CGEM BOSS 6.6.5.h
BESIII Offline Software System
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DedxPID Class Reference

#include <DedxPID.h>

+ Inheritance diagram for DedxPID:

Public Member Functions

 ~DedxPID ()
 
void init ()
 
void calculate ()
 
bool IsPidInfoValid () const
 
double chi (int n) const
 
double prob (int n) const
 
double offset (int n) const
 
double sigma (int n) const
 
int ndof () const
 
double normPH () const
 
double goodHits () const
 
int neuronPID () const
 
int getNhitCutDx () const
 
void setNhitCutDx (const int nhitcuthdx=5)
 
- Public Member Functions inherited from ParticleIDBase
 ParticleIDBase ()
 
virtual ~ParticleIDBase ()
 
EvtRecTrackPidTrk () const
 
void setRecTrack (EvtRecTrack *trk)
 
double chiMinCut () const
 
void setChiMinCut (const double chi=4)
 
double pdfMinSigmaCut () const
 
void setPdfMinSigmaCut (const double pdf=4)
 
double getRunNo () const
 
void setRunNo (const double runh=8093)
 
double p ()
 
double pt ()
 
double charge ()
 
double xmass (int n)
 
double velc ()
 
double probCalculate (double chi2, int n)
 
double pdfCalculate (double offset, double sigma)
 
double interpolation (double *x, double *y, double x1)
 
double pol2 (double x, double *par)
 
double pol3 (double x, double *par)
 
double pol4 (double x, double *par)
 
int useDedx () const
 
int useTof () const
 
int useTof1 () const
 
int useTof2 () const
 
int useTofE () const
 
int useTofQ () const
 
int useTofC () const
 
int useTofCorr () const
 
int useEmc () const
 
int useMuc () const
 
int useMrpc () const
 
int onlyPionKaon () const
 
int onlyPionKaonProton () const
 
int onlyPionKaonElectron () const
 
int all () const
 
int onlyElectron () const
 
int onlyMuon () const
 
int onlyPion () const
 
int onlyKaon () const
 
int onlyProton () const
 
int methodLikelihood () const
 
int methodProbability () const
 
int methodNeuronNetwork () const
 
int dedxValid () const
 
int tofValid () const
 
int tofeValid () const
 
int tofqValid () const
 
int tofcValid () const
 
int tofcorrValid () const
 
int emcValid () const
 
int mucValid () const
 
int MrpcValid () const
 
void set_path (const char *s_path=0)
 
void set_path (std::string s_path)
 

Static Public Member Functions

static DedxPIDinstance ()
 

Protected Member Functions

int particleIDCalculation ()
 
int neuronPIDCalculation ()
 
double offsetDedx (int n, double ptrk, double cost)
 
double sigmaDedx (int n, double ptrk, double cost)
 
int LikelihoodCalculation ()
 
double mypol3 (double x, double par0, double par1, double par2, double par3)
 
double mypol5 (double x, double par0, double par1, double par2, double par3, double par4, double par5)
 
void inputpar ()
 
double CorrDedx (int n, double ptrk, double cost, double chi, int charge)
 
double iterate (double ptrk, double *mean, double *p)
 
double cal_par (int index1, double *m_jpsi_pip_ptrk_offset, double ptrk, double begin, double bin)
 
- Protected Member Functions inherited from ParticleIDBase

Additional Inherited Members

- Static Protected Attributes inherited from ParticleIDBase
static std::string path = ""
 

Detailed Description

Definition at line 15 of file DedxPID.h.

Constructor & Destructor Documentation

◆ ~DedxPID()

DedxPID::~DedxPID ( )
inline

Definition at line 21 of file DedxPID.h.

21{;}

Member Function Documentation

◆ cal_par()

double DedxPID::cal_par ( int index1,
double * m_jpsi_pip_ptrk_offset,
double ptrk,
double begin,
double bin )
protected

Definition at line 878 of file DedxPID.cxx.

878 {
879 double mean1[3],p[3];
880 p[0]=begin+(index1-1)*bin;
881 p[1]=begin+index1*bin;
882 p[2]=begin+(index1+1)*bin;
883 mean1[0]=m_jpsi_pip_ptrk_offset[index1-1];
884 mean1[1]=m_jpsi_pip_ptrk_offset[index1];
885 mean1[2]=m_jpsi_pip_ptrk_offset[index1+1];
886 double res=iterate(ptrk,mean1,p);
887 return res;
888}
*******INTEGER m_nBinMax INTEGER m_NdiMax !No of bins in histogram for cell exploration division $ !Last vertex $ !Last active cell $ !Last cell in buffer $ !No of sampling when dividing cell $ !No of function total $ !Flag for random ceel for $ !Flag for type of for WtMax $ !Flag which decides whether vertices are included in the sampling $ entire domain is hyp !Maximum effective eevents per bin
Definition FoamA.h:85
double iterate(double ptrk, double *mean, double *p)
Definition DedxPID.cxx:869

Referenced by CorrDedx().

◆ calculate()

void DedxPID::calculate ( )
virtual

Implements ParticleIDBase.

Definition at line 42 of file DedxPID.cxx.

42 {
43 // int rundedx = getRunNo();
44 if(!m_readstate) {
45 inputpar();
46 m_readstate=1;
47 }
48 if(particleIDCalculation() == 0) m_ndof=1;
49}
int particleIDCalculation()
Definition DedxPID.cxx:51
void inputpar()
Definition DedxPID.cxx:495

◆ chi()

double DedxPID::chi ( int n) const
inlinevirtual

Implements ParticleIDBase.

Definition at line 26 of file DedxPID.h.

26{return m_chi[n];}
const Int_t n

Referenced by CorrDedx().

◆ CorrDedx()

double DedxPID::CorrDedx ( int n,
double ptrk,
double cost,
double chi,
int charge )
protected

Definition at line 134 of file DedxPID.cxx.

134 {
135 int rundedx2 = getRunNo();
136 double offset = 0.0;
137 double offsetp = 0.0;
138 double offsetc = 0.0;
139 double sigcos = 1;
140 double sigp = 1;
141 double chicor=chi;
142 // double gb = ptrk/xmass(n);
143
144 switch(n) {
145 case 0: { // Electron
146 break;
147 }
148
149 case 1: {// Muon
150 break;
151 }
152
153 case 2: {// Pion
154 // double ptemp = ptrk;
155 double costm = cost;
156 if(ptrk<0.1||ptrk>1) break;
157 int index = int((ptrk-0.1)/0.05);
158 if(index<=0) index=1;
159 if(index>=17) index=16;
160
161 if(fabs(costm)>=0.8) break;
162 int index1 = int((costm+0.8)/0.1);
163 if(index1<=0) index1=1;
164 if(index1>=15) index1=14;
165
166 //psipp data
167 if(rundedx2>=11414&&rundedx2<=14604) {
168 offsetp = cal_par(index,m_psipp_pi_ptrk_offset,ptrk,0.125,0.05);
169 sigp = cal_par(index,m_psipp_pi_ptrk_sigma,ptrk,0.125,0.05);
170 offsetc = cal_par(index1,m_psipp_pi_theta_offset,costm,-0.75,0.1);
171 sigcos = cal_par(index1,m_psipp_pi_theta_sigma,costm,-0.75,0.1);
172 }
173 //psipp mc
174 if(rundedx2<=-11414&&rundedx2>=-14604) {
175 offsetp = cal_par(index,m_psipp_mc_pi_ptrk_offset,ptrk,0.125,0.05);
176 sigp = cal_par(index,m_psipp_mc_pi_ptrk_sigma,ptrk,0.125,0.05);
177 offsetc = cal_par(index1,m_psipp_mc_pi_theta_offset,costm,-0.75,0.1);
178 sigcos = cal_par(index1,m_psipp_mc_pi_theta_sigma,costm,-0.75,0.1);
179 }
180
181 offset=offsetp+sigp*offsetc;
182 chicor=(chicor-offset)/(sigcos*sigp);
183 break;
184 }
185
186 case 3: {// Kaon
187 // double ptemp = ptrk;
188 double costm = cost;
189 if(ptrk<0.3||ptrk>0.8) break;
190 offset=0;
191 int index = int((ptrk-0.3)/0.1);
192 if(index<=0) index=1;
193 if(index>=4) index=3;
194
195 int index1 = int((costm+0.9)/0.1);
196 if(index1<=0) index1=1;
197 if(index1>=17) index1=16;
198 //data Jpsi
199 if(rundedx2>=9947&&rundedx2<=10878) {
200 if(charge>0) {
201 offsetp = cal_par(index,m_jpsi_kap_ptrk_offset,ptrk,0.35,0.1);
202 sigp = cal_par(index,m_jpsi_kap_ptrk_sigma,ptrk,0.35,0.1);
203 if(fabs(costm)<=0.83) {
204 offsetc = cal_par(index1,m_jpsi_kap_theta_offset,costm,-0.85,0.1);
205 sigcos = cal_par(index1,m_jpsi_kap_theta_sigma,costm,-0.85,0.1);
206 }
207 }
208 if(charge<0) {
209 offsetp = cal_par(index,m_jpsi_kam_ptrk_offset,ptrk,0.35,0.1);
210 sigp = cal_par(index,m_jpsi_kam_ptrk_sigma,ptrk,0.35,0.1);
211 if(fabs(costm)<=0.83) {
212 offsetc = cal_par(index1,m_jpsi_kam_theta_offset,costm,-0.85,0.1);
213 sigcos = cal_par(index1,m_jpsi_kam_theta_sigma,costm,-0.85,0.1);
214 }
215 }
216 }
217
218 //mc Jpsi
219 if(rundedx2<=-9947&&rundedx2>=-10878) {
220 if(charge>0) {
221 offsetp = cal_par(index,m_jpsi_mc_kap_ptrk_offset,ptrk,0.35,0.1);
222 sigp = cal_par(index,m_jpsi_mc_kap_ptrk_sigma,ptrk,0.35,0.1);
223 if(fabs(costm)<=0.83) {
224 offsetc = cal_par(index1,m_jpsi_mc_kap_theta_offset,costm,-0.85,0.1);
225 sigcos = cal_par(index1,m_jpsi_mc_kap_theta_sigma,costm,-0.85,0.1);
226 }
227 }
228 if(charge<0) {
229 offsetp = cal_par(index,m_jpsi_mc_kam_ptrk_offset,ptrk,0.35,0.1);
230 sigp = cal_par(index,m_jpsi_mc_kam_ptrk_sigma,ptrk,0.35,0.1);
231 if(fabs(costm)<=0.83) {
232 offsetc = cal_par(index1,m_jpsi_mc_kam_theta_offset,costm,-0.85,0.1);
233 sigcos = cal_par(index1,m_jpsi_mc_kam_theta_sigma,costm,-0.85,0.1);
234 }
235 }
236 }
237
238 //data Psip
239 if(rundedx2>=8093&&rundedx2<=9025) {
240 if(ptrk<0.3||ptrk>1.2) break;
241 index = int((ptrk-0.3)/0.1);
242 if(index<=0) index=1;
243 if(index>=8) index=7;
244 if(charge>0) {
245 offsetp = cal_par(index,m_psip_kap_ptrk_offset,ptrk,0.35,0.1);
246 sigp = cal_par(index,m_psip_kap_ptrk_sigma,ptrk,0.35,0.1);
247 }
248 if(charge<0) {
249 offsetp = cal_par(index,m_psip_kam_ptrk_offset,ptrk,0.35,0.1);
250 sigp = cal_par(index,m_psip_kam_ptrk_sigma,ptrk,0.35,0.1);
251 }
252 }
253
254 //mc Psip
255 if(rundedx2<=-8093&&rundedx2>=-9025) {
256 // if(ptrk < 0.4) ptrk = 0.4;
257 if(ptrk<0.3||ptrk>1.2) break;
258 index = int((ptrk-0.3)/0.1);
259 if(index<=0) index=1;
260 if(index>=8) index=7;
261 if(charge>0) {
262 offsetp = cal_par(index,m_psip_mc_kap_ptrk_offset,ptrk,0.35,0.1);
263 sigp = cal_par(index,m_psip_mc_kap_ptrk_sigma,ptrk,0.35,0.1);
264 }
265 if(charge<0) {
266 offsetp = cal_par(index,m_psip_mc_kam_ptrk_offset,ptrk,0.35,0.1);
267 sigp = cal_par(index,m_psip_mc_kam_ptrk_sigma,ptrk,0.35,0.1);
268 }
269 }
270
271
272 //psipp kaon data
273 if(rundedx2>=11414&&rundedx2<=14604) {
274 if(ptrk<0.15||ptrk>1) break;
275 index = int((ptrk-0.15)/0.05);
276 if(index<=0) index=1;
277 if(index>=16) index=15;
278 if(fabs(costm)>=0.8) break;
279 index1 = int((costm+0.8)/0.1);
280 if(index1<=0) index1=1;
281 if(index1>=15) index1=14;
282
283 offsetp = cal_par(index,m_psipp_ka_ptrk_offset,ptrk,0.175,0.05);
284 sigp = cal_par(index,m_psipp_ka_ptrk_sigma,ptrk,0.175,0.05);
285 offsetc = cal_par(index1,m_psipp_ka_theta_offset,costm,-0.75,0.1);
286 sigcos = cal_par(index1,m_psipp_ka_theta_sigma,costm,-0.75,0.1);
287 }
288 //psipp kaon mc
289 if(rundedx2<=-11414&&rundedx2>=-14604) {
290 if(ptrk<0.15||ptrk>1) break;
291 index = int((ptrk-0.15)/0.05);
292 if(index<=0) index=1;
293 if(index>=16) index=15;
294 if(fabs(costm)>=0.8) break;
295 index1 = int((costm+0.8)/0.1);
296 if(index1<=0) index1=1;
297 if(index1>=15) index1=14;
298 offsetp = cal_par(index,m_psipp_mc_ka_ptrk_offset,ptrk,0.175,0.05);
299 sigp = cal_par(index,m_psipp_mc_ka_ptrk_sigma,ptrk,0.175,0.05);
300 offsetc = cal_par(index1,m_psipp_mc_ka_theta_offset,costm,-0.75,0.1);
301 sigcos = cal_par(index1,m_psipp_mc_ka_theta_sigma,costm,-0.75,0.1);
302 }
303
304 offset=offsetp+sigp*offsetc;
305 chicor=(chicor-offset)/(sigcos*sigp);
306 break;
307 }
308
309 case 4 : { // Proton
310 // double ptemp = ptrk;
311 double costm = cost;
312 if(ptrk<0.3||ptrk>1.1) break;
313 int index = int((ptrk-0.3)/0.1);
314 if(index<=0) index=1;
315 if(index>=7) index=6;
316
317 int index1 = int((costm+0.9)/0.1);
318 if(index1<=0) index1=1;
319 if(index1>=17) index1=16;
320
321 // double plog = log(ptemp);
322 offset=0;
323 if(rundedx2>=9947&&rundedx2<=10878) {
324 if(charge>0) {
325 offsetp = cal_par(index,m_jpsi_protonp_ptrk_offset,ptrk,0.35,0.1);
326 sigp = cal_par(index,m_jpsi_protonp_ptrk_sigma,ptrk,0.35,0.1);
327 if(fabs(costm)<=0.83) {
328 offsetc = cal_par(index1,m_jpsi_protonp_theta_offset,costm,-0.85,0.1);
329 sigcos = cal_par(index1,m_jpsi_protonp_theta_sigma,costm,-0.85,0.1);
330 }
331 }
332 if(charge<0) {
333 offsetp = cal_par(index,m_jpsi_protonm_ptrk_offset,ptrk,0.35,0.1);
334 sigp = cal_par(index,m_jpsi_protonm_ptrk_sigma,ptrk,0.35,0.1);
335 if(fabs(costm)<=0.83) {
336 offsetc = cal_par(index1,m_jpsi_protonm_theta_offset,costm,-0.85,0.1);
337 sigcos = cal_par(index1,m_jpsi_protonm_theta_sigma,costm,-0.85,0.1);
338 }
339 }
340 }
341
342 //mc JPsi
343 if(rundedx2<=-9947&&rundedx2>=-10878) {
344 if(charge>0) {
345 offsetp = cal_par(index,m_jpsi_mc_protonp_ptrk_offset,ptrk,0.35,0.1);
346 sigp = cal_par(index,m_jpsi_mc_protonp_ptrk_sigma,ptrk,0.35,0.1);
347 if(fabs(costm)<=0.83) {
348 offsetc = cal_par(index1,m_jpsi_mc_protonp_theta_offset,costm,-0.85,0.1);
349 sigcos = cal_par(index1,m_jpsi_mc_protonp_theta_sigma,costm,-0.85,0.1);
350 }
351 }
352 if(charge<0) {
353 offsetp = cal_par(index,m_jpsi_mc_protonm_ptrk_offset,ptrk,0.35,0.1);
354 sigp = cal_par(index,m_jpsi_mc_protonm_ptrk_sigma,ptrk,0.35,0.1);
355 if(fabs(costm)<=0.83) {
356 offsetc = cal_par(index1,m_jpsi_mc_protonm_theta_offset,costm,-0.85,0.1);
357 sigcos = cal_par(index1,m_jpsi_mc_protonm_theta_sigma,costm,-0.85,0.1);
358 }
359 }
360 }
361
362 //data Psip
363 if(rundedx2>=8093&&rundedx2<=9025) {
364 if(charge>0) {
365 offsetp = cal_par(index,m_psip_protonp_ptrk_offset,ptrk,0.35,0.1);
366 sigp = cal_par(index,m_psip_protonp_ptrk_sigma,ptrk,0.35,0.1);
367 }
368 if(charge<0) {
369 offsetp = cal_par(index,m_psip_protonm_ptrk_offset,ptrk,0.35,0.1);
370 sigp = cal_par(index,m_psip_protonm_ptrk_sigma,ptrk,0.35,0.1);
371 }
372 }
373
374 //mc Psip
375 if(rundedx2<=-8093&&rundedx2>=-9025) {
376 if(charge>0) {
377 offsetp = cal_par(index,m_psip_mc_protonp_ptrk_offset,ptrk,0.35,0.1);
378 sigp = cal_par(index,m_psip_mc_protonp_ptrk_sigma,ptrk,0.35,0.1);
379 }
380 if(charge<0) {
381 offsetp = cal_par(index,m_psip_mc_protonm_ptrk_offset,ptrk,0.35,0.1);
382 sigp = cal_par(index,m_psip_mc_protonm_ptrk_sigma,ptrk,0.35,0.1);
383 }
384 }
385
386 //psipp proton data
387 if(rundedx2>=11414&&rundedx2<=14604) {
388 if(ptrk<0.2||ptrk>1.1) break;
389 index = int((ptrk-0.2)/0.05);
390 if(index<=0) index=1;
391 if(index>=17) index=16;
392 if(fabs(costm)>=0.83) break;
393 index1 = int((costm+0.9)/0.1);
394 if(index1<=0) index1=1;
395 if(index1>=17) index1=16;
396
397 offsetp = cal_par(index,m_psipp_proton_ptrk_offset,ptrk,0.225,0.05);
398 sigp = cal_par(index,m_psipp_proton_ptrk_sigma,ptrk,0.225,0.05);
399 offsetc = cal_par(index1,m_psipp_proton_theta_offset,costm,-0.85,0.1);
400 sigcos = cal_par(index1,m_psipp_proton_theta_sigma,costm,-0.85,0.1);
401 }
402 //psipp proton mc
403 if(rundedx2<=-11414&&rundedx2>=-14604) {
404 if(ptrk<0.2||ptrk>1.1) break;
405 index = int((ptrk-0.2)/0.1);
406 if(index<=0) index=1;
407 if(index>=8) index=7;
408 if(fabs(costm)>=0.83) break;
409 index1 = int((costm+0.9)/0.1);
410 if(index1<=0) index1=1;
411 if(index1>=17) index1=16;
412 offsetp = cal_par(index,m_psipp_mc_proton_ptrk_offset,ptrk,0.25,0.1);
413 sigp = cal_par(index,m_psipp_mc_proton_ptrk_sigma,ptrk,0.25,0.1);
414 offsetc = cal_par(index1,m_psipp_mc_proton_theta_offset,costm,-0.85,0.1);
415 sigcos = cal_par(index1,m_psipp_mc_proton_theta_sigma,costm,-0.85,0.1);
416 }
417 offset=offsetp+sigp*offsetc;
418 chicor=(chicor-offset)/(sigcos*sigp);
419 break;
420 }
421
422 default:
423 offset = 0.0;
424 break;
425 }
426 // offset = 0.0;
427 return chicor;
428}
double offset(int n) const
Definition DedxPID.h:28
double cal_par(int index1, double *m_jpsi_pip_ptrk_offset, double ptrk, double begin, double bin)
Definition DedxPID.cxx:878
double chi(int n) const
Definition DedxPID.h:26
double getRunNo() const

Referenced by particleIDCalculation().

◆ getNhitCutDx()

int DedxPID::getNhitCutDx ( ) const
inline

Definition at line 34 of file DedxPID.h.

34{return m_nhitcutdx;}

Referenced by particleIDCalculation().

◆ goodHits()

double DedxPID::goodHits ( ) const
inline

Definition at line 32 of file DedxPID.h.

32{return m_goodHits;}

◆ init()

void DedxPID::init ( )
virtual

Implements ParticleIDBase.

Definition at line 26 of file DedxPID.cxx.

26 {
27 for(int i = 0; i < 5; i++) {
28 m_chi[i] = 99.0;
29 m_prob[i] = -1.0;
30 m_offset[i] = 99.0;
31 m_sigma[i] = 1.0;
32 }
33 m_chimin = 99.;
34 m_pdfmin =99;
35 m_ndof = 0;
36 m_goodHits = -99;
37 m_normPH = -99;
38 m_probPH = -99;
39 m_nhitcutdx=5;
40}

Referenced by ParticleID::init().

◆ inputpar()

void DedxPID::inputpar ( )
protected

Definition at line 495 of file DedxPID.cxx.

495 {
496
497 //Jpsi ka+ momentum correction
498 std::string jpsi_kap_mom = path + "/share/JPsi/kaon/dedx_kap.txt";
499 std::string jpsi_kap_mom_mc = path + "/share/JPsi/kaon/dedx_kap_mc.txt";
500 ifstream inputmomdata6(jpsi_kap_mom.c_str(),std::ios_base::in);
501 if ( !inputmomdata6 ) {
502 cout << " can not open: " << jpsi_kap_mom << endl;
503 exit(1);
504 }
505 ifstream inputmomdata6mc(jpsi_kap_mom_mc.c_str(),std::ios_base::in);
506 if ( !inputmomdata6mc ) {
507 cout << " can not open: " << jpsi_kap_mom_mc << endl;
508 exit(1);
509 }
510 for(int i=0; i<12; i++) {
511 inputmomdata6>>m_jpsi_kap_ptrk_offset[i];
512 inputmomdata6>>m_jpsi_kap_ptrk_sigma[i];
513 inputmomdata6mc>>m_jpsi_mc_kap_ptrk_offset[i];
514 inputmomdata6mc>>m_jpsi_mc_kap_ptrk_sigma[i];
515 }
516
517 //Jpsi ka- momentum correction
518 std::string jpsi_kam_mom = path + "/share/JPsi/kaon/dedx_kam.txt";
519 std::string jpsi_kam_mom_mc = path + "/share/JPsi/kaon/dedx_kam_mc.txt";
520 ifstream inputmomdata7(jpsi_kam_mom.c_str(),std::ios_base::in);
521 if ( !inputmomdata7 ) {
522 cout << " can not open: " << jpsi_kam_mom << endl;
523 exit(1);
524 }
525 ifstream inputmomdata7mc(jpsi_kam_mom_mc.c_str(),std::ios_base::in);
526 if ( !inputmomdata7mc ) {
527 cout << " can not open: " << jpsi_kam_mom_mc << endl;
528 exit(1);
529 }
530 for(int i=0; i<12; i++) {
531 inputmomdata7>>m_jpsi_kam_ptrk_offset[i];
532 inputmomdata7>>m_jpsi_kam_ptrk_sigma[i];
533 inputmomdata7mc>>m_jpsi_mc_kam_ptrk_offset[i];
534 inputmomdata7mc>>m_jpsi_mc_kam_ptrk_sigma[i];
535
536 }
537
538
539 //Jpsi ka+ theta correction
540 std::string jpsi_kap_the = path + "/share/JPsi/kaon/dedx_kap_theta.txt";
541 std::string jpsi_kap_the_mc = path + "/share/JPsi/kaon/dedx_kap_theta_mc.txt";
542 ifstream inputmomdata8(jpsi_kap_the.c_str(),std::ios_base::in);
543 if ( !inputmomdata8 ) {
544 cout << " can not open: " << jpsi_kap_the << endl;
545 exit(1);
546 }
547 ifstream inputmomdata8mc(jpsi_kap_the_mc.c_str(),std::ios_base::in);
548 if ( !inputmomdata8mc ) {
549 cout << " can not open: " << jpsi_kap_the_mc << endl;
550 exit(1);
551 }
552 for(int i=0; i<18; i++) {
553 inputmomdata8>>m_jpsi_kap_theta_offset[i];
554 inputmomdata8>>m_jpsi_kap_theta_sigma[i];
555 inputmomdata8mc>>m_jpsi_mc_kap_theta_offset[i];
556 inputmomdata8mc>>m_jpsi_mc_kap_theta_sigma[i];
557 }
558
559 //Jpsi ka- theta correction
560 std::string jpsi_kam_the = path + "/share/JPsi/kaon/dedx_kam_theta.txt";
561 std::string jpsi_kam_the_mc = path + "/share/JPsi/kaon/dedx_kam_theta_mc.txt";
562 ifstream inputmomdata9(jpsi_kam_the.c_str(),std::ios_base::in);
563 if ( !inputmomdata9 ) {
564 cout << " can not open: " << jpsi_kam_the << endl;
565 exit(1);
566 }
567 ifstream inputmomdata9mc(jpsi_kam_the_mc.c_str(),std::ios_base::in);
568 if ( !inputmomdata9mc ) {
569 cout << " can not open: " << jpsi_kam_the_mc << endl;
570 exit(1);
571 }
572 for(int i=0; i<18; i++) {
573 inputmomdata9>>m_jpsi_kam_theta_offset[i];
574 inputmomdata9>>m_jpsi_kam_theta_sigma[i];
575 inputmomdata9mc>>m_jpsi_mc_kam_theta_offset[i];
576 inputmomdata9mc>>m_jpsi_mc_kam_theta_sigma[i];
577 }
578
579 //Jpsi proton+ momentum correction
580 std::string jpsi_protonp_mom = path + "/share/JPsi/proton/dedx_protonp.txt";
581 std::string jpsi_protonp_mom_mc = path + "/share/JPsi/proton/dedx_protonp_mc.txt";
582 ifstream inputmomdata12(jpsi_protonp_mom.c_str(),std::ios_base::in);
583 if ( !inputmomdata12 ) {
584 cout << " can not open: " << jpsi_protonp_mom << endl;
585 exit(1);
586 }
587 ifstream inputmomdata12mc(jpsi_protonp_mom_mc.c_str(),std::ios_base::in);
588 if ( !inputmomdata12mc ) {
589 cout << " can not open: " << jpsi_protonp_mom_mc << endl;
590 exit(1);
591 }
592 for(int i=0; i<8; i++) {
593 inputmomdata12>>m_jpsi_protonp_ptrk_offset[i];
594 inputmomdata12>>m_jpsi_protonp_ptrk_sigma[i];
595 inputmomdata12mc>>m_jpsi_mc_protonp_ptrk_offset[i];
596 inputmomdata12mc>>m_jpsi_mc_protonp_ptrk_sigma[i];
597 }
598
599 //Jpsi proton- momentum correction
600 std::string jpsi_protonm_mom = path + "/share/JPsi/proton/dedx_protonm.txt";
601 std::string jpsi_protonm_mom_mc = path + "/share/JPsi/proton/dedx_protonm_mc.txt";
602 ifstream inputmomdata13(jpsi_protonm_mom.c_str(),std::ios_base::in);
603 if ( !inputmomdata13 ) {
604 cout << " can not open: " << jpsi_protonm_mom << endl;
605 exit(1);
606 }
607 ifstream inputmomdata13mc(jpsi_protonm_mom_mc.c_str(),std::ios_base::in);
608 if ( !inputmomdata13mc ) {
609 cout << " can not open: " << jpsi_protonm_mom_mc << endl;
610 exit(1);
611 }
612 for(int i=0; i<8; i++) {
613 inputmomdata13>>m_jpsi_protonm_ptrk_offset[i];
614 inputmomdata13>>m_jpsi_protonm_ptrk_sigma[i];
615 inputmomdata13mc>>m_jpsi_mc_protonm_ptrk_offset[i];
616 inputmomdata13mc>>m_jpsi_mc_protonm_ptrk_sigma[i];
617 }
618
619 //Jpsi proton+ theta correction
620 std::string jpsi_protonp_the = path + "/share/JPsi/proton/dedx_protonp_theta.txt";
621 std::string jpsi_protonp_the_mc = path + "/share/JPsi/proton/dedx_protonp_theta_mc.txt";
622
623 ifstream inputmomdata14(jpsi_protonp_the.c_str(),std::ios_base::in);
624 if ( !inputmomdata14 ) {
625 cout << " can not open: " << jpsi_protonp_the << endl;
626 exit(1);
627 }
628 ifstream inputmomdata14mc(jpsi_protonp_the_mc.c_str(),std::ios_base::in);
629 if ( !inputmomdata14mc ) {
630 cout << " can not open: " << jpsi_protonp_the_mc << endl;
631 exit(1);
632 }
633 for(int i=0; i<18; i++) {
634 inputmomdata14>>m_jpsi_protonp_theta_offset[i];
635 inputmomdata14>>m_jpsi_protonp_theta_sigma[i];
636 inputmomdata14mc>>m_jpsi_mc_protonp_theta_offset[i];
637 inputmomdata14mc>>m_jpsi_mc_protonp_theta_sigma[i];
638 }
639
640 //Jpsi proton- theta correction
641 std::string jpsi_protonm_the = path + "/share/JPsi/proton/dedx_protonm_theta.txt";
642 std::string jpsi_protonm_the_mc = path + "/share/JPsi/proton/dedx_protonm_theta_mc.txt";
643 ifstream inputmomdata15(jpsi_protonm_the.c_str(),std::ios_base::in);
644 if ( !inputmomdata15 ) {
645 cout << " can not open: " << jpsi_protonm_the << endl;
646 exit(1);
647 }
648 ifstream inputmomdata15mc(jpsi_protonm_the_mc.c_str(),std::ios_base::in);
649 if ( !inputmomdata15mc ) {
650 cout << " can not open: " << jpsi_protonm_the_mc << endl;
651 exit(1);
652 }
653 for(int i=0; i<18; i++) {
654 inputmomdata15>>m_jpsi_protonm_theta_offset[i];
655 inputmomdata15>>m_jpsi_protonm_theta_sigma[i];
656 inputmomdata15mc>>m_jpsi_mc_protonm_theta_offset[i];
657 inputmomdata15mc>>m_jpsi_mc_protonm_theta_sigma[i];
658 }
659
660
661
662
663 // Psip ka+ momentum correction
664 std::string psip_kap_mom = path + "/share/Psip/kaon/dedx_kap.txt";
665 std::string psip_kap_mom_mc = path + "/share/Psip/kaon/dedx_kap_mc.txt";
666 ifstream inputmomdata24(psip_kap_mom.c_str(),std::ios_base::in);
667 if ( !inputmomdata24 ) {
668 cout << " can not open: " << psip_kap_mom << endl;
669 exit(1);
670 }
671 ifstream inputmomdata24mc(psip_kap_mom_mc.c_str(),std::ios_base::in);
672 if ( !inputmomdata24mc ) {
673 cout << " can not open: " << psip_kap_mom_mc << endl;
674 exit(1);
675 }
676 for(int i=0; i<9; i++) {
677 inputmomdata24>>m_psip_kap_ptrk_offset[i];
678 inputmomdata24>>m_psip_kap_ptrk_sigma[i];
679 inputmomdata24mc>>m_psip_mc_kap_ptrk_offset[i];
680 inputmomdata24mc>>m_psip_mc_kap_ptrk_sigma[i];
681 }
682
683 //Psip ka- momentum correction
684 std::string psip_kam_mom = path + "/share/Psip/kaon/dedx_kam.txt";
685 std::string psip_kam_mom_mc = path + "/share/Psip/kaon/dedx_kam_mc.txt";
686 ifstream inputmomdata25(psip_kam_mom.c_str(),std::ios_base::in);
687 if ( !inputmomdata25 ) {
688 cout << " can not open: " << psip_kam_mom << endl;
689 exit(1);
690 }
691 ifstream inputmomdata25mc(psip_kam_mom_mc.c_str(),std::ios_base::in);
692 if ( !inputmomdata25mc ) {
693 cout << " can not open: " << psip_kam_mom_mc << endl;
694 exit(1);
695 }
696 for(int i=0; i<9; i++) {
697 inputmomdata25>>m_psip_kam_ptrk_offset[i];
698 inputmomdata25>>m_psip_kam_ptrk_sigma[i];
699 inputmomdata25mc>>m_psip_mc_kam_ptrk_offset[i];
700 inputmomdata25mc>>m_psip_mc_kam_ptrk_sigma[i];
701 }
702
703
704 // Psip proton+ momentum correction
705 std::string psip_protonp_mom = path + "/share/Psip/proton/dedx_protonp.txt";
706 std::string psip_protonp_mom_mc = path + "/share/Psip/proton/dedx_protonp_mc.txt";
707 ifstream inputmomdata26(psip_protonp_mom.c_str(),std::ios_base::in);
708 if ( !inputmomdata26 ) {
709 cout << " can not open: " << psip_protonp_mom << endl;
710 exit(1);
711 }
712 ifstream inputmomdata26mc(psip_protonp_mom_mc.c_str(),std::ios_base::in);
713 if ( !inputmomdata26mc ) {
714 cout << " can not open: " << psip_protonp_mom_mc << endl;
715 exit(1);
716 }
717 for(int i=0; i<9; i++) {
718 inputmomdata26>>m_psip_protonp_ptrk_offset[i];
719 inputmomdata26>>m_psip_protonp_ptrk_sigma[i];
720 inputmomdata26mc>>m_psip_mc_protonp_ptrk_offset[i];
721 inputmomdata26mc>>m_psip_mc_protonp_ptrk_sigma[i];
722 }
723
724 //Psip proton- momentum correction
725 std::string psip_protonm_mom = path + "/share/Psip/proton/dedx_protonm.txt";
726 std::string psip_protonm_mom_mc = path + "/share/Psip/proton/dedx_protonm_mc.txt";
727 ifstream inputmomdata27(psip_protonm_mom.c_str(),std::ios_base::in);
728 if ( !inputmomdata27 ) {
729 cout << " can not open: " << psip_protonm_mom << endl;
730 exit(1);
731 }
732 ifstream inputmomdata27mc(psip_protonm_mom_mc.c_str(),std::ios_base::in);
733 if ( !inputmomdata27mc ) {
734 cout << " can not open: " << psip_protonm_mom_mc << endl;
735 exit(1);
736 }
737 for(int i=0; i<9; i++) {
738 inputmomdata27>>m_psip_protonm_ptrk_offset[i];
739 inputmomdata27>>m_psip_protonm_ptrk_sigma[i];
740 inputmomdata27mc>>m_psip_mc_protonm_ptrk_offset[i];
741 inputmomdata27mc>>m_psip_mc_protonm_ptrk_sigma[i];
742 }
743
744 //Psipp pi momentum correction
745 std::string psipp_pi_mom = path + "/share/Psipp/pion/dedx_pi.txt";
746 std::string psipp_pi_mom_mc = path + "/share/Psipp/pion/dedx_pi_mc.txt";
747 ifstream inputmomdata28(psipp_pi_mom.c_str(),std::ios_base::in);
748 if ( !inputmomdata28 ) {
749 cout << " can not open: " << psipp_pi_mom << endl;
750 exit(1);
751 }
752 ifstream inputmomdata28mc(psipp_pi_mom_mc.c_str(),std::ios_base::in);
753 if ( !inputmomdata28mc ) {
754 cout << " can not open: " << psipp_pi_mom_mc << endl;
755 exit(1);
756 }
757 for(int i=0; i<18; i++) {
758 inputmomdata28>>m_psipp_pi_ptrk_offset[i];
759 inputmomdata28>>m_psipp_pi_ptrk_sigma[i];
760 inputmomdata28mc>>m_psipp_mc_pi_ptrk_offset[i];
761 inputmomdata28mc>>m_psipp_mc_pi_ptrk_sigma[i];
762 }
763
764 //Psipp pi theta correction
765 std::string psipp_pi_the = path + "/share/Psipp/pion/dedx_pi_theta.txt";
766 std::string psipp_pi_the_mc = path + "/share/Psipp/pion/dedx_pi_theta_mc.txt";
767 ifstream inputmomdata29(psipp_pi_the.c_str(),std::ios_base::in);
768 if ( !inputmomdata29 ) {
769 cout << " can not open: " << psipp_pi_the << endl;
770 exit(1);
771 }
772 ifstream inputmomdata29mc(psipp_pi_the_mc.c_str(),std::ios_base::in);
773 if ( !inputmomdata29mc ) {
774 cout << " can not open: " << psipp_pi_the_mc << endl;
775 exit(1);
776 }
777 for(int i=0; i<16; i++) {
778 inputmomdata29>>m_psipp_pi_theta_offset[i];
779 inputmomdata29>>m_psipp_pi_theta_sigma[i];
780 inputmomdata29mc>>m_psipp_mc_pi_theta_offset[i];
781 inputmomdata29mc>>m_psipp_mc_pi_theta_sigma[i];
782 }
783
784 //Psipp ka momentum correction
785 std::string psipp_ka_mom = path + "/share/Psipp/kaon/dedx_ka.txt";
786 std::string psipp_ka_mom_mc = path + "/share/Psipp/kaon/dedx_ka_mc.txt";
787 ifstream inputmomdata30(psipp_ka_mom.c_str(),std::ios_base::in);
788 if ( !inputmomdata30 ) {
789 cout << " can not open: " << psipp_ka_mom << endl;
790 exit(1);
791 }
792 ifstream inputmomdata30mc(psipp_ka_mom_mc.c_str(),std::ios_base::in);
793 if ( !inputmomdata30mc ) {
794 cout << " can not open: " << psipp_ka_mom_mc << endl;
795 exit(1);
796 }
797 for(int i=0; i<17; i++) {
798 inputmomdata30>>m_psipp_ka_ptrk_offset[i];
799 inputmomdata30>>m_psipp_ka_ptrk_sigma[i];
800 inputmomdata30mc>>m_psipp_mc_ka_ptrk_offset[i];
801 inputmomdata30mc>>m_psipp_mc_ka_ptrk_sigma[i];
802 }
803
804 //Psipp ka theta correction
805 std::string psipp_ka_the = path + "/share/Psipp/kaon/dedx_ka_theta.txt";
806 std::string psipp_ka_the_mc = path + "/share/Psipp/kaon/dedx_ka_theta_mc.txt";
807 ifstream inputmomdata31(psipp_ka_the.c_str(),std::ios_base::in);
808 if ( !inputmomdata31 ) {
809 cout << " can not open: " << psipp_ka_the << endl;
810 exit(1);
811 }
812 ifstream inputmomdata31mc(psipp_ka_the_mc.c_str(),std::ios_base::in);
813 if ( !inputmomdata31mc ) {
814 cout << " can not open: " << psipp_ka_the_mc << endl;
815 exit(1);
816 }
817 for(int i=0; i<16; i++) {
818 inputmomdata31>>m_psipp_ka_theta_offset[i];
819 inputmomdata31>>m_psipp_ka_theta_sigma[i];
820 inputmomdata31mc>>m_psipp_mc_ka_theta_offset[i];
821 inputmomdata31mc>>m_psipp_mc_ka_theta_sigma[i];
822 }
823
824
825 //Psipp proton momentum correction
826 std::string psipp_proton_mom = path + "/share/Psipp/proton/dedx_proton.txt";
827 std::string psipp_proton_mom_mc = path + "/share/Psipp/proton/dedx_proton_mc.txt";
828 ifstream inputmomdata32(psipp_proton_mom.c_str(),std::ios_base::in);
829 if ( !inputmomdata32 ) {
830 cout << " can not open: " << psipp_proton_mom << endl;
831 exit(1);
832 }
833 ifstream inputmomdata32mc(psipp_proton_mom_mc.c_str(),std::ios_base::in);
834 if ( !inputmomdata32mc ) {
835 cout << " can not open: " << psipp_proton_mom_mc << endl;
836 exit(1);
837 }
838 for(int i=0; i<18; i++) {
839 inputmomdata32>>m_psipp_proton_ptrk_offset[i];
840 inputmomdata32>>m_psipp_proton_ptrk_sigma[i];
841 }
842 for(int i=0; i<9; i++) {
843 inputmomdata32mc>>m_psipp_mc_proton_ptrk_offset[i];
844 inputmomdata32mc>>m_psipp_mc_proton_ptrk_sigma[i];
845 }
846
847 //Psipp proton theta correction
848 std::string psipp_proton_the = path + "/share/Psipp/proton/dedx_proton_theta.txt";
849 std::string psipp_proton_the_mc = path + "/share/Psipp/proton/dedx_proton_theta_mc.txt";
850 ifstream inputmomdata33(psipp_proton_the.c_str(),std::ios_base::in);
851 if ( !inputmomdata33 ) {
852 cout << " can not open: " << psipp_proton_the << endl;
853 exit(1);
854 }
855 ifstream inputmomdata33mc(psipp_proton_the_mc.c_str(),std::ios_base::in);
856 if ( !inputmomdata33mc ) {
857 cout << " can not open: " << psipp_proton_the_mc << endl;
858 exit(1);
859 }
860 for(int i=0; i<18; i++) {
861 inputmomdata33>>m_psipp_proton_theta_offset[i];
862 inputmomdata33>>m_psipp_proton_theta_sigma[i];
863 inputmomdata33mc>>m_psipp_mc_proton_theta_offset[i];
864 inputmomdata33mc>>m_psipp_mc_proton_theta_sigma[i];
865 }
866
867}
static std::string path

Referenced by calculate().

◆ instance()

DedxPID * DedxPID::instance ( )
static

Definition at line 17 of file DedxPID.cxx.

17 {
18 if(!m_pointer) m_pointer = new DedxPID();
19 return m_pointer;
20}

Referenced by ParticleID::init().

◆ IsPidInfoValid()

bool DedxPID::IsPidInfoValid ( ) const
inlinevirtual

Implements ParticleIDBase.

Definition at line 25 of file DedxPID.h.

25{return (m_ndof>0);}

◆ iterate()

double DedxPID::iterate ( double ptrk,
double * mean,
double * p )
protected

Definition at line 869 of file DedxPID.cxx.

869 {
870 double p1,p2,p3;
871 p2=((mean[0]-mean[1])*(p[1]*p[1]-p[2]*p[2])-(mean[1]-mean[2])*(p[0]*p[0]-p[1]*p[1]))/((p[0]-p[1])*(p[1]*p[1]-p[2]*p[2])-(p[1]-p[2])*(p[0]*p[0]-p[1]*p[1]));
872 p3=((p[0]-p[1])*(mean[1]-mean[2])-(p[1]-p[2])*(mean[0]-mean[1]))/((p[0]-p[1])*(p[1]*p[1]-p[2]*p[2])-(p[1]-p[2])*(p[0]*p[0]-p[1]*p[1]));
873 p1=mean[0]-p2*p[0]-p3*p[0]*p[0];
874 double mean1 = p1+p2*ptrk+p3*ptrk*ptrk;
875 return mean1;
876}

Referenced by cal_par().

◆ LikelihoodCalculation()

int DedxPID::LikelihoodCalculation ( )
inlineprotectedvirtual

Implements ParticleIDBase.

Definition at line 43 of file DedxPID.h.

43{return -1;}

◆ mypol3()

double DedxPID::mypol3 ( double x,
double par0,
double par1,
double par2,
double par3 )
protected

Definition at line 481 of file DedxPID.cxx.

482{
483 double y = x;
484 return par0 + (par1 * y) +(par2 * y * y) + (par3 * y * y * y);
485
486}
Double_t x[10]

◆ mypol5()

double DedxPID::mypol5 ( double x,
double par0,
double par1,
double par2,
double par3,
double par4,
double par5 )
protected

Definition at line 488 of file DedxPID.cxx.

489{
490 double y = x;
491 return par0 + (par1 * y) +(par2 * y * y) + (par3 * y * y * y) + (par4 * y * y * y *y)+ (par5 * y * y * y * y * y);
492
493}

◆ ndof()

int DedxPID::ndof ( ) const
inlinevirtual

Implements ParticleIDBase.

Definition at line 30 of file DedxPID.h.

30{return m_ndof;}

◆ neuronPID()

int DedxPID::neuronPID ( ) const
inline

Definition at line 33 of file DedxPID.h.

33{return -1;}

◆ neuronPIDCalculation()

int DedxPID::neuronPIDCalculation ( )
inlineprotected

Definition at line 40 of file DedxPID.h.

40{return -1;}

◆ normPH()

double DedxPID::normPH ( ) const
inline

Definition at line 31 of file DedxPID.h.

31{ return m_normPH;}

◆ offset()

double DedxPID::offset ( int n) const
inline

Definition at line 28 of file DedxPID.h.

28{return m_offset[n];}

Referenced by CorrDedx().

◆ offsetDedx()

double DedxPID::offsetDedx ( int n,
double ptrk,
double cost )
protected

Definition at line 130 of file DedxPID.cxx.

130 {
131 return 0;
132}

Referenced by particleIDCalculation().

◆ particleIDCalculation()

int DedxPID::particleIDCalculation ( )
protectedvirtual

Implements ParticleIDBase.

Definition at line 51 of file DedxPID.cxx.

51 {
52 // int rundedx2 = getRunNo();
53 int nhitcutdedx=getNhitCutDx();
54 int irc = -1;
55 EvtRecTrack* recTrk = PidTrk();
56 if(!(recTrk->isMdcTrackValid())) return irc;
57 RecMdcTrack* mdcTrk = recTrk->mdcTrack();
58
59 double ptrk = mdcTrk->p();
60 int charge = mdcTrk->charge();
61 if(ptrk>5) return irc;
62 double cost = cos(mdcTrk->theta());
63 // double sig_the= sin(mdcTrk->theta());
64
65 if(!(recTrk->isMdcDedxValid())) return irc;
66 RecMdcDedx* dedxTrk = recTrk->mdcDedx();
67
68 if((dedxTrk->normPH()>30)||(dedxTrk->normPH()<0)) return irc;
69 m_goodHits = dedxTrk->numGoodHits();
70 if(dedxTrk->numGoodHits()<nhitcutdedx) return irc;
71 m_normPH = dedxTrk->normPH();
72 m_probPH = dedxTrk->probPH();
73 // calculate chi and min chi
74 double chitemp = 99.;
75 double pdftemp = 0;
76 // double testchi[5];
77 // double testptrk[5];
78 // double testcost[5];
79 for(int i = 0; i < 5; i++) {
80 double sep = dedxTrk->chi(i);
81
82#ifndef BEAN
83 string sftver = getenv("BES_RELEASE");
84 string sft;
85 sft.assign(sftver,0,5);
86 if(sft=="6.6.0"||sft=="6.5.5") {
87 m_chi[i] = CorrDedx(i,ptrk,cost,sep,charge);
88 }
89 else
90 m_chi[i]=sep;
91#else
92// This is BEAN part:
93#if (ROOTEVENTDATA_VERSION_NUMERIC == ROOTEVENTDATA_VER(6,5,5) ||\
94 ROOTEVENTDATA_VERSION_NUMERIC == ROOTEVENTDATA_VER(6,6,0) )
95 m_chi[i] = CorrDedx(i,ptrk,cost,sep,charge);
96#else
97 m_chi[i]=sep;
98#endif
99#endif
100
101 m_offset[i] = offsetDedx(i, ptrk, cost);
102 m_sigma[i] = sigmaDedx(i, ptrk, cost);
103 if(fabs(m_chi[i]) < chitemp) chitemp = fabs(m_chi[i]);
104 double ppp = pdfCalculate(m_chi[i],1);
105 if(fabs(ppp) > pdftemp) pdftemp = fabs(ppp);
106
107 }
108 m_chimin = chitemp;
109 m_pdfmin = pdftemp;
110 if(m_chimin > chiMinCut()) return irc;
111 if(pdftemp < pdfCalculate(pdfMinSigmaCut(),1)) return irc;
112
113
114 // calculate prob
115
116 for(int i = 0; i < 5; i++)
117 m_prob[i] = probCalculate(m_chi[i]*m_chi[i], 1);
118
119 m_ndof = 1;
120 irc = 0;
121 return irc;
122}
double cos(const BesAngle a)
Definition BesAngle.h:213
int getNhitCutDx() const
Definition DedxPID.h:34
double CorrDedx(int n, double ptrk, double cost, double chi, int charge)
Definition DedxPID.cxx:134
double sigmaDedx(int n, double ptrk, double cost)
Definition DedxPID.cxx:430
double offsetDedx(int n, double ptrk, double cost)
Definition DedxPID.cxx:130
double probPH() const
Definition DstMdcDedx.h:66
int numGoodHits() const
Definition DstMdcDedx.h:64
double normPH() const
Definition DstMdcDedx.h:67
double chi(int i) const
Definition DstMdcDedx.h:58
const double theta() const
Definition DstMdcTrack.h:59
const int charge() const
Definition DstMdcTrack.h:53
const double p() const
Definition DstMdcTrack.h:58
bool isMdcDedxValid()
Definition EvtRecTrack.h:49
RecMdcDedx * mdcDedx()
Definition EvtRecTrack.h:63
bool isMdcTrackValid()
Definition EvtRecTrack.h:47
RecMdcTrack * mdcTrack()
Definition EvtRecTrack.h:61
double chiMinCut() const
EvtRecTrack * PidTrk() const
double probCalculate(double chi2, int n)
double pdfCalculate(double offset, double sigma)
double pdfMinSigmaCut() const

Referenced by calculate().

◆ prob()

double DedxPID::prob ( int n) const
inlinevirtual

Implements ParticleIDBase.

Definition at line 27 of file DedxPID.h.

27{return m_prob[n];}

◆ setNhitCutDx()

void DedxPID::setNhitCutDx ( const int nhitcuthdx = 5)
inline

Definition at line 35 of file DedxPID.h.

35{m_nhitcutdx = nhitcuthdx;}

◆ sigma()

double DedxPID::sigma ( int n) const
inline

Definition at line 29 of file DedxPID.h.

29{return m_sigma[n];}

◆ sigmaDedx()

double DedxPID::sigmaDedx ( int n,
double ptrk,
double cost )
protected

Definition at line 430 of file DedxPID.cxx.

430 {
431
432 /* int rundedx3 = getRunNo();
433 double sigma = 1.0;
434 double sigp = 1.0;
435 double sigmac = 1.0;
436 double gb = ptrk/xmass(n);
437 switch(n) {
438
439 case 0: {// Electron
440 double ptemp = ptrk;
441 double costm = cost;
442 break;
443 }
444
445 case 1: {// Muon
446 double ptemp = ptrk;
447 double costm = cost;
448 break;
449 }
450
451 case 2: {// Pion
452 double ptemp = ptrk;
453 double costm = cost;
454 break;
455 }
456
457 case 3: { // Kaon
458 double ptemp = ptrk;
459 double costm = cost;
460 break;
461 }
462
463
464 case 4: {// Proton
465 double ptemp = ptrk;
466 double costm = cost;
467 break;
468 }
469
470 default:
471 sigma = 1.0;
472 break;
473 }
474 */
475 // sigma = 1.2;
476 // sigma =1.0;
477 return 1;
478 // return sigma;
479}

Referenced by particleIDCalculation().


The documentation for this class was generated from the following files: