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184 lines
5.8 KiB
C++
184 lines
5.8 KiB
C++
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/*************************************************************************************
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Grid physics library, www.github.com/paboyle/Grid
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Source file: ./tests/Test_gfield_shift.cc
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Copyright (C) 2015
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Author: Christopher Kelly <ckelly@bnl.gov>
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Author: Azusa Yamaguchi <ayamaguc@staffmail.ed.ac.uk>
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Author: Peter Boyle <paboyle@ph.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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//Test the shifting of the gauge field that respects the boundary conditions
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#include <Grid/Grid.h>
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using namespace Grid;
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;
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typedef ConjugateGimplR Gimpl; //can choose periodic / charge conjugate directions at wil
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typedef Gimpl::GaugeField GaugeField;
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typedef Gimpl::GaugeLinkField GaugeLinkField;
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typedef Gimpl::SiteGaugeField SiteGaugeField;
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typedef Gimpl::SiteGaugeLink SiteGaugeLink;
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GaugeField CshiftGaugeField(const GaugeField &U, const int dir, const int shift){
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GridBase *Grid = U.Grid();
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GaugeField out(Grid);
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GaugeLinkField Umu(Grid);
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for(int mu=0;mu<Grid->Nd();mu++){
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Umu = PeekIndex<LorentzIndex>(U, mu);
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Umu = Gimpl::CshiftLink(Umu,dir,shift);
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PokeIndex<LorentzIndex>(out,Umu,mu);
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}
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return out;
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}
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int main (int argc, char ** argv)
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{
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Grid_init(&argc,&argv);
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auto latt_size = GridDefaultLatt();
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auto simd_layout = GridDefaultSimd(4,vComplex::Nsimd());
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auto mpi_layout = GridDefaultMpi();
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std::vector<int> conj_dirs = {1,1,0,0};
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Gimpl::setDirections(conj_dirs);
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GridCartesian Fine(latt_size,simd_layout,mpi_layout);
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GridParallelRNG FineRNG(&Fine); FineRNG.SeedFixedIntegers(std::vector<int>({45,12,81,9}));
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GaugeField U(&Fine);
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GaugeField ShiftU(&Fine);
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GaugeLinkField link_field(&Fine), link_field_2(&Fine);
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//Like Test_cshift we put the lex coordinate index on each site but make it imaginary
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//so we can tell when it was complex conjugated
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LatticeComplex lex(&Fine);
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lex=Zero();
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U = Zero();
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{
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LatticeComplex coor(&Fine);
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Integer stride =1;
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for(int d=0;d<4;d++){
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LatticeCoordinate(coor,d);
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lex = lex + coor*stride;
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stride=stride*latt_size[d];
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}
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PokeIndex<ColourIndex>(link_field, lex, 0,0); //place on 0,0 element of link
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for(int mu=0;mu<Nd;mu++){
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link_field_2 = link_field + mu*stride; //add in lex-mapping of mu
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link_field_2 = ComplexD(0,1) * link_field_2; //make imaginary
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PokeIndex<LorentzIndex>(U, link_field_2, mu);
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}
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}
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std::stringstream ss;
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ss<<"error";
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for(int d=0;d<Fine._ndimension;d++){
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ss<<"."<<Fine._processor_coor[d];
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}
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ss<<"_wr_"<<Fine._processor;
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std::string fname(ss.str());
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std::ofstream ferr(fname);
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Integer vol4d = latt_size[0]*latt_size[1]*latt_size[2]*latt_size[3];
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bool fail = false;
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typename SiteGaugeField::scalar_object um;
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TComplex cm;
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for(int dir=0;dir<4;dir++){
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for(int shift=-latt_size[dir]+1;shift<latt_size[dir];shift++){
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if ( Fine.IsBoss() )
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std::cout<<GridLogMessage<<"Shifting by "<<shift<<" in direction "<<dir
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<< " dir is conj ? " << conj_dirs[dir] << std::endl;
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ShiftU = CshiftGaugeField(U,dir,shift);
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Coordinate coor(4);
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for(coor[3]=0;coor[3]<latt_size[3];coor[3]++){
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for(coor[2]=0;coor[2]<latt_size[2];coor[2]++){
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for(coor[1]=0;coor[1]<latt_size[1];coor[1]++){
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for(coor[0]=0;coor[0]<latt_size[0];coor[0]++){
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peekSite(um,ShiftU,coor);
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Coordinate scoor(coor);
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scoor[dir] = (scoor[dir]+shift + latt_size[dir])%latt_size[dir];
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Integer slex = scoor[0]
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+ latt_size[0]*scoor[1]
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+ latt_size[0]*latt_size[1]*scoor[2]
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+ latt_size[0]*latt_size[1]*latt_size[2]*scoor[3];
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for(int mu = 0 ; mu < 4; mu++){
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Integer slex_mu = slex + vol4d*mu;
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Complex scm(0,slex_mu); //imaginary
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if(
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( shift > 0 && coor[dir] >= latt_size[dir]-shift && conj_dirs[dir] )
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( shift < 0 && coor[dir] <= -shift-1 && conj_dirs[dir] )
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)
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scm = conjugate(scm); //CC if pulled over boundary
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cm = um(mu)()(0,0);
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RealD nrm = abs(scm-cm()()());
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//std::cout << cm << " " << scm << std::endl;
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Coordinate peer(4);
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Complex tmp =cm;
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Integer index=real(tmp);
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Integer cm_mu = index / vol4d;
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index = index % vol4d;
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Lexicographic::CoorFromIndex(peer,index,latt_size);
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if (nrm > 0){
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ferr<<"FAIL mu " << mu << " shift "<< shift<<" in dir "<< dir<<" ["<<coor[0]<<","<<coor[1]<<","<<coor[2]<<","<<coor[3]<<"] = "<< cm()()()<<" expect "<<scm<<" "<<nrm<<std::endl;
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ferr<<"Got mu "<< cm_mu << " site " <<index<<" : " << peer[0]<<","<<peer[1]<<","<<peer[2]<<","<<peer[3]<<std::endl;
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index=real(scm);
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Integer scm_mu = index / vol4d;
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index = index % vol4d;
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Lexicographic::CoorFromIndex(peer,index,latt_size);
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ferr<<"Expect mu " << scm_mu << " site " <<index<<": " << peer[0]<<","<<peer[1]<<","<<peer[2]<<","<<peer[3]<<std::endl;
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fail = true;
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}
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}
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}}}}
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}
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}
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if(fail) std::cout << "Test FAILED : see " << fname << " for more details" << std::endl;
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else std::cout << "Test Passed" << std::endl;
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Grid_finalize();
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}
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