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Grid/lib/qcd/modules/ActionModules.h

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/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
Source file: ./lib/qcd/modules/ActionModules.h
Copyright (C) 2016
Author: Guido Cossu <guido.cossu@ed.ac.uk>
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License along
with this program; if not, write to the Free Software Foundation, Inc.,
51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
See the full license in the file "LICENSE" in the top level distribution
directory
*************************************************************************************/
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/* END LEGAL */
#ifndef ACTION_MODULES_H
#define ACTION_MODULES_H
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/*
Define loadable, serializable modules
for the HMC execution
*/
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NAMESPACE_BEGIN(Grid);
//////////////////////////////////////////////
// Actions
//////////////////////////////////////////////
template <class Product, class R>
class ActionModuleBase: public HMCModuleBase<Product>{
public:
typedef R Resource;
virtual void acquireResource(R& ){};
};
template <class ActionType, class APar>
class ActionModule
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: public Parametrized<APar>,
public ActionModuleBase< QCD::Action<typename ActionType::GaugeField> , QCD::GridModule > {
public:
typedef ActionModuleBase< QCD::Action<typename ActionType::GaugeField>, QCD::GridModule > Base;
typedef typename Base::Product Product;
typedef APar Parameters;
std::unique_ptr<ActionType> ActionPtr;
ActionModule(APar Par) : Parametrized<APar>(Par) {}
template <class ReaderClass>
ActionModule(Reader<ReaderClass>& Reader) : Parametrized<APar>(Reader){};
virtual void print_parameters(){
Parametrized<APar>::print_parameters();
}
Product* getPtr() {
if (!ActionPtr) initialize();
return ActionPtr.get();
}
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private:
virtual void initialize() = 0;
};
//////////////////////////
// Modules
//////////////////////////
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class PlaqPlusRectangleGaugeActionParameters : Serializable {
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public:
GRID_SERIALIZABLE_CLASS_MEMBERS(PlaqPlusRectangleGaugeActionParameters,
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RealD, c_plaq,
RealD, c_rect);
};
class RBCGaugeActionParameters : Serializable {
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public:
GRID_SERIALIZABLE_CLASS_MEMBERS(RBCGaugeActionParameters,
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RealD, beta,
RealD, c1);
};
class BetaGaugeActionParameters : Serializable {
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public:
GRID_SERIALIZABLE_CLASS_MEMBERS(BetaGaugeActionParameters,
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RealD, beta);
};
template <class Impl >
class WilsonGModule: public ActionModule<WilsonGaugeAction<Impl>, BetaGaugeActionParameters> {
typedef ActionModule<WilsonGaugeAction<Impl>, BetaGaugeActionParameters> ActionBase;
using ActionBase::ActionBase; // for constructors
// acquire resource
virtual void initialize(){
this->ActionPtr.reset(new WilsonGaugeAction<Impl>(this->Par_.beta));
}
};
template <class Impl >
class PlaqPlusRectangleGModule: public ActionModule<PlaqPlusRectangleAction<Impl>, PlaqPlusRectangleGaugeActionParameters> {
typedef ActionModule<PlaqPlusRectangleAction<Impl>, PlaqPlusRectangleGaugeActionParameters> ActionBase;
using ActionBase::ActionBase; // for constructors
// acquire resource
virtual void initialize(){
this->ActionPtr.reset(new PlaqPlusRectangleAction<Impl>(this->Par_.c_plaq, this->Par_.c_rect));
}
};
template <class Impl >
class RBCGModule: public ActionModule<RBCGaugeAction<Impl>, RBCGaugeActionParameters> {
typedef ActionModule<RBCGaugeAction<Impl>, RBCGaugeActionParameters> ActionBase;
using ActionBase::ActionBase; // for constructors
// acquire resource
virtual void initialize(){
this->ActionPtr.reset(new RBCGaugeAction<Impl>(this->Par_.beta, this->Par_.c1));
}
};
template <class Impl >
class SymanzikGModule: public ActionModule<SymanzikGaugeAction<Impl>, BetaGaugeActionParameters> {
typedef ActionModule<SymanzikGaugeAction<Impl>, BetaGaugeActionParameters> ActionBase;
using ActionBase::ActionBase; // for constructors
// acquire resource
virtual void initialize(){
this->ActionPtr.reset(new SymanzikGaugeAction<Impl>(this->Par_.beta));
}
};
template <class Impl >
class IwasakiGModule: public ActionModule<IwasakiGaugeAction<Impl>, BetaGaugeActionParameters> {
typedef ActionModule<IwasakiGaugeAction<Impl>, BetaGaugeActionParameters> ActionBase;
using ActionBase::ActionBase; // for constructors
// acquire resource
virtual void initialize(){
this->ActionPtr.reset(new IwasakiGaugeAction<Impl>(this->Par_.beta));
}
};
template <class Impl >
class DBW2GModule: public ActionModule<DBW2GaugeAction<Impl>, BetaGaugeActionParameters> {
typedef ActionModule<DBW2GaugeAction<Impl>, BetaGaugeActionParameters> ActionBase;
using ActionBase::ActionBase; // for constructors
// acquire resource
virtual void initialize(){
this->ActionPtr.reset(new DBW2GaugeAction<Impl>(this->Par_.beta));
}
};
/////////////////////////////////////////
// Fermion Actions
/////////////////////////////////////////
template <class Impl, template <typename> class FermionA, class Params = NoParameters >
class PseudoFermionModuleBase: public ActionModule<FermionA<Impl>, Params> {
protected:
typedef ActionModule<FermionA<Impl>, Params> ActionBase;
using ActionBase::ActionBase; // for constructors
typedef std::unique_ptr<FermionOperatorModuleBase<FermionOperator<Impl>> > operator_type;
typedef std::unique_ptr<HMCModuleBase<OperatorFunction<typename Impl::FermionField> > > solver_type;
template <class ReaderClass>
void getFermionOperator(Reader<ReaderClass>& Reader, operator_type &fo, std::string section_name){
auto &FOFactory = HMC_FermionOperatorModuleFactory<fermionop_string, Impl, ReaderClass>::getInstance();
Reader.push(section_name);
std::string op_name;
read(Reader,"name", op_name);
fo = FOFactory.create(op_name, Reader);
Reader.pop();
}
template <class ReaderClass>
void getSolverOperator(Reader<ReaderClass>& Reader, solver_type &so, std::string section_name){
auto& SolverFactory = HMC_SolverModuleFactory<solver_string, typename Impl::FermionField, ReaderClass>::getInstance();
Reader.push(section_name);
std::string solv_name;
read(Reader,"name", solv_name);
so = SolverFactory.create(solv_name, Reader);
Reader.pop();
}
};
template <class Impl >
class TwoFlavourFModule: public PseudoFermionModuleBase<Impl, TwoFlavourPseudoFermionAction>{
typedef PseudoFermionModuleBase<Impl, TwoFlavourPseudoFermionAction> Base;
using Base::Base;
typename Base::operator_type fop_mod;
typename Base::solver_type solver_mod;
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public:
virtual void acquireResource(typename Base::Resource& GridMod){
fop_mod->AddGridPair(GridMod);
}
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// constructor
template <class ReaderClass>
TwoFlavourFModule(Reader<ReaderClass>& R): Base(R) {
this->getSolverOperator(R, solver_mod, "Solver");
this->getFermionOperator(R, fop_mod, "Operator");
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}
// acquire resource
virtual void initialize() {
// here temporarily assuming that the force and action solver are the same
this->ActionPtr.reset(new TwoFlavourPseudoFermionAction<Impl>(*(this->fop_mod->getPtr()), *(this->solver_mod->getPtr()), *(this->solver_mod->getPtr())));
}
};
// very similar, I could have templated this but it is overkilling
template <class Impl >
class TwoFlavourEOFModule: public PseudoFermionModuleBase<Impl, TwoFlavourEvenOddPseudoFermionAction>{
typedef PseudoFermionModuleBase<Impl, TwoFlavourEvenOddPseudoFermionAction> Base;
using Base::Base;
typename Base::operator_type fop_mod;
typename Base::solver_type solver_mod;
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public:
virtual void acquireResource(typename Base::Resource& GridMod){
fop_mod->AddGridPair(GridMod);
}
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// constructor
template <class ReaderClass>
TwoFlavourEOFModule(Reader<ReaderClass>& R): PseudoFermionModuleBase<Impl, TwoFlavourEvenOddPseudoFermionAction>(R) {
this->getSolverOperator(R, solver_mod, "Solver");
this->getFermionOperator(R, fop_mod, "Operator");
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}
// acquire resource
virtual void initialize() {
// here temporarily assuming that the force and action solver are the same
this->ActionPtr.reset(new TwoFlavourEvenOddPseudoFermionAction<Impl>(*(this->fop_mod->getPtr()), *(this->solver_mod->getPtr()), *(this->solver_mod->getPtr())));
}
};
template <class Impl >
class TwoFlavourRatioFModule: public PseudoFermionModuleBase<Impl, TwoFlavourRatioPseudoFermionAction>{
typedef PseudoFermionModuleBase<Impl, TwoFlavourRatioPseudoFermionAction> Base;
using Base::Base;
typename Base::operator_type fop_numerator_mod;
typename Base::operator_type fop_denominator_mod;
typename Base::solver_type solver_mod;
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public:
virtual void acquireResource(typename Base::Resource& GridMod){
fop_numerator_mod->AddGridPair(GridMod);
fop_denominator_mod->AddGridPair(GridMod);
}
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// constructor
template <class ReaderClass>
TwoFlavourRatioFModule(Reader<ReaderClass>& R): PseudoFermionModuleBase<Impl, TwoFlavourRatioPseudoFermionAction>(R) {
this->getSolverOperator(R, solver_mod, "Solver");
this->getFermionOperator(R, fop_numerator_mod, "Numerator");
this->getFermionOperator(R, fop_denominator_mod, "Denominator");
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}
// acquire resource
virtual void initialize() {
// here temporarily assuming that the force and action solver are the same
this->ActionPtr.reset(new TwoFlavourRatioPseudoFermionAction<Impl>(*(this->fop_numerator_mod->getPtr()),
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*(this->fop_denominator_mod->getPtr()), *(this->solver_mod->getPtr()), *(this->solver_mod->getPtr())));
}
};
template <class Impl >
class TwoFlavourRatioEOFModule: public PseudoFermionModuleBase<Impl, TwoFlavourEvenOddRatioPseudoFermionAction>{
typedef PseudoFermionModuleBase<Impl, TwoFlavourEvenOddRatioPseudoFermionAction> Base;
using Base::Base;
typename Base::operator_type fop_numerator_mod;
typename Base::operator_type fop_denominator_mod;
typename Base::solver_type solver_mod;
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public:
virtual void acquireResource(typename Base::Resource& GridMod){
fop_numerator_mod->AddGridPair(GridMod);
fop_denominator_mod->AddGridPair(GridMod);
}
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// constructor
template <class ReaderClass>
TwoFlavourRatioEOFModule(Reader<ReaderClass>& R): Base(R) {
this->getSolverOperator(R, solver_mod, "Solver");
this->getFermionOperator(R, fop_numerator_mod, "Numerator");
this->getFermionOperator(R, fop_denominator_mod, "Denominator");
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}
// acquire resource
virtual void initialize() {
// here temporarily assuming that the force and action solver are the same
this->ActionPtr.reset(new TwoFlavourEvenOddRatioPseudoFermionAction<Impl>(*(this->fop_numerator_mod->getPtr()),
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*(this->fop_denominator_mod->getPtr()), *(this->solver_mod->getPtr()), *(this->solver_mod->getPtr())));
}
};
template <class Impl >
class OneFlavourFModule: public PseudoFermionModuleBase<Impl, OneFlavourRationalPseudoFermionAction, OneFlavourRationalParams>{
typedef PseudoFermionModuleBase<Impl, OneFlavourRationalPseudoFermionAction, OneFlavourRationalParams> Base;
using Base::Base;
typename Base::operator_type fop_mod;
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public:
virtual void acquireResource(typename Base::Resource& GridMod){
fop_mod->AddGridPair(GridMod);
}
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// constructor
template <class ReaderClass>
OneFlavourFModule(Reader<ReaderClass>& R): Base(R) {
this->getFermionOperator(R, fop_mod, "Operator");
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}
// acquire resource
virtual void initialize() {
this->ActionPtr.reset(new OneFlavourRationalPseudoFermionAction<Impl>(*(this->fop_mod->getPtr()), this->Par_ ));
}
};
template <class Impl >
class OneFlavourEOFModule:
public PseudoFermionModuleBase<Impl, OneFlavourEvenOddRationalPseudoFermionAction, OneFlavourRationalParams>
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{
typedef PseudoFermionModuleBase<Impl, OneFlavourEvenOddRationalPseudoFermionAction, OneFlavourRationalParams> Base;
using Base::Base;
typename Base::operator_type fop_mod;
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public:
virtual void acquireResource(typename Base::Resource& GridMod){
fop_mod->AddGridPair(GridMod);
}
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// constructor
template <class ReaderClass>
OneFlavourEOFModule(Reader<ReaderClass>& R): Base(R) {
this->getFermionOperator(R, fop_mod, "Operator");
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}
// acquire resource
virtual void initialize() {
this->ActionPtr.reset(new OneFlavourEvenOddRationalPseudoFermionAction<Impl>(*(this->fop_mod->getPtr()), this->Par_ ));
}
};
template <class Impl >
class OneFlavourRatioFModule:
public PseudoFermionModuleBase<Impl, OneFlavourRatioRationalPseudoFermionAction, OneFlavourRationalParams>
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{
typedef PseudoFermionModuleBase<Impl, OneFlavourRatioRationalPseudoFermionAction, OneFlavourRationalParams> Base;
using Base::Base;
typename Base::operator_type fop_numerator_mod;
typename Base::operator_type fop_denominator_mod;
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public:
virtual void acquireResource(typename Base::Resource& GridMod){
fop_numerator_mod->AddGridPair(GridMod);
fop_denominator_mod->AddGridPair(GridMod);
}
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// constructor
template <class ReaderClass>
OneFlavourRatioFModule(Reader<ReaderClass>& R): Base(R) {
this->getFermionOperator(R, fop_numerator_mod, "Numerator");
this->getFermionOperator(R, fop_denominator_mod, "Denominator");
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}
// acquire resource
virtual void initialize() {
this->ActionPtr.reset(new OneFlavourRatioRationalPseudoFermionAction<Impl>( *(this->fop_numerator_mod->getPtr()),
*(this->fop_denominator_mod->getPtr()),
this->Par_ ));
}
};
template <class Impl >
class OneFlavourRatioEOFModule:
public PseudoFermionModuleBase<Impl, OneFlavourEvenOddRatioRationalPseudoFermionAction, OneFlavourRationalParams>
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{
typedef PseudoFermionModuleBase<Impl, OneFlavourEvenOddRatioRationalPseudoFermionAction, OneFlavourRationalParams> Base;
using Base::Base;
typename Base::operator_type fop_numerator_mod;
typename Base::operator_type fop_denominator_mod;
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public:
virtual void acquireResource(typename Base::Resource& GridMod){
fop_numerator_mod->AddGridPair(GridMod);
fop_denominator_mod->AddGridPair(GridMod);
}
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// constructor
template <class ReaderClass>
OneFlavourRatioEOFModule(Reader<ReaderClass>& R): Base(R) {
this->getFermionOperator(R, fop_numerator_mod, "Numerator");
this->getFermionOperator(R, fop_denominator_mod, "Denominator");
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}
// acquire resource
virtual void initialize() {
this->ActionPtr.reset(new OneFlavourEvenOddRatioRationalPseudoFermionAction<Impl>(*(this->fop_numerator_mod->getPtr()),
*(this->fop_denominator_mod->getPtr()),
this->Par_ ));
}
};
}// QCD temporarily here
////////////////////////////////////////
// Factories specialisations
////////////////////////////////////////
// use the same classed defined by Antonin, does not make sense to rewrite
// Factory is perfectly fine
// Registar must be changed because I do not want to use the ModuleFactory
// explicit ref to LatticeGaugeField must be changed or put in the factory
//typedef ActionModuleBase< QCD::Action< QCD::LatticeGaugeField >, QCD::GridModule > HMC_LGTActionModBase;
//typedef ActionModuleBase< QCD::Action< QCD::LatticeReal >, QCD::GridModule > HMC_ScalarActionModBase;
template <char const *str, class Field, class ReaderClass >
class HMC_ActionModuleFactory
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: public Factory < ActionModuleBase< QCD::Action< Field >, QCD::GridModule > , Reader<ReaderClass> > {
public:
typedef Reader<ReaderClass> TheReader;
// use SINGLETON FUNCTOR MACRO HERE
HMC_ActionModuleFactory(const HMC_ActionModuleFactory& e) = delete;
void operator=(const HMC_ActionModuleFactory& e) = delete;
static HMC_ActionModuleFactory& getInstance(void) {
static HMC_ActionModuleFactory e;
return e;
}
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private:
HMC_ActionModuleFactory(void) = default;
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std::string obj_type() const {
return std::string(str);
}
};
extern char gauge_string[];
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NAMESPACE_END(Grid);
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#endif //HMC_MODULES_H