BOSS 6.6.4.p01
BESIII Offline Software System
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EvtRelBreitWignerBarrierFact.cc
Go to the documentation of this file.
1//--------------------------------------------------------------------------
2//
3// Environment:
4// This software is part of the EvtGen package developed jointly
5// for the BaBar and CLEO collaborations. If you use all or part
6// of it, please give an appropriate acknowledgement.
7//
8// Copyright Information: See EvtGen/COPYRIGHT
9// Copyright (C) 1998 Caltech, UCSB
10//
11// Module: EvtLineShape.cc
12//
13// Description: Store particle properties for one particle.
14//
15// Modification history:
16//
17// Lange March 10, 2001 Module created
18// Dvoretskii June 03, 2002 Reimplemented rollMass()
19//
20//------------------------------------------------------------------------
22
24
26
30#include "EvtGenBase/EvtPDL.hh"
35#include <algorithm>
37
38}
39
41}
42
44 EvtAbsLineShape(mass,width,maxRange,sp)
45{ // double mDaug1, double mDaug2, int l) {
46
49 _mass=mass;
50 _width=width;
51 _spin=sp;
52 _blatt=3.0;
53 _maxRange=maxRange;
54 _errorCond=false;
55
56 double maxdelta = 15.0*width;
57
58 if ( maxRange > 0.00001 ) {
59 _massMax=mass+maxdelta;
60 _massMin=mass-maxRange;
61 }
62 else{
63 _massMax=mass+maxdelta;
64 _massMin=mass-15.0*width;
65 }
66
67 _massMax=mass+maxdelta;
68 if ( _massMin< 0. ) _massMin=0.;
69}
70
73{
74 _massMax=x._massMax;
75 _massMin=x._massMin;
76 _blatt=x._blatt;
77 _maxRange=x._maxRange;
78 _includeDecayFact=x._includeDecayFact;
79 _includeBirthFact=x._includeBirthFact;
80 _errorCond=x._errorCond;
81
82}
83
85 _mass=x._mass;
86 _width=x._width;
87 _spin=x._spin;
88 _massMax=x._massMax;
89 _massMin=x._massMin;
90 _blatt=x._blatt;
91 _maxRange=x._maxRange;
92 _includeDecayFact=x._includeDecayFact;
93 _includeBirthFact=x._includeBirthFact;
94 _errorCond=x._errorCond;
95
96 return *this;
97}
98
100
101 return new EvtRelBreitWignerBarrierFact(*this);
102}
103
104
105double EvtRelBreitWignerBarrierFact::getMassProb(double mass, double massPar,int nDaug, double *massDau) {
106
107 _errorCond=false;
108 //return EvtAbsLineShape::getMassProb(mass,massPar,nDaug,massDau);
109 if (nDaug!=2) return EvtAbsLineShape::getMassProb(mass,massPar,nDaug,massDau);
110
111 double dTotMass=0.;
112
113 int i;
114 for (i=0; i<nDaug; i++) {
115 dTotMass+=massDau[i];
116 }
117 //report(INFO,"EvtGen") << mass << " " << massPar << " " << dTotMass << " "<< endl;
118 // if ( (mass-dTotMass)<0.0001 ) return 0.;
119 //report(INFO,"EvtGen") << mass << " " << dTotMass << endl;
120 if ( (mass<dTotMass) ) return 0.;
121
122 if ( _width< 0.0001) return 1.;
123
124 if ( massPar>0.0000000001 ) {
125 if ( mass > massPar) return 0.;
126 }
127
128 if ( _errorCond ) return 0.;
129
130 // we did all the work in getRandMass
131 return 1.;
132}
133
134double EvtRelBreitWignerBarrierFact::getRandMass(EvtId *parId,int nDaug, EvtId *dauId, EvtId *othDaugId, double maxMass, double *dauMasses) {
135 if ( nDaug!=2) {
137 double themass = EvtAbsLineShape::getRandMass(parId,nDaug,dauId,othDaugId,maxMass,dauMasses);
138 return themass;
139 }
140
141 if ( _width< 0.00001) return _mass;
142
143 //first figure out L - take the lowest allowed.
144
147
148 int t1=EvtSpinType::getSpin2(spinD1);
149 int t2=EvtSpinType::getSpin2(spinD2);
151
152 int Lmin=-10;
153
154
155 // the user has overridden the partial wave to use.
156 for ( int vC=0; vC<_userSetPW.size(); vC++) {
157 if ( dauId[0]==_userSetPWD1[vC] && dauId[1]==_userSetPWD2[vC] ) Lmin=2*_userSetPW[vC];
158 if ( dauId[0]==_userSetPWD2[vC] && dauId[1]==_userSetPWD1[vC] ) Lmin=2*_userSetPW[vC];
159 }
160
161 // allow for special cases.
162 if (Lmin<-1 ) {
163
164 //There are some things I don't know how to deal with
165 if ( t3>4) return EvtAbsLineShape::getRandMass(parId,nDaug,dauId,othDaugId,maxMass,dauMasses);
166 if ( t1>4) return EvtAbsLineShape::getRandMass(parId,nDaug,dauId,othDaugId,maxMass,dauMasses);
167 if ( t2>4) return EvtAbsLineShape::getRandMass(parId,nDaug,dauId,othDaugId,maxMass,dauMasses);
168
169 //figure the min and max allowwed "spins" for the daughters state
170 Lmin=std::max(t3-t2-t1,std::max(t2-t3-t1,t1-t3-t2));
171 if (Lmin<0) Lmin=0;
172 assert(Lmin==0||Lmin==2||Lmin==4);
173 }
174
175 //double massD1=EvtPDL::getMeanMass(dauId[0]);
176 //double massD2=EvtPDL::getMeanMass(dauId[1]);
177 double massD1=dauMasses[0];
178 double massD2=dauMasses[1];
179
180 // I'm not sure how to define the vertex factor here - so retreat to nonRel code.
181 if ( (massD1+massD2)> _mass ) return EvtAbsLineShape::getRandMass(parId,nDaug,dauId,othDaugId,maxMass,dauMasses);
182
183 //parent vertex factor not yet implemented
184 double massOthD=-10.;
185 double massParent=-10.;
186 int birthl=-10;
187 if ( othDaugId) {
188 EvtSpinType::spintype spinOth=EvtPDL::getSpinType(*othDaugId);
190
191 int tt1=EvtSpinType::getSpin2(spinOth);
192 int tt2=EvtSpinType::getSpin2(spinPar);
194
195
196 //figure the min and max allowwed "spins" for the daughters state
197 if ( (tt1<=4) && ( tt2<=4) ) {
198 birthl=std::max(tt3-tt2-tt1,std::max(tt2-tt3-tt1,tt1-tt3-tt2));
199 if (birthl<0) birthl=0;
200
201 massOthD=EvtPDL::getMeanMass(*othDaugId);
202 massParent=EvtPDL::getMeanMass(*parId);
203
204 }
205
206
207 // allow user to override
208 for (size_t vC=0; vC<_userSetBirthPW.size(); vC++) {
209 if ( *othDaugId==_userSetBirthOthD[vC] && *parId==_userSetBirthPar[vC]){
210 birthl=2*_userSetBirthPW[vC];
211 }
212 }
213
214 }
215 double massM=_massMax;
216 if ( (maxMass > -0.5) && (maxMass < massM) ) massM=maxMass;
217
218 //special case... if the parent mass is _fixed_ we can do a little better
219 //and only for a two body decay as that seems to be where we have problems
220
221 // Define relativistic propagator amplitude
222
223 EvtTwoBodyVertex vd(massD1,massD2,_mass,Lmin/2);
224 vd.set_f(_blatt);
226 EvtMassAmp amp(bw,vd);
227 if ( _includeDecayFact) {
228 amp.addDeathFact();
229 amp.addDeathFactFF();
230 }
231
232 if(fabs(_addFactorPn) >0.00000001){
233 // std::cout<<"EvtRelBreitWignerBarrierFact "<< _addFactorPn<<std::endl;
235 }
236 if ( massParent>-1.) {
237 if ( _includeBirthFact ) {
238
239 EvtTwoBodyVertex vb(_mass,massOthD,massParent,birthl/2);
240 if ( _applyFixForSP8 ) vb.set_f(_blatt);
241 amp.setBirthVtx(vb);
242 amp.addBirthFact();
243 amp.addBirthFactFF();
244 }
245 }
246
247
248
249 EvtAmpPdf<EvtPoint1D> pdf(amp);
250
251 // Estimate maximum and create predicate for accept reject
252
253
254 double tempMaxLoc=_mass;
255 if ( maxMass>-0.5 && maxMass<_mass) tempMaxLoc=maxMass;
256 double tempMax=_massMax;
257 if ( maxMass>-0.5 && maxMass<_massMax) tempMax=maxMass;
258 double tempMinMass=_massMin;
259 if ( massD1+massD2 > _massMin) tempMinMass=massD1+massD2;
260
261 //redo sanity check - is there a solution to our problem.
262 //if not return an error condition that is caught by the
263 //mass prob calculation above.
264 if ( tempMinMass > tempMax ) {
265 _errorCond=true;
266 return tempMinMass;
267 }
268
269 if ( tempMaxLoc < tempMinMass) tempMaxLoc=tempMinMass;
270
271 double safetyFactor=1.2;
272 if ( _applyFixForSP8 ) safetyFactor=1.4;
273
274 EvtPdfMax<EvtPoint1D> max(safetyFactor*pdf.evaluate(EvtPoint1D(tempMinMass,tempMax,tempMaxLoc)));
275
276 EvtPdfPred<EvtPoint1D> pred(pdf);
277 pred.setMax(max);
278
279 EvtIntervalFlatPdf flat(tempMinMass,tempMax);
280 EvtPdfGen<EvtPoint1D> gen(flat);
282
283 EvtPoint1D point = predgen();
284 return point.value();
285
286}
287
288
289
290
291
292
293
294
295
double mass
Double_t x[10]
std::vector< EvtId > _userSetBirthOthD
EvtSpinType::spintype _spin
virtual double getMassProb(double mass, double massPar, int nDaug, double *massDau)
std::vector< EvtId > _userSetPWD1
std::vector< int > _userSetPW
void addFactorPn(double factor=0.)
virtual double getRandMass(EvtId *parId, int nDaug, EvtId *dauId, EvtId *othDaugId, double maxMass, double *dauMasses)
std::vector< int > _userSetBirthPW
std::vector< EvtId > _userSetPWD2
std::vector< EvtId > _userSetBirthPar
Definition: EvtId.hh:27
void addDeathFactFF()
Definition: EvtMassAmp.hh:49
void setBirthVtx(const EvtTwoBodyVertex &vb)
Definition: EvtMassAmp.hh:41
void addBirthFactFF()
Definition: EvtMassAmp.hh:48
void addBirthFact()
Definition: EvtMassAmp.hh:46
void addFactorPn(double factor)
Definition: EvtMassAmp.hh:51
void addDeathFact()
Definition: EvtMassAmp.hh:47
static double getMeanMass(EvtId i)
Definition: EvtPDL.hh:45
static EvtSpinType::spintype getSpinType(EvtId i)
Definition: EvtPDL.hh:61
void setMax(const EvtPdfMax< T > &max)
Definition: EvtPdf.hh:156
double evaluate(const T &p) const
Definition: EvtPdf.hh:65
double value() const
Definition: EvtPoint1D.hh:29
double getMassProb(double mass, double massPar, int nDaug, double *massDau)
EvtRelBreitWignerBarrierFact & operator=(const EvtRelBreitWignerBarrierFact &x)
double getRandMass(EvtId *parId, int nDaug, EvtId *dauId, EvtId *othDaugId, double maxMass, double *dauMasses)
static int getSpin2(spintype stype)
Definition: EvtSpinType.hh:34
void set_f(double R)