID::eSigma( int tofid, double zrhit ) {
990
991 double func[5];
992 func[0] = 1.0;
993 func[1] = zrhit;
994 func[2] = zrhit*zrhit;
995
996 double sigma = 0.0;
997 for( unsigned int i=0; i<3; i++ ) {
998 sigma += m_ec_sigma[tofid][i]*func[i];
999 }
1000
1001 return sigma;
1002}
1003
1004
1005bool TofCorrPID::correlationCheck( unsigned int ipmt ) {
1006 bool chiCut = false;
1007 bool good = false;
1008 double pdftemp = 0;
1009 for( unsigned int i=0; i<5; i++ ) {
1010 if( ( m_chiCorr[i][ipmt]>(0.0-chiMinCut()) && m_chiCorr[i][ipmt]<chiMaxCut() ) && !good ) { good=true; }
1011 double ppp = pdfCalculate(m_chiCorr[i][ipmt],1);
1012 if( fabs(ppp) > pdftemp) { pdftemp = fabs(ppp); }
1013 }
1014 m_pdfmin = pdftemp;
1015 if( pdftemp < pdfCalculate(pdfMinSigmaCut(),1) ) return chiCut;
1016 if( !good ) return chiCut;
1017 chiCut = true;
1018 return chiCut;
1019}
TTree * sigma
const double xmass[5]
Definition: Gam4pikp.cxx:50
TGraph2DErrors * dt
Definition: McCor.cxx:45
const double rend
Definition: TofCalibFit.h:17
const double zend
Definition: TofCalibFit.h:13
const double zbegin
Definition: TofCalibFit.h:12
const double rbegin
Definition: TofCalibFit.h:16
const Hep3Vector tof1Position() const
Definition: DstExtTrack.h:58
const Hep3Vector tof2Position() const
Definition: DstExtTrack.h:94
static void setPidType(PidType pidType)
const HepLorentzVector p4() const
const int charge() const
Definition: DstMdcTrack.h:53
bool isExtTrackValid()
Definition: EvtRecTrack.h:49
RecExtTrack * extTrack()
Definition: EvtRecTrack.h:56
bool isMdcKalTrackValid()
Definition: EvtRecTrack.h:44
SmartRefVector< RecTofTrack > tofTrack()
Definition: EvtRecTrack.h:57
bool isTofTrackValid()
Definition: EvtRecTrack.h:46
bool isMdcTrackValid()
Definition: EvtRecTrack.h:43
RecMdcTrack * mdcTrack()
Definition: EvtRecTrack.h:53
RecMdcKalTrack * mdcKalTrack()
Definition: EvtRecTrack.h:54
double chiMinCut() const
EvtRecTrack * PidTrk() const
double probCalculate(double chi2, int n)
double chiMaxCut() const
double getRunNo() const
double pdfCalculate(double offset, double sigma)
double pdfMinSigmaCut() const
static std::string path
void inputParameter(int run)
Definition: TofCorrPID.cxx:344
double qCurveFunc(unsigned int layer, double betaGamma)
Definition: TofCorrPID.cxx:944
void init()
Definition: TofCorrPID.cxx:30
int particleIDCalculation()
Definition: TofCorrPID.cxx:67
double offset(int n) const
Definition: TofCorrPID.h:26
double sigmaTof(unsigned int ispecies, int charge, bool barrel, unsigned int ipmt, int tofid[2], double zrhit[2], double betaGamma)
Definition: TofCorrPID.cxx:774
double bSigma(unsigned int end, int tofid, double zrhit)
Definition: TofCorrPID.cxx:959
void calculate()
Definition: TofCorrPID.cxx:62
double offsetTof(unsigned int ispecies, bool barrel, unsigned int ipmt, double betaGamma, int charge, double zrhit, double dt)
Definition: TofCorrPID.cxx:528
static TofCorrPID * instance()
Definition: TofCorrPID.cxx:20
double eSigma(int tofid, double zrhit)
Definition: TofCorrPID.cxx:989
int ipmt() const
Definition: TofCorrPID.h:30
bool correlationCheck(unsigned int ipmt)
bool is_barrel() const
Definition: TofHitStatus.h:26
unsigned int layer() const
Definition: TofHitStatus.h:28
bool is_cluster() const
Definition: TofHitStatus.h:25
void setStatus(unsigned int status)
bool is_mrpc() const
Definition: TofHitStatus.h:34
bool is_counter() const
Definition: TofHitStatus.h:24
bool is_east() const
Definition: TofHitStatus.h:27
bool is_readout() const
Definition: TofHitStatus.h:23
bool is_raw() const
Definition: TofHitStatus.h:22
float charge
float ptrk