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331 lines
13 KiB
C++
331 lines
13 KiB
C++
/*************************************************************************************
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Grid physics library, www.github.com/paboyle/Grid
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Source file: Hadrons/Modules/MContraction/Baryon.hpp
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Copyright (C) 2015-2019
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Author: Antonin Portelli <antonin.portelli@me.com>
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Author: Felix Erben <felix.erben@ed.ac.uk>
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 2 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License along
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with this program; if not, write to the Free Software Foundation, Inc.,
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51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
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See the full license in the file "LICENSE" in the top level distribution directory
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*************************************************************************************/
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/* END LEGAL */
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#ifndef Hadrons_MContraction_Baryon_hpp_
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#define Hadrons_MContraction_Baryon_hpp_
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#include <Hadrons/Global.hpp>
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#include <Hadrons/Module.hpp>
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#include <Hadrons/ModuleFactory.hpp>
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#include <Grid/qcd/utils/BaryonUtils.h>
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BEGIN_HADRONS_NAMESPACE
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/******************************************************************************
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* Baryon *
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******************************************************************************/
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BEGIN_MODULE_NAMESPACE(MContraction)
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typedef std::pair<Gamma::Algebra, Gamma::Algebra> GammaAB;
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typedef std::pair<GammaAB, GammaAB> GammaABPair;
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class BaryonPar: Serializable
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{
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public:
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GRID_SERIALIZABLE_CLASS_MEMBERS(BaryonPar,
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std::string, q1,
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std::string, q2,
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std::string, q3,
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std::string, gammas,
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std::string, quarks,
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std::string, prefactors,
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std::string, parity,
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std::string, sink,
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std::string, output);
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};
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template <typename FImpl1, typename FImpl2, typename FImpl3>
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class TBaryon: public Module<BaryonPar>
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{
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public:
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FERM_TYPE_ALIASES(FImpl1, 1);
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FERM_TYPE_ALIASES(FImpl2, 2);
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FERM_TYPE_ALIASES(FImpl3, 3);
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BASIC_TYPE_ALIASES(ScalarImplCR, Scalar);
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SINK_TYPE_ALIASES(Scalar);
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class Metadata: Serializable
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{
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public:
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GRID_SERIALIZABLE_CLASS_MEMBERS(Metadata,
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Gamma::Algebra, gammaA_left,
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Gamma::Algebra, gammaB_left,
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Gamma::Algebra, gammaA_right,
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Gamma::Algebra, gammaB_right,
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std::string, quarks,
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std::string, prefactors,
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int, parity);
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};
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typedef Correlator<Metadata> Result;
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public:
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// constructor
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TBaryon(const std::string name);
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// destructor
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virtual ~TBaryon(void) {};
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// dependency relation
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virtual std::vector<std::string> getInput(void);
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virtual std::vector<std::string> getOutput(void);
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virtual void parseGammaString(std::vector<GammaABPair> &gammaList);
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protected:
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// setup
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virtual void setup(void);
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// execution
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virtual void execute(void);
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// Which gamma algebra was specified
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Gamma::Algebra al;
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};
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MODULE_REGISTER_TMP(Baryon, ARG(TBaryon<FIMPL, FIMPL, FIMPL>), MContraction);
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/******************************************************************************
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* TBaryon implementation *
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******************************************************************************/
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// constructor /////////////////////////////////////////////////////////////////
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template <typename FImpl1, typename FImpl2, typename FImpl3>
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TBaryon<FImpl1, FImpl2, FImpl3>::TBaryon(const std::string name)
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: Module<BaryonPar>(name)
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{}
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// dependencies/products ///////////////////////////////////////////////////////
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template <typename FImpl1, typename FImpl2, typename FImpl3>
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std::vector<std::string> TBaryon<FImpl1, FImpl2, FImpl3>::getInput(void)
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{
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std::vector<std::string> input = {par().q1, par().q2, par().q3, par().sink};
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return input;
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}
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template <typename FImpl1, typename FImpl2, typename FImpl3>
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std::vector<std::string> TBaryon<FImpl1, FImpl2, FImpl3>::getOutput(void)
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{
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std::vector<std::string> out = {};
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return out;
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}
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template <typename FImpl1, typename FImpl2, typename FImpl3>
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void TBaryon<FImpl1, FImpl2,FImpl3>::parseGammaString(std::vector<GammaABPair> &gammaList)
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{
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gammaList.clear();
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std::string gammaString = par().gammas;
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//Shorthands for standard baryon operators
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gammaString = regex_replace(gammaString, std::regex("j12"),"(Identity SigmaXZ)");
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gammaString = regex_replace(gammaString, std::regex("j32X"),"(Identity MinusGammaZGamma5)");
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gammaString = regex_replace(gammaString, std::regex("j32Y"),"(Identity GammaT)");
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gammaString = regex_replace(gammaString, std::regex("j32Z"),"(Identity GammaXGamma5)");
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//Shorthands for less common baryon operators
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gammaString = regex_replace(gammaString, std::regex("j12_alt1"),"(Gamma5 MinusSigmaYT)");
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gammaString = regex_replace(gammaString, std::regex("j12_alt2"),"(Identity GammaYGamma5)");
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//A single gamma matrix
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std::regex rex_g("([0-9a-zA-Z]+)");
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//The full string we expect
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std::regex rex("( *\\(( *\\(([0-9a-zA-Z]+) +([0-9a-zA-Z]+) *\\)){2} *\\) *)+");
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std::smatch sm;
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std::regex_match(gammaString, sm, rex);
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assert(sm[0].matched && "invalid gamma structure.");
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auto gamma_begin = std::sregex_iterator(gammaString.begin(), gammaString.end(), rex_g);
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auto gamma_end = std::sregex_iterator();
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int nGamma = std::distance(gamma_begin, gamma_end);
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//couldn't find out how to count the size in the iterator, other than looping through it...
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/* int nGamma=0;
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for (std::sregex_iterator i = gamma_begin; i != gamma_end; ++i) {
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nGamma++;
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}
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*/
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gammaList.resize(nGamma/4);
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std::vector<std::string> gS;
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gS.resize(nGamma);
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//even more ugly workarounds here...
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int iG=0;
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for (std::sregex_iterator i = gamma_begin; i != gamma_end; ++i) {
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std::smatch match = *i;
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gS[iG] = match.str();
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iG++;
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}
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for (int i = 0; i < gammaList.size(); i++){
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std::vector<Gamma::Algebra> gS1 = strToVec<Gamma::Algebra>(gS[4*i]);
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std::vector<Gamma::Algebra> gS2 = strToVec<Gamma::Algebra>(gS[4*i+1]);
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std::vector<Gamma::Algebra> gS3 = strToVec<Gamma::Algebra>(gS[4*i+2]);
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std::vector<Gamma::Algebra> gS4 = strToVec<Gamma::Algebra>(gS[4*i+3]);
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gammaList[i].first.first=gS1[0];
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gammaList[i].first.second=gS2[0];
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gammaList[i].second.first=gS3[0];
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gammaList[i].second.second=gS4[0];
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}
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}
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// setup ///////////////////////////////////////////////////////////////////////
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template <typename FImpl1, typename FImpl2, typename FImpl3>
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void TBaryon<FImpl1, FImpl2, FImpl3>::setup(void)
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{
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envTmpLat(LatticeComplex, "c");
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envTmpLat(LatticeComplex, "c2");
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}
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// execution ///////////////////////////////////////////////////////////////////
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template <typename FImpl1, typename FImpl2, typename FImpl3>
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void TBaryon<FImpl1, FImpl2, FImpl3>::execute(void)
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{
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std::vector<std::string> quarks = strToVec<std::string>(par().quarks);
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std::vector<double> prefactors = strToVec<double>(par().prefactors);
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int nQ=quarks.size();
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const int parity {par().parity.size()>0 ? std::stoi(par().parity) : 1};
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std::vector<GammaABPair> gammaList;
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parseGammaString(gammaList);
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assert(prefactors.size()==nQ && "number of prefactors needs to match number of quark-structures.");
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for (int iQ = 0; iQ < nQ; iQ++)
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assert(quarks[iQ].size()==3 && "quark-structures must consist of 3 quarks each.");
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LOG(Message) << "Computing baryon contractions '" << getName() << "'" << std::endl;
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for (int iQ1 = 0; iQ1 < nQ; iQ1++)
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for (int iQ2 = 0; iQ2 < nQ; iQ2++)
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LOG(Message) << prefactors[iQ1]*prefactors[iQ2] << "*<" << quarks[iQ1] << "|" << quarks[iQ2] << ">" << std::endl;
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LOG(Message) << " using quarks " << par().q1 << "', " << par().q2 << "', and '" << par().q3 << std::endl;
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for (int iG = 0; iG < gammaList.size(); iG++)
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LOG(Message) << "' with (Gamma^A,Gamma^B)_left = ( " << gammaList[iG].first.first << " , " << gammaList[iG].first.second << "') and (Gamma^A,Gamma^B)_right = ( " << gammaList[iG].second.first << " , " << gammaList[iG].second.second << ")" << std::endl;
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LOG(Message) << "and parity " << parity << " using sink " << par().sink << "." << std::endl;
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envGetTmp(LatticeComplex, c);
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envGetTmp(LatticeComplex, c2);
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int nt = env().getDim(Tp);
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std::vector<TComplex> buf;
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TComplex cs;
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TComplex ch;
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std::vector<Result> result;
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Result r;
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r.info.parity = parity;
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r.info.quarks = par().quarks;
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r.info.prefactors = par().prefactors;
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if (envHasType(SlicedPropagator1, par().q1) and
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envHasType(SlicedPropagator2, par().q2) and
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envHasType(SlicedPropagator3, par().q3))
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{
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auto &q1 = envGet(SlicedPropagator1, par().q1);
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auto &q2 = envGet(SlicedPropagator2, par().q2);
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auto &q3 = envGet(SlicedPropagator3, par().q3);
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for (unsigned int i = 0; i < gammaList.size(); ++i)
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{
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r.info.gammaA_left = gammaList[i].first.first;
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r.info.gammaB_left = gammaList[i].first.second;
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r.info.gammaA_right = gammaList[i].second.first;
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r.info.gammaB_right = gammaList[i].second.second;
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Gamma gAl(gammaList[i].first.first);
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Gamma gBl(gammaList[i].first.second);
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Gamma gAr(gammaList[i].second.first);
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Gamma gBr(gammaList[i].second.second);
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LOG(Message) << "(propagator already sinked)" << std::endl;
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r.corr.clear();
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for (unsigned int t = 0; t < buf.size(); ++t)
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{
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cs = Zero();
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for (int iQ1 = 0; iQ1 < nQ; iQ1++){
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for (int iQ2 = 0; iQ2 < nQ; iQ2++){
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BaryonUtils<FIMPL>::ContractBaryons_Sliced(q1[t],q2[t],q3[t],gAl,gBl,gAr,gBr,quarks[iQ1].c_str(),quarks[iQ2].c_str(),parity,ch);
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cs += prefactors[iQ1]*prefactors[iQ2]*ch;
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}
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}
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r.corr.push_back(TensorRemove(cs));
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}
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result.push_back(r);
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}
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}
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else
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{
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auto &q1 = envGet(PropagatorField1, par().q1);
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auto &q2 = envGet(PropagatorField2, par().q2);
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auto &q3 = envGet(PropagatorField3, par().q3);
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for (unsigned int i = 0; i < gammaList.size(); ++i)
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{
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r.info.gammaA_left = gammaList[i].first.first;
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r.info.gammaB_left = gammaList[i].first.second;
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r.info.gammaA_right = gammaList[i].second.first;
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r.info.gammaB_right = gammaList[i].second.second;
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Gamma gAl(gammaList[i].first.first);
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Gamma gBl(gammaList[i].first.second);
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Gamma gAr(gammaList[i].second.first);
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Gamma gBr(gammaList[i].second.second);
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std::string ns;
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ns = vm().getModuleNamespace(env().getObjectModule(par().sink));
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if (ns == "MSource")
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{
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c=Zero();
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for (int iQ1 = 0; iQ1 < nQ; iQ1++){
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for (int iQ2 = 0; iQ2 < nQ; iQ2++){
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BaryonUtils<FIMPL>::ContractBaryons(q1,q2,q3,gAl,gBl,gAr,gBr,quarks[iQ1].c_str(),quarks[iQ2].c_str(),parity,c2);
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c+=prefactors[iQ1]*prefactors[iQ2]*c2;
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}
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}
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PropagatorField1 &sink = envGet(PropagatorField1, par().sink);
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auto test = closure(trace(sink*c));
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sliceSum(test, buf, Tp);
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}
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else if (ns == "MSink")
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{
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c=Zero();
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for (int iQ1 = 0; iQ1 < nQ; iQ1++){
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for (int iQ2 = 0; iQ2 < nQ; iQ2++){
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BaryonUtils<FIMPL>::ContractBaryons(q1,q2,q3,gAl,gBl,gAr,gBr,quarks[iQ1].c_str(),quarks[iQ2].c_str(),parity,c2);
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c+=prefactors[iQ1]*prefactors[iQ2]*c2;
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}
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}
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SinkFnScalar &sink = envGet(SinkFnScalar, par().sink);
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buf = sink(c);
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}
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r.corr.clear();
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for (unsigned int t = 0; t < buf.size(); ++t)
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{
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r.corr.push_back(TensorRemove(buf[t]));
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}
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result.push_back(r);
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}
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}
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saveResult(par().output, "baryon", result);
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}
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END_MODULE_NAMESPACE
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END_HADRONS_NAMESPACE
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#endif // Hadrons_MContraction_Baryon_hpp_
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