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Please see the license in the file LICENSE and URL above * // * for the full disclaimer and the limitation of liability. * // * * // * This code implementation is the result of the scientific and * // * technical work of the GEANT4 collaboration. * // * By using, copying, modifying or distributing the software (or * // * any work based on the software) you agree to acknowledge its * // * use in resulting scientific publications, and indicate your * // * acceptance of all terms of the Geant4 Software license. * // ******************************************************************** // // // $Id: G4QContent.hh,v 1.31 2009-07-24 16:37:03 mkossov Exp $ // GEANT4 tag $Name: not supported by cvs2svn $ // // ---------------- G4QContent ---------------- // by Mikhail Kossov, Sept 1999. // class header for Quasmon initiated Contents used by the CHIPS Model // ---------------------------------------------------------------------- // Short description: This is the basic class of the CHIPS model. It // describes the quark content of the Quasmon, which is a generalized // hadronic state. All Quasmons are bags, characterized by the quark // Content (QContent), but the spin is not fixed and only light (u,d,s) // quarks are considered (SU(3)). The hadrons are the ground states for // the corresponding quasmons. The Chipolino (G4QChipolino) or nuclear // cluster are examples for another Quark Content. // -------------------------------------------------------------------- // @@ In future total spin & c,b,t of the Hadron can be added @@ M.K.@@ // -------------------------------------------------------------------- #ifndef G4QContent_h #define G4QContent_h 1 #include #include "globals.hh" #include "Randomize.hh" #include "G4QException.hh" class G4QContent { public: G4QContent(G4int d=0, G4int u=0, G4int s=0, G4int ad=0, G4int au=0, G4int as=0); G4QContent(std::pair PP); // Create HadronQC from two partons G4QContent(const G4QContent& rhs); // Copy constructor by value G4QContent(G4QContent* rhs); // Copy constructor by pointer ~G4QContent(); // Public Destructor // Overloaded operators const G4QContent& operator=(const G4QContent& rhs); G4bool operator==(const G4QContent& rhs) const; G4bool operator!=(const G4QContent& rhs) const; G4QContent operator+=(G4QContent& rhs); G4QContent operator-=(G4QContent& rhs); G4QContent operator*=(G4int& rhs); G4QContent operator+=(const G4QContent& rhs); G4QContent operator-=(const G4QContent& rhs); G4QContent operator*=(const G4int& rhs); // Selectors G4int GetCharge() const; G4int GetBaryonNumber() const; G4int GetStrangeness() const; G4int GetSPDGCode() const; G4int GetZNSPDGCode() const; G4int NOfCombinations(const G4QContent& rhs) const;//@@ can be an "operator/" G4int GetQ() const; G4int GetAQ() const; G4int GetTot() const; G4bool CheckNegative() const; G4int GetP() const; // A#of protons G4int GetN() const; // A#of neutrons G4int GetL() const; // A#of lambdas G4int GetAP() const; // A#of anti-protons G4int GetAN() const; // A#of anti-neutrons G4int GetAL() const; // A#of anti-lambdas G4int GetD() const; // A#of d-quarks G4int GetU() const; // A#of u-quarks G4int GetS() const; // A#of s-quarks G4int GetAD() const; // A#of anti-d-quarks G4int GetAU() const; // A#of anti-u-quarks G4int GetAS() const; // A#of anti-s-quarks G4int GetNetD() const; // A net#of d-quarks G4int GetNetU() const; // A net#of u-quarks G4int GetNetS() const; // A net#of s-quarks G4int GetNetAD() const; // A net#of anti-d-quarks G4int GetNetAU() const; // A net#of anti-u-quarks G4int GetNetAS() const; // A net#of anti-s-quarks G4int GetDD() const; // A#of dd-di-quarks G4int GetUU() const; // A#of uu-di-quarks G4int GetSS() const; // A#of ss-di-quarks G4int GetUD() const; // A#of ud-di-quarks G4int GetDS() const; // A#of ds-di-quarks G4int GetUS() const; // A#of us-di-quarks G4int GetADAD() const; // A#of anti-dd-di-quarks G4int GetAUAU() const; // A#of anti-uu-di-quarks G4int GetASAS() const; // A#of anti-ss-di-quarks G4int GetAUAD() const; // A#of anti-ud-di-quarks G4int GetADAS() const; // A#of anti-ds-di-quarks G4int GetAUAS() const; // A#of anti-us-di-quarks std::pair MakePartonPair() const;// Make PDG's of PartonPairs for Mes&Baryon G4int AddParton(G4int pPDG) const; // Add parton with pPDG to the hadron with this QC // Modifiers void Anti(); G4QContent IndQ (G4int ind=0); G4QContent IndAQ(G4int ind=0); G4QContent SplitChipo(G4double mQ); G4bool SubtractHadron(G4QContent h); G4bool SubtractPi0(); G4bool SubtractPion(); G4bool SubtractKaon(G4double mQ); void SetD (G4int n=0); void SetU (G4int n=0); void SetS (G4int n=0); void SetAD(G4int n=0); void SetAU(G4int n=0); void SetAS(G4int n=0); void IncD (G4int n=1); void IncU (G4int n=1); void IncS (G4int n=1); void IncAD(G4int n=1); void IncAU(G4int n=1); void IncAS(G4int n=1); void IncQAQ(const G4int& nQAQ=1, const G4double& sProb = 1.); void DecD (G4int n=1); void DecU (G4int n=1); void DecS (G4int n=1); void DecAD(G4int n=1); void DecAU(G4int n=1); void DecAS(G4int n=1); G4int DecQAQ(const G4int& nQAQ=1); private: G4QContent GetThis() const; // Body private: // C S G4int nD; // a#of d-quarks (-1/3)( 0) G4int nU; // a#of u-quarks (+2/3)( 0) G4int nS; // a#of s-quarks (-1/3)(+1) G4int nAD; // a#of anti-d-quarks (+1/3)( 0) G4int nAU; // a#of anti-u-quarks (-2/3)( 0) G4int nAS; // a#of anti-s-quarks (+1/3)(-1) }; // Not member operators std::ostream& operator<<(std::ostream& lhs, G4QContent& rhs); std::ostream& operator<<(std::ostream& lhs, const G4QContent& rhs); G4QContent operator+(const G4QContent& lhs, const G4QContent& rhs); G4QContent operator-(const G4QContent& lhs, const G4QContent& rhs); G4QContent operator*(const G4QContent& lhs, const G4int& rhs); G4QContent operator*(const G4int& lhs, const G4QContent& rhs); //G4int operator/(const G4QContent& lhs, const G4QContent& rhs); // Combinations // Not member functions //---------------------------------------------------------------------------------------- inline G4bool G4QContent::operator==(const G4QContent& rhs) const {return this==&rhs;} inline G4bool G4QContent::operator!=(const G4QContent& rhs) const {return this!=&rhs;} inline G4int G4QContent::GetQ() const {return nU+nD+nS;} inline G4int G4QContent::GetAQ() const {return nAU+nAD+nAS;} inline G4int G4QContent::GetTot() const {return nU+nD+nS+nAU+nAD+nAS;} inline G4int G4QContent::GetStrangeness() const {return nS-nAS;} // @@ Temporary for tests inline G4bool G4QContent::CheckNegative() const {return nU<0||nD<0||nS<0||nAU<0||nAD<0||nAS<0;} inline G4int G4QContent::GetU() const{return nU;} inline G4int G4QContent::GetD() const{return nD;} inline G4int G4QContent::GetS() const{return nS;} inline G4int G4QContent::GetAU() const{return nAU;} inline G4int G4QContent::GetAD() const{return nAD;} inline G4int G4QContent::GetAS() const{return nAS;} inline G4int G4QContent::GetNetU() const{return nU-nAU;} inline G4int G4QContent::GetNetD() const{return nD-nAD;} inline G4int G4QContent::GetNetS() const{return nS-nAS;} inline G4int G4QContent::GetNetAU() const{return nAU-nU;} inline G4int G4QContent::GetNetAD() const{return nAD-nD;} inline G4int G4QContent::GetNetAS() const{return nAS-nS;} inline G4int G4QContent::GetUU() const{return nU*(nU-1)/2;} inline G4int G4QContent::GetDD() const{return nD*(nD-1)/2;} inline G4int G4QContent::GetSS() const{return nS*(nS-1)/2;} inline G4int G4QContent::GetUD() const{return nU*nD;} inline G4int G4QContent::GetUS() const{return nU*nS;} inline G4int G4QContent::GetDS() const{return nD*nS;} inline G4int G4QContent::GetAUAU() const{return nAU*(nAU-1)/2;} inline G4int G4QContent::GetADAD() const{return nAD*(nAD-1)/2;} inline G4int G4QContent::GetASAS() const{return nAS*(nAS-1)/2;} inline G4int G4QContent::GetAUAD() const{return nAU*nAD;} inline G4int G4QContent::GetAUAS() const{return nAU*nAS;} inline G4int G4QContent::GetADAS() const{return nAD*nAS;} // Convert particle to anti-particle inline G4int G4QContent::GetZNSPDGCode() const { G4int kD=nD-nAD; // A net # of d quarks G4int kU=nU-nAU; // A net # of u quarks G4int kS=nS-nAS; // A net # of s quarks // if(kD>=0&&kU>=0&&kS>=0&&kD+kU+kS>0) // => "Normal nucleus" case //{ // G4int b=(kU+kD-kS-kS)/3; // G4int d=kU-kD; // G4int n=(b-d)/2; // return 90000000+1000*(1000*kS+n+d)+n; //} //else if(kD<=0&&kU<=0&&kS<=0&&kD+kU+kS<0) // => "Normal anti-nucleus" case //{ // G4int b=(kS+kS-kD-kU)/3; // G4int d=kD-kU; // G4int n=(b-d)/2; // return -90000000-1000*(1000*kS+n+d)-n; // @@ double notation for anti-nuclei //} //else //{ G4int b=(kU+kD-kS-kS)/3; // Baryon number-n*{LAMBDA=kS) if(!b && !kS) return GetSPDGCode(); // Not a nucleus G4int d=kU-kD; // Isotopic shift G4int n=(b-d)/2; // A#of neutrons return 90000000+1000*(1000*kS+n+d)+n; //} //return 0; } // Convert particle to anti-particle inline void G4QContent::Anti() { G4int r=nD; nD = nAD; nAD= r; r = nU; nU = nAU; nAU= r; r = nS; nS = nAS; nAS= r; } // Add Quark Content inline G4QContent G4QContent::operator+=(const G4QContent& rhs) { nD += rhs.nD; nU += rhs.nU; nS += rhs.nS; nAD+= rhs.nAD; nAU+= rhs.nAU; nAS+= rhs.nAS; return *this; } // Add Quark Content inline G4QContent G4QContent::operator+=(G4QContent& rhs) { nD += rhs.nD; nU += rhs.nU; nS += rhs.nS; nAD+= rhs.nAD; nAU+= rhs.nAU; nAS+= rhs.nAS; return *this; } // Multiply Quark Content by integer number inline G4QContent G4QContent::operator*=(const G4int& rhs) { nU *= rhs; nD *= rhs; nS *= rhs; nAU*= rhs; nAD*= rhs; nAS*= rhs; return *this; } // Multiply Quark Content by integer number inline G4QContent G4QContent::operator*=(G4int& rhs) { nU *= rhs; nD *= rhs; nS *= rhs; nAU*= rhs; nAD*= rhs; nAS*= rhs; return *this; } inline void G4QContent::SetU(G4int n) {nU=n;} inline void G4QContent::SetD(G4int n) {nD=n;} inline void G4QContent::SetS(G4int n) {nS=n;} inline void G4QContent::SetAU(G4int n){nAU=n;} inline void G4QContent::SetAD(G4int n){nAD=n;} inline void G4QContent::SetAS(G4int n){nAS=n;} inline void G4QContent::IncU(G4int n) {nU+=n;} inline void G4QContent::IncD(G4int n) {nD+=n;} inline void G4QContent::IncS(G4int n) {nS+=n;} inline void G4QContent::IncAU(G4int n){nAU+=n;} inline void G4QContent::IncAD(G4int n){nAD+=n;} inline void G4QContent::IncAS(G4int n){nAS+=n;} inline void G4QContent::DecU(G4int n) {nU-=n;} inline void G4QContent::DecD(G4int n) {nD-=n;} inline void G4QContent::DecS(G4int n) {nS-=n;} inline void G4QContent::DecAU(G4int n){nAU-=n;} inline void G4QContent::DecAD(G4int n){nAD-=n;} inline void G4QContent::DecAS(G4int n){nAS-=n;} // Private member functions inline G4QContent G4QContent::GetThis()const{return G4QContent(nD,nU,nS,nAD,nAU,nAS);} #endif