double Hadron_Remnant::MinimalEnergy(const ATOOLS::Flavour &flavour)
{
if (!m_initialized) {
if (!flavour.Strong()) {
return p_beam->Beam().HadMass();
}
bool found(false);
kf_code di[3];
if (flavour.IsQuark()) {
short unsigned int j=0;
for (Flavour_Vector::const_iterator flit(m_constit.begin());
flit!=m_constit.end();++flit) {
if (found || flavour!=*flit) di[j++]=flit->Kfcode();
else found=true;
}
}
Flavour difl;
if (!found || flavour.IsGluon()) {
int single=-1;
for (size_t i=0;i<m_constit.size();++i) {
for (size_t j=i+1;j<m_constit.size();++j) {
if (m_constit[i]==m_constit[j]) {
single=j;
break;
}
}
if (single>0) break;
}
Flavour fl(m_constit[single]);
for (short unsigned int j=0, i=0;i<3;i++)
if (i!=single) di[j++]=m_constit[i].Kfcode();
if (di[0]>di[1]) difl=Flavour((kf_code)(di[0]*1000+di[1]*100+1));
else if (di[1]>di[0]) difl=Flavour((kf_code)(di[1]*1000+di[0]*100+1));
else difl=Flavour((kf_code)(di[0]*1100+3));
if (m_constit[single].IsAnti()) difl=difl.Bar();
return difl.Mass()+fl.Mass()+flavour.Bar().Mass();
}
if (di[0]>di[1]) difl=Flavour((kf_code)(di[0]*1000+di[1]*100+1));
else if (di[1]>di[0]) difl=Flavour((kf_code)(di[1]*1000+di[0]*100+1));
else difl=Flavour((kf_code)(di[0]*1100+3));
if (m_constit[0].IsAnti()) difl=difl.Bar();
return difl.Mass();
}
else {
if (flavour.IsQuark()) return flavour.Bar().Mass();
}
return 0.;
}
bool CF_QED::AllowSpec(const ATOOLS::Flavour &fl)
{
if (!fl.Strong() && fl.Mass()>10.0) return false;
if (m_cfl.IntCharge()==0) return fl.Charge();
switch (m_type) {
case cstp::FF:
case cstp::II:
return fl.IntCharge()*m_cfl.IntCharge()<0;
case cstp::FI:
case cstp::IF:
return fl.IntCharge()*m_cfl.IntCharge()>0;
default:
return false;
}
}
bool CF_HV::AllowSpec(const ATOOLS::Flavour &fl)
{
return (fl.Strong()&&fl.Kfcode()>9900000);
}