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Grid/extras/Hadrons/Modules/MUtilities/TestSeqGamma.hpp

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#ifndef Hadrons_MUtilities_TestSeqGamma_hpp_
#define Hadrons_MUtilities_TestSeqGamma_hpp_
#include <Grid/Hadrons/Global.hpp>
#include <Grid/Hadrons/Module.hpp>
#include <Grid/Hadrons/ModuleFactory.hpp>
BEGIN_HADRONS_NAMESPACE
/******************************************************************************
* TestSeqGamma *
******************************************************************************/
BEGIN_MODULE_NAMESPACE(MUtilities)
class TestSeqGammaPar: Serializable
{
public:
GRID_SERIALIZABLE_CLASS_MEMBERS(TestSeqGammaPar,
std::string, q,
std::string, qSeq,
std::string, origin,
Gamma::Algebra, gamma,
unsigned int, t_g);
};
template <typename FImpl>
class TTestSeqGamma: public Module<TestSeqGammaPar>
{
public:
FERM_TYPE_ALIASES(FImpl,);
public:
// constructor
TTestSeqGamma(const std::string name);
// destructor
virtual ~TTestSeqGamma(void) = default;
// dependency relation
virtual std::vector<std::string> getInput(void);
virtual std::vector<std::string> getOutput(void);
// setup
virtual void setup(void);
// execution
virtual void execute(void);
};
MODULE_REGISTER_NS(TestSeqGamma, TTestSeqGamma<FIMPL>, MUtilities);
/******************************************************************************
* TTestSeqGamma implementation *
******************************************************************************/
// constructor /////////////////////////////////////////////////////////////////
template <typename FImpl>
TTestSeqGamma<FImpl>::TTestSeqGamma(const std::string name)
: Module<TestSeqGammaPar>(name)
{}
// dependencies/products ///////////////////////////////////////////////////////
template <typename FImpl>
std::vector<std::string> TTestSeqGamma<FImpl>::getInput(void)
{
std::vector<std::string> in = {par().q, par().qSeq};
return in;
}
template <typename FImpl>
std::vector<std::string> TTestSeqGamma<FImpl>::getOutput(void)
{
std::vector<std::string> out = {getName()};
return out;
}
// setup ///////////////////////////////////////////////////////////////////////
template <typename FImpl>
void TTestSeqGamma<FImpl>::setup(void)
{
}
// execution ///////////////////////////////////////////////////////////////////
template <typename FImpl>
void TTestSeqGamma<FImpl>::execute(void)
{
PropagatorField &q = *env().template getObject<PropagatorField>(par().q);
PropagatorField &qSeq = *env().template getObject<PropagatorField>(par().qSeq);
LatticeComplex c(env().getGrid());
Gamma g5(Gamma::Algebra::Gamma5);
Gamma g(par().gamma);
SitePropagator qSite;
Complex test, check;
std::vector<TComplex> check_buf;
// Check sequential insertion of gamma matrix gives same result as
// insertion of gamma at sink upon contraction. Assume q uses a point
// source.
std::vector<int> siteCoord;
siteCoord = strToVec<int>(par().origin);
peekSite(qSite, qSeq, siteCoord);
test = trace(g*qSite);
c = trace(adj(g)*g5*adj(q)*g5*g*q);
sliceSum(c, check_buf, Tp);
check = TensorRemove(check_buf[par().t_g]);
LOG(Message) << "Seq Result = " << abs(test) << std::endl;
LOG(Message) << "Reference = " << abs(check) << std::endl;
// Check difference = 0
check -= test;
LOG(Message) << "Consistency check for sequential " << par().gamma
<< " insertion = " << abs(check) << std::endl;
}
END_MODULE_NAMESPACE
END_HADRONS_NAMESPACE
#endif // Hadrons_TestSeqGamma_hpp_