IAP GITLAB

Commit 63d562a0 authored by Ralf Ulrich's avatar Ralf Ulrich

const

parent 831f9b29
......@@ -53,15 +53,15 @@ namespace corsika {
return particle::detail::isHadron[static_cast<CodeIntType>(p)];
}
inline bool constexpr is_em(Code c) {
inline bool constexpr is_em(Code const c) {
return c == Code::Electron || c == Code::Positron || c == Code::Gamma;
}
inline bool constexpr is_muon(Code c) {
inline bool constexpr is_muon(Code const c) {
return c == Code::MuPlus || c == Code::MuMinus;
}
inline bool constexpr is_neutrino(Code c) {
inline bool constexpr is_neutrino(Code const c) {
return c == Code::NuE || c == Code::NuMu || c == Code::NuTau || c == Code::NuEBar ||
c == Code::NuMuBar || c == Code::NuTauBar;
}
......@@ -88,7 +88,7 @@ namespace corsika {
return stream << get_name(code);
}
inline Code convert_from_PDG(PDGCode p) {
inline Code convert_from_PDG(PDGCode const p) {
static_assert(particle::detail::conversionArray.size() % 2 == 1);
// this will fail, for the strange case where the maxPDG is negative...
int constexpr maxPDG{(particle::detail::conversionArray.size() - 1) >> 1};
......
......@@ -48,9 +48,9 @@ namespace corsika {
using PDGCodeType = std::underlying_type<PDGCode>::type;
// forward declarations to be used in GeneratedParticleProperties
int16_t constexpr get_charge_number(Code); //!< electric charge in units of e
ElectricChargeType constexpr get_charge(Code); //!< electric charge
HEPMassType constexpr get_mass(Code); //!< mass
int16_t constexpr get_charge_number(Code const); //!< electric charge in units of e
ElectricChargeType constexpr get_charge(Code const); //!< electric charge
HEPMassType constexpr get_mass(Code const); //!< mass
HEPEnergyType constexpr get_energy_threshold(
Code const); //!< get energy threshold below which the particle is discarded, by
//!< default set to particle mass
......@@ -67,24 +67,24 @@ namespace corsika {
}
//! Particle code according to PDG, "Monte Carlo Particle Numbering Scheme"
PDGCode constexpr get_PDG(Code);
std::string_view constexpr get_name(Code); //!< name of the particle as string
TimeType constexpr get_lifetime(Code); //!< lifetime
PDGCode constexpr get_PDG(Code const);
std::string_view constexpr get_name(Code const); //!< name of the particle as string
TimeType constexpr get_lifetime(Code const); //!< lifetime
//! true iff the particle is a hard-coded nucleus or Code::Nucleus
bool constexpr is_nucleus(Code);
bool constexpr is_hadron(Code); //!< true iff particle is hadron
bool constexpr is_em(Code); //!< true iff particle is electron, positron or gamma
bool constexpr is_muon(Code); //!< true iff particle is mu+ or mu-
bool constexpr is_neutrino(Code); //!< true iff particle is (anti-) neutrino
int constexpr get_nucleus_A(Code); //!< returns A for hard-coded nucleus, otherwise 0
int constexpr get_nucleus_Z(Code); //!< returns Z for hard-coded nucleus, otherwise 0
bool constexpr is_nucleus(Code const);
bool constexpr is_hadron(Code const); //!< true iff particle is hadron
bool constexpr is_em(Code const); //!< true iff particle is electron, positron or gamma
bool constexpr is_muon(Code const); //!< true iff particle is mu+ or mu-
bool constexpr is_neutrino(Code const); //!< true iff particle is (anti-) neutrino
int constexpr get_nucleus_A(Code const); //!< returns A for hard-coded nucleus, otherwise 0
int constexpr get_nucleus_Z(Code const); //!< returns Z for hard-coded nucleus, otherwise 0
//! returns mass of (A,Z) nucleus, disregarding binding energy
HEPMassType get_nucleus_mass(unsigned int const, unsigned int const);
//! convert PDG code to CORSIKA 8 internal code
Code convert_from_PDG(PDGCode);
Code convert_from_PDG(PDGCode const);
std::initializer_list<Code> constexpr get_all_particles();
......
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