BOSS 6.6.4.p03
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 ()
 
virtual void init ()=0
 
virtual void calculate ()=0
 
virtual bool IsPidInfoValid () const =0
 
virtual double chi (int n) const =0
 
virtual double prob (int n) const =0
 
virtual int ndof () const =0
 
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 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
 
void set_path (const char *s_path=0)
 

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)
 
virtual int particleIDCalculation ()=0
 
virtual int LikelihoodCalculation ()=0
 

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 872 of file DedxPID.cxx.

872 {
873 double mean1[3],p[3];
874 p[0]=begin+(index1-1)*bin;
875 p[1]=begin+index1*bin;
876 p[2]=begin+(index1+1)*bin;
877 mean1[0]=m_jpsi_pip_ptrk_offset[index1-1];
878 mean1[1]=m_jpsi_pip_ptrk_offset[index1];
879 mean1[2]=m_jpsi_pip_ptrk_offset[index1+1];
880 double res=iterate(ptrk,mean1,p);
881 return res;
882}
*******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:863

Referenced by CorrDedx().

◆ calculate()

void DedxPID::calculate ( )
virtual

Implements ParticleIDBase.

Definition at line 41 of file DedxPID.cxx.

41 {
42 // int rundedx = getRunNo();
43 if(!m_readstate) {
44 inputpar();
45 m_readstate=1;
46 }
47 if(particleIDCalculation() == 0) m_ndof=1;
48}
int particleIDCalculation()
Definition: DedxPID.cxx:50
void inputpar()
Definition: DedxPID.cxx:489

◆ 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 128 of file DedxPID.cxx.

128 {
129 int rundedx2 = getRunNo();
130 double offset = 0.0;
131 double offsetp = 0.0;
132 double offsetc = 0.0;
133 double sigcos = 1;
134 double sigp = 1;
135 double chicor=chi;
136 // double gb = ptrk/xmass(n);
137
138 switch(n) {
139 case 0: { // Electron
140 break;
141 }
142
143 case 1: {// Muon
144 break;
145 }
146
147 case 2: {// Pion
148 // double ptemp = ptrk;
149 double costm = cost;
150 if(ptrk<0.1||ptrk>1) break;
151 int index = int((ptrk-0.1)/0.05);
152 if(index<=0) index=1;
153 if(index>=17) index=16;
154
155 if(fabs(costm)>=0.8) break;
156 int index1 = int((costm+0.8)/0.1);
157 if(index1<=0) index1=1;
158 if(index1>=15) index1=14;
159
160 //psipp data
161 if(rundedx2>=11414&&rundedx2<=14604) {
162 offsetp = cal_par(index,m_psipp_pi_ptrk_offset,ptrk,0.125,0.05);
163 sigp = cal_par(index,m_psipp_pi_ptrk_sigma,ptrk,0.125,0.05);
164 offsetc = cal_par(index1,m_psipp_pi_theta_offset,costm,-0.75,0.1);
165 sigcos = cal_par(index1,m_psipp_pi_theta_sigma,costm,-0.75,0.1);
166 }
167 //psipp mc
168 if(rundedx2<=-11414&&rundedx2>=-14604) {
169 offsetp = cal_par(index,m_psipp_mc_pi_ptrk_offset,ptrk,0.125,0.05);
170 sigp = cal_par(index,m_psipp_mc_pi_ptrk_sigma,ptrk,0.125,0.05);
171 offsetc = cal_par(index1,m_psipp_mc_pi_theta_offset,costm,-0.75,0.1);
172 sigcos = cal_par(index1,m_psipp_mc_pi_theta_sigma,costm,-0.75,0.1);
173 }
174
175 offset=offsetp+sigp*offsetc;
176 chicor=(chicor-offset)/(sigcos*sigp);
177 break;
178 }
179
180 case 3: {// Kaon
181 // double ptemp = ptrk;
182 double costm = cost;
183 if(ptrk<0.3||ptrk>0.8) break;
184 offset=0;
185 int index = int((ptrk-0.3)/0.1);
186 if(index<=0) index=1;
187 if(index>=4) index=3;
188
189 int index1 = int((costm+0.9)/0.1);
190 if(index1<=0) index1=1;
191 if(index1>=17) index1=16;
192 //data Jpsi
193 if(rundedx2>=9947&&rundedx2<=10878) {
194 if(charge>0) {
195 offsetp = cal_par(index,m_jpsi_kap_ptrk_offset,ptrk,0.35,0.1);
196 sigp = cal_par(index,m_jpsi_kap_ptrk_sigma,ptrk,0.35,0.1);
197 if(fabs(costm)<=0.83) {
198 offsetc = cal_par(index1,m_jpsi_kap_theta_offset,costm,-0.85,0.1);
199 sigcos = cal_par(index1,m_jpsi_kap_theta_sigma,costm,-0.85,0.1);
200 }
201 }
202 if(charge<0) {
203 offsetp = cal_par(index,m_jpsi_kam_ptrk_offset,ptrk,0.35,0.1);
204 sigp = cal_par(index,m_jpsi_kam_ptrk_sigma,ptrk,0.35,0.1);
205 if(fabs(costm)<=0.83) {
206 offsetc = cal_par(index1,m_jpsi_kam_theta_offset,costm,-0.85,0.1);
207 sigcos = cal_par(index1,m_jpsi_kam_theta_sigma,costm,-0.85,0.1);
208 }
209 }
210 }
211
212 //mc Jpsi
213 if(rundedx2<=-9947&&rundedx2>=-10878) {
214 if(charge>0) {
215 offsetp = cal_par(index,m_jpsi_mc_kap_ptrk_offset,ptrk,0.35,0.1);
216 sigp = cal_par(index,m_jpsi_mc_kap_ptrk_sigma,ptrk,0.35,0.1);
217 if(fabs(costm)<=0.83) {
218 offsetc = cal_par(index1,m_jpsi_mc_kap_theta_offset,costm,-0.85,0.1);
219 sigcos = cal_par(index1,m_jpsi_mc_kap_theta_sigma,costm,-0.85,0.1);
220 }
221 }
222 if(charge<0) {
223 offsetp = cal_par(index,m_jpsi_mc_kam_ptrk_offset,ptrk,0.35,0.1);
224 sigp = cal_par(index,m_jpsi_mc_kam_ptrk_sigma,ptrk,0.35,0.1);
225 if(fabs(costm)<=0.83) {
226 offsetc = cal_par(index1,m_jpsi_mc_kam_theta_offset,costm,-0.85,0.1);
227 sigcos = cal_par(index1,m_jpsi_mc_kam_theta_sigma,costm,-0.85,0.1);
228 }
229 }
230 }
231
232 //data Psip
233 if(rundedx2>=8093&&rundedx2<=9025) {
234 if(ptrk<0.3||ptrk>1.2) break;
235 index = int((ptrk-0.3)/0.1);
236 if(index<=0) index=1;
237 if(index>=8) index=7;
238 if(charge>0) {
239 offsetp = cal_par(index,m_psip_kap_ptrk_offset,ptrk,0.35,0.1);
240 sigp = cal_par(index,m_psip_kap_ptrk_sigma,ptrk,0.35,0.1);
241 }
242 if(charge<0) {
243 offsetp = cal_par(index,m_psip_kam_ptrk_offset,ptrk,0.35,0.1);
244 sigp = cal_par(index,m_psip_kam_ptrk_sigma,ptrk,0.35,0.1);
245 }
246 }
247
248 //mc Psip
249 if(rundedx2<=-8093&&rundedx2>=-9025) {
250 // if(ptrk < 0.4) ptrk = 0.4;
251 if(ptrk<0.3||ptrk>1.2) break;
252 index = int((ptrk-0.3)/0.1);
253 if(index<=0) index=1;
254 if(index>=8) index=7;
255 if(charge>0) {
256 offsetp = cal_par(index,m_psip_mc_kap_ptrk_offset,ptrk,0.35,0.1);
257 sigp = cal_par(index,m_psip_mc_kap_ptrk_sigma,ptrk,0.35,0.1);
258 }
259 if(charge<0) {
260 offsetp = cal_par(index,m_psip_mc_kam_ptrk_offset,ptrk,0.35,0.1);
261 sigp = cal_par(index,m_psip_mc_kam_ptrk_sigma,ptrk,0.35,0.1);
262 }
263 }
264
265
266 //psipp kaon data
267 if(rundedx2>=11414&&rundedx2<=14604) {
268 if(ptrk<0.15||ptrk>1) break;
269 index = int((ptrk-0.15)/0.05);
270 if(index<=0) index=1;
271 if(index>=16) index=15;
272 if(fabs(costm)>=0.8) break;
273 index1 = int((costm+0.8)/0.1);
274 if(index1<=0) index1=1;
275 if(index1>=15) index1=14;
276
277 offsetp = cal_par(index,m_psipp_ka_ptrk_offset,ptrk,0.175,0.05);
278 sigp = cal_par(index,m_psipp_ka_ptrk_sigma,ptrk,0.175,0.05);
279 offsetc = cal_par(index1,m_psipp_ka_theta_offset,costm,-0.75,0.1);
280 sigcos = cal_par(index1,m_psipp_ka_theta_sigma,costm,-0.75,0.1);
281 }
282 //psipp kaon mc
283 if(rundedx2<=-11414&&rundedx2>=-14604) {
284 if(ptrk<0.15||ptrk>1) break;
285 index = int((ptrk-0.15)/0.05);
286 if(index<=0) index=1;
287 if(index>=16) index=15;
288 if(fabs(costm)>=0.8) break;
289 index1 = int((costm+0.8)/0.1);
290 if(index1<=0) index1=1;
291 if(index1>=15) index1=14;
292 offsetp = cal_par(index,m_psipp_mc_ka_ptrk_offset,ptrk,0.175,0.05);
293 sigp = cal_par(index,m_psipp_mc_ka_ptrk_sigma,ptrk,0.175,0.05);
294 offsetc = cal_par(index1,m_psipp_mc_ka_theta_offset,costm,-0.75,0.1);
295 sigcos = cal_par(index1,m_psipp_mc_ka_theta_sigma,costm,-0.75,0.1);
296 }
297
298 offset=offsetp+sigp*offsetc;
299 chicor=(chicor-offset)/(sigcos*sigp);
300 break;
301 }
302
303 case 4 : { // Proton
304 // double ptemp = ptrk;
305 double costm = cost;
306 if(ptrk<0.3||ptrk>1.1) break;
307 int index = int((ptrk-0.3)/0.1);
308 if(index<=0) index=1;
309 if(index>=7) index=6;
310
311 int index1 = int((costm+0.9)/0.1);
312 if(index1<=0) index1=1;
313 if(index1>=17) index1=16;
314
315 // double plog = log(ptemp);
316 offset=0;
317 if(rundedx2>=9947&&rundedx2<=10878) {
318 if(charge>0) {
319 offsetp = cal_par(index,m_jpsi_protonp_ptrk_offset,ptrk,0.35,0.1);
320 sigp = cal_par(index,m_jpsi_protonp_ptrk_sigma,ptrk,0.35,0.1);
321 if(fabs(costm)<=0.83) {
322 offsetc = cal_par(index1,m_jpsi_protonp_theta_offset,costm,-0.85,0.1);
323 sigcos = cal_par(index1,m_jpsi_protonp_theta_sigma,costm,-0.85,0.1);
324 }
325 }
326 if(charge<0) {
327 offsetp = cal_par(index,m_jpsi_protonm_ptrk_offset,ptrk,0.35,0.1);
328 sigp = cal_par(index,m_jpsi_protonm_ptrk_sigma,ptrk,0.35,0.1);
329 if(fabs(costm)<=0.83) {
330 offsetc = cal_par(index1,m_jpsi_protonm_theta_offset,costm,-0.85,0.1);
331 sigcos = cal_par(index1,m_jpsi_protonm_theta_sigma,costm,-0.85,0.1);
332 }
333 }
334 }
335
336 //mc JPsi
337 if(rundedx2<=-9947&&rundedx2>=-10878) {
338 if(charge>0) {
339 offsetp = cal_par(index,m_jpsi_mc_protonp_ptrk_offset,ptrk,0.35,0.1);
340 sigp = cal_par(index,m_jpsi_mc_protonp_ptrk_sigma,ptrk,0.35,0.1);
341 if(fabs(costm)<=0.83) {
342 offsetc = cal_par(index1,m_jpsi_mc_protonp_theta_offset,costm,-0.85,0.1);
343 sigcos = cal_par(index1,m_jpsi_mc_protonp_theta_sigma,costm,-0.85,0.1);
344 }
345 }
346 if(charge<0) {
347 offsetp = cal_par(index,m_jpsi_mc_protonm_ptrk_offset,ptrk,0.35,0.1);
348 sigp = cal_par(index,m_jpsi_mc_protonm_ptrk_sigma,ptrk,0.35,0.1);
349 if(fabs(costm)<=0.83) {
350 offsetc = cal_par(index1,m_jpsi_mc_protonm_theta_offset,costm,-0.85,0.1);
351 sigcos = cal_par(index1,m_jpsi_mc_protonm_theta_sigma,costm,-0.85,0.1);
352 }
353 }
354 }
355
356 //data Psip
357 if(rundedx2>=8093&&rundedx2<=9025) {
358 if(charge>0) {
359 offsetp = cal_par(index,m_psip_protonp_ptrk_offset,ptrk,0.35,0.1);
360 sigp = cal_par(index,m_psip_protonp_ptrk_sigma,ptrk,0.35,0.1);
361 }
362 if(charge<0) {
363 offsetp = cal_par(index,m_psip_protonm_ptrk_offset,ptrk,0.35,0.1);
364 sigp = cal_par(index,m_psip_protonm_ptrk_sigma,ptrk,0.35,0.1);
365 }
366 }
367
368 //mc Psip
369 if(rundedx2<=-8093&&rundedx2>=-9025) {
370 if(charge>0) {
371 offsetp = cal_par(index,m_psip_mc_protonp_ptrk_offset,ptrk,0.35,0.1);
372 sigp = cal_par(index,m_psip_mc_protonp_ptrk_sigma,ptrk,0.35,0.1);
373 }
374 if(charge<0) {
375 offsetp = cal_par(index,m_psip_mc_protonm_ptrk_offset,ptrk,0.35,0.1);
376 sigp = cal_par(index,m_psip_mc_protonm_ptrk_sigma,ptrk,0.35,0.1);
377 }
378 }
379
380 //psipp proton data
381 if(rundedx2>=11414&&rundedx2<=14604) {
382 if(ptrk<0.2||ptrk>1.1) break;
383 index = int((ptrk-0.2)/0.05);
384 if(index<=0) index=1;
385 if(index>=17) index=16;
386 if(fabs(costm)>=0.83) break;
387 index1 = int((costm+0.9)/0.1);
388 if(index1<=0) index1=1;
389 if(index1>=17) index1=16;
390
391 offsetp = cal_par(index,m_psipp_proton_ptrk_offset,ptrk,0.225,0.05);
392 sigp = cal_par(index,m_psipp_proton_ptrk_sigma,ptrk,0.225,0.05);
393 offsetc = cal_par(index1,m_psipp_proton_theta_offset,costm,-0.85,0.1);
394 sigcos = cal_par(index1,m_psipp_proton_theta_sigma,costm,-0.85,0.1);
395 }
396 //psipp proton mc
397 if(rundedx2<=-11414&&rundedx2>=-14604) {
398 if(ptrk<0.2||ptrk>1.1) break;
399 index = int((ptrk-0.2)/0.1);
400 if(index<=0) index=1;
401 if(index>=8) index=7;
402 if(fabs(costm)>=0.83) break;
403 index1 = int((costm+0.9)/0.1);
404 if(index1<=0) index1=1;
405 if(index1>=17) index1=16;
406 offsetp = cal_par(index,m_psipp_mc_proton_ptrk_offset,ptrk,0.25,0.1);
407 sigp = cal_par(index,m_psipp_mc_proton_ptrk_sigma,ptrk,0.25,0.1);
408 offsetc = cal_par(index1,m_psipp_mc_proton_theta_offset,costm,-0.85,0.1);
409 sigcos = cal_par(index1,m_psipp_mc_proton_theta_sigma,costm,-0.85,0.1);
410 }
411 offset=offsetp+sigp*offsetc;
412 chicor=(chicor-offset)/(sigcos*sigp);
413 break;
414 }
415
416 default:
417 offset = 0.0;
418 break;
419 }
420 // offset = 0.0;
421 return chicor;
422}
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:872
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 25 of file DedxPID.cxx.

25 {
26 for(int i = 0; i < 5; i++) {
27 m_chi[i] = 99.0;
28 m_prob[i] = -1.0;
29 m_offset[i] = 99.0;
30 m_sigma[i] = 1.0;
31 }
32 m_chimin = 99.;
33 m_pdfmin =99;
34 m_ndof = 0;
35 m_goodHits = -99;
36 m_normPH = -99;
37 m_probPH = -99;
38 m_nhitcutdx=5;
39}

Referenced by ParticleID::init().

◆ inputpar()

void DedxPID::inputpar ( )
protected

Definition at line 489 of file DedxPID.cxx.

489 {
490
491 //Jpsi ka+ momentum correction
492 std::string jpsi_kap_mom = path + "/share/JPsi/kaon/dedx_kap.txt";
493 std::string jpsi_kap_mom_mc = path + "/share/JPsi/kaon/dedx_kap_mc.txt";
494 ifstream inputmomdata6(jpsi_kap_mom.c_str(),std::ios_base::in);
495 if ( !inputmomdata6 ) {
496 cout << " can not open: " << jpsi_kap_mom << endl;
497 exit(1);
498 }
499 ifstream inputmomdata6mc(jpsi_kap_mom_mc.c_str(),std::ios_base::in);
500 if ( !inputmomdata6mc ) {
501 cout << " can not open: " << jpsi_kap_mom_mc << endl;
502 exit(1);
503 }
504 for(int i=0; i<12; i++) {
505 inputmomdata6>>m_jpsi_kap_ptrk_offset[i];
506 inputmomdata6>>m_jpsi_kap_ptrk_sigma[i];
507 inputmomdata6mc>>m_jpsi_mc_kap_ptrk_offset[i];
508 inputmomdata6mc>>m_jpsi_mc_kap_ptrk_sigma[i];
509 }
510
511 //Jpsi ka- momentum correction
512 std::string jpsi_kam_mom = path + "/share/JPsi/kaon/dedx_kam.txt";
513 std::string jpsi_kam_mom_mc = path + "/share/JPsi/kaon/dedx_kam_mc.txt";
514 ifstream inputmomdata7(jpsi_kam_mom.c_str(),std::ios_base::in);
515 if ( !inputmomdata7 ) {
516 cout << " can not open: " << jpsi_kam_mom << endl;
517 exit(1);
518 }
519 ifstream inputmomdata7mc(jpsi_kam_mom_mc.c_str(),std::ios_base::in);
520 if ( !inputmomdata7mc ) {
521 cout << " can not open: " << jpsi_kam_mom_mc << endl;
522 exit(1);
523 }
524 for(int i=0; i<12; i++) {
525 inputmomdata7>>m_jpsi_kam_ptrk_offset[i];
526 inputmomdata7>>m_jpsi_kam_ptrk_sigma[i];
527 inputmomdata7mc>>m_jpsi_mc_kam_ptrk_offset[i];
528 inputmomdata7mc>>m_jpsi_mc_kam_ptrk_sigma[i];
529
530 }
531
532
533 //Jpsi ka+ theta correction
534 std::string jpsi_kap_the = path + "/share/JPsi/kaon/dedx_kap_theta.txt";
535 std::string jpsi_kap_the_mc = path + "/share/JPsi/kaon/dedx_kap_theta_mc.txt";
536 ifstream inputmomdata8(jpsi_kap_the.c_str(),std::ios_base::in);
537 if ( !inputmomdata8 ) {
538 cout << " can not open: " << jpsi_kap_the << endl;
539 exit(1);
540 }
541 ifstream inputmomdata8mc(jpsi_kap_the_mc.c_str(),std::ios_base::in);
542 if ( !inputmomdata8mc ) {
543 cout << " can not open: " << jpsi_kap_the_mc << endl;
544 exit(1);
545 }
546 for(int i=0; i<18; i++) {
547 inputmomdata8>>m_jpsi_kap_theta_offset[i];
548 inputmomdata8>>m_jpsi_kap_theta_sigma[i];
549 inputmomdata8mc>>m_jpsi_mc_kap_theta_offset[i];
550 inputmomdata8mc>>m_jpsi_mc_kap_theta_sigma[i];
551 }
552
553 //Jpsi ka- theta correction
554 std::string jpsi_kam_the = path + "/share/JPsi/kaon/dedx_kam_theta.txt";
555 std::string jpsi_kam_the_mc = path + "/share/JPsi/kaon/dedx_kam_theta_mc.txt";
556 ifstream inputmomdata9(jpsi_kam_the.c_str(),std::ios_base::in);
557 if ( !inputmomdata9 ) {
558 cout << " can not open: " << jpsi_kam_the << endl;
559 exit(1);
560 }
561 ifstream inputmomdata9mc(jpsi_kam_the_mc.c_str(),std::ios_base::in);
562 if ( !inputmomdata9mc ) {
563 cout << " can not open: " << jpsi_kam_the_mc << endl;
564 exit(1);
565 }
566 for(int i=0; i<18; i++) {
567 inputmomdata9>>m_jpsi_kam_theta_offset[i];
568 inputmomdata9>>m_jpsi_kam_theta_sigma[i];
569 inputmomdata9mc>>m_jpsi_mc_kam_theta_offset[i];
570 inputmomdata9mc>>m_jpsi_mc_kam_theta_sigma[i];
571 }
572
573 //Jpsi proton+ momentum correction
574 std::string jpsi_protonp_mom = path + "/share/JPsi/proton/dedx_protonp.txt";
575 std::string jpsi_protonp_mom_mc = path + "/share/JPsi/proton/dedx_protonp_mc.txt";
576 ifstream inputmomdata12(jpsi_protonp_mom.c_str(),std::ios_base::in);
577 if ( !inputmomdata12 ) {
578 cout << " can not open: " << jpsi_protonp_mom << endl;
579 exit(1);
580 }
581 ifstream inputmomdata12mc(jpsi_protonp_mom_mc.c_str(),std::ios_base::in);
582 if ( !inputmomdata12mc ) {
583 cout << " can not open: " << jpsi_protonp_mom_mc << endl;
584 exit(1);
585 }
586 for(int i=0; i<8; i++) {
587 inputmomdata12>>m_jpsi_protonp_ptrk_offset[i];
588 inputmomdata12>>m_jpsi_protonp_ptrk_sigma[i];
589 inputmomdata12mc>>m_jpsi_mc_protonp_ptrk_offset[i];
590 inputmomdata12mc>>m_jpsi_mc_protonp_ptrk_sigma[i];
591 }
592
593 //Jpsi proton- momentum correction
594 std::string jpsi_protonm_mom = path + "/share/JPsi/proton/dedx_protonm.txt";
595 std::string jpsi_protonm_mom_mc = path + "/share/JPsi/proton/dedx_protonm_mc.txt";
596 ifstream inputmomdata13(jpsi_protonm_mom.c_str(),std::ios_base::in);
597 if ( !inputmomdata13 ) {
598 cout << " can not open: " << jpsi_protonm_mom << endl;
599 exit(1);
600 }
601 ifstream inputmomdata13mc(jpsi_protonm_mom_mc.c_str(),std::ios_base::in);
602 if ( !inputmomdata13mc ) {
603 cout << " can not open: " << jpsi_protonm_mom_mc << endl;
604 exit(1);
605 }
606 for(int i=0; i<8; i++) {
607 inputmomdata13>>m_jpsi_protonm_ptrk_offset[i];
608 inputmomdata13>>m_jpsi_protonm_ptrk_sigma[i];
609 inputmomdata13mc>>m_jpsi_mc_protonm_ptrk_offset[i];
610 inputmomdata13mc>>m_jpsi_mc_protonm_ptrk_sigma[i];
611 }
612
613 //Jpsi proton+ theta correction
614 std::string jpsi_protonp_the = path + "/share/JPsi/proton/dedx_protonp_theta.txt";
615 std::string jpsi_protonp_the_mc = path + "/share/JPsi/proton/dedx_protonp_theta_mc.txt";
616
617 ifstream inputmomdata14(jpsi_protonp_the.c_str(),std::ios_base::in);
618 if ( !inputmomdata14 ) {
619 cout << " can not open: " << jpsi_protonp_the << endl;
620 exit(1);
621 }
622 ifstream inputmomdata14mc(jpsi_protonp_the_mc.c_str(),std::ios_base::in);
623 if ( !inputmomdata14mc ) {
624 cout << " can not open: " << jpsi_protonp_the_mc << endl;
625 exit(1);
626 }
627 for(int i=0; i<18; i++) {
628 inputmomdata14>>m_jpsi_protonp_theta_offset[i];
629 inputmomdata14>>m_jpsi_protonp_theta_sigma[i];
630 inputmomdata14mc>>m_jpsi_mc_protonp_theta_offset[i];
631 inputmomdata14mc>>m_jpsi_mc_protonp_theta_sigma[i];
632 }
633
634 //Jpsi proton- theta correction
635 std::string jpsi_protonm_the = path + "/share/JPsi/proton/dedx_protonm_theta.txt";
636 std::string jpsi_protonm_the_mc = path + "/share/JPsi/proton/dedx_protonm_theta_mc.txt";
637 ifstream inputmomdata15(jpsi_protonm_the.c_str(),std::ios_base::in);
638 if ( !inputmomdata15 ) {
639 cout << " can not open: " << jpsi_protonm_the << endl;
640 exit(1);
641 }
642 ifstream inputmomdata15mc(jpsi_protonm_the_mc.c_str(),std::ios_base::in);
643 if ( !inputmomdata15mc ) {
644 cout << " can not open: " << jpsi_protonm_the_mc << endl;
645 exit(1);
646 }
647 for(int i=0; i<18; i++) {
648 inputmomdata15>>m_jpsi_protonm_theta_offset[i];
649 inputmomdata15>>m_jpsi_protonm_theta_sigma[i];
650 inputmomdata15mc>>m_jpsi_mc_protonm_theta_offset[i];
651 inputmomdata15mc>>m_jpsi_mc_protonm_theta_sigma[i];
652 }
653
654
655
656
657 // Psip ka+ momentum correction
658 std::string psip_kap_mom = path + "/share/Psip/kaon/dedx_kap.txt";
659 std::string psip_kap_mom_mc = path + "/share/Psip/kaon/dedx_kap_mc.txt";
660 ifstream inputmomdata24(psip_kap_mom.c_str(),std::ios_base::in);
661 if ( !inputmomdata24 ) {
662 cout << " can not open: " << psip_kap_mom << endl;
663 exit(1);
664 }
665 ifstream inputmomdata24mc(psip_kap_mom_mc.c_str(),std::ios_base::in);
666 if ( !inputmomdata24mc ) {
667 cout << " can not open: " << psip_kap_mom_mc << endl;
668 exit(1);
669 }
670 for(int i=0; i<9; i++) {
671 inputmomdata24>>m_psip_kap_ptrk_offset[i];
672 inputmomdata24>>m_psip_kap_ptrk_sigma[i];
673 inputmomdata24mc>>m_psip_mc_kap_ptrk_offset[i];
674 inputmomdata24mc>>m_psip_mc_kap_ptrk_sigma[i];
675 }
676
677 //Psip ka- momentum correction
678 std::string psip_kam_mom = path + "/share/Psip/kaon/dedx_kam.txt";
679 std::string psip_kam_mom_mc = path + "/share/Psip/kaon/dedx_kam_mc.txt";
680 ifstream inputmomdata25(psip_kam_mom.c_str(),std::ios_base::in);
681 if ( !inputmomdata25 ) {
682 cout << " can not open: " << psip_kam_mom << endl;
683 exit(1);
684 }
685 ifstream inputmomdata25mc(psip_kam_mom_mc.c_str(),std::ios_base::in);
686 if ( !inputmomdata25mc ) {
687 cout << " can not open: " << psip_kam_mom_mc << endl;
688 exit(1);
689 }
690 for(int i=0; i<9; i++) {
691 inputmomdata25>>m_psip_kam_ptrk_offset[i];
692 inputmomdata25>>m_psip_kam_ptrk_sigma[i];
693 inputmomdata25mc>>m_psip_mc_kam_ptrk_offset[i];
694 inputmomdata25mc>>m_psip_mc_kam_ptrk_sigma[i];
695 }
696
697
698 // Psip proton+ momentum correction
699 std::string psip_protonp_mom = path + "/share/Psip/proton/dedx_protonp.txt";
700 std::string psip_protonp_mom_mc = path + "/share/Psip/proton/dedx_protonp_mc.txt";
701 ifstream inputmomdata26(psip_protonp_mom.c_str(),std::ios_base::in);
702 if ( !inputmomdata26 ) {
703 cout << " can not open: " << psip_protonp_mom << endl;
704 exit(1);
705 }
706 ifstream inputmomdata26mc(psip_protonp_mom_mc.c_str(),std::ios_base::in);
707 if ( !inputmomdata26mc ) {
708 cout << " can not open: " << psip_protonp_mom_mc << endl;
709 exit(1);
710 }
711 for(int i=0; i<9; i++) {
712 inputmomdata26>>m_psip_protonp_ptrk_offset[i];
713 inputmomdata26>>m_psip_protonp_ptrk_sigma[i];
714 inputmomdata26mc>>m_psip_mc_protonp_ptrk_offset[i];
715 inputmomdata26mc>>m_psip_mc_protonp_ptrk_sigma[i];
716 }
717
718 //Psip proton- momentum correction
719 std::string psip_protonm_mom = path + "/share/Psip/proton/dedx_protonm.txt";
720 std::string psip_protonm_mom_mc = path + "/share/Psip/proton/dedx_protonm_mc.txt";
721 ifstream inputmomdata27(psip_protonm_mom.c_str(),std::ios_base::in);
722 if ( !inputmomdata27 ) {
723 cout << " can not open: " << psip_protonm_mom << endl;
724 exit(1);
725 }
726 ifstream inputmomdata27mc(psip_protonm_mom_mc.c_str(),std::ios_base::in);
727 if ( !inputmomdata27mc ) {
728 cout << " can not open: " << psip_protonm_mom_mc << endl;
729 exit(1);
730 }
731 for(int i=0; i<9; i++) {
732 inputmomdata27>>m_psip_protonm_ptrk_offset[i];
733 inputmomdata27>>m_psip_protonm_ptrk_sigma[i];
734 inputmomdata27mc>>m_psip_mc_protonm_ptrk_offset[i];
735 inputmomdata27mc>>m_psip_mc_protonm_ptrk_sigma[i];
736 }
737
738 //Psipp pi momentum correction
739 std::string psipp_pi_mom = path + "/share/Psipp/pion/dedx_pi.txt";
740 std::string psipp_pi_mom_mc = path + "/share/Psipp/pion/dedx_pi_mc.txt";
741 ifstream inputmomdata28(psipp_pi_mom.c_str(),std::ios_base::in);
742 if ( !inputmomdata28 ) {
743 cout << " can not open: " << psipp_pi_mom << endl;
744 exit(1);
745 }
746 ifstream inputmomdata28mc(psipp_pi_mom_mc.c_str(),std::ios_base::in);
747 if ( !inputmomdata28mc ) {
748 cout << " can not open: " << psipp_pi_mom_mc << endl;
749 exit(1);
750 }
751 for(int i=0; i<18; i++) {
752 inputmomdata28>>m_psipp_pi_ptrk_offset[i];
753 inputmomdata28>>m_psipp_pi_ptrk_sigma[i];
754 inputmomdata28mc>>m_psipp_mc_pi_ptrk_offset[i];
755 inputmomdata28mc>>m_psipp_mc_pi_ptrk_sigma[i];
756 }
757
758 //Psipp pi theta correction
759 std::string psipp_pi_the = path + "/share/Psipp/pion/dedx_pi_theta.txt";
760 std::string psipp_pi_the_mc = path + "/share/Psipp/pion/dedx_pi_theta_mc.txt";
761 ifstream inputmomdata29(psipp_pi_the.c_str(),std::ios_base::in);
762 if ( !inputmomdata29 ) {
763 cout << " can not open: " << psipp_pi_the << endl;
764 exit(1);
765 }
766 ifstream inputmomdata29mc(psipp_pi_the_mc.c_str(),std::ios_base::in);
767 if ( !inputmomdata29mc ) {
768 cout << " can not open: " << psipp_pi_the_mc << endl;
769 exit(1);
770 }
771 for(int i=0; i<16; i++) {
772 inputmomdata29>>m_psipp_pi_theta_offset[i];
773 inputmomdata29>>m_psipp_pi_theta_sigma[i];
774 inputmomdata29mc>>m_psipp_mc_pi_theta_offset[i];
775 inputmomdata29mc>>m_psipp_mc_pi_theta_sigma[i];
776 }
777
778 //Psipp ka momentum correction
779 std::string psipp_ka_mom = path + "/share/Psipp/kaon/dedx_ka.txt";
780 std::string psipp_ka_mom_mc = path + "/share/Psipp/kaon/dedx_ka_mc.txt";
781 ifstream inputmomdata30(psipp_ka_mom.c_str(),std::ios_base::in);
782 if ( !inputmomdata30 ) {
783 cout << " can not open: " << psipp_ka_mom << endl;
784 exit(1);
785 }
786 ifstream inputmomdata30mc(psipp_ka_mom_mc.c_str(),std::ios_base::in);
787 if ( !inputmomdata30mc ) {
788 cout << " can not open: " << psipp_ka_mom_mc << endl;
789 exit(1);
790 }
791 for(int i=0; i<17; i++) {
792 inputmomdata30>>m_psipp_ka_ptrk_offset[i];
793 inputmomdata30>>m_psipp_ka_ptrk_sigma[i];
794 inputmomdata30mc>>m_psipp_mc_ka_ptrk_offset[i];
795 inputmomdata30mc>>m_psipp_mc_ka_ptrk_sigma[i];
796 }
797
798 //Psipp ka theta correction
799 std::string psipp_ka_the = path + "/share/Psipp/kaon/dedx_ka_theta.txt";
800 std::string psipp_ka_the_mc = path + "/share/Psipp/kaon/dedx_ka_theta_mc.txt";
801 ifstream inputmomdata31(psipp_ka_the.c_str(),std::ios_base::in);
802 if ( !inputmomdata31 ) {
803 cout << " can not open: " << psipp_ka_the << endl;
804 exit(1);
805 }
806 ifstream inputmomdata31mc(psipp_ka_the_mc.c_str(),std::ios_base::in);
807 if ( !inputmomdata31mc ) {
808 cout << " can not open: " << psipp_ka_the_mc << endl;
809 exit(1);
810 }
811 for(int i=0; i<16; i++) {
812 inputmomdata31>>m_psipp_ka_theta_offset[i];
813 inputmomdata31>>m_psipp_ka_theta_sigma[i];
814 inputmomdata31mc>>m_psipp_mc_ka_theta_offset[i];
815 inputmomdata31mc>>m_psipp_mc_ka_theta_sigma[i];
816 }
817
818
819 //Psipp proton momentum correction
820 std::string psipp_proton_mom = path + "/share/Psipp/proton/dedx_proton.txt";
821 std::string psipp_proton_mom_mc = path + "/share/Psipp/proton/dedx_proton_mc.txt";
822 ifstream inputmomdata32(psipp_proton_mom.c_str(),std::ios_base::in);
823 if ( !inputmomdata32 ) {
824 cout << " can not open: " << psipp_proton_mom << endl;
825 exit(1);
826 }
827 ifstream inputmomdata32mc(psipp_proton_mom_mc.c_str(),std::ios_base::in);
828 if ( !inputmomdata32mc ) {
829 cout << " can not open: " << psipp_proton_mom_mc << endl;
830 exit(1);
831 }
832 for(int i=0; i<18; i++) {
833 inputmomdata32>>m_psipp_proton_ptrk_offset[i];
834 inputmomdata32>>m_psipp_proton_ptrk_sigma[i];
835 }
836 for(int i=0; i<9; i++) {
837 inputmomdata32mc>>m_psipp_mc_proton_ptrk_offset[i];
838 inputmomdata32mc>>m_psipp_mc_proton_ptrk_sigma[i];
839 }
840
841 //Psipp proton theta correction
842 std::string psipp_proton_the = path + "/share/Psipp/proton/dedx_proton_theta.txt";
843 std::string psipp_proton_the_mc = path + "/share/Psipp/proton/dedx_proton_theta_mc.txt";
844 ifstream inputmomdata33(psipp_proton_the.c_str(),std::ios_base::in);
845 if ( !inputmomdata33 ) {
846 cout << " can not open: " << psipp_proton_the << endl;
847 exit(1);
848 }
849 ifstream inputmomdata33mc(psipp_proton_the_mc.c_str(),std::ios_base::in);
850 if ( !inputmomdata33mc ) {
851 cout << " can not open: " << psipp_proton_the_mc << endl;
852 exit(1);
853 }
854 for(int i=0; i<18; i++) {
855 inputmomdata33>>m_psipp_proton_theta_offset[i];
856 inputmomdata33>>m_psipp_proton_theta_sigma[i];
857 inputmomdata33mc>>m_psipp_mc_proton_theta_offset[i];
858 inputmomdata33mc>>m_psipp_mc_proton_theta_sigma[i];
859 }
860
861}
static std::string path
std::ifstream ifstream
Definition: bpkt_streams.h:44

Referenced by calculate().

◆ instance()

DedxPID * DedxPID::instance ( )
static

Definition at line 16 of file DedxPID.cxx.

16 {
17 if(!m_pointer) m_pointer = new DedxPID();
18 return m_pointer;
19}

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 863 of file DedxPID.cxx.

863 {
864 double p1,p2,p3;
865 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]));
866 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]));
867 p1=mean[0]-p2*p[0]-p3*p[0]*p[0];
868 double mean1 = p1+p2*ptrk+p3*ptrk*ptrk;
869 return mean1;
870}

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 475 of file DedxPID.cxx.

476{
477 double y = x;
478 return par0 + (par1 * y) +(par2 * y * y) + (par3 * y * y * y);
479
480}
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 482 of file DedxPID.cxx.

483{
484 double y = x;
485 return par0 + (par1 * y) +(par2 * y * y) + (par3 * y * y * y) + (par4 * y * y * y *y)+ (par5 * y * y * y * y * y);
486
487}

◆ 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 124 of file DedxPID.cxx.

124 {
125 return 0;
126}

Referenced by particleIDCalculation().

◆ particleIDCalculation()

int DedxPID::particleIDCalculation ( )
protectedvirtual

Implements ParticleIDBase.

Definition at line 50 of file DedxPID.cxx.

50 {
51 // int rundedx2 = getRunNo();
52 int nhitcutdedx=getNhitCutDx();
53 int irc = -1;
54 EvtRecTrack* recTrk = PidTrk();
55 if(!(recTrk->isMdcTrackValid())) return irc;
56 RecMdcTrack* mdcTrk = recTrk->mdcTrack();
57
58 double ptrk = mdcTrk->p();
59 int charge = mdcTrk->charge();
60 if(ptrk>5) return irc;
61 double cost = cos(mdcTrk->theta());
62 // double sig_the= sin(mdcTrk->theta());
63
64 if(!(recTrk->isMdcDedxValid())) return irc;
65 RecMdcDedx* dedxTrk = recTrk->mdcDedx();
66
67 if((dedxTrk->normPH()>30)||(dedxTrk->normPH()<0)) return irc;
68 m_goodHits = dedxTrk->numGoodHits();
69 if(dedxTrk->numGoodHits()<nhitcutdedx) return irc;
70 m_normPH = dedxTrk->normPH();
71 m_probPH = dedxTrk->probPH();
72 // calculate chi and min chi
73 double chitemp = 99.;
74 double pdftemp = 0;
75 // double testchi[5];
76 // double testptrk[5];
77 // double testcost[5];
78 for(int i = 0; i < 5; i++) {
79 double sep = dedxTrk->chi(i);
80
81#ifndef BEAN
82 string sftver = getenv("BES_RELEASE");
83 string sft;
84 sft.assign(sftver,0,5);
85 if(sft=="6.6.0"||sft=="6.5.5") {
86 m_chi[i] = CorrDedx(i,ptrk,cost,sep,charge);
87 }
88 else
89 m_chi[i]=sep;
90#else
91 // It will work for version > "6.5.5"
92 m_chi[i] = CorrDedx(i,ptrk,cost,sep,charge);
93#endif
94
95 m_offset[i] = offsetDedx(i, ptrk, cost);
96 m_sigma[i] = sigmaDedx(i, ptrk, cost);
97 if(fabs(m_chi[i]) < chitemp) chitemp = fabs(m_chi[i]);
98 double ppp = pdfCalculate(m_chi[i],1);
99 if(fabs(ppp) > pdftemp) pdftemp = fabs(ppp);
100
101 }
102 m_chimin = chitemp;
103 m_pdfmin = pdftemp;
104 if(m_chimin > chiMinCut()) return irc;
105 if(pdftemp < pdfCalculate(pdfMinSigmaCut(),1)) return irc;
106
107
108 // calculate prob
109
110 for(int i = 0; i < 5; i++)
111 m_prob[i] = probCalculate(m_chi[i]*m_chi[i], 1);
112
113 m_ndof = 1;
114 irc = 0;
115 return irc;
116}
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:128
double sigmaDedx(int n, double ptrk, double cost)
Definition: DedxPID.cxx:424
double offsetDedx(int n, double ptrk, double cost)
Definition: DedxPID.cxx:124
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:45
RecMdcDedx * mdcDedx()
Definition: EvtRecTrack.h:55
bool isMdcTrackValid()
Definition: EvtRecTrack.h:43
RecMdcTrack * mdcTrack()
Definition: EvtRecTrack.h:53
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 424 of file DedxPID.cxx.

424 {
425
426 /* int rundedx3 = getRunNo();
427 double sigma = 1.0;
428 double sigp = 1.0;
429 double sigmac = 1.0;
430 double gb = ptrk/xmass(n);
431 switch(n) {
432
433 case 0: {// Electron
434 double ptemp = ptrk;
435 double costm = cost;
436 break;
437 }
438
439 case 1: {// Muon
440 double ptemp = ptrk;
441 double costm = cost;
442 break;
443 }
444
445 case 2: {// Pion
446 double ptemp = ptrk;
447 double costm = cost;
448 break;
449 }
450
451 case 3: { // Kaon
452 double ptemp = ptrk;
453 double costm = cost;
454 break;
455 }
456
457
458 case 4: {// Proton
459 double ptemp = ptrk;
460 double costm = cost;
461 break;
462 }
463
464 default:
465 sigma = 1.0;
466 break;
467 }
468 */
469 // sigma = 1.2;
470 // sigma =1.0;
471 return 1;
472 // return sigma;
473}

Referenced by particleIDCalculation().


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