Go to the documentation of this file.00001
00002
00003
00004
00005
00006
00007
00008
00009 #include "FastSimulation/Particle/interface/ParticleTable.h"
00010 #include "FastSimulation/Particle/interface/RawParticle.h"
00011
00012 #include <iostream>
00013 #include <iomanip>
00014 #include <cmath>
00015
00016
00017
00018 RawParticle::RawParticle() {
00019 init();
00020 }
00021
00022 RawParticle::RawParticle(const XYZTLorentzVector& p)
00023 : XYZTLorentzVector(p) {
00024 init();
00025 }
00026
00027 RawParticle::RawParticle(const int id,
00028 const XYZTLorentzVector& p)
00029 : XYZTLorentzVector(p) {
00030 this->init();
00031 this->setID(id);
00032 }
00033
00034 RawParticle::RawParticle(const std::string name,
00035 const XYZTLorentzVector& p)
00036 : XYZTLorentzVector(p) {
00037 this->init();
00038 this->setID(name);
00039 }
00040
00041 RawParticle::RawParticle(const XYZTLorentzVector& p,
00042 const XYZTLorentzVector& xStart) :
00043 XYZTLorentzVector(p)
00044 {
00045 init();
00046 myVertex = xStart;
00047 }
00048
00049 RawParticle::RawParticle(double px, double py, double pz, double e) :
00050 XYZTLorentzVector(px,py,pz,e)
00051 {
00052 init();
00053 }
00054
00055 RawParticle::RawParticle(const RawParticle &right) :
00056 XYZTLorentzVector(right.Px(),right.Py(),right.Pz(),right.E())
00057 {
00058 myId = right.myId;
00059 myStatus = right.myStatus;
00060 myUsed = right.myUsed;
00061 myCharge = right.myCharge;
00062 myMass = right.myMass;
00063 myVertex = (right.myVertex);
00064 tab = (right.tab);
00065 myInfo = (right.myInfo);
00066 }
00067
00068 RawParticle::~RawParticle() {
00069
00070 }
00071
00072 RawParticle&
00073 RawParticle::operator = (const RawParticle & right ) {
00074
00075 if (this != &right) {
00076 this->SetXYZT(right.Px(),right.Py(),right.Pz(),right.E());
00077 myId = right.myId;
00078 myStatus = right.myStatus;
00079 myUsed = right.myUsed;
00080 myCharge = right.myCharge;
00081 myMass = right.myMass;
00082 myVertex = right.myVertex;
00083 tab = right.tab;
00084 myInfo = right.myInfo;
00085 }
00086 return *this;
00087 }
00088
00089 void
00090 RawParticle::init() {
00091 myId=0;
00092 myStatus=99;
00093 myUsed=0;
00094 myCharge=0.;
00095 myMass=0.;
00096 tab = ParticleTable::instance();
00097 myInfo=0;
00098 }
00099
00100 void
00101 RawParticle::setID(const int id) {
00102 myId = id;
00103 if ( tab ) {
00104 if ( !myInfo )
00105 myInfo = tab->theTable()->particle(HepPDT::ParticleID(myId));
00106 if ( myInfo ) {
00107 myCharge = myInfo->charge();
00108 myMass = myInfo->mass().value();
00109 }
00110 }
00111 }
00112
00113 void
00114 RawParticle::setID(const std::string name) {
00115 if ( tab ) {
00116 if ( !myInfo ) myInfo = tab->theTable()->particle(name);
00117 if ( myInfo ) {
00118 myId = myInfo->pid();
00119 myCharge = myInfo->charge();
00120 myMass = myInfo->mass().value();
00121 } else {
00122 myId = 0;
00123 }
00124 }
00125 }
00126
00127 void
00128 RawParticle::setStatus(int istat) {
00129 myStatus = istat;
00130 }
00131
00132 void
00133 RawParticle::setMass(float m) {
00134 myMass = m;
00135 }
00136
00137 void
00138 RawParticle::setCharge(float q) {
00139 myCharge = q;
00140 }
00141
00142 void
00143 RawParticle::chargeConjugate() {
00144 myId = -myId;
00145 myCharge = -1*myCharge;
00146 }
00147
00148 void
00149 RawParticle::setT(const double t) {
00150 myVertex.SetE(t);
00151 }
00152
00153 void
00154 RawParticle::rotate(double angle, const XYZVector& raxis) {
00155 Rotation r(raxis,angle);
00156 XYZVector v(r * Vect());
00157 SetXYZT(v.X(),v.Y(),v.Z(),E());
00158 }
00159
00160 void
00161 RawParticle::rotateX(double rphi) {
00162 RotationX r(rphi);
00163 XYZVector v(r * Vect());
00164 SetXYZT(v.X(),v.Y(),v.Z(),E());
00165 }
00166
00167 void
00168 RawParticle::rotateY(double rphi) {
00169 RotationY r(rphi);
00170 XYZVector v(r * Vect());
00171 SetXYZT(v.X(),v.Y(),v.Z(),E());
00172 }
00173
00174 void
00175 RawParticle::rotateZ(double rphi) {
00176 RotationZ r(rphi);
00177 XYZVector v(r * Vect());
00178 SetXYZT(v.X(),v.Y(),v.Z(),E());
00179 }
00180
00181 void
00182 RawParticle::boost(double betax, double betay, double betaz) {
00183 Boost b(betax,betay,betaz);
00184 XYZTLorentzVector p ( b * momentum() );
00185 SetXYZT(p.X(),p.Y(),p.Z(),p.T());
00186 }
00187
00188 std::string RawParticle::PDGname() const {
00189 std::string MyParticleName;
00190 if ( tab && myInfo ) {
00191 MyParticleName = myInfo->name();
00192 } else {
00193 MyParticleName = "unknown ";
00194 }
00195 return (std::string) MyParticleName;}
00196
00197
00198 void
00199 RawParticle::printName() const {
00200 std::string MyParticleName = PDGname();
00201 if (MyParticleName.length() != 0) {
00202 std::cout << MyParticleName;
00203 for(unsigned int k=0;k<9-MyParticleName.length() && k<10; k++)
00204 std::cout << " " ;
00205 } else {
00206 std::cout << "unknown ";
00207 }
00208 }
00209
00210 void
00211 RawParticle::print() const {
00212 printName();
00213 std::cout << std::setw(3) << status();
00214 std::cout.setf(std::ios::fixed, std::ios::floatfield);
00215 std::cout.setf(std::ios::right, std::ios::adjustfield);
00216 std::cout << std::setw(8) << std::setprecision(2) << Px();
00217 std::cout << std::setw(8) << std::setprecision(2) << Py();
00218 std::cout << std::setw(8) << std::setprecision(2) << Pz();
00219 std::cout << std::setw(8) << std::setprecision(2) << E();
00220 std::cout << std::setw(8) << std::setprecision(2) << M();
00221 std::cout << std::setw(8) << std::setprecision(2) << mass();
00222 std::cout << std::setw(8) << std::setprecision(2) << charge();
00223 std::cout << std::setw(8) << std::setprecision(2) << X();
00224 std::cout << std::setw(8) << std::setprecision(2) << Y();
00225 std::cout << std::setw(8) << std::setprecision(2) << Z();
00226 std::cout << std::setw(8) << std::setprecision(2) << T();
00227 std::cout << std::setw(0) << std::endl;
00228 }
00229
00230 std::ostream& operator <<(std::ostream& o , const RawParticle& p) {
00231
00232 o.setf(std::ios::fixed, std::ios::floatfield);
00233 o.setf(std::ios::right, std::ios::adjustfield);
00234
00235
00236 o << std::setw(4) << std::setprecision(2) << p.pid() << " (";
00237 o << std::setw(2) << std::setprecision(2) << p.status() << "): ";
00238 o << std::setw(10) << std::setprecision(4) << p.momentum() << " ";
00239 o << std::setw(10) << std::setprecision(4) << p.vertex();
00240 return o;
00241
00242 }
00243
00244 double
00245 RawParticle::PDGcharge() const {
00246 double q=-99999;
00247 if ( myInfo ) {
00248 q=myInfo->charge();
00249 }
00250 return q;
00251 }
00252
00253 double
00254 RawParticle::PDGmass() const {
00255 double m=-99999;
00256 if ( myInfo ) {
00257 m = myInfo->mass().value();
00258 }
00259 return m;
00260 }
00261
00262 double
00263 RawParticle::PDGcTau() const {
00264 double ct=1E99;
00265 if ( myInfo ) {
00266
00267
00268
00269
00270
00271 double w = myInfo->totalWidth().value();
00272 if ( w != 0. && myId != 1000022 ) {
00273 ct = 6.582119e-25 / w / 10.;
00274 } else {
00275
00276 unsigned amyId = abs(myId);
00277 if ( amyId != 22 &&
00278 amyId != 11 &&
00279 amyId != 10 &&
00280 amyId != 12 &&
00281 amyId != 14 &&
00282 amyId != 1000022 &&
00283 amyId != 1000039 &&
00284 amyId != 2112 &&
00285 amyId != 2212 &&
00286 amyId != 101 &&
00287 amyId != 102 &&
00288 amyId != 103 &&
00289 amyId != 104 ) {
00290 ct = 0.;
00291
00292 }
00293 }
00294 }
00295
00296
00297
00298
00299
00300
00301
00302 return ct;
00303 }
00304
00305 double
00306 RawParticle::et() const {
00307 double mypp, tmpEt=-1.;
00308
00309 mypp = std::sqrt(momentum().mag2());
00310 if ( mypp != 0 ) {
00311 tmpEt = E() * pt() / mypp;
00312 }
00313 return tmpEt;
00314 }