#include "METOOLS/Explicit/Lorentz_Calculator.H" #include "METOOLS/Currents/C_Scalar.H" #include "METOOLS/Currents/C_Spinor.H" #include "METOOLS/Currents/C_Vector.H" #include "METOOLS/Explicit/Vertex.H" #include "MODEL/Main/Single_Vertex.H" #include "ATOOLS/Org/Message.H" #include "ATOOLS/Org/Exception.H" #include "ATOOLS/Math/MyComplex.H" namespace METOOLS { template class VVVV2_Calculator: public Lorentz_Calculator { public: typedef std::complex SComplex; const SComplex I = SComplex(0.0,1.0); VVVV2_Calculator(const Vertex_Key &key): Lorentz_Calculator(key) {} std::string Label() const { return "VVVV2"; } CObject *Evaluate(const CObject_Vector &jj) { // if outgoing index is 0 if (p_v->V()->id.back()==0){ const CVec4 & j1 = *(jj[0]->Get< CVec4 >()); const SComplex & j10 = j1[0]; const SComplex & j11 = j1[ATOOLS::Spinor::R1()]; const SComplex & j12 = j1[ATOOLS::Spinor::R2()]; const SComplex & j13 = j1[ATOOLS::Spinor::R3()]; const CVec4 & j2 = *(jj[1]->Get< CVec4 >()); const SComplex & j20 = j2[0]; const SComplex & j21 = j2[ATOOLS::Spinor::R1()]; const SComplex & j22 = j2[ATOOLS::Spinor::R2()]; const SComplex & j23 = j2[ATOOLS::Spinor::R3()]; const CVec4 & j3 = *(jj[2]->Get< CVec4 >()); const SComplex & j30 = j3[0]; const SComplex & j31 = j3[ATOOLS::Spinor::R1()]; const SComplex & j32 = j3[ATOOLS::Spinor::R2()]; const SComplex & j33 = j3[ATOOLS::Spinor::R3()]; CVec4* j0 = NULL; j0 = CVec4::New(); (*j0)[0] = 1.0*j10*j20*j30 - 1.0*j11*j21*j30 - 1.0*j12*j22*j30 - 1.0*j13*j23*j30; (*j0)[ATOOLS::Spinor::R1()] = 1.0*j10*j20*j31 - 1.0*j11*j21*j31 - 1.0*j12*j22*j31 - 1.0*j13*j23*j31; (*j0)[ATOOLS::Spinor::R2()] = 1.0*j10*j20*j32 - 1.0*j11*j21*j32 - 1.0*j12*j22*j32 - 1.0*j13*j23*j32; (*j0)[ATOOLS::Spinor::R3()] = 1.0*j10*j20*j33 - 1.0*j11*j21*j33 - 1.0*j12*j22*j33 - 1.0*j13*j23*j33; j0->SetS(j1.S()|j2.S()|j3.S()); return j0; } // if outgoing index is 1 if (p_v->V()->id.back()==1){ const CVec4 & j0 = *(jj[2]->Get< CVec4 >()); const SComplex & j00 = j0[0]; const SComplex & j01 = j0[ATOOLS::Spinor::R1()]; const SComplex & j02 = j0[ATOOLS::Spinor::R2()]; const SComplex & j03 = j0[ATOOLS::Spinor::R3()]; const CVec4 & j2 = *(jj[0]->Get< CVec4 >()); const SComplex & j20 = j2[0]; const SComplex & j21 = j2[ATOOLS::Spinor::R1()]; const SComplex & j22 = j2[ATOOLS::Spinor::R2()]; const SComplex & j23 = j2[ATOOLS::Spinor::R3()]; const CVec4 & j3 = *(jj[1]->Get< CVec4 >()); const SComplex & j30 = j3[0]; const SComplex & j31 = j3[ATOOLS::Spinor::R1()]; const SComplex & j32 = j3[ATOOLS::Spinor::R2()]; const SComplex & j33 = j3[ATOOLS::Spinor::R3()]; CVec4* j1 = NULL; j1 = CVec4::New(); (*j1)[0] = 1.0*j00*j20*j30 - 1.0*j01*j20*j31 - 1.0*j02*j20*j32 - 1.0*j03*j20*j33; (*j1)[ATOOLS::Spinor::R1()] = 1.0*j00*j21*j30 - 1.0*j01*j21*j31 - 1.0*j02*j21*j32 - 1.0*j03*j21*j33; (*j1)[ATOOLS::Spinor::R2()] = 1.0*j00*j22*j30 - 1.0*j01*j22*j31 - 1.0*j02*j22*j32 - 1.0*j03*j22*j33; (*j1)[ATOOLS::Spinor::R3()] = 1.0*j00*j23*j30 - 1.0*j01*j23*j31 - 1.0*j02*j23*j32 - 1.0*j03*j23*j33; j1->SetS(j0.S()|j2.S()|j3.S()); return j1; } // if outgoing index is 2 if (p_v->V()->id.back()==2){ const CVec4 & j0 = *(jj[1]->Get< CVec4 >()); const SComplex & j00 = j0[0]; const SComplex & j01 = j0[ATOOLS::Spinor::R1()]; const SComplex & j02 = j0[ATOOLS::Spinor::R2()]; const SComplex & j03 = j0[ATOOLS::Spinor::R3()]; const CVec4 & j1 = *(jj[2]->Get< CVec4 >()); const SComplex & j10 = j1[0]; const SComplex & j11 = j1[ATOOLS::Spinor::R1()]; const SComplex & j12 = j1[ATOOLS::Spinor::R2()]; const SComplex & j13 = j1[ATOOLS::Spinor::R3()]; const CVec4 & j3 = *(jj[0]->Get< CVec4 >()); const SComplex & j30 = j3[0]; const SComplex & j31 = j3[ATOOLS::Spinor::R1()]; const SComplex & j32 = j3[ATOOLS::Spinor::R2()]; const SComplex & j33 = j3[ATOOLS::Spinor::R3()]; CVec4* j2 = NULL; j2 = CVec4::New(); (*j2)[0] = 1.0*j00*j10*j30 - 1.0*j01*j10*j31 - 1.0*j02*j10*j32 - 1.0*j03*j10*j33; (*j2)[ATOOLS::Spinor::R1()] = 1.0*j00*j11*j30 - 1.0*j01*j11*j31 - 1.0*j02*j11*j32 - 1.0*j03*j11*j33; (*j2)[ATOOLS::Spinor::R2()] = 1.0*j00*j12*j30 - 1.0*j01*j12*j31 - 1.0*j02*j12*j32 - 1.0*j03*j12*j33; (*j2)[ATOOLS::Spinor::R3()] = 1.0*j00*j13*j30 - 1.0*j01*j13*j31 - 1.0*j02*j13*j32 - 1.0*j03*j13*j33; j2->SetS(j0.S()|j1.S()|j3.S()); return j2; } // if outgoing index is 3 if (p_v->V()->id.back()==3){ const CVec4 & j0 = *(jj[0]->Get< CVec4 >()); const SComplex & j00 = j0[0]; const SComplex & j01 = j0[ATOOLS::Spinor::R1()]; const SComplex & j02 = j0[ATOOLS::Spinor::R2()]; const SComplex & j03 = j0[ATOOLS::Spinor::R3()]; const CVec4 & j1 = *(jj[1]->Get< CVec4 >()); const SComplex & j10 = j1[0]; const SComplex & j11 = j1[ATOOLS::Spinor::R1()]; const SComplex & j12 = j1[ATOOLS::Spinor::R2()]; const SComplex & j13 = j1[ATOOLS::Spinor::R3()]; const CVec4 & j2 = *(jj[2]->Get< CVec4 >()); const SComplex & j20 = j2[0]; const SComplex & j21 = j2[ATOOLS::Spinor::R1()]; const SComplex & j22 = j2[ATOOLS::Spinor::R2()]; const SComplex & j23 = j2[ATOOLS::Spinor::R3()]; CVec4* j3 = NULL; j3 = CVec4::New(); (*j3)[0] = 1.0*j00*j10*j20 - 1.0*j00*j11*j21 - 1.0*j00*j12*j22 - 1.0*j00*j13*j23; (*j3)[ATOOLS::Spinor::R1()] = 1.0*j01*j10*j20 - 1.0*j01*j11*j21 - 1.0*j01*j12*j22 - 1.0*j01*j13*j23; (*j3)[ATOOLS::Spinor::R2()] = 1.0*j02*j10*j20 - 1.0*j02*j11*j21 - 1.0*j02*j12*j22 - 1.0*j02*j13*j23; (*j3)[ATOOLS::Spinor::R3()] = 1.0*j03*j10*j20 - 1.0*j03*j11*j21 - 1.0*j03*j12*j22 - 1.0*j03*j13*j23; j3->SetS(j0.S()|j1.S()|j2.S()); return j3; } THROW(fatal_error, "Internal error in Lorentz calculator"); return NULL; } };// end of class VVVV2_Calculator template class VVVV2_Calculator; }// end of namespace METOOLS using namespace METOOLS; DECLARE_GETTER(VVVV2_Calculator,"DVVVV2", Lorentz_Calculator,Vertex_Key); Lorentz_Calculator *ATOOLS::Getter >:: operator()(const Vertex_Key &key) const { return new VVVV2_Calculator(key); } void ATOOLS::Getter >:: PrintInfo(std::ostream &str,const size_t width) const { str<<"VVVV2 vertex"; }