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Grid/tests/Test_gamma.cc
Peter Boyle 84b5c7217d CG test written and passes i.e. converges with small true residual
in RedBlack MpcDagMpc, Unprec MdagM and Schur red black solver for
each of.

DomainWallFermion
MobiusFermion
MobiusZolotarevFermion
ScaledShamirFermion
ScaledShamirZolotarevFermion
2015-06-03 10:54:03 +01:00

197 lines
5.7 KiB
C++

#include <Grid.h>
#include <parallelIO/GridNerscIO.h>
using namespace std;
using namespace Grid;
using namespace Grid::QCD;
//template<class vobj> class is_pod< iScalar<vobj> >
//{
//
//};
int main (int argc, char ** argv)
{
Grid_init(&argc,&argv);
std::vector<int> latt_size = GridDefaultLatt();
std::vector<int> simd_layout = GridDefaultSimd(4,vComplexF::Nsimd());
std::vector<int> mpi_layout = GridDefaultMpi();
GridCartesian Grid(latt_size,simd_layout,mpi_layout);
GridParallelRNG pRNG(&Grid);
pRNG.SeedRandomDevice();
GridSerialRNG sRNG;
sRNG.SeedRandomDevice();
SpinMatrix ident; ident=zero;
SpinMatrix rnd ; random(sRNG,rnd);
SpinMatrix ll; ll=zero;
SpinMatrix rr; rr=zero;
SpinMatrix result;
SpinVector lv; random(sRNG,lv);
SpinVector rv; random(sRNG,rv);
// std::cout << " Is pod " << std::is_pod<SpinVector>::value << std::endl;
// std::cout << " Is pod double " << std::is_pod<double>::value << std::endl;
// std::cout << " Is pod ComplexF " << std::is_pod<ComplexF>::value << std::endl;
// std::cout << " Is triv double " << std::has_trivial_default_constructor<double>::value << std::endl;
// std::cout << " Is triv ComplexF " << std::has_trivial_default_constructor<ComplexF>::value << std::endl;
// std::cout << " Is pod Scalar<double> " << std::is_pod<iScalar<double> >::value << std::endl;
// std::cout << " Is pod Scalar<ComplexF> " << std::is_pod<iScalar<ComplexF> >::value << std::endl;
// std::cout << " Is pod Scalar<vComplexF> " << std::is_pod<iScalar<vComplexF> >::value << std::endl;
// std::cout << " Is pod Scalar<vComplexD> " << std::is_pod<iScalar<vComplexD> >::value << std::endl;
// std::cout << " Is pod Scalar<vRealF> " << std::is_pod<iScalar<vRealF> >::value << std::endl;
// std::cout << " Is pod Scalar<vRealD> " << std::is_pod<iScalar<vRealD> >::value << std::endl;
// std::cout << " Is triv Scalar<double> " <<std::has_trivial_default_constructor<iScalar<double> >::value << std::endl;
// std::cout << " Is triv Scalar<vComplexD> "<<std::has_trivial_default_constructor<iScalar<vComplexD> >::value << std::endl;
for(int a=0;a<Ns;a++){
ident()(a,a) = ComplexF(1.0);
}
const Gamma::GammaMatrix *g = Gamma::GammaMatrices;
const char **list = Gamma::GammaMatrixNames;
result =ll*Gamma(g[0])*rr;
result =ll*Gamma(g[0]);
rv = Gamma(g[0])*lv;
for(int mu=0;mu<12;mu++){
result = Gamma(g[mu])* ident;
for(int i=0;i<Ns;i++){
if(i==0) std::cout << list[mu];
else std::cout << list[12];
std::cout<<"(";
for(int j=0;j<Ns;j++){
if ( abs(result()(i,j)())==0 ) {
std::cout<< " 0";
} else if ( abs(result()(i,j)() - ComplexF(0,1))==0){
std::cout<< " i";
} else if ( abs(result()(i,j)() + ComplexF(0,1))==0){
std::cout<< "-i";
} else if ( abs(result()(i,j)() - ComplexF(1,0))==0){
std::cout<< " 1";
} else if ( abs(result()(i,j)() + ComplexF(1,0))==0){
std::cout<< "-1";
}
std::cout<< ((j==Ns-1) ? ")" : "," );
}
std::cout << std::endl;
}
std::cout << std::endl;
}
std::cout << "Testing Gamma^2 - 1 = 0"<<std::endl;
for(int mu=0;mu<6;mu++){
result = Gamma(g[mu])* ident * Gamma(g[mu]);
result = result - ident;
double mag = TensorRemove(norm2(result));
std::cout << list[mu]<<" " << mag<<std::endl;
}
std::cout << "Testing (MinusGamma + G )M = 0"<<std::endl;
for(int mu=0;mu<6;mu++){
result = rnd * Gamma(g[mu]);
result = result + rnd * Gamma(g[mu+6]);
double mag = TensorRemove(norm2(result));
std::cout << list[mu]<<" " << mag<<std::endl;
}
std::cout << "Testing M(MinusGamma + G ) = 0"<<std::endl;
for(int mu=0;mu<6;mu++){
result = Gamma(g[mu]) *rnd;
result = result + Gamma(g[mu+6])*rnd;
double mag = TensorRemove(norm2(result));
std::cout << list[mu]<<" " << mag<<std::endl;
}
// Testing spins and reconstructs
SpinVector recon; random(sRNG,rv);
SpinVector full;
HalfSpinVector hsp,hsm;
// Xp
double mag;
spProjXp(hsm,rv);
spReconXp(recon,hsm);
full = rv + Gamma(Gamma::GammaX) *rv;
mag = TensorRemove(norm2(full-recon));
std::cout << "Xp "<< mag<<std::endl;
// Xm
spProjXm(hsm,rv);
spReconXm(recon,hsm);
full = rv - Gamma(Gamma::GammaX) *rv;
mag = TensorRemove(norm2(full-recon));
std::cout << "Xm "<< mag<<std::endl;
// Yp
spProjYp(hsm,rv);
spReconYp(recon,hsm);
full = rv + Gamma(Gamma::GammaY) *rv;
mag = TensorRemove(norm2(full-recon));
std::cout << "Yp "<< mag<<std::endl;
// Ym
spProjYm(hsm,rv);
spReconYm(recon,hsm);
full = rv - Gamma(Gamma::GammaY) *rv;
mag = TensorRemove(norm2(full-recon));
std::cout << "Ym "<< mag<<std::endl;
// Zp
spProjZp(hsm,rv);
spReconZp(recon,hsm);
full = rv + Gamma(Gamma::GammaZ) *rv;
mag = TensorRemove(norm2(full-recon));
std::cout << "Zp "<< mag<<std::endl;
// Zm
spProjZm(hsm,rv);
spReconZm(recon,hsm);
full = rv - Gamma(Gamma::GammaZ) *rv;
mag = TensorRemove(norm2(full-recon));
std::cout << "Zm "<< mag<<std::endl;
// Tp
spProjTp(hsm,rv);
spReconTp(recon,hsm);
full = rv + Gamma(Gamma::GammaT) *rv;
mag = TensorRemove(norm2(full-recon));
std::cout << "Tp "<< mag<<std::endl;
// Tm
spProjTm(hsm,rv);
spReconTm(recon,hsm);
full = rv - Gamma(Gamma::GammaT) *rv;
mag = TensorRemove(norm2(full-recon));
std::cout << "Tm "<< mag<<std::endl;
// 5p
spProj5p(hsm,rv);
spRecon5p(recon,hsm);
full = rv + Gamma(Gamma::Gamma5) *rv;
mag = TensorRemove(norm2(full-recon));
std::cout << "5p "<< mag<<std::endl;
// 5m
spProj5m(hsm,rv);
spRecon5m(recon,hsm);
full = rv - Gamma(Gamma::Gamma5) *rv;
mag = TensorRemove(norm2(full-recon));
std::cout << "5m "<< mag<<std::endl;
Grid_finalize();
}