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Grid/Hadrons/Modules/MSource/Gauss.hpp
2019-08-15 01:43:00 +01:00

174 lines
5.5 KiB
C++

#ifndef Hadrons_MSource_Gauss_hpp_
#define Hadrons_MSource_Gauss_hpp_
#include <Hadrons/Global.hpp>
#include <Hadrons/Module.hpp>
#include <Hadrons/ModuleFactory.hpp>
BEGIN_HADRONS_NAMESPACE
/******************************************************************************
* Gauss *
* result[n] = 1/(sqrt(2*pi)*width)^dim *
* * exp(-|n-position|^2/(2*width^2)) *
* * exp(i*2*pi/L*mom*n) *
* where: *
* n=(n[0],n[1],...,n[dim-1]) (lattice coordinate) *
* dim=Nd-1 *
******************************************************************************/
BEGIN_MODULE_NAMESPACE(MSource)
class GaussPar: Serializable
{
public:
GRID_SERIALIZABLE_CLASS_MEMBERS(GaussPar,
std::string, position,
std::string, mom,
Integer, tA,
Integer, tB,
double, width);
};
template <typename FImpl>
class TGauss: public Module<GaussPar>
{
BASIC_TYPE_ALIASES(FImpl,);
public:
// constructor
TGauss(const std::string name);
// destructor
virtual ~TGauss(void) {};
// 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);
private:
std::vector<int> position_;
std::vector<int> mom_;
};
MODULE_REGISTER_TMP(Gauss, TGauss<FIMPL>, MSource);
MODULE_REGISTER_TMP(ScalarGauss, TGauss<ScalarImplCR>, MSource);
/******************************************************************************
* TGauss implementation *
******************************************************************************/
// constructor /////////////////////////////////////////////////////////////////
template <typename FImpl>
TGauss<FImpl>::TGauss(const std::string name)
: Module<GaussPar>(name)
{}
// dependencies/products ///////////////////////////////////////////////////////
template <typename FImpl>
std::vector<std::string> TGauss<FImpl>::getInput(void)
{
std::vector<std::string> in;
return in;
}
template <typename FImpl>
std::vector<std::string> TGauss<FImpl>::getOutput(void)
{
std::vector<std::string> out = {getName()};
return out;
}
// setup ///////////////////////////////////////////////////////////////////////
template <typename FImpl>
void TGauss<FImpl>::setup(void)
{
auto parse_vector = [](const std::string &vec, int dim,
const std::string &desc)
{
std::vector<int> res = strToVec<int>(vec);
if(res.size() != dim) {
HADRONS_ERROR(Size, desc + " has "
+ std::to_string(res.size()) + " instead of "
+ std::to_string(dim) + " components");
}
return res;
};
position_ = parse_vector(par().position, env().getNd()-1, "position");
mom_ = parse_vector(par().mom, env().getNd(), "momentum");
envCreateLat(PropagatorField, getName());
envTmpLat(ComplexField, "component");
envTmpLat(ComplexField, "ScalarRho");
envTmp(LatticeInteger, "compHelper", 1, envGetGrid(ComplexField));
}
// execution ///////////////////////////////////////////////////////////////////
template <typename FImpl>
void TGauss<FImpl>::execute(void)
{
auto &rho = envGet(PropagatorField, getName());
envGetTmp(ComplexField, component);
envGetTmp(ComplexField, ScalarRho);
envGetTmp(LatticeInteger, compHelper);
const int dim=env().getNd()-1;
const Real fact=-0.5/std::pow(par().width,2);
const Complex i(0.0, 1.0);
const Real Pi(M_PI);
const SitePropagator idMat=[](){ SitePropagator s; s=1.; return s; }();
ScalarRho=Zero();
for(int mu=0; mu<dim; mu++) {
assert(env().getDim(mu)%2==0);
assert(position_[mu]>=0 && position_[mu]<env().getDim(mu));
const int Lmu=env().getDim(mu);
const int LmuHalf=Lmu/2;
const int posMu=position_[mu];
LatticeCoordinate(component, mu);
LatticeCoordinate(compHelper, mu);
//spatial dimensions of momentum phase
ScalarRho+=(i*(mom_[mu]*2*Pi/Lmu))*component;
//Gauss distribution
component-=Complex(posMu);
if(posMu<LmuHalf)
{
component=where((compHelper>Integer(posMu+LmuHalf)),
component-Complex(Lmu),
component);
}
else
{
component=where((compHelper<=Integer(posMu-LmuHalf)),
component+Complex(Lmu),
component);
}
ScalarRho+=component*component*fact;
}
//time component of momentum phase
LatticeCoordinate(component, dim);
ScalarRho+=(i*(mom_.at(dim)*2*Pi/env().getDim(dim)))*component;
//compute scalar result
ScalarRho=exp(ScalarRho)*Complex(std::pow(sqrt(2*Pi)*par().width,-dim));
//select time slices
LatticeCoordinate(compHelper, dim);
ScalarRho=where((compHelper>=par().tA && compHelper<=par().tB),
ScalarRho,
0.*ScalarRho);
//compute output field rho
rho=ScalarRho*idMat;
}
END_MODULE_NAMESPACE
END_HADRONS_NAMESPACE
#endif // Hadrons_MSource_Gauss_hpp_