/************************************************************************************* Grid physics library, www.github.com/paboyle/Grid Source file: extras/Hadrons/Modules/Quark.hpp Copyright (C) 2015 Copyright (C) 2016 Author: Antonin Portelli This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. See the full license in the file "LICENSE" in the top level distribution directory *************************************************************************************/ /* END LEGAL */ #ifndef Hadrons_Quark_hpp_ #define Hadrons_Quark_hpp_ #include #include #include BEGIN_HADRONS_NAMESPACE /****************************************************************************** * 5D -> 4D and 4D -> 5D conversions. * ******************************************************************************/ template // Note that 5D object is modified. inline void make_4D(Lattice &in_5d, Lattice &out_4d, int Ls) { axpby_ssp_pminus(in_5d, 0., in_5d, 1., in_5d, 0, 0); axpby_ssp_pplus(in_5d, 1., in_5d, 1., in_5d, 0, Ls-1); ExtractSlice(out_4d, in_5d, 0, 0); } template inline void make_5D(Lattice &in_4d, Lattice &out_5d, int Ls) { out_5d = zero; InsertSlice(in_4d, out_5d, 0, 0); InsertSlice(in_4d, out_5d, Ls-1, 0); axpby_ssp_pplus(out_5d, 0., out_5d, 1., out_5d, 0, 0); axpby_ssp_pminus(out_5d, 0., out_5d, 1., out_5d, Ls-1, Ls-1); } /****************************************************************************** * TQuark * ******************************************************************************/ class QuarkPar: Serializable { public: GRID_SERIALIZABLE_CLASS_MEMBERS(QuarkPar, std::string, source, std::string, solver); }; template class TQuark: public Module { public: FGS_TYPE_ALIASES(FImpl,); public: // constructor TQuark(const std::string name); // destructor virtual ~TQuark(void) = default; // dependencies/products virtual std::vector getInput(void); virtual std::vector getOutput(void); // setup virtual void setup(void); // execution virtual void execute(void); private: unsigned int Ls_; SolverFn *solver_{nullptr}; }; MODULE_REGISTER(Quark, TQuark); /****************************************************************************** * TQuark implementation * ******************************************************************************/ // constructor ///////////////////////////////////////////////////////////////// template TQuark::TQuark(const std::string name) : Module(name) {} // dependencies/products /////////////////////////////////////////////////////// template std::vector TQuark::getInput(void) { std::vector in = {par().source, par().solver}; return in; } template std::vector TQuark::getOutput(void) { std::vector out = {getName(), getName() + "_5d"}; return out; } // setup /////////////////////////////////////////////////////////////////////// template void TQuark::setup(void) { Ls_ = env().getObjectLs(par().solver); env().template registerLattice(getName()); if (Ls_ > 1) { env().template registerLattice(getName() + "_5d", Ls_); } } // execution /////////////////////////////////////////////////////////////////// template void TQuark::execute(void) { LOG(Message) << "Computing quark propagator '" << getName() << "'" << std::endl; FermionField source(env().getGrid(Ls_)), sol(env().getGrid(Ls_)), tmp(env().getGrid()); std::string propName = (Ls_ == 1) ? getName() : (getName() + "_5d"); PropagatorField &prop = *env().template createLattice(propName); PropagatorField &fullSrc = *env().template getObject(par().source); SolverFn &solver = *env().template getObject(par().solver); if (Ls_ > 1) { env().template createLattice(getName()); } LOG(Message) << "Inverting using solver '" << par().solver << "' on source '" << par().source << "'" << std::endl; for (unsigned int s = 0; s < Ns; ++s) for (unsigned int c = 0; c < Nc; ++c) { LOG(Message) << "Inversion for spin= " << s << ", color= " << c << std::endl; // source conversion for 4D sources if (!env().isObject5d(par().source)) { if (Ls_ == 1) { PropToFerm(source, fullSrc, s, c); } else { PropToFerm(tmp, fullSrc, s, c); make_5D(tmp, source, Ls_); } } // source conversion for 5D sources else { if (Ls_ != env().getObjectLs(par().source)) { HADRON_ERROR("Ls mismatch between quark action and source"); } else { PropToFerm(source, fullSrc, s, c); } } sol = zero; solver(sol, source); FermToProp(prop, sol, s, c); // create 4D propagators from 5D one if necessary if (Ls_ > 1) { PropagatorField &p4d = *env().template getObject(getName()); make_4D(sol, tmp, Ls_); FermToProp(p4d, tmp, s, c); } } } END_HADRONS_NAMESPACE #endif // Hadrons_Quark_hpp_